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CodeT5SmallCAPS
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CAPS_Java

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train · 397k rows

code stringlengths 63 466k	code_sememe stringlengths 141 3.79M	token_type stringlengths 274 1.23M
public IfcWasteTerminalTypeEnum createIfcWasteTerminalTypeEnumFromString(EDataType eDataType, String initialValue) { IfcWasteTerminalTypeEnum result = IfcWasteTerminalTypeEnum.get(initialValue); if (result == null) throw new IllegalArgumentException( "The value '" + initialValue + "' is not a valid enumerator of '" + eDataType.getName() + "'"); return result; }	class class_name[name] begin[{] method[createIfcWasteTerminalTypeEnumFromString, return_type[type[IfcWasteTerminalTypeEnum]], modifier[public], parameter[eDataType, initialValue]] begin[{] local_variable[type[IfcWasteTerminalTypeEnum], result] if[binary_operation[member[.result], ==, literal[null]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="The value '"), operandr=MemberReference(member=initialValue, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="' is not a valid enumerator of '"), operator=+), operandr=MethodInvocation(arguments=[], member=getName, postfix_operators=[], prefix_operators=[], qualifier=eDataType, selectors=[], type_arguments=None), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="'"), operator=+)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=IllegalArgumentException, sub_type=None)), label=None) else begin[{] None end[}] return[member[.result]] end[}] END[}]	Keyword[public] identifier[IfcWasteTerminalTypeEnum] identifier[createIfcWasteTerminalTypeEnumFromString] operator[SEP] identifier[EDataType] identifier[eDataType] , identifier[String] identifier[initialValue] operator[SEP] { identifier[IfcWasteTerminalTypeEnum] identifier[result] operator[=] identifier[IfcWasteTerminalTypeEnum] operator[SEP] identifier[get] operator[SEP] identifier[initialValue] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[result] operator[==] Other[null] operator[SEP] Keyword[throw] Keyword[new] identifier[IllegalArgumentException] operator[SEP] literal[String] operator[+] identifier[initialValue] operator[+] literal[String] operator[+] identifier[eDataType] operator[SEP] identifier[getName] operator[SEP] operator[SEP] operator[+] literal[String] operator[SEP] operator[SEP] Keyword[return] identifier[result] operator[SEP] }
@SuppressWarnings("unchecked") public EList<IfcRelAssignsToResource> getResourceOf() { return (EList<IfcRelAssignsToResource>) eGet(Ifc2x3tc1Package.Literals.IFC_RESOURCE__RESOURCE_OF, true); }	class class_name[name] begin[{] method[getResourceOf, return_type[type[EList]], modifier[public], parameter[]] begin[{] return[Cast(expression=MethodInvocation(arguments=[MemberReference(member=IFC_RESOURCE__RESOURCE_OF, postfix_operators=[], prefix_operators=[], qualifier=Ifc2x3tc1Package.Literals, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)], member=eGet, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=IfcRelAssignsToResource, sub_type=None))], dimensions=[], name=EList, sub_type=None))] end[}] END[}]	annotation[@] identifier[SuppressWarnings] operator[SEP] literal[String] operator[SEP] Keyword[public] identifier[EList] operator[<] identifier[IfcRelAssignsToResource] operator[>] identifier[getResourceOf] operator[SEP] operator[SEP] { Keyword[return] operator[SEP] identifier[EList] operator[<] identifier[IfcRelAssignsToResource] operator[>] operator[SEP] identifier[eGet] operator[SEP] identifier[Ifc2x3tc1Package] operator[SEP] identifier[Literals] operator[SEP] identifier[IFC_RESOURCE__RESOURCE_OF] , literal[boolean] operator[SEP] operator[SEP] }
@Override public IPv6Address[] spanWithSequentialBlocks() throws AddressConversionException { if(isSequential()) { return new IPv6Address[] { withoutPrefixLength() }; } @SuppressWarnings("unchecked") ArrayList<IPv6Address> list = (ArrayList<IPv6Address>) spanWithBlocks(false); return list.toArray(new IPv6Address[list.size()]); }	class class_name[name] begin[{] method[spanWithSequentialBlocks, return_type[type[IPv6Address]], modifier[public], parameter[]] begin[{] if[call[.isSequential, parameter[]]] begin[{] return[ArrayCreator(dimensions=[None], initializer=ArrayInitializer(initializers=[MethodInvocation(arguments=[], member=withoutPrefixLength, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)]), postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=IPv6Address, sub_type=None))] else begin[{] None end[}] local_variable[type[ArrayList], list] return[call[list.toArray, parameter[ArrayCreator(dimensions=[MethodInvocation(arguments=[], member=size, postfix_operators=[], prefix_operators=[], qualifier=list, selectors=[], type_arguments=None)], initializer=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=IPv6Address, sub_type=None))]]] end[}] END[}]	annotation[@] identifier[Override] Keyword[public] identifier[IPv6Address] operator[SEP] operator[SEP] identifier[spanWithSequentialBlocks] operator[SEP] operator[SEP] Keyword[throws] identifier[AddressConversionException] { Keyword[if] operator[SEP] identifier[isSequential] operator[SEP] operator[SEP] operator[SEP] { Keyword[return] Keyword[new] identifier[IPv6Address] operator[SEP] operator[SEP] { identifier[withoutPrefixLength] operator[SEP] operator[SEP] } operator[SEP] } annotation[@] identifier[SuppressWarnings] operator[SEP] literal[String] operator[SEP] identifier[ArrayList] operator[<] identifier[IPv6Address] operator[>] identifier[list] operator[=] operator[SEP] identifier[ArrayList] operator[<] identifier[IPv6Address] operator[>] operator[SEP] identifier[spanWithBlocks] operator[SEP] literal[boolean] operator[SEP] operator[SEP] Keyword[return] identifier[list] operator[SEP] identifier[toArray] operator[SEP] Keyword[new] identifier[IPv6Address] operator[SEP] identifier[list] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] }
public static byte[] decode(String s) { char[] a = s.toCharArray(); if (a.length > 2 && a[0] == 'X' && a[1] == '\'' && a[a.length-1] == '\'') { // SQLite3 BLOB syntax byte[] result = new byte[(a.length-3)/2]; for (int i = 2, k = 0; i < a.length - 1; i += 2, k++) { byte tmp; switch (a[i]) { case '0': tmp = 0; break; case '1': tmp = 1; break; case '2': tmp = 2; break; case '3': tmp = 3; break; case '4': tmp = 4; break; case '5': tmp = 5; break; case '6': tmp = 6; break; case '7': tmp = 7; break; case '8': tmp = 8; break; case '9': tmp = 9; break; case 'A': case 'a': tmp = 10; break; case 'B': case 'b': tmp = 11; break; case 'C': case 'c': tmp = 12; break; case 'D': case 'd': tmp = 13; break; case 'E': case 'e': tmp = 14; break; case 'F': case 'f': tmp = 15; break; default: tmp = 0; break; } result[k] = (byte) (tmp << 4); switch (a[i+1]) { case '0': tmp = 0; break; case '1': tmp = 1; break; case '2': tmp = 2; break; case '3': tmp = 3; break; case '4': tmp = 4; break; case '5': tmp = 5; break; case '6': tmp = 6; break; case '7': tmp = 7; break; case '8': tmp = 8; break; case '9': tmp = 9; break; case 'A': case 'a': tmp = 10; break; case 'B': case 'b': tmp = 11; break; case 'C': case 'c': tmp = 12; break; case 'D': case 'd': tmp = 13; break; case 'E': case 'e': tmp = 14; break; case 'F': case 'f': tmp = 15; break; default: tmp = 0; break; } result[k] \|= tmp; } return result; } // first element is the shift byte[] result = new byte[a.length-1]; int i = 0; int shift = s.charAt(i++); int j = 0; while (i < s.length()) { int c; if ((c = s.charAt(i++)) == 1) { // escape character found if ((c = s.charAt(i++)) == 1) { c = 0; } else if (c == 2) { c = 1; } else if (c == 3) { c = '\''; } else { throw new IllegalArgumentException( "invalid string passed to decoder: " + j); } } // do shift result[j++] = (byte)((c + shift) & 0xff); } int outLen = j; // provide array of correct length if (result.length != outLen) { result = byteCopy(result, 0, outLen, new byte[outLen]); } return result; }	class class_name[name] begin[{] method[decode, return_type[type[byte]], modifier[public static], parameter[s]] begin[{] local_variable[type[char], a] if[binary_operation[binary_operation[binary_operation[binary_operation[member[a.length], >, literal[2]], &&, binary_operation[member[.a], ==, literal['X']]], &&, binary_operation[member[.a], ==, literal['\'']]], &&, binary_operation[member[.a], ==, literal['\'']]]] begin[{] local_variable[type[byte], result] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=None, name=tmp)], modifiers=set(), type=BasicType(dimensions=[], name=byte)), SwitchStatement(cases=[SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='0')], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='1')], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='2')], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='3')], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=3)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='4')], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=4)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='5')], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=5)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='6')], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=6)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='7')], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=7)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='8')], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=8)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='9')], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=9)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='A'), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='a')], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=10)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='B'), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='b')], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=11)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='C'), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='c')], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=12)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='D'), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='d')], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=13)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='E'), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='e')], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=14)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='F'), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='f')], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=15)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0)), label=None), BreakStatement(goto=None, label=None)])], expression=MemberReference(member=a, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=result, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=k, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), type==, value=Cast(expression=BinaryOperation(operandl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=4), operator=<<), type=BasicType(dimensions=[], name=byte))), label=None), SwitchStatement(cases=[SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='0')], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='1')], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='2')], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='3')], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=3)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='4')], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=4)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='5')], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=5)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='6')], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=6)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='7')], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=7)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='8')], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=8)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='9')], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=9)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='A'), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='a')], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=10)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='B'), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='b')], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=11)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='C'), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='c')], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=12)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='D'), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='d')], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=13)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='E'), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='e')], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=14)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='F'), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='f')], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=15)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0)), label=None), BreakStatement(goto=None, label=None)])], expression=MemberReference(member=a, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=+))]), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=result, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=k, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), type=\|=, value=MemberReference(member=tmp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=BinaryOperation(operandl=MemberReference(member=length, postfix_operators=[], prefix_operators=[], qualifier=a, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=-), operator=<), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2), name=i), VariableDeclarator(dimensions=[], initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), name=k)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[Assignment(expressionl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=+=, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2)), MemberReference(member=k, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None) return[member[.result]] else begin[{] None end[}] local_variable[type[byte], result] local_variable[type[int], i] local_variable[type[int], shift] local_variable[type[int], j] while[binary_operation[member[.i], <, call[s.length, parameter[]]]] begin[{] local_variable[type[int], c] if[binary_operation[assign[member[.c], call[s.charAt, parameter[member[.i]]]], ==, literal[1]]] begin[{] if[binary_operation[assign[member[.c], call[s.charAt, parameter[member[.i]]]], ==, literal[1]]] begin[{] assign[member[.c], literal[0]] else begin[{] if[binary_operation[member[.c], ==, literal[2]]] begin[{] assign[member[.c], literal[1]] else begin[{] if[binary_operation[member[.c], ==, literal[3]]] begin[{] assign[member[.c], literal['\'']] else begin[{] ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="invalid string passed to decoder: "), operandr=MemberReference(member=j, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=IllegalArgumentException, sub_type=None)), label=None) end[}] end[}] end[}] else begin[{] None end[}] assign[member[.result], Cast(expression=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=shift, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0xff), operator=&), type=BasicType(dimensions=[], name=byte))] end[}] local_variable[type[int], outLen] if[binary_operation[member[result.length], !=, member[.outLen]]] begin[{] assign[member[.result], call[.byteCopy, parameter[member[.result], literal[0], member[.outLen], ArrayCreator(dimensions=[MemberReference(member=outLen, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], initializer=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=BasicType(dimensions=None, name=byte))]]] else begin[{] None end[}] return[member[.result]] end[}] END[}]	Keyword[public] Keyword[static] Keyword[byte] operator[SEP] operator[SEP] identifier[decode] operator[SEP] identifier[String] identifier[s] operator[SEP] { Keyword[char] operator[SEP] operator[SEP] identifier[a] operator[=] identifier[s] operator[SEP] identifier[toCharArray] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[a] operator[SEP] identifier[length] operator[>] Other[2] operator[&&] identifier[a] operator[SEP] Other[0] operator[SEP] operator[==] literal[String] operator[&&] identifier[a] operator[SEP] Other[1] operator[SEP] operator[==] literal[String] operator[&&] identifier[a] operator[SEP] identifier[a] operator[SEP] identifier[length] operator[-] Other[1] operator[SEP] operator[==] literal[String] operator[SEP] { Keyword[byte] operator[SEP] operator[SEP] identifier[result] operator[=] Keyword[new] Keyword[byte] operator[SEP] operator[SEP] identifier[a] operator[SEP] identifier[length] operator[-] Other[3] operator[SEP] operator[/] Other[2] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[2] , identifier[k] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[a] operator[SEP] identifier[length] operator[-] Other[1] operator[SEP] identifier[i] operator[+=] Other[2] , identifier[k] operator[++] operator[SEP] { Keyword[byte] identifier[tmp] operator[SEP] Keyword[switch] operator[SEP] identifier[a] operator[SEP] identifier[i] operator[SEP] operator[SEP] { Keyword[case] literal[String] operator[:] identifier[tmp] operator[=] Other[0] operator[SEP] Keyword[break] operator[SEP] Keyword[case] literal[String] operator[:] identifier[tmp] operator[=] Other[1] operator[SEP] Keyword[break] operator[SEP] Keyword[case] literal[String] operator[:] identifier[tmp] operator[=] Other[2] operator[SEP] Keyword[break] operator[SEP] Keyword[case] literal[String] operator[:] identifier[tmp] operator[=] Other[3] operator[SEP] Keyword[break] operator[SEP] Keyword[case] literal[String] operator[:] identifier[tmp] operator[=] Other[4] operator[SEP] Keyword[break] operator[SEP] Keyword[case] literal[String] operator[:] identifier[tmp] operator[=] Other[5] operator[SEP] Keyword[break] operator[SEP] Keyword[case] literal[String] operator[:] identifier[tmp] operator[=] Other[6] operator[SEP] Keyword[break] operator[SEP] Keyword[case] literal[String] operator[:] identifier[tmp] operator[=] Other[7] operator[SEP] Keyword[break] operator[SEP] Keyword[case] literal[String] operator[:] identifier[tmp] operator[=] Other[8] operator[SEP] Keyword[break] operator[SEP] Keyword[case] literal[String] operator[:] identifier[tmp] operator[=] Other[9] operator[SEP] Keyword[break] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[case] literal[String] operator[:] identifier[tmp] operator[=] Other[10] operator[SEP] Keyword[break] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[case] literal[String] operator[:] identifier[tmp] operator[=] Other[11] operator[SEP] Keyword[break] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[case] literal[String] operator[:] identifier[tmp] operator[=] Other[12] operator[SEP] Keyword[break] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[case] literal[String] operator[:] identifier[tmp] operator[=] Other[13] operator[SEP] Keyword[break] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[case] literal[String] operator[:] identifier[tmp] operator[=] Other[14] operator[SEP] Keyword[break] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[case] literal[String] operator[:] identifier[tmp] operator[=] Other[15] operator[SEP] Keyword[break] operator[SEP] Keyword[default] operator[:] identifier[tmp] operator[=] Other[0] operator[SEP] Keyword[break] operator[SEP] } identifier[result] operator[SEP] identifier[k] operator[SEP] operator[=] operator[SEP] Keyword[byte] operator[SEP] operator[SEP] identifier[tmp] operator[<<] Other[4] operator[SEP] operator[SEP] Keyword[switch] operator[SEP] identifier[a] operator[SEP] identifier[i] operator[+] Other[1] operator[SEP] operator[SEP] { Keyword[case] literal[String] operator[:] identifier[tmp] operator[=] Other[0] operator[SEP] Keyword[break] operator[SEP] Keyword[case] literal[String] operator[:] identifier[tmp] operator[=] Other[1] operator[SEP] Keyword[break] operator[SEP] Keyword[case] literal[String] operator[:] identifier[tmp] operator[=] Other[2] operator[SEP] Keyword[break] operator[SEP] Keyword[case] literal[String] operator[:] identifier[tmp] operator[=] Other[3] operator[SEP] Keyword[break] operator[SEP] Keyword[case] literal[String] operator[:] identifier[tmp] operator[=] Other[4] operator[SEP] Keyword[break] operator[SEP] Keyword[case] literal[String] operator[:] identifier[tmp] operator[=] Other[5] operator[SEP] Keyword[break] operator[SEP] Keyword[case] literal[String] operator[:] identifier[tmp] operator[=] Other[6] operator[SEP] Keyword[break] operator[SEP] Keyword[case] literal[String] operator[:] identifier[tmp] operator[=] Other[7] operator[SEP] Keyword[break] operator[SEP] Keyword[case] literal[String] operator[:] identifier[tmp] operator[=] Other[8] operator[SEP] Keyword[break] operator[SEP] Keyword[case] literal[String] operator[:] identifier[tmp] operator[=] Other[9] operator[SEP] Keyword[break] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[case] literal[String] operator[:] identifier[tmp] operator[=] Other[10] operator[SEP] Keyword[break] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[case] literal[String] operator[:] identifier[tmp] operator[=] Other[11] operator[SEP] Keyword[break] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[case] literal[String] operator[:] identifier[tmp] operator[=] Other[12] operator[SEP] Keyword[break] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[case] literal[String] operator[:] identifier[tmp] operator[=] Other[13] operator[SEP] Keyword[break] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[case] literal[String] operator[:] identifier[tmp] operator[=] Other[14] operator[SEP] Keyword[break] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[case] literal[String] operator[:] identifier[tmp] operator[=] Other[15] operator[SEP] Keyword[break] operator[SEP] Keyword[default] operator[:] identifier[tmp] operator[=] Other[0] operator[SEP] Keyword[break] operator[SEP] } identifier[result] operator[SEP] identifier[k] operator[SEP] operator[\|=] identifier[tmp] operator[SEP] } Keyword[return] identifier[result] operator[SEP] } Keyword[byte] operator[SEP] operator[SEP] identifier[result] operator[=] Keyword[new] Keyword[byte] operator[SEP] identifier[a] operator[SEP] identifier[length] operator[-] Other[1] operator[SEP] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] Keyword[int] identifier[shift] operator[=] identifier[s] operator[SEP] identifier[charAt] operator[SEP] identifier[i] operator[++] operator[SEP] operator[SEP] Keyword[int] identifier[j] operator[=] Other[0] operator[SEP] Keyword[while] operator[SEP] identifier[i] operator[<] identifier[s] operator[SEP] identifier[length] operator[SEP] operator[SEP] operator[SEP] { Keyword[int] identifier[c] operator[SEP] Keyword[if] operator[SEP] operator[SEP] identifier[c] operator[=] identifier[s] operator[SEP] identifier[charAt] operator[SEP] identifier[i] operator[++] operator[SEP] operator[SEP] operator[==] Other[1] operator[SEP] { Keyword[if] operator[SEP] operator[SEP] identifier[c] operator[=] identifier[s] operator[SEP] identifier[charAt] operator[SEP] identifier[i] operator[++] operator[SEP] operator[SEP] operator[==] Other[1] operator[SEP] { identifier[c] operator[=] Other[0] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[c] operator[==] Other[2] operator[SEP] { identifier[c] operator[=] Other[1] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[c] operator[==] Other[3] operator[SEP] { identifier[c] operator[=] literal[String] operator[SEP] } Keyword[else] { Keyword[throw] Keyword[new] identifier[IllegalArgumentException] operator[SEP] literal[String] operator[+] identifier[j] operator[SEP] operator[SEP] } } identifier[result] operator[SEP] identifier[j] operator[++] operator[SEP] operator[=] operator[SEP] Keyword[byte] operator[SEP] operator[SEP] operator[SEP] identifier[c] operator[+] identifier[shift] operator[SEP] operator[&] literal[Integer] operator[SEP] operator[SEP] } Keyword[int] identifier[outLen] operator[=] identifier[j] operator[SEP] Keyword[if] operator[SEP] identifier[result] operator[SEP] identifier[length] operator[!=] identifier[outLen] operator[SEP] { identifier[result] operator[=] identifier[byteCopy] operator[SEP] identifier[result] , Other[0] , identifier[outLen] , Keyword[new] Keyword[byte] operator[SEP] identifier[outLen] operator[SEP] operator[SEP] operator[SEP] } Keyword[return] identifier[result] operator[SEP] }
protected boolean inViewPort(final int dataIndex) { boolean inViewPort = true; for (Layout layout: mLayouts) { inViewPort = inViewPort && (layout.inViewPort(dataIndex) \|\| !layout.isClippingEnabled()); } return inViewPort; }	class class_name[name] begin[{] method[inViewPort, return_type[type[boolean]], modifier[protected], parameter[dataIndex]] begin[{] local_variable[type[boolean], inViewPort] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=inViewPort, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=BinaryOperation(operandl=MemberReference(member=inViewPort, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=BinaryOperation(operandl=MethodInvocation(arguments=[MemberReference(member=dataIndex, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=inViewPort, postfix_operators=[], prefix_operators=[], qualifier=layout, selectors=[], type_arguments=None), operandr=MethodInvocation(arguments=[], member=isClippingEnabled, postfix_operators=[], prefix_operators=['!'], qualifier=layout, selectors=[], type_arguments=None), operator=\|\|), operator=&&)), label=None)]), control=EnhancedForControl(iterable=MemberReference(member=mLayouts, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=layout)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Layout, sub_type=None))), label=None) return[member[.inViewPort]] end[}] END[}]	Keyword[protected] Keyword[boolean] identifier[inViewPort] operator[SEP] Keyword[final] Keyword[int] identifier[dataIndex] operator[SEP] { Keyword[boolean] identifier[inViewPort] operator[=] literal[boolean] operator[SEP] Keyword[for] operator[SEP] identifier[Layout] identifier[layout] operator[:] identifier[mLayouts] operator[SEP] { identifier[inViewPort] operator[=] identifier[inViewPort] operator[&&] operator[SEP] identifier[layout] operator[SEP] identifier[inViewPort] operator[SEP] identifier[dataIndex] operator[SEP] operator[\|\|] operator[!] identifier[layout] operator[SEP] identifier[isClippingEnabled] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[return] identifier[inViewPort] operator[SEP] }
public static final int capacity(Queue q) { if (q instanceof ZeroQueue) { return 0; } if (q instanceof OneQueue) { return 1; } if (q instanceof SpscLinkedArrayQueue) { return Integer.MAX_VALUE; } else if (q instanceof SpscArrayQueue) { return ((SpscArrayQueue) q).length(); } else if(q instanceof MpscLinkedQueue) { return Integer.MAX_VALUE; } else if (q instanceof BlockingQueue) { return ((BlockingQueue) q).remainingCapacity(); } else if (q instanceof ConcurrentLinkedQueue) { return Integer.MAX_VALUE; } else { return CAPACITY_UNSURE; } }	class class_name[name] begin[{] method[capacity, return_type[type[int]], modifier[final public static], parameter[q]] begin[{] if[binary_operation[member[.q], instanceof, type[ZeroQueue]]] begin[{] return[literal[0]] else begin[{] None end[}] if[binary_operation[member[.q], instanceof, type[OneQueue]]] begin[{] return[literal[1]] else begin[{] None end[}] if[binary_operation[member[.q], instanceof, type[SpscLinkedArrayQueue]]] begin[{] return[member[Integer.MAX_VALUE]] else begin[{] if[binary_operation[member[.q], instanceof, type[SpscArrayQueue]]] begin[{] return[Cast(expression=MemberReference(member=q, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=SpscArrayQueue, sub_type=None))] else begin[{] if[binary_operation[member[.q], instanceof, type[MpscLinkedQueue]]] begin[{] return[member[Integer.MAX_VALUE]] else begin[{] if[binary_operation[member[.q], instanceof, type[BlockingQueue]]] begin[{] return[Cast(expression=MemberReference(member=q, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=BlockingQueue, sub_type=None))] else begin[{] if[binary_operation[member[.q], instanceof, type[ConcurrentLinkedQueue]]] begin[{] return[member[Integer.MAX_VALUE]] else begin[{] return[member[.CAPACITY_UNSURE]] end[}] end[}] end[}] end[}] end[}] end[}] END[}]	Keyword[public] Keyword[static] Keyword[final] Keyword[int] identifier[capacity] operator[SEP] identifier[Queue] identifier[q] operator[SEP] { Keyword[if] operator[SEP] identifier[q] Keyword[instanceof] identifier[ZeroQueue] operator[SEP] { Keyword[return] Other[0] operator[SEP] } Keyword[if] operator[SEP] identifier[q] Keyword[instanceof] identifier[OneQueue] operator[SEP] { Keyword[return] Other[1] operator[SEP] } Keyword[if] operator[SEP] identifier[q] Keyword[instanceof] identifier[SpscLinkedArrayQueue] operator[SEP] { Keyword[return] identifier[Integer] operator[SEP] identifier[MAX_VALUE] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[q] Keyword[instanceof] identifier[SpscArrayQueue] operator[SEP] { Keyword[return] operator[SEP] operator[SEP] identifier[SpscArrayQueue] operator[SEP] identifier[q] operator[SEP] operator[SEP] identifier[length] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[q] Keyword[instanceof] identifier[MpscLinkedQueue] operator[SEP] { Keyword[return] identifier[Integer] operator[SEP] identifier[MAX_VALUE] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[q] Keyword[instanceof] identifier[BlockingQueue] operator[SEP] { Keyword[return] operator[SEP] operator[SEP] identifier[BlockingQueue] operator[SEP] identifier[q] operator[SEP] operator[SEP] identifier[remainingCapacity] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[q] Keyword[instanceof] identifier[ConcurrentLinkedQueue] operator[SEP] { Keyword[return] identifier[Integer] operator[SEP] identifier[MAX_VALUE] operator[SEP] } Keyword[else] { Keyword[return] identifier[CAPACITY_UNSURE] operator[SEP] } }
public void shutdown() { executorService.shutdown(); scheduler.shutdown(); daemonScheduler.shutdown(); executorServiceSingleThreads.values().forEach(ExecutorService::shutdown); }	class class_name[name] begin[{] method[shutdown, return_type[void], modifier[public], parameter[]] begin[{] call[executorService.shutdown, parameter[]] call[scheduler.shutdown, parameter[]] call[daemonScheduler.shutdown, parameter[]] call[executorServiceSingleThreads.values, parameter[]] end[}] END[}]	Keyword[public] Keyword[void] identifier[shutdown] operator[SEP] operator[SEP] { identifier[executorService] operator[SEP] identifier[shutdown] operator[SEP] operator[SEP] operator[SEP] identifier[scheduler] operator[SEP] identifier[shutdown] operator[SEP] operator[SEP] operator[SEP] identifier[daemonScheduler] operator[SEP] identifier[shutdown] operator[SEP] operator[SEP] operator[SEP] identifier[executorServiceSingleThreads] operator[SEP] identifier[values] operator[SEP] operator[SEP] operator[SEP] identifier[forEach] operator[SEP] identifier[ExecutorService] operator[::] identifier[shutdown] operator[SEP] operator[SEP] }
public void parse(final SelectStatement selectStatement, final List<SelectItem> items) { do { selectStatement.getItems().addAll(parseSelectItems(selectStatement)); } while (lexerEngine.skipIfEqual(Symbol.COMMA)); selectStatement.setSelectListStopIndex(lexerEngine.getCurrentToken().getEndPosition() - lexerEngine.getCurrentToken().getLiterals().length()); items.addAll(selectStatement.getItems()); }	class class_name[name] begin[{] method[parse, return_type[void], modifier[public], parameter[selectStatement, items]] begin[{] do[call[lexerEngine.skipIfEqual, parameter[member[Symbol.COMMA]]]] begin[{] call[selectStatement.getItems, parameter[]] end[}] call[selectStatement.setSelectListStopIndex, parameter[binary_operation[call[lexerEngine.getCurrentToken, parameter[]], -, call[lexerEngine.getCurrentToken, parameter[]]]]] call[items.addAll, parameter[call[selectStatement.getItems, parameter[]]]] end[}] END[}]	Keyword[public] Keyword[void] identifier[parse] operator[SEP] Keyword[final] identifier[SelectStatement] identifier[selectStatement] , Keyword[final] identifier[List] operator[<] identifier[SelectItem] operator[>] identifier[items] operator[SEP] { Keyword[do] { identifier[selectStatement] operator[SEP] identifier[getItems] operator[SEP] operator[SEP] operator[SEP] identifier[addAll] operator[SEP] identifier[parseSelectItems] operator[SEP] identifier[selectStatement] operator[SEP] operator[SEP] operator[SEP] } Keyword[while] operator[SEP] identifier[lexerEngine] operator[SEP] identifier[skipIfEqual] operator[SEP] identifier[Symbol] operator[SEP] identifier[COMMA] operator[SEP] operator[SEP] operator[SEP] identifier[selectStatement] operator[SEP] identifier[setSelectListStopIndex] operator[SEP] identifier[lexerEngine] operator[SEP] identifier[getCurrentToken] operator[SEP] operator[SEP] operator[SEP] identifier[getEndPosition] operator[SEP] operator[SEP] operator[-] identifier[lexerEngine] operator[SEP] identifier[getCurrentToken] operator[SEP] operator[SEP] operator[SEP] identifier[getLiterals] operator[SEP] operator[SEP] operator[SEP] identifier[length] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[items] operator[SEP] identifier[addAll] operator[SEP] identifier[selectStatement] operator[SEP] identifier[getItems] operator[SEP] operator[SEP] operator[SEP] operator[SEP] }
public void removeDirectory(String path, String tail, Result<Object> result) { // _dirRemove.exec(result, path, tail); result.ok(null); }	class class_name[name] begin[{] method[removeDirectory, return_type[void], modifier[public], parameter[path, tail, result]] begin[{] call[result.ok, parameter[literal[null]]] end[}] END[}]	Keyword[public] Keyword[void] identifier[removeDirectory] operator[SEP] identifier[String] identifier[path] , identifier[String] identifier[tail] , identifier[Result] operator[<] identifier[Object] operator[>] identifier[result] operator[SEP] { identifier[result] operator[SEP] identifier[ok] operator[SEP] Other[null] operator[SEP] operator[SEP] }
public static <T extends Comparable<? super T>> void siftUp(T[] arr, int k) { while (k > 1 && arr[k/2].compareTo(arr[k]) < 0) { swap(arr, k, k/2); k = k/2; } }	class class_name[name] begin[{] method[siftUp, return_type[void], modifier[public static], parameter[arr, k]] begin[{] while[binary_operation[binary_operation[member[.k], >, literal[1]], &&, binary_operation[member[.arr], <, literal[0]]]] begin[{] call[.swap, parameter[member[.arr], member[.k], binary_operation[member[.k], /, literal[2]]]] assign[member[.k], binary_operation[member[.k], /, literal[2]]] end[}] end[}] END[}]	Keyword[public] Keyword[static] operator[<] identifier[T] Keyword[extends] identifier[Comparable] operator[<] operator[?] Keyword[super] identifier[T] operator[>] operator[>] Keyword[void] identifier[siftUp] operator[SEP] identifier[T] operator[SEP] operator[SEP] identifier[arr] , Keyword[int] identifier[k] operator[SEP] { Keyword[while] operator[SEP] identifier[k] operator[>] Other[1] operator[&&] identifier[arr] operator[SEP] identifier[k] operator[/] Other[2] operator[SEP] operator[SEP] identifier[compareTo] operator[SEP] identifier[arr] operator[SEP] identifier[k] operator[SEP] operator[SEP] operator[<] Other[0] operator[SEP] { identifier[swap] operator[SEP] identifier[arr] , identifier[k] , identifier[k] operator[/] Other[2] operator[SEP] operator[SEP] identifier[k] operator[=] identifier[k] operator[/] Other[2] operator[SEP] } }
private int getDoubleBondedOxygenCount(IAtomContainer ac, IAtom atom) { List<IAtom> neighbours = ac.getConnectedAtomsList(atom); IBond bond; int odbcounter = 0; boolean chargeFlag = false; if (atom.getFormalCharge() >= 1) { chargeFlag = true; } for (IAtom neighbour : neighbours) { if (neighbour.getSymbol().equals("O")) { bond = ac.getBond(neighbour, atom); if (chargeFlag && neighbour.getFormalCharge() == -1 && bond.getOrder() == IBond.Order.SINGLE) { odbcounter += 1; } if (!neighbour.getFlag(CDKConstants.ISAROMATIC)) { if (bond.getOrder() == IBond.Order.DOUBLE) { odbcounter += 1; } } } } return odbcounter; }	class class_name[name] begin[{] method[getDoubleBondedOxygenCount, return_type[type[int]], modifier[private], parameter[ac, atom]] begin[{] local_variable[type[List], neighbours] local_variable[type[IBond], bond] local_variable[type[int], odbcounter] local_variable[type[boolean], chargeFlag] if[binary_operation[call[atom.getFormalCharge, parameter[]], >=, literal[1]]] begin[{] assign[member[.chargeFlag], literal[true]] else begin[{] None end[}] ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=MethodInvocation(arguments=[], member=getSymbol, postfix_operators=[], prefix_operators=[], qualifier=neighbour, selectors=[MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="O")], member=equals, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=bond, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[MemberReference(member=neighbour, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=atom, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getBond, postfix_operators=[], prefix_operators=[], qualifier=ac, selectors=[], type_arguments=None)), label=None), IfStatement(condition=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=chargeFlag, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=BinaryOperation(operandl=MethodInvocation(arguments=[], member=getFormalCharge, postfix_operators=[], prefix_operators=[], qualifier=neighbour, selectors=[], type_arguments=None), operandr=Literal(postfix_operators=[], prefix_operators=['-'], qualifier=None, selectors=[], value=1), operator===), operator=&&), operandr=BinaryOperation(operandl=MethodInvocation(arguments=[], member=getOrder, postfix_operators=[], prefix_operators=[], qualifier=bond, selectors=[], type_arguments=None), operandr=MemberReference(member=SINGLE, postfix_operators=[], prefix_operators=[], qualifier=IBond.Order, selectors=[]), operator===), operator=&&), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=odbcounter, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=+=, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1)), label=None)])), IfStatement(condition=MethodInvocation(arguments=[MemberReference(member=ISAROMATIC, postfix_operators=[], prefix_operators=[], qualifier=CDKConstants, selectors=[])], member=getFlag, postfix_operators=[], prefix_operators=['!'], qualifier=neighbour, selectors=[], type_arguments=None), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=MethodInvocation(arguments=[], member=getOrder, postfix_operators=[], prefix_operators=[], qualifier=bond, selectors=[], type_arguments=None), operandr=MemberReference(member=DOUBLE, postfix_operators=[], prefix_operators=[], qualifier=IBond.Order, selectors=[]), operator===), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=odbcounter, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=+=, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1)), label=None)]))]))]))]), control=EnhancedForControl(iterable=MemberReference(member=neighbours, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=neighbour)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=IAtom, sub_type=None))), label=None) return[member[.odbcounter]] end[}] END[}]	Keyword[private] Keyword[int] identifier[getDoubleBondedOxygenCount] operator[SEP] identifier[IAtomContainer] identifier[ac] , identifier[IAtom] identifier[atom] operator[SEP] { identifier[List] operator[<] identifier[IAtom] operator[>] identifier[neighbours] operator[=] identifier[ac] operator[SEP] identifier[getConnectedAtomsList] operator[SEP] identifier[atom] operator[SEP] operator[SEP] identifier[IBond] identifier[bond] operator[SEP] Keyword[int] identifier[odbcounter] operator[=] Other[0] operator[SEP] Keyword[boolean] identifier[chargeFlag] operator[=] literal[boolean] operator[SEP] Keyword[if] operator[SEP] identifier[atom] operator[SEP] identifier[getFormalCharge] operator[SEP] operator[SEP] operator[>=] Other[1] operator[SEP] { identifier[chargeFlag] operator[=] literal[boolean] operator[SEP] } Keyword[for] operator[SEP] identifier[IAtom] identifier[neighbour] operator[:] identifier[neighbours] operator[SEP] { Keyword[if] operator[SEP] identifier[neighbour] operator[SEP] identifier[getSymbol] operator[SEP] operator[SEP] operator[SEP] identifier[equals] operator[SEP] literal[String] operator[SEP] operator[SEP] { identifier[bond] operator[=] identifier[ac] operator[SEP] identifier[getBond] operator[SEP] identifier[neighbour] , identifier[atom] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[chargeFlag] operator[&&] identifier[neighbour] operator[SEP] identifier[getFormalCharge] operator[SEP] operator[SEP] operator[==] operator[-] Other[1] operator[&&] identifier[bond] operator[SEP] identifier[getOrder] operator[SEP] operator[SEP] operator[==] identifier[IBond] operator[SEP] identifier[Order] operator[SEP] identifier[SINGLE] operator[SEP] { identifier[odbcounter] operator[+=] Other[1] operator[SEP] } Keyword[if] operator[SEP] operator[!] identifier[neighbour] operator[SEP] identifier[getFlag] operator[SEP] identifier[CDKConstants] operator[SEP] identifier[ISAROMATIC] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] identifier[bond] operator[SEP] identifier[getOrder] operator[SEP] operator[SEP] operator[==] identifier[IBond] operator[SEP] identifier[Order] operator[SEP] identifier[DOUBLE] operator[SEP] { identifier[odbcounter] operator[+=] Other[1] operator[SEP] } } } } Keyword[return] identifier[odbcounter] operator[SEP] }
@Override public void run() { Collections.sort(files); for (int i = files.size() - 1; i >= 0; i--) { new File(files.get(i)).delete(); } }	class class_name[name] begin[{] method[run, return_type[void], modifier[public], parameter[]] begin[{] call[Collections.sort, parameter[member[.files]]] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=ClassCreator(arguments=[MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=get, postfix_operators=[], prefix_operators=[], qualifier=files, selectors=[], type_arguments=None)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MethodInvocation(arguments=[], member=delete, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type=ReferenceType(arguments=None, dimensions=None, name=File, sub_type=None)), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), operator=>=), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=BinaryOperation(operandl=MethodInvocation(arguments=[], member=size, postfix_operators=[], prefix_operators=[], qualifier=files, selectors=[], type_arguments=None), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=-), name=i)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=i, postfix_operators=['--'], prefix_operators=[], qualifier=, selectors=[])]), label=None) end[}] END[}]	annotation[@] identifier[Override] Keyword[public] Keyword[void] identifier[run] operator[SEP] operator[SEP] { identifier[Collections] operator[SEP] identifier[sort] operator[SEP] identifier[files] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] identifier[files] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[-] Other[1] operator[SEP] identifier[i] operator[>=] Other[0] operator[SEP] identifier[i] operator[--] operator[SEP] { Keyword[new] identifier[File] operator[SEP] identifier[files] operator[SEP] identifier[get] operator[SEP] identifier[i] operator[SEP] operator[SEP] operator[SEP] identifier[delete] operator[SEP] operator[SEP] operator[SEP] } }
public void writeObject(Object o, GraphicsDocument document, boolean asChild) throws RenderException { GeometryCollection coll = (GeometryCollection) o; document.writeElement("path", asChild); document.writeAttribute("fill-rule", "evenodd"); document.writeAttributeStart("d"); for (int i = 0; i < coll.getNumGeometries(); i++) { document.writeObject(coll.getGeometryN(i), true); // TODO delegate to appropriate writers, is this correct? } document.writeAttributeEnd(); }	class class_name[name] begin[{] method[writeObject, return_type[void], modifier[public], parameter[o, document, asChild]] begin[{] local_variable[type[GeometryCollection], coll] call[document.writeElement, parameter[literal["path"], member[.asChild]]] call[document.writeAttribute, parameter[literal["fill-rule"], literal["evenodd"]]] call[document.writeAttributeStart, parameter[literal["d"]]] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getGeometryN, postfix_operators=[], prefix_operators=[], qualifier=coll, selectors=[], type_arguments=None), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)], member=writeObject, postfix_operators=[], prefix_operators=[], qualifier=document, selectors=[], type_arguments=None), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MethodInvocation(arguments=[], member=getNumGeometries, postfix_operators=[], prefix_operators=[], qualifier=coll, selectors=[], type_arguments=None), operator=<), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), name=i)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=i, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None) call[document.writeAttributeEnd, parameter[]] end[}] END[}]	Keyword[public] Keyword[void] identifier[writeObject] operator[SEP] identifier[Object] identifier[o] , identifier[GraphicsDocument] identifier[document] , Keyword[boolean] identifier[asChild] operator[SEP] Keyword[throws] identifier[RenderException] { identifier[GeometryCollection] identifier[coll] operator[=] operator[SEP] identifier[GeometryCollection] operator[SEP] identifier[o] operator[SEP] identifier[document] operator[SEP] identifier[writeElement] operator[SEP] literal[String] , identifier[asChild] operator[SEP] operator[SEP] identifier[document] operator[SEP] identifier[writeAttribute] operator[SEP] literal[String] , literal[String] operator[SEP] operator[SEP] identifier[document] operator[SEP] identifier[writeAttributeStart] operator[SEP] literal[String] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[coll] operator[SEP] identifier[getNumGeometries] operator[SEP] operator[SEP] operator[SEP] identifier[i] operator[++] operator[SEP] { identifier[document] operator[SEP] identifier[writeObject] operator[SEP] identifier[coll] operator[SEP] identifier[getGeometryN] operator[SEP] identifier[i] operator[SEP] , literal[boolean] operator[SEP] operator[SEP] } identifier[document] operator[SEP] identifier[writeAttributeEnd] operator[SEP] operator[SEP] operator[SEP] }
static String calculateResponse(String algorithm, String username_value, String realm_value, String passwd, String nonce_value, String nc_value, String cnonce_value, String method, String digest_uri_value, String entity_body, String qop_value) { if (logger.isDebugEnabled()) { logger.debug("trying to authenticate using : " + algorithm + ", " + username_value + ", " + realm_value + ", " + (passwd != null && passwd.trim().length() > 0) + ", " + nonce_value + ", " + nc_value + ", " + cnonce_value + ", " + method + ", " + digest_uri_value + ", " + entity_body + ", " + qop_value); } if (username_value == null \|\| realm_value == null \|\| passwd == null \|\| method == null \|\| digest_uri_value == null \|\| nonce_value == null) throw new NullPointerException("Null parameter to MessageDigestAlgorithm.calculateResponse()"); // The following follows closely the algorithm for generating a response // digest as specified by rfc2617 String A1 = null; if (algorithm == null \|\| algorithm.trim().length() == 0 \|\| algorithm.trim().equalsIgnoreCase("MD5")) { A1 = username_value + ":" + realm_value + ":" + passwd; } else { if (cnonce_value == null \|\| cnonce_value.length() == 0) throw new NullPointerException("cnonce_value may not be absent for MD5-Sess algorithm."); A1 = H(username_value + ":" + realm_value + ":" + passwd) + ":" + nonce_value + ":" + cnonce_value; } String A2 = null; if (qop_value == null \|\| qop_value.trim().length() == 0 \|\| qop_value.trim().equalsIgnoreCase("auth")) { A2 = method + ":" + digest_uri_value; } else { if (entity_body == null) entity_body = ""; A2 = method + ":" + digest_uri_value + ":" + H(entity_body); } String request_digest = null; if (cnonce_value != null && qop_value != null && nc_value != null && (qop_value.equalsIgnoreCase("auth") \|\| qop_value.equalsIgnoreCase("auth-int"))) { request_digest = KD(H(A1), nonce_value + ":" + nc_value + ":" + cnonce_value + ":" + qop_value + ":" + H(A2)); if (logger.isDebugEnabled()) { logger.debug("H(A1) " + H(A1)); logger.debug("H(A2) " + H(A2)); logger.debug("request digest with auth " + request_digest); } } else { request_digest = KD(H(A1), nonce_value + ":" + H(A2)); if (logger.isDebugEnabled()) { logger.debug("request digest " + request_digest); } } return request_digest; }	class class_name[name] begin[{] method[calculateResponse, return_type[type[String]], modifier[static], parameter[algorithm, username_value, realm_value, passwd, nonce_value, nc_value, cnonce_value, method, digest_uri_value, entity_body, qop_value]] begin[{] if[call[logger.isDebugEnabled, parameter[]]] begin[{] call[logger.debug, parameter[binary_operation[binary_operation[binary_operation[binary_operation[binary_operation[binary_operation[binary_operation[binary_operation[binary_operation[binary_operation[binary_operation[binary_operation[binary_operation[binary_operation[binary_operation[binary_operation[binary_operation[binary_operation[binary_operation[binary_operation[binary_operation[literal["trying to authenticate using : "], +, member[.algorithm]], +, literal[", "]], +, member[.username_value]], +, literal[", "]], +, member[.realm_value]], +, literal[", "]], +, binary_operation[binary_operation[member[.passwd], !=, literal[null]], &&, binary_operation[call[passwd.trim, parameter[]], >, literal[0]]]], +, literal[", "]], +, member[.nonce_value]], +, literal[", "]], +, member[.nc_value]], +, literal[", "]], +, member[.cnonce_value]], +, literal[", "]], +, member[.method]], +, literal[", "]], +, member[.digest_uri_value]], +, literal[", "]], +, member[.entity_body]], +, literal[", "]], +, member[.qop_value]]]] else begin[{] None end[}] if[binary_operation[binary_operation[binary_operation[binary_operation[binary_operation[binary_operation[member[.username_value], ==, literal[null]], \|\|, binary_operation[member[.realm_value], ==, literal[null]]], \|\|, binary_operation[member[.passwd], ==, literal[null]]], \|\|, binary_operation[member[.method], ==, literal[null]]], \|\|, binary_operation[member[.digest_uri_value], ==, literal[null]]], \|\|, binary_operation[member[.nonce_value], ==, literal[null]]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Null parameter to MessageDigestAlgorithm.calculateResponse()")], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=NullPointerException, sub_type=None)), label=None) else begin[{] None end[}] local_variable[type[String], A1] if[binary_operation[binary_operation[binary_operation[member[.algorithm], ==, literal[null]], \|\|, binary_operation[call[algorithm.trim, parameter[]], ==, literal[0]]], \|\|, call[algorithm.trim, parameter[]]]] begin[{] assign[member[.A1], binary_operation[binary_operation[binary_operation[binary_operation[member[.username_value], +, literal[":"]], +, member[.realm_value]], +, literal[":"]], +, member[.passwd]]] else begin[{] if[binary_operation[binary_operation[member[.cnonce_value], ==, literal[null]], \|\|, binary_operation[call[cnonce_value.length, parameter[]], ==, literal[0]]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="cnonce_value may not be absent for MD5-Sess algorithm.")], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=NullPointerException, sub_type=None)), label=None) else begin[{] None end[}] assign[member[.A1], binary_operation[binary_operation[binary_operation[binary_operation[call[.H, parameter[binary_operation[binary_operation[binary_operation[binary_operation[member[.username_value], +, literal[":"]], +, member[.realm_value]], +, literal[":"]], +, member[.passwd]]]], +, literal[":"]], +, member[.nonce_value]], +, literal[":"]], +, member[.cnonce_value]]] end[}] local_variable[type[String], A2] if[binary_operation[binary_operation[binary_operation[member[.qop_value], ==, literal[null]], \|\|, binary_operation[call[qop_value.trim, parameter[]], ==, literal[0]]], \|\|, call[qop_value.trim, parameter[]]]] begin[{] assign[member[.A2], binary_operation[binary_operation[member[.method], +, literal[":"]], +, member[.digest_uri_value]]] else begin[{] if[binary_operation[member[.entity_body], ==, literal[null]]] begin[{] assign[member[.entity_body], literal[""]] else begin[{] None end[}] assign[member[.A2], binary_operation[binary_operation[binary_operation[binary_operation[member[.method], +, literal[":"]], +, member[.digest_uri_value]], +, literal[":"]], +, call[.H, parameter[member[.entity_body]]]]] end[}] local_variable[type[String], request_digest] if[binary_operation[binary_operation[binary_operation[binary_operation[member[.cnonce_value], !=, literal[null]], &&, binary_operation[member[.qop_value], !=, literal[null]]], &&, binary_operation[member[.nc_value], !=, literal[null]]], &&, binary_operation[call[qop_value.equalsIgnoreCase, parameter[literal["auth"]]], \|\|, call[qop_value.equalsIgnoreCase, parameter[literal["auth-int"]]]]]] begin[{] assign[member[.request_digest], call[.KD, parameter[call[.H, parameter[member[.A1]]], binary_operation[binary_operation[binary_operation[binary_operation[binary_operation[binary_operation[binary_operation[binary_operation[member[.nonce_value], +, literal[":"]], +, member[.nc_value]], +, literal[":"]], +, member[.cnonce_value]], +, literal[":"]], +, member[.qop_value]], +, literal[":"]], +, call[.H, parameter[member[.A2]]]]]]] if[call[logger.isDebugEnabled, parameter[]]] begin[{] call[logger.debug, parameter[binary_operation[literal["H(A1) "], +, call[.H, parameter[member[.A1]]]]]] call[logger.debug, parameter[binary_operation[literal["H(A2) "], +, call[.H, parameter[member[.A2]]]]]] call[logger.debug, parameter[binary_operation[literal["request digest with auth "], +, member[.request_digest]]]] else begin[{] None end[}] else begin[{] assign[member[.request_digest], call[.KD, parameter[call[.H, parameter[member[.A1]]], binary_operation[binary_operation[member[.nonce_value], +, literal[":"]], +, call[.H, parameter[member[.A2]]]]]]] if[call[logger.isDebugEnabled, parameter[]]] begin[{] call[logger.debug, parameter[binary_operation[literal["request digest "], +, member[.request_digest]]]] else begin[{] None end[}] end[}] return[member[.request_digest]] end[}] END[}]	Keyword[static] identifier[String] identifier[calculateResponse] operator[SEP] identifier[String] identifier[algorithm] , identifier[String] identifier[username_value] , identifier[String] identifier[realm_value] , identifier[String] identifier[passwd] , identifier[String] identifier[nonce_value] , identifier[String] identifier[nc_value] , identifier[String] identifier[cnonce_value] , identifier[String] identifier[method] , identifier[String] identifier[digest_uri_value] , identifier[String] identifier[entity_body] , identifier[String] identifier[qop_value] operator[SEP] { Keyword[if] operator[SEP] identifier[logger] operator[SEP] identifier[isDebugEnabled] operator[SEP] operator[SEP] operator[SEP] { identifier[logger] operator[SEP] identifier[debug] operator[SEP] literal[String] operator[+] identifier[algorithm] operator[+] literal[String] operator[+] identifier[username_value] operator[+] literal[String] operator[+] identifier[realm_value] operator[+] literal[String] operator[+] operator[SEP] identifier[passwd] operator[!=] Other[null] operator[&&] identifier[passwd] operator[SEP] identifier[trim] operator[SEP] operator[SEP] operator[SEP] identifier[length] operator[SEP] operator[SEP] operator[>] Other[0] operator[SEP] operator[+] literal[String] operator[+] identifier[nonce_value] operator[+] literal[String] operator[+] identifier[nc_value] operator[+] literal[String] operator[+] identifier[cnonce_value] operator[+] literal[String] operator[+] identifier[method] operator[+] literal[String] operator[+] identifier[digest_uri_value] operator[+] literal[String] operator[+] identifier[entity_body] operator[+] literal[String] operator[+] identifier[qop_value] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[username_value] operator[==] Other[null] operator[\|\|] identifier[realm_value] operator[==] Other[null] operator[\|\|] identifier[passwd] operator[==] Other[null] operator[\|\|] identifier[method] operator[==] Other[null] operator[\|\|] identifier[digest_uri_value] operator[==] Other[null] operator[\|\|] identifier[nonce_value] operator[==] Other[null] operator[SEP] Keyword[throw] Keyword[new] identifier[NullPointerException] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[String] identifier[A1] operator[=] Other[null] operator[SEP] Keyword[if] operator[SEP] identifier[algorithm] operator[==] Other[null] operator[\|\|] identifier[algorithm] operator[SEP] identifier[trim] operator[SEP] operator[SEP] operator[SEP] identifier[length] operator[SEP] operator[SEP] operator[==] Other[0] operator[\|\|] identifier[algorithm] operator[SEP] identifier[trim] operator[SEP] operator[SEP] operator[SEP] identifier[equalsIgnoreCase] operator[SEP] literal[String] operator[SEP] operator[SEP] { identifier[A1] operator[=] identifier[username_value] operator[+] literal[String] operator[+] identifier[realm_value] operator[+] literal[String] operator[+] identifier[passwd] operator[SEP] } Keyword[else] { Keyword[if] operator[SEP] identifier[cnonce_value] operator[==] Other[null] operator[\|\|] identifier[cnonce_value] operator[SEP] identifier[length] operator[SEP] operator[SEP] operator[==] Other[0] operator[SEP] Keyword[throw] Keyword[new] identifier[NullPointerException] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[A1] operator[=] identifier[H] operator[SEP] identifier[username_value] operator[+] literal[String] operator[+] identifier[realm_value] operator[+] literal[String] operator[+] identifier[passwd] operator[SEP] operator[+] literal[String] operator[+] identifier[nonce_value] operator[+] literal[String] operator[+] identifier[cnonce_value] operator[SEP] } identifier[String] identifier[A2] operator[=] Other[null] operator[SEP] Keyword[if] operator[SEP] identifier[qop_value] operator[==] Other[null] operator[\|\|] identifier[qop_value] operator[SEP] identifier[trim] operator[SEP] operator[SEP] operator[SEP] identifier[length] operator[SEP] operator[SEP] operator[==] Other[0] operator[\|\|] identifier[qop_value] operator[SEP] identifier[trim] operator[SEP] operator[SEP] operator[SEP] identifier[equalsIgnoreCase] operator[SEP] literal[String] operator[SEP] operator[SEP] { identifier[A2] operator[=] identifier[method] operator[+] literal[String] operator[+] identifier[digest_uri_value] operator[SEP] } Keyword[else] { Keyword[if] operator[SEP] identifier[entity_body] operator[==] Other[null] operator[SEP] identifier[entity_body] operator[=] literal[String] operator[SEP] identifier[A2] operator[=] identifier[method] operator[+] literal[String] operator[+] identifier[digest_uri_value] operator[+] literal[String] operator[+] identifier[H] operator[SEP] identifier[entity_body] operator[SEP] operator[SEP] } identifier[String] identifier[request_digest] operator[=] Other[null] operator[SEP] Keyword[if] operator[SEP] identifier[cnonce_value] operator[!=] Other[null] operator[&&] identifier[qop_value] operator[!=] Other[null] operator[&&] identifier[nc_value] operator[!=] Other[null] operator[&&] operator[SEP] identifier[qop_value] operator[SEP] identifier[equalsIgnoreCase] operator[SEP] literal[String] operator[SEP] operator[\|\|] identifier[qop_value] operator[SEP] identifier[equalsIgnoreCase] operator[SEP] literal[String] operator[SEP] operator[SEP] operator[SEP] { identifier[request_digest] operator[=] identifier[KD] operator[SEP] identifier[H] operator[SEP] identifier[A1] operator[SEP] , identifier[nonce_value] operator[+] literal[String] operator[+] identifier[nc_value] operator[+] literal[String] operator[+] identifier[cnonce_value] operator[+] literal[String] operator[+] identifier[qop_value] operator[+] literal[String] operator[+] identifier[H] operator[SEP] identifier[A2] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[logger] operator[SEP] identifier[isDebugEnabled] operator[SEP] operator[SEP] operator[SEP] { identifier[logger] operator[SEP] identifier[debug] operator[SEP] literal[String] operator[+] identifier[H] operator[SEP] identifier[A1] operator[SEP] operator[SEP] operator[SEP] identifier[logger] operator[SEP] identifier[debug] operator[SEP] literal[String] operator[+] identifier[H] operator[SEP] identifier[A2] operator[SEP] operator[SEP] operator[SEP] identifier[logger] operator[SEP] identifier[debug] operator[SEP] literal[String] operator[+] identifier[request_digest] operator[SEP] operator[SEP] } } Keyword[else] { identifier[request_digest] operator[=] identifier[KD] operator[SEP] identifier[H] operator[SEP] identifier[A1] operator[SEP] , identifier[nonce_value] operator[+] literal[String] operator[+] identifier[H] operator[SEP] identifier[A2] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[logger] operator[SEP] identifier[isDebugEnabled] operator[SEP] operator[SEP] operator[SEP] { identifier[logger] operator[SEP] identifier[debug] operator[SEP] literal[String] operator[+] identifier[request_digest] operator[SEP] operator[SEP] } } Keyword[return] identifier[request_digest] operator[SEP] }
@Override public <U> Future<Tuple2<T, U>> zip(final Iterable<? extends U> other) { return (Future) Zippable.super.zip(other); }	class class_name[name] begin[{] method[zip, return_type[type[Future]], modifier[public], parameter[other]] begin[{] return[Cast(expression=MemberReference(member=Zippable, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[SuperMethodInvocation(arguments=[MemberReference(member=other, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=zip, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), type=ReferenceType(arguments=None, dimensions=[], name=Future, sub_type=None))] end[}] END[}]	annotation[@] identifier[Override] Keyword[public] operator[<] identifier[U] operator[>] identifier[Future] operator[<] identifier[Tuple2] operator[<] identifier[T] , identifier[U] operator[>] operator[>] identifier[zip] operator[SEP] Keyword[final] identifier[Iterable] operator[<] operator[?] Keyword[extends] identifier[U] operator[>] identifier[other] operator[SEP] { Keyword[return] operator[SEP] identifier[Future] operator[SEP] identifier[Zippable] operator[SEP] Keyword[super] operator[SEP] identifier[zip] operator[SEP] identifier[other] operator[SEP] operator[SEP] }
