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CodeT5SmallCAPS
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CAPS_Java

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1
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63
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stringlengths
274
1.23M
private void resize(int newSize) { Object[] keys = _keys; int values[] = _values; _keys = new Object[newSize]; _values = new int[newSize]; _size = 0; _prime = getBiggestPrime(_keys.length); for (int i = keys.length - 1; i >= 0; i--) { Object key = keys[i]; if (key != null) { put(key, values[i], true); } } }
class class_name[name] begin[{] method[resize, return_type[void], modifier[private], parameter[newSize]] begin[{] local_variable[type[Object], keys] local_variable[type[int], values] assign[member[._keys], ArrayCreator(dimensions=[MemberReference(member=newSize, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], initializer=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Object, sub_type=None))] assign[member[._values], ArrayCreator(dimensions=[MemberReference(member=newSize, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], initializer=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=BasicType(dimensions=None, name=int))] assign[member[._size], literal[0]] assign[member[._prime], call[.getBiggestPrime, parameter[member[_keys.length]]]] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=keys, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), name=key)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Object, sub_type=None)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=key, 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=[MemberReference(member=key, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=values, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)], member=put, 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=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), operator=>=), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=BinaryOperation(operandl=MemberReference(member=length, postfix_operators=[], prefix_operators=[], qualifier=keys, selectors=[]), 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[}]
Keyword[private] Keyword[void] identifier[resize] operator[SEP] Keyword[int] identifier[newSize] operator[SEP] { identifier[Object] operator[SEP] operator[SEP] identifier[keys] operator[=] identifier[_keys] operator[SEP] Keyword[int] identifier[values] operator[SEP] operator[SEP] operator[=] identifier[_values] operator[SEP] identifier[_keys] operator[=] Keyword[new] identifier[Object] operator[SEP] identifier[newSize] operator[SEP] operator[SEP] identifier[_values] operator[=] Keyword[new] Keyword[int] operator[SEP] identifier[newSize] operator[SEP] operator[SEP] identifier[_size] operator[=] Other[0] operator[SEP] identifier[_prime] operator[=] identifier[getBiggestPrime] operator[SEP] identifier[_keys] operator[SEP] identifier[length] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] identifier[keys] operator[SEP] identifier[length] operator[-] Other[1] operator[SEP] identifier[i] operator[>=] Other[0] operator[SEP] identifier[i] operator[--] operator[SEP] { identifier[Object] identifier[key] operator[=] identifier[keys] operator[SEP] identifier[i] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[key] operator[!=] Other[null] operator[SEP] { identifier[put] operator[SEP] identifier[key] , identifier[values] operator[SEP] identifier[i] operator[SEP] , literal[boolean] operator[SEP] operator[SEP] } } }
public static void setDefaultTableEditorsClicks(JTable table, int clickCountToStart) { TableCellEditor editor; editor = table.getDefaultEditor(Object.class); if (editor instanceof DefaultCellEditor) { ((DefaultCellEditor) editor).setClickCountToStart(clickCountToStart); } editor = table.getDefaultEditor(Number.class); if (editor instanceof DefaultCellEditor) { ((DefaultCellEditor) editor).setClickCountToStart(clickCountToStart); } editor = table.getDefaultEditor(Boolean.class); if (editor instanceof DefaultCellEditor) { ((DefaultCellEditor) editor).setClickCountToStart(clickCountToStart); } }
class class_name[name] begin[{] method[setDefaultTableEditorsClicks, return_type[void], modifier[public static], parameter[table, clickCountToStart]] begin[{] local_variable[type[TableCellEditor], editor] assign[member[.editor], call[table.getDefaultEditor, parameter[ClassReference(postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Object, sub_type=None))]]] if[binary_operation[member[.editor], instanceof, type[DefaultCellEditor]]] begin[{] Cast(expression=MemberReference(member=editor, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=DefaultCellEditor, sub_type=None)) else begin[{] None end[}] assign[member[.editor], call[table.getDefaultEditor, parameter[ClassReference(postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Number, sub_type=None))]]] if[binary_operation[member[.editor], instanceof, type[DefaultCellEditor]]] begin[{] Cast(expression=MemberReference(member=editor, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=DefaultCellEditor, sub_type=None)) else begin[{] None end[}] assign[member[.editor], call[table.getDefaultEditor, parameter[ClassReference(postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Boolean, sub_type=None))]]] if[binary_operation[member[.editor], instanceof, type[DefaultCellEditor]]] begin[{] Cast(expression=MemberReference(member=editor, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=DefaultCellEditor, sub_type=None)) else begin[{] None end[}] end[}] END[}]
Keyword[public] Keyword[static] Keyword[void] identifier[setDefaultTableEditorsClicks] operator[SEP] identifier[JTable] identifier[table] , Keyword[int] identifier[clickCountToStart] operator[SEP] { identifier[TableCellEditor] identifier[editor] operator[SEP] identifier[editor] operator[=] identifier[table] operator[SEP] identifier[getDefaultEditor] operator[SEP] identifier[Object] operator[SEP] Keyword[class] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[editor] Keyword[instanceof] identifier[DefaultCellEditor] operator[SEP] { operator[SEP] operator[SEP] identifier[DefaultCellEditor] operator[SEP] identifier[editor] operator[SEP] operator[SEP] identifier[setClickCountToStart] operator[SEP] identifier[clickCountToStart] operator[SEP] operator[SEP] } identifier[editor] operator[=] identifier[table] operator[SEP] identifier[getDefaultEditor] operator[SEP] identifier[Number] operator[SEP] Keyword[class] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[editor] Keyword[instanceof] identifier[DefaultCellEditor] operator[SEP] { operator[SEP] operator[SEP] identifier[DefaultCellEditor] operator[SEP] identifier[editor] operator[SEP] operator[SEP] identifier[setClickCountToStart] operator[SEP] identifier[clickCountToStart] operator[SEP] operator[SEP] } identifier[editor] operator[=] identifier[table] operator[SEP] identifier[getDefaultEditor] operator[SEP] identifier[Boolean] operator[SEP] Keyword[class] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[editor] Keyword[instanceof] identifier[DefaultCellEditor] operator[SEP] { operator[SEP] operator[SEP] identifier[DefaultCellEditor] operator[SEP] identifier[editor] operator[SEP] operator[SEP] identifier[setClickCountToStart] operator[SEP] identifier[clickCountToStart] operator[SEP] operator[SEP] } }
public static boolean deleteFileOrDir( File filehandle ) throws IOException { if (filehandle.isDirectory()) { Files.walkFileTree(Paths.get(filehandle.getAbsolutePath()), new SimpleFileVisitor<Path>(){ @Override public FileVisitResult visitFile( Path file, BasicFileAttributes attrs ) throws IOException { Files.delete(file); return FileVisitResult.CONTINUE; } @Override public FileVisitResult postVisitDirectory( Path dir, IOException exc ) throws IOException { if (exc != null) { throw exc; } Files.delete(dir); return FileVisitResult.CONTINUE; } }); } boolean isdel = filehandle.delete(); if (!isdel) { // if it didn't work, which somtimes happens on windows systems, // remove on exit filehandle.deleteOnExit(); } return isdel; }
class class_name[name] begin[{] method[deleteFileOrDir, return_type[type[boolean]], modifier[public static], parameter[filehandle]] begin[{] if[call[filehandle.isDirectory, parameter[]]] begin[{] call[Files.walkFileTree, parameter[call[Paths.get, parameter[call[filehandle.getAbsolutePath, parameter[]]]], ClassCreator(arguments=[], body=[MethodDeclaration(annotations=[Annotation(element=None, name=Override)], body=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=file, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=delete, postfix_operators=[], prefix_operators=[], qualifier=Files, selectors=[], type_arguments=None), label=None), ReturnStatement(expression=MemberReference(member=CONTINUE, postfix_operators=[], prefix_operators=[], qualifier=FileVisitResult, selectors=[]), label=None)], documentation=None, modifiers={'public'}, name=visitFile, parameters=[FormalParameter(annotations=[], modifiers=set(), name=file, type=ReferenceType(arguments=None, dimensions=[], name=Path, sub_type=None), varargs=False), FormalParameter(annotations=[], modifiers=set(), name=attrs, type=ReferenceType(arguments=None, dimensions=[], name=BasicFileAttributes, sub_type=None), varargs=False)], return_type=ReferenceType(arguments=None, dimensions=[], name=FileVisitResult, sub_type=None), throws=['IOException'], type_parameters=None), MethodDeclaration(annotations=[Annotation(element=None, name=Override)], body=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=exc, 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=MemberReference(member=exc, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), label=None)])), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=dir, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=delete, postfix_operators=[], prefix_operators=[], qualifier=Files, selectors=[], type_arguments=None), label=None), ReturnStatement(expression=MemberReference(member=CONTINUE, postfix_operators=[], prefix_operators=[], qualifier=FileVisitResult, selectors=[]), label=None)], documentation=None, modifiers={'public'}, name=postVisitDirectory, parameters=[FormalParameter(annotations=[], modifiers=set(), name=dir, type=ReferenceType(arguments=None, dimensions=[], name=Path, sub_type=None), varargs=False), FormalParameter(annotations=[], modifiers=set(), name=exc, type=ReferenceType(arguments=None, dimensions=[], name=IOException, sub_type=None), varargs=False)], return_type=ReferenceType(arguments=None, dimensions=[], name=FileVisitResult, sub_type=None), throws=['IOException'], type_parameters=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=Path, sub_type=None))], dimensions=None, name=SimpleFileVisitor, sub_type=None))]] else begin[{] None end[}] local_variable[type[boolean], isdel] if[member[.isdel]] begin[{] call[filehandle.deleteOnExit, parameter[]] else begin[{] None end[}] return[member[.isdel]] end[}] END[}]
Keyword[public] Keyword[static] Keyword[boolean] identifier[deleteFileOrDir] operator[SEP] identifier[File] identifier[filehandle] operator[SEP] Keyword[throws] identifier[IOException] { Keyword[if] operator[SEP] identifier[filehandle] operator[SEP] identifier[isDirectory] operator[SEP] operator[SEP] operator[SEP] { identifier[Files] operator[SEP] identifier[walkFileTree] operator[SEP] identifier[Paths] operator[SEP] identifier[get] operator[SEP] identifier[filehandle] operator[SEP] identifier[getAbsolutePath] operator[SEP] operator[SEP] operator[SEP] , Keyword[new] identifier[SimpleFileVisitor] operator[<] identifier[Path] operator[>] operator[SEP] operator[SEP] { annotation[@] identifier[Override] Keyword[public] identifier[FileVisitResult] identifier[visitFile] operator[SEP] identifier[Path] identifier[file] , identifier[BasicFileAttributes] identifier[attrs] operator[SEP] Keyword[throws] identifier[IOException] { identifier[Files] operator[SEP] identifier[delete] operator[SEP] identifier[file] operator[SEP] operator[SEP] Keyword[return] identifier[FileVisitResult] operator[SEP] identifier[CONTINUE] operator[SEP] } annotation[@] identifier[Override] Keyword[public] identifier[FileVisitResult] identifier[postVisitDirectory] operator[SEP] identifier[Path] identifier[dir] , identifier[IOException] identifier[exc] operator[SEP] Keyword[throws] identifier[IOException] { Keyword[if] operator[SEP] identifier[exc] operator[!=] Other[null] operator[SEP] { Keyword[throw] identifier[exc] operator[SEP] } identifier[Files] operator[SEP] identifier[delete] operator[SEP] identifier[dir] operator[SEP] operator[SEP] Keyword[return] identifier[FileVisitResult] operator[SEP] identifier[CONTINUE] operator[SEP] } } operator[SEP] operator[SEP] } Keyword[boolean] identifier[isdel] operator[=] identifier[filehandle] operator[SEP] identifier[delete] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[isdel] operator[SEP] { identifier[filehandle] operator[SEP] identifier[deleteOnExit] operator[SEP] operator[SEP] operator[SEP] } Keyword[return] identifier[isdel] operator[SEP] }
public String[] getTags() { final int count = getChildCount(); final List<String> tagList = new ArrayList<>(); for (int i = 0; i < count; i++) { final TagView tagView = getTagAt(i); if (tagView.mState == TagView.STATE_NORMAL) { tagList.add(tagView.getText().toString()); } } return tagList.toArray(new String[tagList.size()]); }
class class_name[name] begin[{] method[getTags, return_type[type[String]], modifier[public], parameter[]] begin[{] local_variable[type[int], count] local_variable[type[List], tagList] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getTagAt, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), name=tagView)], modifiers={'final'}, type=ReferenceType(arguments=None, dimensions=[], name=TagView, sub_type=None)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=mState, postfix_operators=[], prefix_operators=[], qualifier=tagView, selectors=[]), operandr=MemberReference(member=STATE_NORMAL, postfix_operators=[], prefix_operators=[], qualifier=TagView, selectors=[]), operator===), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getText, postfix_operators=[], prefix_operators=[], qualifier=tagView, selectors=[MethodInvocation(arguments=[], member=toString, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None)], member=add, postfix_operators=[], prefix_operators=[], qualifier=tagList, selectors=[], type_arguments=None), label=None)]))]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=count, 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[call[tagList.toArray, parameter[ArrayCreator(dimensions=[MethodInvocation(arguments=[], member=size, postfix_operators=[], prefix_operators=[], qualifier=tagList, selectors=[], type_arguments=None)], initializer=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=String, sub_type=None))]]] end[}] END[}]
Keyword[public] identifier[String] operator[SEP] operator[SEP] identifier[getTags] operator[SEP] operator[SEP] { Keyword[final] Keyword[int] identifier[count] operator[=] identifier[getChildCount] operator[SEP] operator[SEP] operator[SEP] Keyword[final] identifier[List] operator[<] identifier[String] operator[>] identifier[tagList] operator[=] Keyword[new] identifier[ArrayList] operator[<] operator[>] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[count] operator[SEP] identifier[i] operator[++] operator[SEP] { Keyword[final] identifier[TagView] identifier[tagView] operator[=] identifier[getTagAt] operator[SEP] identifier[i] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[tagView] operator[SEP] identifier[mState] operator[==] identifier[TagView] operator[SEP] identifier[STATE_NORMAL] operator[SEP] { identifier[tagList] operator[SEP] identifier[add] operator[SEP] identifier[tagView] operator[SEP] identifier[getText] operator[SEP] operator[SEP] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } } Keyword[return] identifier[tagList] operator[SEP] identifier[toArray] operator[SEP] Keyword[new] identifier[String] operator[SEP] identifier[tagList] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] }
public void profileAttribute(final String name, String tag, final AttributeConverter<? extends Object> converter) { profileAttributes.put(name, tag); if (converter != null) { getConverters().put(name, converter); } else { getConverters().put(name, new StringConverter()); } }
class class_name[name] begin[{] method[profileAttribute, return_type[void], modifier[public], parameter[name, tag, converter]] begin[{] call[profileAttributes.put, parameter[member[.name], member[.tag]]] if[binary_operation[member[.converter], !=, literal[null]]] begin[{] call[.getConverters, parameter[]] else begin[{] call[.getConverters, parameter[]] end[}] end[}] END[}]
