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KlaraHDL
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hardware_code_and_sec_median

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require_extension('C'); WRITE_RVC_RS1S(RVC_RS1S & RVC_RS2S);
require_extension('C'); WRITE_RVC_RS1S(RVC_RS1S & insn.rvc_imm());
require_extension('C'); if (RVC_RS1S == 0) set_pc(pc + insn.rvc_b_imm());
require_extension('C'); if (RVC_RS1S != 0) set_pc(pc + insn.rvc_b_imm());
require_extension('C'); throw trap_breakpoint(pc);
require_extension('C'); require_extension('D'); require_fp; WRITE_RVC_FRS2S(f64(MMU.load_uint64(RVC_RS1S + insn.rvc_ld_imm())));
require_extension('C'); require_extension('D'); require_fp; WRITE_FRD(f64(MMU.load_uint64(RVC_SP + insn.rvc_ldsp_imm())));
require_extension('C'); if (xlen == 32) { require_extension('F'); require_fp; WRITE_RVC_FRS2S(f32(MMU.load_uint32(RVC_RS1S + insn.rvc_lw_imm()))); } else { // c.ld WRITE_RVC_RS2S(MMU.load_int64(RVC_RS1S + insn.rvc_ld_imm())); }
require_extension('C'); if (xlen == 32) { require_extension('F'); require_fp; WRITE_FRD(f32(MMU.load_uint32(RVC_SP + insn.rvc_lwsp_imm()))); } else { // c.ldsp require(insn.rvc_rd() != 0); WRITE_RD(MMU.load_int64(RVC_SP + insn.rvc_ldsp_imm())); }
require_extension('C'); require_extension('D'); require_fp; MMU.store_uint64(RVC_RS1S + insn.rvc_ld_imm(), RVC_FRS2S.v[0]);
require_extension('C'); require_extension('D'); require_fp; MMU.store_uint64(RVC_SP + insn.rvc_sdsp_imm(), RVC_FRS2.v[0]);
require_extension('C'); if (xlen == 32) { require_extension('F'); require_fp; MMU.store_uint32(RVC_RS1S + insn.rvc_lw_imm(), RVC_FRS2S.v[0]); } else { // c.sd MMU.store_uint64(RVC_RS1S + insn.rvc_ld_imm(), RVC_RS2S); }
require_extension('C'); if (xlen == 32) { require_extension('F'); require_fp; MMU.store_uint32(RVC_SP + insn.rvc_swsp_imm(), RVC_FRS2.v[0]); } else { // c.sdsp MMU.store_uint64(RVC_SP + insn.rvc_sdsp_imm(), RVC_RS2); }
require_extension('C'); set_pc(pc + insn.rvc_j_imm());
require_extension('C'); if (xlen == 32) { reg_t tmp = npc; set_pc(pc + insn.rvc_j_imm()); WRITE_REG(X_RA, tmp); } else { // c.addiw require(insn.rvc_rd() != 0); WRITE_RD(sext32(RVC_RS1 + insn.rvc_imm())); }
require_extension('C'); require(insn.rvc_rs1() != 0); reg_t tmp = npc; set_pc(RVC_RS1 & ~reg_t(1)); WRITE_REG(X_RA, tmp);
require_extension('C'); require(insn.rvc_rs1() != 0); set_pc(RVC_RS1 & ~reg_t(1));
require_extension('C'); WRITE_RD(insn.rvc_imm());
require_extension('C'); if (insn.rvc_rd() == 2) { // c.addi16sp require(insn.rvc_addi16sp_imm() != 0); WRITE_REG(X_SP, sext_xlen(RVC_SP + insn.rvc_addi16sp_imm())); } else { require(insn.rvc_imm() != 0); WRITE_RD(insn.rvc_imm() << 12); }
require_extension('C'); WRITE_RVC_RS2S(MMU.load_int32(RVC_RS1S + insn.rvc_lw_imm()));
require_extension('C'); require(insn.rvc_rd() != 0); WRITE_RD(MMU.load_int32(RVC_SP + insn.rvc_lwsp_imm()));