private boolean drawFeature(int zoom, BoundingBox boundingBox, BoundingBox expandedBoundingBox, ProjectionTransform transform, FeatureTileGraphics graphics, FeatureRow row) { boolean drawn = false; try { GeoPackageGeometryData geomData = row.getGeometry(); if (geomData != null) { Geometry geometry = geomData.getGeometry(); if (geometry != null) { GeometryEnvelope envelope = geomData.getOrBuildEnvelope(); BoundingBox geometryBoundingBox = new BoundingBox(envelope); BoundingBox transformedBoundingBox = geometryBoundingBox .transform(transform); if (expandedBoundingBox.intersects(transformedBoundingBox, true)) { double simplifyTolerance = TileBoundingBoxUtils .toleranceDistance(zoom, tileWidth, tileHeight); drawn = drawGeometry(simplifyTolerance, boundingBox, transform, graphics, row, geometry); } } } } catch (Exception e) { log.log(Level.SEVERE, "Failed to draw feature in tile. Table: " + featureDao.getTableName(), e); } return drawn; }	class class_name[name] begin[{] method[drawFeature, return_type[type[boolean]], modifier[private], parameter[zoom, boundingBox, expandedBoundingBox, transform, graphics, row]] begin[{] local_variable[type[boolean], drawn] TryStatement(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=getGeometry, postfix_operators=[], prefix_operators=[], qualifier=row, selectors=[], type_arguments=None), name=geomData)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=GeoPackageGeometryData, sub_type=None)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=geomData, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator=!=), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=getGeometry, postfix_operators=[], prefix_operators=[], qualifier=geomData, selectors=[], type_arguments=None), name=geometry)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Geometry, sub_type=None)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=geometry, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator=!=), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=getOrBuildEnvelope, postfix_operators=[], prefix_operators=[], qualifier=geomData, selectors=[], type_arguments=None), name=envelope)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=GeometryEnvelope, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[MemberReference(member=envelope, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=BoundingBox, sub_type=None)), name=geometryBoundingBox)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=BoundingBox, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=transform, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=transform, postfix_operators=[], prefix_operators=[], qualifier=geometryBoundingBox, selectors=[], type_arguments=None), name=transformedBoundingBox)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=BoundingBox, sub_type=None)), IfStatement(condition=MethodInvocation(arguments=[MemberReference(member=transformedBoundingBox, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)], member=intersects, postfix_operators=[], prefix_operators=[], qualifier=expandedBoundingBox, selectors=[], type_arguments=None), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=zoom, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=tileWidth, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=tileHeight, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=toleranceDistance, postfix_operators=[], prefix_operators=[], qualifier=TileBoundingBoxUtils, selectors=[], type_arguments=None), name=simplifyTolerance)], modifiers=set(), type=BasicType(dimensions=[], name=double)), StatementExpression(expression=Assignment(expressionl=MemberReference(member=drawn, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[MemberReference(member=simplifyTolerance, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=boundingBox, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=transform, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=graphics, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=row, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=geometry, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=drawGeometry, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)), label=None)]))]))]))], catches=[CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=SEVERE, postfix_operators=[], prefix_operators=[], qualifier=Level, selectors=[]), BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Failed to draw feature in tile. Table: "), operandr=MethodInvocation(arguments=[], member=getTableName, postfix_operators=[], prefix_operators=[], qualifier=featureDao, selectors=[], type_arguments=None), operator=+), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=log, postfix_operators=[], prefix_operators=[], qualifier=log, selectors=[], type_arguments=None), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['Exception']))], finally_block=None, label=None, resources=None) return[member[.drawn]] end[}] END[}]	Keyword[private] Keyword[boolean] identifier[drawFeature] operator[SEP] Keyword[int] identifier[zoom] , identifier[BoundingBox] identifier[boundingBox] , identifier[BoundingBox] identifier[expandedBoundingBox] , identifier[ProjectionTransform] identifier[transform] , identifier[FeatureTileGraphics] identifier[graphics] , identifier[FeatureRow] identifier[row] operator[SEP] { Keyword[boolean] identifier[drawn] operator[=] literal[boolean] operator[SEP] Keyword[try] { identifier[GeoPackageGeometryData] identifier[geomData] operator[=] identifier[row] operator[SEP] identifier[getGeometry] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[geomData] operator[!=] Other[null] operator[SEP] { identifier[Geometry] identifier[geometry] operator[=] identifier[geomData] operator[SEP] identifier[getGeometry] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[geometry] operator[!=] Other[null] operator[SEP] { identifier[GeometryEnvelope] identifier[envelope] operator[=] identifier[geomData] operator[SEP] identifier[getOrBuildEnvelope] operator[SEP] operator[SEP] operator[SEP] identifier[BoundingBox] identifier[geometryBoundingBox] operator[=] Keyword[new] identifier[BoundingBox] operator[SEP] identifier[envelope] operator[SEP] operator[SEP] identifier[BoundingBox] identifier[transformedBoundingBox] operator[=] identifier[geometryBoundingBox] operator[SEP] identifier[transform] operator[SEP] identifier[transform] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[expandedBoundingBox] operator[SEP] identifier[intersects] operator[SEP] identifier[transformedBoundingBox] , literal[boolean] operator[SEP] operator[SEP] { Keyword[double] identifier[simplifyTolerance] operator[=] identifier[TileBoundingBoxUtils] operator[SEP] identifier[toleranceDistance] operator[SEP] identifier[zoom] , identifier[tileWidth] , identifier[tileHeight] operator[SEP] operator[SEP] identifier[drawn] operator[=] identifier[drawGeometry] operator[SEP] identifier[simplifyTolerance] , identifier[boundingBox] , identifier[transform] , identifier[graphics] , identifier[row] , identifier[geometry] operator[SEP] operator[SEP] } } } } Keyword[catch] operator[SEP] identifier[Exception] identifier[e] operator[SEP] { identifier[log] operator[SEP] identifier[log] operator[SEP] identifier[Level] operator[SEP] identifier[SEVERE] , literal[String] operator[+] identifier[featureDao] operator[SEP] identifier[getTableName] operator[SEP] operator[SEP] , identifier[e] operator[SEP] operator[SEP] } Keyword[return] identifier[drawn] operator[SEP] }
protected void processURL(HttpMessage message, int depth, String localURL, String baseURL) { // Build the absolute canonical URL String fullURL = URLCanonicalizer.getCanonicalURL(localURL, baseURL); if (fullURL == null) { return; } log.debug("Canonical URL constructed using '" + localURL + "': " + fullURL); notifyListenersResourceFound(message, depth + 1, fullURL); }	class class_name[name] begin[{] method[processURL, return_type[void], modifier[protected], parameter[message, depth, localURL, baseURL]] begin[{] local_variable[type[String], fullURL] if[binary_operation[member[.fullURL], ==, literal[null]]] begin[{] return[None] else begin[{] None end[}] call[log.debug, parameter[binary_operation[binary_operation[binary_operation[literal["Canonical URL constructed using '"], +, member[.localURL]], +, literal["': "]], +, member[.fullURL]]]] call[.notifyListenersResourceFound, parameter[member[.message], binary_operation[member[.depth], +, literal[1]], member[.fullURL]]] end[}] END[}]	Keyword[protected] Keyword[void] identifier[processURL] operator[SEP] identifier[HttpMessage] identifier[message] , Keyword[int] identifier[depth] , identifier[String] identifier[localURL] , identifier[String] identifier[baseURL] operator[SEP] { identifier[String] identifier[fullURL] operator[=] identifier[URLCanonicalizer] operator[SEP] identifier[getCanonicalURL] operator[SEP] identifier[localURL] , identifier[baseURL] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[fullURL] operator[==] Other[null] operator[SEP] { Keyword[return] operator[SEP] } identifier[log] operator[SEP] identifier[debug] operator[SEP] literal[String] operator[+] identifier[localURL] operator[+] literal[String] operator[+] identifier[fullURL] operator[SEP] operator[SEP] identifier[notifyListenersResourceFound] operator[SEP] identifier[message] , identifier[depth] operator[+] Other[1] , identifier[fullURL] operator[SEP] operator[SEP] }
public void addCompletionListener(ICompletionListener listener, Object state) { if (TraceComponent.isAnyTracingEnabled() && tc.isEntryEnabled()) { Tr.entry(tc, "addCompletionListener, listener " + listener); } boolean alreadyComplete = true; // DBG - the fullyCompleted flag doesn't get set to true until completion listener called, so why check? // also, why fully completed? if partial completed, it will still // be completed = true, and will bail on next check if (!this.fullyCompleted) { synchronized (this.completedSemaphore) { // check if the receiver is already completed. if (!this.completed) { alreadyComplete = false; // need to set listener in sync so future cannot be completed // before listener is added this.firstListener = listener; this.firstListenerState = state; } } } // if already complete, listener would not have been notified if (alreadyComplete) { if (TraceComponent.isAnyTracingEnabled() && tc.isDebugEnabled()) { Tr.debug(tc, "request already complete - notifying listener"); } invokeCallback(listener, this, state); } if (TraceComponent.isAnyTracingEnabled() && tc.isEntryEnabled()) { Tr.exit(tc, "addCompletionListener, listener " + listener); } }	class class_name[name] begin[{] method[addCompletionListener, return_type[void], modifier[public], parameter[listener, state]] begin[{] if[binary_operation[call[TraceComponent.isAnyTracingEnabled, parameter[]], &&, call[tc.isEntryEnabled, parameter[]]]] begin[{] call[Tr.entry, parameter[member[.tc], binary_operation[literal["addCompletionListener, listener "], +, member[.listener]]]] else begin[{] None end[}] local_variable[type[boolean], alreadyComplete] if[THIS[member[None.fullyCompleted]]] begin[{] SYNCHRONIZED[THIS[member[None.completedSemaphore]]] BEGIN[{] if[THIS[member[None.completed]]] begin[{] assign[member[.alreadyComplete], literal[false]] assign[THIS[member[None.firstListener]], member[.listener]] assign[THIS[member[None.firstListenerState]], member[.state]] else begin[{] None end[}] END[}] else begin[{] None end[}] if[member[.alreadyComplete]] begin[{] if[binary_operation[call[TraceComponent.isAnyTracingEnabled, parameter[]], &&, call[tc.isDebugEnabled, parameter[]]]] begin[{] call[Tr.debug, parameter[member[.tc], literal["request already complete - notifying listener"]]] else begin[{] None end[}] call[.invokeCallback, parameter[member[.listener], THIS[], member[.state]]] else begin[{] None end[}] if[binary_operation[call[TraceComponent.isAnyTracingEnabled, parameter[]], &&, call[tc.isEntryEnabled, parameter[]]]] begin[{] call[Tr.exit, parameter[member[.tc], binary_operation[literal["addCompletionListener, listener "], +, member[.listener]]]] else begin[{] None end[}] end[}] END[}]	Keyword[public] Keyword[void] identifier[addCompletionListener] operator[SEP] identifier[ICompletionListener] identifier[listener] , identifier[Object] identifier[state] operator[SEP] { Keyword[if] operator[SEP] identifier[TraceComponent] operator[SEP] identifier[isAnyTracingEnabled] operator[SEP] operator[SEP] operator[&&] identifier[tc] operator[SEP] identifier[isEntryEnabled] operator[SEP] operator[SEP] operator[SEP] { identifier[Tr] operator[SEP] identifier[entry] operator[SEP] identifier[tc] , literal[String] operator[+] identifier[listener] operator[SEP] operator[SEP] } Keyword[boolean] identifier[alreadyComplete] operator[=] literal[boolean] operator[SEP] Keyword[if] operator[SEP] operator[!] Keyword[this] operator[SEP] identifier[fullyCompleted] operator[SEP] { Keyword[synchronized] operator[SEP] Keyword[this] operator[SEP] identifier[completedSemaphore] operator[SEP] { Keyword[if] operator[SEP] operator[!] Keyword[this] operator[SEP] identifier[completed] operator[SEP] { identifier[alreadyComplete] operator[=] literal[boolean] operator[SEP] Keyword[this] operator[SEP] identifier[firstListener] operator[=] identifier[listener] operator[SEP] Keyword[this] operator[SEP] identifier[firstListenerState] operator[=] identifier[state] operator[SEP] } } } Keyword[if] operator[SEP] identifier[alreadyComplete] operator[SEP] { Keyword[if] operator[SEP] identifier[TraceComponent] operator[SEP] identifier[isAnyTracingEnabled] operator[SEP] operator[SEP] operator[&&] identifier[tc] operator[SEP] identifier[isDebugEnabled] operator[SEP] operator[SEP] operator[SEP] { identifier[Tr] operator[SEP] identifier[debug] operator[SEP] identifier[tc] , literal[String] operator[SEP] operator[SEP] } identifier[invokeCallback] operator[SEP] identifier[listener] , Keyword[this] , identifier[state] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[TraceComponent] operator[SEP] identifier[isAnyTracingEnabled] operator[SEP] operator[SEP] operator[&&] identifier[tc] operator[SEP] identifier[isEntryEnabled] operator[SEP] operator[SEP] operator[SEP] { identifier[Tr] operator[SEP] identifier[exit] operator[SEP] identifier[tc] , literal[String] operator[+] identifier[listener] operator[SEP] operator[SEP] } }
public CodeCondition and(CodeCondition anotherCodeCondition) { if (anotherCodeCondition == null) { System.out.println("CodeCondition为空！"); return this; } andCodeConditions = CollectionHelper.checkOrInitHashSet(andCodeConditions); return this; }	class class_name[name] begin[{] method[and, return_type[type[CodeCondition]], modifier[public], parameter[anotherCodeCondition]] begin[{] if[binary_operation[member[.anotherCodeCondition], ==, literal[null]]] begin[{] call[System.out.println, parameter[literal["CodeCondition为空！"]]] return[THIS[]] else begin[{] None end[}] assign[member[.andCodeConditions], call[CollectionHelper.checkOrInitHashSet, parameter[member[.andCodeConditions]]]] return[THIS[]] end[}] END[}]	Keyword[public] identifier[CodeCondition] identifier[and] operator[SEP] identifier[CodeCondition] identifier[anotherCodeCondition] operator[SEP] { Keyword[if] operator[SEP] identifier[anotherCodeCondition] operator[==] Other[null] operator[SEP] { identifier[System] operator[SEP] identifier[out] operator[SEP] identifier[println] operator[SEP] literal[String] operator[SEP] operator[SEP] Keyword[return] Keyword[this] operator[SEP] } identifier[andCodeConditions] operator[=] identifier[CollectionHelper] operator[SEP] identifier[checkOrInitHashSet] operator[SEP] identifier[andCodeConditions] operator[SEP] operator[SEP] Keyword[return] Keyword[this] operator[SEP] }
private String digit(Data data) { String rtn = ""; while (data.srcCode.isValidIndex()) { if (!data.srcCode.isCurrentBetween('0', '9')) break; rtn += data.srcCode.getCurrentLower(); data.srcCode.next(); } return rtn; }	class class_name[name] begin[{] method[digit, return_type[type[String]], modifier[private], parameter[data]] begin[{] local_variable[type[String], rtn] while[call[data.srcCode.isValidIndex, parameter[]]] begin[{] if[call[data.srcCode.isCurrentBetween, parameter[literal['0'], literal['9']]]] begin[{] BreakStatement(goto=None, label=None) else begin[{] None end[}] assign[member[.rtn], call[data.srcCode.getCurrentLower, parameter[]]] call[data.srcCode.next, parameter[]] end[}] return[member[.rtn]] end[}] END[}]	Keyword[private] identifier[String] identifier[digit] operator[SEP] identifier[Data] identifier[data] operator[SEP] { identifier[String] identifier[rtn] operator[=] literal[String] operator[SEP] Keyword[while] operator[SEP] identifier[data] operator[SEP] identifier[srcCode] operator[SEP] identifier[isValidIndex] operator[SEP] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] operator[!] identifier[data] operator[SEP] identifier[srcCode] operator[SEP] identifier[isCurrentBetween] operator[SEP] literal[String] , literal[String] operator[SEP] operator[SEP] Keyword[break] operator[SEP] identifier[rtn] operator[+=] identifier[data] operator[SEP] identifier[srcCode] operator[SEP] identifier[getCurrentLower] operator[SEP] operator[SEP] operator[SEP] identifier[data] operator[SEP] identifier[srcCode] operator[SEP] identifier[next] operator[SEP] operator[SEP] operator[SEP] } Keyword[return] identifier[rtn] operator[SEP] }
public void init(IPersistentSubscriptionStore storageService) { Log.debug("init invoked"); m_storageService = storageService; //reload any subscriptions persisted if (Log.DEBUG) { Log.debug("Reloading all stored subscriptions...subscription tree before {}", dumpTree()); } for (Subscription subscription : m_storageService.retrieveAllSubscriptions()) { Log.debug("Re-subscribing {} to topic {}", subscription.getClientId(), subscription.getTopic()); addDirect(subscription); } if (Log.DEBUG) { Log.debug("Finished loading. Subscription tree after {}", dumpTree()); } }	class class_name[name] begin[{] method[init, return_type[void], modifier[public], parameter[storageService]] begin[{] call[Log.debug, parameter[literal["init invoked"]]] assign[member[.m_storageService], member[.storageService]] if[member[Log.DEBUG]] begin[{] call[Log.debug, parameter[literal["Reloading all stored subscriptions...subscription tree before {}"], call[.dumpTree, parameter[]]]] else begin[{] None end[}] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Re-subscribing {} to topic {}"), MethodInvocation(arguments=[], member=getClientId, postfix_operators=[], prefix_operators=[], qualifier=subscription, selectors=[], type_arguments=None), MethodInvocation(arguments=[], member=getTopic, postfix_operators=[], prefix_operators=[], qualifier=subscription, selectors=[], type_arguments=None)], member=debug, postfix_operators=[], prefix_operators=[], qualifier=Log, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=subscription, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=addDirect, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MethodInvocation(arguments=[], member=retrieveAllSubscriptions, postfix_operators=[], prefix_operators=[], qualifier=m_storageService, selectors=[], type_arguments=None), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=subscription)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Subscription, sub_type=None))), label=None) if[member[Log.DEBUG]] begin[{] call[Log.debug, parameter[literal["Finished loading. Subscription tree after {}"], call[.dumpTree, parameter[]]]] else begin[{] None end[}] end[}] END[}]	Keyword[public] Keyword[void] identifier[init] operator[SEP] identifier[IPersistentSubscriptionStore] identifier[storageService] operator[SEP] { identifier[Log] operator[SEP] identifier[debug] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[m_storageService] operator[=] identifier[storageService] operator[SEP] Keyword[if] operator[SEP] identifier[Log] operator[SEP] identifier[DEBUG] operator[SEP] { identifier[Log] operator[SEP] identifier[debug] operator[SEP] literal[String] , identifier[dumpTree] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[for] operator[SEP] identifier[Subscription] identifier[subscription] operator[:] identifier[m_storageService] operator[SEP] identifier[retrieveAllSubscriptions] operator[SEP] operator[SEP] operator[SEP] { identifier[Log] operator[SEP] identifier[debug] operator[SEP] literal[String] , identifier[subscription] operator[SEP] identifier[getClientId] operator[SEP] operator[SEP] , identifier[subscription] operator[SEP] identifier[getTopic] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[addDirect] operator[SEP] identifier[subscription] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[Log] operator[SEP] identifier[DEBUG] operator[SEP] { identifier[Log] operator[SEP] identifier[debug] operator[SEP] literal[String] , identifier[dumpTree] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } }
private ConcurrentHashMap<String, String> load(final StringBuilder packageName, final File dir) throws IOException { LOG.debug("Loading SQL template.[{}]", packageName); ConcurrentHashMap<String, String> sqlMap = new ConcurrentHashMap<>(); File[] files = dir.listFiles(); for (File file : files) { String fileName = file.getName(); if (file.isDirectory()) { sqlMap.putAll(load(makeNewPackageName(packageName, file), file)); } else if (fileName.toLowerCase().endsWith(fileExtension)) { String sql = trimSlash(read(new BufferedReader(new InputStreamReader(new FileInputStream(file), getSqlEncoding())))); String sqlName = makeSqlName(packageName, fileName); sqlMap.put(sqlName, sql); LOG.trace("Loaded SQL template.[{}]", fileName); LOG.trace("Add SQL template.[{}],[{}]", sqlName, sql); } } return sqlMap; }	class class_name[name] begin[{] method[load, return_type[type[ConcurrentHashMap]], modifier[private], parameter[packageName, dir]] begin[{] call[LOG.debug, parameter[literal["Loading SQL template.[{}]"], member[.packageName]]] local_variable[type[ConcurrentHashMap], sqlMap] local_variable[type[File], files] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=getName, postfix_operators=[], prefix_operators=[], qualifier=file, selectors=[], type_arguments=None), name=fileName)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), IfStatement(condition=MethodInvocation(arguments=[], member=isDirectory, postfix_operators=[], prefix_operators=[], qualifier=file, selectors=[], type_arguments=None), else_statement=IfStatement(condition=MethodInvocation(arguments=[], member=toLowerCase, postfix_operators=[], prefix_operators=[], qualifier=fileName, selectors=[MethodInvocation(arguments=[MemberReference(member=fileExtension, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=endsWith, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MethodInvocation(arguments=[ClassCreator(arguments=[ClassCreator(arguments=[ClassCreator(arguments=[MemberReference(member=file, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=FileInputStream, sub_type=None)), MethodInvocation(arguments=[], member=getSqlEncoding, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=InputStreamReader, sub_type=None))], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=BufferedReader, sub_type=None))], member=read, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)], member=trimSlash, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), name=sql)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=packageName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=fileName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=makeSqlName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), name=sqlName)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=sqlName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=sql, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=put, postfix_operators=[], prefix_operators=[], qualifier=sqlMap, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Loaded SQL template.[{}]"), MemberReference(member=fileName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=trace, postfix_operators=[], prefix_operators=[], qualifier=LOG, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Add SQL template.[{}],[{}]"), MemberReference(member=sqlName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=sql, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=trace, postfix_operators=[], prefix_operators=[], qualifier=LOG, selectors=[], type_arguments=None), label=None)])), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[MethodInvocation(arguments=[MemberReference(member=packageName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=file, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=makeNewPackageName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), MemberReference(member=file, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=load, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)], member=putAll, postfix_operators=[], prefix_operators=[], qualifier=sqlMap, selectors=[], type_arguments=None), label=None)]))]), control=EnhancedForControl(iterable=MemberReference(member=files, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=file)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=File, sub_type=None))), label=None) return[member[.sqlMap]] end[}] END[}]	Keyword[private] identifier[ConcurrentHashMap] operator[<] identifier[String] , identifier[String] operator[>] identifier[load] operator[SEP] Keyword[final] identifier[StringBuilder] identifier[packageName] , Keyword[final] identifier[File] identifier[dir] operator[SEP] Keyword[throws] identifier[IOException] { identifier[LOG] operator[SEP] identifier[debug] operator[SEP] literal[String] , identifier[packageName] operator[SEP] operator[SEP] identifier[ConcurrentHashMap] operator[<] identifier[String] , identifier[String] operator[>] identifier[sqlMap] operator[=] Keyword[new] identifier[ConcurrentHashMap] operator[<] operator[>] operator[SEP] operator[SEP] operator[SEP] identifier[File] operator[SEP] operator[SEP] identifier[files] operator[=] identifier[dir] operator[SEP] identifier[listFiles] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] identifier[File] identifier[file] operator[:] identifier[files] operator[SEP] { identifier[String] identifier[fileName] operator[=] identifier[file] operator[SEP] identifier[getName] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[file] operator[SEP] identifier[isDirectory] operator[SEP] operator[SEP] operator[SEP] { identifier[sqlMap] operator[SEP] identifier[putAll] operator[SEP] identifier[load] operator[SEP] identifier[makeNewPackageName] operator[SEP] identifier[packageName] , identifier[file] operator[SEP] , identifier[file] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[fileName] operator[SEP] identifier[toLowerCase] operator[SEP] operator[SEP] operator[SEP] identifier[endsWith] operator[SEP] identifier[fileExtension] operator[SEP] operator[SEP] { identifier[String] identifier[sql] operator[=] identifier[trimSlash] operator[SEP] identifier[read] operator[SEP] Keyword[new] identifier[BufferedReader] operator[SEP] Keyword[new] identifier[InputStreamReader] operator[SEP] Keyword[new] identifier[FileInputStream] operator[SEP] identifier[file] operator[SEP] , identifier[getSqlEncoding] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[String] identifier[sqlName] operator[=] identifier[makeSqlName] operator[SEP] identifier[packageName] , identifier[fileName] operator[SEP] operator[SEP] identifier[sqlMap] operator[SEP] identifier[put] operator[SEP] identifier[sqlName] , identifier[sql] operator[SEP] operator[SEP] identifier[LOG] operator[SEP] identifier[trace] operator[SEP] literal[String] , identifier[fileName] operator[SEP] operator[SEP] identifier[LOG] operator[SEP] identifier[trace] operator[SEP] literal[String] , identifier[sqlName] , identifier[sql] operator[SEP] operator[SEP] } } Keyword[return] identifier[sqlMap] operator[SEP] }
public static Document readXML(URL file) throws IOException, SAXException, ParserConfigurationException { assert file != null : AssertMessages.notNullParameter(); return readXML(file.openStream()); }	class class_name[name] begin[{] method[readXML, return_type[type[Document]], modifier[public static], parameter[file]] begin[{] AssertStatement(condition=BinaryOperation(operandl=MemberReference(member=file, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator=!=), label=None, value=MethodInvocation(arguments=[], member=notNullParameter, postfix_operators=[], prefix_operators=[], qualifier=AssertMessages, selectors=[], type_arguments=None)) return[call[.readXML, parameter[call[file.openStream, parameter[]]]]] end[}] END[}]	Keyword[public] Keyword[static] identifier[Document] identifier[readXML] operator[SEP] identifier[URL] identifier[file] operator[SEP] Keyword[throws] identifier[IOException] , identifier[SAXException] , identifier[ParserConfigurationException] { Keyword[assert] identifier[file] operator[!=] Other[null] operator[:] identifier[AssertMessages] operator[SEP] identifier[notNullParameter] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[readXML] operator[SEP] identifier[file] operator[SEP] identifier[openStream] operator[SEP] operator[SEP] operator[SEP] operator[SEP] }
public static String stripMaliciousHeaderChars(String input) { for (char c : MALICIOUS_HEADER_CHARS) { input = StringUtils.remove(input, c); } return input; }	class class_name[name] begin[{] method[stripMaliciousHeaderChars, return_type[type[String]], modifier[public static], parameter[input]] begin[{] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=input, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[MemberReference(member=input, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=remove, postfix_operators=[], prefix_operators=[], qualifier=StringUtils, selectors=[], type_arguments=None)), label=None)]), control=EnhancedForControl(iterable=MemberReference(member=MALICIOUS_HEADER_CHARS, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=c)], modifiers=set(), type=BasicType(dimensions=[], name=char))), label=None) return[member[.input]] end[}] END[}]	Keyword[public] Keyword[static] identifier[String] identifier[stripMaliciousHeaderChars] operator[SEP] identifier[String] identifier[input] operator[SEP] { Keyword[for] operator[SEP] Keyword[char] identifier[c] operator[:] identifier[MALICIOUS_HEADER_CHARS] operator[SEP] { identifier[input] operator[=] identifier[StringUtils] operator[SEP] identifier[remove] operator[SEP] identifier[input] , identifier[c] operator[SEP] operator[SEP] } Keyword[return] identifier[input] operator[SEP] }
public static BaseResult userInfoUpdateremark(String access_token,String openid,String remark){ String postJson = String.format("{\"openid\":\"%1$s\",\"remark\":\"%2$s\"}", openid,remark); HttpUriRequest httpUriRequest = RequestBuilder.post() .setHeader(jsonHeader) .setUri(BASE_URI+"/cgi-bin/user/info/updateremark") .addParameter(PARAM_ACCESS_TOKEN, API.accessToken(access_token)) .setEntity(new StringEntity(postJson,Charset.forName("utf-8"))) .build(); return LocalHttpClient.executeJsonResult(httpUriRequest,BaseResult.class); }	class class_name[name] begin[{] method[userInfoUpdateremark, return_type[type[BaseResult]], modifier[public static], parameter[access_token, openid, remark]] begin[{] local_variable[type[String], postJson] local_variable[type[HttpUriRequest], httpUriRequest] return[call[LocalHttpClient.executeJsonResult, parameter[member[.httpUriRequest], ClassReference(postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=BaseResult, sub_type=None))]]] end[}] END[}]	Keyword[public] Keyword[static] identifier[BaseResult] identifier[userInfoUpdateremark] operator[SEP] identifier[String] identifier[access_token] , identifier[String] identifier[openid] , identifier[String] identifier[remark] operator[SEP] { identifier[String] identifier[postJson] operator[=] identifier[String] operator[SEP] identifier[format] operator[SEP] literal[String] , identifier[openid] , identifier[remark] operator[SEP] operator[SEP] identifier[HttpUriRequest] identifier[httpUriRequest] operator[=] identifier[RequestBuilder] operator[SEP] identifier[post] operator[SEP] operator[SEP] operator[SEP] identifier[setHeader] operator[SEP] identifier[jsonHeader] operator[SEP] operator[SEP] identifier[setUri] operator[SEP] identifier[BASE_URI] operator[+] literal[String] operator[SEP] operator[SEP] identifier[addParameter] operator[SEP] identifier[PARAM_ACCESS_TOKEN] , identifier[API] operator[SEP] identifier[accessToken] operator[SEP] identifier[access_token] operator[SEP] operator[SEP] operator[SEP] identifier[setEntity] operator[SEP] Keyword[new] identifier[StringEntity] operator[SEP] identifier[postJson] , identifier[Charset] operator[SEP] identifier[forName] operator[SEP] literal[String] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[build] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[LocalHttpClient] operator[SEP] identifier[executeJsonResult] operator[SEP] identifier[httpUriRequest] , identifier[BaseResult] operator[SEP] Keyword[class] operator[SEP] operator[SEP] }
public static String[] stripAll(final String[] strs, final String stripChars) { int strsLen; if (strs == null \|\| (strsLen = strs.length) == 0) { return strs; } final String[] newArr = new String[strsLen]; for (int i = 0; i < strsLen; i++) { newArr[i] = strip(strs[i], stripChars); } return newArr; }	class class_name[name] begin[{] method[stripAll, return_type[type[String]], modifier[public static], parameter[strs, stripChars]] begin[{] local_variable[type[int], strsLen] if[binary_operation[binary_operation[member[.strs], ==, literal[null]], \|\|, binary_operation[assign[member[.strsLen], member[strs.length]], ==, literal[0]]]] begin[{] return[member[.strs]] else begin[{] None end[}] local_variable[type[String], newArr] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=newArr, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), type==, value=MethodInvocation(arguments=[MemberReference(member=strs, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), MemberReference(member=stripChars, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=strip, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=strsLen, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=<), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), name=i)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=i, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None) return[member[.newArr]] end[}] END[}]	Keyword[public] Keyword[static] identifier[String] operator[SEP] operator[SEP] identifier[stripAll] operator[SEP] Keyword[final] identifier[String] operator[SEP] operator[SEP] identifier[strs] , Keyword[final] identifier[String] identifier[stripChars] operator[SEP] { Keyword[int] identifier[strsLen] operator[SEP] Keyword[if] operator[SEP] identifier[strs] operator[==] Other[null] operator[\|\|] operator[SEP] identifier[strsLen] operator[=] identifier[strs] operator[SEP] identifier[length] operator[SEP] operator[==] Other[0] operator[SEP] { Keyword[return] identifier[strs] operator[SEP] } Keyword[final] identifier[String] operator[SEP] operator[SEP] identifier[newArr] operator[=] Keyword[new] identifier[String] operator[SEP] identifier[strsLen] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[strsLen] operator[SEP] identifier[i] operator[++] operator[SEP] { identifier[newArr] operator[SEP] identifier[i] operator[SEP] operator[=] identifier[strip] operator[SEP] identifier[strs] operator[SEP] identifier[i] operator[SEP] , identifier[stripChars] operator[SEP] operator[SEP] } Keyword[return] identifier[newArr] operator[SEP] }
@XmlElementDecl(namespace = "http://www.tibco.com/xmlns/ApplicationManagement", name = "customAction", substitutionHeadNamespace = "http://www.tibco.com/xmlns/ApplicationManagement", substitutionHeadName = "action") public JAXBElement<CustomAction> createCustomAction(CustomAction value) { return new JAXBElement<CustomAction>(_CustomAction_QNAME, CustomAction.class, null, value); }	class class_name[name] begin[{] method[createCustomAction, return_type[type[JAXBElement]], modifier[public], parameter[value]] begin[{] return[ClassCreator(arguments=[MemberReference(member=_CustomAction_QNAME, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), ClassReference(postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=CustomAction, sub_type=None)), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), MemberReference(member=value, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=CustomAction, sub_type=None))], dimensions=None, name=JAXBElement, sub_type=None))] end[}] END[}]	annotation[@] identifier[XmlElementDecl] operator[SEP] identifier[namespace] operator[=] literal[String] , identifier[name] operator[=] literal[String] , identifier[substitutionHeadNamespace] operator[=] literal[String] , identifier[substitutionHeadName] operator[=] literal[String] operator[SEP] Keyword[public] identifier[JAXBElement] operator[<] identifier[CustomAction] operator[>] identifier[createCustomAction] operator[SEP] identifier[CustomAction] identifier[value] operator[SEP] { Keyword[return] Keyword[new] identifier[JAXBElement] operator[<] identifier[CustomAction] operator[>] operator[SEP] identifier[_CustomAction_QNAME] , identifier[CustomAction] operator[SEP] Keyword[class] , Other[null] , identifier[value] operator[SEP] operator[SEP] }
boolean layout(IRing macrocycle, IRingSet ringset) { final IAtomContainer anon = roundUpIfNeeded(AtomContainerManipulator.anonymise(macrocycle)); final Collection<Point2d[]> coords = TEMPLATES.getCoordinates(anon); if (coords.isEmpty()) return false; Point2d[] best = new Point2d[anon.getAtomCount()]; int bestOffset = selectCoords(coords, best, macrocycle, ringset); for (int i = 0; i < macrocycle.getAtomCount(); i++) { macrocycle.getAtom(i).setPoint2d(best[(bestOffset + i) % macrocycle.getAtomCount()]); macrocycle.getAtom(i).setFlag(ISPLACED, true); macrocycle.getAtom(i).setProperty(MACROCYCLE_ATOM_HINT, true); } macrocycle.setFlag(ISPLACED, true); return true; }	class class_name[name] begin[{] method[layout, return_type[type[boolean]], modifier[default], parameter[macrocycle, ringset]] begin[{] local_variable[type[IAtomContainer], anon] local_variable[type[Collection], coords] if[call[coords.isEmpty, parameter[]]] begin[{] return[literal[false]] else begin[{] None end[}] local_variable[type[Point2d], best] local_variable[type[int], bestOffset] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getAtom, postfix_operators=[], prefix_operators=[], qualifier=macrocycle, selectors=[MethodInvocation(arguments=[MemberReference(member=best, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=bestOffset, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), operandr=MethodInvocation(arguments=[], member=getAtomCount, postfix_operators=[], prefix_operators=[], qualifier=macrocycle, selectors=[], type_arguments=None), operator=%))])], member=setPoint2d, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getAtom, postfix_operators=[], prefix_operators=[], qualifier=macrocycle, selectors=[MethodInvocation(arguments=[MemberReference(member=ISPLACED, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)], member=setFlag, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getAtom, postfix_operators=[], prefix_operators=[], qualifier=macrocycle, selectors=[MethodInvocation(arguments=[MemberReference(member=MACROCYCLE_ATOM_HINT, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)], member=setProperty, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MethodInvocation(arguments=[], member=getAtomCount, postfix_operators=[], prefix_operators=[], qualifier=macrocycle, selectors=[], type_arguments=None), operator=<), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), name=i)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=i, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None) call[macrocycle.setFlag, parameter[member[.ISPLACED], literal[true]]] return[literal[true]] end[}] END[}]	Keyword[boolean] identifier[layout] operator[SEP] identifier[IRing] identifier[macrocycle] , identifier[IRingSet] identifier[ringset] operator[SEP] { Keyword[final] identifier[IAtomContainer] identifier[anon] operator[=] identifier[roundUpIfNeeded] operator[SEP] identifier[AtomContainerManipulator] operator[SEP] identifier[anonymise] operator[SEP] identifier[macrocycle] operator[SEP] operator[SEP] operator[SEP] Keyword[final] identifier[Collection] operator[<] identifier[Point2d] operator[SEP] operator[SEP] operator[>] identifier[coords] operator[=] identifier[TEMPLATES] operator[SEP] identifier[getCoordinates] operator[SEP] identifier[anon] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[coords] operator[SEP] identifier[isEmpty] operator[SEP] operator[SEP] operator[SEP] Keyword[return] literal[boolean] operator[SEP] identifier[Point2d] operator[SEP] operator[SEP] identifier[best] operator[=] Keyword[new] identifier[Point2d] operator[SEP] identifier[anon] operator[SEP] identifier[getAtomCount] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[int] identifier[bestOffset] operator[=] identifier[selectCoords] operator[SEP] identifier[coords] , identifier[best] , identifier[macrocycle] , identifier[ringset] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[macrocycle] operator[SEP] identifier[getAtomCount] operator[SEP] operator[SEP] operator[SEP] identifier[i] operator[++] operator[SEP] { identifier[macrocycle] operator[SEP] identifier[getAtom] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[setPoint2d] operator[SEP] identifier[best] operator[SEP] operator[SEP] identifier[bestOffset] operator[+] identifier[i] operator[SEP] operator[%] identifier[macrocycle] operator[SEP] identifier[getAtomCount] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[macrocycle] operator[SEP] identifier[getAtom] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[setFlag] operator[SEP] identifier[ISPLACED] , literal[boolean] operator[SEP] operator[SEP] identifier[macrocycle] operator[SEP] identifier[getAtom] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[setProperty] operator[SEP] identifier[MACROCYCLE_ATOM_HINT] , literal[boolean] operator[SEP] operator[SEP] } identifier[macrocycle] operator[SEP] identifier[setFlag] operator[SEP] identifier[ISPLACED] , literal[boolean] operator[SEP] operator[SEP] Keyword[return] literal[boolean] operator[SEP] }
protected void executeScript(URL scriptUrl) { log.debug("Executing script '{}'", scriptUrl); try (Connection conn = dataSource.getConnection()) { try (Statement stat = conn.createStatement()) { try (BufferedReader reader = new BufferedReader(new InputStreamReader(scriptUrl.openStream(), StandardCharsets.UTF_8))) { reader.lines() .filter(line -> !Strings.isNullOrEmpty(line) && line.charAt(0) != '#' && !line.startsWith("//")) .forEach(line -> { try { log.trace("execute: {}", line); stat.execute(line.trim()); } catch (SQLException e) { log.error("Failed to execute '{}'", line, e); } }); } } } catch (SQLException \| IOException e) { log.error("Failed to execute script '{}'", scriptUrl, e); } }	class class_name[name] begin[{] method[executeScript, return_type[void], modifier[protected], parameter[scriptUrl]] begin[{] call[log.debug, parameter[literal["Executing script '{}'"], member[.scriptUrl]]] TryStatement(block=[TryStatement(block=[TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[], member=lines, postfix_operators=[], prefix_operators=[], qualifier=reader, selectors=[MethodInvocation(arguments=[LambdaExpression(body=BinaryOperation(operandl=BinaryOperation(operandl=MethodInvocation(arguments=[MemberReference(member=line, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=isNullOrEmpty, postfix_operators=[], prefix_operators=['!'], qualifier=Strings, selectors=[], type_arguments=None), operandr=BinaryOperation(operandl=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0)], member=charAt, postfix_operators=[], prefix_operators=[], qualifier=line, selectors=[], type_arguments=None), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='#'), operator=!=), operator=&&), operandr=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="//")], member=startsWith, postfix_operators=[], prefix_operators=['!'], qualifier=line, selectors=[], type_arguments=None), operator=&&), parameters=[MemberReference(member=line, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])])], member=filter, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[LambdaExpression(body=[TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="execute: {}"), MemberReference(member=line, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=trace, postfix_operators=[], prefix_operators=[], qualifier=log, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=trim, postfix_operators=[], prefix_operators=[], qualifier=line, selectors=[], type_arguments=None)], member=execute, postfix_operators=[], prefix_operators=[], qualifier=stat, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Failed to execute '{}'"), MemberReference(member=line, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=error, postfix_operators=[], prefix_operators=[], qualifier=log, selectors=[], type_arguments=None), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['SQLException']))], finally_block=None, label=None, resources=None)], parameters=[MemberReference(member=line, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])])], member=forEach, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), label=None)], catches=None, finally_block=None, label=None, resources=[TryResource(annotations=[], modifiers=set(), name=reader, type=ReferenceType(arguments=None, dimensions=[], name=BufferedReader, sub_type=None), value=ClassCreator(arguments=[ClassCreator(arguments=[MethodInvocation(arguments=[], member=openStream, postfix_operators=[], prefix_operators=[], qualifier=scriptUrl, selectors=[], type_arguments=None), MemberReference(member=UTF_8, postfix_operators=[], prefix_operators=[], qualifier=StandardCharsets, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=InputStreamReader, sub_type=None))], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=BufferedReader, sub_type=None)))])], catches=None, finally_block=None, label=None, resources=[TryResource(annotations=[], modifiers=set(), name=stat, type=ReferenceType(arguments=None, dimensions=[], name=Statement, sub_type=None), value=MethodInvocation(arguments=[], member=createStatement, postfix_operators=[], prefix_operators=[], qualifier=conn, selectors=[], type_arguments=None))])], catches=[CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Failed to execute script '{}'"), MemberReference(member=scriptUrl, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=error, postfix_operators=[], prefix_operators=[], qualifier=log, selectors=[], type_arguments=None), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['SQLException', 'IOException']))], finally_block=None, label=None, resources=[TryResource(annotations=[], modifiers=set(), name=conn, type=ReferenceType(arguments=None, dimensions=[], name=Connection, sub_type=None), value=MethodInvocation(arguments=[], member=getConnection, postfix_operators=[], prefix_operators=[], qualifier=dataSource, selectors=[], type_arguments=None))]) end[}] END[}]	Keyword[protected] Keyword[void] identifier[executeScript] operator[SEP] identifier[URL] identifier[scriptUrl] operator[SEP] { identifier[log] operator[SEP] identifier[debug] operator[SEP] literal[String] , identifier[scriptUrl] operator[SEP] operator[SEP] Keyword[try] operator[SEP] identifier[Connection] identifier[conn] operator[=] identifier[dataSource] operator[SEP] identifier[getConnection] operator[SEP] operator[SEP] operator[SEP] { Keyword[try] operator[SEP] identifier[Statement] identifier[stat] operator[=] identifier[conn] operator[SEP] identifier[createStatement] operator[SEP] operator[SEP] operator[SEP] { Keyword[try] operator[SEP] identifier[BufferedReader] identifier[reader] operator[=] Keyword[new] identifier[BufferedReader] operator[SEP] Keyword[new] identifier[InputStreamReader] operator[SEP] identifier[scriptUrl] operator[SEP] identifier[openStream] operator[SEP] operator[SEP] , identifier[StandardCharsets] operator[SEP] identifier[UTF_8] operator[SEP] operator[SEP] operator[SEP] { identifier[reader] operator[SEP] identifier[lines] operator[SEP] operator[SEP] operator[SEP] identifier[filter] operator[SEP] identifier[line] operator[->] operator[!] identifier[Strings] operator[SEP] identifier[isNullOrEmpty] operator[SEP] identifier[line] operator[SEP] operator[&&] identifier[line] operator[SEP] identifier[charAt] operator[SEP] Other[0] operator[SEP] operator[!=] literal[String] operator[&&] operator[!] identifier[line] operator[SEP] identifier[startsWith] operator[SEP] literal[String] operator[SEP] operator[SEP] operator[SEP] identifier[forEach] operator[SEP] identifier[line] operator[->] { Keyword[try] { identifier[log] operator[SEP] identifier[trace] operator[SEP] literal[String] , identifier[line] operator[SEP] operator[SEP] identifier[stat] operator[SEP] identifier[execute] operator[SEP] identifier[line] operator[SEP] identifier[trim] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[SQLException] identifier[e] operator[SEP] { identifier[log] operator[SEP] identifier[error] operator[SEP] literal[String] , identifier[line] , identifier[e] operator[SEP] operator[SEP] } } operator[SEP] operator[SEP] } } } Keyword[catch] operator[SEP] identifier[SQLException] operator[\|] identifier[IOException] identifier[e] operator[SEP] { identifier[log] operator[SEP] identifier[error] operator[SEP] literal[String] , identifier[scriptUrl] , identifier[e] operator[SEP] operator[SEP] } }
public void getTraitInfo(int[] ids, Callback<List<Trait>> callback) throws GuildWars2Exception, NullPointerException { isParamValid(new ParamChecker(ids)); gw2API.getTraitInfo(processIds(ids), GuildWars2.lang.getValue()).enqueue(callback); }	class class_name[name] begin[{] method[getTraitInfo, return_type[void], modifier[public], parameter[ids, callback]] begin[{] call[.isParamValid, parameter[ClassCreator(arguments=[MemberReference(member=ids, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=ParamChecker, sub_type=None))]] call[gw2API.getTraitInfo, parameter[call[.processIds, parameter[member[.ids]]], call[GuildWars2.lang.getValue, parameter[]]]] end[}] END[}]	Keyword[public] Keyword[void] identifier[getTraitInfo] operator[SEP] Keyword[int] operator[SEP] operator[SEP] identifier[ids] , identifier[Callback] operator[<] identifier[List] operator[<] identifier[Trait] operator[>] operator[>] identifier[callback] operator[SEP] Keyword[throws] identifier[GuildWars2Exception] , identifier[NullPointerException] { identifier[isParamValid] operator[SEP] Keyword[new] identifier[ParamChecker] operator[SEP] identifier[ids] operator[SEP] operator[SEP] operator[SEP] identifier[gw2API] operator[SEP] identifier[getTraitInfo] operator[SEP] identifier[processIds] operator[SEP] identifier[ids] operator[SEP] , identifier[GuildWars2] operator[SEP] identifier[lang] operator[SEP] identifier[getValue] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[enqueue] operator[SEP] identifier[callback] operator[SEP] operator[SEP] }
public static String getUrlExtension(String url) { String extension = MimeTypeMap.getFileExtensionFromUrl(url); return TextUtils.isEmpty(extension) ? "" : extension; }	class class_name[name] begin[{] method[getUrlExtension, return_type[type[String]], modifier[public static], parameter[url]] begin[{] local_variable[type[String], extension] return[TernaryExpression(condition=MethodInvocation(arguments=[MemberReference(member=extension, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=isEmpty, postfix_operators=[], prefix_operators=[], qualifier=TextUtils, selectors=[], type_arguments=None), if_false=MemberReference(member=extension, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), if_true=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=""))] end[}] END[}]	Keyword[public] Keyword[static] identifier[String] identifier[getUrlExtension] operator[SEP] identifier[String] identifier[url] operator[SEP] { identifier[String] identifier[extension] operator[=] identifier[MimeTypeMap] operator[SEP] identifier[getFileExtensionFromUrl] operator[SEP] identifier[url] operator[SEP] operator[SEP] Keyword[return] identifier[TextUtils] operator[SEP] identifier[isEmpty] operator[SEP] identifier[extension] operator[SEP] operator[?] literal[String] operator[:] identifier[extension] operator[SEP] }
public FloatBindingAssert hasValue(Double expectedValue, Offset offset){ new ObservableNumberValueAssertions(actual).hasValue(expectedValue, offset); return this; }	class class_name[name] begin[{] method[hasValue, return_type[type[FloatBindingAssert]], modifier[public], parameter[expectedValue, offset]] begin[{] ClassCreator(arguments=[MemberReference(member=actual, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MethodInvocation(arguments=[MemberReference(member=expectedValue, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=offset, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=hasValue, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type=ReferenceType(arguments=None, dimensions=None, name=ObservableNumberValueAssertions, sub_type=None)) return[THIS[]] end[}] END[}]	Keyword[public] identifier[FloatBindingAssert] identifier[hasValue] operator[SEP] identifier[Double] identifier[expectedValue] , identifier[Offset] identifier[offset] operator[SEP] { Keyword[new] identifier[ObservableNumberValueAssertions] operator[SEP] identifier[actual] operator[SEP] operator[SEP] identifier[hasValue] operator[SEP] identifier[expectedValue] , identifier[offset] operator[SEP] operator[SEP] Keyword[return] Keyword[this] operator[SEP] }
@Override public void setSuspend(boolean suspendFlag) { this.unknownAttributes.put(suspendQname, XSBooleanValue.toString(suspendFlag, false)); }	class class_name[name] begin[{] method[setSuspend, return_type[void], modifier[public], parameter[suspendFlag]] begin[{] THIS[member[None.unknownAttributes]call[None.put, parameter[member[.suspendQname], call[XSBooleanValue.toString, parameter[member[.suspendFlag], literal[false]]]]]] end[}] END[}]	annotation[@] identifier[Override] Keyword[public] Keyword[void] identifier[setSuspend] operator[SEP] Keyword[boolean] identifier[suspendFlag] operator[SEP] { Keyword[this] operator[SEP] identifier[unknownAttributes] operator[SEP] identifier[put] operator[SEP] identifier[suspendQname] , identifier[XSBooleanValue] operator[SEP] identifier[toString] operator[SEP] identifier[suspendFlag] , literal[boolean] operator[SEP] operator[SEP] operator[SEP] }
private boolean pushEdge(final KamEdge edge, final SetStack<KamNode> nodeStack, final SetStack<KamEdge> edgeStack) { if (edgeStack.contains(edge)) { return false; } final KamNode currentNode = nodeStack.peek(); final KamNode edgeOppositeNode = (edge.getSourceNode() == currentNode ? edge .getTargetNode() : edge.getSourceNode()); if (nodeStack.contains(edgeOppositeNode)) { return false; } nodeStack.push(edgeOppositeNode); edgeStack.push(edge); return true; }	class class_name[name] begin[{] method[pushEdge, return_type[type[boolean]], modifier[private], parameter[edge, nodeStack, edgeStack]] begin[{] if[call[edgeStack.contains, parameter[member[.edge]]]] begin[{] return[literal[false]] else begin[{] None end[}] local_variable[type[KamNode], currentNode] local_variable[type[KamNode], edgeOppositeNode] if[call[nodeStack.contains, parameter[member[.edgeOppositeNode]]]] begin[{] return[literal[false]] else begin[{] None end[}] call[nodeStack.push, parameter[member[.edgeOppositeNode]]] call[edgeStack.push, parameter[member[.edge]]] return[literal[true]] end[}] END[}]	Keyword[private] Keyword[boolean] identifier[pushEdge] operator[SEP] Keyword[final] identifier[KamEdge] identifier[edge] , Keyword[final] identifier[SetStack] operator[<] identifier[KamNode] operator[>] identifier[nodeStack] , Keyword[final] identifier[SetStack] operator[<] identifier[KamEdge] operator[>] identifier[edgeStack] operator[SEP] { Keyword[if] operator[SEP] identifier[edgeStack] operator[SEP] identifier[contains] operator[SEP] identifier[edge] operator[SEP] operator[SEP] { Keyword[return] literal[boolean] operator[SEP] } Keyword[final] identifier[KamNode] identifier[currentNode] operator[=] identifier[nodeStack] operator[SEP] identifier[peek] operator[SEP] operator[SEP] operator[SEP] Keyword[final] identifier[KamNode] identifier[edgeOppositeNode] operator[=] operator[SEP] identifier[edge] operator[SEP] identifier[getSourceNode] operator[SEP] operator[SEP] operator[==] identifier[currentNode] operator[?] identifier[edge] operator[SEP] identifier[getTargetNode] operator[SEP] operator[SEP] operator[:] identifier[edge] operator[SEP] identifier[getSourceNode] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[nodeStack] operator[SEP] identifier[contains] operator[SEP] identifier[edgeOppositeNode] operator[SEP] operator[SEP] { Keyword[return] literal[boolean] operator[SEP] } identifier[nodeStack] operator[SEP] identifier[push] operator[SEP] identifier[edgeOppositeNode] operator[SEP] operator[SEP] identifier[edgeStack] operator[SEP] identifier[push] operator[SEP] identifier[edge] operator[SEP] operator[SEP] Keyword[return] literal[boolean] operator[SEP] }
public Enumeration<String> aliases() throws KeyStoreException, KeyException { if (TraceComponent.isAnyTracingEnabled() && tc.isEntryEnabled()) Tr.entry(tc, "aliases"); Enumeration<String> aliases = null; try { KeyStore jKeyStore = getKeyStore(false, false); if (jKeyStore == null) { throw new KeyStoreException("The keystore [" + name + "] is not present in the configuration"); } aliases = jKeyStore.aliases(); } catch (KeyStoreException e) { throw e; } catch (Exception ex) { throw new KeyException(ex.getMessage(), ex); } if (TraceComponent.isAnyTracingEnabled() && tc.isEntryEnabled()) Tr.exit(tc, "aliases: " + aliases); return aliases; }	class class_name[name] begin[{] method[aliases, return_type[type[Enumeration]], modifier[public], parameter[]] begin[{] if[binary_operation[call[TraceComponent.isAnyTracingEnabled, parameter[]], &&, call[tc.isEntryEnabled, parameter[]]]] begin[{] call[Tr.entry, parameter[member[.tc], literal["aliases"]]] else begin[{] None end[}] local_variable[type[Enumeration], aliases] TryStatement(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=false), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=false)], member=getKeyStore, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), name=jKeyStore)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=KeyStore, sub_type=None)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=jKeyStore, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator===), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="The keystore ["), operandr=MemberReference(member=name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="] is not present in the configuration"), operator=+)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=KeyStoreException, sub_type=None)), label=None)])), StatementExpression(expression=Assignment(expressionl=MemberReference(member=aliases, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=aliases, postfix_operators=[], prefix_operators=[], qualifier=jKeyStore, selectors=[], type_arguments=None)), label=None)], catches=[CatchClause(block=[ThrowStatement(expression=MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['KeyStoreException'])), CatchClause(block=[ThrowStatement(expression=ClassCreator(arguments=[MethodInvocation(arguments=[], member=getMessage, postfix_operators=[], prefix_operators=[], qualifier=ex, selectors=[], type_arguments=None), MemberReference(member=ex, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=KeyException, sub_type=None)), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=ex, types=['Exception']))], finally_block=None, label=None, resources=None) if[binary_operation[call[TraceComponent.isAnyTracingEnabled, parameter[]], &&, call[tc.isEntryEnabled, parameter[]]]] begin[{] call[Tr.exit, parameter[member[.tc], binary_operation[literal["aliases: "], +, member[.aliases]]]] else begin[{] None end[}] return[member[.aliases]] end[}] END[}]	Keyword[public] identifier[Enumeration] operator[<] identifier[String] operator[>] identifier[aliases] operator[SEP] operator[SEP] Keyword[throws] identifier[KeyStoreException] , identifier[KeyException] { Keyword[if] operator[SEP] identifier[TraceComponent] operator[SEP] identifier[isAnyTracingEnabled] operator[SEP] operator[SEP] operator[&&] identifier[tc] operator[SEP] identifier[isEntryEnabled] operator[SEP] operator[SEP] operator[SEP] identifier[Tr] operator[SEP] identifier[entry] operator[SEP] identifier[tc] , literal[String] operator[SEP] operator[SEP] identifier[Enumeration] operator[<] identifier[String] operator[>] identifier[aliases] operator[=] Other[null] operator[SEP] Keyword[try] { identifier[KeyStore] identifier[jKeyStore] operator[=] identifier[getKeyStore] operator[SEP] literal[boolean] , literal[boolean] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[jKeyStore] operator[==] Other[null] operator[SEP] { Keyword[throw] Keyword[new] identifier[KeyStoreException] operator[SEP] literal[String] operator[+] identifier[name] operator[+] literal[String] operator[SEP] operator[SEP] } identifier[aliases] operator[=] identifier[jKeyStore] operator[SEP] identifier[aliases] operator[SEP] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[KeyStoreException] identifier[e] operator[SEP] { Keyword[throw] identifier[e] operator[SEP] } Keyword[catch] operator[SEP] identifier[Exception] identifier[ex] operator[SEP] { Keyword[throw] Keyword[new] identifier[KeyException] operator[SEP] identifier[ex] operator[SEP] identifier[getMessage] operator[SEP] operator[SEP] , identifier[ex] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[TraceComponent] operator[SEP] identifier[isAnyTracingEnabled] operator[SEP] operator[SEP] operator[&&] identifier[tc] operator[SEP] identifier[isEntryEnabled] operator[SEP] operator[SEP] operator[SEP] identifier[Tr] operator[SEP] identifier[exit] operator[SEP] identifier[tc] , literal[String] operator[+] identifier[aliases] operator[SEP] operator[SEP] Keyword[return] identifier[aliases] operator[SEP] }