Keyword[public] Keyword[void] identifier[profileAttribute] operator[SEP] Keyword[final] identifier[String] identifier[name] , identifier[String] identifier[tag] , Keyword[final] identifier[AttributeConverter] operator[<] operator[?] Keyword[extends] identifier[Object] operator[>] identifier[converter] operator[SEP] { identifier[profileAttributes] operator[SEP] identifier[put] operator[SEP] identifier[name] , identifier[tag] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[converter] operator[!=] Other[null] operator[SEP] { identifier[getConverters] operator[SEP] operator[SEP] operator[SEP] identifier[put] operator[SEP] identifier[name] , identifier[converter] operator[SEP] operator[SEP] } Keyword[else] { identifier[getConverters] operator[SEP] operator[SEP] operator[SEP] identifier[put] operator[SEP] identifier[name] , Keyword[new] identifier[StringConverter] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } }
@Override public DecompilationResult decompileClassFile(Path rootDir, Path classFilePath, Path outputDir) throws DecompilationException { Checks.checkDirectoryToBeRead(rootDir.toFile(), "Classes root dir"); File classFile = classFilePath.toFile(); Checks.checkFileToBeRead(classFile, "Class file"); Checks.checkDirectoryToBeFilled(outputDir.toFile(), "Output directory"); log.info("Decompiling .class '" + classFilePath + "' to '" + outputDir + "' from: '" + rootDir + "'"); String name = classFilePath.normalize().toAbsolutePath().toString().substring(rootDir.toAbsolutePath().toString().length() + 1); final String typeName = StringUtils.removeEnd(name, ".class");// .replace('/', '.'); DecompilationResult result = new DecompilationResult(); try { DecompilerSettings settings = getDefaultSettings(outputDir.toFile()); this.procyonConf.setDecompilerSettings(settings); // TODO: This is horrible mess. final ITypeLoader typeLoader = new CompositeTypeLoader(new WindupClasspathTypeLoader(rootDir.toString()), new ClasspathTypeLoader()); WindupMetadataSystem metadataSystem = new WindupMetadataSystem(typeLoader); File outputFile = this.decompileType(settings, metadataSystem, typeName); result.addDecompiled(Collections.singletonList(classFilePath.toString()), outputFile.getAbsolutePath()); } catch (Throwable e) { DecompilationFailure failure = new DecompilationFailure("Error during decompilation of " + classFilePath.toString() + ":\n " + e.getMessage(), Collections.singletonList(name), e); log.severe(failure.getMessage()); result.addFailure(failure); } return result; }
class class_name[name] begin[{] method[decompileClassFile, return_type[type[DecompilationResult]], modifier[public], parameter[rootDir, classFilePath, outputDir]] begin[{] call[Checks.checkDirectoryToBeRead, parameter[call[rootDir.toFile, parameter[]], literal["Classes root dir"]]] local_variable[type[File], classFile] call[Checks.checkFileToBeRead, parameter[member[.classFile], literal["Class file"]]] call[Checks.checkDirectoryToBeFilled, parameter[call[outputDir.toFile, parameter[]], literal["Output directory"]]] call[log.info, parameter[binary_operation[binary_operation[binary_operation[binary_operation[binary_operation[binary_operation[literal["Decompiling .class '"], +, member[.classFilePath]], +, literal["' to '"]], +, member[.outputDir]], +, literal["' from: '"]], +, member[.rootDir]], +, literal["'"]]]] local_variable[type[String], name] local_variable[type[String], typeName] local_variable[type[DecompilationResult], result] TryStatement(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=toFile, postfix_operators=[], prefix_operators=[], qualifier=outputDir, selectors=[], type_arguments=None)], member=getDefaultSettings, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), name=settings)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=DecompilerSettings, sub_type=None)), StatementExpression(expression=This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MemberReference(member=procyonConf, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None), MethodInvocation(arguments=[MemberReference(member=settings, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=setDecompilerSettings, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[ClassCreator(arguments=[MethodInvocation(arguments=[], member=toString, postfix_operators=[], prefix_operators=[], qualifier=rootDir, selectors=[], type_arguments=None)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=WindupClasspathTypeLoader, sub_type=None)), ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=ClasspathTypeLoader, sub_type=None))], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=CompositeTypeLoader, sub_type=None)), name=typeLoader)], modifiers={'final'}, type=ReferenceType(arguments=None, dimensions=[], name=ITypeLoader, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[MemberReference(member=typeLoader, 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=WindupMetadataSystem, sub_type=None)), name=metadataSystem)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=WindupMetadataSystem, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MethodInvocation(arguments=[MemberReference(member=settings, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=metadataSystem, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=typeName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=decompileType, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), name=outputFile)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=File, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[MethodInvocation(arguments=[], member=toString, postfix_operators=[], prefix_operators=[], qualifier=classFilePath, selectors=[], type_arguments=None)], member=singletonList, postfix_operators=[], prefix_operators=[], qualifier=Collections, selectors=[], type_arguments=None), MethodInvocation(arguments=[], member=getAbsolutePath, postfix_operators=[], prefix_operators=[], qualifier=outputFile, selectors=[], type_arguments=None)], member=addDecompiled, postfix_operators=[], prefix_operators=[], qualifier=result, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Error during decompilation of "), operandr=MethodInvocation(arguments=[], member=toString, postfix_operators=[], prefix_operators=[], qualifier=classFilePath, selectors=[], type_arguments=None), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=":\n "), operator=+), operandr=MethodInvocation(arguments=[], member=getMessage, postfix_operators=[], prefix_operators=[], qualifier=e, selectors=[], type_arguments=None), operator=+), MethodInvocation(arguments=[MemberReference(member=name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=singletonList, postfix_operators=[], prefix_operators=[], qualifier=Collections, selectors=[], type_arguments=None), 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=DecompilationFailure, sub_type=None)), name=failure)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=DecompilationFailure, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getMessage, postfix_operators=[], prefix_operators=[], qualifier=failure, selectors=[], type_arguments=None)], member=severe, postfix_operators=[], prefix_operators=[], qualifier=log, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=failure, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=addFailure, postfix_operators=[], prefix_operators=[], qualifier=result, selectors=[], type_arguments=None), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['Throwable']))], finally_block=None, label=None, resources=None) return[member[.result]] end[}] END[}]
annotation[@] identifier[Override] Keyword[public] identifier[DecompilationResult] identifier[decompileClassFile] operator[SEP] identifier[Path] identifier[rootDir] , identifier[Path] identifier[classFilePath] , identifier[Path] identifier[outputDir] operator[SEP] Keyword[throws] identifier[DecompilationException] { identifier[Checks] operator[SEP] identifier[checkDirectoryToBeRead] operator[SEP] identifier[rootDir] operator[SEP] identifier[toFile] operator[SEP] operator[SEP] , literal[String] operator[SEP] operator[SEP] identifier[File] identifier[classFile] operator[=] identifier[classFilePath] operator[SEP] identifier[toFile] operator[SEP] operator[SEP] operator[SEP] identifier[Checks] operator[SEP] identifier[checkFileToBeRead] operator[SEP] identifier[classFile] , literal[String] operator[SEP] operator[SEP] identifier[Checks] operator[SEP] identifier[checkDirectoryToBeFilled] operator[SEP] identifier[outputDir] operator[SEP] identifier[toFile] operator[SEP] operator[SEP] , literal[String] operator[SEP] operator[SEP] identifier[log] operator[SEP] identifier[info] operator[SEP] literal[String] operator[+] identifier[classFilePath] operator[+] literal[String] operator[+] identifier[outputDir] operator[+] literal[String] operator[+] identifier[rootDir] operator[+] literal[String] operator[SEP] operator[SEP] identifier[String] identifier[name] operator[=] identifier[classFilePath] operator[SEP] identifier[normalize] operator[SEP] operator[SEP] operator[SEP] identifier[toAbsolutePath] operator[SEP] operator[SEP] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] identifier[substring] operator[SEP] identifier[rootDir] operator[SEP] identifier[toAbsolutePath] operator[SEP] operator[SEP] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] identifier[length] operator[SEP] operator[SEP] operator[+] Other[1] operator[SEP] operator[SEP] Keyword[final] identifier[String] identifier[typeName] operator[=] identifier[StringUtils] operator[SEP] identifier[removeEnd] operator[SEP] identifier[name] , literal[String] operator[SEP] operator[SEP] identifier[DecompilationResult] identifier[result] operator[=] Keyword[new] identifier[DecompilationResult] operator[SEP] operator[SEP] operator[SEP] Keyword[try] { identifier[DecompilerSettings] identifier[settings] operator[=] identifier[getDefaultSettings] operator[SEP] identifier[outputDir] operator[SEP] identifier[toFile] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[this] operator[SEP] identifier[procyonConf] operator[SEP] identifier[setDecompilerSettings] operator[SEP] identifier[settings] operator[SEP] operator[SEP] Keyword[final] identifier[ITypeLoader] identifier[typeLoader] operator[=] Keyword[new] identifier[CompositeTypeLoader] operator[SEP] Keyword[new] identifier[WindupClasspathTypeLoader] operator[SEP] identifier[rootDir] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] , Keyword[new] identifier[ClasspathTypeLoader] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[WindupMetadataSystem] identifier[metadataSystem] operator[=] Keyword[new] identifier[WindupMetadataSystem] operator[SEP] identifier[typeLoader] operator[SEP] operator[SEP] identifier[File] identifier[outputFile] operator[=] Keyword[this] operator[SEP] identifier[decompileType] operator[SEP] identifier[settings] , identifier[metadataSystem] , identifier[typeName] operator[SEP] operator[SEP] identifier[result] operator[SEP] identifier[addDecompiled] operator[SEP] identifier[Collections] operator[SEP] identifier[singletonList] operator[SEP] identifier[classFilePath] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] , identifier[outputFile] operator[SEP] identifier[getAbsolutePath] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[Throwable] identifier[e] operator[SEP] { identifier[DecompilationFailure] identifier[failure] operator[=] Keyword[new] identifier[DecompilationFailure] operator[SEP] literal[String] operator[+] identifier[classFilePath] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[+] literal[String] operator[+] identifier[e] operator[SEP] identifier[getMessage] operator[SEP] operator[SEP] , identifier[Collections] operator[SEP] identifier[singletonList] operator[SEP] identifier[name] operator[SEP] , identifier[e] operator[SEP] operator[SEP] identifier[log] operator[SEP] identifier[severe] operator[SEP] identifier[failure] operator[SEP] identifier[getMessage] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[result] operator[SEP] identifier[addFailure] operator[SEP] identifier[failure] operator[SEP] operator[SEP] } Keyword[return] identifier[result] operator[SEP] }
public static ZipUtils getZipUtils() { if (zipUtils == null) { try { Class clazz = Class.forName(ZIP_UTILS); zipUtils = (ZipUtils) clazz.newInstance(); } catch (ClassNotFoundException | InstantiationException | IllegalAccessException e) { LOGGER.warn("Cannot instanciate util: {}",e.getMessage()); throw new IllegalStateException(e); } } return zipUtils; }
class class_name[name] begin[{] method[getZipUtils, return_type[type[ZipUtils]], modifier[public static], parameter[]] begin[{] if[binary_operation[member[.zipUtils], ==, literal[null]]] begin[{] TryStatement(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=ZIP_UTILS, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=forName, postfix_operators=[], prefix_operators=[], qualifier=Class, selectors=[], type_arguments=None), name=clazz)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Class, sub_type=None)), StatementExpression(expression=Assignment(expressionl=MemberReference(member=zipUtils, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Cast(expression=MethodInvocation(arguments=[], member=newInstance, postfix_operators=[], prefix_operators=[], qualifier=clazz, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=ZipUtils, sub_type=None))), label=None)], catches=[CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Cannot instanciate util: {}"), MethodInvocation(arguments=[], member=getMessage, postfix_operators=[], prefix_operators=[], qualifier=e, selectors=[], type_arguments=None)], member=warn, postfix_operators=[], prefix_operators=[], qualifier=LOGGER, selectors=[], type_arguments=None), label=None), 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=IllegalStateException, sub_type=None)), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['ClassNotFoundException', 'InstantiationException', 'IllegalAccessException']))], finally_block=None, label=None, resources=None) else begin[{] None end[}] return[member[.zipUtils]] end[}] END[}]
Keyword[public] Keyword[static] identifier[ZipUtils] identifier[getZipUtils] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] identifier[zipUtils] operator[==] Other[null] operator[SEP] { Keyword[try] { identifier[Class] identifier[clazz] operator[=] identifier[Class] operator[SEP] identifier[forName] operator[SEP] identifier[ZIP_UTILS] operator[SEP] operator[SEP] identifier[zipUtils] operator[=] operator[SEP] identifier[ZipUtils] operator[SEP] identifier[clazz] operator[SEP] identifier[newInstance] operator[SEP] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[ClassNotFoundException] operator[|] identifier[InstantiationException] operator[|] identifier[IllegalAccessException] identifier[e] operator[SEP] { identifier[LOGGER] operator[SEP] identifier[warn] operator[SEP] literal[String] , identifier[e] operator[SEP] identifier[getMessage] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[throw] Keyword[new] identifier[IllegalStateException] operator[SEP] identifier[e] operator[SEP] operator[SEP] } } Keyword[return] identifier[zipUtils] operator[SEP] }
public EEnum getImageEncodingRECID() { if (imageEncodingRECIDEEnum == null) { imageEncodingRECIDEEnum = (EEnum)EPackage.Registry.INSTANCE.getEPackage(AfplibPackage.eNS_URI).getEClassifiers().get(117); } return imageEncodingRECIDEEnum; }
class class_name[name] begin[{] method[getImageEncodingRECID, return_type[type[EEnum]], modifier[public], parameter[]] begin[{] if[binary_operation[member[.imageEncodingRECIDEEnum], ==, literal[null]]] begin[{] assign[member[.imageEncodingRECIDEEnum], Cast(expression=MethodInvocation(arguments=[MemberReference(member=eNS_URI, postfix_operators=[], prefix_operators=[], qualifier=AfplibPackage, selectors=[])], member=getEPackage, postfix_operators=[], prefix_operators=[], qualifier=EPackage.Registry.INSTANCE, selectors=[MethodInvocation(arguments=[], member=getEClassifiers, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=117)], member=get, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=EEnum, sub_type=None))] else begin[{] None end[}] return[member[.imageEncodingRECIDEEnum]] end[}] END[}]
Keyword[public] identifier[EEnum] identifier[getImageEncodingRECID] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] identifier[imageEncodingRECIDEEnum] operator[==] Other[null] operator[SEP] { identifier[imageEncodingRECIDEEnum] operator[=] operator[SEP] identifier[EEnum] operator[SEP] identifier[EPackage] operator[SEP] identifier[Registry] operator[SEP] identifier[INSTANCE] operator[SEP] identifier[getEPackage] operator[SEP] identifier[AfplibPackage] operator[SEP] identifier[eNS_URI] operator[SEP] operator[SEP] identifier[getEClassifiers] operator[SEP] operator[SEP] operator[SEP] identifier[get] operator[SEP] Other[117] operator[SEP] operator[SEP] } Keyword[return] identifier[imageEncodingRECIDEEnum] operator[SEP] }
private static void renameCheckpointInDir(StorageDirectory sd, long txid) throws IOException { File ckpt = NNStorage.getStorageFile(sd, NameNodeFile.IMAGE_NEW, txid); File curFile = NNStorage.getStorageFile(sd, NameNodeFile.IMAGE, txid); // renameTo fails on Windows if the destination file // already exists. LOG.info("Renaming " + ckpt.getAbsolutePath() + " to " + curFile.getAbsolutePath()); if (!ckpt.renameTo(curFile)) { if (!curFile.delete() || !ckpt.renameTo(curFile)) { throw new IOException("renaming " + ckpt.getAbsolutePath() + " to " + curFile.getAbsolutePath() + " FAILED"); } } }