require_extension('C'); require(insn.rvc_rs2() != 0); WRITE_RD(RVC_RS2);
require_extension('C'); WRITE_RVC_RS1S(RVC_RS1S | RVC_RS2S);
require_extension('C'); require(insn.rvc_zimm() < xlen); WRITE_RD(sext_xlen(RVC_RS1 << insn.rvc_zimm()));
require_extension('C'); require(insn.rvc_zimm() < xlen); WRITE_RVC_RS1S(sext_xlen(sext_xlen(RVC_RS1S) >> insn.rvc_zimm()));
require_extension('C'); require(insn.rvc_zimm() < xlen); WRITE_RVC_RS1S(sext_xlen(zext_xlen(RVC_RS1S) >> insn.rvc_zimm()));
require_extension('C'); WRITE_RVC_RS1S(sext_xlen(RVC_RS1S - RVC_RS2S));
require_extension('C'); require_rv64; WRITE_RVC_RS1S(sext32(RVC_RS1S - RVC_RS2S));
require_extension('C'); MMU.store_uint32(RVC_RS1S + insn.rvc_lw_imm(), RVC_RS2S);
require_extension('C'); MMU.store_uint32(RVC_SP + insn.rvc_swsp_imm(), RVC_RS2);
require_extension('C'); WRITE_RVC_RS1S(RVC_RS1S ^ RVC_RS2S);
require_extension('M'); sreg_t lhs = sext_xlen(RS1); sreg_t rhs = sext_xlen(RS2); if(rhs == 0) WRITE_RD(UINT64_MAX); else if(lhs == INT64_MIN && rhs == -1) WRITE_RD(lhs); else WRITE_RD(sext_xlen(lhs / rhs));
require_extension('M'); reg_t lhs = zext_xlen(RS1); reg_t rhs = zext_xlen(RS2); if(rhs == 0) WRITE_RD(UINT64_MAX); else WRITE_RD(sext_xlen(lhs / rhs));
require_extension('M'); require_rv64; reg_t lhs = zext32(RS1); reg_t rhs = zext32(RS2); if(rhs == 0) WRITE_RD(UINT64_MAX); else WRITE_RD(sext32(lhs / rhs));
require_extension('M'); require_rv64; sreg_t lhs = sext32(RS1); sreg_t rhs = sext32(RS2); if(rhs == 0) WRITE_RD(UINT64_MAX); else WRITE_RD(sext32(lhs / rhs));
require_privilege(PRV_M); set_pc_and_serialize(STATE.dpc); p->set_privilege(STATE.dcsr.prv); /* We're not in Debug Mode anymore. */ STATE.dcsr.cause = 0; if (STATE.dcsr.step) STATE.single_step = STATE.STEP_STEPPING;
throw trap_breakpoint(pc);
switch (STATE.prv) { case PRV_U: throw trap_user_ecall(); case PRV_S: throw trap_supervisor_ecall(); case PRV_M: throw trap_machine_ecall(); default: abort(); }
require_extension('D'); require_fp; softfloat_roundingMode = RM; WRITE_FRD(f64_add(f64(FRS1), f64(FRS2))); set_fp_exceptions;
require_extension('Q'); require_fp; softfloat_roundingMode = RM; WRITE_FRD(f128_add(f128(FRS1), f128(FRS2))); set_fp_exceptions;
require_extension('F'); require_fp; softfloat_roundingMode = RM; WRITE_FRD(f32_add(f32(FRS1), f32(FRS2))); set_fp_exceptions;
require_extension('D'); require_fp; WRITE_RD(f64_classify(f64(FRS1)));
require_extension('Q'); require_fp; WRITE_RD(f128_classify(f128(FRS1)));
require_extension('F'); require_fp; WRITE_RD(f32_classify(f32(FRS1)));
require_extension('D'); require_rv64; require_fp; softfloat_roundingMode = RM; WRITE_FRD(i64_to_f64(RS1)); set_fp_exceptions;
require_extension('D'); require_rv64; require_fp; softfloat_roundingMode = RM; WRITE_FRD(ui64_to_f64(RS1)); set_fp_exceptions;