public void addAction(M element, byte value) { actions.put(element, Byte.valueOf(value)); }	class class_name[name] begin[{] method[addAction, return_type[void], modifier[public], parameter[element, value]] begin[{] call[actions.put, parameter[member[.element], call[Byte.valueOf, parameter[member[.value]]]]] end[}] END[}]	Keyword[public] Keyword[void] identifier[addAction] operator[SEP] identifier[M] identifier[element] , Keyword[byte] identifier[value] operator[SEP] { identifier[actions] operator[SEP] identifier[put] operator[SEP] identifier[element] , identifier[Byte] operator[SEP] identifier[valueOf] operator[SEP] identifier[value] operator[SEP] operator[SEP] operator[SEP] }
public Decl.Unit read() { ArrayList<Decl> declarations = new ArrayList<>(); Name name = parseModuleName(source.getEntry()); skipWhiteSpace(); while (index < tokens.size()) { Decl declaration; declaration = parseDeclaration(); declarations.add(declaration); skipWhiteSpace(); } // Finally, construct the new file. Tuple<Decl> decls = new Tuple<>(declarations); Decl.Unit module = new Decl.Unit(name,decls); // FIXME: update module list? return parent.allocate(module); }	class class_name[name] begin[{] method[read, return_type[type[Decl]], modifier[public], parameter[]] begin[{] local_variable[type[ArrayList], declarations] local_variable[type[Name], name] call[.skipWhiteSpace, parameter[]] while[binary_operation[member[.index], <, call[tokens.size, parameter[]]]] begin[{] local_variable[type[Decl], declaration] assign[member[.declaration], call[.parseDeclaration, parameter[]]] call[declarations.add, parameter[member[.declaration]]] call[.skipWhiteSpace, parameter[]] end[}] local_variable[type[Tuple], decls] local_variable[type[Decl], module] return[call[parent.allocate, parameter[member[.module]]]] end[}] END[}]	Keyword[public] identifier[Decl] operator[SEP] identifier[Unit] identifier[read] operator[SEP] operator[SEP] { identifier[ArrayList] operator[<] identifier[Decl] operator[>] identifier[declarations] operator[=] Keyword[new] identifier[ArrayList] operator[<] operator[>] operator[SEP] operator[SEP] operator[SEP] identifier[Name] identifier[name] operator[=] identifier[parseModuleName] operator[SEP] identifier[source] operator[SEP] identifier[getEntry] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[skipWhiteSpace] operator[SEP] operator[SEP] operator[SEP] Keyword[while] operator[SEP] identifier[index] operator[<] identifier[tokens] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] { identifier[Decl] identifier[declaration] operator[SEP] identifier[declaration] operator[=] identifier[parseDeclaration] operator[SEP] operator[SEP] operator[SEP] identifier[declarations] operator[SEP] identifier[add] operator[SEP] identifier[declaration] operator[SEP] operator[SEP] identifier[skipWhiteSpace] operator[SEP] operator[SEP] operator[SEP] } identifier[Tuple] operator[<] identifier[Decl] operator[>] identifier[decls] operator[=] Keyword[new] identifier[Tuple] operator[<] operator[>] operator[SEP] identifier[declarations] operator[SEP] operator[SEP] identifier[Decl] operator[SEP] identifier[Unit] identifier[module] operator[=] Keyword[new] identifier[Decl] operator[SEP] identifier[Unit] operator[SEP] identifier[name] , identifier[decls] operator[SEP] operator[SEP] Keyword[return] identifier[parent] operator[SEP] identifier[allocate] operator[SEP] identifier[module] operator[SEP] operator[SEP] }
public static String asPath(File file) { if (file == null) { return null; } return asPath(file.getPath()); }	class class_name[name] begin[{] method[asPath, return_type[type[String]], modifier[public static], parameter[file]] begin[{] if[binary_operation[member[.file], ==, literal[null]]] begin[{] return[literal[null]] else begin[{] None end[}] return[call[.asPath, parameter[call[file.getPath, parameter[]]]]] end[}] END[}]	Keyword[public] Keyword[static] identifier[String] identifier[asPath] operator[SEP] identifier[File] identifier[file] operator[SEP] { Keyword[if] operator[SEP] identifier[file] operator[==] Other[null] operator[SEP] { Keyword[return] Other[null] operator[SEP] } Keyword[return] identifier[asPath] operator[SEP] identifier[file] operator[SEP] identifier[getPath] operator[SEP] operator[SEP] operator[SEP] operator[SEP] }
public static ValidationResult validateIdentifier(String identifier, IdentifierType type) { if (Strings.isNullOrEmpty(identifier)) return new ValidationResult(ERROR, Messages.notNullOrEmpty(type)); if (isReservedWord(identifier)) { return new ValidationResult(ERROR, Messages.isAJavaKeyWord(identifier)); } int javaLetter = identifier.codePointAt(0); if (!Character.isJavaIdentifierStart(javaLetter)) { return new ValidationResult(ERROR, Messages.containsInvalidCharacters(identifier)); } for (int ctr = 1; ctr < identifier.length(); ctr++) { int javaLetterOrDigit = identifier.codePointAt(ctr); if (!Character.isJavaIdentifierPart(javaLetterOrDigit)) { return new ValidationResult(ERROR, Messages.containsInvalidCharacters(identifier)); } } if (CLASS_NAME.equals(type) && identifier.contains("$")) { return new ValidationResult(WARNING, "The use of '$' in class names is discouraged."); } else { return new ValidationResult(INFO); } }	class class_name[name] begin[{] method[validateIdentifier, return_type[type[ValidationResult]], modifier[public static], parameter[identifier, type]] begin[{] if[call[Strings.isNullOrEmpty, parameter[member[.identifier]]]] begin[{] return[ClassCreator(arguments=[MemberReference(member=ERROR, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MethodInvocation(arguments=[MemberReference(member=type, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=notNullOrEmpty, postfix_operators=[], prefix_operators=[], qualifier=Messages, selectors=[], type_arguments=None)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=ValidationResult, sub_type=None))] else begin[{] None end[}] if[call[.isReservedWord, parameter[member[.identifier]]]] begin[{] return[ClassCreator(arguments=[MemberReference(member=ERROR, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MethodInvocation(arguments=[MemberReference(member=identifier, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=isAJavaKeyWord, postfix_operators=[], prefix_operators=[], qualifier=Messages, selectors=[], type_arguments=None)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=ValidationResult, sub_type=None))] else begin[{] None end[}] local_variable[type[int], javaLetter] if[call[Character.isJavaIdentifierStart, parameter[member[.javaLetter]]]] begin[{] return[ClassCreator(arguments=[MemberReference(member=ERROR, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MethodInvocation(arguments=[MemberReference(member=identifier, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=containsInvalidCharacters, postfix_operators=[], prefix_operators=[], qualifier=Messages, selectors=[], type_arguments=None)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=ValidationResult, sub_type=None))] else begin[{] None end[}] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=ctr, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=codePointAt, postfix_operators=[], prefix_operators=[], qualifier=identifier, selectors=[], type_arguments=None), name=javaLetterOrDigit)], modifiers=set(), type=BasicType(dimensions=[], name=int)), IfStatement(condition=MethodInvocation(arguments=[MemberReference(member=javaLetterOrDigit, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=isJavaIdentifierPart, postfix_operators=[], prefix_operators=['!'], qualifier=Character, selectors=[], type_arguments=None), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[ReturnStatement(expression=ClassCreator(arguments=[MemberReference(member=ERROR, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MethodInvocation(arguments=[MemberReference(member=identifier, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=containsInvalidCharacters, postfix_operators=[], prefix_operators=[], qualifier=Messages, selectors=[], type_arguments=None)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=ValidationResult, sub_type=None)), label=None)]))]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=ctr, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MethodInvocation(arguments=[], member=length, postfix_operators=[], prefix_operators=[], qualifier=identifier, selectors=[], type_arguments=None), operator=<), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), name=ctr)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=ctr, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None) if[binary_operation[call[CLASS_NAME.equals, parameter[member[.type]]], &&, call[identifier.contains, parameter[literal["$"]]]]] begin[{] return[ClassCreator(arguments=[MemberReference(member=WARNING, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="The use of '$' in class names is discouraged.")], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=ValidationResult, sub_type=None))] else begin[{] return[ClassCreator(arguments=[MemberReference(member=INFO, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=ValidationResult, sub_type=None))] end[}] end[}] END[}]	Keyword[public] Keyword[static] identifier[ValidationResult] identifier[validateIdentifier] operator[SEP] identifier[String] identifier[identifier] , identifier[IdentifierType] identifier[type] operator[SEP] { Keyword[if] operator[SEP] identifier[Strings] operator[SEP] identifier[isNullOrEmpty] operator[SEP] identifier[identifier] operator[SEP] operator[SEP] Keyword[return] Keyword[new] identifier[ValidationResult] operator[SEP] identifier[ERROR] , identifier[Messages] operator[SEP] identifier[notNullOrEmpty] operator[SEP] identifier[type] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[isReservedWord] operator[SEP] identifier[identifier] operator[SEP] operator[SEP] { Keyword[return] Keyword[new] identifier[ValidationResult] operator[SEP] identifier[ERROR] , identifier[Messages] operator[SEP] identifier[isAJavaKeyWord] operator[SEP] identifier[identifier] operator[SEP] operator[SEP] operator[SEP] } Keyword[int] identifier[javaLetter] operator[=] identifier[identifier] operator[SEP] identifier[codePointAt] operator[SEP] Other[0] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[Character] operator[SEP] identifier[isJavaIdentifierStart] operator[SEP] identifier[javaLetter] operator[SEP] operator[SEP] { Keyword[return] Keyword[new] identifier[ValidationResult] operator[SEP] identifier[ERROR] , identifier[Messages] operator[SEP] identifier[containsInvalidCharacters] operator[SEP] identifier[identifier] operator[SEP] operator[SEP] operator[SEP] } Keyword[for] operator[SEP] Keyword[int] identifier[ctr] operator[=] Other[1] operator[SEP] identifier[ctr] operator[<] identifier[identifier] operator[SEP] identifier[length] operator[SEP] operator[SEP] operator[SEP] identifier[ctr] operator[++] operator[SEP] { Keyword[int] identifier[javaLetterOrDigit] operator[=] identifier[identifier] operator[SEP] identifier[codePointAt] operator[SEP] identifier[ctr] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[Character] operator[SEP] identifier[isJavaIdentifierPart] operator[SEP] identifier[javaLetterOrDigit] operator[SEP] operator[SEP] { Keyword[return] Keyword[new] identifier[ValidationResult] operator[SEP] identifier[ERROR] , identifier[Messages] operator[SEP] identifier[containsInvalidCharacters] operator[SEP] identifier[identifier] operator[SEP] operator[SEP] operator[SEP] } } Keyword[if] operator[SEP] identifier[CLASS_NAME] operator[SEP] identifier[equals] operator[SEP] identifier[type] operator[SEP] operator[&&] identifier[identifier] operator[SEP] identifier[contains] operator[SEP] literal[String] operator[SEP] operator[SEP] { Keyword[return] Keyword[new] identifier[ValidationResult] operator[SEP] identifier[WARNING] , literal[String] operator[SEP] operator[SEP] } Keyword[else] { Keyword[return] Keyword[new] identifier[ValidationResult] operator[SEP] identifier[INFO] operator[SEP] operator[SEP] } }
public Observable<Page<TldLegalAgreementInner>> listAgreementsAsync(final String name, final TopLevelDomainAgreementOption agreementOption) { return listAgreementsWithServiceResponseAsync(name, agreementOption) .map(new Func1<ServiceResponse<Page<TldLegalAgreementInner>>, Page<TldLegalAgreementInner>>() { @Override public Page<TldLegalAgreementInner> call(ServiceResponse<Page<TldLegalAgreementInner>> response) { return response.body(); } }); }	class class_name[name] begin[{] method[listAgreementsAsync, return_type[type[Observable]], modifier[public], parameter[name, agreementOption]] begin[{] return[call[.listAgreementsWithServiceResponseAsync, parameter[member[.name], member[.agreementOption]]]] end[}] END[}]	Keyword[public] identifier[Observable] operator[<] identifier[Page] operator[<] identifier[TldLegalAgreementInner] operator[>] operator[>] identifier[listAgreementsAsync] operator[SEP] Keyword[final] identifier[String] identifier[name] , Keyword[final] identifier[TopLevelDomainAgreementOption] identifier[agreementOption] operator[SEP] { Keyword[return] identifier[listAgreementsWithServiceResponseAsync] operator[SEP] identifier[name] , identifier[agreementOption] operator[SEP] operator[SEP] identifier[map] operator[SEP] Keyword[new] identifier[Func1] operator[<] identifier[ServiceResponse] operator[<] identifier[Page] operator[<] identifier[TldLegalAgreementInner] operator[>] operator[>] , identifier[Page] operator[<] identifier[TldLegalAgreementInner] operator[>] operator[>] operator[SEP] operator[SEP] { annotation[@] identifier[Override] Keyword[public] identifier[Page] operator[<] identifier[TldLegalAgreementInner] operator[>] identifier[call] operator[SEP] identifier[ServiceResponse] operator[<] identifier[Page] operator[<] identifier[TldLegalAgreementInner] operator[>] operator[>] identifier[response] operator[SEP] { Keyword[return] identifier[response] operator[SEP] identifier[body] operator[SEP] operator[SEP] operator[SEP] } } operator[SEP] operator[SEP] }
public void marshall(DescribeStateMachineForExecutionRequest describeStateMachineForExecutionRequest, ProtocolMarshaller protocolMarshaller) { if (describeStateMachineForExecutionRequest == null) { throw new SdkClientException("Invalid argument passed to marshall(...)"); } try { protocolMarshaller.marshall(describeStateMachineForExecutionRequest.getExecutionArn(), EXECUTIONARN_BINDING); } catch (Exception e) { throw new SdkClientException("Unable to marshall request to JSON: " + e.getMessage(), e); } }	class class_name[name] begin[{] method[marshall, return_type[void], modifier[public], parameter[describeStateMachineForExecutionRequest, protocolMarshaller]] begin[{] if[binary_operation[member[.describeStateMachineForExecutionRequest], ==, literal[null]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Invalid argument passed to marshall(...)")], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=SdkClientException, sub_type=None)), label=None) else begin[{] None end[}] TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getExecutionArn, postfix_operators=[], prefix_operators=[], qualifier=describeStateMachineForExecutionRequest, selectors=[], type_arguments=None), MemberReference(member=EXECUTIONARN_BINDING, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=marshall, postfix_operators=[], prefix_operators=[], qualifier=protocolMarshaller, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Unable to marshall request to JSON: "), operandr=MethodInvocation(arguments=[], member=getMessage, postfix_operators=[], prefix_operators=[], qualifier=e, selectors=[], type_arguments=None), operator=+), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=SdkClientException, sub_type=None)), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['Exception']))], finally_block=None, label=None, resources=None) end[}] END[}]	Keyword[public] Keyword[void] identifier[marshall] operator[SEP] identifier[DescribeStateMachineForExecutionRequest] identifier[describeStateMachineForExecutionRequest] , identifier[ProtocolMarshaller] identifier[protocolMarshaller] operator[SEP] { Keyword[if] operator[SEP] identifier[describeStateMachineForExecutionRequest] operator[==] Other[null] operator[SEP] { Keyword[throw] Keyword[new] identifier[SdkClientException] operator[SEP] literal[String] operator[SEP] operator[SEP] } Keyword[try] { identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[describeStateMachineForExecutionRequest] operator[SEP] identifier[getExecutionArn] operator[SEP] operator[SEP] , identifier[EXECUTIONARN_BINDING] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[Exception] identifier[e] operator[SEP] { Keyword[throw] Keyword[new] identifier[SdkClientException] operator[SEP] literal[String] operator[+] identifier[e] operator[SEP] identifier[getMessage] operator[SEP] operator[SEP] , identifier[e] operator[SEP] operator[SEP] } }
protected List<JavaFileObject> listClassesFromUrl(URL base, String packageName) throws IOException { //TODO this will only work with file:// not jar:// if (base == null) { throw new NullPointerException("base == null"); } List<JavaFileObject> list = new ArrayList<JavaFileObject>(); URLConnection connection = base.openConnection(); connection.connect(); String encoding = connection.getContentEncoding(); if (encoding == null) { encoding = "UTF-8"; } BufferedReader reader = new BufferedReader(new InputStreamReader(connection.getInputStream(), encoding)); try { String curLine; do { curLine = reader.readLine(); if (curLine != null && curLine.endsWith(".class")) { try { String curSimpleName = curLine.substring(0, curLine.length() - ".class".length()); String binaryName; if (packageName == null) { binaryName = curSimpleName; } else { binaryName = packageName + "." + curSimpleName; } list.add(new UrlJavaFileObject(curLine, new URL(base, curLine), Kind.CLASS, binaryName)); } catch (URISyntaxException e) { throw new IOException("Error parsing URL " + curLine + ".", e); } } } while (curLine != null); } finally { reader.close(); } return list; }	class class_name[name] begin[{] method[listClassesFromUrl, return_type[type[List]], modifier[protected], parameter[base, packageName]] begin[{] if[binary_operation[member[.base], ==, literal[null]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="base == null")], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=NullPointerException, sub_type=None)), label=None) else begin[{] None end[}] local_variable[type[List], list] local_variable[type[URLConnection], connection] call[connection.connect, parameter[]] local_variable[type[String], encoding] if[binary_operation[member[.encoding], ==, literal[null]]] begin[{] assign[member[.encoding], literal["UTF-8"]] else begin[{] None end[}] local_variable[type[BufferedReader], reader] TryStatement(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=None, name=curLine)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), DoStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=curLine, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=readLine, postfix_operators=[], prefix_operators=[], qualifier=reader, selectors=[], type_arguments=None)), label=None), IfStatement(condition=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=curLine, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator=!=), operandr=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=".class")], member=endsWith, postfix_operators=[], prefix_operators=[], qualifier=curLine, selectors=[], type_arguments=None), operator=&&), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[TryStatement(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), BinaryOperation(operandl=MethodInvocation(arguments=[], member=length, postfix_operators=[], prefix_operators=[], qualifier=curLine, selectors=[], type_arguments=None), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MethodInvocation(arguments=[], member=length, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], value=".class"), operator=-)], member=substring, postfix_operators=[], prefix_operators=[], qualifier=curLine, selectors=[], type_arguments=None), name=curSimpleName)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=None, name=binaryName)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=packageName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator===), else_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=binaryName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=packageName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="."), operator=+), operandr=MemberReference(member=curSimpleName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+)), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=binaryName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MemberReference(member=curSimpleName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), label=None)])), StatementExpression(expression=MethodInvocation(arguments=[ClassCreator(arguments=[MemberReference(member=curLine, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), ClassCreator(arguments=[MemberReference(member=base, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=curLine, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=URL, sub_type=None)), MemberReference(member=CLASS, postfix_operators=[], prefix_operators=[], qualifier=Kind, selectors=[]), MemberReference(member=binaryName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=UrlJavaFileObject, sub_type=None))], member=add, postfix_operators=[], prefix_operators=[], qualifier=list, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Error parsing URL "), operandr=MemberReference(member=curLine, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="."), operator=+), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=IOException, sub_type=None)), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['URISyntaxException']))], finally_block=None, label=None, resources=None)]))]), condition=BinaryOperation(operandl=MemberReference(member=curLine, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator=!=), label=None)], catches=None, finally_block=[StatementExpression(expression=MethodInvocation(arguments=[], member=close, postfix_operators=[], prefix_operators=[], qualifier=reader, selectors=[], type_arguments=None), label=None)], label=None, resources=None) return[member[.list]] end[}] END[}]	Keyword[protected] identifier[List] operator[<] identifier[JavaFileObject] operator[>] identifier[listClassesFromUrl] operator[SEP] identifier[URL] identifier[base] , identifier[String] identifier[packageName] operator[SEP] Keyword[throws] identifier[IOException] { Keyword[if] operator[SEP] identifier[base] operator[==] Other[null] operator[SEP] { Keyword[throw] Keyword[new] identifier[NullPointerException] operator[SEP] literal[String] operator[SEP] operator[SEP] } identifier[List] operator[<] identifier[JavaFileObject] operator[>] identifier[list] operator[=] Keyword[new] identifier[ArrayList] operator[<] identifier[JavaFileObject] operator[>] operator[SEP] operator[SEP] operator[SEP] identifier[URLConnection] identifier[connection] operator[=] identifier[base] operator[SEP] identifier[openConnection] operator[SEP] operator[SEP] operator[SEP] identifier[connection] operator[SEP] identifier[connect] operator[SEP] operator[SEP] operator[SEP] identifier[String] identifier[encoding] operator[=] identifier[connection] operator[SEP] identifier[getContentEncoding] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[encoding] operator[==] Other[null] operator[SEP] { identifier[encoding] operator[=] literal[String] operator[SEP] } identifier[BufferedReader] identifier[reader] operator[=] Keyword[new] identifier[BufferedReader] operator[SEP] Keyword[new] identifier[InputStreamReader] operator[SEP] identifier[connection] operator[SEP] identifier[getInputStream] operator[SEP] operator[SEP] , identifier[encoding] operator[SEP] operator[SEP] operator[SEP] Keyword[try] { identifier[String] identifier[curLine] operator[SEP] Keyword[do] { identifier[curLine] operator[=] identifier[reader] operator[SEP] identifier[readLine] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[curLine] operator[!=] Other[null] operator[&&] identifier[curLine] operator[SEP] identifier[endsWith] operator[SEP] literal[String] operator[SEP] operator[SEP] { Keyword[try] { identifier[String] identifier[curSimpleName] operator[=] identifier[curLine] operator[SEP] identifier[substring] operator[SEP] Other[0] , identifier[curLine] operator[SEP] identifier[length] operator[SEP] operator[SEP] operator[-] literal[String] operator[SEP] identifier[length] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[String] identifier[binaryName] operator[SEP] Keyword[if] operator[SEP] identifier[packageName] operator[==] Other[null] operator[SEP] { identifier[binaryName] operator[=] identifier[curSimpleName] operator[SEP] } Keyword[else] { identifier[binaryName] operator[=] identifier[packageName] operator[+] literal[String] operator[+] identifier[curSimpleName] operator[SEP] } identifier[list] operator[SEP] identifier[add] operator[SEP] Keyword[new] identifier[UrlJavaFileObject] operator[SEP] identifier[curLine] , Keyword[new] identifier[URL] operator[SEP] identifier[base] , identifier[curLine] operator[SEP] , identifier[Kind] operator[SEP] identifier[CLASS] , identifier[binaryName] operator[SEP] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[URISyntaxException] identifier[e] operator[SEP] { Keyword[throw] Keyword[new] identifier[IOException] operator[SEP] literal[String] operator[+] identifier[curLine] operator[+] literal[String] , identifier[e] operator[SEP] operator[SEP] } } } Keyword[while] operator[SEP] identifier[curLine] operator[!=] Other[null] operator[SEP] operator[SEP] } Keyword[finally] { identifier[reader] operator[SEP] identifier[close] operator[SEP] operator[SEP] operator[SEP] } Keyword[return] identifier[list] operator[SEP] }
public Integer evaluate(float fraction, Integer startValue, Integer endValue) { int startInt = startValue; return (int)(startInt + fraction * (endValue - startInt)); }	class class_name[name] begin[{] method[evaluate, return_type[type[Integer]], modifier[public], parameter[fraction, startValue, endValue]] begin[{] local_variable[type[int], startInt] return[Cast(expression=BinaryOperation(operandl=MemberReference(member=startInt, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=BinaryOperation(operandl=MemberReference(member=fraction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=BinaryOperation(operandl=MemberReference(member=endValue, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=startInt, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=-), operator=*), operator=+), type=BasicType(dimensions=[], name=int))] end[}] END[}]	Keyword[public] identifier[Integer] identifier[evaluate] operator[SEP] Keyword[float] identifier[fraction] , identifier[Integer] identifier[startValue] , identifier[Integer] identifier[endValue] operator[SEP] { Keyword[int] identifier[startInt] operator[=] identifier[startValue] operator[SEP] Keyword[return] operator[SEP] Keyword[int] operator[SEP] operator[SEP] identifier[startInt] operator[+] identifier[fraction] operator[*] operator[SEP] identifier[endValue] operator[-] identifier[startInt] operator[SEP] operator[SEP] operator[SEP] }
public static URI ocspUri(X509Certificate certificate) throws IOException { byte[] value = certificate.getExtensionValue(Extension.authorityInfoAccess.getId()); if (value == null) { return null; } ASN1Primitive authorityInfoAccess = X509ExtensionUtil.fromExtensionValue(value); if (!(authorityInfoAccess instanceof DLSequence)) { return null; } DLSequence aiaSequence = (DLSequence) authorityInfoAccess; DERTaggedObject taggedObject = findObject(aiaSequence, OCSP_RESPONDER_OID, DERTaggedObject.class); if (taggedObject == null) { return null; } if (taggedObject.getTagNo() != BERTags.OBJECT_IDENTIFIER) { return null; } byte[] encoded = taggedObject.getEncoded(); int length = (int) encoded[1] & 0xFF; String uri = new String(encoded, 2, length, CharsetUtil.UTF_8); return URI.create(uri); }	class class_name[name] begin[{] method[ocspUri, return_type[type[URI]], modifier[public static], parameter[certificate]] begin[{] local_variable[type[byte], value] if[binary_operation[member[.value], ==, literal[null]]] begin[{] return[literal[null]] else begin[{] None end[}] local_variable[type[ASN1Primitive], authorityInfoAccess] if[binary_operation[member[.authorityInfoAccess], instanceof, type[DLSequence]]] begin[{] return[literal[null]] else begin[{] None end[}] local_variable[type[DLSequence], aiaSequence] local_variable[type[DERTaggedObject], taggedObject] if[binary_operation[member[.taggedObject], ==, literal[null]]] begin[{] return[literal[null]] else begin[{] None end[}] if[binary_operation[call[taggedObject.getTagNo, parameter[]], !=, member[BERTags.OBJECT_IDENTIFIER]]] begin[{] return[literal[null]] else begin[{] None end[}] local_variable[type[byte], encoded] local_variable[type[int], length] local_variable[type[String], uri] return[call[URI.create, parameter[member[.uri]]]] end[}] END[}]	Keyword[public] Keyword[static] identifier[URI] identifier[ocspUri] operator[SEP] identifier[X509Certificate] identifier[certificate] operator[SEP] Keyword[throws] identifier[IOException] { Keyword[byte] operator[SEP] operator[SEP] identifier[value] operator[=] identifier[certificate] operator[SEP] identifier[getExtensionValue] operator[SEP] identifier[Extension] operator[SEP] identifier[authorityInfoAccess] operator[SEP] identifier[getId] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[value] operator[==] Other[null] operator[SEP] { Keyword[return] Other[null] operator[SEP] } identifier[ASN1Primitive] identifier[authorityInfoAccess] operator[=] identifier[X509ExtensionUtil] operator[SEP] identifier[fromExtensionValue] operator[SEP] identifier[value] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] operator[SEP] identifier[authorityInfoAccess] Keyword[instanceof] identifier[DLSequence] operator[SEP] operator[SEP] { Keyword[return] Other[null] operator[SEP] } identifier[DLSequence] identifier[aiaSequence] operator[=] operator[SEP] identifier[DLSequence] operator[SEP] identifier[authorityInfoAccess] operator[SEP] identifier[DERTaggedObject] identifier[taggedObject] operator[=] identifier[findObject] operator[SEP] identifier[aiaSequence] , identifier[OCSP_RESPONDER_OID] , identifier[DERTaggedObject] operator[SEP] Keyword[class] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[taggedObject] operator[==] Other[null] operator[SEP] { Keyword[return] Other[null] operator[SEP] } Keyword[if] operator[SEP] identifier[taggedObject] operator[SEP] identifier[getTagNo] operator[SEP] operator[SEP] operator[!=] identifier[BERTags] operator[SEP] identifier[OBJECT_IDENTIFIER] operator[SEP] { Keyword[return] Other[null] operator[SEP] } Keyword[byte] operator[SEP] operator[SEP] identifier[encoded] operator[=] identifier[taggedObject] operator[SEP] identifier[getEncoded] operator[SEP] operator[SEP] operator[SEP] Keyword[int] identifier[length] operator[=] operator[SEP] Keyword[int] operator[SEP] identifier[encoded] operator[SEP] Other[1] operator[SEP] operator[&] literal[Integer] operator[SEP] identifier[String] identifier[uri] operator[=] Keyword[new] identifier[String] operator[SEP] identifier[encoded] , Other[2] , identifier[length] , identifier[CharsetUtil] operator[SEP] identifier[UTF_8] operator[SEP] operator[SEP] Keyword[return] identifier[URI] operator[SEP] identifier[create] operator[SEP] identifier[uri] operator[SEP] operator[SEP] }
public void prependActionsToActionStateExecutionList(final Flow flow, final ActionState actionStateId, final EvaluateAction... actions) { addActionsToActionStateExecutionListAt(flow, actionStateId.getId(), 0, actions); }	class class_name[name] begin[{] method[prependActionsToActionStateExecutionList, return_type[void], modifier[public], parameter[flow, actionStateId, actions]] begin[{] call[.addActionsToActionStateExecutionListAt, parameter[member[.flow], call[actionStateId.getId, parameter[]], literal[0], member[.actions]]] end[}] END[}]	Keyword[public] Keyword[void] identifier[prependActionsToActionStateExecutionList] operator[SEP] Keyword[final] identifier[Flow] identifier[flow] , Keyword[final] identifier[ActionState] identifier[actionStateId] , Keyword[final] identifier[EvaluateAction] operator[...] identifier[actions] operator[SEP] { identifier[addActionsToActionStateExecutionListAt] operator[SEP] identifier[flow] , identifier[actionStateId] operator[SEP] identifier[getId] operator[SEP] operator[SEP] , Other[0] , identifier[actions] operator[SEP] operator[SEP] }
public void addInterfaceUsageInfo (Content classInfoTree) { if (! classDoc.isInterface()) { return; } if (classDoc.qualifiedName().equals("java.lang.Cloneable") \|\| classDoc.qualifiedName().equals("java.io.Serializable")) { return; // Don't generate the list, too big } List<ClassDoc> implcl = classtree.implementingclasses(classDoc); if (implcl.size() > 0) { Content label = getResource( "doclet.Implementing_Classes"); Content dt = HtmlTree.DT(label); Content dl = HtmlTree.DL(dt); dl.addContent(getClassLinks(LinkInfoImpl.Kind.IMPLEMENTED_CLASSES, implcl)); classInfoTree.addContent(dl); } }	class class_name[name] begin[{] method[addInterfaceUsageInfo, return_type[void], modifier[public], parameter[classInfoTree]] begin[{] if[call[classDoc.isInterface, parameter[]]] begin[{] return[None] else begin[{] None end[}] if[binary_operation[call[classDoc.qualifiedName, parameter[]], \|\|, call[classDoc.qualifiedName, parameter[]]]] begin[{] return[None] else begin[{] None end[}] local_variable[type[List], implcl] if[binary_operation[call[implcl.size, parameter[]], >, literal[0]]] begin[{] local_variable[type[Content], label] local_variable[type[Content], dt] local_variable[type[Content], dl] call[dl.addContent, parameter[call[.getClassLinks, parameter[member[LinkInfoImpl.Kind.IMPLEMENTED_CLASSES], member[.implcl]]]]] call[classInfoTree.addContent, parameter[member[.dl]]] else begin[{] None end[}] end[}] END[}]	Keyword[public] Keyword[void] identifier[addInterfaceUsageInfo] operator[SEP] identifier[Content] identifier[classInfoTree] operator[SEP] { Keyword[if] operator[SEP] operator[!] identifier[classDoc] operator[SEP] identifier[isInterface] operator[SEP] operator[SEP] operator[SEP] { Keyword[return] operator[SEP] } Keyword[if] operator[SEP] identifier[classDoc] operator[SEP] identifier[qualifiedName] operator[SEP] operator[SEP] operator[SEP] identifier[equals] operator[SEP] literal[String] operator[SEP] operator[\|\|] identifier[classDoc] operator[SEP] identifier[qualifiedName] operator[SEP] operator[SEP] operator[SEP] identifier[equals] operator[SEP] literal[String] operator[SEP] operator[SEP] { Keyword[return] operator[SEP] } identifier[List] operator[<] identifier[ClassDoc] operator[>] identifier[implcl] operator[=] identifier[classtree] operator[SEP] identifier[implementingclasses] operator[SEP] identifier[classDoc] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[implcl] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[>] Other[0] operator[SEP] { identifier[Content] identifier[label] operator[=] identifier[getResource] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[Content] identifier[dt] operator[=] identifier[HtmlTree] operator[SEP] identifier[DT] operator[SEP] identifier[label] operator[SEP] operator[SEP] identifier[Content] identifier[dl] operator[=] identifier[HtmlTree] operator[SEP] identifier[DL] operator[SEP] identifier[dt] operator[SEP] operator[SEP] identifier[dl] operator[SEP] identifier[addContent] operator[SEP] identifier[getClassLinks] operator[SEP] identifier[LinkInfoImpl] operator[SEP] identifier[Kind] operator[SEP] identifier[IMPLEMENTED_CLASSES] , identifier[implcl] operator[SEP] operator[SEP] operator[SEP] identifier[classInfoTree] operator[SEP] identifier[addContent] operator[SEP] identifier[dl] operator[SEP] operator[SEP] } }
public Transition getTransition(Long id) { for (Transition transition : getTransitions()) { if (transition.getId().equals(id)) return transition; } return null; // not found }	class class_name[name] begin[{] method[getTransition, return_type[type[Transition]], modifier[public], parameter[id]] begin[{] ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=MethodInvocation(arguments=[], member=getId, postfix_operators=[], prefix_operators=[], qualifier=transition, selectors=[MethodInvocation(arguments=[MemberReference(member=id, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=equals, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), else_statement=None, label=None, then_statement=ReturnStatement(expression=MemberReference(member=transition, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), label=None))]), control=EnhancedForControl(iterable=MethodInvocation(arguments=[], member=getTransitions, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=transition)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Transition, sub_type=None))), label=None) return[literal[null]] end[}] END[}]	Keyword[public] identifier[Transition] identifier[getTransition] operator[SEP] identifier[Long] identifier[id] operator[SEP] { Keyword[for] operator[SEP] identifier[Transition] identifier[transition] operator[:] identifier[getTransitions] operator[SEP] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] identifier[transition] operator[SEP] identifier[getId] operator[SEP] operator[SEP] operator[SEP] identifier[equals] operator[SEP] identifier[id] operator[SEP] operator[SEP] Keyword[return] identifier[transition] operator[SEP] } Keyword[return] Other[null] operator[SEP] }
public <T> T makeRequest(String call, String method, boolean authenticate, ApiRequestWriter writer, ApiResponseReader<T> reader) { HttpURLConnection connection = null; try { connection = sendRequest(call, method, authenticate, writer); handleResponseCode(connection); if(reader != null) return handleResponse(connection, reader); else return null; } catch(IOException e) { throw new OsmConnectionException(e); } catch(OAuthException e) { // because it was the user's fault that he did not supply an oauth consumer and the // error is kinda related with the call he made throw new OsmAuthorizationException(e); } finally { if(connection != null) connection.disconnect(); } }	class class_name[name] begin[{] method[makeRequest, return_type[type[T]], modifier[public], parameter[call, method, authenticate, writer, reader]] begin[{] local_variable[type[HttpURLConnection], connection] TryStatement(block=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=connection, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[MemberReference(member=call, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=method, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=authenticate, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=writer, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=sendRequest, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=connection, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=handleResponseCode, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=reader, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator=!=), else_statement=ReturnStatement(expression=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), label=None), label=None, then_statement=ReturnStatement(expression=MethodInvocation(arguments=[MemberReference(member=connection, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=reader, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=handleResponse, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None))], catches=[CatchClause(block=[ThrowStatement(expression=ClassCreator(arguments=[MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=OsmConnectionException, sub_type=None)), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['IOException'])), CatchClause(block=[ThrowStatement(expression=ClassCreator(arguments=[MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=OsmAuthorizationException, sub_type=None)), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['OAuthException']))], finally_block=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=connection, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator=!=), else_statement=None, label=None, then_statement=StatementExpression(expression=MethodInvocation(arguments=[], member=disconnect, postfix_operators=[], prefix_operators=[], qualifier=connection, selectors=[], type_arguments=None), label=None))], label=None, resources=None) end[}] END[}]	Keyword[public] operator[<] identifier[T] operator[>] identifier[T] identifier[makeRequest] operator[SEP] identifier[String] identifier[call] , identifier[String] identifier[method] , Keyword[boolean] identifier[authenticate] , identifier[ApiRequestWriter] identifier[writer] , identifier[ApiResponseReader] operator[<] identifier[T] operator[>] identifier[reader] operator[SEP] { identifier[HttpURLConnection] identifier[connection] operator[=] Other[null] operator[SEP] Keyword[try] { identifier[connection] operator[=] identifier[sendRequest] operator[SEP] identifier[call] , identifier[method] , identifier[authenticate] , identifier[writer] operator[SEP] operator[SEP] identifier[handleResponseCode] operator[SEP] identifier[connection] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[reader] operator[!=] Other[null] operator[SEP] Keyword[return] identifier[handleResponse] operator[SEP] identifier[connection] , identifier[reader] operator[SEP] operator[SEP] Keyword[else] Keyword[return] Other[null] operator[SEP] } Keyword[catch] operator[SEP] identifier[IOException] identifier[e] operator[SEP] { Keyword[throw] Keyword[new] identifier[OsmConnectionException] operator[SEP] identifier[e] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[OAuthException] identifier[e] operator[SEP] { Keyword[throw] Keyword[new] identifier[OsmAuthorizationException] operator[SEP] identifier[e] operator[SEP] operator[SEP] } Keyword[finally] { Keyword[if] operator[SEP] identifier[connection] operator[!=] Other[null] operator[SEP] identifier[connection] operator[SEP] identifier[disconnect] operator[SEP] operator[SEP] operator[SEP] } }
public List<User> find(String str, Criteria criteria) { Connection conn = null; List<User> users = null; try { conn = ConnectionUtils.getConnection(); users = userDAO.find(conn,str,criteria); } catch(SQLException e) { logger.error(e.getMessage()); } finally { DbUtils.closeQuietly(conn); } return users; }	class class_name[name] begin[{] method[find, return_type[type[List]], modifier[public], parameter[str, criteria]] begin[{] local_variable[type[Connection], conn] local_variable[type[List], users] TryStatement(block=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=conn, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=getConnection, postfix_operators=[], prefix_operators=[], qualifier=ConnectionUtils, selectors=[], type_arguments=None)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=users, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[MemberReference(member=conn, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=str, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=criteria, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=find, postfix_operators=[], prefix_operators=[], qualifier=userDAO, selectors=[], type_arguments=None)), label=None)], catches=[CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getMessage, postfix_operators=[], prefix_operators=[], qualifier=e, selectors=[], type_arguments=None)], member=error, postfix_operators=[], prefix_operators=[], qualifier=logger, selectors=[], type_arguments=None), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['SQLException']))], finally_block=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=conn, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=closeQuietly, postfix_operators=[], prefix_operators=[], qualifier=DbUtils, selectors=[], type_arguments=None), label=None)], label=None, resources=None) return[member[.users]] end[}] END[}]	Keyword[public] identifier[List] operator[<] identifier[User] operator[>] identifier[find] operator[SEP] identifier[String] identifier[str] , identifier[Criteria] identifier[criteria] operator[SEP] { identifier[Connection] identifier[conn] operator[=] Other[null] operator[SEP] identifier[List] operator[<] identifier[User] operator[>] identifier[users] operator[=] Other[null] operator[SEP] Keyword[try] { identifier[conn] operator[=] identifier[ConnectionUtils] operator[SEP] identifier[getConnection] operator[SEP] operator[SEP] operator[SEP] identifier[users] operator[=] identifier[userDAO] operator[SEP] identifier[find] operator[SEP] identifier[conn] , identifier[str] , identifier[criteria] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[SQLException] identifier[e] operator[SEP] { identifier[logger] operator[SEP] identifier[error] operator[SEP] identifier[e] operator[SEP] identifier[getMessage] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[finally] { identifier[DbUtils] operator[SEP] identifier[closeQuietly] operator[SEP] identifier[conn] operator[SEP] operator[SEP] } Keyword[return] identifier[users] operator[SEP] }
public long set(long instant, int value) { FieldUtils.verifyValueBounds(this, value, 0, iDivisor - 1); int divided = getDivided(getWrappedField().get(instant)); return getWrappedField().set(instant, divided * iDivisor + value); }	class class_name[name] begin[{] method[set, return_type[type[long]], modifier[public], parameter[instant, value]] begin[{] call[FieldUtils.verifyValueBounds, parameter[THIS[], member[.value], literal[0], binary_operation[member[.iDivisor], -, literal[1]]]] local_variable[type[int], divided] return[call[.getWrappedField, parameter[]]] end[}] END[}]	Keyword[public] Keyword[long] identifier[set] operator[SEP] Keyword[long] identifier[instant] , Keyword[int] identifier[value] operator[SEP] { identifier[FieldUtils] operator[SEP] identifier[verifyValueBounds] operator[SEP] Keyword[this] , identifier[value] , Other[0] , identifier[iDivisor] operator[-] Other[1] operator[SEP] operator[SEP] Keyword[int] identifier[divided] operator[=] identifier[getDivided] operator[SEP] identifier[getWrappedField] operator[SEP] operator[SEP] operator[SEP] identifier[get] operator[SEP] identifier[instant] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[getWrappedField] operator[SEP] operator[SEP] operator[SEP] identifier[set] operator[SEP] identifier[instant] , identifier[divided] operator[*] identifier[iDivisor] operator[+] identifier[value] operator[SEP] operator[SEP] }
@Nonnull public Query startAt(@Nonnull DocumentSnapshot snapshot) { QueryOptions newOptions = new QueryOptions(options); newOptions.fieldOrders = createImplicitOrderBy(); newOptions.startCursor = createCursor(newOptions.fieldOrders, snapshot, true); return new Query(firestore, path, newOptions); }	class class_name[name] begin[{] method[startAt, return_type[type[Query]], modifier[public], parameter[snapshot]] begin[{] local_variable[type[QueryOptions], newOptions] assign[member[newOptions.fieldOrders], call[.createImplicitOrderBy, parameter[]]] assign[member[newOptions.startCursor], call[.createCursor, parameter[member[newOptions.fieldOrders], member[.snapshot], literal[true]]]] return[ClassCreator(arguments=[MemberReference(member=firestore, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=path, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=newOptions, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Query, sub_type=None))] end[}] END[}]	annotation[@] identifier[Nonnull] Keyword[public] identifier[Query] identifier[startAt] operator[SEP] annotation[@] identifier[Nonnull] identifier[DocumentSnapshot] identifier[snapshot] operator[SEP] { identifier[QueryOptions] identifier[newOptions] operator[=] Keyword[new] identifier[QueryOptions] operator[SEP] identifier[options] operator[SEP] operator[SEP] identifier[newOptions] operator[SEP] identifier[fieldOrders] operator[=] identifier[createImplicitOrderBy] operator[SEP] operator[SEP] operator[SEP] identifier[newOptions] operator[SEP] identifier[startCursor] operator[=] identifier[createCursor] operator[SEP] identifier[newOptions] operator[SEP] identifier[fieldOrders] , identifier[snapshot] , literal[boolean] operator[SEP] operator[SEP] Keyword[return] Keyword[new] identifier[Query] operator[SEP] identifier[firestore] , identifier[path] , identifier[newOptions] operator[SEP] operator[SEP] }
protected IScriptReporter getHtmlTag(ServletRequest req) { Html html = (Html) req.getAttribute(Html.HTML_TAG_ID); if (html != null && html instanceof IScriptReporter) return (IScriptReporter) html; return null; }	class class_name[name] begin[{] method[getHtmlTag, return_type[type[IScriptReporter]], modifier[protected], parameter[req]] begin[{] local_variable[type[Html], html] if[binary_operation[binary_operation[member[.html], !=, literal[null]], &&, binary_operation[member[.html], instanceof, type[IScriptReporter]]]] begin[{] return[Cast(expression=MemberReference(member=html, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=IScriptReporter, sub_type=None))] else begin[{] None end[}] return[literal[null]] end[}] END[}]	Keyword[protected] identifier[IScriptReporter] identifier[getHtmlTag] operator[SEP] identifier[ServletRequest] identifier[req] operator[SEP] { identifier[Html] identifier[html] operator[=] operator[SEP] identifier[Html] operator[SEP] identifier[req] operator[SEP] identifier[getAttribute] operator[SEP] identifier[Html] operator[SEP] identifier[HTML_TAG_ID] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[html] operator[!=] Other[null] operator[&&] identifier[html] Keyword[instanceof] identifier[IScriptReporter] operator[SEP] Keyword[return] operator[SEP] identifier[IScriptReporter] operator[SEP] identifier[html] operator[SEP] Keyword[return] Other[null] operator[SEP] }
protected String createRememberMeKey(USER_ENTITY userEntity, USER_BEAN userBean) { return String.valueOf(userBean.getUserId()); // as default (override if it needs) }	class class_name[name] begin[{] method[createRememberMeKey, return_type[type[String]], modifier[protected], parameter[userEntity, userBean]] begin[{] return[call[String.valueOf, parameter[call[userBean.getUserId, parameter[]]]]] end[}] END[}]	Keyword[protected] identifier[String] identifier[createRememberMeKey] operator[SEP] identifier[USER_ENTITY] identifier[userEntity] , identifier[USER_BEAN] identifier[userBean] operator[SEP] { Keyword[return] identifier[String] operator[SEP] identifier[valueOf] operator[SEP] identifier[userBean] operator[SEP] identifier[getUserId] operator[SEP] operator[SEP] operator[SEP] operator[SEP] }
public void apply(IntLongVector other, LambdaBinOpLong lambda, boolean skipZeros) { if (other instanceof IntLongSortedVector) { applyToSorted((IntLongSortedVector)other, lambda, false); } else if (other instanceof IntLongHashVector) { other = new IntLongSortedVector((IntLongHashVector) other); applyToSorted((IntLongSortedVector) other, lambda, false); } else if (other instanceof IntLongDenseVector) { other = new IntLongSortedVector((IntLongDenseVector) other); applyToSorted((IntLongSortedVector) other, lambda, false); } else { // TODO: we could just add a generic constructor. throw new IllegalStateException("Unhandled vector type: " + other.getClass()); } }	class class_name[name] begin[{] method[apply, return_type[void], modifier[public], parameter[other, lambda, skipZeros]] begin[{] if[binary_operation[member[.other], instanceof, type[IntLongSortedVector]]] begin[{] call[.applyToSorted, parameter[Cast(expression=MemberReference(member=other, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=IntLongSortedVector, sub_type=None)), member[.lambda], literal[false]]] else begin[{] if[binary_operation[member[.other], instanceof, type[IntLongHashVector]]] begin[{] assign[member[.other], ClassCreator(arguments=[Cast(expression=MemberReference(member=other, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=IntLongHashVector, sub_type=None))], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=IntLongSortedVector, sub_type=None))] call[.applyToSorted, parameter[Cast(expression=MemberReference(member=other, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=IntLongSortedVector, sub_type=None)), member[.lambda], literal[false]]] else begin[{] if[binary_operation[member[.other], instanceof, type[IntLongDenseVector]]] begin[{] assign[member[.other], ClassCreator(arguments=[Cast(expression=MemberReference(member=other, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=IntLongDenseVector, sub_type=None))], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=IntLongSortedVector, sub_type=None))] call[.applyToSorted, parameter[Cast(expression=MemberReference(member=other, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=IntLongSortedVector, sub_type=None)), member[.lambda], literal[false]]] else begin[{] ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Unhandled vector type: "), operandr=MethodInvocation(arguments=[], member=getClass, postfix_operators=[], prefix_operators=[], qualifier=other, selectors=[], type_arguments=None), operator=+)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=IllegalStateException, sub_type=None)), label=None) end[}] end[}] end[}] end[}] END[}]	Keyword[public] Keyword[void] identifier[apply] operator[SEP] identifier[IntLongVector] identifier[other] , identifier[LambdaBinOpLong] identifier[lambda] , Keyword[boolean] identifier[skipZeros] operator[SEP] { Keyword[if] operator[SEP] identifier[other] Keyword[instanceof] identifier[IntLongSortedVector] operator[SEP] { identifier[applyToSorted] operator[SEP] operator[SEP] identifier[IntLongSortedVector] operator[SEP] identifier[other] , identifier[lambda] , literal[boolean] operator[SEP] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[other] Keyword[instanceof] identifier[IntLongHashVector] operator[SEP] { identifier[other] operator[=] Keyword[new] identifier[IntLongSortedVector] operator[SEP] operator[SEP] identifier[IntLongHashVector] operator[SEP] identifier[other] operator[SEP] operator[SEP] identifier[applyToSorted] operator[SEP] operator[SEP] identifier[IntLongSortedVector] operator[SEP] identifier[other] , identifier[lambda] , literal[boolean] operator[SEP] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[other] Keyword[instanceof] identifier[IntLongDenseVector] operator[SEP] { identifier[other] operator[=] Keyword[new] identifier[IntLongSortedVector] operator[SEP] operator[SEP] identifier[IntLongDenseVector] operator[SEP] identifier[other] operator[SEP] operator[SEP] identifier[applyToSorted] operator[SEP] operator[SEP] identifier[IntLongSortedVector] operator[SEP] identifier[other] , identifier[lambda] , literal[boolean] operator[SEP] operator[SEP] } Keyword[else] { Keyword[throw] Keyword[new] identifier[IllegalStateException] operator[SEP] literal[String] operator[+] identifier[other] operator[SEP] identifier[getClass] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } }
static int getRandomInt(int min, int max, Random random) { // Use random.nextInt as it guarantees a uniform distribution int maxForRandom = max - min + 1; return random.nextInt(maxForRandom) + min; }	class class_name[name] begin[{] method[getRandomInt, return_type[type[int]], modifier[static], parameter[min, max, random]] begin[{] local_variable[type[int], maxForRandom] return[binary_operation[call[random.nextInt, parameter[member[.maxForRandom]]], +, member[.min]]] end[}] END[}]	Keyword[static] Keyword[int] identifier[getRandomInt] operator[SEP] Keyword[int] identifier[min] , Keyword[int] identifier[max] , identifier[Random] identifier[random] operator[SEP] { Keyword[int] identifier[maxForRandom] operator[=] identifier[max] operator[-] identifier[min] operator[+] Other[1] operator[SEP] Keyword[return] identifier[random] operator[SEP] identifier[nextInt] operator[SEP] identifier[maxForRandom] operator[SEP] operator[+] identifier[min] operator[SEP] }
public static long varIntBytesToLong(byte[] bytes, int offset) { int shift = 0; long result = 0; while (shift < 64) { final byte b = bytes[offset++]; result \|= (long)(b & 0x7F) << shift; if ((b & 0x80) == 0) { return result; } shift += 7; } throw new IllegalStateException("Varint representation is invalid or exceeds 64-bit value"); }	class class_name[name] begin[{] method[varIntBytesToLong, return_type[type[long]], modifier[public static], parameter[bytes, offset]] begin[{] local_variable[type[int], shift] local_variable[type[long], result] while[binary_operation[member[.shift], <, literal[64]]] begin[{] local_variable[type[byte], b] assign[member[.result], binary_operation[Cast(expression=BinaryOperation(operandl=MemberReference(member=b, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0x7F), operator=&), type=BasicType(dimensions=[], name=long)), <<, member[.shift]]] if[binary_operation[binary_operation[member[.b], &, literal[0x80]], ==, literal[0]]] begin[{] return[member[.result]] else begin[{] None end[}] assign[member[.shift], literal[7]] end[}] ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Varint representation is invalid or exceeds 64-bit value")], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=IllegalStateException, sub_type=None)), label=None) end[}] END[}]	Keyword[public] Keyword[static] Keyword[long] identifier[varIntBytesToLong] operator[SEP] Keyword[byte] operator[SEP] operator[SEP] identifier[bytes] , Keyword[int] identifier[offset] operator[SEP] { Keyword[int] identifier[shift] operator[=] Other[0] operator[SEP] Keyword[long] identifier[result] operator[=] Other[0] operator[SEP] Keyword[while] operator[SEP] identifier[shift] operator[<] Other[64] operator[SEP] { Keyword[final] Keyword[byte] identifier[b] operator[=] identifier[bytes] operator[SEP] identifier[offset] operator[++] operator[SEP] operator[SEP] identifier[result] operator[\|=] operator[SEP] Keyword[long] operator[SEP] operator[SEP] identifier[b] operator[&] literal[Integer] operator[SEP] operator[<<] identifier[shift] operator[SEP] Keyword[if] operator[SEP] operator[SEP] identifier[b] operator[&] literal[Integer] operator[SEP] operator[==] Other[0] operator[SEP] { Keyword[return] identifier[result] operator[SEP] } identifier[shift] operator[+=] Other[7] operator[SEP] } Keyword[throw] Keyword[new] identifier[IllegalStateException] operator[SEP] literal[String] operator[SEP] operator[SEP] }