class class_name[name] begin[{] method[renameCheckpointInDir, return_type[void], modifier[private static], parameter[sd, txid]] begin[{] local_variable[type[File], ckpt] local_variable[type[File], curFile] call[LOG.info, parameter[binary_operation[binary_operation[binary_operation[literal["Renaming "], +, call[ckpt.getAbsolutePath, parameter[]]], +, literal[" to "]], +, call[curFile.getAbsolutePath, parameter[]]]]] if[call[ckpt.renameTo, parameter[member[.curFile]]]] begin[{] if[binary_operation[call[curFile.delete, parameter[]], ||, call[ckpt.renameTo, parameter[member[.curFile]]]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="renaming "), operandr=MethodInvocation(arguments=[], member=getAbsolutePath, postfix_operators=[], prefix_operators=[], qualifier=ckpt, selectors=[], type_arguments=None), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=" to "), operator=+), operandr=MethodInvocation(arguments=[], member=getAbsolutePath, postfix_operators=[], prefix_operators=[], qualifier=curFile, selectors=[], type_arguments=None), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=" FAILED"), operator=+)], 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) else begin[{] None end[}] else begin[{] None end[}] end[}] END[}]
Keyword[private] Keyword[static] Keyword[void] identifier[renameCheckpointInDir] operator[SEP] identifier[StorageDirectory] identifier[sd] , Keyword[long] identifier[txid] operator[SEP] Keyword[throws] identifier[IOException] { identifier[File] identifier[ckpt] operator[=] identifier[NNStorage] operator[SEP] identifier[getStorageFile] operator[SEP] identifier[sd] , identifier[NameNodeFile] operator[SEP] identifier[IMAGE_NEW] , identifier[txid] operator[SEP] operator[SEP] identifier[File] identifier[curFile] operator[=] identifier[NNStorage] operator[SEP] identifier[getStorageFile] operator[SEP] identifier[sd] , identifier[NameNodeFile] operator[SEP] identifier[IMAGE] , identifier[txid] operator[SEP] operator[SEP] identifier[LOG] operator[SEP] identifier[info] operator[SEP] literal[String] operator[+] identifier[ckpt] operator[SEP] identifier[getAbsolutePath] operator[SEP] operator[SEP] operator[+] literal[String] operator[+] identifier[curFile] operator[SEP] identifier[getAbsolutePath] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[ckpt] operator[SEP] identifier[renameTo] operator[SEP] identifier[curFile] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] operator[!] identifier[curFile] operator[SEP] identifier[delete] operator[SEP] operator[SEP] operator[||] operator[!] identifier[ckpt] operator[SEP] identifier[renameTo] operator[SEP] identifier[curFile] operator[SEP] operator[SEP] { Keyword[throw] Keyword[new] identifier[IOException] operator[SEP] literal[String] operator[+] identifier[ckpt] operator[SEP] identifier[getAbsolutePath] operator[SEP] operator[SEP] operator[+] literal[String] operator[+] identifier[curFile] operator[SEP] identifier[getAbsolutePath] operator[SEP] operator[SEP] operator[+] literal[String] operator[SEP] operator[SEP] } } }
public static <T extends Enum<T>> Converter<String, T> stringConverter(final Class<T> enumClass) { return new StringConverter<T>(enumClass); }
class class_name[name] begin[{] method[stringConverter, return_type[type[Converter]], modifier[public static], parameter[enumClass]] begin[{] return[ClassCreator(arguments=[MemberReference(member=enumClass, 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=T, sub_type=None))], dimensions=None, name=StringConverter, sub_type=None))] end[}] END[}]
Keyword[public] Keyword[static] operator[<] identifier[T] Keyword[extends] identifier[Enum] operator[<] identifier[T] operator[>] operator[>] identifier[Converter] operator[<] identifier[String] , identifier[T] operator[>] identifier[stringConverter] operator[SEP] Keyword[final] identifier[Class] operator[<] identifier[T] operator[>] identifier[enumClass] operator[SEP] { Keyword[return] Keyword[new] identifier[StringConverter] operator[<] identifier[T] operator[>] operator[SEP] identifier[enumClass] operator[SEP] operator[SEP] }
protected void invalidateCacheEntry(String spaceId, String key, Object data) { if (isCacheEnabled()) { putToCache(getCacheName(), calcCacheKey(spaceId, key), data); } }
class class_name[name] begin[{] method[invalidateCacheEntry, return_type[void], modifier[protected], parameter[spaceId, key, data]] begin[{] if[call[.isCacheEnabled, parameter[]]] begin[{] call[.putToCache, parameter[call[.getCacheName, parameter[]], call[.calcCacheKey, parameter[member[.spaceId], member[.key]]], member[.data]]] else begin[{] None end[}] end[}] END[}]
Keyword[protected] Keyword[void] identifier[invalidateCacheEntry] operator[SEP] identifier[String] identifier[spaceId] , identifier[String] identifier[key] , identifier[Object] identifier[data] operator[SEP] { Keyword[if] operator[SEP] identifier[isCacheEnabled] operator[SEP] operator[SEP] operator[SEP] { identifier[putToCache] operator[SEP] identifier[getCacheName] operator[SEP] operator[SEP] , identifier[calcCacheKey] operator[SEP] identifier[spaceId] , identifier[key] operator[SEP] , identifier[data] operator[SEP] operator[SEP] } }
public java.util.List<ECSService> getEcsServices() { if (ecsServices == null) { ecsServices = new com.amazonaws.internal.SdkInternalList<ECSService>(); } return ecsServices; }
class class_name[name] begin[{] method[getEcsServices, return_type[type[java]], modifier[public], parameter[]] begin[{] if[binary_operation[member[.ecsServices], ==, literal[null]]] begin[{] assign[member[.ecsServices], ClassCreator(arguments=[], 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=ECSService, sub_type=None))], dimensions=None, name=SdkInternalList, sub_type=None)))))] else begin[{] None end[}] return[member[.ecsServices]] end[}] END[}]
Keyword[public] identifier[java] operator[SEP] identifier[util] operator[SEP] identifier[List] operator[<] identifier[ECSService] operator[>] identifier[getEcsServices] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] identifier[ecsServices] operator[==] Other[null] operator[SEP] { identifier[ecsServices] operator[=] Keyword[new] identifier[com] operator[SEP] identifier[amazonaws] operator[SEP] identifier[internal] operator[SEP] identifier[SdkInternalList] operator[<] identifier[ECSService] operator[>] operator[SEP] operator[SEP] operator[SEP] } Keyword[return] identifier[ecsServices] operator[SEP] }
public static <T extends Comparable<? super T>> T median(final T a, final T b, final T c) { return (T) median(a, b, c, NATURAL_ORDER); }
class class_name[name] begin[{] method[median, return_type[type[T]], modifier[public static], parameter[a, b, c]] begin[{] return[Cast(expression=MethodInvocation(arguments=[MemberReference(member=a, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=b, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=NATURAL_ORDER, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=median, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=T, sub_type=None))] end[}] END[}]
Keyword[public] Keyword[static] operator[<] identifier[T] Keyword[extends] identifier[Comparable] operator[<] operator[?] Keyword[super] identifier[T] operator[>] operator[>] identifier[T] identifier[median] operator[SEP] Keyword[final] identifier[T] identifier[a] , Keyword[final] identifier[T] identifier[b] , Keyword[final] identifier[T] identifier[c] operator[SEP] { Keyword[return] operator[SEP] identifier[T] operator[SEP] identifier[median] operator[SEP] identifier[a] , identifier[b] , identifier[c] , identifier[NATURAL_ORDER] operator[SEP] operator[SEP] }
public BatchOptions bufferLimit(final int bufferLimit) { BatchOptions clone = getClone(); clone.bufferLimit = bufferLimit; return clone; }
class class_name[name] begin[{] method[bufferLimit, return_type[type[BatchOptions]], modifier[public], parameter[bufferLimit]] begin[{] local_variable[type[BatchOptions], clone] assign[member[clone.bufferLimit], member[.bufferLimit]] return[member[.clone]] end[}] END[}]
Keyword[public] identifier[BatchOptions] identifier[bufferLimit] operator[SEP] Keyword[final] Keyword[int] identifier[bufferLimit] operator[SEP] { identifier[BatchOptions] identifier[clone] operator[=] identifier[getClone] operator[SEP] operator[SEP] operator[SEP] identifier[clone] operator[SEP] identifier[bufferLimit] operator[=] identifier[bufferLimit] operator[SEP] Keyword[return] identifier[clone] operator[SEP] }
private static BitSet validCookieNameOctets() { BitSet bits = new BitSet(); for (int i = 32; i < 127; i++) { bits.set(i); } int[] separators = new int[] { '(', ')', '<', '>', '@', ',', ';', ':', '\\', '"', '/', '[', ']', '?', '=', '{', '}', ' ', '\t' }; for (int separator : separators) { bits.set(separator, false); } return bits; }
class class_name[name] begin[{] method[validCookieNameOctets, return_type[type[BitSet]], modifier[private static], parameter[]] begin[{] local_variable[type[BitSet], bits] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=set, postfix_operators=[], prefix_operators=[], qualifier=bits, selectors=[], type_arguments=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=127), operator=<), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=32), name=i)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=i, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None) local_variable[type[int], separators] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=separator, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=false)], member=set, postfix_operators=[], prefix_operators=[], qualifier=bits, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MemberReference(member=separators, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=separator)], modifiers=set(), type=BasicType(dimensions=[], name=int))), label=None) return[member[.bits]] end[}] END[}]
Keyword[private] Keyword[static] identifier[BitSet] identifier[validCookieNameOctets] operator[SEP] operator[SEP] { identifier[BitSet] identifier[bits] operator[=] Keyword[new] identifier[BitSet] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[32] operator[SEP] identifier[i] operator[<] Other[127] operator[SEP] identifier[i] operator[++] operator[SEP] { identifier[bits] operator[SEP] identifier[set] operator[SEP] identifier[i] operator[SEP] operator[SEP] } Keyword[int] operator[SEP] operator[SEP] identifier[separators] operator[=] Keyword[new] Keyword[int] operator[SEP] operator[SEP] { literal[String] , literal[String] , literal[String] , literal[String] , literal[String] , literal[String] , literal[String] , literal[String] , literal[String] , literal[String] , literal[String] , literal[String] , literal[String] , literal[String] , literal[String] , literal[String] , literal[String] , literal[String] , literal[String] } operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[separator] operator[:] identifier[separators] operator[SEP] { identifier[bits] operator[SEP] identifier[set] operator[SEP] identifier[separator] , literal[boolean] operator[SEP] operator[SEP] } Keyword[return] identifier[bits] operator[SEP] }
@SuppressWarnings("fallthrough") final JsDocToken getJsDocToken() { int c; stringBufferTop = 0; for (;;) { // eat white spaces for (;;) { charno = -1; c = getChar(); if (c == EOF_CHAR) { return JsDocToken.EOF; } else if (c == '\n') { return JsDocToken.EOL; } else if (!TokenUtil.isJSSpace(c)) { break; } } switch (c) { // annotation, e.g. @type or @constructor case '@': do { c = getChar(); if (isAlpha(c)) { addToString(c); } else { ungetChar(c); this.string = getStringFromBuffer(); stringBufferTop = 0; return JsDocToken.ANNOTATION; } } while (true); case '*': if (matchChar('/')) { return JsDocToken.EOC; } else { return JsDocToken.STAR; } case ',': return JsDocToken.COMMA; case '>': return JsDocToken.RIGHT_ANGLE; case '(': return JsDocToken.LEFT_PAREN; case ')': return JsDocToken.RIGHT_PAREN; case '{': return JsDocToken.LEFT_CURLY; case '}': return JsDocToken.RIGHT_CURLY; case '[': return JsDocToken.LEFT_SQUARE; case ']': return JsDocToken.RIGHT_SQUARE; case '?': return JsDocToken.QMARK; case '!': return JsDocToken.BANG; case ':': return JsDocToken.COLON; case '=': return JsDocToken.EQUALS; case '|': return JsDocToken.PIPE; case '<': return JsDocToken.LEFT_ANGLE; case '.': c = getChar(); if (c == '<') { return JsDocToken.LEFT_ANGLE; } else { if (c == '.') { c = getChar(); if (c == '.') { return JsDocToken.ELLIPSIS; } else { addToString('.'); } } // we may backtrack across line boundary ungetBuffer[ungetCursor++] = c; c = '.'; } // fall through default: { // recognize a JsDoc string but discard last . if it is followed by // a non-JsDoc comment char, e.g. Array.< int c1 = c; addToString(c); int c2 = getChar(); if (!isJSDocString(c2)) { ungetChar(c2); this.string = getStringFromBuffer(); stringBufferTop = 0; return JsDocToken.STRING; } else { do { c1 = c2; c2 = getChar(); if (c1 == '.' && c2 == '<') { ungetChar(c2); ungetChar(c1); this.string = getStringFromBuffer(); stringBufferTop = 0; return JsDocToken.STRING; } else { if (isJSDocString(c2)) { addToString(c1); } else { ungetChar(c2); addToString(c1); this.string = getStringFromBuffer(); stringBufferTop = 0; return JsDocToken.STRING; } } } while (true); } } } } }
class class_name[name] begin[{] method[getJsDocToken, return_type[type[JsDocToken]], modifier[final], parameter[]] begin[{] local_variable[type[int], c] assign[member[.stringBufferTop], literal[0]] ForStatement(body=BlockStatement(label=None, statements=[ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=charno, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=['-'], qualifier=None, selectors=[], value=1)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=getChar, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)), label=None), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=EOF_CHAR, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator===), else_statement=IfStatement(condition=BinaryOperation(operandl=MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='\n'), operator===), else_statement=IfStatement(condition=MethodInvocation(arguments=[MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=isJSSpace, postfix_operators=[], prefix_operators=['!'], qualifier=TokenUtil, selectors=[], type_arguments=None), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[BreakStatement(goto=None, label=None)])), label=None, then_statement=BlockStatement(label=None, statements=[ReturnStatement(expression=MemberReference(member=EOL, postfix_operators=[], prefix_operators=[], qualifier=JsDocToken, selectors=[]), label=None)])), label=None, then_statement=BlockStatement(label=None, statements=[ReturnStatement(expression=MemberReference(member=EOF, postfix_operators=[], prefix_operators=[], qualifier=JsDocToken, selectors=[]), label=None)]))]), control=ForControl(condition=None, init=None, update=None), label=None), SwitchStatement(cases=[SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='@')], statements=[DoStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=getChar, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)), label=None), IfStatement(condition=MethodInvocation(arguments=[MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=isAlpha, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), else_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=ungetChar, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None), StatementExpression(expression=Assignment(expressionl=This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MemberReference(member=string, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None)]), type==, value=MethodInvocation(arguments=[], member=getStringFromBuffer, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=stringBufferTop, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0)), label=None), ReturnStatement(expression=MemberReference(member=ANNOTATION, postfix_operators=[], prefix_operators=[], qualifier=JsDocToken, selectors=[]), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=addToString, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)]))]), condition=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true), label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='*')], statements=[IfStatement(condition=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='/')], member=matchChar, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), else_statement=BlockStatement(label=None, statements=[ReturnStatement(expression=MemberReference(member=STAR, postfix_operators=[], prefix_operators=[], qualifier=JsDocToken, selectors=[]), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[ReturnStatement(expression=MemberReference(member=EOC, postfix_operators=[], prefix_operators=[], qualifier=JsDocToken, selectors=[]), label=None)]))]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=',')], statements=[ReturnStatement(expression=MemberReference(member=COMMA, postfix_operators=[], prefix_operators=[], qualifier=JsDocToken, selectors=[]), label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='>')], statements=[ReturnStatement(expression=MemberReference(member=RIGHT_ANGLE, postfix_operators=[], prefix_operators=[], qualifier=JsDocToken, selectors=[]), label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='(')], statements=[ReturnStatement(expression=MemberReference(member=LEFT_PAREN, postfix_operators=[], prefix_operators=[], qualifier=JsDocToken, selectors=[]), label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=')')], statements=[ReturnStatement(expression=MemberReference(member=RIGHT_PAREN, postfix_operators=[], prefix_operators=[], qualifier=JsDocToken, selectors=[]), label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='{')], statements=[ReturnStatement(expression=MemberReference(member=LEFT_CURLY, postfix_operators=[], prefix_operators=[], qualifier=JsDocToken, selectors=[]), label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='}')], statements=[ReturnStatement(expression=MemberReference(member=RIGHT_CURLY, postfix_operators=[], prefix_operators=[], qualifier=JsDocToken, selectors=[]), label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='[')], statements=[ReturnStatement(expression=MemberReference(member=LEFT_SQUARE, postfix_operators=[], prefix_operators=[], qualifier=JsDocToken, selectors=[]), label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=']')], statements=[ReturnStatement(expression=MemberReference(member=RIGHT_SQUARE, postfix_operators=[], prefix_operators=[], qualifier=JsDocToken, selectors=[]), label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='?')], statements=[ReturnStatement(expression=MemberReference(member=QMARK, postfix_operators=[], prefix_operators=[], qualifier=JsDocToken, selectors=[]), label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='!')], statements=[ReturnStatement(expression=MemberReference(member=BANG, postfix_operators=[], prefix_operators=[], qualifier=JsDocToken, selectors=[]), label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=':')], statements=[ReturnStatement(expression=MemberReference(member=COLON, postfix_operators=[], prefix_operators=[], qualifier=JsDocToken, selectors=[]), label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='=')], statements=[ReturnStatement(expression=MemberReference(member=EQUALS, postfix_operators=[], prefix_operators=[], qualifier=JsDocToken, selectors=[]), label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='|')], statements=[ReturnStatement(expression=MemberReference(member=PIPE, postfix_operators=[], prefix_operators=[], qualifier=JsDocToken, selectors=[]), label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='<')], statements=[ReturnStatement(expression=MemberReference(member=LEFT_ANGLE, postfix_operators=[], prefix_operators=[], qualifier=JsDocToken, selectors=[]), label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='.')], statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=getChar, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)), label=None), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='<'), operator===), else_statement=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='.'), operator===), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=getChar, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)), label=None), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='.'), operator===), else_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='.')], member=addToString, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[ReturnStatement(expression=MemberReference(member=ELLIPSIS, postfix_operators=[], prefix_operators=[], qualifier=JsDocToken, selectors=[]), label=None)]))])), StatementExpression(expression=Assignment(expressionl=MemberReference(member=ungetBuffer, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=ungetCursor, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[]))]), type==, value=MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='.')), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[ReturnStatement(expression=MemberReference(member=LEFT_ANGLE, postfix_operators=[], prefix_operators=[], qualifier=JsDocToken, selectors=[]), label=None)]))]), SwitchStatementCase(case=[], statements=[BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), name=c1)], modifiers=set(), type=BasicType(dimensions=[], name=int)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=addToString, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=getChar, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), name=c2)], modifiers=set(), type=BasicType(dimensions=[], name=int)), IfStatement(condition=MethodInvocation(arguments=[MemberReference(member=c2, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=isJSDocString, postfix_operators=[], prefix_operators=['!'], qualifier=, selectors=[], type_arguments=None), else_statement=BlockStatement(label=None, statements=[DoStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=c1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MemberReference(member=c2, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=c2, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=getChar, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)), label=None), IfStatement(condition=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=c1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='.'), operator===), operandr=BinaryOperation(operandl=MemberReference(member=c2, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='<'), operator===), operator=&&), else_statement=BlockStatement(label=None, statements=[IfStatement(condition=MethodInvocation(arguments=[MemberReference(member=c2, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=isJSDocString, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), else_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=c2, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=ungetChar, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=c1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=addToString, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None), StatementExpression(expression=Assignment(expressionl=This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MemberReference(member=string, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None)]), type==, value=MethodInvocation(arguments=[], member=getStringFromBuffer, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=stringBufferTop, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0)), label=None), ReturnStatement(expression=MemberReference(member=STRING, postfix_operators=[], prefix_operators=[], qualifier=JsDocToken, selectors=[]), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=c1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=addToString, 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=c2, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=ungetChar, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=c1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=ungetChar, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None), StatementExpression(expression=Assignment(expressionl=This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MemberReference(member=string, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None)]), type==, value=MethodInvocation(arguments=[], member=getStringFromBuffer, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=stringBufferTop, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0)), label=None), ReturnStatement(expression=MemberReference(member=STRING, postfix_operators=[], prefix_operators=[], qualifier=JsDocToken, selectors=[]), label=None)]))]), condition=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=c2, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=ungetChar, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None), StatementExpression(expression=Assignment(expressionl=This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MemberReference(member=string, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None)]), type==, value=MethodInvocation(arguments=[], member=getStringFromBuffer, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=stringBufferTop, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0)), label=None), ReturnStatement(expression=MemberReference(member=STRING, postfix_operators=[], prefix_operators=[], qualifier=JsDocToken, selectors=[]), label=None)]))])])], expression=MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), label=None)]), control=ForControl(condition=None, init=None, update=None), label=None) end[}] END[}]
annotation[@] identifier[SuppressWarnings] operator[SEP] literal[String] operator[SEP] Keyword[final] identifier[JsDocToken] identifier[getJsDocToken] operator[SEP] operator[SEP] { Keyword[int] identifier[c] operator[SEP] identifier[stringBufferTop] operator[=] Other[0] operator[SEP] Keyword[for] operator[SEP] operator[SEP] operator[SEP] operator[SEP] { Keyword[for] operator[SEP] operator[SEP] operator[SEP] operator[SEP] { identifier[charno] operator[=] operator[-] Other[1] operator[SEP] identifier[c] operator[=] identifier[getChar] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[c] operator[==] identifier[EOF_CHAR] operator[SEP] { Keyword[return] identifier[JsDocToken] operator[SEP] identifier[EOF] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[c] operator[==] literal[String] operator[SEP] { Keyword[return] identifier[JsDocToken] operator[SEP] identifier[EOL] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] operator[!] identifier[TokenUtil] operator[SEP] identifier[isJSSpace] operator[SEP] identifier[c] operator[SEP] operator[SEP] { Keyword[break] operator[SEP] } } Keyword[switch] operator[SEP] identifier[c] operator[SEP] { Keyword[case] literal[String] operator[:] Keyword[do] { identifier[c] operator[=] identifier[getChar] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[isAlpha] operator[SEP] identifier[c] operator[SEP] operator[SEP] { identifier[addToString] operator[SEP] identifier[c] operator[SEP] operator[SEP] } Keyword[else] { identifier[ungetChar] operator[SEP] identifier[c] operator[SEP] operator[SEP] Keyword[this] operator[SEP] identifier[string] operator[=] identifier[getStringFromBuffer] operator[SEP] operator[SEP] operator[SEP] identifier[stringBufferTop] operator[=] Other[0] operator[SEP] Keyword[return] identifier[JsDocToken] operator[SEP] identifier[ANNOTATION] operator[SEP] } } Keyword[while] operator[SEP] literal[boolean] operator[SEP] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[if] operator[SEP] identifier[matchChar] operator[SEP] literal[String] operator[SEP] operator[SEP] { Keyword[return] identifier[JsDocToken] operator[SEP] identifier[EOC] operator[SEP] } Keyword[else] { Keyword[return] identifier[JsDocToken] operator[SEP] identifier[STAR] operator[SEP] } Keyword[case] literal[String] operator[:] Keyword[return] identifier[JsDocToken] operator[SEP] identifier[COMMA] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[return] identifier[JsDocToken] operator[SEP] identifier[RIGHT_ANGLE] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[return] identifier[JsDocToken] operator[SEP] identifier[LEFT_PAREN] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[return] identifier[JsDocToken] operator[SEP] identifier[RIGHT_PAREN] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[return] identifier[JsDocToken] operator[SEP] identifier[LEFT_CURLY] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[return] identifier[JsDocToken] operator[SEP] identifier[RIGHT_CURLY] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[return] identifier[JsDocToken] operator[SEP] identifier[LEFT_SQUARE] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[return] identifier[JsDocToken] operator[SEP] identifier[RIGHT_SQUARE] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[return] identifier[JsDocToken] operator[SEP] identifier[QMARK] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[return] identifier[JsDocToken] operator[SEP] identifier[BANG] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[return] identifier[JsDocToken] operator[SEP] identifier[COLON] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[return] identifier[JsDocToken] operator[SEP] identifier[EQUALS] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[return] identifier[JsDocToken] operator[SEP] identifier[PIPE] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[return] identifier[JsDocToken] operator[SEP] identifier[LEFT_ANGLE] operator[SEP] Keyword[case] literal[String] operator[:] identifier[c] operator[=] identifier[getChar] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[c] operator[==] literal[String] operator[SEP] { Keyword[return] identifier[JsDocToken] operator[SEP] identifier[LEFT_ANGLE] operator[SEP] } Keyword[else] { Keyword[if] operator[SEP] identifier[c] operator[==] literal[String] operator[SEP] { identifier[c] operator[=] identifier[getChar] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[c] operator[==] literal[String] operator[SEP] { Keyword[return] identifier[JsDocToken] operator[SEP] identifier[ELLIPSIS] operator[SEP] } Keyword[else] { identifier[addToString] operator[SEP] literal[String] operator[SEP] operator[SEP] } } identifier[ungetBuffer] operator[SEP] identifier[ungetCursor] operator[++] operator[SEP] operator[=] identifier[c] operator[SEP] identifier[c] operator[=] literal[String] operator[SEP] } Keyword[default] operator[:] { Keyword[int] identifier[c1] operator[=] identifier[c] operator[SEP] identifier[addToString] operator[SEP] identifier[c] operator[SEP] operator[SEP] Keyword[int] identifier[c2] operator[=] identifier[getChar] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[isJSDocString] operator[SEP] identifier[c2] operator[SEP] operator[SEP] { identifier[ungetChar] operator[SEP] identifier[c2] operator[SEP] operator[SEP] Keyword[this] operator[SEP] identifier[string] operator[=] identifier[getStringFromBuffer] operator[SEP] operator[SEP] operator[SEP] identifier[stringBufferTop] operator[=] Other[0] operator[SEP] Keyword[return] identifier[JsDocToken] operator[SEP] identifier[STRING] operator[SEP] } Keyword[else] { Keyword[do] { identifier[c1] operator[=] identifier[c2] operator[SEP] identifier[c2] operator[=] identifier[getChar] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[c1] operator[==] literal[String] operator[&&] identifier[c2] operator[==] literal[String] operator[SEP] { identifier[ungetChar] operator[SEP] identifier[c2] operator[SEP] operator[SEP] identifier[ungetChar] operator[SEP] identifier[c1] operator[SEP] operator[SEP] Keyword[this] operator[SEP] identifier[string] operator[=] identifier[getStringFromBuffer] operator[SEP] operator[SEP] operator[SEP] identifier[stringBufferTop] operator[=] Other[0] operator[SEP] Keyword[return] identifier[JsDocToken] operator[SEP] identifier[STRING] operator[SEP] } Keyword[else] { Keyword[if] operator[SEP] identifier[isJSDocString] operator[SEP] identifier[c2] operator[SEP] operator[SEP] { identifier[addToString] operator[SEP] identifier[c1] operator[SEP] operator[SEP] } Keyword[else] { identifier[ungetChar] operator[SEP] identifier[c2] operator[SEP] operator[SEP] identifier[addToString] operator[SEP] identifier[c1] operator[SEP] operator[SEP] Keyword[this] operator[SEP] identifier[string] operator[=] identifier[getStringFromBuffer] operator[SEP] operator[SEP] operator[SEP] identifier[stringBufferTop] operator[=] Other[0] operator[SEP] Keyword[return] identifier[JsDocToken] operator[SEP] identifier[STRING] operator[SEP] } } } Keyword[while] operator[SEP] literal[boolean] operator[SEP] operator[SEP] } } } } }
private void paintRestorePressed(Graphics2D g, JComponent c, int width, int height) { restorePainter.paintPressed(g, c, width, height); }
class class_name[name] begin[{] method[paintRestorePressed, return_type[void], modifier[private], parameter[g, c, width, height]] begin[{] call[restorePainter.paintPressed, parameter[member[.g], member[.c], member[.width], member[.height]]] end[}] END[}]
Keyword[private] Keyword[void] identifier[paintRestorePressed] operator[SEP] identifier[Graphics2D] identifier[g] , identifier[JComponent] identifier[c] , Keyword[int] identifier[width] , Keyword[int] identifier[height] operator[SEP] { identifier[restorePainter] operator[SEP] identifier[paintPressed] operator[SEP] identifier[g] , identifier[c] , identifier[width] , identifier[height] operator[SEP] operator[SEP] }
public boolean createJob(String slurmScript, String heronExec, String[] commandArgs, String topologyWorkingDirectory, long containers, String partition) { // get the command to run the job on Slurm cluster List<String> slurmCmd = slurmCommand(slurmScript, heronExec, containers, partition); // change the empty strings of command args to "", because batch // doesn't recognize space as an arguments List<String> transformedArgs = new ArrayList<>(); for (int i = 0; i < commandArgs.length; i++) { String arg = commandArgs[i]; if (arg == null || arg.trim().equals("")) { transformedArgs.add("\"\""); } else { transformedArgs.add(arg); } } // add the args to the command slurmCmd.addAll(transformedArgs); String[] slurmCmdArray = slurmCmd.toArray(new String[0]); LOG.log(Level.INFO, "Executing job [" + topologyWorkingDirectory + "]:", Arrays.toString(slurmCmdArray)); StringBuilder stderr = new StringBuilder(); boolean ret = runProcess(topologyWorkingDirectory, slurmCmdArray, stderr); return ret; }