@Override public synchronized ChainData[] initChainGroup(String groupName) throws ChannelException, ChainException, ChainGroupException { if (TraceComponent.isAnyTracingEnabled() && tc.isEntryEnabled()) { Tr.entry(tc, "initChainGroup: " + groupName); } if (null == groupName) { throw new ChainGroupException("Null chain group"); } // Verify the group exists in the framework. ChainGroupData groupData = this.chainGroups.get(groupName); if (null == groupData) { throw new ChainGroupException("Unable to find group: " + groupName); } List<ChainData> changedChains = new ArrayList<ChainData>(); ChainData[] chainDataArray = groupData.getChains(); StringBuilder sbErrors = new StringBuilder(); boolean errorOccurred = false; String chainName = null; Chain chain = null; // Loop through all the chain names in the list and init them. for (int i = 0; i < chainDataArray.length; i++) { chainName = chainDataArray[i].getName(); if (chainDataArray[i].getType().equals(FlowType.OUTBOUND)) { if (TraceComponent.isAnyTracingEnabled() && tc.isDebugEnabled()) { Tr.debug(tc, "Chain " + chainName + " is outbound so no action being taken."); } continue; } try { // See if the chain is already in the runtime. chain = getRunningChain(chainName); if (null == chain) { if (TraceComponent.isAnyTracingEnabled() && tc.isDebugEnabled()) { Tr.debug(tc, "Initialize the chain, " + chainName); } initChainInternal(chainDataArray[i]); changedChains.add(chainDataArray[i]); } else { if (TraceComponent.isAnyTracingEnabled() && tc.isDebugEnabled()) { Tr.debug(tc, "Chain already in initialized state, " + chainName); } } } catch (Exception e) { String errorString = "Error initializing chain " + chainName + " in group " + groupName + ", exception=" + e; // No FFDC Needed. if (TraceComponent.isAnyTracingEnabled() && tc.isDebugEnabled()) { Tr.debug(tc, errorString); } // Note the error so an exception can be thrown later with a list of // chains that couldn't starte. errorOccurred = true; FFDCFilter.processException(e, getClass().getName() + ".initChainGroup", "3327", this, new Object[] { chainName, groupName }); sbErrors.append("\r\n"); sbErrors.append(errorString); // Get through as many chains as possible as opposed to fail fast. continue; } } // Handle any errors if they occurred. if (errorOccurred) { throw new ChainGroupException(sbErrors.toString()); } if (TraceComponent.isAnyTracingEnabled() && tc.isEntryEnabled()) { Tr.exit(tc, "initChainGroup"); } return changedChains.toArray(new ChainData[changedChains.size()]); }	class class_name[name] begin[{] method[initChainGroup, return_type[type[ChainData]], modifier[synchronized public], parameter[groupName]] begin[{] if[binary_operation[call[TraceComponent.isAnyTracingEnabled, parameter[]], &&, call[tc.isEntryEnabled, parameter[]]]] begin[{] call[Tr.entry, parameter[member[.tc], binary_operation[literal["initChainGroup: "], +, member[.groupName]]]] else begin[{] None end[}] if[binary_operation[literal[null], ==, member[.groupName]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Null chain group")], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=ChainGroupException, sub_type=None)), label=None) else begin[{] None end[}] local_variable[type[ChainGroupData], groupData] if[binary_operation[literal[null], ==, member[.groupData]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Unable to find group: "), operandr=MemberReference(member=groupName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=ChainGroupException, sub_type=None)), label=None) else begin[{] None end[}] local_variable[type[List], changedChains] local_variable[type[ChainData], chainDataArray] local_variable[type[StringBuilder], sbErrors] local_variable[type[boolean], errorOccurred] local_variable[type[String], chainName] local_variable[type[Chain], chain] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=chainName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MemberReference(member=chainDataArray, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), MethodInvocation(arguments=[], member=getName, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)])), label=None), IfStatement(condition=MemberReference(member=chainDataArray, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), MethodInvocation(arguments=[], member=getType, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[MemberReference(member=OUTBOUND, postfix_operators=[], prefix_operators=[], qualifier=FlowType, selectors=[])], member=equals, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=MethodInvocation(arguments=[], member=isAnyTracingEnabled, postfix_operators=[], prefix_operators=[], qualifier=TraceComponent, selectors=[], type_arguments=None), operandr=MethodInvocation(arguments=[], member=isDebugEnabled, postfix_operators=[], prefix_operators=[], qualifier=tc, selectors=[], type_arguments=None), operator=&&), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=tc, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), BinaryOperation(operandl=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Chain "), operandr=MemberReference(member=chainName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=" is outbound so no action being taken."), operator=+)], member=debug, postfix_operators=[], prefix_operators=[], qualifier=Tr, selectors=[], type_arguments=None), label=None)])), ContinueStatement(goto=None, label=None)])), TryStatement(block=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=chain, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[MemberReference(member=chainName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getRunningChain, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)), label=None), IfStatement(condition=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operandr=MemberReference(member=chain, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator===), else_statement=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=MethodInvocation(arguments=[], member=isAnyTracingEnabled, postfix_operators=[], prefix_operators=[], qualifier=TraceComponent, selectors=[], type_arguments=None), operandr=MethodInvocation(arguments=[], member=isDebugEnabled, postfix_operators=[], prefix_operators=[], qualifier=tc, selectors=[], type_arguments=None), operator=&&), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=tc, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Chain already in initialized state, "), operandr=MemberReference(member=chainName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+)], member=debug, postfix_operators=[], prefix_operators=[], qualifier=Tr, selectors=[], type_arguments=None), label=None)]))]), label=None, then_statement=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=MethodInvocation(arguments=[], member=isAnyTracingEnabled, postfix_operators=[], prefix_operators=[], qualifier=TraceComponent, selectors=[], type_arguments=None), operandr=MethodInvocation(arguments=[], member=isDebugEnabled, postfix_operators=[], prefix_operators=[], qualifier=tc, selectors=[], type_arguments=None), operator=&&), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=tc, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Initialize the chain, "), operandr=MemberReference(member=chainName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+)], member=debug, postfix_operators=[], prefix_operators=[], qualifier=Tr, selectors=[], type_arguments=None), label=None)])), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=chainDataArray, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))])], member=initChainInternal, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=chainDataArray, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))])], member=add, postfix_operators=[], prefix_operators=[], qualifier=changedChains, selectors=[], type_arguments=None), label=None)]))], catches=[CatchClause(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Error initializing chain "), operandr=MemberReference(member=chainName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=" in group "), operator=+), operandr=MemberReference(member=groupName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=", exception="), operator=+), operandr=MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), name=errorString)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), IfStatement(condition=BinaryOperation(operandl=MethodInvocation(arguments=[], member=isAnyTracingEnabled, postfix_operators=[], prefix_operators=[], qualifier=TraceComponent, selectors=[], type_arguments=None), operandr=MethodInvocation(arguments=[], member=isDebugEnabled, postfix_operators=[], prefix_operators=[], qualifier=tc, selectors=[], type_arguments=None), operator=&&), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=tc, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=errorString, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=debug, postfix_operators=[], prefix_operators=[], qualifier=Tr, selectors=[], type_arguments=None), label=None)])), StatementExpression(expression=Assignment(expressionl=MemberReference(member=errorOccurred, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), BinaryOperation(operandl=MethodInvocation(arguments=[], member=getClass, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[MethodInvocation(arguments=[], member=getName, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=".initChainGroup"), operator=+), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="3327"), This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[]), ArrayCreator(dimensions=[None], initializer=ArrayInitializer(initializers=[MemberReference(member=chainName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=groupName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])]), postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Object, sub_type=None))], member=processException, postfix_operators=[], prefix_operators=[], qualifier=FFDCFilter, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="\r\n")], member=append, postfix_operators=[], prefix_operators=[], qualifier=sbErrors, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=errorString, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=append, postfix_operators=[], prefix_operators=[], qualifier=sbErrors, selectors=[], type_arguments=None), label=None), ContinueStatement(goto=None, label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['Exception']))], finally_block=None, label=None, resources=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=length, postfix_operators=[], prefix_operators=[], qualifier=chainDataArray, selectors=[]), operator=<), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), name=i)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=i, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None) if[member[.errorOccurred]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[MethodInvocation(arguments=[], member=toString, postfix_operators=[], prefix_operators=[], qualifier=sbErrors, selectors=[], type_arguments=None)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=ChainGroupException, sub_type=None)), label=None) else begin[{] None end[}] if[binary_operation[call[TraceComponent.isAnyTracingEnabled, parameter[]], &&, call[tc.isEntryEnabled, parameter[]]]] begin[{] call[Tr.exit, parameter[member[.tc], literal["initChainGroup"]]] else begin[{] None end[}] return[call[changedChains.toArray, parameter[ArrayCreator(dimensions=[MethodInvocation(arguments=[], member=size, postfix_operators=[], prefix_operators=[], qualifier=changedChains, selectors=[], type_arguments=None)], initializer=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=ChainData, sub_type=None))]]] end[}] END[}]	annotation[@] identifier[Override] Keyword[public] Keyword[synchronized] identifier[ChainData] operator[SEP] operator[SEP] identifier[initChainGroup] operator[SEP] identifier[String] identifier[groupName] operator[SEP] Keyword[throws] identifier[ChannelException] , identifier[ChainException] , identifier[ChainGroupException] { Keyword[if] operator[SEP] identifier[TraceComponent] operator[SEP] identifier[isAnyTracingEnabled] operator[SEP] operator[SEP] operator[&&] identifier[tc] operator[SEP] identifier[isEntryEnabled] operator[SEP] operator[SEP] operator[SEP] { identifier[Tr] operator[SEP] identifier[entry] operator[SEP] identifier[tc] , literal[String] operator[+] identifier[groupName] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] Other[null] operator[==] identifier[groupName] operator[SEP] { Keyword[throw] Keyword[new] identifier[ChainGroupException] operator[SEP] literal[String] operator[SEP] operator[SEP] } identifier[ChainGroupData] identifier[groupData] operator[=] Keyword[this] operator[SEP] identifier[chainGroups] operator[SEP] identifier[get] operator[SEP] identifier[groupName] operator[SEP] operator[SEP] Keyword[if] operator[SEP] Other[null] operator[==] identifier[groupData] operator[SEP] { Keyword[throw] Keyword[new] identifier[ChainGroupException] operator[SEP] literal[String] operator[+] identifier[groupName] operator[SEP] operator[SEP] } identifier[List] operator[<] identifier[ChainData] operator[>] identifier[changedChains] operator[=] Keyword[new] identifier[ArrayList] operator[<] identifier[ChainData] operator[>] operator[SEP] operator[SEP] operator[SEP] identifier[ChainData] operator[SEP] operator[SEP] identifier[chainDataArray] operator[=] identifier[groupData] operator[SEP] identifier[getChains] operator[SEP] operator[SEP] operator[SEP] identifier[StringBuilder] identifier[sbErrors] operator[=] Keyword[new] identifier[StringBuilder] operator[SEP] operator[SEP] operator[SEP] Keyword[boolean] identifier[errorOccurred] operator[=] literal[boolean] operator[SEP] identifier[String] identifier[chainName] operator[=] Other[null] operator[SEP] identifier[Chain] identifier[chain] operator[=] Other[null] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[chainDataArray] operator[SEP] identifier[length] operator[SEP] identifier[i] operator[++] operator[SEP] { identifier[chainName] operator[=] identifier[chainDataArray] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[getName] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[chainDataArray] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[getType] operator[SEP] operator[SEP] operator[SEP] identifier[equals] operator[SEP] identifier[FlowType] operator[SEP] identifier[OUTBOUND] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] identifier[TraceComponent] operator[SEP] identifier[isAnyTracingEnabled] operator[SEP] operator[SEP] operator[&&] identifier[tc] operator[SEP] identifier[isDebugEnabled] operator[SEP] operator[SEP] operator[SEP] { identifier[Tr] operator[SEP] identifier[debug] operator[SEP] identifier[tc] , literal[String] operator[+] identifier[chainName] operator[+] literal[String] operator[SEP] operator[SEP] } Keyword[continue] operator[SEP] } Keyword[try] { identifier[chain] operator[=] identifier[getRunningChain] operator[SEP] identifier[chainName] operator[SEP] operator[SEP] Keyword[if] operator[SEP] Other[null] operator[==] identifier[chain] operator[SEP] { Keyword[if] operator[SEP] identifier[TraceComponent] operator[SEP] identifier[isAnyTracingEnabled] operator[SEP] operator[SEP] operator[&&] identifier[tc] operator[SEP] identifier[isDebugEnabled] operator[SEP] operator[SEP] operator[SEP] { identifier[Tr] operator[SEP] identifier[debug] operator[SEP] identifier[tc] , literal[String] operator[+] identifier[chainName] operator[SEP] operator[SEP] } identifier[initChainInternal] operator[SEP] identifier[chainDataArray] operator[SEP] identifier[i] operator[SEP] operator[SEP] operator[SEP] identifier[changedChains] operator[SEP] identifier[add] operator[SEP] identifier[chainDataArray] operator[SEP] identifier[i] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] { Keyword[if] operator[SEP] identifier[TraceComponent] operator[SEP] identifier[isAnyTracingEnabled] operator[SEP] operator[SEP] operator[&&] identifier[tc] operator[SEP] identifier[isDebugEnabled] operator[SEP] operator[SEP] operator[SEP] { identifier[Tr] operator[SEP] identifier[debug] operator[SEP] identifier[tc] , literal[String] operator[+] identifier[chainName] operator[SEP] operator[SEP] } } } Keyword[catch] operator[SEP] identifier[Exception] identifier[e] operator[SEP] { identifier[String] identifier[errorString] operator[=] literal[String] operator[+] identifier[chainName] operator[+] literal[String] operator[+] identifier[groupName] operator[+] literal[String] operator[+] identifier[e] operator[SEP] Keyword[if] operator[SEP] identifier[TraceComponent] operator[SEP] identifier[isAnyTracingEnabled] operator[SEP] operator[SEP] operator[&&] identifier[tc] operator[SEP] identifier[isDebugEnabled] operator[SEP] operator[SEP] operator[SEP] { identifier[Tr] operator[SEP] identifier[debug] operator[SEP] identifier[tc] , identifier[errorString] operator[SEP] operator[SEP] } identifier[errorOccurred] operator[=] literal[boolean] operator[SEP] identifier[FFDCFilter] operator[SEP] identifier[processException] operator[SEP] identifier[e] , identifier[getClass] operator[SEP] operator[SEP] operator[SEP] identifier[getName] operator[SEP] operator[SEP] operator[+] literal[String] , literal[String] , Keyword[this] , Keyword[new] identifier[Object] operator[SEP] operator[SEP] { identifier[chainName] , identifier[groupName] } operator[SEP] operator[SEP] identifier[sbErrors] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[sbErrors] operator[SEP] identifier[append] operator[SEP] identifier[errorString] operator[SEP] operator[SEP] Keyword[continue] operator[SEP] } } Keyword[if] operator[SEP] identifier[errorOccurred] operator[SEP] { Keyword[throw] Keyword[new] identifier[ChainGroupException] operator[SEP] identifier[sbErrors] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[TraceComponent] operator[SEP] identifier[isAnyTracingEnabled] operator[SEP] operator[SEP] operator[&&] identifier[tc] operator[SEP] identifier[isEntryEnabled] operator[SEP] operator[SEP] operator[SEP] { identifier[Tr] operator[SEP] identifier[exit] operator[SEP] identifier[tc] , literal[String] operator[SEP] operator[SEP] } Keyword[return] identifier[changedChains] operator[SEP] identifier[toArray] operator[SEP] Keyword[new] identifier[ChainData] operator[SEP] identifier[changedChains] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] }
public List<ManagementGroupVertex> getGroupVerticesInTopologicalOrder() { final List<ManagementGroupVertex> topologicalSort = new ArrayList<ManagementGroupVertex>(); final Deque<ManagementGroupVertex> noIncomingEdges = new ArrayDeque<ManagementGroupVertex>(); final Map<ManagementGroupVertex, Integer> indegrees = new HashMap<ManagementGroupVertex, Integer>(); final Iterator<ManagementGroupVertex> it = new ManagementGroupVertexIterator(this, true, -1); while (it.hasNext()) { final ManagementGroupVertex groupVertex = it.next(); indegrees.put(groupVertex, Integer.valueOf(groupVertex.getNumberOfBackwardEdges())); if (groupVertex.getNumberOfBackwardEdges() == 0) { noIncomingEdges.add(groupVertex); } } while (!noIncomingEdges.isEmpty()) { final ManagementGroupVertex groupVertex = noIncomingEdges.removeFirst(); topologicalSort.add(groupVertex); // Decrease indegree of connected vertices for (int i = 0; i < groupVertex.getNumberOfForwardEdges(); i++) { final ManagementGroupVertex targetVertex = groupVertex.getForwardEdge(i).getTarget(); Integer indegree = indegrees.get(targetVertex); indegree = Integer.valueOf(indegree.intValue() - 1); indegrees.put(targetVertex, indegree); if (indegree.intValue() == 0) { noIncomingEdges.add(targetVertex); } } } return topologicalSort; }	class class_name[name] begin[{] method[getGroupVerticesInTopologicalOrder, return_type[type[List]], modifier[public], parameter[]] begin[{] local_variable[type[List], topologicalSort] local_variable[type[Deque], noIncomingEdges] local_variable[type[Map], indegrees] local_variable[type[Iterator], it] while[call[it.hasNext, parameter[]]] begin[{] local_variable[type[ManagementGroupVertex], groupVertex] call[indegrees.put, parameter[member[.groupVertex], call[Integer.valueOf, parameter[call[groupVertex.getNumberOfBackwardEdges, parameter[]]]]]] if[binary_operation[call[groupVertex.getNumberOfBackwardEdges, parameter[]], ==, literal[0]]] begin[{] call[noIncomingEdges.add, parameter[member[.groupVertex]]] else begin[{] None end[}] end[}] while[call[noIncomingEdges.isEmpty, parameter[]]] begin[{] local_variable[type[ManagementGroupVertex], groupVertex] call[topologicalSort.add, parameter[member[.groupVertex]]] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getForwardEdge, postfix_operators=[], prefix_operators=[], qualifier=groupVertex, selectors=[MethodInvocation(arguments=[], member=getTarget, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), name=targetVertex)], modifiers={'final'}, type=ReferenceType(arguments=None, dimensions=[], name=ManagementGroupVertex, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=targetVertex, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=get, postfix_operators=[], prefix_operators=[], qualifier=indegrees, selectors=[], type_arguments=None), name=indegree)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Integer, sub_type=None)), StatementExpression(expression=Assignment(expressionl=MemberReference(member=indegree, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[BinaryOperation(operandl=MethodInvocation(arguments=[], member=intValue, postfix_operators=[], prefix_operators=[], qualifier=indegree, selectors=[], type_arguments=None), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=-)], member=valueOf, postfix_operators=[], prefix_operators=[], qualifier=Integer, selectors=[], type_arguments=None)), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=targetVertex, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=indegree, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=put, postfix_operators=[], prefix_operators=[], qualifier=indegrees, selectors=[], type_arguments=None), label=None), IfStatement(condition=BinaryOperation(operandl=MethodInvocation(arguments=[], member=intValue, postfix_operators=[], prefix_operators=[], qualifier=indegree, selectors=[], type_arguments=None), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), operator===), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=targetVertex, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=add, postfix_operators=[], prefix_operators=[], qualifier=noIncomingEdges, selectors=[], type_arguments=None), label=None)]))]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MethodInvocation(arguments=[], member=getNumberOfForwardEdges, postfix_operators=[], prefix_operators=[], qualifier=groupVertex, selectors=[], type_arguments=None), operator=<), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), name=i)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=i, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None) end[}] return[member[.topologicalSort]] end[}] END[}]	Keyword[public] identifier[List] operator[<] identifier[ManagementGroupVertex] operator[>] identifier[getGroupVerticesInTopologicalOrder] operator[SEP] operator[SEP] { Keyword[final] identifier[List] operator[<] identifier[ManagementGroupVertex] operator[>] identifier[topologicalSort] operator[=] Keyword[new] identifier[ArrayList] operator[<] identifier[ManagementGroupVertex] operator[>] operator[SEP] operator[SEP] operator[SEP] Keyword[final] identifier[Deque] operator[<] identifier[ManagementGroupVertex] operator[>] identifier[noIncomingEdges] operator[=] Keyword[new] identifier[ArrayDeque] operator[<] identifier[ManagementGroupVertex] operator[>] operator[SEP] operator[SEP] operator[SEP] Keyword[final] identifier[Map] operator[<] identifier[ManagementGroupVertex] , identifier[Integer] operator[>] identifier[indegrees] operator[=] Keyword[new] identifier[HashMap] operator[<] identifier[ManagementGroupVertex] , identifier[Integer] operator[>] operator[SEP] operator[SEP] operator[SEP] Keyword[final] identifier[Iterator] operator[<] identifier[ManagementGroupVertex] operator[>] identifier[it] operator[=] Keyword[new] identifier[ManagementGroupVertexIterator] operator[SEP] Keyword[this] , literal[boolean] , operator[-] Other[1] operator[SEP] operator[SEP] Keyword[while] operator[SEP] identifier[it] operator[SEP] identifier[hasNext] operator[SEP] operator[SEP] operator[SEP] { Keyword[final] identifier[ManagementGroupVertex] identifier[groupVertex] operator[=] identifier[it] operator[SEP] identifier[next] operator[SEP] operator[SEP] operator[SEP] identifier[indegrees] operator[SEP] identifier[put] operator[SEP] identifier[groupVertex] , identifier[Integer] operator[SEP] identifier[valueOf] operator[SEP] identifier[groupVertex] operator[SEP] identifier[getNumberOfBackwardEdges] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[groupVertex] operator[SEP] identifier[getNumberOfBackwardEdges] operator[SEP] operator[SEP] operator[==] Other[0] operator[SEP] { identifier[noIncomingEdges] operator[SEP] identifier[add] operator[SEP] identifier[groupVertex] operator[SEP] operator[SEP] } } Keyword[while] operator[SEP] operator[!] identifier[noIncomingEdges] operator[SEP] identifier[isEmpty] operator[SEP] operator[SEP] operator[SEP] { Keyword[final] identifier[ManagementGroupVertex] identifier[groupVertex] operator[=] identifier[noIncomingEdges] operator[SEP] identifier[removeFirst] operator[SEP] operator[SEP] operator[SEP] identifier[topologicalSort] operator[SEP] identifier[add] operator[SEP] identifier[groupVertex] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[groupVertex] operator[SEP] identifier[getNumberOfForwardEdges] operator[SEP] operator[SEP] operator[SEP] identifier[i] operator[++] operator[SEP] { Keyword[final] identifier[ManagementGroupVertex] identifier[targetVertex] operator[=] identifier[groupVertex] operator[SEP] identifier[getForwardEdge] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[getTarget] operator[SEP] operator[SEP] operator[SEP] identifier[Integer] identifier[indegree] operator[=] identifier[indegrees] operator[SEP] identifier[get] operator[SEP] identifier[targetVertex] operator[SEP] operator[SEP] identifier[indegree] operator[=] identifier[Integer] operator[SEP] identifier[valueOf] operator[SEP] identifier[indegree] operator[SEP] identifier[intValue] operator[SEP] operator[SEP] operator[-] Other[1] operator[SEP] operator[SEP] identifier[indegrees] operator[SEP] identifier[put] operator[SEP] identifier[targetVertex] , identifier[indegree] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[indegree] operator[SEP] identifier[intValue] operator[SEP] operator[SEP] operator[==] Other[0] operator[SEP] { identifier[noIncomingEdges] operator[SEP] identifier[add] operator[SEP] identifier[targetVertex] operator[SEP] operator[SEP] } } } Keyword[return] identifier[topologicalSort] operator[SEP] }
Diagnostic createDiagnostic( Instance instance ) { Diagnostic result = new Diagnostic( InstanceHelpers.computeInstancePath( instance )); for( Map.Entry<String,Boolean> entry : ComponentHelpers.findComponentDependenciesFor( instance.getComponent()).entrySet()) { String facetOrComponentName = entry.getKey(); Collection<Import> imports = instance.getImports().get( facetOrComponentName ); boolean resolved = imports != null && ! imports.isEmpty(); boolean optional = entry.getValue(); result.getDependenciesInformation().add( new DependencyInformation( facetOrComponentName, optional, resolved )); } return result; }	class class_name[name] begin[{] method[createDiagnostic, return_type[type[Diagnostic]], modifier[default], parameter[instance]] begin[{] local_variable[type[Diagnostic], result] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=getKey, postfix_operators=[], prefix_operators=[], qualifier=entry, selectors=[], type_arguments=None), name=facetOrComponentName)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=getImports, postfix_operators=[], prefix_operators=[], qualifier=instance, selectors=[MethodInvocation(arguments=[MemberReference(member=facetOrComponentName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=get, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), name=imports)], modifiers=set(), type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=Import, sub_type=None))], dimensions=[], name=Collection, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=imports, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator=!=), operandr=MethodInvocation(arguments=[], member=isEmpty, postfix_operators=[], prefix_operators=['!'], qualifier=imports, selectors=[], type_arguments=None), operator=&&), name=resolved)], modifiers=set(), type=BasicType(dimensions=[], name=boolean)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=getValue, postfix_operators=[], prefix_operators=[], qualifier=entry, selectors=[], type_arguments=None), name=optional)], modifiers=set(), type=BasicType(dimensions=[], name=boolean)), StatementExpression(expression=MethodInvocation(arguments=[], member=getDependenciesInformation, postfix_operators=[], prefix_operators=[], qualifier=result, selectors=[MethodInvocation(arguments=[ClassCreator(arguments=[MemberReference(member=facetOrComponentName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=optional, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=resolved, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=DependencyInformation, sub_type=None))], member=add, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getComponent, postfix_operators=[], prefix_operators=[], qualifier=instance, selectors=[], type_arguments=None)], member=findComponentDependenciesFor, postfix_operators=[], prefix_operators=[], qualifier=ComponentHelpers, selectors=[MethodInvocation(arguments=[], member=entrySet, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=entry)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Map, sub_type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=Boolean, sub_type=None))], dimensions=None, name=Entry, sub_type=None)))), label=None) return[member[.result]] end[}] END[}]	identifier[Diagnostic] identifier[createDiagnostic] operator[SEP] identifier[Instance] identifier[instance] operator[SEP] { identifier[Diagnostic] identifier[result] operator[=] Keyword[new] identifier[Diagnostic] operator[SEP] identifier[InstanceHelpers] operator[SEP] identifier[computeInstancePath] operator[SEP] identifier[instance] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] identifier[Map] operator[SEP] identifier[Entry] operator[<] identifier[String] , identifier[Boolean] operator[>] identifier[entry] operator[:] identifier[ComponentHelpers] operator[SEP] identifier[findComponentDependenciesFor] operator[SEP] identifier[instance] operator[SEP] identifier[getComponent] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[entrySet] operator[SEP] operator[SEP] operator[SEP] { identifier[String] identifier[facetOrComponentName] operator[=] identifier[entry] operator[SEP] identifier[getKey] operator[SEP] operator[SEP] operator[SEP] identifier[Collection] operator[<] identifier[Import] operator[>] identifier[imports] operator[=] identifier[instance] operator[SEP] identifier[getImports] operator[SEP] operator[SEP] operator[SEP] identifier[get] operator[SEP] identifier[facetOrComponentName] operator[SEP] operator[SEP] Keyword[boolean] identifier[resolved] operator[=] identifier[imports] operator[!=] Other[null] operator[&&] operator[!] identifier[imports] operator[SEP] identifier[isEmpty] operator[SEP] operator[SEP] operator[SEP] Keyword[boolean] identifier[optional] operator[=] identifier[entry] operator[SEP] identifier[getValue] operator[SEP] operator[SEP] operator[SEP] identifier[result] operator[SEP] identifier[getDependenciesInformation] operator[SEP] operator[SEP] operator[SEP] identifier[add] operator[SEP] Keyword[new] identifier[DependencyInformation] operator[SEP] identifier[facetOrComponentName] , identifier[optional] , identifier[resolved] operator[SEP] operator[SEP] operator[SEP] } Keyword[return] identifier[result] operator[SEP] }
public InsertIntoTable addRowsFromDelimited(File file, String delimiter, Object nullValue) { builder.addRowsFromDelimited(file, delimiter, nullValue); return this; }	class class_name[name] begin[{] method[addRowsFromDelimited, return_type[type[InsertIntoTable]], modifier[public], parameter[file, delimiter, nullValue]] begin[{] call[builder.addRowsFromDelimited, parameter[member[.file], member[.delimiter], member[.nullValue]]] return[THIS[]] end[}] END[}]	Keyword[public] identifier[InsertIntoTable] identifier[addRowsFromDelimited] operator[SEP] identifier[File] identifier[file] , identifier[String] identifier[delimiter] , identifier[Object] identifier[nullValue] operator[SEP] { identifier[builder] operator[SEP] identifier[addRowsFromDelimited] operator[SEP] identifier[file] , identifier[delimiter] , identifier[nullValue] operator[SEP] operator[SEP] Keyword[return] Keyword[this] operator[SEP] }
private void loadFileSources(final File directory, final String project) { //clear source sequence if (!directory.isDirectory()) { logger.warn("Not a directory: " + directory); } //get supported parser extensions final Set<String> exts = new HashSet<String>( framework.getResourceFormatParserService().listSupportedFileExtensions()); final File[] files = directory.listFiles(new FilenameFilter() { public boolean accept(final File file, final String s) { return exts.contains( ResourceFormatParserService.getFileExtension(s)); } }); //set of previously cached file sources by file if (null != files) { //sort on filename Arrays.sort(files, null); synchronized (sourceCache) { final HashSet<File> trackedFiles = new HashSet<File>(sourceCache.keySet()); for (final File file : files) { //remove file that we want to keep trackedFiles.remove(file); if (!sourceCache.containsKey(file)) { logger.debug("Adding new resources file to cache: " + file.getAbsolutePath()); try { final ResourceModelSource source = createFileSource(project, file); sourceCache.put(file, source); } catch (ExecutionServiceException e) { e.printStackTrace(); logger.debug("Failed adding file " + file.getAbsolutePath() + ": " + e.getMessage(), e); } } } //remaining trackedFiles are files that have been removed from the dir for (final File oldFile : trackedFiles) { logger.debug("Removing from cache: " + oldFile.getAbsolutePath()); sourceCache.remove(oldFile); } } } }	class class_name[name] begin[{] method[loadFileSources, return_type[void], modifier[private], parameter[directory, project]] begin[{] if[call[directory.isDirectory, parameter[]]] begin[{] call[logger.warn, parameter[binary_operation[literal["Not a directory: "], +, member[.directory]]]] else begin[{] None end[}] local_variable[type[Set], exts] local_variable[type[File], files] if[binary_operation[literal[null], !=, member[.files]]] begin[{] call[Arrays.sort, parameter[member[.files], literal[null]]] SYNCHRONIZED[member[.sourceCache]] BEGIN[{] local_variable[type[HashSet], trackedFiles] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=file, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=remove, postfix_operators=[], prefix_operators=[], qualifier=trackedFiles, selectors=[], type_arguments=None), label=None), IfStatement(condition=MethodInvocation(arguments=[MemberReference(member=file, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=containsKey, postfix_operators=[], prefix_operators=['!'], qualifier=sourceCache, selectors=[], type_arguments=None), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Adding new resources file to cache: "), operandr=MethodInvocation(arguments=[], member=getAbsolutePath, postfix_operators=[], prefix_operators=[], qualifier=file, selectors=[], type_arguments=None), operator=+)], member=debug, postfix_operators=[], prefix_operators=[], qualifier=logger, selectors=[], type_arguments=None), label=None), TryStatement(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=project, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=file, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=createFileSource, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), name=source)], modifiers={'final'}, type=ReferenceType(arguments=None, dimensions=[], name=ResourceModelSource, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=file, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=source, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=put, postfix_operators=[], prefix_operators=[], qualifier=sourceCache, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[], member=printStackTrace, postfix_operators=[], prefix_operators=[], qualifier=e, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Failed adding file "), operandr=MethodInvocation(arguments=[], member=getAbsolutePath, postfix_operators=[], prefix_operators=[], qualifier=file, selectors=[], type_arguments=None), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=": "), operator=+), operandr=MethodInvocation(arguments=[], member=getMessage, postfix_operators=[], prefix_operators=[], qualifier=e, selectors=[], type_arguments=None), operator=+), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=debug, postfix_operators=[], prefix_operators=[], qualifier=logger, selectors=[], type_arguments=None), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['ExecutionServiceException']))], finally_block=None, label=None, resources=None)]))]), control=EnhancedForControl(iterable=MemberReference(member=files, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=file)], modifiers={'final'}, type=ReferenceType(arguments=None, dimensions=[], name=File, sub_type=None))), label=None) ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Removing from cache: "), operandr=MethodInvocation(arguments=[], member=getAbsolutePath, postfix_operators=[], prefix_operators=[], qualifier=oldFile, selectors=[], type_arguments=None), operator=+)], member=debug, postfix_operators=[], prefix_operators=[], qualifier=logger, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=oldFile, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=remove, postfix_operators=[], prefix_operators=[], qualifier=sourceCache, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MemberReference(member=trackedFiles, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=oldFile)], modifiers={'final'}, type=ReferenceType(arguments=None, dimensions=[], name=File, sub_type=None))), label=None) END[}] else begin[{] None end[}] end[}] END[}]	Keyword[private] Keyword[void] identifier[loadFileSources] operator[SEP] Keyword[final] identifier[File] identifier[directory] , Keyword[final] identifier[String] identifier[project] operator[SEP] { Keyword[if] operator[SEP] operator[!] identifier[directory] operator[SEP] identifier[isDirectory] operator[SEP] operator[SEP] operator[SEP] { identifier[logger] operator[SEP] identifier[warn] operator[SEP] literal[String] operator[+] identifier[directory] operator[SEP] operator[SEP] } Keyword[final] identifier[Set] operator[<] identifier[String] operator[>] identifier[exts] operator[=] Keyword[new] identifier[HashSet] operator[<] identifier[String] operator[>] operator[SEP] identifier[framework] operator[SEP] identifier[getResourceFormatParserService] operator[SEP] operator[SEP] operator[SEP] identifier[listSupportedFileExtensions] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[final] identifier[File] operator[SEP] operator[SEP] identifier[files] operator[=] identifier[directory] operator[SEP] identifier[listFiles] operator[SEP] Keyword[new] identifier[FilenameFilter] operator[SEP] operator[SEP] { Keyword[public] Keyword[boolean] identifier[accept] operator[SEP] Keyword[final] identifier[File] identifier[file] , Keyword[final] identifier[String] identifier[s] operator[SEP] { Keyword[return] identifier[exts] operator[SEP] identifier[contains] operator[SEP] identifier[ResourceFormatParserService] operator[SEP] identifier[getFileExtension] operator[SEP] identifier[s] operator[SEP] operator[SEP] operator[SEP] } } operator[SEP] operator[SEP] Keyword[if] operator[SEP] Other[null] operator[!=] identifier[files] operator[SEP] { identifier[Arrays] operator[SEP] identifier[sort] operator[SEP] identifier[files] , Other[null] operator[SEP] operator[SEP] Keyword[synchronized] operator[SEP] identifier[sourceCache] operator[SEP] { Keyword[final] identifier[HashSet] operator[<] identifier[File] operator[>] identifier[trackedFiles] operator[=] Keyword[new] identifier[HashSet] operator[<] identifier[File] operator[>] operator[SEP] identifier[sourceCache] operator[SEP] identifier[keySet] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[final] identifier[File] identifier[file] operator[:] identifier[files] operator[SEP] { identifier[trackedFiles] operator[SEP] identifier[remove] operator[SEP] identifier[file] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[sourceCache] operator[SEP] identifier[containsKey] operator[SEP] identifier[file] operator[SEP] operator[SEP] { identifier[logger] operator[SEP] identifier[debug] operator[SEP] literal[String] operator[+] identifier[file] operator[SEP] identifier[getAbsolutePath] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[try] { Keyword[final] identifier[ResourceModelSource] identifier[source] operator[=] identifier[createFileSource] operator[SEP] identifier[project] , identifier[file] operator[SEP] operator[SEP] identifier[sourceCache] operator[SEP] identifier[put] operator[SEP] identifier[file] , identifier[source] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[ExecutionServiceException] identifier[e] operator[SEP] { identifier[e] operator[SEP] identifier[printStackTrace] operator[SEP] operator[SEP] operator[SEP] identifier[logger] operator[SEP] identifier[debug] operator[SEP] literal[String] operator[+] identifier[file] operator[SEP] identifier[getAbsolutePath] operator[SEP] operator[SEP] operator[+] literal[String] operator[+] identifier[e] operator[SEP] identifier[getMessage] operator[SEP] operator[SEP] , identifier[e] operator[SEP] operator[SEP] } } } Keyword[for] operator[SEP] Keyword[final] identifier[File] identifier[oldFile] operator[:] identifier[trackedFiles] operator[SEP] { identifier[logger] operator[SEP] identifier[debug] operator[SEP] literal[String] operator[+] identifier[oldFile] operator[SEP] identifier[getAbsolutePath] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[sourceCache] operator[SEP] identifier[remove] operator[SEP] identifier[oldFile] operator[SEP] operator[SEP] } } } }
private void submitActivator(ActivatorModel activatorModel) { CompletableFuture<Void> future = submit(() -> { try { return activatorModel.call(); } catch (Throwable e) { if (e instanceof IzouPermissionException) { error("Activator: " + activatorModel.getID() + " was denied permission.", e); // Return null if permission was denied by a permission module, in this case restart 2 times return null; } else if (e instanceof SecurityException) { error("Activator: " + activatorModel.getID() + " was denied access.", e); // Return false if access was denied by the security manager, in this case, do not restart return false; } error("Activator: " + activatorModel.getID() + " crashed", e); // Return true if the addOn did not crash because of security reasons, restart 100 times return true; } }).thenAccept(restart -> { if (restart != null && restart.equals(false)) { debug("Activator: " + activatorModel.getID() + " returned false, will not restart"); } else if (restart == null) { error("Activator: " + activatorModel.getID() + " returned not true"); if (permissionDeniedCounter.get(activatorModel).get() < MAX_PERMISSION_DENIED) { error("Until now activator: " + activatorModel.getID() + " was restarted: " + permissionDeniedCounter.get(activatorModel).get() + " times, attempting restart."); permissionDeniedCounter.get(activatorModel).incrementAndGet(); submitActivator(activatorModel); } else { error("Activator: " + activatorModel.getID() + " reached permission based restarting limit with " + permissionDeniedCounter.get(activatorModel).get() + " restarts."); } } else { if (crashCounter.get(activatorModel).get() < MAX_CRASH) { error("Until now activator: " + activatorModel.getID() + " was restarted: " + crashCounter.get(activatorModel).get() + " times, attempting restart."); crashCounter.get(activatorModel).incrementAndGet(); submitActivator(activatorModel); } else { error("Activator: " + activatorModel.getID() + " reached crash based restarting limit with " + crashCounter.get(activatorModel).get() + " restarts."); } } }); CompletableFuture existing = futures.put(activatorModel, future); if (existing != null && !existing.isDone()) existing.cancel(true); }	class class_name[name] begin[{] method[submitActivator, return_type[void], modifier[private], parameter[activatorModel]] begin[{] local_variable[type[CompletableFuture], future] local_variable[type[CompletableFuture], existing] if[binary_operation[binary_operation[member[.existing], !=, literal[null]], &&, call[existing.isDone, parameter[]]]] begin[{] call[existing.cancel, parameter[literal[true]]] else begin[{] None end[}] end[}] END[}]	Keyword[private] Keyword[void] identifier[submitActivator] operator[SEP] identifier[ActivatorModel] identifier[activatorModel] operator[SEP] { identifier[CompletableFuture] operator[<] identifier[Void] operator[>] identifier[future] operator[=] identifier[submit] operator[SEP] operator[SEP] operator[SEP] operator[->] { Keyword[try] { Keyword[return] identifier[activatorModel] operator[SEP] identifier[call] operator[SEP] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[Throwable] identifier[e] operator[SEP] { Keyword[if] operator[SEP] identifier[e] Keyword[instanceof] identifier[IzouPermissionException] operator[SEP] { identifier[error] operator[SEP] literal[String] operator[+] identifier[activatorModel] operator[SEP] identifier[getID] operator[SEP] operator[SEP] operator[+] literal[String] , identifier[e] operator[SEP] operator[SEP] Keyword[return] Other[null] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[e] Keyword[instanceof] identifier[SecurityException] operator[SEP] { identifier[error] operator[SEP] literal[String] operator[+] identifier[activatorModel] operator[SEP] identifier[getID] operator[SEP] operator[SEP] operator[+] literal[String] , identifier[e] operator[SEP] operator[SEP] Keyword[return] literal[boolean] operator[SEP] } identifier[error] operator[SEP] literal[String] operator[+] identifier[activatorModel] operator[SEP] identifier[getID] operator[SEP] operator[SEP] operator[+] literal[String] , identifier[e] operator[SEP] operator[SEP] Keyword[return] literal[boolean] operator[SEP] } } operator[SEP] operator[SEP] identifier[thenAccept] operator[SEP] identifier[restart] operator[->] { Keyword[if] operator[SEP] identifier[restart] operator[!=] Other[null] operator[&&] identifier[restart] operator[SEP] identifier[equals] operator[SEP] literal[boolean] operator[SEP] operator[SEP] { identifier[debug] operator[SEP] literal[String] operator[+] identifier[activatorModel] operator[SEP] identifier[getID] operator[SEP] operator[SEP] operator[+] literal[String] operator[SEP] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[restart] operator[==] Other[null] operator[SEP] { identifier[error] operator[SEP] literal[String] operator[+] identifier[activatorModel] operator[SEP] identifier[getID] operator[SEP] operator[SEP] operator[+] literal[String] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[permissionDeniedCounter] operator[SEP] identifier[get] operator[SEP] identifier[activatorModel] operator[SEP] operator[SEP] identifier[get] operator[SEP] operator[SEP] operator[<] identifier[MAX_PERMISSION_DENIED] operator[SEP] { identifier[error] operator[SEP] literal[String] operator[+] identifier[activatorModel] operator[SEP] identifier[getID] operator[SEP] operator[SEP] operator[+] literal[String] operator[+] identifier[permissionDeniedCounter] operator[SEP] identifier[get] operator[SEP] identifier[activatorModel] operator[SEP] operator[SEP] identifier[get] operator[SEP] operator[SEP] operator[+] literal[String] operator[SEP] operator[SEP] identifier[permissionDeniedCounter] operator[SEP] identifier[get] operator[SEP] identifier[activatorModel] operator[SEP] operator[SEP] identifier[incrementAndGet] operator[SEP] operator[SEP] operator[SEP] identifier[submitActivator] operator[SEP] identifier[activatorModel] operator[SEP] operator[SEP] } Keyword[else] { identifier[error] operator[SEP] literal[String] operator[+] identifier[activatorModel] operator[SEP] identifier[getID] operator[SEP] operator[SEP] operator[+] literal[String] operator[+] identifier[permissionDeniedCounter] operator[SEP] identifier[get] operator[SEP] identifier[activatorModel] operator[SEP] operator[SEP] identifier[get] operator[SEP] operator[SEP] operator[+] literal[String] operator[SEP] operator[SEP] } } Keyword[else] { Keyword[if] operator[SEP] identifier[crashCounter] operator[SEP] identifier[get] operator[SEP] identifier[activatorModel] operator[SEP] operator[SEP] identifier[get] operator[SEP] operator[SEP] operator[<] identifier[MAX_CRASH] operator[SEP] { identifier[error] operator[SEP] literal[String] operator[+] identifier[activatorModel] operator[SEP] identifier[getID] operator[SEP] operator[SEP] operator[+] literal[String] operator[+] identifier[crashCounter] operator[SEP] identifier[get] operator[SEP] identifier[activatorModel] operator[SEP] operator[SEP] identifier[get] operator[SEP] operator[SEP] operator[+] literal[String] operator[SEP] operator[SEP] identifier[crashCounter] operator[SEP] identifier[get] operator[SEP] identifier[activatorModel] operator[SEP] operator[SEP] identifier[incrementAndGet] operator[SEP] operator[SEP] operator[SEP] identifier[submitActivator] operator[SEP] identifier[activatorModel] operator[SEP] operator[SEP] } Keyword[else] { identifier[error] operator[SEP] literal[String] operator[+] identifier[activatorModel] operator[SEP] identifier[getID] operator[SEP] operator[SEP] operator[+] literal[String] operator[+] identifier[crashCounter] operator[SEP] identifier[get] operator[SEP] identifier[activatorModel] operator[SEP] operator[SEP] identifier[get] operator[SEP] operator[SEP] operator[+] literal[String] operator[SEP] operator[SEP] } } } operator[SEP] operator[SEP] identifier[CompletableFuture] identifier[existing] operator[=] identifier[futures] operator[SEP] identifier[put] operator[SEP] identifier[activatorModel] , identifier[future] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[existing] operator[!=] Other[null] operator[&&] operator[!] identifier[existing] operator[SEP] identifier[isDone] operator[SEP] operator[SEP] operator[SEP] identifier[existing] operator[SEP] identifier[cancel] operator[SEP] literal[boolean] operator[SEP] operator[SEP] }
public void setDateAttribute(String name, Date value) { Attribute attribute = getAttributes().get(name); if (!(attribute instanceof DateAttribute)) { throw new IllegalStateException("Cannot set date value on attribute with different type, " + attribute.getClass().getName() + " setting value " + value); } ((DateAttribute) attribute).setValue(value); }	class class_name[name] begin[{] method[setDateAttribute, return_type[void], modifier[public], parameter[name, value]] begin[{] local_variable[type[Attribute], attribute] if[binary_operation[member[.attribute], instanceof, type[DateAttribute]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Cannot set date value on attribute with different type, "), operandr=MethodInvocation(arguments=[], member=getClass, postfix_operators=[], prefix_operators=[], qualifier=attribute, selectors=[MethodInvocation(arguments=[], member=getName, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=" setting value "), operator=+), operandr=MemberReference(member=value, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=IllegalStateException, sub_type=None)), label=None) else begin[{] None end[}] Cast(expression=MemberReference(member=attribute, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=DateAttribute, sub_type=None)) end[}] END[}]	Keyword[public] Keyword[void] identifier[setDateAttribute] operator[SEP] identifier[String] identifier[name] , identifier[Date] identifier[value] operator[SEP] { identifier[Attribute] identifier[attribute] operator[=] identifier[getAttributes] operator[SEP] operator[SEP] operator[SEP] identifier[get] operator[SEP] identifier[name] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] operator[SEP] identifier[attribute] Keyword[instanceof] identifier[DateAttribute] operator[SEP] operator[SEP] { Keyword[throw] Keyword[new] identifier[IllegalStateException] operator[SEP] literal[String] operator[+] identifier[attribute] operator[SEP] identifier[getClass] operator[SEP] operator[SEP] operator[SEP] identifier[getName] operator[SEP] operator[SEP] operator[+] literal[String] operator[+] identifier[value] operator[SEP] operator[SEP] } operator[SEP] operator[SEP] identifier[DateAttribute] operator[SEP] identifier[attribute] operator[SEP] operator[SEP] identifier[setValue] operator[SEP] identifier[value] operator[SEP] operator[SEP] }
@NotNull public static String decimalToDegreesMinutesSecondsString(double decimal) { double[] dms = decimalToDegreesMinutesSeconds(decimal); DecimalFormat format = new DecimalFormat("0.##"); return String.format("%s\u00B0 %s' %s\"", format.format(dms[0]), format.format(dms[1]), format.format(dms[2])); }	class class_name[name] begin[{] method[decimalToDegreesMinutesSecondsString, return_type[type[String]], modifier[public static], parameter[decimal]] begin[{] local_variable[type[double], dms] local_variable[type[DecimalFormat], format] return[call[String.format, parameter[literal["%s° %s' %s\""], call[format.format, parameter[member[.dms]]], call[format.format, parameter[member[.dms]]], call[format.format, parameter[member[.dms]]]]]] end[}] END[}]	annotation[@] identifier[NotNull] Keyword[public] Keyword[static] identifier[String] identifier[decimalToDegreesMinutesSecondsString] operator[SEP] Keyword[double] identifier[decimal] operator[SEP] { Keyword[double] operator[SEP] operator[SEP] identifier[dms] operator[=] identifier[decimalToDegreesMinutesSeconds] operator[SEP] identifier[decimal] operator[SEP] operator[SEP] identifier[DecimalFormat] identifier[format] operator[=] Keyword[new] identifier[DecimalFormat] operator[SEP] literal[String] operator[SEP] operator[SEP] Keyword[return] identifier[String] operator[SEP] identifier[format] operator[SEP] literal[String] , identifier[format] operator[SEP] identifier[format] operator[SEP] identifier[dms] operator[SEP] Other[0] operator[SEP] operator[SEP] , identifier[format] operator[SEP] identifier[format] operator[SEP] identifier[dms] operator[SEP] Other[1] operator[SEP] operator[SEP] , identifier[format] operator[SEP] identifier[format] operator[SEP] identifier[dms] operator[SEP] Other[2] operator[SEP] operator[SEP] operator[SEP] operator[SEP] }
public static EntryResolver newSearchEntryResolver(final LdapAuthenticationProperties l) { final PooledSearchEntryResolver entryResolver = new PooledSearchEntryResolver(); entryResolver.setBaseDn(l.getBaseDn()); entryResolver.setUserFilter(l.getUserFilter()); entryResolver.setSubtreeSearch(l.isSubtreeSearch()); entryResolver.setConnectionFactory(LdaptiveAuthenticatorBuilder.newPooledConnectionFactory(l)); return entryResolver; }	class class_name[name] begin[{] method[newSearchEntryResolver, return_type[type[EntryResolver]], modifier[public static], parameter[l]] begin[{] local_variable[type[PooledSearchEntryResolver], entryResolver] call[entryResolver.setBaseDn, parameter[call[l.getBaseDn, parameter[]]]] call[entryResolver.setUserFilter, parameter[call[l.getUserFilter, parameter[]]]] call[entryResolver.setSubtreeSearch, parameter[call[l.isSubtreeSearch, parameter[]]]] call[entryResolver.setConnectionFactory, parameter[call[LdaptiveAuthenticatorBuilder.newPooledConnectionFactory, parameter[member[.l]]]]] return[member[.entryResolver]] end[}] END[}]	Keyword[public] Keyword[static] identifier[EntryResolver] identifier[newSearchEntryResolver] operator[SEP] Keyword[final] identifier[LdapAuthenticationProperties] identifier[l] operator[SEP] { Keyword[final] identifier[PooledSearchEntryResolver] identifier[entryResolver] operator[=] Keyword[new] identifier[PooledSearchEntryResolver] operator[SEP] operator[SEP] operator[SEP] identifier[entryResolver] operator[SEP] identifier[setBaseDn] operator[SEP] identifier[l] operator[SEP] identifier[getBaseDn] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[entryResolver] operator[SEP] identifier[setUserFilter] operator[SEP] identifier[l] operator[SEP] identifier[getUserFilter] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[entryResolver] operator[SEP] identifier[setSubtreeSearch] operator[SEP] identifier[l] operator[SEP] identifier[isSubtreeSearch] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[entryResolver] operator[SEP] identifier[setConnectionFactory] operator[SEP] identifier[LdaptiveAuthenticatorBuilder] operator[SEP] identifier[newPooledConnectionFactory] operator[SEP] identifier[l] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[entryResolver] operator[SEP] }
public void setVerticalLineImage(String verticalLineImage) { String val = setNonEmptyValueAttribute(verticalLineImage); if (val != null) _iState.setVerticalLineImage(setNonEmptyValueAttribute(val)); }	class class_name[name] begin[{] method[setVerticalLineImage, return_type[void], modifier[public], parameter[verticalLineImage]] begin[{] local_variable[type[String], val] if[binary_operation[member[.val], !=, literal[null]]] begin[{] call[_iState.setVerticalLineImage, parameter[call[.setNonEmptyValueAttribute, parameter[member[.val]]]]] else begin[{] None end[}] end[}] END[}]	Keyword[public] Keyword[void] identifier[setVerticalLineImage] operator[SEP] identifier[String] identifier[verticalLineImage] operator[SEP] { identifier[String] identifier[val] operator[=] identifier[setNonEmptyValueAttribute] operator[SEP] identifier[verticalLineImage] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[val] operator[!=] Other[null] operator[SEP] identifier[_iState] operator[SEP] identifier[setVerticalLineImage] operator[SEP] identifier[setNonEmptyValueAttribute] operator[SEP] identifier[val] operator[SEP] operator[SEP] operator[SEP] }
@Deprecated public static ParagraphVectors readParagraphVectorsFromText(@NonNull InputStream stream) { try { BufferedReader reader = new BufferedReader(new InputStreamReader(stream, StandardCharsets.UTF_8)); ArrayList<String> labels = new ArrayList<>(); ArrayList<INDArray> arrays = new ArrayList<>(); VocabCache<VocabWord> vocabCache = new AbstractCache.Builder<VocabWord>().build(); String line = ""; while ((line = reader.readLine()) != null) { String[] split = line.split(" "); split[1] = split[1].replaceAll(WHITESPACE_REPLACEMENT, " "); VocabWord word = new VocabWord(1.0, split[1]); if (split[0].equals("L")) { // we have label element here word.setSpecial(true); word.markAsLabel(true); labels.add(word.getLabel()); } else if (split[0].equals("E")) { // we have usual element, aka word here word.setSpecial(false); word.markAsLabel(false); } else throw new IllegalStateException( "Source stream doesn't looks like ParagraphVectors serialized model"); // this particular line is just for backward compatibility with InMemoryLookupCache word.setIndex(vocabCache.numWords()); vocabCache.addToken(word); vocabCache.addWordToIndex(word.getIndex(), word.getLabel()); // backward compatibility code vocabCache.putVocabWord(word.getLabel()); float[] vector = new float[split.length - 2]; for (int i = 2; i < split.length; i++) { vector[i - 2] = Float.parseFloat(split[i]); } INDArray row = Nd4j.create(vector); arrays.add(row); } // now we create syn0 matrix, using previously fetched rows /INDArray syn = Nd4j.create(new int[]{arrays.size(), arrays.get(0).columns()}); for (int i = 0; i < syn.rows(); i++) { syn.putRow(i, arrays.get(i)); }/ INDArray syn = Nd4j.vstack(arrays); InMemoryLookupTable<VocabWord> lookupTable = (InMemoryLookupTable<VocabWord>) new InMemoryLookupTable.Builder<VocabWord>() .vectorLength(arrays.get(0).columns()).useAdaGrad(false).cache(vocabCache) .build(); Nd4j.clearNans(syn); lookupTable.setSyn0(syn); LabelsSource source = new LabelsSource(labels); ParagraphVectors vectors = new ParagraphVectors.Builder().labelsSource(source).vocabCache(vocabCache) .lookupTable(lookupTable).modelUtils(new BasicModelUtils<VocabWord>()).build(); try { reader.close(); } catch (Exception e) { } vectors.extractLabels(); return vectors; } catch (Exception e) { throw new RuntimeException(e); } }	class class_name[name] begin[{] method[readParagraphVectorsFromText, return_type[type[ParagraphVectors]], modifier[public static], parameter[stream]] begin[{] TryStatement(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[ClassCreator(arguments=[MemberReference(member=stream, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=UTF_8, postfix_operators=[], prefix_operators=[], qualifier=StandardCharsets, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=InputStreamReader, sub_type=None))], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=BufferedReader, sub_type=None)), name=reader)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=BufferedReader, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=[], dimensions=None, name=ArrayList, sub_type=None)), name=labels)], modifiers=set(), type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None))], dimensions=[], name=ArrayList, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=[], dimensions=None, name=ArrayList, sub_type=None)), name=arrays)], modifiers=set(), type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=INDArray, sub_type=None))], dimensions=[], name=ArrayList, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MethodInvocation(arguments=[], member=build, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type=ReferenceType(arguments=None, dimensions=None, name=AbstractCache, sub_type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=VocabWord, sub_type=None))], dimensions=None, name=Builder, sub_type=None))), name=vocabCache)], modifiers=set(), type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=VocabWord, sub_type=None))], dimensions=[], name=VocabCache, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=""), name=line)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), WhileStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=" ")], member=split, postfix_operators=[], prefix_operators=[], qualifier=line, selectors=[], type_arguments=None), name=split)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[None], name=String, sub_type=None)), StatementExpression(expression=Assignment(expressionl=MemberReference(member=split, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1))]), type==, value=MemberReference(member=split, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1)), MethodInvocation(arguments=[MemberReference(member=WHITESPACE_REPLACEMENT, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=" ")], member=replaceAll, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)])), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1.0), MemberReference(member=split, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1))])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=VocabWord, sub_type=None)), name=word)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=VocabWord, sub_type=None)), IfStatement(condition=MemberReference(member=split, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0)), MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="L")], member=equals, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), else_statement=IfStatement(condition=MemberReference(member=split, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0)), MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="E")], member=equals, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), else_statement=ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Source stream doesn't looks like ParagraphVectors serialized model")], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=IllegalStateException, sub_type=None)), label=None), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=false)], member=setSpecial, postfix_operators=[], prefix_operators=[], qualifier=word, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=false)], member=markAsLabel, postfix_operators=[], prefix_operators=[], qualifier=word, selectors=[], type_arguments=None), label=None)])), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)], member=setSpecial, postfix_operators=[], prefix_operators=[], qualifier=word, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)], member=markAsLabel, postfix_operators=[], prefix_operators=[], qualifier=word, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getLabel, postfix_operators=[], prefix_operators=[], qualifier=word, selectors=[], type_arguments=None)], member=add, postfix_operators=[], prefix_operators=[], qualifier=labels, selectors=[], type_arguments=None), label=None)])), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=numWords, postfix_operators=[], prefix_operators=[], qualifier=vocabCache, selectors=[], type_arguments=None)], member=setIndex, postfix_operators=[], prefix_operators=[], qualifier=word, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=word, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=addToken, postfix_operators=[], prefix_operators=[], qualifier=vocabCache, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getIndex, postfix_operators=[], prefix_operators=[], qualifier=word, selectors=[], type_arguments=None), MethodInvocation(arguments=[], member=getLabel, postfix_operators=[], prefix_operators=[], qualifier=word, selectors=[], type_arguments=None)], member=addWordToIndex, postfix_operators=[], prefix_operators=[], qualifier=vocabCache, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getLabel, postfix_operators=[], prefix_operators=[], qualifier=word, selectors=[], type_arguments=None)], member=putVocabWord, postfix_operators=[], prefix_operators=[], qualifier=vocabCache, selectors=[], type_arguments=None), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ArrayCreator(dimensions=[BinaryOperation(operandl=MemberReference(member=length, postfix_operators=[], prefix_operators=[], qualifier=split, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2), operator=-)], initializer=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=BasicType(dimensions=None, name=float)), name=vector)], modifiers=set(), type=BasicType(dimensions=[None], name=float)), ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=vector, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2), operator=-))]), type==, value=MethodInvocation(arguments=[MemberReference(member=split, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))])], member=parseFloat, postfix_operators=[], prefix_operators=[], qualifier=Float, selectors=[], type_arguments=None)), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=length, postfix_operators=[], prefix_operators=[], qualifier=split, selectors=[]), operator=<), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2), name=i)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=i, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=vector, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=create, postfix_operators=[], prefix_operators=[], qualifier=Nd4j, selectors=[], type_arguments=None), name=row)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=INDArray, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=row, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=add, postfix_operators=[], prefix_operators=[], qualifier=arrays, selectors=[], type_arguments=None), label=None)]), condition=BinaryOperation(operandl=Assignment(expressionl=MemberReference(member=line, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=readLine, postfix_operators=[], prefix_operators=[], qualifier=reader, selectors=[], type_arguments=None)), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator=!=), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=arrays, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=vstack, postfix_operators=[], prefix_operators=[], qualifier=Nd4j, selectors=[], type_arguments=None), name=syn)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=INDArray, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Cast(expression=ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MethodInvocation(arguments=[MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0)], member=get, postfix_operators=[], prefix_operators=[], qualifier=arrays, selectors=[MethodInvocation(arguments=[], member=columns, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None)], member=vectorLength, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=false)], member=useAdaGrad, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[MemberReference(member=vocabCache, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=cache, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[], member=build, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type=ReferenceType(arguments=None, dimensions=None, name=InMemoryLookupTable, sub_type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=VocabWord, sub_type=None))], dimensions=None, name=Builder, sub_type=None))), type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=VocabWord, sub_type=None))], dimensions=[], name=InMemoryLookupTable, sub_type=None)), name=lookupTable)], modifiers=set(), type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=VocabWord, sub_type=None))], dimensions=[], name=InMemoryLookupTable, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=syn, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=clearNans, postfix_operators=[], prefix_operators=[], qualifier=Nd4j, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=syn, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=setSyn0, postfix_operators=[], prefix_operators=[], qualifier=lookupTable, selectors=[], type_arguments=None), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[MemberReference(member=labels, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=LabelsSource, sub_type=None)), name=source)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=LabelsSource, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MethodInvocation(arguments=[MemberReference(member=source, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=labelsSource, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[MemberReference(member=vocabCache, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=vocabCache, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[MemberReference(member=lookupTable, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=lookupTable, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=VocabWord, sub_type=None))], dimensions=None, name=BasicModelUtils, sub_type=None))], member=modelUtils, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[], member=build, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type=ReferenceType(arguments=None, dimensions=None, name=ParagraphVectors, sub_type=ReferenceType(arguments=None, dimensions=None, name=Builder, sub_type=None))), name=vectors)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=ParagraphVectors, sub_type=None)), TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[], member=close, postfix_operators=[], prefix_operators=[], qualifier=reader, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['Exception']))], finally_block=None, label=None, resources=None), StatementExpression(expression=MethodInvocation(arguments=[], member=extractLabels, postfix_operators=[], prefix_operators=[], qualifier=vectors, selectors=[], type_arguments=None), label=None), ReturnStatement(expression=MemberReference(member=vectors, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), label=None)], catches=[CatchClause(block=[ThrowStatement(expression=ClassCreator(arguments=[MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=RuntimeException, sub_type=None)), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['Exception']))], finally_block=None, label=None, resources=None) end[}] END[}]	annotation[@] identifier[Deprecated] Keyword[public] Keyword[static] identifier[ParagraphVectors] identifier[readParagraphVectorsFromText] operator[SEP] annotation[@] identifier[NonNull] identifier[InputStream] identifier[stream] operator[SEP] { Keyword[try] { identifier[BufferedReader] identifier[reader] operator[=] Keyword[new] identifier[BufferedReader] operator[SEP] Keyword[new] identifier[InputStreamReader] operator[SEP] identifier[stream] , identifier[StandardCharsets] operator[SEP] identifier[UTF_8] operator[SEP] operator[SEP] operator[SEP] identifier[ArrayList] operator[<] identifier[String] operator[>] identifier[labels] operator[=] Keyword[new] identifier[ArrayList] operator[<] operator[>] operator[SEP] operator[SEP] operator[SEP] identifier[ArrayList] operator[<] identifier[INDArray] operator[>] identifier[arrays] operator[=] Keyword[new] identifier[ArrayList] operator[<] operator[>] operator[SEP] operator[SEP] operator[SEP] identifier[VocabCache] operator[<] identifier[VocabWord] operator[>] identifier[vocabCache] operator[=] Keyword[new] identifier[AbstractCache] operator[SEP] identifier[Builder] operator[<] identifier[VocabWord] operator[>] operator[SEP] operator[SEP] operator[SEP] identifier[build] operator[SEP] operator[SEP] operator[SEP] identifier[String] identifier[line] operator[=] literal[String] operator[SEP] Keyword[while] operator[SEP] operator[SEP] identifier[line] operator[=] identifier[reader] operator[SEP] identifier[readLine] operator[SEP] operator[SEP] operator[SEP] operator[!=] Other[null] operator[SEP] { identifier[String] operator[SEP] operator[SEP] identifier[split] operator[=] identifier[line] operator[SEP] identifier[split] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[split] operator[SEP] Other[1] operator[SEP] operator[=] identifier[split] operator[SEP] Other[1] operator[SEP] operator[SEP] identifier[replaceAll] operator[SEP] identifier[WHITESPACE_REPLACEMENT] , literal[String] operator[SEP] operator[SEP] identifier[VocabWord] identifier[word] operator[=] Keyword[new] identifier[VocabWord] operator[SEP] literal[Float] , identifier[split] operator[SEP] Other[1] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[split] operator[SEP] Other[0] operator[SEP] operator[SEP] identifier[equals] operator[SEP] literal[String] operator[SEP] operator[SEP] { identifier[word] operator[SEP] identifier[setSpecial] operator[SEP] literal[boolean] operator[SEP] operator[SEP] identifier[word] operator[SEP] identifier[markAsLabel] operator[SEP] literal[boolean] operator[SEP] operator[SEP] identifier[labels] operator[SEP] identifier[add] operator[SEP] identifier[word] operator[SEP] identifier[getLabel] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[split] operator[SEP] Other[0] operator[SEP] operator[SEP] identifier[equals] operator[SEP] literal[String] operator[SEP] operator[SEP] { identifier[word] operator[SEP] identifier[setSpecial] operator[SEP] literal[boolean] operator[SEP] operator[SEP] identifier[word] operator[SEP] identifier[markAsLabel] operator[SEP] literal[boolean] operator[SEP] operator[SEP] } Keyword[else] Keyword[throw] Keyword[new] identifier[IllegalStateException] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[word] operator[SEP] identifier[setIndex] operator[SEP] identifier[vocabCache] operator[SEP] identifier[numWords] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[vocabCache] operator[SEP] identifier[addToken] operator[SEP] identifier[word] operator[SEP] operator[SEP] identifier[vocabCache] operator[SEP] identifier[addWordToIndex] operator[SEP] identifier[word] operator[SEP] identifier[getIndex] operator[SEP] operator[SEP] , identifier[word] operator[SEP] identifier[getLabel] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[vocabCache] operator[SEP] identifier[putVocabWord] operator[SEP] identifier[word] operator[SEP] identifier[getLabel] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[float] operator[SEP] operator[SEP] identifier[vector] operator[=] Keyword[new] Keyword[float] operator[SEP] identifier[split] operator[SEP] identifier[length] operator[-] Other[2] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[2] operator[SEP] identifier[i] operator[<] identifier[split] operator[SEP] identifier[length] operator[SEP] identifier[i] operator[++] operator[SEP] { identifier[vector] operator[SEP] identifier[i] operator[-] Other[2] operator[SEP] operator[=] identifier[Float] operator[SEP] identifier[parseFloat] operator[SEP] identifier[split] operator[SEP] identifier[i] operator[SEP] operator[SEP] operator[SEP] } identifier[INDArray] identifier[row] operator[=] identifier[Nd4j] operator[SEP] identifier[create] operator[SEP] identifier[vector] operator[SEP] operator[SEP] identifier[arrays] operator[SEP] identifier[add] operator[SEP] identifier[row] operator[SEP] operator[SEP] } identifier[INDArray] identifier[syn] operator[=] identifier[Nd4j] operator[SEP] identifier[vstack] operator[SEP] identifier[arrays] operator[SEP] operator[SEP] identifier[InMemoryLookupTable] operator[<] identifier[VocabWord] operator[>] identifier[lookupTable] operator[=] operator[SEP] identifier[InMemoryLookupTable] operator[<] identifier[VocabWord] operator[>] operator[SEP] Keyword[new] identifier[InMemoryLookupTable] operator[SEP] identifier[Builder] operator[<] identifier[VocabWord] operator[>] operator[SEP] operator[SEP] operator[SEP] identifier[vectorLength] operator[SEP] identifier[arrays] operator[SEP] identifier[get] operator[SEP] Other[0] operator[SEP] operator[SEP] identifier[columns] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[useAdaGrad] operator[SEP] literal[boolean] operator[SEP] operator[SEP] identifier[cache] operator[SEP] identifier[vocabCache] operator[SEP] operator[SEP] identifier[build] operator[SEP] operator[SEP] operator[SEP] identifier[Nd4j] operator[SEP] identifier[clearNans] operator[SEP] identifier[syn] operator[SEP] operator[SEP] identifier[lookupTable] operator[SEP] identifier[setSyn0] operator[SEP] identifier[syn] operator[SEP] operator[SEP] identifier[LabelsSource] identifier[source] operator[=] Keyword[new] identifier[LabelsSource] operator[SEP] identifier[labels] operator[SEP] operator[SEP] identifier[ParagraphVectors] identifier[vectors] operator[=] Keyword[new] identifier[ParagraphVectors] operator[SEP] identifier[Builder] operator[SEP] operator[SEP] operator[SEP] identifier[labelsSource] operator[SEP] identifier[source] operator[SEP] operator[SEP] identifier[vocabCache] operator[SEP] identifier[vocabCache] operator[SEP] operator[SEP] identifier[lookupTable] operator[SEP] identifier[lookupTable] operator[SEP] operator[SEP] identifier[modelUtils] operator[SEP] Keyword[new] identifier[BasicModelUtils] operator[<] identifier[VocabWord] operator[>] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[build] operator[SEP] operator[SEP] operator[SEP] Keyword[try] { identifier[reader] operator[SEP] identifier[close] operator[SEP] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[Exception] identifier[e] operator[SEP] { } identifier[vectors] operator[SEP] identifier[extractLabels] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[vectors] operator[SEP] } Keyword[catch] operator[SEP] identifier[Exception] identifier[e] operator[SEP] { Keyword[throw] Keyword[new] identifier[RuntimeException] operator[SEP] identifier[e] operator[SEP] operator[SEP] } }
public void persistConnection(HttpConnection connection) { try { Socket socket=(Socket)(connection.getConnection()); if (_lowResourcePersistTimeMs>0 && isLowOnResources()) { socket.setSoTimeout(_lowResourcePersistTimeMs); connection.setThrottled(true); } else connection.setThrottled(false); } catch(Exception e) { LogSupport.ignore(log,e); } }	class class_name[name] begin[{] method[persistConnection, return_type[void], modifier[public], parameter[connection]] begin[{] TryStatement(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Cast(expression=MethodInvocation(arguments=[], member=getConnection, postfix_operators=[], prefix_operators=[], qualifier=connection, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=Socket, sub_type=None)), name=socket)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Socket, sub_type=None)), IfStatement(condition=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=_lowResourcePersistTimeMs, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), operator=>), operandr=MethodInvocation(arguments=[], member=isLowOnResources, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), operator=&&), else_statement=StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=false)], member=setThrottled, postfix_operators=[], prefix_operators=[], qualifier=connection, selectors=[], type_arguments=None), label=None), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=_lowResourcePersistTimeMs, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=setSoTimeout, postfix_operators=[], prefix_operators=[], qualifier=socket, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)], member=setThrottled, postfix_operators=[], prefix_operators=[], qualifier=connection, selectors=[], type_arguments=None), label=None)]))], catches=[CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=log, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=ignore, postfix_operators=[], prefix_operators=[], qualifier=LogSupport, selectors=[], type_arguments=None), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['Exception']))], finally_block=None, label=None, resources=None) end[}] END[}]	Keyword[public] Keyword[void] identifier[persistConnection] operator[SEP] identifier[HttpConnection] identifier[connection] operator[SEP] { Keyword[try] { identifier[Socket] identifier[socket] operator[=] operator[SEP] identifier[Socket] operator[SEP] operator[SEP] identifier[connection] operator[SEP] identifier[getConnection] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[_lowResourcePersistTimeMs] operator[>] Other[0] operator[&&] identifier[isLowOnResources] operator[SEP] operator[SEP] operator[SEP] { identifier[socket] operator[SEP] identifier[setSoTimeout] operator[SEP] identifier[_lowResourcePersistTimeMs] operator[SEP] operator[SEP] identifier[connection] operator[SEP] identifier[setThrottled] operator[SEP] literal[boolean] operator[SEP] operator[SEP] } Keyword[else] identifier[connection] operator[SEP] identifier[setThrottled] operator[SEP] literal[boolean] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[Exception] identifier[e] operator[SEP] { identifier[LogSupport] operator[SEP] identifier[ignore] operator[SEP] identifier[log] , identifier[e] operator[SEP] operator[SEP] } }
private Method verifyControllerMethod(Class<?> controllerClass, String controllerMethod) { try { Method methodFromQueryingClass = null; // 1. Make sure method is in class // 2. Make sure only one method is there. Otherwise we cannot really // know what to do with the parameters. for (Method method : controllerClass.getMethods()) { if (method.getName().equals(controllerMethod)) { if (methodFromQueryingClass == null) { methodFromQueryingClass = method; } else { throw new NoSuchMethodException(); } } } if (methodFromQueryingClass == null) { throw new NoSuchMethodException(); } // make sure that the return type of that controller method // is of type Result. if (Result.class.isAssignableFrom(methodFromQueryingClass.getReturnType())) { return methodFromQueryingClass; } else { throw new NoSuchMethodException(); } } catch (SecurityException e) { log.error( "Error while checking for valid Controller / controllerMethod combination", e); } catch (NoSuchMethodException e) { log.error("Error in route configuration!!!"); log.error("Can not find Controller " + controllerClass.getName() + " and method " + controllerMethod); log.error("Hint: make sure the controller returns a ninja.Result!"); log.error("Hint: Ninja does not allow more than one method with the same name!"); } return null; }	class class_name[name] begin[{] method[verifyControllerMethod, return_type[type[Method]], modifier[private], parameter[controllerClass, controllerMethod]] begin[{] TryStatement(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), name=methodFromQueryingClass)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Method, sub_type=None)), ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=MethodInvocation(arguments=[], member=getName, postfix_operators=[], prefix_operators=[], qualifier=method, selectors=[MethodInvocation(arguments=[MemberReference(member=controllerMethod, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=equals, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=methodFromQueryingClass, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator===), else_statement=BlockStatement(label=None, statements=[ThrowStatement(expression=ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=NoSuchMethodException, sub_type=None)), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=methodFromQueryingClass, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MemberReference(member=method, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), label=None)]))]))]), control=EnhancedForControl(iterable=MethodInvocation(arguments=[], member=getMethods, postfix_operators=[], prefix_operators=[], qualifier=controllerClass, selectors=[], type_arguments=None), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=method)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Method, sub_type=None))), label=None), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=methodFromQueryingClass, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator===), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[ThrowStatement(expression=ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=NoSuchMethodException, sub_type=None)), label=None)])), IfStatement(condition=ClassReference(postfix_operators=[], prefix_operators=[], qualifier=, selectors=[MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getReturnType, postfix_operators=[], prefix_operators=[], qualifier=methodFromQueryingClass, selectors=[], type_arguments=None)], member=isAssignableFrom, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type=ReferenceType(arguments=None, dimensions=None, name=Result, sub_type=None)), else_statement=BlockStatement(label=None, statements=[ThrowStatement(expression=ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=NoSuchMethodException, sub_type=None)), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[ReturnStatement(expression=MemberReference(member=methodFromQueryingClass, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), label=None)]))], catches=[CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Error while checking for valid Controller / controllerMethod combination"), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=error, postfix_operators=[], prefix_operators=[], qualifier=log, selectors=[], type_arguments=None), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['SecurityException'])), CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Error in route configuration!!!")], member=error, postfix_operators=[], prefix_operators=[], qualifier=log, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Can not find Controller "), operandr=MethodInvocation(arguments=[], member=getName, postfix_operators=[], prefix_operators=[], qualifier=controllerClass, selectors=[], type_arguments=None), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=" and method "), operator=+), operandr=MemberReference(member=controllerMethod, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+)], member=error, postfix_operators=[], prefix_operators=[], qualifier=log, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Hint: make sure the controller returns a ninja.Result!")], member=error, postfix_operators=[], prefix_operators=[], qualifier=log, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Hint: Ninja does not allow more than one method with the same name!")], member=error, postfix_operators=[], prefix_operators=[], qualifier=log, selectors=[], type_arguments=None), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['NoSuchMethodException']))], finally_block=None, label=None, resources=None) return[literal[null]] end[}] END[}]	Keyword[private] identifier[Method] identifier[verifyControllerMethod] operator[SEP] identifier[Class] operator[<] operator[?] operator[>] identifier[controllerClass] , identifier[String] identifier[controllerMethod] operator[SEP] { Keyword[try] { identifier[Method] identifier[methodFromQueryingClass] operator[=] Other[null] operator[SEP] Keyword[for] operator[SEP] identifier[Method] identifier[method] operator[:] identifier[controllerClass] operator[SEP] identifier[getMethods] operator[SEP] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] identifier[method] operator[SEP] identifier[getName] operator[SEP] operator[SEP] operator[SEP] identifier[equals] operator[SEP] identifier[controllerMethod] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] identifier[methodFromQueryingClass] operator[==] Other[null] operator[SEP] { identifier[methodFromQueryingClass] operator[=] identifier[method] operator[SEP] } Keyword[else] { Keyword[throw] Keyword[new] identifier[NoSuchMethodException] operator[SEP] operator[SEP] operator[SEP] } } } Keyword[if] operator[SEP] identifier[methodFromQueryingClass] operator[==] Other[null] operator[SEP] { Keyword[throw] Keyword[new] identifier[NoSuchMethodException] operator[SEP] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[Result] operator[SEP] Keyword[class] operator[SEP] identifier[isAssignableFrom] operator[SEP] identifier[methodFromQueryingClass] operator[SEP] identifier[getReturnType] operator[SEP] operator[SEP] operator[SEP] operator[SEP] { Keyword[return] identifier[methodFromQueryingClass] operator[SEP] } Keyword[else] { Keyword[throw] Keyword[new] identifier[NoSuchMethodException] operator[SEP] operator[SEP] operator[SEP] } } Keyword[catch] operator[SEP] identifier[SecurityException] identifier[e] operator[SEP] { identifier[log] operator[SEP] identifier[error] operator[SEP] literal[String] , identifier[e] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[NoSuchMethodException] identifier[e] operator[SEP] { identifier[log] operator[SEP] identifier[error] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[log] operator[SEP] identifier[error] operator[SEP] literal[String] operator[+] identifier[controllerClass] operator[SEP] identifier[getName] operator[SEP] operator[SEP] operator[+] literal[String] operator[+] identifier[controllerMethod] operator[SEP] operator[SEP] identifier[log] operator[SEP] identifier[error] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[log] operator[SEP] identifier[error] operator[SEP] literal[String] operator[SEP] operator[SEP] } Keyword[return] Other[null] operator[SEP] }
public XMLString xstr() { int node = item(0); return (node != DTM.NULL) ? getStringFromNode(node) : XString.EMPTYSTRING; }	class class_name[name] begin[{] method[xstr, return_type[type[XMLString]], modifier[public], parameter[]] begin[{] local_variable[type[int], node] return[TernaryExpression(condition=BinaryOperation(operandl=MemberReference(member=node, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=NULL, postfix_operators=[], prefix_operators=[], qualifier=DTM, selectors=[]), operator=!=), if_false=MemberReference(member=EMPTYSTRING, postfix_operators=[], prefix_operators=[], qualifier=XString, selectors=[]), if_true=MethodInvocation(arguments=[MemberReference(member=node, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getStringFromNode, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None))] end[}] END[}]	Keyword[public] identifier[XMLString] identifier[xstr] operator[SEP] operator[SEP] { Keyword[int] identifier[node] operator[=] identifier[item] operator[SEP] Other[0] operator[SEP] operator[SEP] Keyword[return] operator[SEP] identifier[node] operator[!=] identifier[DTM] operator[SEP] identifier[NULL] operator[SEP] operator[?] identifier[getStringFromNode] operator[SEP] identifier[node] operator[SEP] operator[:] identifier[XString] operator[SEP] identifier[EMPTYSTRING] operator[SEP] }
public synchronized void clear() { for (String keyspaceName : getNonSystemKeyspaces()) { KSMetaData ksm = getKSMetaData(keyspaceName); for (CFMetaData cfm : ksm.cfMetaData().values()) purge(cfm); clearKeyspaceDefinition(ksm); } updateVersionAndAnnounce(); }	class class_name[name] begin[{] method[clear, return_type[void], modifier[synchronized public], parameter[]] begin[{] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=keyspaceName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getKSMetaData, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), name=ksm)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=KSMetaData, sub_type=None)), ForStatement(body=StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=cfm, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=purge, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None), control=EnhancedForControl(iterable=MethodInvocation(arguments=[], member=cfMetaData, postfix_operators=[], prefix_operators=[], qualifier=ksm, selectors=[MethodInvocation(arguments=[], member=values, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=cfm)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=CFMetaData, sub_type=None))), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=ksm, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=clearKeyspaceDefinition, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MethodInvocation(arguments=[], member=getNonSystemKeyspaces, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=keyspaceName)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None))), label=None) call[.updateVersionAndAnnounce, parameter[]] end[}] END[}]	Keyword[public] Keyword[synchronized] Keyword[void] identifier[clear] operator[SEP] operator[SEP] { Keyword[for] operator[SEP] identifier[String] identifier[keyspaceName] operator[:] identifier[getNonSystemKeyspaces] operator[SEP] operator[SEP] operator[SEP] { identifier[KSMetaData] identifier[ksm] operator[=] identifier[getKSMetaData] operator[SEP] identifier[keyspaceName] operator[SEP] operator[SEP] Keyword[for] operator[SEP] identifier[CFMetaData] identifier[cfm] operator[:] identifier[ksm] operator[SEP] identifier[cfMetaData] operator[SEP] operator[SEP] operator[SEP] identifier[values] operator[SEP] operator[SEP] operator[SEP] identifier[purge] operator[SEP] identifier[cfm] operator[SEP] operator[SEP] identifier[clearKeyspaceDefinition] operator[SEP] identifier[ksm] operator[SEP] operator[SEP] } identifier[updateVersionAndAnnounce] operator[SEP] operator[SEP] operator[SEP] }
public Record getMainRecord() { Record record = super.getMainRecord(); if (record == null) if (m_sessionObjectParent != null) record = ((BaseSession)m_sessionObjectParent).getMainRecord(); // Look thru the parent window now return record; }	class class_name[name] begin[{] method[getMainRecord, return_type[type[Record]], modifier[public], parameter[]] begin[{] local_variable[type[Record], record] if[binary_operation[member[.record], ==, literal[null]]] begin[{] if[binary_operation[member[.m_sessionObjectParent], !=, literal[null]]] begin[{] assign[member[.record], Cast(expression=MemberReference(member=m_sessionObjectParent, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=BaseSession, sub_type=None))] else begin[{] None end[}] else begin[{] None end[}] return[member[.record]] end[}] END[}]	Keyword[public] identifier[Record] identifier[getMainRecord] operator[SEP] operator[SEP] { identifier[Record] identifier[record] operator[=] Keyword[super] operator[SEP] identifier[getMainRecord] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[record] operator[==] Other[null] operator[SEP] Keyword[if] operator[SEP] identifier[m_sessionObjectParent] operator[!=] Other[null] operator[SEP] identifier[record] operator[=] operator[SEP] operator[SEP] identifier[BaseSession] operator[SEP] identifier[m_sessionObjectParent] operator[SEP] operator[SEP] identifier[getMainRecord] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[record] operator[SEP] }
public static int readSingleByte(InputStream in) throws IOException { byte[] buffer = new byte[1]; int result = in.read(buffer, 0, 1); return (result != -1) ? buffer[0] & 0xff : -1; }	class class_name[name] begin[{] method[readSingleByte, return_type[type[int]], modifier[public static], parameter[in]] begin[{] local_variable[type[byte], buffer] local_variable[type[int], result] return[TernaryExpression(condition=BinaryOperation(operandl=MemberReference(member=result, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=['-'], qualifier=None, selectors=[], value=1), operator=!=), if_false=Literal(postfix_operators=[], prefix_operators=['-'], qualifier=None, selectors=[], value=1), if_true=BinaryOperation(operandl=MemberReference(member=buffer, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0))]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0xff), operator=&))] end[}] END[}]	Keyword[public] Keyword[static] Keyword[int] identifier[readSingleByte] operator[SEP] identifier[InputStream] identifier[in] operator[SEP] Keyword[throws] identifier[IOException] { Keyword[byte] operator[SEP] operator[SEP] identifier[buffer] operator[=] Keyword[new] Keyword[byte] operator[SEP] Other[1] operator[SEP] operator[SEP] Keyword[int] identifier[result] operator[=] identifier[in] operator[SEP] identifier[read] operator[SEP] identifier[buffer] , Other[0] , Other[1] operator[SEP] operator[SEP] Keyword[return] operator[SEP] identifier[result] operator[!=] operator[-] Other[1] operator[SEP] operator[?] identifier[buffer] operator[SEP] Other[0] operator[SEP] operator[&] literal[Integer] operator[:] operator[-] Other[1] operator[SEP] }
public final boolean loadOwnedLinks() throws SevereMessageStoreException { boolean loaded = false; if (null == _items) { _items(); loaded = true; } return loaded; }	class class_name[name] begin[{] method[loadOwnedLinks, return_type[type[boolean]], modifier[final public], parameter[]] begin[{] local_variable[type[boolean], loaded] if[binary_operation[literal[null], ==, member[._items]]] begin[{] call[._items, parameter[]] assign[member[.loaded], literal[true]] else begin[{] None end[}] return[member[.loaded]] end[}] END[}]	Keyword[public] Keyword[final] Keyword[boolean] identifier[loadOwnedLinks] operator[SEP] operator[SEP] Keyword[throws] identifier[SevereMessageStoreException] { Keyword[boolean] identifier[loaded] operator[=] literal[boolean] operator[SEP] Keyword[if] operator[SEP] Other[null] operator[==] identifier[_items] operator[SEP] { identifier[_items] operator[SEP] operator[SEP] operator[SEP] identifier[loaded] operator[=] literal[boolean] operator[SEP] } Keyword[return] identifier[loaded] operator[SEP] }
public static void runExample( AdManagerServices adManagerServices, AdManagerSession session, long audienceSegmentId) throws RemoteException { // Get the AudienceSegmentService. AudienceSegmentServiceInterface audienceSegmentService = adManagerServices.get(session, AudienceSegmentServiceInterface.class); // Create a statement to only select a specified first party audience // segment. StatementBuilder statementBuilder = new StatementBuilder() .where("WHERE id = :audienceSegmentId and type = :type") .orderBy("id ASC") .limit(1) .withBindVariableValue("audienceSegmentId", audienceSegmentId) .withBindVariableValue("type", "FIRST_PARTY"); // Default for total result set size. int totalResultSetSize = 0; do { // Get audience segments by statement. AudienceSegmentPage page = audienceSegmentService.getAudienceSegmentsByStatement(statementBuilder.toStatement()); if (page.getResults() != null) { totalResultSetSize = page.getTotalResultSetSize(); int i = page.getStartIndex(); for (AudienceSegment audienceSegment : page.getResults()) { System.out.printf( "%d) Audience segment with ID %d and name '%s' will be populated.%n", i++, audienceSegment.getId(), audienceSegment.getName()); } } statementBuilder.increaseOffsetBy(StatementBuilder.SUGGESTED_PAGE_LIMIT); } while (statementBuilder.getOffset() < totalResultSetSize); System.out.printf("Number of audience segments to be populated: %d%n", totalResultSetSize); if (totalResultSetSize > 0) { // Remove limit and offset from statement. statementBuilder.removeLimitAndOffset(); // Create action. PopulateAudienceSegments action = new PopulateAudienceSegments(); // Perform action. UpdateResult result = audienceSegmentService.performAudienceSegmentAction( action, statementBuilder.toStatement()); if (result != null && result.getNumChanges() > 0) { System.out.printf("Number of audience segments populated: %d%n", result.getNumChanges()); } else { System.out.println("No audience segments were populated."); } } }	class class_name[name] begin[{] method[runExample, return_type[void], modifier[public static], parameter[adManagerServices, session, audienceSegmentId]] begin[{] local_variable[type[AudienceSegmentServiceInterface], audienceSegmentService] local_variable[type[StatementBuilder], statementBuilder] local_variable[type[int], totalResultSetSize] do[binary_operation[call[statementBuilder.getOffset, parameter[]], <, member[.totalResultSetSize]]] begin[{] local_variable[type[AudienceSegmentPage], page] if[binary_operation[call[page.getResults, parameter[]], !=, literal[null]]] begin[{] assign[member[.totalResultSetSize], call[page.getTotalResultSetSize, parameter[]]] local_variable[type[int], i] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="%d) Audience segment with ID %d and name '%s' will be populated.%n"), MemberReference(member=i, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[]), MethodInvocation(arguments=[], member=getId, postfix_operators=[], prefix_operators=[], qualifier=audienceSegment, selectors=[], type_arguments=None), MethodInvocation(arguments=[], member=getName, postfix_operators=[], prefix_operators=[], qualifier=audienceSegment, selectors=[], type_arguments=None)], member=printf, postfix_operators=[], prefix_operators=[], qualifier=System.out, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MethodInvocation(arguments=[], member=getResults, postfix_operators=[], prefix_operators=[], qualifier=page, selectors=[], type_arguments=None), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=audienceSegment)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=AudienceSegment, sub_type=None))), label=None) else begin[{] None end[}] call[statementBuilder.increaseOffsetBy, parameter[member[StatementBuilder.SUGGESTED_PAGE_LIMIT]]] end[}] call[System.out.printf, parameter[literal["Number of audience segments to be populated: %d%n"], member[.totalResultSetSize]]] if[binary_operation[member[.totalResultSetSize], >, literal[0]]] begin[{] call[statementBuilder.removeLimitAndOffset, parameter[]] local_variable[type[PopulateAudienceSegments], action] local_variable[type[UpdateResult], result] if[binary_operation[binary_operation[member[.result], !=, literal[null]], &&, binary_operation[call[result.getNumChanges, parameter[]], >, literal[0]]]] begin[{] call[System.out.printf, parameter[literal["Number of audience segments populated: %d%n"], call[result.getNumChanges, parameter[]]]] else begin[{] call[System.out.println, parameter[literal["No audience segments were populated."]]] end[}] else begin[{] None end[}] end[}] END[}]	Keyword[public] Keyword[static] Keyword[void] identifier[runExample] operator[SEP] identifier[AdManagerServices] identifier[adManagerServices] , identifier[AdManagerSession] identifier[session] , Keyword[long] identifier[audienceSegmentId] operator[SEP] Keyword[throws] identifier[RemoteException] { identifier[AudienceSegmentServiceInterface] identifier[audienceSegmentService] operator[=] identifier[adManagerServices] operator[SEP] identifier[get] operator[SEP] identifier[session] , identifier[AudienceSegmentServiceInterface] operator[SEP] Keyword[class] operator[SEP] operator[SEP] identifier[StatementBuilder] identifier[statementBuilder] operator[=] Keyword[new] identifier[StatementBuilder] operator[SEP] operator[SEP] operator[SEP] identifier[where] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[orderBy] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[limit] operator[SEP] Other[1] operator[SEP] operator[SEP] identifier[withBindVariableValue] operator[SEP] literal[String] , identifier[audienceSegmentId] operator[SEP] operator[SEP] identifier[withBindVariableValue] operator[SEP] literal[String] , literal[String] operator[SEP] operator[SEP] Keyword[int] identifier[totalResultSetSize] operator[=] Other[0] operator[SEP] Keyword[do] { identifier[AudienceSegmentPage] identifier[page] operator[=] identifier[audienceSegmentService] operator[SEP] identifier[getAudienceSegmentsByStatement] operator[SEP] identifier[statementBuilder] operator[SEP] identifier[toStatement] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[page] operator[SEP] identifier[getResults] operator[SEP] operator[SEP] operator[!=] Other[null] operator[SEP] { identifier[totalResultSetSize] operator[=] identifier[page] operator[SEP] identifier[getTotalResultSetSize] operator[SEP] operator[SEP] operator[SEP] Keyword[int] identifier[i] operator[=] identifier[page] operator[SEP] identifier[getStartIndex] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] identifier[AudienceSegment] identifier[audienceSegment] operator[:] identifier[page] operator[SEP] identifier[getResults] operator[SEP] operator[SEP] operator[SEP] { identifier[System] operator[SEP] identifier[out] operator[SEP] identifier[printf] operator[SEP] literal[String] , identifier[i] operator[++] , identifier[audienceSegment] operator[SEP] identifier[getId] operator[SEP] operator[SEP] , identifier[audienceSegment] operator[SEP] identifier[getName] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } } identifier[statementBuilder] operator[SEP] identifier[increaseOffsetBy] operator[SEP] identifier[StatementBuilder] operator[SEP] identifier[SUGGESTED_PAGE_LIMIT] operator[SEP] operator[SEP] } Keyword[while] operator[SEP] identifier[statementBuilder] operator[SEP] identifier[getOffset] operator[SEP] operator[SEP] operator[<] identifier[totalResultSetSize] operator[SEP] operator[SEP] identifier[System] operator[SEP] identifier[out] operator[SEP] identifier[printf] operator[SEP] literal[String] , identifier[totalResultSetSize] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[totalResultSetSize] operator[>] Other[0] operator[SEP] { identifier[statementBuilder] operator[SEP] identifier[removeLimitAndOffset] operator[SEP] operator[SEP] operator[SEP] identifier[PopulateAudienceSegments] identifier[action] operator[=] Keyword[new] identifier[PopulateAudienceSegments] operator[SEP] operator[SEP] operator[SEP] identifier[UpdateResult] identifier[result] operator[=] identifier[audienceSegmentService] operator[SEP] identifier[performAudienceSegmentAction] operator[SEP] identifier[action] , identifier[statementBuilder] operator[SEP] identifier[toStatement] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[result] operator[!=] Other[null] operator[&&] identifier[result] operator[SEP] identifier[getNumChanges] operator[SEP] operator[SEP] operator[>] Other[0] operator[SEP] { identifier[System] operator[SEP] identifier[out] operator[SEP] identifier[printf] operator[SEP] literal[String] , identifier[result] operator[SEP] identifier[getNumChanges] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] { identifier[System] operator[SEP] identifier[out] operator[SEP] identifier[println] operator[SEP] literal[String] operator[SEP] operator[SEP] } } }
public static int getXPathLocation(String dom, String xpath) { String dom_lower = dom.toLowerCase(); String xpath_lower = xpath.toLowerCase(); String[] elements = xpath_lower.split("/"); int pos = 0; int temp; int number; for (String element : elements) { if (!element.isEmpty() && !element.startsWith("@") && !element.contains("()")) { if (element.contains("[")) { try { number = Integer.parseInt(element.substring(element.indexOf("[") + 1, element.indexOf("]"))); } catch (NumberFormatException e) { return -1; } } else { number = 1; } for (int i = 0; i < number; i++) { // find new open element temp = dom_lower.indexOf("<" + stripEndSquareBrackets(element), pos); if (temp > -1) { pos = temp + 1; // if depth>1 then goto end of current element if (number > 1 && i < number - 1) { pos = getCloseElementLocation(dom_lower, pos, stripEndSquareBrackets(element)); } } } } } return pos - 1; }	class class_name[name] begin[{] method[getXPathLocation, return_type[type[int]], modifier[public static], parameter[dom, xpath]] begin[{] local_variable[type[String], dom_lower] local_variable[type[String], xpath_lower] local_variable[type[String], elements] local_variable[type[int], pos] local_variable[type[int], temp] local_variable[type[int], number] ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=BinaryOperation(operandl=MethodInvocation(arguments=[], member=isEmpty, postfix_operators=[], prefix_operators=['!'], qualifier=element, selectors=[], type_arguments=None), operandr=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="@")], member=startsWith, postfix_operators=[], prefix_operators=['!'], qualifier=element, selectors=[], type_arguments=None), operator=&&), operandr=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="()")], member=contains, postfix_operators=[], prefix_operators=['!'], qualifier=element, selectors=[], type_arguments=None), operator=&&), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[IfStatement(condition=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="[")], member=contains, postfix_operators=[], prefix_operators=[], qualifier=element, selectors=[], type_arguments=None), else_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=number, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1)), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[TryStatement(block=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=number, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[MethodInvocation(arguments=[BinaryOperation(operandl=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="[")], member=indexOf, postfix_operators=[], prefix_operators=[], qualifier=element, selectors=[], type_arguments=None), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=+), MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="]")], member=indexOf, postfix_operators=[], prefix_operators=[], qualifier=element, selectors=[], type_arguments=None)], member=substring, postfix_operators=[], prefix_operators=[], qualifier=element, selectors=[], type_arguments=None)], member=parseInt, postfix_operators=[], prefix_operators=[], qualifier=Integer, selectors=[], type_arguments=None)), label=None)], catches=[CatchClause(block=[ReturnStatement(expression=Literal(postfix_operators=[], prefix_operators=['-'], qualifier=None, selectors=[], value=1), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['NumberFormatException']))], finally_block=None, label=None, resources=None)])), ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=temp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="<"), operandr=MethodInvocation(arguments=[MemberReference(member=element, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=stripEndSquareBrackets, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), operator=+), MemberReference(member=pos, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=indexOf, postfix_operators=[], prefix_operators=[], qualifier=dom_lower, selectors=[], type_arguments=None)), label=None), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=temp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=['-'], qualifier=None, selectors=[], value=1), operator=>), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=pos, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=BinaryOperation(operandl=MemberReference(member=temp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=+)), label=None), IfStatement(condition=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=number, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=>), operandr=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=BinaryOperation(operandl=MemberReference(member=number, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=-), operator=<), operator=&&), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=pos, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[MemberReference(member=dom_lower, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=pos, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MethodInvocation(arguments=[MemberReference(member=element, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=stripEndSquareBrackets, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)], member=getCloseElementLocation, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)), label=None)]))]))]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=number, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=<), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), name=i)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=i, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None)]))]), control=EnhancedForControl(iterable=MemberReference(member=elements, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=element)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None))), label=None) return[binary_operation[member[.pos], -, literal[1]]] end[}] END[}]	Keyword[public] Keyword[static] Keyword[int] identifier[getXPathLocation] operator[SEP] identifier[String] identifier[dom] , identifier[String] identifier[xpath] operator[SEP] { identifier[String] identifier[dom_lower] operator[=] identifier[dom] operator[SEP] identifier[toLowerCase] operator[SEP] operator[SEP] operator[SEP] identifier[String] identifier[xpath_lower] operator[=] identifier[xpath] operator[SEP] identifier[toLowerCase] operator[SEP] operator[SEP] operator[SEP] identifier[String] operator[SEP] operator[SEP] identifier[elements] operator[=] identifier[xpath_lower] operator[SEP] identifier[split] operator[SEP] literal[String] operator[SEP] operator[SEP] Keyword[int] identifier[pos] operator[=] Other[0] operator[SEP] Keyword[int] identifier[temp] operator[SEP] Keyword[int] identifier[number] operator[SEP] Keyword[for] operator[SEP] identifier[String] identifier[element] operator[:] identifier[elements] operator[SEP] { Keyword[if] operator[SEP] operator[!] identifier[element] operator[SEP] identifier[isEmpty] operator[SEP] operator[SEP] operator[&&] operator[!] identifier[element] operator[SEP] identifier[startsWith] operator[SEP] literal[String] operator[SEP] operator[&&] operator[!] identifier[element] operator[SEP] identifier[contains] operator[SEP] literal[String] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] identifier[element] operator[SEP] identifier[contains] operator[SEP] literal[String] operator[SEP] operator[SEP] { Keyword[try] { identifier[number] operator[=] identifier[Integer] operator[SEP] identifier[parseInt] operator[SEP] identifier[element] operator[SEP] identifier[substring] operator[SEP] identifier[element] operator[SEP] identifier[indexOf] operator[SEP] literal[String] operator[SEP] operator[+] Other[1] , identifier[element] operator[SEP] identifier[indexOf] operator[SEP] literal[String] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[NumberFormatException] identifier[e] operator[SEP] { Keyword[return] operator[-] Other[1] operator[SEP] } } Keyword[else] { identifier[number] operator[=] Other[1] operator[SEP] } Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[number] operator[SEP] identifier[i] operator[++] operator[SEP] { identifier[temp] operator[=] identifier[dom_lower] operator[SEP] identifier[indexOf] operator[SEP] literal[String] operator[+] identifier[stripEndSquareBrackets] operator[SEP] identifier[element] operator[SEP] , identifier[pos] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[temp] operator[>] operator[-] Other[1] operator[SEP] { identifier[pos] operator[=] identifier[temp] operator[+] Other[1] operator[SEP] Keyword[if] operator[SEP] identifier[number] operator[>] Other[1] operator[&&] identifier[i] operator[<] identifier[number] operator[-] Other[1] operator[SEP] { identifier[pos] operator[=] identifier[getCloseElementLocation] operator[SEP] identifier[dom_lower] , identifier[pos] , identifier[stripEndSquareBrackets] operator[SEP] identifier[element] operator[SEP] operator[SEP] operator[SEP] } } } } } Keyword[return] identifier[pos] operator[-] Other[1] operator[SEP] }
private URI computeEndpoint() { String endpoint = this.config.getEndpoint(); try { if (endpoint == null) { if (this.isRegionSupported()) { endpoint = String.format("%s://%s.%s.%s", this.config.getProtocol(), this.serviceId, this.config.getRegion(), AbstractBceClient.DEFAULT_SERVICE_DOMAIN); } else { endpoint = String.format("%s://%s.%s", this.config.getProtocol(), this.serviceId, AbstractBceClient.DEFAULT_SERVICE_DOMAIN); } } return new URI(endpoint); } catch (URISyntaxException e) { // only if the endpoint specified in the client configuration is not a valid URI, which is not expected. throw new IllegalArgumentException("Invalid endpoint." + endpoint, e); } }	class class_name[name] begin[{] method[computeEndpoint, return_type[type[URI]], modifier[private], parameter[]] begin[{] local_variable[type[String], endpoint] TryStatement(block=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=endpoint, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator===), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[IfStatement(condition=This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MethodInvocation(arguments=[], member=isRegionSupported, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), else_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=endpoint, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="%s://%s.%s"), This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MemberReference(member=config, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None), MethodInvocation(arguments=[], member=getProtocol, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MemberReference(member=serviceId, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None)]), MemberReference(member=DEFAULT_SERVICE_DOMAIN, postfix_operators=[], prefix_operators=[], qualifier=AbstractBceClient, selectors=[])], member=format, postfix_operators=[], prefix_operators=[], qualifier=String, selectors=[], type_arguments=None)), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=endpoint, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="%s://%s.%s.%s"), This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MemberReference(member=config, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None), MethodInvocation(arguments=[], member=getProtocol, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MemberReference(member=serviceId, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None)]), This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MemberReference(member=config, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None), MethodInvocation(arguments=[], member=getRegion, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), MemberReference(member=DEFAULT_SERVICE_DOMAIN, postfix_operators=[], prefix_operators=[], qualifier=AbstractBceClient, selectors=[])], member=format, postfix_operators=[], prefix_operators=[], qualifier=String, selectors=[], type_arguments=None)), label=None)]))])), ReturnStatement(expression=ClassCreator(arguments=[MemberReference(member=endpoint, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=URI, sub_type=None)), label=None)], catches=[CatchClause(block=[ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Invalid endpoint."), operandr=MemberReference(member=endpoint, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=IllegalArgumentException, sub_type=None)), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['URISyntaxException']))], finally_block=None, label=None, resources=None) end[}] END[}]	Keyword[private] identifier[URI] identifier[computeEndpoint] operator[SEP] operator[SEP] { identifier[String] identifier[endpoint] operator[=] Keyword[this] operator[SEP] identifier[config] operator[SEP] identifier[getEndpoint] operator[SEP] operator[SEP] operator[SEP] Keyword[try] { Keyword[if] operator[SEP] identifier[endpoint] operator[==] Other[null] operator[SEP] { Keyword[if] operator[SEP] Keyword[this] operator[SEP] identifier[isRegionSupported] operator[SEP] operator[SEP] operator[SEP] { identifier[endpoint] operator[=] identifier[String] operator[SEP] identifier[format] operator[SEP] literal[String] , Keyword[this] operator[SEP] identifier[config] operator[SEP] identifier[getProtocol] operator[SEP] operator[SEP] , Keyword[this] operator[SEP] identifier[serviceId] , Keyword[this] operator[SEP] identifier[config] operator[SEP] identifier[getRegion] operator[SEP] operator[SEP] , identifier[AbstractBceClient] operator[SEP] identifier[DEFAULT_SERVICE_DOMAIN] operator[SEP] operator[SEP] } Keyword[else] { identifier[endpoint] operator[=] identifier[String] operator[SEP] identifier[format] operator[SEP] literal[String] , Keyword[this] operator[SEP] identifier[config] operator[SEP] identifier[getProtocol] operator[SEP] operator[SEP] , Keyword[this] operator[SEP] identifier[serviceId] , identifier[AbstractBceClient] operator[SEP] identifier[DEFAULT_SERVICE_DOMAIN] operator[SEP] operator[SEP] } } Keyword[return] Keyword[new] identifier[URI] operator[SEP] identifier[endpoint] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[URISyntaxException] identifier[e] operator[SEP] { Keyword[throw] Keyword[new] identifier[IllegalArgumentException] operator[SEP] literal[String] operator[+] identifier[endpoint] , identifier[e] operator[SEP] operator[SEP] } }
@UiHandler("m_rewriteDeleteButton") protected void onClickDeleteRewrite(ClickEvent e) { List<CmsRewriteAliasTableRow> rowsToDelete = m_rewriteTable.getSelectedRows(); m_controller.deleteRewrites(rowsToDelete); }	class class_name[name] begin[{] method[onClickDeleteRewrite, return_type[void], modifier[protected], parameter[e]] begin[{] local_variable[type[List], rowsToDelete] call[m_controller.deleteRewrites, parameter[member[.rowsToDelete]]] end[}] END[}]	annotation[@] identifier[UiHandler] operator[SEP] literal[String] operator[SEP] Keyword[protected] Keyword[void] identifier[onClickDeleteRewrite] operator[SEP] identifier[ClickEvent] identifier[e] operator[SEP] { identifier[List] operator[<] identifier[CmsRewriteAliasTableRow] operator[>] identifier[rowsToDelete] operator[=] identifier[m_rewriteTable] operator[SEP] identifier[getSelectedRows] operator[SEP] operator[SEP] operator[SEP] identifier[m_controller] operator[SEP] identifier[deleteRewrites] operator[SEP] identifier[rowsToDelete] operator[SEP] operator[SEP] }
public static Codec getEncoderByName(String avCodecName) throws JavaAVException { if (avCodecName == null \|\| avCodecName.isEmpty()) throw new NullPointerException("Codec name is null or empty."); AVCodec avCodec = avcodec_find_encoder_by_name(avCodecName); if (avCodec == null \|\| avCodec.isNull()) throw new JavaAVException("Encoder not found: " + avCodecName); Codec codec = new Codec(); codec.avCodec = avCodec; return codec; }	class class_name[name] begin[{] method[getEncoderByName, return_type[type[Codec]], modifier[public static], parameter[avCodecName]] begin[{] if[binary_operation[binary_operation[member[.avCodecName], ==, literal[null]], \|\|, call[avCodecName.isEmpty, parameter[]]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Codec name is null or empty.")], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=NullPointerException, sub_type=None)), label=None) else begin[{] None end[}] local_variable[type[AVCodec], avCodec] if[binary_operation[binary_operation[member[.avCodec], ==, literal[null]], \|\|, call[avCodec.isNull, parameter[]]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Encoder not found: "), operandr=MemberReference(member=avCodecName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=JavaAVException, sub_type=None)), label=None) else begin[{] None end[}] local_variable[type[Codec], codec] assign[member[codec.avCodec], member[.avCodec]] return[member[.codec]] end[}] END[}]	Keyword[public] Keyword[static] identifier[Codec] identifier[getEncoderByName] operator[SEP] identifier[String] identifier[avCodecName] operator[SEP] Keyword[throws] identifier[JavaAVException] { Keyword[if] operator[SEP] identifier[avCodecName] operator[==] Other[null] operator[\|\|] identifier[avCodecName] operator[SEP] identifier[isEmpty] operator[SEP] operator[SEP] operator[SEP] Keyword[throw] Keyword[new] identifier[NullPointerException] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[AVCodec] identifier[avCodec] operator[=] identifier[avcodec_find_encoder_by_name] operator[SEP] identifier[avCodecName] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[avCodec] operator[==] Other[null] operator[\|\|] identifier[avCodec] operator[SEP] identifier[isNull] operator[SEP] operator[SEP] operator[SEP] Keyword[throw] Keyword[new] identifier[JavaAVException] operator[SEP] literal[String] operator[+] identifier[avCodecName] operator[SEP] operator[SEP] identifier[Codec] identifier[codec] operator[=] Keyword[new] identifier[Codec] operator[SEP] operator[SEP] operator[SEP] identifier[codec] operator[SEP] identifier[avCodec] operator[=] identifier[avCodec] operator[SEP] Keyword[return] identifier[codec] operator[SEP] }
public double[][] adaptWeights(double[][] origWeights, GeneralDataset<L, F> adaptDataset) { System.err.println("adaptWeights in LinearClassifierFactory. increase weight dim only"); double[][] newWeights = new double[adaptDataset.featureIndex.size()][adaptDataset.labelIndex.size()]; System.arraycopy(origWeights,0,newWeights,0,origWeights.length); AdaptedGaussianPriorObjectiveFunction<L, F> objective = new AdaptedGaussianPriorObjectiveFunction<L, F>(adaptDataset, logPrior,newWeights); double[] initial = objective.initial(); double[] weights = minimizer.minimize(objective, TOL, initial); return objective.to2D(weights); //Question: maybe the adaptWeights can be done just in LinearClassifier ?? (pichuan) }	class class_name[name] begin[{] method[adaptWeights, return_type[type[double]], modifier[public], parameter[origWeights, adaptDataset]] begin[{] call[System.err.println, parameter[literal["adaptWeights in LinearClassifierFactory. increase weight dim only"]]] local_variable[type[double], newWeights] call[System.arraycopy, parameter[member[.origWeights], literal[0], member[.newWeights], literal[0], member[origWeights.length]]] local_variable[type[AdaptedGaussianPriorObjectiveFunction], objective] local_variable[type[double], initial] local_variable[type[double], weights] return[call[objective.to2D, parameter[member[.weights]]]] end[}] END[}]	Keyword[public] Keyword[double] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[adaptWeights] operator[SEP] Keyword[double] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[origWeights] , identifier[GeneralDataset] operator[<] identifier[L] , identifier[F] operator[>] identifier[adaptDataset] operator[SEP] { identifier[System] operator[SEP] identifier[err] operator[SEP] identifier[println] operator[SEP] literal[String] operator[SEP] operator[SEP] Keyword[double] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[newWeights] operator[=] Keyword[new] Keyword[double] operator[SEP] identifier[adaptDataset] operator[SEP] identifier[featureIndex] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[adaptDataset] operator[SEP] identifier[labelIndex] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[System] operator[SEP] identifier[arraycopy] operator[SEP] identifier[origWeights] , Other[0] , identifier[newWeights] , Other[0] , identifier[origWeights] operator[SEP] identifier[length] operator[SEP] operator[SEP] identifier[AdaptedGaussianPriorObjectiveFunction] operator[<] identifier[L] , identifier[F] operator[>] identifier[objective] operator[=] Keyword[new] identifier[AdaptedGaussianPriorObjectiveFunction] operator[<] identifier[L] , identifier[F] operator[>] operator[SEP] identifier[adaptDataset] , identifier[logPrior] , identifier[newWeights] operator[SEP] operator[SEP] Keyword[double] operator[SEP] operator[SEP] identifier[initial] operator[=] identifier[objective] operator[SEP] identifier[initial] operator[SEP] operator[SEP] operator[SEP] Keyword[double] operator[SEP] operator[SEP] identifier[weights] operator[=] identifier[minimizer] operator[SEP] identifier[minimize] operator[SEP] identifier[objective] , identifier[TOL] , identifier[initial] operator[SEP] operator[SEP] Keyword[return] identifier[objective] operator[SEP] identifier[to2D] operator[SEP] identifier[weights] operator[SEP] operator[SEP] }