class class_name[name] begin[{] method[createJob, return_type[type[boolean]], modifier[public], parameter[slurmScript, heronExec, commandArgs, topologyWorkingDirectory, containers, partition]] begin[{] local_variable[type[List], slurmCmd] local_variable[type[List], transformedArgs] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=commandArgs, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), name=arg)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), IfStatement(condition=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=arg, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator===), operandr=MethodInvocation(arguments=[], member=trim, postfix_operators=[], prefix_operators=[], qualifier=arg, selectors=[MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="")], member=equals, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), operator=||), else_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=arg, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=add, postfix_operators=[], prefix_operators=[], qualifier=transformedArgs, 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="\"\"")], member=add, postfix_operators=[], prefix_operators=[], qualifier=transformedArgs, 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=commandArgs, 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) call[slurmCmd.addAll, parameter[member[.transformedArgs]]] local_variable[type[String], slurmCmdArray] call[LOG.log, parameter[member[Level.INFO], binary_operation[binary_operation[literal["Executing job ["], +, member[.topologyWorkingDirectory]], +, literal["]:"]], call[Arrays.toString, parameter[member[.slurmCmdArray]]]]] local_variable[type[StringBuilder], stderr] local_variable[type[boolean], ret] return[member[.ret]] end[}] END[}]
Keyword[public] Keyword[boolean] identifier[createJob] operator[SEP] identifier[String] identifier[slurmScript] , identifier[String] identifier[heronExec] , identifier[String] operator[SEP] operator[SEP] identifier[commandArgs] , identifier[String] identifier[topologyWorkingDirectory] , Keyword[long] identifier[containers] , identifier[String] identifier[partition] operator[SEP] { identifier[List] operator[<] identifier[String] operator[>] identifier[slurmCmd] operator[=] identifier[slurmCommand] operator[SEP] identifier[slurmScript] , identifier[heronExec] , identifier[containers] , identifier[partition] operator[SEP] operator[SEP] identifier[List] operator[<] identifier[String] operator[>] identifier[transformedArgs] operator[=] Keyword[new] identifier[ArrayList] operator[<] operator[>] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[commandArgs] operator[SEP] identifier[length] operator[SEP] identifier[i] operator[++] operator[SEP] { identifier[String] identifier[arg] operator[=] identifier[commandArgs] operator[SEP] identifier[i] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[arg] operator[==] Other[null] operator[||] identifier[arg] operator[SEP] identifier[trim] operator[SEP] operator[SEP] operator[SEP] identifier[equals] operator[SEP] literal[String] operator[SEP] operator[SEP] { identifier[transformedArgs] operator[SEP] identifier[add] operator[SEP] literal[String] operator[SEP] operator[SEP] } Keyword[else] { identifier[transformedArgs] operator[SEP] identifier[add] operator[SEP] identifier[arg] operator[SEP] operator[SEP] } } identifier[slurmCmd] operator[SEP] identifier[addAll] operator[SEP] identifier[transformedArgs] operator[SEP] operator[SEP] identifier[String] operator[SEP] operator[SEP] identifier[slurmCmdArray] operator[=] identifier[slurmCmd] operator[SEP] identifier[toArray] operator[SEP] Keyword[new] identifier[String] operator[SEP] Other[0] operator[SEP] operator[SEP] operator[SEP] identifier[LOG] operator[SEP] identifier[log] operator[SEP] identifier[Level] operator[SEP] identifier[INFO] , literal[String] operator[+] identifier[topologyWorkingDirectory] operator[+] literal[String] , identifier[Arrays] operator[SEP] identifier[toString] operator[SEP] identifier[slurmCmdArray] operator[SEP] operator[SEP] operator[SEP] identifier[StringBuilder] identifier[stderr] operator[=] Keyword[new] identifier[StringBuilder] operator[SEP] operator[SEP] operator[SEP] Keyword[boolean] identifier[ret] operator[=] identifier[runProcess] operator[SEP] identifier[topologyWorkingDirectory] , identifier[slurmCmdArray] , identifier[stderr] operator[SEP] operator[SEP] Keyword[return] identifier[ret] operator[SEP] }
public static MozuUrl getTreeDocumentUrl(String documentListName, String documentName, Boolean includeInactive, String responseFields) { UrlFormatter formatter = new UrlFormatter("/api/content/documentlists/{documentListName}/documentTree/{documentName}?includeInactive={includeInactive}&responseFields={responseFields}"); formatter.formatUrl("documentListName", documentListName); formatter.formatUrl("documentName", documentName); formatter.formatUrl("includeInactive", includeInactive); formatter.formatUrl("responseFields", responseFields); return new MozuUrl(formatter.getResourceUrl(), MozuUrl.UrlLocation.TENANT_POD) ; }
class class_name[name] begin[{] method[getTreeDocumentUrl, return_type[type[MozuUrl]], modifier[public static], parameter[documentListName, documentName, includeInactive, responseFields]] begin[{] local_variable[type[UrlFormatter], formatter] call[formatter.formatUrl, parameter[literal["documentListName"], member[.documentListName]]] call[formatter.formatUrl, parameter[literal["documentName"], member[.documentName]]] call[formatter.formatUrl, parameter[literal["includeInactive"], member[.includeInactive]]] call[formatter.formatUrl, parameter[literal["responseFields"], member[.responseFields]]] return[ClassCreator(arguments=[MethodInvocation(arguments=[], member=getResourceUrl, postfix_operators=[], prefix_operators=[], qualifier=formatter, selectors=[], type_arguments=None), MemberReference(member=TENANT_POD, postfix_operators=[], prefix_operators=[], qualifier=MozuUrl.UrlLocation, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=MozuUrl, sub_type=None))] end[}] END[}]
Keyword[public] Keyword[static] identifier[MozuUrl] identifier[getTreeDocumentUrl] operator[SEP] identifier[String] identifier[documentListName] , identifier[String] identifier[documentName] , identifier[Boolean] identifier[includeInactive] , identifier[String] identifier[responseFields] operator[SEP] { identifier[UrlFormatter] identifier[formatter] operator[=] Keyword[new] identifier[UrlFormatter] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[formatter] operator[SEP] identifier[formatUrl] operator[SEP] literal[String] , identifier[documentListName] operator[SEP] operator[SEP] identifier[formatter] operator[SEP] identifier[formatUrl] operator[SEP] literal[String] , identifier[documentName] operator[SEP] operator[SEP] identifier[formatter] operator[SEP] identifier[formatUrl] operator[SEP] literal[String] , identifier[includeInactive] operator[SEP] operator[SEP] identifier[formatter] operator[SEP] identifier[formatUrl] operator[SEP] literal[String] , identifier[responseFields] operator[SEP] operator[SEP] Keyword[return] Keyword[new] identifier[MozuUrl] operator[SEP] identifier[formatter] operator[SEP] identifier[getResourceUrl] operator[SEP] operator[SEP] , identifier[MozuUrl] operator[SEP] identifier[UrlLocation] operator[SEP] identifier[TENANT_POD] operator[SEP] operator[SEP] }
@Override public TaskService getTaskService() { InvocationHandler ih = new TransactionInvocationHandler(_wrapped.getTaskService(), _persistent); return (TaskService)Proxy.newProxyInstance(getClass().getClassLoader(), new Class[] {InternalTaskService.class, EventService.class}, ih); }
class class_name[name] begin[{] method[getTaskService, return_type[type[TaskService]], modifier[public], parameter[]] begin[{] local_variable[type[InvocationHandler], ih] return[Cast(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getClass, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[MethodInvocation(arguments=[], member=getClassLoader, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), ArrayCreator(dimensions=[None], initializer=ArrayInitializer(initializers=[ClassReference(postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=InternalTaskService, sub_type=None)), ClassReference(postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=EventService, sub_type=None))]), postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Class, sub_type=None)), MemberReference(member=ih, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=newProxyInstance, postfix_operators=[], prefix_operators=[], qualifier=Proxy, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=TaskService, sub_type=None))] end[}] END[}]
annotation[@] identifier[Override] Keyword[public] identifier[TaskService] identifier[getTaskService] operator[SEP] operator[SEP] { identifier[InvocationHandler] identifier[ih] operator[=] Keyword[new] identifier[TransactionInvocationHandler] operator[SEP] identifier[_wrapped] operator[SEP] identifier[getTaskService] operator[SEP] operator[SEP] , identifier[_persistent] operator[SEP] operator[SEP] Keyword[return] operator[SEP] identifier[TaskService] operator[SEP] identifier[Proxy] operator[SEP] identifier[newProxyInstance] operator[SEP] identifier[getClass] operator[SEP] operator[SEP] operator[SEP] identifier[getClassLoader] operator[SEP] operator[SEP] , Keyword[new] identifier[Class] operator[SEP] operator[SEP] { identifier[InternalTaskService] operator[SEP] Keyword[class] , identifier[EventService] operator[SEP] Keyword[class] } , identifier[ih] operator[SEP] operator[SEP] }
public static void log (@Nonnull final Logger aLogger, @Nonnull final IHasErrorLevel aErrorLevelProvider, @Nonnull final Supplier <String> aMsgSupplier) { log (aLogger, aErrorLevelProvider.getErrorLevel (), aMsgSupplier, null); }
class class_name[name] begin[{] method[log, return_type[void], modifier[public static], parameter[aLogger, aErrorLevelProvider, aMsgSupplier]] begin[{] call[.log, parameter[member[.aLogger], call[aErrorLevelProvider.getErrorLevel, parameter[]], member[.aMsgSupplier], literal[null]]] end[}] END[}]
Keyword[public] Keyword[static] Keyword[void] identifier[log] operator[SEP] annotation[@] identifier[Nonnull] Keyword[final] identifier[Logger] identifier[aLogger] , annotation[@] identifier[Nonnull] Keyword[final] identifier[IHasErrorLevel] identifier[aErrorLevelProvider] , annotation[@] identifier[Nonnull] Keyword[final] identifier[Supplier] operator[<] identifier[String] operator[>] identifier[aMsgSupplier] operator[SEP] { identifier[log] operator[SEP] identifier[aLogger] , identifier[aErrorLevelProvider] operator[SEP] identifier[getErrorLevel] operator[SEP] operator[SEP] , identifier[aMsgSupplier] , Other[null] operator[SEP] operator[SEP] }
public void forAllIndexColumns(String template, Properties attributes) throws XDocletException { for (Iterator it = _curIndexDef.getColumns(); it.hasNext(); ) { _curColumnDef = _curTableDef.getColumn((String)it.next()); generate(template); } _curColumnDef = null; }
class class_name[name] begin[{] method[forAllIndexColumns, return_type[void], modifier[public], parameter[template, attributes]] begin[{] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=_curColumnDef, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[Cast(expression=MethodInvocation(arguments=[], member=next, postfix_operators=[], prefix_operators=[], qualifier=it, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None))], member=getColumn, postfix_operators=[], prefix_operators=[], qualifier=_curTableDef, selectors=[], type_arguments=None)), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=template, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=generate, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)]), control=ForControl(condition=MethodInvocation(arguments=[], member=hasNext, postfix_operators=[], prefix_operators=[], qualifier=it, selectors=[], type_arguments=None), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=MethodInvocation(arguments=[], member=getColumns, postfix_operators=[], prefix_operators=[], qualifier=_curIndexDef, selectors=[], type_arguments=None), name=it)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Iterator, sub_type=None)), update=None), label=None) assign[member[._curColumnDef], literal[null]] end[}] END[}]
Keyword[public] Keyword[void] identifier[forAllIndexColumns] operator[SEP] identifier[String] identifier[template] , identifier[Properties] identifier[attributes] operator[SEP] Keyword[throws] identifier[XDocletException] { Keyword[for] operator[SEP] identifier[Iterator] identifier[it] operator[=] identifier[_curIndexDef] operator[SEP] identifier[getColumns] operator[SEP] operator[SEP] operator[SEP] identifier[it] operator[SEP] identifier[hasNext] operator[SEP] operator[SEP] operator[SEP] operator[SEP] { identifier[_curColumnDef] operator[=] identifier[_curTableDef] operator[SEP] identifier[getColumn] operator[SEP] operator[SEP] identifier[String] operator[SEP] identifier[it] operator[SEP] identifier[next] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[generate] operator[SEP] identifier[template] operator[SEP] operator[SEP] } identifier[_curColumnDef] operator[=] Other[null] operator[SEP] }
private MethodMetadata<?, ?> createPropertyMethodMetadata(AnnotatedType annotatedType, PropertyMethod propertyMethod) { MethodMetadata<?, ?> methodMetadata; Class<?> propertyType = propertyMethod.getType(); if (Collection.class.isAssignableFrom(propertyType)) { Type genericType = propertyMethod.getGenericType(); ParameterizedType type = (ParameterizedType) genericType; Class<?> elementType; Type typeArgument = type.getActualTypeArguments()[0]; if (typeArgument instanceof Class) { elementType = (Class<?>) typeArgument; } else if (typeArgument instanceof ParameterizedType) { ParameterizedType parameterizedTypeArgument = (ParameterizedType) typeArgument; elementType = (Class<?>) parameterizedTypeArgument.getRawType(); } else if (typeArgument instanceof TypeVariable<?>) { TypeVariable<?> typeVariable = (TypeVariable<?>) typeArgument; Type[] bounds = typeVariable.getBounds(); if (bounds.length != 1) { throw new XOException("Cannot determine boundary of " + typeVariable.getName() + " of collection property " + propertyMethod.getAnnotatedElement().toGenericString()); } elementType = (Class<?>) bounds[0]; } else { throw new XOException("Cannot determine argument type of collection property " + propertyMethod.getAnnotatedElement().toGenericString()); } AnnotatedType annotatedTypeArgument = new AnnotatedType(elementType); if (isEntityType(annotatedTypeArgument)) { Direction relationDirection = getRelationDirection(propertyMethod, Direction.FROM); com.buschmais.xo.spi.reflection.AnnotatedElement<?> relationElement = getRelationDefinitionElement(propertyMethod); RelationTypeMetadata relationshipType = new RelationTypeMetadata<>(metadataFactory.createRelationMetadata(relationElement, metadataByType)); methodMetadata = new EntityCollectionPropertyMethodMetadata<>(propertyMethod, relationshipType, relationDirection, metadataFactory.createCollectionPropertyMetadata(propertyMethod)); } else if (isRelationType(annotatedTypeArgument)) { TypeMetadata relationTypeMetadata = getOrCreateTypeMetadata(elementType); RelationTypeMetadata<RelationMetadata> relationMetadata = (RelationTypeMetadata) relationTypeMetadata; Direction relationDirection = getRelationDirection(annotatedType, propertyMethod, relationTypeMetadata, relationMetadata); methodMetadata = new RelationCollectionPropertyMethodMetadata<>(propertyMethod, relationMetadata, relationDirection, metadataFactory.createCollectionPropertyMetadata(propertyMethod)); } else { throw new XOException("Unsupported type argument '" + elementType.getName() + "' for collection property: " + propertyType.getName()); } } else if (annotatedMethods.containsKey(propertyType)) { AnnotatedType referencedType = new AnnotatedType(propertyType); Direction relationDirection; RelationTypeMetadata<RelationMetadata> relationMetadata; if (isEntityType(referencedType)) { relationDirection = getRelationDirection(propertyMethod, Direction.FROM); com.buschmais.xo.spi.reflection.AnnotatedElement<?> relationElement = getRelationDefinitionElement(propertyMethod); relationMetadata = new RelationTypeMetadata<>(metadataFactory.createRelationMetadata(relationElement, metadataByType)); methodMetadata = new EntityReferencePropertyMethodMetadata<>(propertyMethod, relationMetadata, relationDirection, metadataFactory.createReferencePropertyMetadata(propertyMethod)); } else if (isRelationType(referencedType)) { TypeMetadata relationTypeMetadata = getOrCreateTypeMetadata(propertyType); relationMetadata = (RelationTypeMetadata) relationTypeMetadata; relationDirection = getRelationDirection(annotatedType, propertyMethod, relationTypeMetadata, relationMetadata); methodMetadata = new RelationReferencePropertyMethodMetadata<>(propertyMethod, relationMetadata, relationDirection, metadataFactory.createReferencePropertyMetadata(propertyMethod)); } else { throw new XOException("Unsupported type for reference property: " + propertyType.getName()); } } else { methodMetadata = new PrimitivePropertyMethodMetadata<>(propertyMethod, metadataFactory.createPropertyMetadata(propertyMethod)); } return methodMetadata; }