public static String getParameterString(Iterable<? extends JvmFormalParameter> elements, boolean isVarArgs, boolean includeName, SARLGrammarKeywordAccess keywords, AnnotationLookup annotationFinder, UIStrings utils) { final StringBuilder result = new StringBuilder(); boolean needsSeparator = false; final Iterator<? extends JvmFormalParameter> iterator = elements.iterator(); while (iterator.hasNext()) { final JvmFormalParameter parameter = iterator.next(); if (needsSeparator) { result.append(keywords.getCommaKeyword()).append(" "); //$NON-NLS-1$ } needsSeparator = true; final boolean isDefaultValued = annotationFinder.findAnnotation(parameter, DefaultValue.class) != null; if (isDefaultValued) { result.append(keywords.getLeftSquareBracketKeyword()); } if (includeName) { result.append(parameter.getName()).append(" "); //$NON-NLS-1$ result.append(keywords.getColonKeyword()).append(" "); //$NON-NLS-1$ } JvmTypeReference typeRef = parameter.getParameterType(); if (isVarArgs && !iterator.hasNext() && typeRef instanceof JvmGenericArrayTypeReference) { typeRef = ((JvmGenericArrayTypeReference) typeRef).getComponentType(); result.append(utils.referenceToString(typeRef, NULL_TYPE)); result.append(keywords.getWildcardAsteriskKeyword()); } else { result.append(utils.referenceToString(typeRef, NULL_TYPE)); } if (isDefaultValued) { result.append(keywords.getRightSquareBracketKeyword()); } } return result.toString(); }	class class_name[name] begin[{] method[getParameterString, return_type[type[String]], modifier[public static], parameter[elements, isVarArgs, includeName, keywords, annotationFinder, utils]] begin[{] local_variable[type[StringBuilder], result] local_variable[type[boolean], needsSeparator] local_variable[type[Iterator], iterator] while[call[iterator.hasNext, parameter[]]] begin[{] local_variable[type[JvmFormalParameter], parameter] if[member[.needsSeparator]] begin[{] call[result.append, parameter[call[keywords.getCommaKeyword, parameter[]]]] else begin[{] None end[}] assign[member[.needsSeparator], literal[true]] local_variable[type[boolean], isDefaultValued] if[member[.isDefaultValued]] begin[{] call[result.append, parameter[call[keywords.getLeftSquareBracketKeyword, parameter[]]]] else begin[{] None end[}] if[member[.includeName]] begin[{] call[result.append, parameter[call[parameter.getName, parameter[]]]] call[result.append, parameter[call[keywords.getColonKeyword, parameter[]]]] else begin[{] None end[}] local_variable[type[JvmTypeReference], typeRef] if[binary_operation[binary_operation[member[.isVarArgs], &&, call[iterator.hasNext, parameter[]]], &&, binary_operation[member[.typeRef], instanceof, type[JvmGenericArrayTypeReference]]]] begin[{] assign[member[.typeRef], Cast(expression=MemberReference(member=typeRef, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=JvmGenericArrayTypeReference, sub_type=None))] call[result.append, parameter[call[utils.referenceToString, parameter[member[.typeRef], member[.NULL_TYPE]]]]] call[result.append, parameter[call[keywords.getWildcardAsteriskKeyword, parameter[]]]] else begin[{] call[result.append, parameter[call[utils.referenceToString, parameter[member[.typeRef], member[.NULL_TYPE]]]]] end[}] if[member[.isDefaultValued]] begin[{] call[result.append, parameter[call[keywords.getRightSquareBracketKeyword, parameter[]]]] else begin[{] None end[}] end[}] return[call[result.toString, parameter[]]] end[}] END[}]	Keyword[public] Keyword[static] identifier[String] identifier[getParameterString] operator[SEP] identifier[Iterable] operator[<] operator[?] Keyword[extends] identifier[JvmFormalParameter] operator[>] identifier[elements] , Keyword[boolean] identifier[isVarArgs] , Keyword[boolean] identifier[includeName] , identifier[SARLGrammarKeywordAccess] identifier[keywords] , identifier[AnnotationLookup] identifier[annotationFinder] , identifier[UIStrings] identifier[utils] operator[SEP] { Keyword[final] identifier[StringBuilder] identifier[result] operator[=] Keyword[new] identifier[StringBuilder] operator[SEP] operator[SEP] operator[SEP] Keyword[boolean] identifier[needsSeparator] operator[=] literal[boolean] operator[SEP] Keyword[final] identifier[Iterator] operator[<] operator[?] Keyword[extends] identifier[JvmFormalParameter] operator[>] identifier[iterator] operator[=] identifier[elements] operator[SEP] identifier[iterator] operator[SEP] operator[SEP] operator[SEP] Keyword[while] operator[SEP] identifier[iterator] operator[SEP] identifier[hasNext] operator[SEP] operator[SEP] operator[SEP] { Keyword[final] identifier[JvmFormalParameter] identifier[parameter] operator[=] identifier[iterator] operator[SEP] identifier[next] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[needsSeparator] operator[SEP] { identifier[result] operator[SEP] identifier[append] operator[SEP] identifier[keywords] operator[SEP] identifier[getCommaKeyword] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP] } identifier[needsSeparator] operator[=] literal[boolean] operator[SEP] Keyword[final] Keyword[boolean] identifier[isDefaultValued] operator[=] identifier[annotationFinder] operator[SEP] identifier[findAnnotation] operator[SEP] identifier[parameter] , identifier[DefaultValue] operator[SEP] Keyword[class] operator[SEP] operator[!=] Other[null] operator[SEP] Keyword[if] operator[SEP] identifier[isDefaultValued] operator[SEP] { identifier[result] operator[SEP] identifier[append] operator[SEP] identifier[keywords] operator[SEP] identifier[getLeftSquareBracketKeyword] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[includeName] operator[SEP] { identifier[result] operator[SEP] identifier[append] operator[SEP] identifier[parameter] operator[SEP] identifier[getName] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[result] operator[SEP] identifier[append] operator[SEP] identifier[keywords] operator[SEP] identifier[getColonKeyword] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP] } identifier[JvmTypeReference] identifier[typeRef] operator[=] identifier[parameter] operator[SEP] identifier[getParameterType] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[isVarArgs] operator[&&] operator[!] identifier[iterator] operator[SEP] identifier[hasNext] operator[SEP] operator[SEP] operator[&&] identifier[typeRef] Keyword[instanceof] identifier[JvmGenericArrayTypeReference] operator[SEP] { identifier[typeRef] operator[=] operator[SEP] operator[SEP] identifier[JvmGenericArrayTypeReference] operator[SEP] identifier[typeRef] operator[SEP] operator[SEP] identifier[getComponentType] operator[SEP] operator[SEP] operator[SEP] identifier[result] operator[SEP] identifier[append] operator[SEP] identifier[utils] operator[SEP] identifier[referenceToString] operator[SEP] identifier[typeRef] , identifier[NULL_TYPE] operator[SEP] operator[SEP] operator[SEP] identifier[result] operator[SEP] identifier[append] operator[SEP] identifier[keywords] operator[SEP] identifier[getWildcardAsteriskKeyword] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] { identifier[result] operator[SEP] identifier[append] operator[SEP] identifier[utils] operator[SEP] identifier[referenceToString] operator[SEP] identifier[typeRef] , identifier[NULL_TYPE] operator[SEP] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[isDefaultValued] operator[SEP] { identifier[result] operator[SEP] identifier[append] operator[SEP] identifier[keywords] operator[SEP] identifier[getRightSquareBracketKeyword] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } } Keyword[return] identifier[result] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] }
public org.inferred.freebuilder.processor.property.Property.Builder setName(String name) { this.name = Objects.requireNonNull(name); _unsetProperties.remove(Property.NAME); return (org.inferred.freebuilder.processor.property.Property.Builder) this; }	class class_name[name] begin[{] method[setName, return_type[type[org]], modifier[public], parameter[name]] begin[{] assign[THIS[member[None.name]], call[Objects.requireNonNull, parameter[member[.name]]]] call[_unsetProperties.remove, parameter[member[Property.NAME]]] return[Cast(expression=This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=org, sub_type=ReferenceType(arguments=None, dimensions=None, name=inferred, sub_type=ReferenceType(arguments=None, dimensions=None, name=freebuilder, sub_type=ReferenceType(arguments=None, dimensions=None, name=processor, sub_type=ReferenceType(arguments=None, dimensions=None, name=property, sub_type=ReferenceType(arguments=None, dimensions=None, name=Property, sub_type=ReferenceType(arguments=None, dimensions=None, name=Builder, sub_type=None))))))))] end[}] END[}]	Keyword[public] identifier[org] operator[SEP] identifier[inferred] operator[SEP] identifier[freebuilder] operator[SEP] identifier[processor] operator[SEP] identifier[property] operator[SEP] identifier[Property] operator[SEP] identifier[Builder] identifier[setName] operator[SEP] identifier[String] identifier[name] operator[SEP] { Keyword[this] operator[SEP] identifier[name] operator[=] identifier[Objects] operator[SEP] identifier[requireNonNull] operator[SEP] identifier[name] operator[SEP] operator[SEP] identifier[_unsetProperties] operator[SEP] identifier[remove] operator[SEP] identifier[Property] operator[SEP] identifier[NAME] operator[SEP] operator[SEP] Keyword[return] operator[SEP] identifier[org] operator[SEP] identifier[inferred] operator[SEP] identifier[freebuilder] operator[SEP] identifier[processor] operator[SEP] identifier[property] operator[SEP] identifier[Property] operator[SEP] identifier[Builder] operator[SEP] Keyword[this] operator[SEP] }
@TimerJ public IndexMetadataBuilder addColumn(String columnName, ColumnType colType) { ColumnName colName = new ColumnName(tableName, columnName); ColumnMetadata colMetadata = new ColumnMetadata(colName, null, colType); columns.put(colName, colMetadata); return this; }	class class_name[name] begin[{] method[addColumn, return_type[type[IndexMetadataBuilder]], modifier[public], parameter[columnName, colType]] begin[{] local_variable[type[ColumnName], colName] local_variable[type[ColumnMetadata], colMetadata] call[columns.put, parameter[member[.colName], member[.colMetadata]]] return[THIS[]] end[}] END[}]	annotation[@] identifier[TimerJ] Keyword[public] identifier[IndexMetadataBuilder] identifier[addColumn] operator[SEP] identifier[String] identifier[columnName] , identifier[ColumnType] identifier[colType] operator[SEP] { identifier[ColumnName] identifier[colName] operator[=] Keyword[new] identifier[ColumnName] operator[SEP] identifier[tableName] , identifier[columnName] operator[SEP] operator[SEP] identifier[ColumnMetadata] identifier[colMetadata] operator[=] Keyword[new] identifier[ColumnMetadata] operator[SEP] identifier[colName] , Other[null] , identifier[colType] operator[SEP] operator[SEP] identifier[columns] operator[SEP] identifier[put] operator[SEP] identifier[colName] , identifier[colMetadata] operator[SEP] operator[SEP] Keyword[return] Keyword[this] operator[SEP] }
public static boolean isTransferEncodingChunked(HttpMessage message) { return message.headers().contains(HttpHeaderNames.TRANSFER_ENCODING, HttpHeaderValues.CHUNKED, true); }	class class_name[name] begin[{] method[isTransferEncodingChunked, return_type[type[boolean]], modifier[public static], parameter[message]] begin[{] return[call[message.headers, parameter[]]] end[}] END[}]	Keyword[public] Keyword[static] Keyword[boolean] identifier[isTransferEncodingChunked] operator[SEP] identifier[HttpMessage] identifier[message] operator[SEP] { Keyword[return] identifier[message] operator[SEP] identifier[headers] operator[SEP] operator[SEP] operator[SEP] identifier[contains] operator[SEP] identifier[HttpHeaderNames] operator[SEP] identifier[TRANSFER_ENCODING] , identifier[HttpHeaderValues] operator[SEP] identifier[CHUNKED] , literal[boolean] operator[SEP] operator[SEP] }
private void unwatchInstance(final InstanceContext instance, final CountingCompletionHandler<Void> counter) { Handler<MapEvent<String, String>> watchHandler = watchHandlers.remove(instance.address()); if (watchHandler != null) { data.unwatch(instance.status(), watchHandler, new Handler<AsyncResult<Void>>() { @Override public void handle(AsyncResult<Void> result) { data.remove(instance.address(), new Handler<AsyncResult<String>>() { @Override public void handle(AsyncResult<String> result) { if (result.failed()) { counter.fail(result.cause()); } else { counter.succeed(); } } }); } }); } else { data.remove(instance.address(), new Handler<AsyncResult<String>>() { @Override public void handle(AsyncResult<String> result) { if (result.failed()) { counter.fail(result.cause()); } else { counter.succeed(); } } }); } }	class class_name[name] begin[{] method[unwatchInstance, return_type[void], modifier[private], parameter[instance, counter]] begin[{] local_variable[type[Handler], watchHandler] if[binary_operation[member[.watchHandler], !=, literal[null]]] begin[{] call[data.unwatch, parameter[call[instance.status, parameter[]], member[.watchHandler], ClassCreator(arguments=[], body=[MethodDeclaration(annotations=[Annotation(element=None, name=Override)], body=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=address, postfix_operators=[], prefix_operators=[], qualifier=instance, selectors=[], type_arguments=None), ClassCreator(arguments=[], body=[MethodDeclaration(annotations=[Annotation(element=None, name=Override)], body=[IfStatement(condition=MethodInvocation(arguments=[], member=failed, postfix_operators=[], prefix_operators=[], qualifier=result, selectors=[], type_arguments=None), else_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[], member=succeed, postfix_operators=[], prefix_operators=[], qualifier=counter, selectors=[], type_arguments=None), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=cause, postfix_operators=[], prefix_operators=[], qualifier=result, selectors=[], type_arguments=None)], member=fail, postfix_operators=[], prefix_operators=[], qualifier=counter, selectors=[], type_arguments=None), label=None)]))], documentation=None, modifiers={'public'}, name=handle, parameters=[FormalParameter(annotations=[], modifiers=set(), name=result, type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None))], dimensions=[], name=AsyncResult, sub_type=None), varargs=False)], return_type=None, throws=None, type_parameters=None)], constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None))], dimensions=[], name=AsyncResult, sub_type=None))], dimensions=None, name=Handler, sub_type=None))], member=remove, postfix_operators=[], prefix_operators=[], qualifier=data, selectors=[], type_arguments=None), label=None)], documentation=None, modifiers={'public'}, name=handle, parameters=[FormalParameter(annotations=[], modifiers=set(), name=result, type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=Void, sub_type=None))], dimensions=[], name=AsyncResult, sub_type=None), varargs=False)], return_type=None, throws=None, type_parameters=None)], constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=Void, sub_type=None))], dimensions=[], name=AsyncResult, sub_type=None))], dimensions=None, name=Handler, sub_type=None))]] else begin[{] call[data.remove, parameter[call[instance.address, parameter[]], ClassCreator(arguments=[], body=[MethodDeclaration(annotations=[Annotation(element=None, name=Override)], body=[IfStatement(condition=MethodInvocation(arguments=[], member=failed, postfix_operators=[], prefix_operators=[], qualifier=result, selectors=[], type_arguments=None), else_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[], member=succeed, postfix_operators=[], prefix_operators=[], qualifier=counter, selectors=[], type_arguments=None), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=cause, postfix_operators=[], prefix_operators=[], qualifier=result, selectors=[], type_arguments=None)], member=fail, postfix_operators=[], prefix_operators=[], qualifier=counter, selectors=[], type_arguments=None), label=None)]))], documentation=None, modifiers={'public'}, name=handle, parameters=[FormalParameter(annotations=[], modifiers=set(), name=result, type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None))], dimensions=[], name=AsyncResult, sub_type=None), varargs=False)], return_type=None, throws=None, type_parameters=None)], constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None))], dimensions=[], name=AsyncResult, sub_type=None))], dimensions=None, name=Handler, sub_type=None))]] end[}] end[}] END[}]	Keyword[private] Keyword[void] identifier[unwatchInstance] operator[SEP] Keyword[final] identifier[InstanceContext] identifier[instance] , Keyword[final] identifier[CountingCompletionHandler] operator[<] identifier[Void] operator[>] identifier[counter] operator[SEP] { identifier[Handler] operator[<] identifier[MapEvent] operator[<] identifier[String] , identifier[String] operator[>] operator[>] identifier[watchHandler] operator[=] identifier[watchHandlers] operator[SEP] identifier[remove] operator[SEP] identifier[instance] operator[SEP] identifier[address] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[watchHandler] operator[!=] Other[null] operator[SEP] { identifier[data] operator[SEP] identifier[unwatch] operator[SEP] identifier[instance] operator[SEP] identifier[status] operator[SEP] operator[SEP] , identifier[watchHandler] , Keyword[new] identifier[Handler] operator[<] identifier[AsyncResult] operator[<] identifier[Void] operator[>] operator[>] operator[SEP] operator[SEP] { annotation[@] identifier[Override] Keyword[public] Keyword[void] identifier[handle] operator[SEP] identifier[AsyncResult] operator[<] identifier[Void] operator[>] identifier[result] operator[SEP] { identifier[data] operator[SEP] identifier[remove] operator[SEP] identifier[instance] operator[SEP] identifier[address] operator[SEP] operator[SEP] , Keyword[new] identifier[Handler] operator[<] identifier[AsyncResult] operator[<] identifier[String] operator[>] operator[>] operator[SEP] operator[SEP] { annotation[@] identifier[Override] Keyword[public] Keyword[void] identifier[handle] operator[SEP] identifier[AsyncResult] operator[<] identifier[String] operator[>] identifier[result] operator[SEP] { Keyword[if] operator[SEP] identifier[result] operator[SEP] identifier[failed] operator[SEP] operator[SEP] operator[SEP] { identifier[counter] operator[SEP] identifier[fail] operator[SEP] identifier[result] operator[SEP] identifier[cause] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] { identifier[counter] operator[SEP] identifier[succeed] operator[SEP] operator[SEP] operator[SEP] } } } operator[SEP] operator[SEP] } } operator[SEP] operator[SEP] } Keyword[else] { identifier[data] operator[SEP] identifier[remove] operator[SEP] identifier[instance] operator[SEP] identifier[address] operator[SEP] operator[SEP] , Keyword[new] identifier[Handler] operator[<] identifier[AsyncResult] operator[<] identifier[String] operator[>] operator[>] operator[SEP] operator[SEP] { annotation[@] identifier[Override] Keyword[public] Keyword[void] identifier[handle] operator[SEP] identifier[AsyncResult] operator[<] identifier[String] operator[>] identifier[result] operator[SEP] { Keyword[if] operator[SEP] identifier[result] operator[SEP] identifier[failed] operator[SEP] operator[SEP] operator[SEP] { identifier[counter] operator[SEP] identifier[fail] operator[SEP] identifier[result] operator[SEP] identifier[cause] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] { identifier[counter] operator[SEP] identifier[succeed] operator[SEP] operator[SEP] operator[SEP] } } } operator[SEP] operator[SEP] } }
public Pair<Map<SDVariable, DifferentialFunction>, List<DifferentialFunction>> exec() { if (!resolvedVariables) resolveVariablesWith(new LinkedHashMap<String, INDArray>()); List<DifferentialFunction> ops = new ArrayList<>(); // we don't care if this thread had any other FlowPath objects attached. we'll just create new one localFlowPath.set(new FlowPath()); val flowPath = localFlowPath.get(); Map<SDVariable, DifferentialFunction> opMap = new HashMap<>(); val funcs = new ArrayList<DifferentialFunction>(functionInstancesById.values()); boolean onBackward = false; // dequeue for Frames (nested, probably) val frames = new ArrayDeque<String>(); // simple flag, set true if within frame boolean inFrame = false; // yet another flag, to remove LastFrame once we really left last frame boolean frameLeft = false; int i = 0; int exec_counter = 0; for (; i < funcs.size(); i++) { ++exec_counter; val opName = funcs.get(i).opName(); if (!onBackward && opName.equals(new GradientBackwardsMarker().opName())) { onBackward = true; } if (opName.equals(new GradientBackwardsMarker().opName())) continue; DifferentialFunction differentialFunction = funcs.get(i); val ownName = differentialFunction.getOwnName(); // just registering function for this pass flowPath.ensureNodeStateExists(differentialFunction.getOwnName()); if (differentialFunction instanceof SDVariable) { continue; } val args = getInputsForFunction(differentialFunction); log.debug("Step: {}; Executing op {} for node [{}]", exec_counter, opName, ownName); // check if inputs are active nodes. skip step otherwise // please note: Exit node can't be skipped, because it's either rewind point or exit loop point boolean shouldSkip = false; if (differentialFunction instanceof Merge) { val arg0 = args[0]; val arg1 = args[1]; if (!flowPath.isActive(arg0) && !flowPath.isActive(arg1)) shouldSkip = true; } else { if (!(differentialFunction instanceof Exit)) { // if we've left Exit nodes, we can finally delete last frame name if (frameLeft) { frameLeft = false; val frame_name = frames.removeLast(); flowPath.activateFrame(frame_name, false); flowPath.forgetFrame(frame_name); } // we must check, if there's inactive nodes used as inputs for this node for (val input : args) { if (!flowPath.isActive(input)) { // propagate inactivity flowPath.markActive(differentialFunction.getOwnName(), false); shouldSkip = true; break; } } } } if (shouldSkip) continue; differentialFunction.resolvePropertiesFromSameDiffBeforeExecution(); flowPath.markActive(differentialFunction.getOwnName(), true); /** * This set of operations (Enter/Exit/NextIteration/Exit/Switch) are special snowflakes: they modify graph execution order, and basically used here to replicate TF logic. * Since SameDiff itself has own logic for loops and conditionals using Scopes / if (differentialFunction instanceof LoopCond) { // this node just passes single input forward, for future evaluation val inputs = getInputVariablesForFunction(differentialFunction); val array = inputs[0].getArr(); variableNameToArr.put(differentialFunction.getOwnName(), array.dup(array.ordering())); flowPath.markExecuted(differentialFunction.getOwnName(), true); if ((int) array.getDouble(0) == 1) { val frameName = frames.getLast(); // incrementing number of cycles for THIS frame, only if LoopCond is true flowPath.incrementNumberOfCycles(frameName); } } else if (differentialFunction instanceof Enter) { // if (flowPath.wasExecuted(differentialFunction.getOwnName())) // continue; val inputs = getInputVariablesForFunction(differentialFunction); val array = inputs[0].getArr(); variableNameToArr.put(differentialFunction.getOwnName(), array.dup(array.ordering())); flowPath.markExecuted(differentialFunction.getOwnName(), true); // frame_name MUST be non-null here val frame_name = ((Enter) differentialFunction).getFrameName(); if (!flowPath.isRegisteredFrame(frame_name)) { flowPath.registerFrame(frame_name); frames.addLast(frame_name); inFrame = true; } } else if (differentialFunction instanceof Exit) { // this is just exit point of graph: it maps own input to own output or rewinds graph to specific position planned at first NextIteration node val frame_name = frames.getLast(); // saving frame_name for backward pass ((Exit) differentialFunction).setFrameName(frame_name); if (!flowPath.isFrameActive(frame_name)) { flowPath.markActive(differentialFunction.getOwnName(), false); // if frame is inactive, lets remove it from queue as well frameLeft = true; continue; } // Exit node is called in any way, doesn't matters if body was executed or not // so, we're checking if rewind was planned (so, NextIteration was executed before Exit) // and if it's TRUE - we're setting applying rewind by setting loop idx and calling continue if (flowPath.isRewindPlanned(frame_name)) { // just reset loop flowPath.planRewind(frame_name, false); val currentPosition = i; i = flowPath.getRewindPosition(frame_name); val startPosition = i + 1; flowPath.setRewindPosition(frame_name, -1); continue; } val inputs = getInputVariablesForFunction(differentialFunction); val array = inputs[0].getArr(); variableNameToArr.put(differentialFunction.getOwnName(), array.dup(array.ordering())); flowPath.markExecuted(differentialFunction.getOwnName(), true); // now it's safe to remove LastFrame frameLeft = true; } else if (differentialFunction instanceof NextIteration) { // this operations merges own input, and schedules rewind to specific Merge node val inputs = getInputVariablesForFunction(differentialFunction); val frame_name = frames.getLast(); val array = inputs[0].getArr(); variableNameToArr.put(differentialFunction.getOwnName(), array.dup(array.ordering())); flowPath.markExecuted(differentialFunction.getOwnName(), true); // if NextIteration wasn't skipped with inactive branch, we'll plan rewind for this frame. obviously, only once if (!flowPath.isRewindPlanned(frame_name)) { flowPath.planRewind(frame_name, true); continue; } } else if (differentialFunction instanceof Merge) { // merge operation takes two inputs, and saves one of them as own output. // if SDVariable exists for second input - we use it. First input used otherwise val inputs = getInputVariablesForFunction(differentialFunction); val frame_name = frames.size() > 0 ? frames.getLast() : null; if (frame_name != null) flowPath.activateFrame(frame_name, true); // frame_name can be null if this merge node is used for something that's not loop. i.e. switch/merge pair if (frame_name != null) flowPath.setRewindPositionOnce(frame_name, i - 1); // NextIteration can have NO frame_name defined. so let's propagate it if (inputs.length == 2) { val secondArg = functionInstancesById.get(inputs[1].getVarName()); if (secondArg != null && secondArg instanceof NextIteration) { ((NextIteration) secondArg).setFrameName(frame_name); } } // we must check second input first here if (flowPath.wasExecuted(inputs[1].getVarName())) { // propagate second input val array = inputs[1].getArr(); variableNameToArr.put(differentialFunction.getOwnName(), array.dup(array.ordering())); // nullify executed mark flowPath.markExecuted(inputs[1].getVarName(), false); } else { // propagate first input val array = inputs[0].getArr(); variableNameToArr.put(differentialFunction.getOwnName(), array.dup(array.ordering())); } flowPath.markExecuted(differentialFunction.getOwnName(), true); } else if (differentialFunction instanceof Switch) { // switch takes 2 inputs: actual input and boolean scalar. If scalar is false, input is saved as output:0, if scalar is true, input is saved as output:1 ((CustomOp) differentialFunction).populateInputsAndOutputsFromSameDiff(); val inputs = getInputVariablesForFunction(differentialFunction); val input = inputs[0].getArr(); val bool = inputs[1].getArr(); // basically we're setting one of the graph branches inactive. branch 0 for false, branch 1 for true if ((int) bool.getDouble(0) == 0) { // false step, we'll propagate output:0 here flowPath.setActiveBranch(differentialFunction.getOwnName(), 0); flowPath.markActive(differentialFunction.getOwnName(), true); flowPath.markActive(differentialFunction.getOwnName() + ":1", false); variableNameToArr.put(differentialFunction.getOwnName(), input.dup(input.ordering())); } else { // true step, we'll propagate output:1 here flowPath.setActiveBranch(differentialFunction.getOwnName(), 1); variableNameToArr.put(differentialFunction.getOwnName() + ":1", input.dup(input.ordering())); flowPath.markActive(differentialFunction.getOwnName(), false); flowPath.markActive(differentialFunction.getOwnName() + ":1", true); } flowPath.markExecuted(differentialFunction.getOwnName(), true); } else if (differentialFunction instanceof If) { If ifOp = (If) differentialFunction; if (!onBackward) { ifOp.getPredicateExecution().exec(); //depending on the block add the proper graph body to this for persistence //and possible later processing. if (ifOp.getTargetBoolean().getArr().sumNumber().doubleValue() > 0) { ifOp.getLoopBodyExecution().exec(); ifOp.exectedTrueOrFalse(true); } else { ifOp.getFalseBodyExecution().exec(); ifOp.exectedTrueOrFalse(false); } } else { if (ifOp.getTrueBodyExecuted() != null) { Pair<Map<SDVariable, DifferentialFunction>, List<DifferentialFunction>> execBackwards = null; List<SDVariable> variablesForFunctions = null; if (ifOp.getTrueBodyExecuted()) { execBackwards = ifOp.getLoopBodyExecution().execBackwards(); variablesForFunctions = ifOp.getLoopBodyExecution().getVariablesAssociatedWithFunctions(execBackwards.getRight()); } else { execBackwards = ifOp.getFalseBodyExecution().execBackwards(); variablesForFunctions = ifOp.getFalseBodyExecution().getVariablesAssociatedWithFunctions(execBackwards.getRight()); } /* * Maps the variables from the child namespace body to * the parent. This allows access to the underlying ndarray * and returning a valid variable reference for autodiff. / for (SDVariable variable : variablesForFunctions) { SDVariable proxyVar = var(variable); } } else throw new ND4JIllegalStateException("No body was run."); } flowPath.markExecuted(differentialFunction.getOwnName(), true); ops.add(differentialFunction); } else if (differentialFunction instanceof While) { While whileOp = (While) differentialFunction; if (!onBackward) { SameDiff execBody = whileOp.getLoopBodyExecution(); //depending on the block add the proper graph body to this for persistence //and possible later processing. //note that we need to update the graph predicate by running the execution whileOp.getPredicateExecution().exec(); while (whileOp.getTargetBoolean().getArr().sumNumber().doubleValue() > 0) { //run the body execBody.exec(); //update the predicate whileOp.getPredicateExecution().exec(); whileOp.incrementLoopCounter(); } List<SDVariable> outputs = new ArrayList<>(); val outputFuncArgs = new ArrayList<>(execBody.functionInstancesById.values()).get(execBody.functionInstancesById.values().size() - 1).outputVariables(); outputs.addAll(Arrays.asList(outputFuncArgs)); whileOp.setOutputVars(outputs.toArray(new SDVariable[outputs.size()])); ops.add(differentialFunction); } else { /* * Note: Need to accumulate gradients. * Multiply each value by the number of times looped. * This approximates accumulating the gradient * across a number of loop cycles. * We only compute the gradient for the internal loop once * and from that we multiply the gradient by 5. * / Pair<Map<SDVariable, DifferentialFunction>, List<DifferentialFunction>> mapListPair = whileOp.getLoopBodyExecution().execBackwards(); for (SDVariable variable : mapListPair.getFirst().keySet()) { variable.getArr().muli(whileOp.getNumLooped()); } } flowPath.markExecuted(differentialFunction.getOwnName(), true); } else if (differentialFunction instanceof CustomOp) { DynamicCustomOp customOp = (DynamicCustomOp) differentialFunction; customOp.populateInputsAndOutputsFromSameDiff(); customOp.assertValidForExecution(); customOp.updateInputsFromSameDiff(); Nd4j.getExecutioner().exec(customOp); / if (customOp instanceof LessThanOrEqual) { log.info("Step: {}; InnerCondition: {} <= {} = {}", exec_counter, customOp.getInputArgument(0), customOp.getInputArgument(1), customOp.getOutputArgument(0)); } else if (customOp instanceof LessThan) { log.info("Step: {}; OuterCondition: {} <= {} = {}", exec_counter, customOp.getInputArgument(0), customOp.getInputArgument(1), customOp.getOutputArgument(0)); } */ flowPath.markExecuted(differentialFunction.getOwnName(), true); ops.add(customOp); } else if (differentialFunction instanceof Op) { val inputs = getInputVariablesForFunction(differentialFunction); Op op = (Op) differentialFunction; // ops in differential function might have stale NDArrays used. we should renew them op.setX(inputs[0].getArr()); if (inputs.length == 2) op.setY(inputs[1].getArr()); if (differentialFunction.getDimensions() == null) Nd4j.getExecutioner().exec(op); else if (op.isExecSpecial()) { op.exec(); } else { int[] axes = differentialFunction.getDimensions(); if (differentialFunction instanceof Accumulation) { Accumulation accumulation = (Accumulation) differentialFunction; Nd4j.getExecutioner().exec(accumulation, axes); if (differentialFunction.outputVariables()[0].getArr() == null) { val var = differentialFunction.outputVariables()[0]; updateArrayForVarName(var.getVarName(), accumulation.z()); updateShapeForVarName(var.getVarName(), accumulation.z().shape()); } } else if (differentialFunction instanceof BroadcastOp) { BroadcastOp broadcastOp = (BroadcastOp) differentialFunction; Nd4j.getExecutioner().exec(broadcastOp, axes); } else if (differentialFunction instanceof GradientOp) { Nd4j.getExecutioner().exec(op); } else if (differentialFunction instanceof IndexAccumulation) { IndexAccumulation indexAccumulation = (IndexAccumulation) differentialFunction; Nd4j.getExecutioner().exec(indexAccumulation, axes); } else if (differentialFunction instanceof TransformOp) { TransformOp t = (TransformOp) differentialFunction; Nd4j.getExecutioner().exec(t, axes); } } flowPath.markExecuted(differentialFunction.getOwnName(), true); ops.add(differentialFunction); } //debug // printFunction(differentialFunction); } return new Pair<>(opMap, ops); }	class class_name[name] begin[{] method[exec, return_type[type[Pair]], modifier[public], parameter[]] begin[{] if[member[.resolvedVariables]] begin[{] call[.resolveVariablesWith, parameter[ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=INDArray, sub_type=None))], dimensions=None, name=LinkedHashMap, sub_type=None))]] else begin[{] None end[}] local_variable[type[List], ops] call[localFlowPath.set, parameter[ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=FlowPath, sub_type=None))]] local_variable[type[val], flowPath] local_variable[type[Map], opMap] local_variable[type[val], funcs] local_variable[type[boolean], onBackward] local_variable[type[val], frames] local_variable[type[boolean], inFrame] local_variable[type[boolean], frameLeft] local_variable[type[int], i] local_variable[type[int], exec_counter] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MemberReference(member=exec_counter, postfix_operators=[], prefix_operators=['++'], qualifier=, selectors=[]), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=get, postfix_operators=[], prefix_operators=[], qualifier=funcs, selectors=[MethodInvocation(arguments=[], member=opName, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), name=opName)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=val, sub_type=None)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=onBackward, postfix_operators=[], prefix_operators=['!'], qualifier=, selectors=[]), operandr=MethodInvocation(arguments=[ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MethodInvocation(arguments=[], member=opName, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type=ReferenceType(arguments=None, dimensions=None, name=GradientBackwardsMarker, sub_type=None))], member=equals, postfix_operators=[], prefix_operators=[], qualifier=opName, selectors=[], type_arguments=None), operator=&&), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=onBackward, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)), label=None)])), IfStatement(condition=MethodInvocation(arguments=[ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MethodInvocation(arguments=[], member=opName, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type=ReferenceType(arguments=None, dimensions=None, name=GradientBackwardsMarker, sub_type=None))], member=equals, postfix_operators=[], prefix_operators=[], qualifier=opName, selectors=[], type_arguments=None), else_statement=None, label=None, then_statement=ContinueStatement(goto=None, label=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=get, postfix_operators=[], prefix_operators=[], qualifier=funcs, selectors=[], type_arguments=None), name=differentialFunction)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=DifferentialFunction, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=getOwnName, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[], type_arguments=None), name=ownName)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=val, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getOwnName, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[], type_arguments=None)], member=ensureNodeStateExists, postfix_operators=[], prefix_operators=[], qualifier=flowPath, selectors=[], type_arguments=None), label=None), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=SDVariable, sub_type=None), operator=instanceof), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[ContinueStatement(goto=None, label=None)])), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getInputsForFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), name=args)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=val, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Step: {}; Executing op {} for node [{}]"), MemberReference(member=exec_counter, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=opName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=ownName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=debug, postfix_operators=[], prefix_operators=[], qualifier=log, selectors=[], type_arguments=None), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=false), name=shouldSkip)], modifiers=set(), type=BasicType(dimensions=[], name=boolean)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=Merge, sub_type=None), operator=instanceof), else_statement=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=Exit, sub_type=None), operator=instanceof), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[IfStatement(condition=MemberReference(member=frameLeft, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=frameLeft, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=false)), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=removeLast, postfix_operators=[], prefix_operators=[], qualifier=frames, selectors=[], type_arguments=None), name=frame_name)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=val, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=frame_name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=false)], member=activateFrame, postfix_operators=[], prefix_operators=[], qualifier=flowPath, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=frame_name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=forgetFrame, postfix_operators=[], prefix_operators=[], qualifier=flowPath, selectors=[], type_arguments=None), label=None)])), ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=MethodInvocation(arguments=[MemberReference(member=input, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=isActive, postfix_operators=[], prefix_operators=['!'], qualifier=flowPath, selectors=[], type_arguments=None), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getOwnName, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[], type_arguments=None), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=false)], member=markActive, postfix_operators=[], prefix_operators=[], qualifier=flowPath, selectors=[], type_arguments=None), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=shouldSkip, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)), label=None), BreakStatement(goto=None, label=None)]))]), control=EnhancedForControl(iterable=MemberReference(member=args, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=input)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=val, sub_type=None))), label=None)]))]), label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=args, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0))]), name=arg0)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=val, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=args, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1))]), name=arg1)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=val, sub_type=None)), IfStatement(condition=BinaryOperation(operandl=MethodInvocation(arguments=[MemberReference(member=arg0, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=isActive, postfix_operators=[], prefix_operators=['!'], qualifier=flowPath, selectors=[], type_arguments=None), operandr=MethodInvocation(arguments=[MemberReference(member=arg1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=isActive, postfix_operators=[], prefix_operators=['!'], qualifier=flowPath, selectors=[], type_arguments=None), operator=&&), else_statement=None, label=None, then_statement=StatementExpression(expression=Assignment(expressionl=MemberReference(member=shouldSkip, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)), label=None))])), IfStatement(condition=MemberReference(member=shouldSkip, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), else_statement=None, label=None, then_statement=ContinueStatement(goto=None, label=None)), StatementExpression(expression=MethodInvocation(arguments=[], member=resolvePropertiesFromSameDiffBeforeExecution, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getOwnName, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[], type_arguments=None), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)], member=markActive, postfix_operators=[], prefix_operators=[], qualifier=flowPath, selectors=[], type_arguments=None), label=None), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=LoopCond, sub_type=None), operator=instanceof), else_statement=IfStatement(condition=BinaryOperation(operandl=MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=Enter, sub_type=None), operator=instanceof), else_statement=IfStatement(condition=BinaryOperation(operandl=MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=Exit, sub_type=None), operator=instanceof), else_statement=IfStatement(condition=BinaryOperation(operandl=MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=NextIteration, sub_type=None), operator=instanceof), else_statement=IfStatement(condition=BinaryOperation(operandl=MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=Merge, sub_type=None), operator=instanceof), else_statement=IfStatement(condition=BinaryOperation(operandl=MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=Switch, sub_type=None), operator=instanceof), else_statement=IfStatement(condition=BinaryOperation(operandl=MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=If, sub_type=None), operator=instanceof), else_statement=IfStatement(condition=BinaryOperation(operandl=MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=While, sub_type=None), operator=instanceof), else_statement=IfStatement(condition=BinaryOperation(operandl=MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=CustomOp, sub_type=None), operator=instanceof), else_statement=IfStatement(condition=BinaryOperation(operandl=MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=Op, sub_type=None), operator=instanceof), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getInputVariablesForFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), name=inputs)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=val, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Cast(expression=MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=Op, sub_type=None)), name=op)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Op, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=inputs, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0)), MethodInvocation(arguments=[], member=getArr, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)])], member=setX, postfix_operators=[], prefix_operators=[], qualifier=op, selectors=[], type_arguments=None), label=None), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=length, postfix_operators=[], prefix_operators=[], qualifier=inputs, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2), operator===), else_statement=None, label=None, then_statement=StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=inputs, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1)), MethodInvocation(arguments=[], member=getArr, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)])], member=setY, postfix_operators=[], prefix_operators=[], qualifier=op, selectors=[], type_arguments=None), label=None)), IfStatement(condition=BinaryOperation(operandl=MethodInvocation(arguments=[], member=getDimensions, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[], type_arguments=None), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator===), else_statement=IfStatement(condition=MethodInvocation(arguments=[], member=isExecSpecial, postfix_operators=[], prefix_operators=[], qualifier=op, selectors=[], type_arguments=None), else_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=getDimensions, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[], type_arguments=None), name=axes)], modifiers=set(), type=BasicType(dimensions=[None], name=int)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=Accumulation, sub_type=None), operator=instanceof), else_statement=IfStatement(condition=BinaryOperation(operandl=MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=BroadcastOp, sub_type=None), operator=instanceof), else_statement=IfStatement(condition=BinaryOperation(operandl=MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=GradientOp, sub_type=None), operator=instanceof), else_statement=IfStatement(condition=BinaryOperation(operandl=MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=IndexAccumulation, sub_type=None), operator=instanceof), else_statement=IfStatement(condition=BinaryOperation(operandl=MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=TransformOp, sub_type=None), operator=instanceof), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Cast(expression=MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=TransformOp, sub_type=None)), name=t)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=TransformOp, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[], member=getExecutioner, postfix_operators=[], prefix_operators=[], qualifier=Nd4j, selectors=[MethodInvocation(arguments=[MemberReference(member=t, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=axes, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=exec, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), label=None)])), label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Cast(expression=MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=IndexAccumulation, sub_type=None)), name=indexAccumulation)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=IndexAccumulation, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[], member=getExecutioner, postfix_operators=[], prefix_operators=[], qualifier=Nd4j, selectors=[MethodInvocation(arguments=[MemberReference(member=indexAccumulation, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=axes, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=exec, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), label=None)])), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[], member=getExecutioner, postfix_operators=[], prefix_operators=[], qualifier=Nd4j, selectors=[MethodInvocation(arguments=[MemberReference(member=op, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=exec, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), label=None)])), label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Cast(expression=MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=BroadcastOp, sub_type=None)), name=broadcastOp)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=BroadcastOp, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[], member=getExecutioner, postfix_operators=[], prefix_operators=[], qualifier=Nd4j, selectors=[MethodInvocation(arguments=[MemberReference(member=broadcastOp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=axes, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=exec, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), label=None)])), label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Cast(expression=MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=Accumulation, sub_type=None)), name=accumulation)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Accumulation, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[], member=getExecutioner, postfix_operators=[], prefix_operators=[], qualifier=Nd4j, selectors=[MethodInvocation(arguments=[MemberReference(member=accumulation, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=axes, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=exec, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), label=None), IfStatement(condition=BinaryOperation(operandl=MethodInvocation(arguments=[], member=outputVariables, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0)), MethodInvocation(arguments=[], member=getArr, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator===), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=outputVariables, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0))], type_arguments=None), name=var)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=val, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getVarName, postfix_operators=[], prefix_operators=[], qualifier=var, selectors=[], type_arguments=None), MethodInvocation(arguments=[], member=z, postfix_operators=[], prefix_operators=[], qualifier=accumulation, selectors=[], type_arguments=None)], member=updateArrayForVarName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getVarName, postfix_operators=[], prefix_operators=[], qualifier=var, selectors=[], type_arguments=None), MethodInvocation(arguments=[], member=z, postfix_operators=[], prefix_operators=[], qualifier=accumulation, selectors=[MethodInvocation(arguments=[], member=shape, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None)], member=updateShapeForVarName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)]))]))]), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[], member=exec, postfix_operators=[], prefix_operators=[], qualifier=op, selectors=[], type_arguments=None), label=None)])), label=None, then_statement=StatementExpression(expression=MethodInvocation(arguments=[], member=getExecutioner, postfix_operators=[], prefix_operators=[], qualifier=Nd4j, selectors=[MethodInvocation(arguments=[MemberReference(member=op, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=exec, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), label=None)), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getOwnName, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[], type_arguments=None), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)], member=markExecuted, postfix_operators=[], prefix_operators=[], qualifier=flowPath, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=add, postfix_operators=[], prefix_operators=[], qualifier=ops, selectors=[], type_arguments=None), label=None)])), label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Cast(expression=MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=DynamicCustomOp, sub_type=None)), name=customOp)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=DynamicCustomOp, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[], member=populateInputsAndOutputsFromSameDiff, postfix_operators=[], prefix_operators=[], qualifier=customOp, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[], member=assertValidForExecution, postfix_operators=[], prefix_operators=[], qualifier=customOp, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[], member=updateInputsFromSameDiff, postfix_operators=[], prefix_operators=[], qualifier=customOp, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[], member=getExecutioner, postfix_operators=[], prefix_operators=[], qualifier=Nd4j, selectors=[MethodInvocation(arguments=[MemberReference(member=customOp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=exec, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getOwnName, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[], type_arguments=None), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)], member=markExecuted, postfix_operators=[], prefix_operators=[], qualifier=flowPath, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=customOp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=add, postfix_operators=[], prefix_operators=[], qualifier=ops, selectors=[], type_arguments=None), label=None)])), label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Cast(expression=MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=While, sub_type=None)), name=whileOp)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=While, sub_type=None)), IfStatement(condition=MemberReference(member=onBackward, postfix_operators=[], prefix_operators=['!'], qualifier=, selectors=[]), else_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=getLoopBodyExecution, postfix_operators=[], prefix_operators=[], qualifier=whileOp, selectors=[MethodInvocation(arguments=[], member=execBackwards, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), name=mapListPair)], modifiers=set(), type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=SDVariable, sub_type=None)), TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=DifferentialFunction, sub_type=None))], dimensions=[], name=Map, sub_type=None)), TypeArgument(pattern_type=None, type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=DifferentialFunction, sub_type=None))], dimensions=[], name=List, sub_type=None))], dimensions=[], name=Pair, sub_type=None)), ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[], member=getArr, postfix_operators=[], prefix_operators=[], qualifier=variable, selectors=[MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getNumLooped, postfix_operators=[], prefix_operators=[], qualifier=whileOp, selectors=[], type_arguments=None)], member=muli, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MethodInvocation(arguments=[], member=getFirst, postfix_operators=[], prefix_operators=[], qualifier=mapListPair, selectors=[MethodInvocation(arguments=[], member=keySet, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=variable)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=SDVariable, sub_type=None))), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=getLoopBodyExecution, postfix_operators=[], prefix_operators=[], qualifier=whileOp, selectors=[], type_arguments=None), name=execBody)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=SameDiff, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[], member=getPredicateExecution, postfix_operators=[], prefix_operators=[], qualifier=whileOp, selectors=[MethodInvocation(arguments=[], member=exec, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), label=None), WhileStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[], member=exec, postfix_operators=[], prefix_operators=[], qualifier=execBody, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[], member=getPredicateExecution, postfix_operators=[], prefix_operators=[], qualifier=whileOp, selectors=[MethodInvocation(arguments=[], member=exec, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[], member=incrementLoopCounter, postfix_operators=[], prefix_operators=[], qualifier=whileOp, selectors=[], type_arguments=None), label=None)]), condition=BinaryOperation(operandl=MethodInvocation(arguments=[], member=getTargetBoolean, postfix_operators=[], prefix_operators=[], qualifier=whileOp, selectors=[MethodInvocation(arguments=[], member=getArr, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[], member=sumNumber, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[], member=doubleValue, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), operator=>), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=[], dimensions=None, name=ArrayList, sub_type=None)), name=outputs)], modifiers=set(), type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=SDVariable, sub_type=None))], dimensions=[], name=List, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[MethodInvocation(arguments=[], member=values, postfix_operators=[], prefix_operators=[], qualifier=execBody.functionInstancesById, selectors=[], type_arguments=None)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MethodInvocation(arguments=[BinaryOperation(operandl=MethodInvocation(arguments=[], member=values, postfix_operators=[], prefix_operators=[], qualifier=execBody.functionInstancesById, selectors=[MethodInvocation(arguments=[], member=size, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=-)], member=get, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[], member=outputVariables, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type=ReferenceType(arguments=[], dimensions=None, name=ArrayList, sub_type=None)), name=outputFuncArgs)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=val, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[MemberReference(member=outputFuncArgs, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=asList, postfix_operators=[], prefix_operators=[], qualifier=Arrays, selectors=[], type_arguments=None)], member=addAll, postfix_operators=[], prefix_operators=[], qualifier=outputs, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[ArrayCreator(dimensions=[MethodInvocation(arguments=[], member=size, postfix_operators=[], prefix_operators=[], qualifier=outputs, selectors=[], type_arguments=None)], initializer=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=SDVariable, sub_type=None))], member=toArray, postfix_operators=[], prefix_operators=[], qualifier=outputs, selectors=[], type_arguments=None)], member=setOutputVars, postfix_operators=[], prefix_operators=[], qualifier=whileOp, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=add, postfix_operators=[], prefix_operators=[], qualifier=ops, selectors=[], type_arguments=None), label=None)])), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getOwnName, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[], type_arguments=None), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)], member=markExecuted, postfix_operators=[], prefix_operators=[], qualifier=flowPath, selectors=[], type_arguments=None), label=None)])), label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Cast(expression=MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=If, sub_type=None)), name=ifOp)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=If, sub_type=None)), IfStatement(condition=MemberReference(member=onBackward, postfix_operators=[], prefix_operators=['!'], qualifier=, selectors=[]), else_statement=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=MethodInvocation(arguments=[], member=getTrueBodyExecuted, postfix_operators=[], prefix_operators=[], qualifier=ifOp, selectors=[], type_arguments=None), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator=!=), else_statement=ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="No body was run.")], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=ND4JIllegalStateException, sub_type=None)), label=None), label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), name=execBackwards)], modifiers=set(), type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=SDVariable, sub_type=None)), TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=DifferentialFunction, sub_type=None))], dimensions=[], name=Map, sub_type=None)), TypeArgument(pattern_type=None, type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=DifferentialFunction, sub_type=None))], dimensions=[], name=List, sub_type=None))], dimensions=[], name=Pair, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), name=variablesForFunctions)], modifiers=set(), type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=SDVariable, sub_type=None))], dimensions=[], name=List, sub_type=None)), IfStatement(condition=MethodInvocation(arguments=[], member=getTrueBodyExecuted, postfix_operators=[], prefix_operators=[], qualifier=ifOp, selectors=[], type_arguments=None), else_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=execBackwards, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=getFalseBodyExecution, postfix_operators=[], prefix_operators=[], qualifier=ifOp, selectors=[MethodInvocation(arguments=[], member=execBackwards, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=variablesForFunctions, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=getFalseBodyExecution, postfix_operators=[], prefix_operators=[], qualifier=ifOp, selectors=[MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getRight, postfix_operators=[], prefix_operators=[], qualifier=execBackwards, selectors=[], type_arguments=None)], member=getVariablesAssociatedWithFunctions, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None)), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=execBackwards, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=getLoopBodyExecution, postfix_operators=[], prefix_operators=[], qualifier=ifOp, selectors=[MethodInvocation(arguments=[], member=execBackwards, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=variablesForFunctions, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=getLoopBodyExecution, postfix_operators=[], prefix_operators=[], qualifier=ifOp, selectors=[MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getRight, postfix_operators=[], prefix_operators=[], qualifier=execBackwards, selectors=[], type_arguments=None)], member=getVariablesAssociatedWithFunctions, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None)), label=None)])), ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=variable, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=var, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), name=proxyVar)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=SDVariable, sub_type=None))]), control=EnhancedForControl(iterable=MemberReference(member=variablesForFunctions, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=variable)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=SDVariable, sub_type=None))), label=None)]))]), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[], member=getPredicateExecution, postfix_operators=[], prefix_operators=[], qualifier=ifOp, selectors=[MethodInvocation(arguments=[], member=exec, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), label=None), IfStatement(condition=BinaryOperation(operandl=MethodInvocation(arguments=[], member=getTargetBoolean, postfix_operators=[], prefix_operators=[], qualifier=ifOp, selectors=[MethodInvocation(arguments=[], member=getArr, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[], member=sumNumber, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[], member=doubleValue, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), operator=>), else_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[], member=getFalseBodyExecution, postfix_operators=[], prefix_operators=[], qualifier=ifOp, selectors=[MethodInvocation(arguments=[], member=exec, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=false)], member=exectedTrueOrFalse, postfix_operators=[], prefix_operators=[], qualifier=ifOp, selectors=[], type_arguments=None), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[], member=getLoopBodyExecution, postfix_operators=[], prefix_operators=[], qualifier=ifOp, selectors=[MethodInvocation(arguments=[], member=exec, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)], member=exectedTrueOrFalse, postfix_operators=[], prefix_operators=[], qualifier=ifOp, selectors=[], type_arguments=None), label=None)]))])), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getOwnName, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[], type_arguments=None), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)], member=markExecuted, postfix_operators=[], prefix_operators=[], qualifier=flowPath, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=add, postfix_operators=[], prefix_operators=[], qualifier=ops, selectors=[], type_arguments=None), label=None)])), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Cast(expression=MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=CustomOp, sub_type=None)), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getInputVariablesForFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), name=inputs)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=val, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=inputs, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0)), MethodInvocation(arguments=[], member=getArr, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), name=input)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=val, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=inputs, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1)), MethodInvocation(arguments=[], member=getArr, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), name=bool)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=val, sub_type=None)), IfStatement(condition=BinaryOperation(operandl=Cast(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0)], member=getDouble, postfix_operators=[], prefix_operators=[], qualifier=bool, selectors=[], type_arguments=None), type=BasicType(dimensions=[], name=int)), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), operator===), else_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getOwnName, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[], type_arguments=None), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1)], member=setActiveBranch, postfix_operators=[], prefix_operators=[], qualifier=flowPath, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[BinaryOperation(operandl=MethodInvocation(arguments=[], member=getOwnName, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[], type_arguments=None), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=":1"), operator=+), MethodInvocation(arguments=[MethodInvocation(arguments=[], member=ordering, postfix_operators=[], prefix_operators=[], qualifier=input, selectors=[], type_arguments=None)], member=dup, postfix_operators=[], prefix_operators=[], qualifier=input, selectors=[], type_arguments=None)], member=put, postfix_operators=[], prefix_operators=[], qualifier=variableNameToArr, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getOwnName, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[], type_arguments=None), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=false)], member=markActive, postfix_operators=[], prefix_operators=[], qualifier=flowPath, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[BinaryOperation(operandl=MethodInvocation(arguments=[], member=getOwnName, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[], type_arguments=None), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=":1"), operator=+), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)], member=markActive, postfix_operators=[], prefix_operators=[], qualifier=flowPath, selectors=[], type_arguments=None), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getOwnName, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[], type_arguments=None), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0)], member=setActiveBranch, postfix_operators=[], prefix_operators=[], qualifier=flowPath, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getOwnName, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[], type_arguments=None), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)], member=markActive, postfix_operators=[], prefix_operators=[], qualifier=flowPath, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[BinaryOperation(operandl=MethodInvocation(arguments=[], member=getOwnName, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[], type_arguments=None), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=":1"), operator=+), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=false)], member=markActive, postfix_operators=[], prefix_operators=[], qualifier=flowPath, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getOwnName, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[], type_arguments=None), MethodInvocation(arguments=[MethodInvocation(arguments=[], member=ordering, postfix_operators=[], prefix_operators=[], qualifier=input, selectors=[], type_arguments=None)], member=dup, postfix_operators=[], prefix_operators=[], qualifier=input, selectors=[], type_arguments=None)], member=put, postfix_operators=[], prefix_operators=[], qualifier=variableNameToArr, selectors=[], type_arguments=None), label=None)])), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getOwnName, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[], type_arguments=None), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)], member=markExecuted, postfix_operators=[], prefix_operators=[], qualifier=flowPath, selectors=[], type_arguments=None), label=None)])), label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getInputVariablesForFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), name=inputs)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=val, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=TernaryExpression(condition=BinaryOperation(operandl=MethodInvocation(arguments=[], member=size, postfix_operators=[], prefix_operators=[], qualifier=frames, selectors=[], type_arguments=None), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), operator=>), if_false=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), if_true=MethodInvocation(arguments=[], member=getLast, postfix_operators=[], prefix_operators=[], qualifier=frames, selectors=[], type_arguments=None)), name=frame_name)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=val, sub_type=None)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=frame_name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator=!=), else_statement=None, label=None, then_statement=StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=frame_name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)], member=activateFrame, postfix_operators=[], prefix_operators=[], qualifier=flowPath, selectors=[], type_arguments=None), label=None)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=frame_name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator=!=), else_statement=None, label=None, then_statement=StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=frame_name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=-)], member=setRewindPositionOnce, postfix_operators=[], prefix_operators=[], qualifier=flowPath, selectors=[], type_arguments=None), label=None)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=length, postfix_operators=[], prefix_operators=[], qualifier=inputs, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2), operator===), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=inputs, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1)), MethodInvocation(arguments=[], member=getVarName, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)])], member=get, postfix_operators=[], prefix_operators=[], qualifier=functionInstancesById, selectors=[], type_arguments=None), name=secondArg)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=val, sub_type=None)), IfStatement(condition=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=secondArg, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator=!=), operandr=BinaryOperation(operandl=MemberReference(member=secondArg, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=NextIteration, sub_type=None), operator=instanceof), operator=&&), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Cast(expression=MemberReference(member=secondArg, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=NextIteration, sub_type=None)), label=None)]))])), IfStatement(condition=MethodInvocation(arguments=[MemberReference(member=inputs, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1)), MethodInvocation(arguments=[], member=getVarName, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)])], member=wasExecuted, postfix_operators=[], prefix_operators=[], qualifier=flowPath, selectors=[], type_arguments=None), else_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=inputs, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0)), MethodInvocation(arguments=[], member=getArr, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), name=array)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=val, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getOwnName, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[], type_arguments=None), MethodInvocation(arguments=[MethodInvocation(arguments=[], member=ordering, postfix_operators=[], prefix_operators=[], qualifier=array, selectors=[], type_arguments=None)], member=dup, postfix_operators=[], prefix_operators=[], qualifier=array, selectors=[], type_arguments=None)], member=put, postfix_operators=[], prefix_operators=[], qualifier=variableNameToArr, selectors=[], type_arguments=None), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=inputs, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1)), MethodInvocation(arguments=[], member=getArr, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), name=array)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=val, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getOwnName, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[], type_arguments=None), MethodInvocation(arguments=[MethodInvocation(arguments=[], member=ordering, postfix_operators=[], prefix_operators=[], qualifier=array, selectors=[], type_arguments=None)], member=dup, postfix_operators=[], prefix_operators=[], qualifier=array, selectors=[], type_arguments=None)], member=put, postfix_operators=[], prefix_operators=[], qualifier=variableNameToArr, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=inputs, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1)), MethodInvocation(arguments=[], member=getVarName, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=false)], member=markExecuted, postfix_operators=[], prefix_operators=[], qualifier=flowPath, selectors=[], type_arguments=None), label=None)])), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getOwnName, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[], type_arguments=None), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)], member=markExecuted, postfix_operators=[], prefix_operators=[], qualifier=flowPath, selectors=[], type_arguments=None), label=None)])), label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getInputVariablesForFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), name=inputs)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=val, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=getLast, postfix_operators=[], prefix_operators=[], qualifier=frames, selectors=[], type_arguments=None), name=frame_name)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=val, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=inputs, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0)), MethodInvocation(arguments=[], member=getArr, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), name=array)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=val, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getOwnName, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[], type_arguments=None), MethodInvocation(arguments=[MethodInvocation(arguments=[], member=ordering, postfix_operators=[], prefix_operators=[], qualifier=array, selectors=[], type_arguments=None)], member=dup, postfix_operators=[], prefix_operators=[], qualifier=array, selectors=[], type_arguments=None)], member=put, postfix_operators=[], prefix_operators=[], qualifier=variableNameToArr, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getOwnName, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[], type_arguments=None), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)], member=markExecuted, postfix_operators=[], prefix_operators=[], qualifier=flowPath, selectors=[], type_arguments=None), label=None), IfStatement(condition=MethodInvocation(arguments=[MemberReference(member=frame_name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=isRewindPlanned, postfix_operators=[], prefix_operators=['!'], qualifier=flowPath, selectors=[], type_arguments=None), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=frame_name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)], member=planRewind, postfix_operators=[], prefix_operators=[], qualifier=flowPath, selectors=[], type_arguments=None), label=None), ContinueStatement(goto=None, label=None)]))])), label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=getLast, postfix_operators=[], prefix_operators=[], qualifier=frames, selectors=[], type_arguments=None), name=frame_name)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=val, sub_type=None)), StatementExpression(expression=Cast(expression=MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=Exit, sub_type=None)), label=None), IfStatement(condition=MethodInvocation(arguments=[MemberReference(member=frame_name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=isFrameActive, postfix_operators=[], prefix_operators=['!'], qualifier=flowPath, selectors=[], type_arguments=None), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getOwnName, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[], type_arguments=None), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=false)], member=markActive, postfix_operators=[], prefix_operators=[], qualifier=flowPath, selectors=[], type_arguments=None), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=frameLeft, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)), label=None), ContinueStatement(goto=None, label=None)])), IfStatement(condition=MethodInvocation(arguments=[MemberReference(member=frame_name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=isRewindPlanned, postfix_operators=[], prefix_operators=[], qualifier=flowPath, selectors=[], type_arguments=None), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=frame_name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=false)], member=planRewind, postfix_operators=[], prefix_operators=[], qualifier=flowPath, selectors=[], type_arguments=None), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), name=currentPosition)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=val, sub_type=None)), StatementExpression(expression=Assignment(expressionl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[MemberReference(member=frame_name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getRewindPosition, postfix_operators=[], prefix_operators=[], qualifier=flowPath, selectors=[], type_arguments=None)), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=+), name=startPosition)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=val, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=frame_name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=['-'], qualifier=None, selectors=[], value=1)], member=setRewindPosition, postfix_operators=[], prefix_operators=[], qualifier=flowPath, selectors=[], type_arguments=None), label=None), ContinueStatement(goto=None, label=None)])), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getInputVariablesForFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), name=inputs)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=val, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=inputs, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0)), MethodInvocation(arguments=[], member=getArr, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), name=array)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=val, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getOwnName, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[], type_arguments=None), MethodInvocation(arguments=[MethodInvocation(arguments=[], member=ordering, postfix_operators=[], prefix_operators=[], qualifier=array, selectors=[], type_arguments=None)], member=dup, postfix_operators=[], prefix_operators=[], qualifier=array, selectors=[], type_arguments=None)], member=put, postfix_operators=[], prefix_operators=[], qualifier=variableNameToArr, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getOwnName, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[], type_arguments=None), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)], member=markExecuted, postfix_operators=[], prefix_operators=[], qualifier=flowPath, selectors=[], type_arguments=None), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=frameLeft, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)), label=None)])), label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getInputVariablesForFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), name=inputs)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=val, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=inputs, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0)), MethodInvocation(arguments=[], member=getArr, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), name=array)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=val, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getOwnName, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[], type_arguments=None), MethodInvocation(arguments=[MethodInvocation(arguments=[], member=ordering, postfix_operators=[], prefix_operators=[], qualifier=array, selectors=[], type_arguments=None)], member=dup, postfix_operators=[], prefix_operators=[], qualifier=array, selectors=[], type_arguments=None)], member=put, postfix_operators=[], prefix_operators=[], qualifier=variableNameToArr, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getOwnName, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[], type_arguments=None), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)], member=markExecuted, postfix_operators=[], prefix_operators=[], qualifier=flowPath, selectors=[], type_arguments=None), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Cast(expression=MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=Enter, sub_type=None)), name=frame_name)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=val, sub_type=None)), IfStatement(condition=MethodInvocation(arguments=[MemberReference(member=frame_name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=isRegisteredFrame, postfix_operators=[], prefix_operators=['!'], qualifier=flowPath, selectors=[], type_arguments=None), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=frame_name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=registerFrame, postfix_operators=[], prefix_operators=[], qualifier=flowPath, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=frame_name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=addLast, postfix_operators=[], prefix_operators=[], qualifier=frames, selectors=[], type_arguments=None), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=inFrame, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)), label=None)]))])), label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=differentialFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getInputVariablesForFunction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), name=inputs)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=val, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=inputs, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0)), MethodInvocation(arguments=[], member=getArr, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), name=array)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=val, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getOwnName, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[], type_arguments=None), MethodInvocation(arguments=[MethodInvocation(arguments=[], member=ordering, postfix_operators=[], prefix_operators=[], qualifier=array, selectors=[], type_arguments=None)], member=dup, postfix_operators=[], prefix_operators=[], qualifier=array, selectors=[], type_arguments=None)], member=put, postfix_operators=[], prefix_operators=[], qualifier=variableNameToArr, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getOwnName, postfix_operators=[], prefix_operators=[], qualifier=differentialFunction, selectors=[], type_arguments=None), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)], member=markExecuted, postfix_operators=[], prefix_operators=[], qualifier=flowPath, selectors=[], type_arguments=None), label=None), IfStatement(condition=BinaryOperation(operandl=Cast(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0)], member=getDouble, postfix_operators=[], prefix_operators=[], qualifier=array, selectors=[], type_arguments=None), type=BasicType(dimensions=[], name=int)), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator===), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=getLast, postfix_operators=[], prefix_operators=[], qualifier=frames, selectors=[], type_arguments=None), name=frameName)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=val, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=frameName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=incrementNumberOfCycles, postfix_operators=[], prefix_operators=[], qualifier=flowPath, selectors=[], type_arguments=None), label=None)]))]))]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MethodInvocation(arguments=[], member=size, postfix_operators=[], prefix_operators=[], qualifier=funcs, selectors=[], type_arguments=None), operator=<), init=None, update=[MemberReference(member=i, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None) return[ClassCreator(arguments=[MemberReference(member=opMap, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=ops, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=[], dimensions=None, name=Pair, sub_type=None))] end[}] END[}]	Keyword[public] identifier[Pair] operator[<] identifier[Map] operator[<] identifier[SDVariable] , identifier[DifferentialFunction] operator[>] , identifier[List] operator[<] identifier[DifferentialFunction] operator[>] operator[>] identifier[exec] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] operator[!] identifier[resolvedVariables] operator[SEP] identifier[resolveVariablesWith] operator[SEP] Keyword[new] identifier[LinkedHashMap] operator[<] identifier[String] , identifier[INDArray] operator[>] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[List] operator[<] identifier[DifferentialFunction] operator[>] identifier[ops] operator[=] Keyword[new] identifier[ArrayList] operator[<] operator[>] operator[SEP] operator[SEP] operator[SEP] identifier[localFlowPath] operator[SEP] identifier[set] operator[SEP] Keyword[new] identifier[FlowPath] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[val] identifier[flowPath] operator[=] identifier[localFlowPath] operator[SEP] identifier[get] operator[SEP] operator[SEP] operator[SEP] identifier[Map] operator[<] identifier[SDVariable] , identifier[DifferentialFunction] operator[>] identifier[opMap] operator[=] Keyword[new] identifier[HashMap] operator[<] operator[>] operator[SEP] operator[SEP] operator[SEP] identifier[val] identifier[funcs] operator[=] Keyword[new] identifier[ArrayList] operator[<] identifier[DifferentialFunction] operator[>] operator[SEP] identifier[functionInstancesById] operator[SEP] identifier[values] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[boolean] identifier[onBackward] operator[=] literal[boolean] operator[SEP] identifier[val] identifier[frames] operator[=] Keyword[new] identifier[ArrayDeque] operator[<] identifier[String] operator[>] operator[SEP] operator[SEP] operator[SEP] Keyword[boolean] identifier[inFrame] operator[=] literal[boolean] operator[SEP] Keyword[boolean] identifier[frameLeft] operator[=] literal[boolean] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] Keyword[int] identifier[exec_counter] operator[=] Other[0] operator[SEP] Keyword[for] operator[SEP] operator[SEP] identifier[i] operator[<] identifier[funcs] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] identifier[i] operator[++] operator[SEP] { operator[++] identifier[exec_counter] operator[SEP] identifier[val] identifier[opName] operator[=] identifier[funcs] operator[SEP] identifier[get] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[opName] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[onBackward] operator[&&] identifier[opName] operator[SEP] identifier[equals] operator[SEP] Keyword[new] identifier[GradientBackwardsMarker] operator[SEP] operator[SEP] operator[SEP] identifier[opName] operator[SEP] operator[SEP] operator[SEP] operator[SEP] { identifier[onBackward] operator[=] literal[boolean] operator[SEP] } Keyword[if] operator[SEP] identifier[opName] operator[SEP] identifier[equals] operator[SEP] Keyword[new] identifier[GradientBackwardsMarker] operator[SEP] operator[SEP] operator[SEP] identifier[opName] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[continue] operator[SEP] identifier[DifferentialFunction] identifier[differentialFunction] operator[=] identifier[funcs] operator[SEP] identifier[get] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[val] identifier[ownName] operator[=] identifier[differentialFunction] operator[SEP] identifier[getOwnName] operator[SEP] operator[SEP] operator[SEP] identifier[flowPath] operator[SEP] identifier[ensureNodeStateExists] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[getOwnName] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[differentialFunction] Keyword[instanceof] identifier[SDVariable] operator[SEP] { Keyword[continue] operator[SEP] } identifier[val] identifier[args] operator[=] identifier[getInputsForFunction] operator[SEP] identifier[differentialFunction] operator[SEP] operator[SEP] identifier[log] operator[SEP] identifier[debug] operator[SEP] literal[String] , identifier[exec_counter] , identifier[opName] , identifier[ownName] operator[SEP] operator[SEP] Keyword[boolean] identifier[shouldSkip] operator[=] literal[boolean] operator[SEP] Keyword[if] operator[SEP] identifier[differentialFunction] Keyword[instanceof] identifier[Merge] operator[SEP] { identifier[val] identifier[arg0] operator[=] identifier[args] operator[SEP] Other[0] operator[SEP] operator[SEP] identifier[val] identifier[arg1] operator[=] identifier[args] operator[SEP] Other[1] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[flowPath] operator[SEP] identifier[isActive] operator[SEP] identifier[arg0] operator[SEP] operator[&&] operator[!] identifier[flowPath] operator[SEP] identifier[isActive] operator[SEP] identifier[arg1] operator[SEP] operator[SEP] identifier[shouldSkip] operator[=] literal[boolean] operator[SEP] } Keyword[else] { Keyword[if] operator[SEP] operator[!] operator[SEP] identifier[differentialFunction] Keyword[instanceof] identifier[Exit] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] identifier[frameLeft] operator[SEP] { identifier[frameLeft] operator[=] literal[boolean] operator[SEP] identifier[val] identifier[frame_name] operator[=] identifier[frames] operator[SEP] identifier[removeLast] operator[SEP] operator[SEP] operator[SEP] identifier[flowPath] operator[SEP] identifier[activateFrame] operator[SEP] identifier[frame_name] , literal[boolean] operator[SEP] operator[SEP] identifier[flowPath] operator[SEP] identifier[forgetFrame] operator[SEP] identifier[frame_name] operator[SEP] operator[SEP] } Keyword[for] operator[SEP] identifier[val] identifier[input] operator[:] identifier[args] operator[SEP] { Keyword[if] operator[SEP] operator[!] identifier[flowPath] operator[SEP] identifier[isActive] operator[SEP] identifier[input] operator[SEP] operator[SEP] { identifier[flowPath] operator[SEP] identifier[markActive] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[getOwnName] operator[SEP] operator[SEP] , literal[boolean] operator[SEP] operator[SEP] identifier[shouldSkip] operator[=] literal[boolean] operator[SEP] Keyword[break] operator[SEP] } } } } Keyword[if] operator[SEP] identifier[shouldSkip] operator[SEP] Keyword[continue] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[resolvePropertiesFromSameDiffBeforeExecution] operator[SEP] operator[SEP] operator[SEP] identifier[flowPath] operator[SEP] identifier[markActive] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[getOwnName] operator[SEP] operator[SEP] , literal[boolean] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[differentialFunction] Keyword[instanceof] identifier[LoopCond] operator[SEP] { identifier[val] identifier[inputs] operator[=] identifier[getInputVariablesForFunction] operator[SEP] identifier[differentialFunction] operator[SEP] operator[SEP] identifier[val] identifier[array] operator[=] identifier[inputs] operator[SEP] Other[0] operator[SEP] operator[SEP] identifier[getArr] operator[SEP] operator[SEP] operator[SEP] identifier[variableNameToArr] operator[SEP] identifier[put] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[getOwnName] operator[SEP] operator[SEP] , identifier[array] operator[SEP] identifier[dup] operator[SEP] identifier[array] operator[SEP] identifier[ordering] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[flowPath] operator[SEP] identifier[markExecuted] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[getOwnName] operator[SEP] operator[SEP] , literal[boolean] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[SEP] Keyword[int] operator[SEP] identifier[array] operator[SEP] identifier[getDouble] operator[SEP] Other[0] operator[SEP] operator[==] Other[1] operator[SEP] { identifier[val] identifier[frameName] operator[=] identifier[frames] operator[SEP] identifier[getLast] operator[SEP] operator[SEP] operator[SEP] identifier[flowPath] operator[SEP] identifier[incrementNumberOfCycles] operator[SEP] identifier[frameName] operator[SEP] operator[SEP] } } Keyword[else] Keyword[if] operator[SEP] identifier[differentialFunction] Keyword[instanceof] identifier[Enter] operator[SEP] { identifier[val] identifier[inputs] operator[=] identifier[getInputVariablesForFunction] operator[SEP] identifier[differentialFunction] operator[SEP] operator[SEP] identifier[val] identifier[array] operator[=] identifier[inputs] operator[SEP] Other[0] operator[SEP] operator[SEP] identifier[getArr] operator[SEP] operator[SEP] operator[SEP] identifier[variableNameToArr] operator[SEP] identifier[put] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[getOwnName] operator[SEP] operator[SEP] , identifier[array] operator[SEP] identifier[dup] operator[SEP] identifier[array] operator[SEP] identifier[ordering] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[flowPath] operator[SEP] identifier[markExecuted] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[getOwnName] operator[SEP] operator[SEP] , literal[boolean] operator[SEP] operator[SEP] identifier[val] identifier[frame_name] operator[=] operator[SEP] operator[SEP] identifier[Enter] operator[SEP] identifier[differentialFunction] operator[SEP] operator[SEP] identifier[getFrameName] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[flowPath] operator[SEP] identifier[isRegisteredFrame] operator[SEP] identifier[frame_name] operator[SEP] operator[SEP] { identifier[flowPath] operator[SEP] identifier[registerFrame] operator[SEP] identifier[frame_name] operator[SEP] operator[SEP] identifier[frames] operator[SEP] identifier[addLast] operator[SEP] identifier[frame_name] operator[SEP] operator[SEP] identifier[inFrame] operator[=] literal[boolean] operator[SEP] } } Keyword[else] Keyword[if] operator[SEP] identifier[differentialFunction] Keyword[instanceof] identifier[Exit] operator[SEP] { identifier[val] identifier[frame_name] operator[=] identifier[frames] operator[SEP] identifier[getLast] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[Exit] operator[SEP] identifier[differentialFunction] operator[SEP] operator[SEP] identifier[setFrameName] operator[SEP] identifier[frame_name] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[flowPath] operator[SEP] identifier[isFrameActive] operator[SEP] identifier[frame_name] operator[SEP] operator[SEP] { identifier[flowPath] operator[SEP] identifier[markActive] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[getOwnName] operator[SEP] operator[SEP] , literal[boolean] operator[SEP] operator[SEP] identifier[frameLeft] operator[=] literal[boolean] operator[SEP] Keyword[continue] operator[SEP] } Keyword[if] operator[SEP] identifier[flowPath] operator[SEP] identifier[isRewindPlanned] operator[SEP] identifier[frame_name] operator[SEP] operator[SEP] { identifier[flowPath] operator[SEP] identifier[planRewind] operator[SEP] identifier[frame_name] , literal[boolean] operator[SEP] operator[SEP] identifier[val] identifier[currentPosition] operator[=] identifier[i] operator[SEP] identifier[i] operator[=] identifier[flowPath] operator[SEP] identifier[getRewindPosition] operator[SEP] identifier[frame_name] operator[SEP] operator[SEP] identifier[val] identifier[startPosition] operator[=] identifier[i] operator[+] Other[1] operator[SEP] identifier[flowPath] operator[SEP] identifier[setRewindPosition] operator[SEP] identifier[frame_name] , operator[-] Other[1] operator[SEP] operator[SEP] Keyword[continue] operator[SEP] } identifier[val] identifier[inputs] operator[=] identifier[getInputVariablesForFunction] operator[SEP] identifier[differentialFunction] operator[SEP] operator[SEP] identifier[val] identifier[array] operator[=] identifier[inputs] operator[SEP] Other[0] operator[SEP] operator[SEP] identifier[getArr] operator[SEP] operator[SEP] operator[SEP] identifier[variableNameToArr] operator[SEP] identifier[put] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[getOwnName] operator[SEP] operator[SEP] , identifier[array] operator[SEP] identifier[dup] operator[SEP] identifier[array] operator[SEP] identifier[ordering] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[flowPath] operator[SEP] identifier[markExecuted] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[getOwnName] operator[SEP] operator[SEP] , literal[boolean] operator[SEP] operator[SEP] identifier[frameLeft] operator[=] literal[boolean] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[differentialFunction] Keyword[instanceof] identifier[NextIteration] operator[SEP] { identifier[val] identifier[inputs] operator[=] identifier[getInputVariablesForFunction] operator[SEP] identifier[differentialFunction] operator[SEP] operator[SEP] identifier[val] identifier[frame_name] operator[=] identifier[frames] operator[SEP] identifier[getLast] operator[SEP] operator[SEP] operator[SEP] identifier[val] identifier[array] operator[=] identifier[inputs] operator[SEP] Other[0] operator[SEP] operator[SEP] identifier[getArr] operator[SEP] operator[SEP] operator[SEP] identifier[variableNameToArr] operator[SEP] identifier[put] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[getOwnName] operator[SEP] operator[SEP] , identifier[array] operator[SEP] identifier[dup] operator[SEP] identifier[array] operator[SEP] identifier[ordering] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[flowPath] operator[SEP] identifier[markExecuted] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[getOwnName] operator[SEP] operator[SEP] , literal[boolean] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[flowPath] operator[SEP] identifier[isRewindPlanned] operator[SEP] identifier[frame_name] operator[SEP] operator[SEP] { identifier[flowPath] operator[SEP] identifier[planRewind] operator[SEP] identifier[frame_name] , literal[boolean] operator[SEP] operator[SEP] Keyword[continue] operator[SEP] } } Keyword[else] Keyword[if] operator[SEP] identifier[differentialFunction] Keyword[instanceof] identifier[Merge] operator[SEP] { identifier[val] identifier[inputs] operator[=] identifier[getInputVariablesForFunction] operator[SEP] identifier[differentialFunction] operator[SEP] operator[SEP] identifier[val] identifier[frame_name] operator[=] identifier[frames] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[>] Other[0] operator[?] identifier[frames] operator[SEP] identifier[getLast] operator[SEP] operator[SEP] operator[:] Other[null] operator[SEP] Keyword[if] operator[SEP] identifier[frame_name] operator[!=] Other[null] operator[SEP] identifier[flowPath] operator[SEP] identifier[activateFrame] operator[SEP] identifier[frame_name] , literal[boolean] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[frame_name] operator[!=] Other[null] operator[SEP] identifier[flowPath] operator[SEP] identifier[setRewindPositionOnce] operator[SEP] identifier[frame_name] , identifier[i] operator[-] Other[1] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[inputs] operator[SEP] identifier[length] operator[==] Other[2] operator[SEP] { identifier[val] identifier[secondArg] operator[=] identifier[functionInstancesById] operator[SEP] identifier[get] operator[SEP] identifier[inputs] operator[SEP] Other[1] operator[SEP] operator[SEP] identifier[getVarName] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[secondArg] operator[!=] Other[null] operator[&&] identifier[secondArg] Keyword[instanceof] identifier[NextIteration] operator[SEP] { operator[SEP] operator[SEP] identifier[NextIteration] operator[SEP] identifier[secondArg] operator[SEP] operator[SEP] identifier[setFrameName] operator[SEP] identifier[frame_name] operator[SEP] operator[SEP] } } Keyword[if] operator[SEP] identifier[flowPath] operator[SEP] identifier[wasExecuted] operator[SEP] identifier[inputs] operator[SEP] Other[1] operator[SEP] operator[SEP] identifier[getVarName] operator[SEP] operator[SEP] operator[SEP] operator[SEP] { identifier[val] identifier[array] operator[=] identifier[inputs] operator[SEP] Other[1] operator[SEP] operator[SEP] identifier[getArr] operator[SEP] operator[SEP] operator[SEP] identifier[variableNameToArr] operator[SEP] identifier[put] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[getOwnName] operator[SEP] operator[SEP] , identifier[array] operator[SEP] identifier[dup] operator[SEP] identifier[array] operator[SEP] identifier[ordering] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[flowPath] operator[SEP] identifier[markExecuted] operator[SEP] identifier[inputs] operator[SEP] Other[1] operator[SEP] operator[SEP] identifier[getVarName] operator[SEP] operator[SEP] , literal[boolean] operator[SEP] operator[SEP] } Keyword[else] { identifier[val] identifier[array] operator[=] identifier[inputs] operator[SEP] Other[0] operator[SEP] operator[SEP] identifier[getArr] operator[SEP] operator[SEP] operator[SEP] identifier[variableNameToArr] operator[SEP] identifier[put] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[getOwnName] operator[SEP] operator[SEP] , identifier[array] operator[SEP] identifier[dup] operator[SEP] identifier[array] operator[SEP] identifier[ordering] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } identifier[flowPath] operator[SEP] identifier[markExecuted] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[getOwnName] operator[SEP] operator[SEP] , literal[boolean] operator[SEP] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[differentialFunction] Keyword[instanceof] identifier[Switch] operator[SEP] { operator[SEP] operator[SEP] identifier[CustomOp] operator[SEP] identifier[differentialFunction] operator[SEP] operator[SEP] identifier[populateInputsAndOutputsFromSameDiff] operator[SEP] operator[SEP] operator[SEP] identifier[val] identifier[inputs] operator[=] identifier[getInputVariablesForFunction] operator[SEP] identifier[differentialFunction] operator[SEP] operator[SEP] identifier[val] identifier[input] operator[=] identifier[inputs] operator[SEP] Other[0] operator[SEP] operator[SEP] identifier[getArr] operator[SEP] operator[SEP] operator[SEP] identifier[val] identifier[bool] operator[=] identifier[inputs] operator[SEP] Other[1] operator[SEP] operator[SEP] identifier[getArr] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[SEP] Keyword[int] operator[SEP] identifier[bool] operator[SEP] identifier[getDouble] operator[SEP] Other[0] operator[SEP] operator[==] Other[0] operator[SEP] { identifier[flowPath] operator[SEP] identifier[setActiveBranch] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[getOwnName] operator[SEP] operator[SEP] , Other[0] operator[SEP] operator[SEP] identifier[flowPath] operator[SEP] identifier[markActive] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[getOwnName] operator[SEP] operator[SEP] , literal[boolean] operator[SEP] operator[SEP] identifier[flowPath] operator[SEP] identifier[markActive] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[getOwnName] operator[SEP] operator[SEP] operator[+] literal[String] , literal[boolean] operator[SEP] operator[SEP] identifier[variableNameToArr] operator[SEP] identifier[put] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[getOwnName] operator[SEP] operator[SEP] , identifier[input] operator[SEP] identifier[dup] operator[SEP] identifier[input] operator[SEP] identifier[ordering] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] { identifier[flowPath] operator[SEP] identifier[setActiveBranch] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[getOwnName] operator[SEP] operator[SEP] , Other[1] operator[SEP] operator[SEP] identifier[variableNameToArr] operator[SEP] identifier[put] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[getOwnName] operator[SEP] operator[SEP] operator[+] literal[String] , identifier[input] operator[SEP] identifier[dup] operator[SEP] identifier[input] operator[SEP] identifier[ordering] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[flowPath] operator[SEP] identifier[markActive] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[getOwnName] operator[SEP] operator[SEP] , literal[boolean] operator[SEP] operator[SEP] identifier[flowPath] operator[SEP] identifier[markActive] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[getOwnName] operator[SEP] operator[SEP] operator[+] literal[String] , literal[boolean] operator[SEP] operator[SEP] } identifier[flowPath] operator[SEP] identifier[markExecuted] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[getOwnName] operator[SEP] operator[SEP] , literal[boolean] operator[SEP] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[differentialFunction] Keyword[instanceof] identifier[If] operator[SEP] { identifier[If] identifier[ifOp] operator[=] operator[SEP] identifier[If] operator[SEP] identifier[differentialFunction] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[onBackward] operator[SEP] { identifier[ifOp] operator[SEP] identifier[getPredicateExecution] operator[SEP] operator[SEP] operator[SEP] identifier[exec] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[ifOp] operator[SEP] identifier[getTargetBoolean] operator[SEP] operator[SEP] operator[SEP] identifier[getArr] operator[SEP] operator[SEP] operator[SEP] identifier[sumNumber] operator[SEP] operator[SEP] operator[SEP] identifier[doubleValue] operator[SEP] operator[SEP] operator[>] Other[0] operator[SEP] { identifier[ifOp] operator[SEP] identifier[getLoopBodyExecution] operator[SEP] operator[SEP] operator[SEP] identifier[exec] operator[SEP] operator[SEP] operator[SEP] identifier[ifOp] operator[SEP] identifier[exectedTrueOrFalse] operator[SEP] literal[boolean] operator[SEP] operator[SEP] } Keyword[else] { identifier[ifOp] operator[SEP] identifier[getFalseBodyExecution] operator[SEP] operator[SEP] operator[SEP] identifier[exec] operator[SEP] operator[SEP] operator[SEP] identifier[ifOp] operator[SEP] identifier[exectedTrueOrFalse] operator[SEP] literal[boolean] operator[SEP] operator[SEP] } } Keyword[else] { Keyword[if] operator[SEP] identifier[ifOp] operator[SEP] identifier[getTrueBodyExecuted] operator[SEP] operator[SEP] operator[!=] Other[null] operator[SEP] { identifier[Pair] operator[<] identifier[Map] operator[<] identifier[SDVariable] , identifier[DifferentialFunction] operator[>] , identifier[List] operator[<] identifier[DifferentialFunction] operator[>] operator[>] identifier[execBackwards] operator[=] Other[null] operator[SEP] identifier[List] operator[<] identifier[SDVariable] operator[>] identifier[variablesForFunctions] operator[=] Other[null] operator[SEP] Keyword[if] operator[SEP] identifier[ifOp] operator[SEP] identifier[getTrueBodyExecuted] operator[SEP] operator[SEP] operator[SEP] { identifier[execBackwards] operator[=] identifier[ifOp] operator[SEP] identifier[getLoopBodyExecution] operator[SEP] operator[SEP] operator[SEP] identifier[execBackwards] operator[SEP] operator[SEP] operator[SEP] identifier[variablesForFunctions] operator[=] identifier[ifOp] operator[SEP] identifier[getLoopBodyExecution] operator[SEP] operator[SEP] operator[SEP] identifier[getVariablesAssociatedWithFunctions] operator[SEP] identifier[execBackwards] operator[SEP] identifier[getRight] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] { identifier[execBackwards] operator[=] identifier[ifOp] operator[SEP] identifier[getFalseBodyExecution] operator[SEP] operator[SEP] operator[SEP] identifier[execBackwards] operator[SEP] operator[SEP] operator[SEP] identifier[variablesForFunctions] operator[=] identifier[ifOp] operator[SEP] identifier[getFalseBodyExecution] operator[SEP] operator[SEP] operator[SEP] identifier[getVariablesAssociatedWithFunctions] operator[SEP] identifier[execBackwards] operator[SEP] identifier[getRight] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[for] operator[SEP] identifier[SDVariable] identifier[variable] operator[:] identifier[variablesForFunctions] operator[SEP] { identifier[SDVariable] identifier[proxyVar] operator[=] identifier[var] operator[SEP] identifier[variable] operator[SEP] operator[SEP] } } Keyword[else] Keyword[throw] Keyword[new] identifier[ND4JIllegalStateException] operator[SEP] literal[String] operator[SEP] operator[SEP] } identifier[flowPath] operator[SEP] identifier[markExecuted] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[getOwnName] operator[SEP] operator[SEP] , literal[boolean] operator[SEP] operator[SEP] identifier[ops] operator[SEP] identifier[add] operator[SEP] identifier[differentialFunction] operator[SEP] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[differentialFunction] Keyword[instanceof] identifier[While] operator[SEP] { identifier[While] identifier[whileOp] operator[=] operator[SEP] identifier[While] operator[SEP] identifier[differentialFunction] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[onBackward] operator[SEP] { identifier[SameDiff] identifier[execBody] operator[=] identifier[whileOp] operator[SEP] identifier[getLoopBodyExecution] operator[SEP] operator[SEP] operator[SEP] identifier[whileOp] operator[SEP] identifier[getPredicateExecution] operator[SEP] operator[SEP] operator[SEP] identifier[exec] operator[SEP] operator[SEP] operator[SEP] Keyword[while] operator[SEP] identifier[whileOp] operator[SEP] identifier[getTargetBoolean] operator[SEP] operator[SEP] operator[SEP] identifier[getArr] operator[SEP] operator[SEP] operator[SEP] identifier[sumNumber] operator[SEP] operator[SEP] operator[SEP] identifier[doubleValue] operator[SEP] operator[SEP] operator[>] Other[0] operator[SEP] { identifier[execBody] operator[SEP] identifier[exec] operator[SEP] operator[SEP] operator[SEP] identifier[whileOp] operator[SEP] identifier[getPredicateExecution] operator[SEP] operator[SEP] operator[SEP] identifier[exec] operator[SEP] operator[SEP] operator[SEP] identifier[whileOp] operator[SEP] identifier[incrementLoopCounter] operator[SEP] operator[SEP] operator[SEP] } identifier[List] operator[<] identifier[SDVariable] operator[>] identifier[outputs] operator[=] Keyword[new] identifier[ArrayList] operator[<] operator[>] operator[SEP] operator[SEP] operator[SEP] identifier[val] identifier[outputFuncArgs] operator[=] Keyword[new] identifier[ArrayList] operator[<] operator[>] operator[SEP] identifier[execBody] operator[SEP] identifier[functionInstancesById] operator[SEP] identifier[values] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[get] operator[SEP] identifier[execBody] operator[SEP] identifier[functionInstancesById] operator[SEP] identifier[values] operator[SEP] operator[SEP] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[-] Other[1] operator[SEP] operator[SEP] identifier[outputVariables] operator[SEP] operator[SEP] operator[SEP] identifier[outputs] operator[SEP] identifier[addAll] operator[SEP] identifier[Arrays] operator[SEP] identifier[asList] operator[SEP] identifier[outputFuncArgs] operator[SEP] operator[SEP] operator[SEP] identifier[whileOp] operator[SEP] identifier[setOutputVars] operator[SEP] identifier[outputs] operator[SEP] identifier[toArray] operator[SEP] Keyword[new] identifier[SDVariable] operator[SEP] identifier[outputs] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[ops] operator[SEP] identifier[add] operator[SEP] identifier[differentialFunction] operator[SEP] operator[SEP] } Keyword[else] { identifier[Pair] operator[<] identifier[Map] operator[<] identifier[SDVariable] , identifier[DifferentialFunction] operator[>] , identifier[List] operator[<] identifier[DifferentialFunction] operator[>] operator[>] identifier[mapListPair] operator[=] identifier[whileOp] operator[SEP] identifier[getLoopBodyExecution] operator[SEP] operator[SEP] operator[SEP] identifier[execBackwards] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] identifier[SDVariable] identifier[variable] operator[:] identifier[mapListPair] operator[SEP] identifier[getFirst] operator[SEP] operator[SEP] operator[SEP] identifier[keySet] operator[SEP] operator[SEP] operator[SEP] { identifier[variable] operator[SEP] identifier[getArr] operator[SEP] operator[SEP] operator[SEP] identifier[muli] operator[SEP] identifier[whileOp] operator[SEP] identifier[getNumLooped] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } } identifier[flowPath] operator[SEP] identifier[markExecuted] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[getOwnName] operator[SEP] operator[SEP] , literal[boolean] operator[SEP] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[differentialFunction] Keyword[instanceof] identifier[CustomOp] operator[SEP] { identifier[DynamicCustomOp] identifier[customOp] operator[=] operator[SEP] identifier[DynamicCustomOp] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[customOp] operator[SEP] identifier[populateInputsAndOutputsFromSameDiff] operator[SEP] operator[SEP] operator[SEP] identifier[customOp] operator[SEP] identifier[assertValidForExecution] operator[SEP] operator[SEP] operator[SEP] identifier[customOp] operator[SEP] identifier[updateInputsFromSameDiff] operator[SEP] operator[SEP] operator[SEP] identifier[Nd4j] operator[SEP] identifier[getExecutioner] operator[SEP] operator[SEP] operator[SEP] identifier[exec] operator[SEP] identifier[customOp] operator[SEP] operator[SEP] identifier[flowPath] operator[SEP] identifier[markExecuted] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[getOwnName] operator[SEP] operator[SEP] , literal[boolean] operator[SEP] operator[SEP] identifier[ops] operator[SEP] identifier[add] operator[SEP] identifier[customOp] operator[SEP] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[differentialFunction] Keyword[instanceof] identifier[Op] operator[SEP] { identifier[val] identifier[inputs] operator[=] identifier[getInputVariablesForFunction] operator[SEP] identifier[differentialFunction] operator[SEP] operator[SEP] identifier[Op] identifier[op] operator[=] operator[SEP] identifier[Op] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[op] operator[SEP] identifier[setX] operator[SEP] identifier[inputs] operator[SEP] Other[0] operator[SEP] operator[SEP] identifier[getArr] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[inputs] operator[SEP] identifier[length] operator[==] Other[2] operator[SEP] identifier[op] operator[SEP] identifier[setY] operator[SEP] identifier[inputs] operator[SEP] Other[1] operator[SEP] operator[SEP] identifier[getArr] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[getDimensions] operator[SEP] operator[SEP] operator[==] Other[null] operator[SEP] identifier[Nd4j] operator[SEP] identifier[getExecutioner] operator[SEP] operator[SEP] operator[SEP] identifier[exec] operator[SEP] identifier[op] operator[SEP] operator[SEP] Keyword[else] Keyword[if] operator[SEP] identifier[op] operator[SEP] identifier[isExecSpecial] operator[SEP] operator[SEP] operator[SEP] { identifier[op] operator[SEP] identifier[exec] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] { Keyword[int] operator[SEP] operator[SEP] identifier[axes] operator[=] identifier[differentialFunction] operator[SEP] identifier[getDimensions] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[differentialFunction] Keyword[instanceof] identifier[Accumulation] operator[SEP] { identifier[Accumulation] identifier[accumulation] operator[=] operator[SEP] identifier[Accumulation] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[Nd4j] operator[SEP] identifier[getExecutioner] operator[SEP] operator[SEP] operator[SEP] identifier[exec] operator[SEP] identifier[accumulation] , identifier[axes] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[outputVariables] operator[SEP] operator[SEP] operator[SEP] Other[0] operator[SEP] operator[SEP] identifier[getArr] operator[SEP] operator[SEP] operator[==] Other[null] operator[SEP] { identifier[val] identifier[var] operator[=] identifier[differentialFunction] operator[SEP] identifier[outputVariables] operator[SEP] operator[SEP] operator[SEP] Other[0] operator[SEP] operator[SEP] identifier[updateArrayForVarName] operator[SEP] identifier[var] operator[SEP] identifier[getVarName] operator[SEP] operator[SEP] , identifier[accumulation] operator[SEP] identifier[z] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[updateShapeForVarName] operator[SEP] identifier[var] operator[SEP] identifier[getVarName] operator[SEP] operator[SEP] , identifier[accumulation] operator[SEP] identifier[z] operator[SEP] operator[SEP] operator[SEP] identifier[shape] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } } Keyword[else] Keyword[if] operator[SEP] identifier[differentialFunction] Keyword[instanceof] identifier[BroadcastOp] operator[SEP] { identifier[BroadcastOp] identifier[broadcastOp] operator[=] operator[SEP] identifier[BroadcastOp] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[Nd4j] operator[SEP] identifier[getExecutioner] operator[SEP] operator[SEP] operator[SEP] identifier[exec] operator[SEP] identifier[broadcastOp] , identifier[axes] operator[SEP] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[differentialFunction] Keyword[instanceof] identifier[GradientOp] operator[SEP] { identifier[Nd4j] operator[SEP] identifier[getExecutioner] operator[SEP] operator[SEP] operator[SEP] identifier[exec] operator[SEP] identifier[op] operator[SEP] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[differentialFunction] Keyword[instanceof] identifier[IndexAccumulation] operator[SEP] { identifier[IndexAccumulation] identifier[indexAccumulation] operator[=] operator[SEP] identifier[IndexAccumulation] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[Nd4j] operator[SEP] identifier[getExecutioner] operator[SEP] operator[SEP] operator[SEP] identifier[exec] operator[SEP] identifier[indexAccumulation] , identifier[axes] operator[SEP] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[differentialFunction] Keyword[instanceof] identifier[TransformOp] operator[SEP] { identifier[TransformOp] identifier[t] operator[=] operator[SEP] identifier[TransformOp] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[Nd4j] operator[SEP] identifier[getExecutioner] operator[SEP] operator[SEP] operator[SEP] identifier[exec] operator[SEP] identifier[t] , identifier[axes] operator[SEP] operator[SEP] } } identifier[flowPath] operator[SEP] identifier[markExecuted] operator[SEP] identifier[differentialFunction] operator[SEP] identifier[getOwnName] operator[SEP] operator[SEP] , literal[boolean] operator[SEP] operator[SEP] identifier[ops] operator[SEP] identifier[add] operator[SEP] identifier[differentialFunction] operator[SEP] operator[SEP] } } Keyword[return] Keyword[new] identifier[Pair] operator[<] operator[>] operator[SEP] identifier[opMap] , identifier[ops] operator[SEP] operator[SEP] }