class class_name[name] begin[{] method[createPropertyMethodMetadata, return_type[type[MethodMetadata]], modifier[private], parameter[annotatedType, propertyMethod]] begin[{] local_variable[type[MethodMetadata], methodMetadata] local_variable[type[Class], propertyType] if[ClassReference(postfix_operators=[], prefix_operators=[], qualifier=, selectors=[MethodInvocation(arguments=[MemberReference(member=propertyType, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=isAssignableFrom, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type=ReferenceType(arguments=None, dimensions=None, name=Collection, sub_type=None))] begin[{] local_variable[type[Type], genericType] local_variable[type[ParameterizedType], type] local_variable[type[Class], elementType] local_variable[type[Type], typeArgument] if[binary_operation[member[.typeArgument], instanceof, type[Class]]] begin[{] assign[member[.elementType], Cast(expression=MemberReference(member=typeArgument, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=[TypeArgument(pattern_type=?, type=None)], dimensions=[], name=Class, sub_type=None))] else begin[{] if[binary_operation[member[.typeArgument], instanceof, type[ParameterizedType]]] begin[{] local_variable[type[ParameterizedType], parameterizedTypeArgument] assign[member[.elementType], Cast(expression=MethodInvocation(arguments=[], member=getRawType, postfix_operators=[], prefix_operators=[], qualifier=parameterizedTypeArgument, selectors=[], type_arguments=None), type=ReferenceType(arguments=[TypeArgument(pattern_type=?, type=None)], dimensions=[], name=Class, sub_type=None))] else begin[{] if[binary_operation[member[.typeArgument], instanceof, type[TypeVariable]]] begin[{] local_variable[type[TypeVariable], typeVariable] local_variable[type[Type], bounds] if[binary_operation[member[bounds.length], !=, literal[1]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Cannot determine boundary of "), operandr=MethodInvocation(arguments=[], member=getName, postfix_operators=[], prefix_operators=[], qualifier=typeVariable, selectors=[], type_arguments=None), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=" of collection property "), operator=+), operandr=MethodInvocation(arguments=[], member=getAnnotatedElement, postfix_operators=[], prefix_operators=[], qualifier=propertyMethod, selectors=[MethodInvocation(arguments=[], member=toGenericString, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), operator=+)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=XOException, sub_type=None)), label=None) else begin[{] None end[}] assign[member[.elementType], Cast(expression=MemberReference(member=bounds, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0))]), type=ReferenceType(arguments=[TypeArgument(pattern_type=?, type=None)], dimensions=[], name=Class, sub_type=None))] else begin[{] ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Cannot determine argument type of collection property "), operandr=MethodInvocation(arguments=[], member=getAnnotatedElement, postfix_operators=[], prefix_operators=[], qualifier=propertyMethod, selectors=[MethodInvocation(arguments=[], member=toGenericString, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), operator=+)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=XOException, sub_type=None)), label=None) end[}] end[}] end[}] local_variable[type[AnnotatedType], annotatedTypeArgument] if[call[.isEntityType, parameter[member[.annotatedTypeArgument]]]] begin[{] local_variable[type[Direction], relationDirection] local_variable[type[com], relationElement] local_variable[type[RelationTypeMetadata], relationshipType] assign[member[.methodMetadata], ClassCreator(arguments=[MemberReference(member=propertyMethod, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=relationshipType, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=relationDirection, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MethodInvocation(arguments=[MemberReference(member=propertyMethod, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=createCollectionPropertyMetadata, postfix_operators=[], prefix_operators=[], qualifier=metadataFactory, selectors=[], type_arguments=None)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=[], dimensions=None, name=EntityCollectionPropertyMethodMetadata, sub_type=None))] else begin[{] if[call[.isRelationType, parameter[member[.annotatedTypeArgument]]]] begin[{] local_variable[type[TypeMetadata], relationTypeMetadata] local_variable[type[RelationTypeMetadata], relationMetadata] local_variable[type[Direction], relationDirection] assign[member[.methodMetadata], ClassCreator(arguments=[MemberReference(member=propertyMethod, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=relationMetadata, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=relationDirection, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MethodInvocation(arguments=[MemberReference(member=propertyMethod, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=createCollectionPropertyMetadata, postfix_operators=[], prefix_operators=[], qualifier=metadataFactory, selectors=[], type_arguments=None)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=[], dimensions=None, name=RelationCollectionPropertyMethodMetadata, sub_type=None))] else begin[{] ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Unsupported type argument '"), operandr=MethodInvocation(arguments=[], member=getName, postfix_operators=[], prefix_operators=[], qualifier=elementType, selectors=[], type_arguments=None), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="' for collection property: "), operator=+), operandr=MethodInvocation(arguments=[], member=getName, postfix_operators=[], prefix_operators=[], qualifier=propertyType, 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=XOException, sub_type=None)), label=None) end[}] end[}] else begin[{] if[call[annotatedMethods.containsKey, parameter[member[.propertyType]]]] begin[{] local_variable[type[AnnotatedType], referencedType] local_variable[type[Direction], relationDirection] local_variable[type[RelationTypeMetadata], relationMetadata] if[call[.isEntityType, parameter[member[.referencedType]]]] begin[{] assign[member[.relationDirection], call[.getRelationDirection, parameter[member[.propertyMethod], member[Direction.FROM]]]] local_variable[type[com], relationElement] assign[member[.relationMetadata], ClassCreator(arguments=[MethodInvocation(arguments=[MemberReference(member=relationElement, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=metadataByType, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=createRelationMetadata, postfix_operators=[], prefix_operators=[], qualifier=metadataFactory, selectors=[], type_arguments=None)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=[], dimensions=None, name=RelationTypeMetadata, sub_type=None))] assign[member[.methodMetadata], ClassCreator(arguments=[MemberReference(member=propertyMethod, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=relationMetadata, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=relationDirection, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MethodInvocation(arguments=[MemberReference(member=propertyMethod, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=createReferencePropertyMetadata, postfix_operators=[], prefix_operators=[], qualifier=metadataFactory, selectors=[], type_arguments=None)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=[], dimensions=None, name=EntityReferencePropertyMethodMetadata, sub_type=None))] else begin[{] if[call[.isRelationType, parameter[member[.referencedType]]]] begin[{] local_variable[type[TypeMetadata], relationTypeMetadata] assign[member[.relationMetadata], Cast(expression=MemberReference(member=relationTypeMetadata, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=RelationTypeMetadata, sub_type=None))] assign[member[.relationDirection], call[.getRelationDirection, parameter[member[.annotatedType], member[.propertyMethod], member[.relationTypeMetadata], member[.relationMetadata]]]] assign[member[.methodMetadata], ClassCreator(arguments=[MemberReference(member=propertyMethod, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=relationMetadata, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=relationDirection, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MethodInvocation(arguments=[MemberReference(member=propertyMethod, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=createReferencePropertyMetadata, postfix_operators=[], prefix_operators=[], qualifier=metadataFactory, selectors=[], type_arguments=None)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=[], dimensions=None, name=RelationReferencePropertyMethodMetadata, sub_type=None))] else begin[{] ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Unsupported type for reference property: "), operandr=MethodInvocation(arguments=[], member=getName, postfix_operators=[], prefix_operators=[], qualifier=propertyType, 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=XOException, sub_type=None)), label=None) end[}] end[}] else begin[{] assign[member[.methodMetadata], ClassCreator(arguments=[MemberReference(member=propertyMethod, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MethodInvocation(arguments=[MemberReference(member=propertyMethod, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=createPropertyMetadata, postfix_operators=[], prefix_operators=[], qualifier=metadataFactory, selectors=[], type_arguments=None)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=[], dimensions=None, name=PrimitivePropertyMethodMetadata, sub_type=None))] end[}] end[}] return[member[.methodMetadata]] end[}] END[}]
Keyword[private] identifier[MethodMetadata] operator[<] operator[?] , operator[?] operator[>] identifier[createPropertyMethodMetadata] operator[SEP] identifier[AnnotatedType] identifier[annotatedType] , identifier[PropertyMethod] identifier[propertyMethod] operator[SEP] { identifier[MethodMetadata] operator[<] operator[?] , operator[?] operator[>] identifier[methodMetadata] operator[SEP] identifier[Class] operator[<] operator[?] operator[>] identifier[propertyType] operator[=] identifier[propertyMethod] operator[SEP] identifier[getType] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[Collection] operator[SEP] Keyword[class] operator[SEP] identifier[isAssignableFrom] operator[SEP] identifier[propertyType] operator[SEP] operator[SEP] { identifier[Type] identifier[genericType] operator[=] identifier[propertyMethod] operator[SEP] identifier[getGenericType] operator[SEP] operator[SEP] operator[SEP] identifier[ParameterizedType] identifier[type] operator[=] operator[SEP] identifier[ParameterizedType] operator[SEP] identifier[genericType] operator[SEP] identifier[Class] operator[<] operator[?] operator[>] identifier[elementType] operator[SEP] identifier[Type] identifier[typeArgument] operator[=] identifier[type] operator[SEP] identifier[getActualTypeArguments] operator[SEP] operator[SEP] operator[SEP] Other[0] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[typeArgument] Keyword[instanceof] identifier[Class] operator[SEP] { identifier[elementType] operator[=] operator[SEP] identifier[Class] operator[<] operator[?] operator[>] operator[SEP] identifier[typeArgument] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[typeArgument] Keyword[instanceof] identifier[ParameterizedType] operator[SEP] { identifier[ParameterizedType] identifier[parameterizedTypeArgument] operator[=] operator[SEP] identifier[ParameterizedType] operator[SEP] identifier[typeArgument] operator[SEP] identifier[elementType] operator[=] operator[SEP] identifier[Class] operator[<] operator[?] operator[>] operator[SEP] identifier[parameterizedTypeArgument] operator[SEP] identifier[getRawType] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[typeArgument] Keyword[instanceof] identifier[TypeVariable] operator[<] operator[?] operator[>] operator[SEP] { identifier[TypeVariable] operator[<] operator[?] operator[>] identifier[typeVariable] operator[=] operator[SEP] identifier[TypeVariable] operator[<] operator[?] operator[>] operator[SEP] identifier[typeArgument] operator[SEP] identifier[Type] operator[SEP] operator[SEP] identifier[bounds] operator[=] identifier[typeVariable] operator[SEP] identifier[getBounds] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[bounds] operator[SEP] identifier[length] operator[!=] Other[1] operator[SEP] { Keyword[throw] Keyword[new] identifier[XOException] operator[SEP] literal[String] operator[+] identifier[typeVariable] operator[SEP] identifier[getName] operator[SEP] operator[SEP] operator[+] literal[String] operator[+] identifier[propertyMethod] operator[SEP] identifier[getAnnotatedElement] operator[SEP] operator[SEP] operator[SEP] identifier[toGenericString] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } identifier[elementType] operator[=] operator[SEP] identifier[Class] operator[<] operator[?] operator[>] operator[SEP] identifier[bounds] operator[SEP] Other[0] operator[SEP] operator[SEP] } Keyword[else] { Keyword[throw] Keyword[new] identifier[XOException] operator[SEP] literal[String] operator[+] identifier[propertyMethod] operator[SEP] identifier[getAnnotatedElement] operator[SEP] operator[SEP] operator[SEP] identifier[toGenericString] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } identifier[AnnotatedType] identifier[annotatedTypeArgument] operator[=] Keyword[new] identifier[AnnotatedType] operator[SEP] identifier[elementType] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[isEntityType] operator[SEP] identifier[annotatedTypeArgument] operator[SEP] operator[SEP] { identifier[Direction] identifier[relationDirection] operator[=] identifier[getRelationDirection] operator[SEP] identifier[propertyMethod] , identifier[Direction] operator[SEP] identifier[FROM] operator[SEP] operator[SEP] identifier[com] operator[SEP] identifier[buschmais] operator[SEP] identifier[xo] operator[SEP] identifier[spi] operator[SEP] identifier[reflection] operator[SEP] identifier[AnnotatedElement] operator[<] operator[?] operator[>] identifier[relationElement] operator[=] identifier[getRelationDefinitionElement] operator[SEP] identifier[propertyMethod] operator[SEP] operator[SEP] identifier[RelationTypeMetadata] identifier[relationshipType] operator[=] Keyword[new] identifier[RelationTypeMetadata] operator[<] operator[>] operator[SEP] identifier[metadataFactory] operator[SEP] identifier[createRelationMetadata] operator[SEP] identifier[relationElement] , identifier[metadataByType] operator[SEP] operator[SEP] operator[SEP] identifier[methodMetadata] operator[=] Keyword[new] identifier[EntityCollectionPropertyMethodMetadata] operator[<] operator[>] operator[SEP] identifier[propertyMethod] , identifier[relationshipType] , identifier[relationDirection] , identifier[metadataFactory] operator[SEP] identifier[createCollectionPropertyMetadata] operator[SEP] identifier[propertyMethod] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[isRelationType] operator[SEP] identifier[annotatedTypeArgument] operator[SEP] operator[SEP] { identifier[TypeMetadata] identifier[relationTypeMetadata] operator[=] identifier[getOrCreateTypeMetadata] operator[SEP] identifier[elementType] operator[SEP] operator[SEP] identifier[RelationTypeMetadata] operator[<] identifier[RelationMetadata] operator[>] identifier[relationMetadata] operator[=] operator[SEP] identifier[RelationTypeMetadata] operator[SEP] identifier[relationTypeMetadata] operator[SEP] identifier[Direction] identifier[relationDirection] operator[=] identifier[getRelationDirection] operator[SEP] identifier[annotatedType] , identifier[propertyMethod] , identifier[relationTypeMetadata] , identifier[relationMetadata] operator[SEP] operator[SEP] identifier[methodMetadata] operator[=] Keyword[new] identifier[RelationCollectionPropertyMethodMetadata] operator[<] operator[>] operator[SEP] identifier[propertyMethod] , identifier[relationMetadata] , identifier[relationDirection] , identifier[metadataFactory] operator[SEP] identifier[createCollectionPropertyMetadata] operator[SEP] identifier[propertyMethod] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] { Keyword[throw] Keyword[new] identifier[XOException] operator[SEP] literal[String] operator[+] identifier[elementType] operator[SEP] identifier[getName] operator[SEP] operator[SEP] operator[+] literal[String] operator[+] identifier[propertyType] operator[SEP] identifier[getName] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } } Keyword[else] Keyword[if] operator[SEP] identifier[annotatedMethods] operator[SEP] identifier[containsKey] operator[SEP] identifier[propertyType] operator[SEP] operator[SEP] { identifier[AnnotatedType] identifier[referencedType] operator[=] Keyword[new] identifier[AnnotatedType] operator[SEP] identifier[propertyType] operator[SEP] operator[SEP] identifier[Direction] identifier[relationDirection] operator[SEP] identifier[RelationTypeMetadata] operator[<] identifier[RelationMetadata] operator[>] identifier[relationMetadata] operator[SEP] Keyword[if] operator[SEP] identifier[isEntityType] operator[SEP] identifier[referencedType] operator[SEP] operator[SEP] { identifier[relationDirection] operator[=] identifier[getRelationDirection] operator[SEP] identifier[propertyMethod] , identifier[Direction] operator[SEP] identifier[FROM] operator[SEP] operator[SEP] identifier[com] operator[SEP] identifier[buschmais] operator[SEP] identifier[xo] operator[SEP] identifier[spi] operator[SEP] identifier[reflection] operator[SEP] identifier[AnnotatedElement] operator[<] operator[?] operator[>] identifier[relationElement] operator[=] identifier[getRelationDefinitionElement] operator[SEP] identifier[propertyMethod] operator[SEP] operator[SEP] identifier[relationMetadata] operator[=] Keyword[new] identifier[RelationTypeMetadata] operator[<] operator[>] operator[SEP] identifier[metadataFactory] operator[SEP] identifier[createRelationMetadata] operator[SEP] identifier[relationElement] , identifier[metadataByType] operator[SEP] operator[SEP] operator[SEP] identifier[methodMetadata] operator[=] Keyword[new] identifier[EntityReferencePropertyMethodMetadata] operator[<] operator[>] operator[SEP] identifier[propertyMethod] , identifier[relationMetadata] , identifier[relationDirection] , identifier[metadataFactory] operator[SEP] identifier[createReferencePropertyMetadata] operator[SEP] identifier[propertyMethod] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[isRelationType] operator[SEP] identifier[referencedType] operator[SEP] operator[SEP] { identifier[TypeMetadata] identifier[relationTypeMetadata] operator[=] identifier[getOrCreateTypeMetadata] operator[SEP] identifier[propertyType] operator[SEP] operator[SEP] identifier[relationMetadata] operator[=] operator[SEP] identifier[RelationTypeMetadata] operator[SEP] identifier[relationTypeMetadata] operator[SEP] identifier[relationDirection] operator[=] identifier[getRelationDirection] operator[SEP] identifier[annotatedType] , identifier[propertyMethod] , identifier[relationTypeMetadata] , identifier[relationMetadata] operator[SEP] operator[SEP] identifier[methodMetadata] operator[=] Keyword[new] identifier[RelationReferencePropertyMethodMetadata] operator[<] operator[>] operator[SEP] identifier[propertyMethod] , identifier[relationMetadata] , identifier[relationDirection] , identifier[metadataFactory] operator[SEP] identifier[createReferencePropertyMetadata] operator[SEP] identifier[propertyMethod] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] { Keyword[throw] Keyword[new] identifier[XOException] operator[SEP] literal[String] operator[+] identifier[propertyType] operator[SEP] identifier[getName] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } } Keyword[else] { identifier[methodMetadata] operator[=] Keyword[new] identifier[PrimitivePropertyMethodMetadata] operator[<] operator[>] operator[SEP] identifier[propertyMethod] , identifier[metadataFactory] operator[SEP] identifier[createPropertyMetadata] operator[SEP] identifier[propertyMethod] operator[SEP] operator[SEP] operator[SEP] } Keyword[return] identifier[methodMetadata] operator[SEP] }
public int write(OutputStreamWithBuffer os, char []cbuf, int off, int len) throws IOException { for (int i = 0; i < len; i++) { char ch = cbuf[off + i]; if (ch < 0x80) os.write(ch); else { os.write('\\'); os.write('u'); int b = (ch >> 12) & 0xf; os.write(b < 10 ? b + '0' : b + 'a' - 10); b = (ch >> 8) & 0xf; os.write(b < 10 ? b + '0' : b + 'a' - 10); b = (ch >> 4) & 0xf; os.write(b < 10 ? b + '0' : b + 'a' - 10); b = ch & 0xf; os.write(b < 10 ? b + '0' : b + 'a' - 10); } } return len; }
class class_name[name] begin[{] method[write, return_type[type[int]], modifier[public], parameter[os, cbuf, off, len]] begin[{] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=cbuf, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=BinaryOperation(operandl=MemberReference(member=off, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+))]), name=ch)], modifiers=set(), type=BasicType(dimensions=[], name=char)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=ch, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0x80), operator=<), else_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='\\')], member=write, postfix_operators=[], prefix_operators=[], qualifier=os, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='u')], member=write, postfix_operators=[], prefix_operators=[], qualifier=os, selectors=[], type_arguments=None), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=ch, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=12), operator=>>), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0xf), operator=&), name=b)], modifiers=set(), type=BasicType(dimensions=[], name=int)), StatementExpression(expression=MethodInvocation(arguments=[TernaryExpression(condition=BinaryOperation(operandl=MemberReference(member=b, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=10), operator=<), if_false=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=b, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='a'), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=10), operator=-), if_true=BinaryOperation(operandl=MemberReference(member=b, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='0'), operator=+))], member=write, postfix_operators=[], prefix_operators=[], qualifier=os, selectors=[], type_arguments=None), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=b, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=ch, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=8), operator=>>), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0xf), operator=&)), label=None), StatementExpression(expression=MethodInvocation(arguments=[TernaryExpression(condition=BinaryOperation(operandl=MemberReference(member=b, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=10), operator=<), if_false=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=b, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='a'), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=10), operator=-), if_true=BinaryOperation(operandl=MemberReference(member=b, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='0'), operator=+))], member=write, postfix_operators=[], prefix_operators=[], qualifier=os, selectors=[], type_arguments=None), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=b, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=ch, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=4), operator=>>), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0xf), operator=&)), label=None), StatementExpression(expression=MethodInvocation(arguments=[TernaryExpression(condition=BinaryOperation(operandl=MemberReference(member=b, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=10), operator=<), if_false=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=b, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='a'), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=10), operator=-), if_true=BinaryOperation(operandl=MemberReference(member=b, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='0'), operator=+))], member=write, postfix_operators=[], prefix_operators=[], qualifier=os, selectors=[], type_arguments=None), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=b, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=BinaryOperation(operandl=MemberReference(member=ch, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0xf), operator=&)), label=None), StatementExpression(expression=MethodInvocation(arguments=[TernaryExpression(condition=BinaryOperation(operandl=MemberReference(member=b, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=10), operator=<), if_false=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=b, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='a'), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=10), operator=-), if_true=BinaryOperation(operandl=MemberReference(member=b, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='0'), operator=+))], member=write, postfix_operators=[], prefix_operators=[], qualifier=os, selectors=[], type_arguments=None), label=None)]), label=None, then_statement=StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=ch, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=write, postfix_operators=[], prefix_operators=[], qualifier=os, selectors=[], type_arguments=None), label=None))]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=len, 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[.len]] end[}] END[}]
Keyword[public] Keyword[int] identifier[write] operator[SEP] identifier[OutputStreamWithBuffer] identifier[os] , Keyword[char] operator[SEP] operator[SEP] identifier[cbuf] , Keyword[int] identifier[off] , Keyword[int] identifier[len] operator[SEP] Keyword[throws] identifier[IOException] { Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[len] operator[SEP] identifier[i] operator[++] operator[SEP] { Keyword[char] identifier[ch] operator[=] identifier[cbuf] operator[SEP] identifier[off] operator[+] identifier[i] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[ch] operator[<] literal[Integer] operator[SEP] identifier[os] operator[SEP] identifier[write] operator[SEP] identifier[ch] operator[SEP] operator[SEP] Keyword[else] { identifier[os] operator[SEP] identifier[write] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[os] operator[SEP] identifier[write] operator[SEP] literal[String] operator[SEP] operator[SEP] Keyword[int] identifier[b] operator[=] operator[SEP] identifier[ch] operator[>] operator[>] Other[12] operator[SEP] operator[&] literal[Integer] operator[SEP] identifier[os] operator[SEP] identifier[write] operator[SEP] identifier[b] operator[<] Other[10] operator[?] identifier[b] operator[+] literal[String] operator[:] identifier[b] operator[+] literal[String] operator[-] Other[10] operator[SEP] operator[SEP] identifier[b] operator[=] operator[SEP] identifier[ch] operator[>] operator[>] Other[8] operator[SEP] operator[&] literal[Integer] operator[SEP] identifier[os] operator[SEP] identifier[write] operator[SEP] identifier[b] operator[<] Other[10] operator[?] identifier[b] operator[+] literal[String] operator[:] identifier[b] operator[+] literal[String] operator[-] Other[10] operator[SEP] operator[SEP] identifier[b] operator[=] operator[SEP] identifier[ch] operator[>] operator[>] Other[4] operator[SEP] operator[&] literal[Integer] operator[SEP] identifier[os] operator[SEP] identifier[write] operator[SEP] identifier[b] operator[<] Other[10] operator[?] identifier[b] operator[+] literal[String] operator[:] identifier[b] operator[+] literal[String] operator[-] Other[10] operator[SEP] operator[SEP] identifier[b] operator[=] identifier[ch] operator[&] literal[Integer] operator[SEP] identifier[os] operator[SEP] identifier[write] operator[SEP] identifier[b] operator[<] Other[10] operator[?] identifier[b] operator[+] literal[String] operator[:] identifier[b] operator[+] literal[String] operator[-] Other[10] operator[SEP] operator[SEP] } } Keyword[return] identifier[len] operator[SEP] }
@Nonnull public static Document newDocument (@Nonnull final DocumentBuilder aDocBuilder, @Nullable final EXMLVersion eVersion) { ValueEnforcer.notNull (aDocBuilder, "DocBuilder"); final Document aDoc = aDocBuilder.newDocument (); aDoc.setXmlVersion ((eVersion != null ? eVersion : EXMLVersion.XML_10).getVersion ()); return aDoc; }
class class_name[name] begin[{] method[newDocument, return_type[type[Document]], modifier[public static], parameter[aDocBuilder, eVersion]] begin[{] call[ValueEnforcer.notNull, parameter[member[.aDocBuilder], literal["DocBuilder"]]] local_variable[type[Document], aDoc] call[aDoc.setXmlVersion, parameter[TernaryExpression(condition=BinaryOperation(operandl=MemberReference(member=eVersion, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator=!=), if_false=MemberReference(member=XML_10, postfix_operators=[], prefix_operators=[], qualifier=EXMLVersion, selectors=[]), if_true=MemberReference(member=eVersion, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]] return[member[.aDoc]] end[}] END[}]
annotation[@] identifier[Nonnull] Keyword[public] Keyword[static] identifier[Document] identifier[newDocument] operator[SEP] annotation[@] identifier[Nonnull] Keyword[final] identifier[DocumentBuilder] identifier[aDocBuilder] , annotation[@] identifier[Nullable] Keyword[final] identifier[EXMLVersion] identifier[eVersion] operator[SEP] { identifier[ValueEnforcer] operator[SEP] identifier[notNull] operator[SEP] identifier[aDocBuilder] , literal[String] operator[SEP] operator[SEP] Keyword[final] identifier[Document] identifier[aDoc] operator[=] identifier[aDocBuilder] operator[SEP] identifier[newDocument] operator[SEP] operator[SEP] operator[SEP] identifier[aDoc] operator[SEP] identifier[setXmlVersion] operator[SEP] operator[SEP] identifier[eVersion] operator[!=] Other[null] operator[?] identifier[eVersion] operator[:] identifier[EXMLVersion] operator[SEP] identifier[XML_10] operator[SEP] operator[SEP] identifier[getVersion] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[aDoc] operator[SEP] }
public static AvroUtils getAvroUtils() { // try and load the special AvroUtils from the flink-avro package try { Class<?> clazz = Class.forName(AVRO_KRYO_UTILS, false, Thread.currentThread().getContextClassLoader()); return clazz.asSubclass(AvroUtils.class).getConstructor().newInstance(); } catch (ClassNotFoundException e) { // cannot find the utils, return the default implementation return new DefaultAvroUtils(); } catch (Exception e) { throw new RuntimeException("Could not instantiate " + AVRO_KRYO_UTILS + ".", e); } }
class class_name[name] begin[{] method[getAvroUtils, return_type[type[AvroUtils]], modifier[public static], parameter[]] begin[{] TryStatement(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=AVRO_KRYO_UTILS, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=false), MethodInvocation(arguments=[], member=currentThread, postfix_operators=[], prefix_operators=[], qualifier=Thread, selectors=[MethodInvocation(arguments=[], member=getContextClassLoader, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None)], member=forName, postfix_operators=[], prefix_operators=[], qualifier=Class, selectors=[], type_arguments=None), name=clazz)], modifiers=set(), type=ReferenceType(arguments=[TypeArgument(pattern_type=?, type=None)], dimensions=[], name=Class, sub_type=None)), ReturnStatement(expression=MethodInvocation(arguments=[ClassReference(postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=AvroUtils, sub_type=None))], member=asSubclass, postfix_operators=[], prefix_operators=[], qualifier=clazz, selectors=[MethodInvocation(arguments=[], member=getConstructor, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[], member=newInstance, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), label=None)], catches=[CatchClause(block=[ReturnStatement(expression=ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=DefaultAvroUtils, sub_type=None)), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['ClassNotFoundException'])), CatchClause(block=[ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Could not instantiate "), operandr=MemberReference(member=AVRO_KRYO_UTILS, 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=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[}]
Keyword[public] Keyword[static] identifier[AvroUtils] identifier[getAvroUtils] operator[SEP] operator[SEP] { Keyword[try] { identifier[Class] operator[<] operator[?] operator[>] identifier[clazz] operator[=] identifier[Class] operator[SEP] identifier[forName] operator[SEP] identifier[AVRO_KRYO_UTILS] , literal[boolean] , identifier[Thread] operator[SEP] identifier[currentThread] operator[SEP] operator[SEP] operator[SEP] identifier[getContextClassLoader] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[clazz] operator[SEP] identifier[asSubclass] operator[SEP] identifier[AvroUtils] operator[SEP] Keyword[class] operator[SEP] operator[SEP] identifier[getConstructor] operator[SEP] operator[SEP] operator[SEP] identifier[newInstance] operator[SEP] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[ClassNotFoundException] identifier[e] operator[SEP] { Keyword[return] Keyword[new] identifier[DefaultAvroUtils] operator[SEP] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[Exception] identifier[e] operator[SEP] { Keyword[throw] Keyword[new] identifier[RuntimeException] operator[SEP] literal[String] operator[+] identifier[AVRO_KRYO_UTILS] operator[+] literal[String] , identifier[e] operator[SEP] operator[SEP] } }
public StructuredQueryDefinition temporalPeriodRange(Axis axis, TemporalOperator operator, Period period, String... options) { if ( axis == null ) throw new IllegalArgumentException("axis cannot be null"); if ( period == null ) throw new IllegalArgumentException("period cannot be null"); return temporalPeriodRange(new Axis[] {axis}, operator, new Period[] {period}, options); }
class class_name[name] begin[{] method[temporalPeriodRange, return_type[type[StructuredQueryDefinition]], modifier[public], parameter[axis, operator, period, options]] begin[{] if[binary_operation[member[.axis], ==, literal[null]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="axis cannot be null")], 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[}] if[binary_operation[member[.period], ==, literal[null]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="period cannot be null")], 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[call[.temporalPeriodRange, parameter[ArrayCreator(dimensions=[None], initializer=ArrayInitializer(initializers=[MemberReference(member=axis, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])]), postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Axis, sub_type=None)), member[.operator], ArrayCreator(dimensions=[None], initializer=ArrayInitializer(initializers=[MemberReference(member=period, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])]), postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Period, sub_type=None)), member[.options]]]] end[}] END[}]