public static OCSPReq generateOCSPRequest(X509Certificate issuerCert, BigInteger serialNumber) throws CertificateVerificationException { //Programatically adding Bouncy Castle as the security provider. So no need to manually set. Once the programme // is over security provider will also be removed. Security.addProvider(new BouncyCastleProvider()); try { byte[] issuerCertEnc = issuerCert.getEncoded(); X509CertificateHolder certificateHolder = new X509CertificateHolder(issuerCertEnc); DigestCalculatorProvider digCalcProv = new JcaDigestCalculatorProviderBuilder() .setProvider(Constants.BOUNCY_CASTLE_PROVIDER).build(); // CertID structure is used to uniquely identify certificates that are the subject of // an OCSP request or response and has an ASN.1 definition. CertID structure is defined in RFC 2560. CertificateID id = new CertificateID(digCalcProv.get(CertificateID.HASH_SHA1), certificateHolder, serialNumber); // basic request generation with nonce. OCSPReqBuilder builder = new OCSPReqBuilder(); builder.addRequest(id); // create details for nonce extension. The nonce extension is used to bind // a request to a response to prevent re-play attacks. As the name implies, // the nonce value is something that the client should only use once during a reasonably small period. BigInteger nonce = BigInteger.valueOf(System.currentTimeMillis()); //to create the request Extension builder.setRequestExtensions(new Extensions(new Extension(OCSPObjectIdentifiers.id_pkix_ocsp_nonce, false, new DEROctetString(nonce.toByteArray())))); return builder.build(); } catch (OCSPException \| OperatorCreationException \| IOException \| CertificateEncodingException e) { throw new CertificateVerificationException("Cannot generate OCSP Request with the given certificate", e); } }	class class_name[name] begin[{] method[generateOCSPRequest, return_type[type[OCSPReq]], modifier[public static], parameter[issuerCert, serialNumber]] begin[{] call[Security.addProvider, parameter[ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=BouncyCastleProvider, sub_type=None))]] TryStatement(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=getEncoded, postfix_operators=[], prefix_operators=[], qualifier=issuerCert, selectors=[], type_arguments=None), name=issuerCertEnc)], modifiers=set(), type=BasicType(dimensions=[None], name=byte)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[MemberReference(member=issuerCertEnc, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=X509CertificateHolder, sub_type=None)), name=certificateHolder)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=X509CertificateHolder, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MethodInvocation(arguments=[MemberReference(member=BOUNCY_CASTLE_PROVIDER, postfix_operators=[], prefix_operators=[], qualifier=Constants, selectors=[])], member=setProvider, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[], member=build, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type=ReferenceType(arguments=None, dimensions=None, name=JcaDigestCalculatorProviderBuilder, sub_type=None)), name=digCalcProv)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=DigestCalculatorProvider, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[MethodInvocation(arguments=[MemberReference(member=HASH_SHA1, postfix_operators=[], prefix_operators=[], qualifier=CertificateID, selectors=[])], member=get, postfix_operators=[], prefix_operators=[], qualifier=digCalcProv, selectors=[], type_arguments=None), MemberReference(member=certificateHolder, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=serialNumber, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=CertificateID, sub_type=None)), name=id)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=CertificateID, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=OCSPReqBuilder, sub_type=None)), name=builder)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=OCSPReqBuilder, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=id, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=addRequest, postfix_operators=[], prefix_operators=[], qualifier=builder, selectors=[], type_arguments=None), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=currentTimeMillis, postfix_operators=[], prefix_operators=[], qualifier=System, selectors=[], type_arguments=None)], member=valueOf, postfix_operators=[], prefix_operators=[], qualifier=BigInteger, selectors=[], type_arguments=None), name=nonce)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=BigInteger, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[ClassCreator(arguments=[ClassCreator(arguments=[MemberReference(member=id_pkix_ocsp_nonce, postfix_operators=[], prefix_operators=[], qualifier=OCSPObjectIdentifiers, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=false), ClassCreator(arguments=[MethodInvocation(arguments=[], member=toByteArray, postfix_operators=[], prefix_operators=[], qualifier=nonce, selectors=[], type_arguments=None)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=DEROctetString, sub_type=None))], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Extension, sub_type=None))], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Extensions, sub_type=None))], member=setRequestExtensions, postfix_operators=[], prefix_operators=[], qualifier=builder, selectors=[], type_arguments=None), label=None), ReturnStatement(expression=MethodInvocation(arguments=[], member=build, postfix_operators=[], prefix_operators=[], qualifier=builder, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Cannot generate OCSP Request with the given certificate"), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=CertificateVerificationException, sub_type=None)), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['OCSPException', 'OperatorCreationException', 'IOException', 'CertificateEncodingException']))], finally_block=None, label=None, resources=None) end[}] END[}]	Keyword[public] Keyword[static] identifier[OCSPReq] identifier[generateOCSPRequest] operator[SEP] identifier[X509Certificate] identifier[issuerCert] , identifier[BigInteger] identifier[serialNumber] operator[SEP] Keyword[throws] identifier[CertificateVerificationException] { identifier[Security] operator[SEP] identifier[addProvider] operator[SEP] Keyword[new] identifier[BouncyCastleProvider] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[try] { Keyword[byte] operator[SEP] operator[SEP] identifier[issuerCertEnc] operator[=] identifier[issuerCert] operator[SEP] identifier[getEncoded] operator[SEP] operator[SEP] operator[SEP] identifier[X509CertificateHolder] identifier[certificateHolder] operator[=] Keyword[new] identifier[X509CertificateHolder] operator[SEP] identifier[issuerCertEnc] operator[SEP] operator[SEP] identifier[DigestCalculatorProvider] identifier[digCalcProv] operator[=] Keyword[new] identifier[JcaDigestCalculatorProviderBuilder] operator[SEP] operator[SEP] operator[SEP] identifier[setProvider] operator[SEP] identifier[Constants] operator[SEP] identifier[BOUNCY_CASTLE_PROVIDER] operator[SEP] operator[SEP] identifier[build] operator[SEP] operator[SEP] operator[SEP] identifier[CertificateID] identifier[id] operator[=] Keyword[new] identifier[CertificateID] operator[SEP] identifier[digCalcProv] operator[SEP] identifier[get] operator[SEP] identifier[CertificateID] operator[SEP] identifier[HASH_SHA1] operator[SEP] , identifier[certificateHolder] , identifier[serialNumber] operator[SEP] operator[SEP] identifier[OCSPReqBuilder] identifier[builder] operator[=] Keyword[new] identifier[OCSPReqBuilder] operator[SEP] operator[SEP] operator[SEP] identifier[builder] operator[SEP] identifier[addRequest] operator[SEP] identifier[id] operator[SEP] operator[SEP] identifier[BigInteger] identifier[nonce] operator[=] identifier[BigInteger] operator[SEP] identifier[valueOf] operator[SEP] identifier[System] operator[SEP] identifier[currentTimeMillis] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[builder] operator[SEP] identifier[setRequestExtensions] operator[SEP] Keyword[new] identifier[Extensions] operator[SEP] Keyword[new] identifier[Extension] operator[SEP] identifier[OCSPObjectIdentifiers] operator[SEP] identifier[id_pkix_ocsp_nonce] , literal[boolean] , Keyword[new] identifier[DEROctetString] operator[SEP] identifier[nonce] operator[SEP] identifier[toByteArray] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[builder] operator[SEP] identifier[build] operator[SEP] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[OCSPException] operator[\|] identifier[OperatorCreationException] operator[\|] identifier[IOException] operator[\|] identifier[CertificateEncodingException] identifier[e] operator[SEP] { Keyword[throw] Keyword[new] identifier[CertificateVerificationException] operator[SEP] literal[String] , identifier[e] operator[SEP] operator[SEP] } }
@Override public final ProofreadingResult doProofreading(String docID, String paraText, Locale locale, int startOfSentencePos, int nSuggestedBehindEndOfSentencePosition, PropertyValue[] propertyValues) { ProofreadingResult paRes = new ProofreadingResult(); paRes.nStartOfSentencePosition = startOfSentencePos; paRes.nStartOfNextSentencePosition = nSuggestedBehindEndOfSentencePosition; paRes.nBehindEndOfSentencePosition = paRes.nStartOfNextSentencePosition; paRes.xProofreader = this; paRes.aLocale = locale; paRes.aDocumentIdentifier = docID; paRes.aText = paraText; paRes.aProperties = propertyValues; try { int[] footnotePositions = getPropertyValues("FootnotePositions", propertyValues); // since LO 4.3 paRes = documents.getCheckResults(paraText, locale, paRes, footnotePositions); if (disabledRules == null) { prepareConfig(); } if(documents.doResetCheck()) { resetCheck(); documents.optimizeReset(); } } catch (Throwable t) { MessageHandler.showError(t); } return paRes; }	class class_name[name] begin[{] method[doProofreading, return_type[type[ProofreadingResult]], modifier[final public], parameter[docID, paraText, locale, startOfSentencePos, nSuggestedBehindEndOfSentencePosition, propertyValues]] begin[{] local_variable[type[ProofreadingResult], paRes] assign[member[paRes.nStartOfSentencePosition], member[.startOfSentencePos]] assign[member[paRes.nStartOfNextSentencePosition], member[.nSuggestedBehindEndOfSentencePosition]] assign[member[paRes.nBehindEndOfSentencePosition], member[paRes.nStartOfNextSentencePosition]] assign[member[paRes.xProofreader], THIS[]] assign[member[paRes.aLocale], member[.locale]] assign[member[paRes.aDocumentIdentifier], member[.docID]] assign[member[paRes.aText], member[.paraText]] assign[member[paRes.aProperties], member[.propertyValues]] TryStatement(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="FootnotePositions"), MemberReference(member=propertyValues, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getPropertyValues, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), name=footnotePositions)], modifiers=set(), type=BasicType(dimensions=[None], name=int)), StatementExpression(expression=Assignment(expressionl=MemberReference(member=paRes, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[MemberReference(member=paraText, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=locale, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=paRes, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=footnotePositions, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getCheckResults, postfix_operators=[], prefix_operators=[], qualifier=documents, selectors=[], type_arguments=None)), label=None), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=disabledRules, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator===), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[], member=prepareConfig, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)])), IfStatement(condition=MethodInvocation(arguments=[], member=doResetCheck, postfix_operators=[], prefix_operators=[], qualifier=documents, selectors=[], type_arguments=None), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[], member=resetCheck, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[], member=optimizeReset, postfix_operators=[], prefix_operators=[], qualifier=documents, selectors=[], type_arguments=None), label=None)]))], catches=[CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=t, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=showError, postfix_operators=[], prefix_operators=[], qualifier=MessageHandler, selectors=[], type_arguments=None), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=t, types=['Throwable']))], finally_block=None, label=None, resources=None) return[member[.paRes]] end[}] END[}]	annotation[@] identifier[Override] Keyword[public] Keyword[final] identifier[ProofreadingResult] identifier[doProofreading] operator[SEP] identifier[String] identifier[docID] , identifier[String] identifier[paraText] , identifier[Locale] identifier[locale] , Keyword[int] identifier[startOfSentencePos] , Keyword[int] identifier[nSuggestedBehindEndOfSentencePosition] , identifier[PropertyValue] operator[SEP] operator[SEP] identifier[propertyValues] operator[SEP] { identifier[ProofreadingResult] identifier[paRes] operator[=] Keyword[new] identifier[ProofreadingResult] operator[SEP] operator[SEP] operator[SEP] identifier[paRes] operator[SEP] identifier[nStartOfSentencePosition] operator[=] identifier[startOfSentencePos] operator[SEP] identifier[paRes] operator[SEP] identifier[nStartOfNextSentencePosition] operator[=] identifier[nSuggestedBehindEndOfSentencePosition] operator[SEP] identifier[paRes] operator[SEP] identifier[nBehindEndOfSentencePosition] operator[=] identifier[paRes] operator[SEP] identifier[nStartOfNextSentencePosition] operator[SEP] identifier[paRes] operator[SEP] identifier[xProofreader] operator[=] Keyword[this] operator[SEP] identifier[paRes] operator[SEP] identifier[aLocale] operator[=] identifier[locale] operator[SEP] identifier[paRes] operator[SEP] identifier[aDocumentIdentifier] operator[=] identifier[docID] operator[SEP] identifier[paRes] operator[SEP] identifier[aText] operator[=] identifier[paraText] operator[SEP] identifier[paRes] operator[SEP] identifier[aProperties] operator[=] identifier[propertyValues] operator[SEP] Keyword[try] { Keyword[int] operator[SEP] operator[SEP] identifier[footnotePositions] operator[=] identifier[getPropertyValues] operator[SEP] literal[String] , identifier[propertyValues] operator[SEP] operator[SEP] identifier[paRes] operator[=] identifier[documents] operator[SEP] identifier[getCheckResults] operator[SEP] identifier[paraText] , identifier[locale] , identifier[paRes] , identifier[footnotePositions] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[disabledRules] operator[==] Other[null] operator[SEP] { identifier[prepareConfig] operator[SEP] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[documents] operator[SEP] identifier[doResetCheck] operator[SEP] operator[SEP] operator[SEP] { identifier[resetCheck] operator[SEP] operator[SEP] operator[SEP] identifier[documents] operator[SEP] identifier[optimizeReset] operator[SEP] operator[SEP] operator[SEP] } } Keyword[catch] operator[SEP] identifier[Throwable] identifier[t] operator[SEP] { identifier[MessageHandler] operator[SEP] identifier[showError] operator[SEP] identifier[t] operator[SEP] operator[SEP] } Keyword[return] identifier[paRes] operator[SEP] }
public static void main(String[] args) { try { if (args.length != 2) { System.out.println("Usage: HexDump <input file name> <output text file name>"); } else { System.out.println("Dump started."); long start = System.currentTimeMillis(); process(args[0], args[1]); long elapsed = System.currentTimeMillis() - start; System.out.println("Dump completed in " + elapsed + "ms"); } } catch (Exception ex) { System.out.println("Caught " + ex.toString()); } }	class class_name[name] begin[{] method[main, return_type[void], modifier[public static], parameter[args]] begin[{] TryStatement(block=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=length, postfix_operators=[], prefix_operators=[], qualifier=args, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2), operator=!=), else_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Dump started.")], member=println, postfix_operators=[], prefix_operators=[], qualifier=System.out, selectors=[], type_arguments=None), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=currentTimeMillis, postfix_operators=[], prefix_operators=[], qualifier=System, selectors=[], type_arguments=None), name=start)], modifiers=set(), type=BasicType(dimensions=[], name=long)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=args, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0))]), MemberReference(member=args, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1))])], member=process, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MethodInvocation(arguments=[], member=currentTimeMillis, postfix_operators=[], prefix_operators=[], qualifier=System, selectors=[], type_arguments=None), operandr=MemberReference(member=start, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=-), name=elapsed)], modifiers=set(), type=BasicType(dimensions=[], name=long)), StatementExpression(expression=MethodInvocation(arguments=[BinaryOperation(operandl=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Dump completed in "), operandr=MemberReference(member=elapsed, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="ms"), operator=+)], member=println, postfix_operators=[], prefix_operators=[], qualifier=System.out, selectors=[], type_arguments=None), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Usage: HexDump <input file name> <output text file name>")], member=println, postfix_operators=[], prefix_operators=[], qualifier=System.out, selectors=[], type_arguments=None), label=None)]))], catches=[CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Caught "), operandr=MethodInvocation(arguments=[], member=toString, postfix_operators=[], prefix_operators=[], qualifier=ex, selectors=[], type_arguments=None), operator=+)], member=println, postfix_operators=[], prefix_operators=[], qualifier=System.out, selectors=[], type_arguments=None), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=ex, types=['Exception']))], finally_block=None, label=None, resources=None) end[}] END[}]	Keyword[public] Keyword[static] Keyword[void] identifier[main] operator[SEP] identifier[String] operator[SEP] operator[SEP] identifier[args] operator[SEP] { Keyword[try] { Keyword[if] operator[SEP] identifier[args] operator[SEP] identifier[length] operator[!=] Other[2] operator[SEP] { identifier[System] operator[SEP] identifier[out] operator[SEP] identifier[println] operator[SEP] literal[String] operator[SEP] operator[SEP] } Keyword[else] { identifier[System] operator[SEP] identifier[out] operator[SEP] identifier[println] operator[SEP] literal[String] operator[SEP] operator[SEP] Keyword[long] identifier[start] operator[=] identifier[System] operator[SEP] identifier[currentTimeMillis] operator[SEP] operator[SEP] operator[SEP] identifier[process] operator[SEP] identifier[args] operator[SEP] Other[0] operator[SEP] , identifier[args] operator[SEP] Other[1] operator[SEP] operator[SEP] operator[SEP] Keyword[long] identifier[elapsed] operator[=] identifier[System] operator[SEP] identifier[currentTimeMillis] operator[SEP] operator[SEP] operator[-] identifier[start] operator[SEP] identifier[System] operator[SEP] identifier[out] operator[SEP] identifier[println] operator[SEP] literal[String] operator[+] identifier[elapsed] operator[+] literal[String] operator[SEP] operator[SEP] } } Keyword[catch] operator[SEP] identifier[Exception] identifier[ex] operator[SEP] { identifier[System] operator[SEP] identifier[out] operator[SEP] identifier[println] operator[SEP] literal[String] operator[+] identifier[ex] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } }
public void setInputFormatClass(Class<? extends InputFormat> cls ) throws IllegalStateException { ensureState(JobState.DEFINE); conf.setClass(INPUT_FORMAT_CLASS_ATTR, cls, InputFormat.class); }	class class_name[name] begin[{] method[setInputFormatClass, return_type[void], modifier[public], parameter[cls]] begin[{] call[.ensureState, parameter[member[JobState.DEFINE]]] call[conf.setClass, parameter[member[.INPUT_FORMAT_CLASS_ATTR], member[.cls], ClassReference(postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=InputFormat, sub_type=None))]] end[}] END[}]	Keyword[public] Keyword[void] identifier[setInputFormatClass] operator[SEP] identifier[Class] operator[<] operator[?] Keyword[extends] identifier[InputFormat] operator[>] identifier[cls] operator[SEP] Keyword[throws] identifier[IllegalStateException] { identifier[ensureState] operator[SEP] identifier[JobState] operator[SEP] identifier[DEFINE] operator[SEP] operator[SEP] identifier[conf] operator[SEP] identifier[setClass] operator[SEP] identifier[INPUT_FORMAT_CLASS_ATTR] , identifier[cls] , identifier[InputFormat] operator[SEP] Keyword[class] operator[SEP] operator[SEP] }
public void marshall(InputLambdaProcessor inputLambdaProcessor, ProtocolMarshaller protocolMarshaller) { if (inputLambdaProcessor == null) { throw new SdkClientException("Invalid argument passed to marshall(...)"); } try { protocolMarshaller.marshall(inputLambdaProcessor.getResourceARN(), RESOURCEARN_BINDING); protocolMarshaller.marshall(inputLambdaProcessor.getRoleARN(), ROLEARN_BINDING); } catch (Exception e) { throw new SdkClientException("Unable to marshall request to JSON: " + e.getMessage(), e); } }	class class_name[name] begin[{] method[marshall, return_type[void], modifier[public], parameter[inputLambdaProcessor, protocolMarshaller]] begin[{] if[binary_operation[member[.inputLambdaProcessor], ==, literal[null]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Invalid argument passed to marshall(...)")], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=SdkClientException, sub_type=None)), label=None) else begin[{] None end[}] TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getResourceARN, postfix_operators=[], prefix_operators=[], qualifier=inputLambdaProcessor, selectors=[], type_arguments=None), MemberReference(member=RESOURCEARN_BINDING, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=marshall, postfix_operators=[], prefix_operators=[], qualifier=protocolMarshaller, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getRoleARN, postfix_operators=[], prefix_operators=[], qualifier=inputLambdaProcessor, selectors=[], type_arguments=None), MemberReference(member=ROLEARN_BINDING, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=marshall, postfix_operators=[], prefix_operators=[], qualifier=protocolMarshaller, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Unable to marshall request to JSON: "), operandr=MethodInvocation(arguments=[], member=getMessage, postfix_operators=[], prefix_operators=[], qualifier=e, selectors=[], type_arguments=None), operator=+), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=SdkClientException, sub_type=None)), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['Exception']))], finally_block=None, label=None, resources=None) end[}] END[}]	Keyword[public] Keyword[void] identifier[marshall] operator[SEP] identifier[InputLambdaProcessor] identifier[inputLambdaProcessor] , identifier[ProtocolMarshaller] identifier[protocolMarshaller] operator[SEP] { Keyword[if] operator[SEP] identifier[inputLambdaProcessor] operator[==] Other[null] operator[SEP] { Keyword[throw] Keyword[new] identifier[SdkClientException] operator[SEP] literal[String] operator[SEP] operator[SEP] } Keyword[try] { identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[inputLambdaProcessor] operator[SEP] identifier[getResourceARN] operator[SEP] operator[SEP] , identifier[RESOURCEARN_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[inputLambdaProcessor] operator[SEP] identifier[getRoleARN] operator[SEP] operator[SEP] , identifier[ROLEARN_BINDING] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[Exception] identifier[e] operator[SEP] { Keyword[throw] Keyword[new] identifier[SdkClientException] operator[SEP] literal[String] operator[+] identifier[e] operator[SEP] identifier[getMessage] operator[SEP] operator[SEP] , identifier[e] operator[SEP] operator[SEP] } }
@Override public void writeMap(Collection<?> array) { if (!checkWriteReference(array)) { storeReference(array); buf.put(AMF.TYPE_MIXED_ARRAY); buf.putInt(array.size() + 1); int idx = 0; for (Object item : array) { if (item != null) { putString(String.valueOf(idx++)); Serializer.serialize(this, item); } else { idx++; } } putString("length"); Serializer.serialize(this, array.size() + 1); buf.put(AMF.END_OF_OBJECT_SEQUENCE); } }	class class_name[name] begin[{] method[writeMap, return_type[void], modifier[public], parameter[array]] begin[{] if[call[.checkWriteReference, parameter[member[.array]]]] begin[{] call[.storeReference, parameter[member[.array]]] call[buf.put, parameter[member[AMF.TYPE_MIXED_ARRAY]]] call[buf.putInt, parameter[binary_operation[call[array.size, parameter[]], +, literal[1]]]] local_variable[type[int], idx] ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=item, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator=!=), else_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MemberReference(member=idx, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[]), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[MemberReference(member=idx, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])], member=valueOf, postfix_operators=[], prefix_operators=[], qualifier=String, selectors=[], type_arguments=None)], member=putString, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[]), MemberReference(member=item, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=serialize, postfix_operators=[], prefix_operators=[], qualifier=Serializer, selectors=[], type_arguments=None), label=None)]))]), control=EnhancedForControl(iterable=MemberReference(member=array, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=item)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Object, sub_type=None))), label=None) call[.putString, parameter[literal["length"]]] call[Serializer.serialize, parameter[THIS[], binary_operation[call[array.size, parameter[]], +, literal[1]]]] call[buf.put, parameter[member[AMF.END_OF_OBJECT_SEQUENCE]]] else begin[{] None end[}] end[}] END[}]	annotation[@] identifier[Override] Keyword[public] Keyword[void] identifier[writeMap] operator[SEP] identifier[Collection] operator[<] operator[?] operator[>] identifier[array] operator[SEP] { Keyword[if] operator[SEP] operator[!] identifier[checkWriteReference] operator[SEP] identifier[array] operator[SEP] operator[SEP] { identifier[storeReference] operator[SEP] identifier[array] operator[SEP] operator[SEP] identifier[buf] operator[SEP] identifier[put] operator[SEP] identifier[AMF] operator[SEP] identifier[TYPE_MIXED_ARRAY] operator[SEP] operator[SEP] identifier[buf] operator[SEP] identifier[putInt] operator[SEP] identifier[array] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[+] Other[1] operator[SEP] operator[SEP] Keyword[int] identifier[idx] operator[=] Other[0] operator[SEP] Keyword[for] operator[SEP] identifier[Object] identifier[item] operator[:] identifier[array] operator[SEP] { Keyword[if] operator[SEP] identifier[item] operator[!=] Other[null] operator[SEP] { identifier[putString] operator[SEP] identifier[String] operator[SEP] identifier[valueOf] operator[SEP] identifier[idx] operator[++] operator[SEP] operator[SEP] operator[SEP] identifier[Serializer] operator[SEP] identifier[serialize] operator[SEP] Keyword[this] , identifier[item] operator[SEP] operator[SEP] } Keyword[else] { identifier[idx] operator[++] operator[SEP] } } identifier[putString] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[Serializer] operator[SEP] identifier[serialize] operator[SEP] Keyword[this] , identifier[array] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[+] Other[1] operator[SEP] operator[SEP] identifier[buf] operator[SEP] identifier[put] operator[SEP] identifier[AMF] operator[SEP] identifier[END_OF_OBJECT_SEQUENCE] operator[SEP] operator[SEP] } }
public static systemglobal_authenticationlocalpolicy_binding[] get(nitro_service service) throws Exception{ systemglobal_authenticationlocalpolicy_binding obj = new systemglobal_authenticationlocalpolicy_binding(); systemglobal_authenticationlocalpolicy_binding response[] = (systemglobal_authenticationlocalpolicy_binding[]) obj.get_resources(service); return response; }	class class_name[name] begin[{] method[get, return_type[type[systemglobal_authenticationlocalpolicy_binding]], modifier[public static], parameter[service]] begin[{] local_variable[type[systemglobal_authenticationlocalpolicy_binding], obj] local_variable[type[systemglobal_authenticationlocalpolicy_binding], response] return[member[.response]] end[}] END[}]	Keyword[public] Keyword[static] identifier[systemglobal_authenticationlocalpolicy_binding] operator[SEP] operator[SEP] identifier[get] operator[SEP] identifier[nitro_service] identifier[service] operator[SEP] Keyword[throws] identifier[Exception] { identifier[systemglobal_authenticationlocalpolicy_binding] identifier[obj] operator[=] Keyword[new] identifier[systemglobal_authenticationlocalpolicy_binding] operator[SEP] operator[SEP] operator[SEP] identifier[systemglobal_authenticationlocalpolicy_binding] identifier[response] operator[SEP] operator[SEP] operator[=] operator[SEP] identifier[systemglobal_authenticationlocalpolicy_binding] operator[SEP] operator[SEP] operator[SEP] identifier[obj] operator[SEP] identifier[get_resources] operator[SEP] identifier[service] operator[SEP] operator[SEP] Keyword[return] identifier[response] operator[SEP] }
public Settings setProperty(String key, @Nullable String value) { String validKey = definitions.validKey(key); if (value == null) { removeProperty(validKey); } else { set(validKey, trim(value)); } return this; }	class class_name[name] begin[{] method[setProperty, return_type[type[Settings]], modifier[public], parameter[key, value]] begin[{] local_variable[type[String], validKey] if[binary_operation[member[.value], ==, literal[null]]] begin[{] call[.removeProperty, parameter[member[.validKey]]] else begin[{] call[.set, parameter[member[.validKey], call[.trim, parameter[member[.value]]]]] end[}] return[THIS[]] end[}] END[}]	Keyword[public] identifier[Settings] identifier[setProperty] operator[SEP] identifier[String] identifier[key] , annotation[@] identifier[Nullable] identifier[String] identifier[value] operator[SEP] { identifier[String] identifier[validKey] operator[=] identifier[definitions] operator[SEP] identifier[validKey] operator[SEP] identifier[key] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[value] operator[==] Other[null] operator[SEP] { identifier[removeProperty] operator[SEP] identifier[validKey] operator[SEP] operator[SEP] } Keyword[else] { identifier[set] operator[SEP] identifier[validKey] , identifier[trim] operator[SEP] identifier[value] operator[SEP] operator[SEP] operator[SEP] } Keyword[return] Keyword[this] operator[SEP] }
protected void _notifyActionComponentsNow() { for( Iterator iter = _mapItems.keySet().iterator(); iter.hasNext(); ) { JComponent item = (JComponent)iter.next(); // if( !item.isShowing() ) // { // continue; // } Action action = (Action)item.getClientProperty( GenericAction.ACTION_PROPERTY ); if( action == null ) { if( item instanceof AbstractButton ) { action = ((AbstractButton)item).getAction(); } if( action == null ) { continue; } } boolean bEnabled = action.isEnabled(); // long lTime = System.currentTime(); // boolean bEnabled = action.isEnabled(); // long diff = System.currentTime() - lTime; // if( diff > 50 ) // { // //!! Uncomment following line and set a break point there to debug poor performing isEnabled() impl. // //action.isEnabled(); // // ConditionalActionHandler cah = null; // if( action instanceof GenericAction ) // { // cah = ((GenericAction)action).getConditionalActionHandler(); // } // System.out.println( "!!!!!!!!!!!!!!!!!!!!!!!\n" + // "An action.isEnabled() impl needs to be optimized.\nIt took " + diff + "ms to complete.\n" + // (cah == null ? "" : "ConditionalActionHandler: " + cah.getClass().getName() + "\n") + // "Debug UpdateNotifier.notifyActionComponentsNow() to find the naughty code." + // "\n!!!!!!!!!!!!!!!!!!!!!!!" ); // } if( item.isEnabled() != bEnabled ) { item.setEnabled( bEnabled ); } // Also handle "selected" state for togglable :) items if( action instanceof GenericAction ) { boolean bSelected = ((GenericAction)action).isSelected(); if( item instanceof JToggleButton ) { JToggleButton tb = (JToggleButton)item; if( tb.isSelected() != bSelected ) { tb.setSelected( bSelected ); } } else if( item instanceof JCheckBoxMenuItem ) { JCheckBoxMenuItem tb = (JCheckBoxMenuItem)item; if( tb.getState() != bSelected ) { tb.setState( bSelected ); } } } } }	class class_name[name] begin[{] method[_notifyActionComponentsNow, return_type[void], modifier[protected], parameter[]] begin[{] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Cast(expression=MethodInvocation(arguments=[], member=next, postfix_operators=[], prefix_operators=[], qualifier=iter, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=JComponent, sub_type=None)), name=item)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=JComponent, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Cast(expression=MethodInvocation(arguments=[MemberReference(member=ACTION_PROPERTY, postfix_operators=[], prefix_operators=[], qualifier=GenericAction, selectors=[])], member=getClientProperty, postfix_operators=[], prefix_operators=[], qualifier=item, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=Action, sub_type=None)), name=action)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Action, sub_type=None)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=action, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator===), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=item, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=AbstractButton, sub_type=None), operator=instanceof), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=action, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Cast(expression=MemberReference(member=item, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=AbstractButton, sub_type=None))), label=None)])), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=action, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator===), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[ContinueStatement(goto=None, label=None)]))])), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=isEnabled, postfix_operators=[], prefix_operators=[], qualifier=action, selectors=[], type_arguments=None), name=bEnabled)], modifiers=set(), type=BasicType(dimensions=[], name=boolean)), IfStatement(condition=BinaryOperation(operandl=MethodInvocation(arguments=[], member=isEnabled, postfix_operators=[], prefix_operators=[], qualifier=item, selectors=[], type_arguments=None), operandr=MemberReference(member=bEnabled, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=!=), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=bEnabled, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=setEnabled, postfix_operators=[], prefix_operators=[], qualifier=item, selectors=[], type_arguments=None), label=None)])), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=action, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=GenericAction, sub_type=None), operator=instanceof), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Cast(expression=MemberReference(member=action, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=GenericAction, sub_type=None)), name=bSelected)], modifiers=set(), type=BasicType(dimensions=[], name=boolean)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=item, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=JToggleButton, sub_type=None), operator=instanceof), else_statement=IfStatement(condition=BinaryOperation(operandl=MemberReference(member=item, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=JCheckBoxMenuItem, sub_type=None), operator=instanceof), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Cast(expression=MemberReference(member=item, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=JCheckBoxMenuItem, sub_type=None)), name=tb)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=JCheckBoxMenuItem, sub_type=None)), IfStatement(condition=BinaryOperation(operandl=MethodInvocation(arguments=[], member=getState, postfix_operators=[], prefix_operators=[], qualifier=tb, selectors=[], type_arguments=None), operandr=MemberReference(member=bSelected, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=!=), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=bSelected, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=setState, postfix_operators=[], prefix_operators=[], qualifier=tb, selectors=[], type_arguments=None), label=None)]))])), label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Cast(expression=MemberReference(member=item, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=JToggleButton, sub_type=None)), name=tb)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=JToggleButton, sub_type=None)), IfStatement(condition=BinaryOperation(operandl=MethodInvocation(arguments=[], member=isSelected, postfix_operators=[], prefix_operators=[], qualifier=tb, selectors=[], type_arguments=None), operandr=MemberReference(member=bSelected, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=!=), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=bSelected, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=setSelected, postfix_operators=[], prefix_operators=[], qualifier=tb, selectors=[], type_arguments=None), label=None)]))]))]))]), control=ForControl(condition=MethodInvocation(arguments=[], member=hasNext, postfix_operators=[], prefix_operators=[], qualifier=iter, selectors=[], type_arguments=None), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=MethodInvocation(arguments=[], member=keySet, postfix_operators=[], prefix_operators=[], qualifier=_mapItems, selectors=[MethodInvocation(arguments=[], member=iterator, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), name=iter)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Iterator, sub_type=None)), update=None), label=None) end[}] END[}]	Keyword[protected] Keyword[void] identifier[_notifyActionComponentsNow] operator[SEP] operator[SEP] { Keyword[for] operator[SEP] identifier[Iterator] identifier[iter] operator[=] identifier[_mapItems] operator[SEP] identifier[keySet] operator[SEP] operator[SEP] operator[SEP] identifier[iterator] operator[SEP] operator[SEP] operator[SEP] identifier[iter] operator[SEP] identifier[hasNext] operator[SEP] operator[SEP] operator[SEP] operator[SEP] { identifier[JComponent] identifier[item] operator[=] operator[SEP] identifier[JComponent] operator[SEP] identifier[iter] operator[SEP] identifier[next] operator[SEP] operator[SEP] operator[SEP] identifier[Action] identifier[action] operator[=] operator[SEP] identifier[Action] operator[SEP] identifier[item] operator[SEP] identifier[getClientProperty] operator[SEP] identifier[GenericAction] operator[SEP] identifier[ACTION_PROPERTY] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[action] operator[==] Other[null] operator[SEP] { Keyword[if] operator[SEP] identifier[item] Keyword[instanceof] identifier[AbstractButton] operator[SEP] { identifier[action] operator[=] operator[SEP] operator[SEP] identifier[AbstractButton] operator[SEP] identifier[item] operator[SEP] operator[SEP] identifier[getAction] operator[SEP] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[action] operator[==] Other[null] operator[SEP] { Keyword[continue] operator[SEP] } } Keyword[boolean] identifier[bEnabled] operator[=] identifier[action] operator[SEP] identifier[isEnabled] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[item] operator[SEP] identifier[isEnabled] operator[SEP] operator[SEP] operator[!=] identifier[bEnabled] operator[SEP] { identifier[item] operator[SEP] identifier[setEnabled] operator[SEP] identifier[bEnabled] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[action] Keyword[instanceof] identifier[GenericAction] operator[SEP] { Keyword[boolean] identifier[bSelected] operator[=] operator[SEP] operator[SEP] identifier[GenericAction] operator[SEP] identifier[action] operator[SEP] operator[SEP] identifier[isSelected] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[item] Keyword[instanceof] identifier[JToggleButton] operator[SEP] { identifier[JToggleButton] identifier[tb] operator[=] operator[SEP] identifier[JToggleButton] operator[SEP] identifier[item] operator[SEP] Keyword[if] operator[SEP] identifier[tb] operator[SEP] identifier[isSelected] operator[SEP] operator[SEP] operator[!=] identifier[bSelected] operator[SEP] { identifier[tb] operator[SEP] identifier[setSelected] operator[SEP] identifier[bSelected] operator[SEP] operator[SEP] } } Keyword[else] Keyword[if] operator[SEP] identifier[item] Keyword[instanceof] identifier[JCheckBoxMenuItem] operator[SEP] { identifier[JCheckBoxMenuItem] identifier[tb] operator[=] operator[SEP] identifier[JCheckBoxMenuItem] operator[SEP] identifier[item] operator[SEP] Keyword[if] operator[SEP] identifier[tb] operator[SEP] identifier[getState] operator[SEP] operator[SEP] operator[!=] identifier[bSelected] operator[SEP] { identifier[tb] operator[SEP] identifier[setState] operator[SEP] identifier[bSelected] operator[SEP] operator[SEP] } } } } }
public void setSSLParameters(SSLParameters params) { String[] s; s = params.getCipherSuites(); if (s != null) { setEnabledCipherSuites(s); } s = params.getProtocols(); if (s != null) { setEnabledProtocols(s); } if (params.getNeedClientAuth()) { setNeedClientAuth(true); } else if (params.getWantClientAuth()) { setWantClientAuth(true); } else { setWantClientAuth(false); } }	class class_name[name] begin[{] method[setSSLParameters, return_type[void], modifier[public], parameter[params]] begin[{] local_variable[type[String], s] assign[member[.s], call[params.getCipherSuites, parameter[]]] if[binary_operation[member[.s], !=, literal[null]]] begin[{] call[.setEnabledCipherSuites, parameter[member[.s]]] else begin[{] None end[}] assign[member[.s], call[params.getProtocols, parameter[]]] if[binary_operation[member[.s], !=, literal[null]]] begin[{] call[.setEnabledProtocols, parameter[member[.s]]] else begin[{] None end[}] if[call[params.getNeedClientAuth, parameter[]]] begin[{] call[.setNeedClientAuth, parameter[literal[true]]] else begin[{] if[call[params.getWantClientAuth, parameter[]]] begin[{] call[.setWantClientAuth, parameter[literal[true]]] else begin[{] call[.setWantClientAuth, parameter[literal[false]]] end[}] end[}] end[}] END[}]	Keyword[public] Keyword[void] identifier[setSSLParameters] operator[SEP] identifier[SSLParameters] identifier[params] operator[SEP] { identifier[String] operator[SEP] operator[SEP] identifier[s] operator[SEP] identifier[s] operator[=] identifier[params] operator[SEP] identifier[getCipherSuites] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[s] operator[!=] Other[null] operator[SEP] { identifier[setEnabledCipherSuites] operator[SEP] identifier[s] operator[SEP] operator[SEP] } identifier[s] operator[=] identifier[params] operator[SEP] identifier[getProtocols] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[s] operator[!=] Other[null] operator[SEP] { identifier[setEnabledProtocols] operator[SEP] identifier[s] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[params] operator[SEP] identifier[getNeedClientAuth] operator[SEP] operator[SEP] operator[SEP] { identifier[setNeedClientAuth] operator[SEP] literal[boolean] operator[SEP] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[params] operator[SEP] identifier[getWantClientAuth] operator[SEP] operator[SEP] operator[SEP] { identifier[setWantClientAuth] operator[SEP] literal[boolean] operator[SEP] operator[SEP] } Keyword[else] { identifier[setWantClientAuth] operator[SEP] literal[boolean] operator[SEP] operator[SEP] } }
@Pure public static Rectangle2d getNodeBuildingBounds(AbstractGISTreeSetNode<?, ?> node) { assert node != null; final double w = node.nodeWidth / 2.; final double h = node.nodeHeight / 2.; final IcosepQuadTreeZone zone = node.getZone(); final double lx; final double ly; if (zone == null) { // Is root node lx = node.verticalSplit - w; ly = node.horizontalSplit - h; } else { switch (zone) { case SOUTH_EAST: lx = node.verticalSplit; ly = node.horizontalSplit - h; break; case SOUTH_WEST: lx = node.verticalSplit - w; ly = node.horizontalSplit - h; break; case NORTH_EAST: lx = node.verticalSplit; ly = node.horizontalSplit; break; case NORTH_WEST: lx = node.verticalSplit - w; ly = node.horizontalSplit; break; case ICOSEP: return getNodeBuildingBounds(node.getParentNode()); default: throw new IllegalStateException(); } } return new Rectangle2d(lx, ly, node.nodeWidth, node.nodeHeight); }	class class_name[name] begin[{] method[getNodeBuildingBounds, return_type[type[Rectangle2d]], modifier[public static], parameter[node]] begin[{] AssertStatement(condition=BinaryOperation(operandl=MemberReference(member=node, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator=!=), label=None, value=None) local_variable[type[double], w] local_variable[type[double], h] local_variable[type[IcosepQuadTreeZone], zone] local_variable[type[double], lx] local_variable[type[double], ly] if[binary_operation[member[.zone], ==, literal[null]]] begin[{] assign[member[.lx], binary_operation[member[node.verticalSplit], -, member[.w]]] assign[member[.ly], binary_operation[member[node.horizontalSplit], -, member[.h]]] else begin[{] SwitchStatement(cases=[SwitchStatementCase(case=['SOUTH_EAST'], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=lx, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MemberReference(member=verticalSplit, postfix_operators=[], prefix_operators=[], qualifier=node, selectors=[])), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=ly, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=BinaryOperation(operandl=MemberReference(member=horizontalSplit, postfix_operators=[], prefix_operators=[], qualifier=node, selectors=[]), operandr=MemberReference(member=h, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=-)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=['SOUTH_WEST'], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=lx, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=BinaryOperation(operandl=MemberReference(member=verticalSplit, postfix_operators=[], prefix_operators=[], qualifier=node, selectors=[]), operandr=MemberReference(member=w, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=-)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=ly, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=BinaryOperation(operandl=MemberReference(member=horizontalSplit, postfix_operators=[], prefix_operators=[], qualifier=node, selectors=[]), operandr=MemberReference(member=h, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=-)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=['NORTH_EAST'], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=lx, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MemberReference(member=verticalSplit, postfix_operators=[], prefix_operators=[], qualifier=node, selectors=[])), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=ly, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MemberReference(member=horizontalSplit, postfix_operators=[], prefix_operators=[], qualifier=node, selectors=[])), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=['NORTH_WEST'], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=lx, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=BinaryOperation(operandl=MemberReference(member=verticalSplit, postfix_operators=[], prefix_operators=[], qualifier=node, selectors=[]), operandr=MemberReference(member=w, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=-)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=ly, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MemberReference(member=horizontalSplit, postfix_operators=[], prefix_operators=[], qualifier=node, selectors=[])), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=['ICOSEP'], statements=[ReturnStatement(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getParentNode, postfix_operators=[], prefix_operators=[], qualifier=node, selectors=[], type_arguments=None)], member=getNodeBuildingBounds, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)]), SwitchStatementCase(case=[], statements=[ThrowStatement(expression=ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=IllegalStateException, sub_type=None)), label=None)])], expression=MemberReference(member=zone, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), label=None) end[}] return[ClassCreator(arguments=[MemberReference(member=lx, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=ly, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=nodeWidth, postfix_operators=[], prefix_operators=[], qualifier=node, selectors=[]), MemberReference(member=nodeHeight, postfix_operators=[], prefix_operators=[], qualifier=node, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Rectangle2d, sub_type=None))] end[}] END[}]	annotation[@] identifier[Pure] Keyword[public] Keyword[static] identifier[Rectangle2d] identifier[getNodeBuildingBounds] operator[SEP] identifier[AbstractGISTreeSetNode] operator[<] operator[?] , operator[?] operator[>] identifier[node] operator[SEP] { Keyword[assert] identifier[node] operator[!=] Other[null] operator[SEP] Keyword[final] Keyword[double] identifier[w] operator[=] identifier[node] operator[SEP] identifier[nodeWidth] operator[/] literal[Float] operator[SEP] Keyword[final] Keyword[double] identifier[h] operator[=] identifier[node] operator[SEP] identifier[nodeHeight] operator[/] literal[Float] operator[SEP] Keyword[final] identifier[IcosepQuadTreeZone] identifier[zone] operator[=] identifier[node] operator[SEP] identifier[getZone] operator[SEP] operator[SEP] operator[SEP] Keyword[final] Keyword[double] identifier[lx] operator[SEP] Keyword[final] Keyword[double] identifier[ly] operator[SEP] Keyword[if] operator[SEP] identifier[zone] operator[==] Other[null] operator[SEP] { identifier[lx] operator[=] identifier[node] operator[SEP] identifier[verticalSplit] operator[-] identifier[w] operator[SEP] identifier[ly] operator[=] identifier[node] operator[SEP] identifier[horizontalSplit] operator[-] identifier[h] operator[SEP] } Keyword[else] { Keyword[switch] operator[SEP] identifier[zone] operator[SEP] { Keyword[case] identifier[SOUTH_EAST] operator[:] identifier[lx] operator[=] identifier[node] operator[SEP] identifier[verticalSplit] operator[SEP] identifier[ly] operator[=] identifier[node] operator[SEP] identifier[horizontalSplit] operator[-] identifier[h] operator[SEP] Keyword[break] operator[SEP] Keyword[case] identifier[SOUTH_WEST] operator[:] identifier[lx] operator[=] identifier[node] operator[SEP] identifier[verticalSplit] operator[-] identifier[w] operator[SEP] identifier[ly] operator[=] identifier[node] operator[SEP] identifier[horizontalSplit] operator[-] identifier[h] operator[SEP] Keyword[break] operator[SEP] Keyword[case] identifier[NORTH_EAST] operator[:] identifier[lx] operator[=] identifier[node] operator[SEP] identifier[verticalSplit] operator[SEP] identifier[ly] operator[=] identifier[node] operator[SEP] identifier[horizontalSplit] operator[SEP] Keyword[break] operator[SEP] Keyword[case] identifier[NORTH_WEST] operator[:] identifier[lx] operator[=] identifier[node] operator[SEP] identifier[verticalSplit] operator[-] identifier[w] operator[SEP] identifier[ly] operator[=] identifier[node] operator[SEP] identifier[horizontalSplit] operator[SEP] Keyword[break] operator[SEP] Keyword[case] identifier[ICOSEP] operator[:] Keyword[return] identifier[getNodeBuildingBounds] operator[SEP] identifier[node] operator[SEP] identifier[getParentNode] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[default] operator[:] Keyword[throw] Keyword[new] identifier[IllegalStateException] operator[SEP] operator[SEP] operator[SEP] } } Keyword[return] Keyword[new] identifier[Rectangle2d] operator[SEP] identifier[lx] , identifier[ly] , identifier[node] operator[SEP] identifier[nodeWidth] , identifier[node] operator[SEP] identifier[nodeHeight] operator[SEP] operator[SEP] }
protected void addConstructors(ClassFile proxyClassType, List<DeferredBytecode> initialValueBytecode) { try { if (getBeanType().isInterface()) { ConstructorUtils.addDefaultConstructor(proxyClassType, initialValueBytecode, !useConstructedFlag()); } else { boolean constructorFound = false; for (Constructor<?> constructor : AccessController.doPrivileged(new GetDeclaredConstructorsAction(getBeanType()))) { if ((constructor.getModifiers() & Modifier.PRIVATE) == 0) { constructorFound = true; String[] exceptions = new String[constructor.getExceptionTypes().length]; for (int i = 0; i < exceptions.length; ++i) { exceptions[i] = constructor.getExceptionTypes()[i].getName(); } ConstructorUtils.addConstructor(BytecodeUtils.VOID_CLASS_DESCRIPTOR, DescriptorUtils.parameterDescriptors(constructor.getParameterTypes()), exceptions, proxyClassType, initialValueBytecode, !useConstructedFlag()); } } if (!constructorFound) { // the bean only has private constructors, we need to generate // two fake constructors that call each other addConstructorsForBeanWithPrivateConstructors(proxyClassType); } } } catch (Exception e) { throw new WeldException(e); } }	class class_name[name] begin[{] method[addConstructors, return_type[void], modifier[protected], parameter[proxyClassType, initialValueBytecode]] begin[{] TryStatement(block=[IfStatement(condition=MethodInvocation(arguments=[], member=getBeanType, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[MethodInvocation(arguments=[], member=isInterface, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), else_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=false), name=constructorFound)], modifiers=set(), type=BasicType(dimensions=[], name=boolean)), ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=BinaryOperation(operandl=MethodInvocation(arguments=[], member=getModifiers, postfix_operators=[], prefix_operators=[], qualifier=constructor, selectors=[], type_arguments=None), operandr=MemberReference(member=PRIVATE, postfix_operators=[], prefix_operators=[], qualifier=Modifier, selectors=[]), operator=&), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), operator===), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=constructorFound, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ArrayCreator(dimensions=[MethodInvocation(arguments=[], member=getExceptionTypes, postfix_operators=[], prefix_operators=[], qualifier=constructor, selectors=[MemberReference(member=length, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None)], type_arguments=None)], initializer=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=String, sub_type=None)), name=exceptions)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[None], name=String, sub_type=None)), ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=exceptions, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), type==, value=MethodInvocation(arguments=[], member=getExceptionTypes, postfix_operators=[], prefix_operators=[], qualifier=constructor, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), MethodInvocation(arguments=[], member=getName, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None)), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=length, postfix_operators=[], prefix_operators=[], qualifier=exceptions, selectors=[]), operator=<), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), name=i)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=i, postfix_operators=[], prefix_operators=['++'], qualifier=, selectors=[])]), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=VOID_CLASS_DESCRIPTOR, postfix_operators=[], prefix_operators=[], qualifier=BytecodeUtils, selectors=[]), MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getParameterTypes, postfix_operators=[], prefix_operators=[], qualifier=constructor, selectors=[], type_arguments=None)], member=parameterDescriptors, postfix_operators=[], prefix_operators=[], qualifier=DescriptorUtils, selectors=[], type_arguments=None), MemberReference(member=exceptions, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=proxyClassType, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=initialValueBytecode, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MethodInvocation(arguments=[], member=useConstructedFlag, postfix_operators=[], prefix_operators=['!'], qualifier=, selectors=[], type_arguments=None)], member=addConstructor, postfix_operators=[], prefix_operators=[], qualifier=ConstructorUtils, selectors=[], type_arguments=None), label=None)]))]), control=EnhancedForControl(iterable=MethodInvocation(arguments=[ClassCreator(arguments=[MethodInvocation(arguments=[], member=getBeanType, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=GetDeclaredConstructorsAction, sub_type=None))], member=doPrivileged, postfix_operators=[], prefix_operators=[], qualifier=AccessController, selectors=[], type_arguments=None), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=constructor)], modifiers=set(), type=ReferenceType(arguments=[TypeArgument(pattern_type=?, type=None)], dimensions=[], name=Constructor, sub_type=None))), label=None), IfStatement(condition=MemberReference(member=constructorFound, postfix_operators=[], prefix_operators=['!'], qualifier=, selectors=[]), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=proxyClassType, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=addConstructorsForBeanWithPrivateConstructors, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)]))]), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=proxyClassType, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=initialValueBytecode, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MethodInvocation(arguments=[], member=useConstructedFlag, postfix_operators=[], prefix_operators=['!'], qualifier=, selectors=[], type_arguments=None)], member=addDefaultConstructor, postfix_operators=[], prefix_operators=[], qualifier=ConstructorUtils, selectors=[], type_arguments=None), label=None)]))], catches=[CatchClause(block=[ThrowStatement(expression=ClassCreator(arguments=[MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=WeldException, sub_type=None)), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['Exception']))], finally_block=None, label=None, resources=None) end[}] END[}]	Keyword[protected] Keyword[void] identifier[addConstructors] operator[SEP] identifier[ClassFile] identifier[proxyClassType] , identifier[List] operator[<] identifier[DeferredBytecode] operator[>] identifier[initialValueBytecode] operator[SEP] { Keyword[try] { Keyword[if] operator[SEP] identifier[getBeanType] operator[SEP] operator[SEP] operator[SEP] identifier[isInterface] operator[SEP] operator[SEP] operator[SEP] { identifier[ConstructorUtils] operator[SEP] identifier[addDefaultConstructor] operator[SEP] identifier[proxyClassType] , identifier[initialValueBytecode] , operator[!] identifier[useConstructedFlag] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] { Keyword[boolean] identifier[constructorFound] operator[=] literal[boolean] operator[SEP] Keyword[for] operator[SEP] identifier[Constructor] operator[<] operator[?] operator[>] identifier[constructor] operator[:] identifier[AccessController] operator[SEP] identifier[doPrivileged] operator[SEP] Keyword[new] identifier[GetDeclaredConstructorsAction] operator[SEP] identifier[getBeanType] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] operator[SEP] identifier[constructor] operator[SEP] identifier[getModifiers] operator[SEP] operator[SEP] operator[&] identifier[Modifier] operator[SEP] identifier[PRIVATE] operator[SEP] operator[==] Other[0] operator[SEP] { identifier[constructorFound] operator[=] literal[boolean] operator[SEP] identifier[String] operator[SEP] operator[SEP] identifier[exceptions] operator[=] Keyword[new] identifier[String] operator[SEP] identifier[constructor] operator[SEP] identifier[getExceptionTypes] operator[SEP] operator[SEP] operator[SEP] identifier[length] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[exceptions] operator[SEP] identifier[length] operator[SEP] operator[++] identifier[i] operator[SEP] { identifier[exceptions] operator[SEP] identifier[i] operator[SEP] operator[=] identifier[constructor] operator[SEP] identifier[getExceptionTypes] operator[SEP] operator[SEP] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[getName] operator[SEP] operator[SEP] operator[SEP] } identifier[ConstructorUtils] operator[SEP] identifier[addConstructor] operator[SEP] identifier[BytecodeUtils] operator[SEP] identifier[VOID_CLASS_DESCRIPTOR] , identifier[DescriptorUtils] operator[SEP] identifier[parameterDescriptors] operator[SEP] identifier[constructor] operator[SEP] identifier[getParameterTypes] operator[SEP] operator[SEP] operator[SEP] , identifier[exceptions] , identifier[proxyClassType] , identifier[initialValueBytecode] , operator[!] identifier[useConstructedFlag] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } } Keyword[if] operator[SEP] operator[!] identifier[constructorFound] operator[SEP] { identifier[addConstructorsForBeanWithPrivateConstructors] operator[SEP] identifier[proxyClassType] operator[SEP] operator[SEP] } } } Keyword[catch] operator[SEP] identifier[Exception] identifier[e] operator[SEP] { Keyword[throw] Keyword[new] identifier[WeldException] operator[SEP] identifier[e] operator[SEP] operator[SEP] } }
@Override public boolean setMultiplier(IAtomContainer container, Double multiplier) { logger.debug("Setting multiplier for atomcontainer: ", container, "" + multiplier); return super.setMultiplier(container, multiplier); }	class class_name[name] begin[{] method[setMultiplier, return_type[type[boolean]], modifier[public], parameter[container, multiplier]] begin[{] call[logger.debug, parameter[literal["Setting multiplier for atomcontainer: "], member[.container], binary_operation[literal[""], +, member[.multiplier]]]] return[SuperMethodInvocation(arguments=[MemberReference(member=container, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=multiplier, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=setMultiplier, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type_arguments=None)] end[}] END[}]	annotation[@] identifier[Override] Keyword[public] Keyword[boolean] identifier[setMultiplier] operator[SEP] identifier[IAtomContainer] identifier[container] , identifier[Double] identifier[multiplier] operator[SEP] { identifier[logger] operator[SEP] identifier[debug] operator[SEP] literal[String] , identifier[container] , literal[String] operator[+] identifier[multiplier] operator[SEP] operator[SEP] Keyword[return] Keyword[super] operator[SEP] identifier[setMultiplier] operator[SEP] identifier[container] , identifier[multiplier] operator[SEP] operator[SEP] }
public AutomationExecution withTargetLocations(TargetLocation... targetLocations) { if (this.targetLocations == null) { setTargetLocations(new com.amazonaws.internal.SdkInternalList<TargetLocation>(targetLocations.length)); } for (TargetLocation ele : targetLocations) { this.targetLocations.add(ele); } return this; }	class class_name[name] begin[{] method[withTargetLocations, return_type[type[AutomationExecution]], modifier[public], parameter[targetLocations]] begin[{] if[binary_operation[THIS[member[None.targetLocations]], ==, literal[null]]] begin[{] call[.setTargetLocations, parameter[ClassCreator(arguments=[MemberReference(member=length, postfix_operators=[], prefix_operators=[], qualifier=targetLocations, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=com, sub_type=ReferenceType(arguments=None, dimensions=None, name=amazonaws, sub_type=ReferenceType(arguments=None, dimensions=None, name=internal, sub_type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=TargetLocation, sub_type=None))], dimensions=None, name=SdkInternalList, sub_type=None)))))]] else begin[{] None end[}] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MemberReference(member=targetLocations, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None), MethodInvocation(arguments=[MemberReference(member=ele, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=add, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), label=None)]), control=EnhancedForControl(iterable=MemberReference(member=targetLocations, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=ele)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=TargetLocation, sub_type=None))), label=None) return[THIS[]] end[}] END[}]	Keyword[public] identifier[AutomationExecution] identifier[withTargetLocations] operator[SEP] identifier[TargetLocation] operator[...] identifier[targetLocations] operator[SEP] { Keyword[if] operator[SEP] Keyword[this] operator[SEP] identifier[targetLocations] operator[==] Other[null] operator[SEP] { identifier[setTargetLocations] operator[SEP] Keyword[new] identifier[com] operator[SEP] identifier[amazonaws] operator[SEP] identifier[internal] operator[SEP] identifier[SdkInternalList] operator[<] identifier[TargetLocation] operator[>] operator[SEP] identifier[targetLocations] operator[SEP] identifier[length] operator[SEP] operator[SEP] operator[SEP] } Keyword[for] operator[SEP] identifier[TargetLocation] identifier[ele] operator[:] identifier[targetLocations] operator[SEP] { Keyword[this] operator[SEP] identifier[targetLocations] operator[SEP] identifier[add] operator[SEP] identifier[ele] operator[SEP] operator[SEP] } Keyword[return] Keyword[this] operator[SEP] }

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