Keyword[public] identifier[StructuredQueryDefinition] identifier[temporalPeriodRange] operator[SEP] identifier[Axis] identifier[axis] , identifier[TemporalOperator] identifier[operator] , identifier[Period] identifier[period] , identifier[String] operator[...] identifier[options] operator[SEP] { Keyword[if] operator[SEP] identifier[axis] operator[==] Other[null] operator[SEP] Keyword[throw] Keyword[new] identifier[IllegalArgumentException] operator[SEP] literal[String] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[period] operator[==] Other[null] operator[SEP] Keyword[throw] Keyword[new] identifier[IllegalArgumentException] operator[SEP] literal[String] operator[SEP] operator[SEP] Keyword[return] identifier[temporalPeriodRange] operator[SEP] Keyword[new] identifier[Axis] operator[SEP] operator[SEP] { identifier[axis] } , identifier[operator] , Keyword[new] identifier[Period] operator[SEP] operator[SEP] { identifier[period] } , identifier[options] operator[SEP] operator[SEP] }
private void _symmetricTql2 () { // This is derived from the Algol procedures tql2, by // Bowdler, Martin, Reinsch, and Wilkinson, Handbook for // Auto. Comp., Vol.ii-Linear Algebra, and the corresponding // Fortran subroutine in EISPACK. for (int i = 1; i < m_nDim; i++) m_aEVe[i - 1] = m_aEVe[i]; m_aEVe[m_nDim - 1] = 0.0; double f = 0.0; double tst1 = 0.0; for (int l = 0; l < m_nDim; l++) { // Find small subdiagonal element tst1 = Math.max (tst1, MathHelper.abs (m_aEVd[l]) + MathHelper.abs (m_aEVe[l])); int m = l; while (m < m_nDim) { if (MathHelper.abs (m_aEVe[m]) <= EPSILON * tst1) break; m++; } // If m == l, d[l] is an eigenvalue, // otherwise, iterate. if (m > l) { do { // Compute implicit shift double g = m_aEVd[l]; double p = (m_aEVd[l + 1] - g) / (2.0 * m_aEVe[l]); double r = MathHelper.hypot (p, 1.0); if (p < 0) { r = -r; } m_aEVd[l] = m_aEVe[l] / (p + r); m_aEVd[l + 1] = m_aEVe[l] * (p + r); final double dl1 = m_aEVd[l + 1]; double h = g - m_aEVd[l]; for (int i = l + 2; i < m_nDim; i++) { m_aEVd[i] -= h; } f += h; // Implicit QL transformation. p = m_aEVd[m]; double c = 1.0; double c2 = c; double c3 = c; final double el1 = m_aEVe[l + 1]; double s = 0.0; double s2 = 0.0; for (int i = m - 1; i >= l; i--) { c3 = c2; c2 = c; s2 = s; g = c * m_aEVe[i]; h = c * p; r = MathHelper.hypot (p, m_aEVe[i]); m_aEVe[i + 1] = s * r; s = m_aEVe[i] / r; c = p / r; p = c * m_aEVd[i] - s * g; m_aEVd[i + 1] = h + s * (c * g + s * m_aEVd[i]); // Accumulate transformation. for (int k = 0; k < m_nDim; k++) { h = m_aEigenVector[k][i + 1]; m_aEigenVector[k][i + 1] = s * m_aEigenVector[k][i] + c * h; m_aEigenVector[k][i] = c * m_aEigenVector[k][i] - s * h; } } p = -s * s2 * c3 * el1 * m_aEVe[l] / dl1; m_aEVe[l] = s * p; m_aEVd[l] = c * p; // Check for convergence. } while (MathHelper.abs (m_aEVe[l]) > EPSILON * tst1); } m_aEVd[l] = m_aEVd[l] + f; m_aEVe[l] = 0.0; } // Sort eigenvalues and corresponding vectors. for (int i = 0; i < m_nDim - 1; i++) { int k = i; double p = m_aEVd[i]; for (int j = i + 1; j < m_nDim; j++) { if (m_aEVd[j] < p) { k = j; p = m_aEVd[j]; } } if (k != i) { m_aEVd[k] = m_aEVd[i]; m_aEVd[i] = p; for (int j = 0; j < m_nDim; j++) { p = m_aEigenVector[j][i]; m_aEigenVector[j][i] = m_aEigenVector[j][k]; m_aEigenVector[j][k] = p; } } } }
class class_name[name] begin[{] method[_symmetricTql2, return_type[void], modifier[private], parameter[]] begin[{] ForStatement(body=StatementExpression(expression=Assignment(expressionl=MemberReference(member=m_aEVe, 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=-))]), type==, value=MemberReference(member=m_aEVe, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))])), label=None), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=m_nDim, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=<), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), name=i)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=i, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None) assign[member[.m_aEVe], literal[0.0]] local_variable[type[double], f] local_variable[type[double], tst1] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tst1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[MemberReference(member=tst1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), BinaryOperation(operandl=MethodInvocation(arguments=[MemberReference(member=m_aEVd, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))])], member=abs, postfix_operators=[], prefix_operators=[], qualifier=MathHelper, selectors=[], type_arguments=None), operandr=MethodInvocation(arguments=[MemberReference(member=m_aEVe, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))])], member=abs, postfix_operators=[], prefix_operators=[], qualifier=MathHelper, selectors=[], type_arguments=None), operator=+)], member=max, postfix_operators=[], prefix_operators=[], qualifier=Math, selectors=[], type_arguments=None)), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), name=m)], modifiers=set(), type=BasicType(dimensions=[], name=int)), WhileStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=MethodInvocation(arguments=[MemberReference(member=m_aEVe, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=m, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))])], member=abs, postfix_operators=[], prefix_operators=[], qualifier=MathHelper, selectors=[], type_arguments=None), operandr=BinaryOperation(operandl=MemberReference(member=EPSILON, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=tst1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=*), operator=<=), else_statement=None, label=None, then_statement=BreakStatement(goto=None, label=None)), StatementExpression(expression=MemberReference(member=m, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[]), label=None)]), condition=BinaryOperation(operandl=MemberReference(member=m, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=m_nDim, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=<), label=None), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=m, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=>), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[DoStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=m_aEVd, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), name=g)], modifiers=set(), type=BasicType(dimensions=[], name=double)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=m_aEVd, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=BinaryOperation(operandl=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=+))]), operandr=MemberReference(member=g, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=-), operandr=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2.0), operandr=MemberReference(member=m_aEVe, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), operator=*), operator=/), name=p)], modifiers=set(), type=BasicType(dimensions=[], name=double)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=p, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1.0)], member=hypot, postfix_operators=[], prefix_operators=[], qualifier=MathHelper, selectors=[], type_arguments=None), name=r)], modifiers=set(), type=BasicType(dimensions=[], name=double)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=p, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), 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=r, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MemberReference(member=r, postfix_operators=[], prefix_operators=['-'], qualifier=, selectors=[])), label=None)])), StatementExpression(expression=Assignment(expressionl=MemberReference(member=m_aEVd, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), type==, value=BinaryOperation(operandl=MemberReference(member=m_aEVe, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), operandr=BinaryOperation(operandl=MemberReference(member=p, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=r, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), operator=/)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=m_aEVd, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=BinaryOperation(operandl=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=+))]), type==, value=BinaryOperation(operandl=MemberReference(member=m_aEVe, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), operandr=BinaryOperation(operandl=MemberReference(member=p, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=r, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), operator=*)), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=m_aEVd, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=BinaryOperation(operandl=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=+))]), name=dl1)], modifiers={'final'}, type=BasicType(dimensions=[], name=double)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=g, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=m_aEVd, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), operator=-), name=h)], modifiers=set(), type=BasicType(dimensions=[], name=double)), ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=m_aEVd, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), type=-=, value=MemberReference(member=h, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=m_nDim, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=<), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=BinaryOperation(operandl=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2), operator=+), name=i)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=i, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=f, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=+=, value=MemberReference(member=h, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=p, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MemberReference(member=m_aEVd, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=m, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))])), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1.0), name=c)], modifiers=set(), type=BasicType(dimensions=[], name=double)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), name=c2)], modifiers=set(), type=BasicType(dimensions=[], name=double)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), name=c3)], modifiers=set(), type=BasicType(dimensions=[], name=double)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=m_aEVe, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=BinaryOperation(operandl=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=+))]), name=el1)], modifiers={'final'}, type=BasicType(dimensions=[], name=double)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0.0), name=s)], modifiers=set(), type=BasicType(dimensions=[], name=double)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0.0), name=s2)], modifiers=set(), type=BasicType(dimensions=[], name=double)), ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=c3, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MemberReference(member=c2, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=c2, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=s2, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MemberReference(member=s, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=g, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=BinaryOperation(operandl=MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=m_aEVe, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), operator=*)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=h, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=BinaryOperation(operandl=MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=p, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=*)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=r, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[MemberReference(member=p, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=m_aEVe, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))])], member=hypot, postfix_operators=[], prefix_operators=[], qualifier=MathHelper, selectors=[], type_arguments=None)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=m_aEVe, 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=+))]), type==, value=BinaryOperation(operandl=MemberReference(member=s, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=r, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=*)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=s, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=BinaryOperation(operandl=MemberReference(member=m_aEVe, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), operandr=MemberReference(member=r, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=/)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=BinaryOperation(operandl=MemberReference(member=p, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=r, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=/)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=p, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=m_aEVd, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), operator=*), operandr=BinaryOperation(operandl=MemberReference(member=s, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=g, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=*), operator=-)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=m_aEVd, 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=+))]), type==, value=BinaryOperation(operandl=MemberReference(member=h, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=BinaryOperation(operandl=MemberReference(member=s, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=g, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=*), operandr=BinaryOperation(operandl=MemberReference(member=s, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=m_aEVd, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), operator=*), operator=+), operator=*), operator=+)), label=None), ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=h, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MemberReference(member=m_aEigenVector, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=k, 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=m_aEigenVector, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=k, 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=+))]), type==, value=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=s, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=m_aEigenVector, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=k, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), operator=*), operandr=BinaryOperation(operandl=MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=h, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=*), operator=+)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=m_aEigenVector, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=k, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), type==, value=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=m_aEigenVector, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=k, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), operator=*), operandr=BinaryOperation(operandl=MemberReference(member=s, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=h, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=*), operator=-)), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=k, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=m_nDim, 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=k)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=k, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=>=), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=BinaryOperation(operandl=MemberReference(member=m, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), 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), StatementExpression(expression=Assignment(expressionl=MemberReference(member=p, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=s, postfix_operators=[], prefix_operators=['-'], qualifier=, selectors=[]), operandr=MemberReference(member=s2, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=*), operandr=MemberReference(member=c3, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=*), operandr=MemberReference(member=el1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=*), operandr=MemberReference(member=m_aEVe, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), operator=*), operandr=MemberReference(member=dl1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=/)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=m_aEVe, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), type==, value=BinaryOperation(operandl=MemberReference(member=s, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=p, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=*)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=m_aEVd, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), type==, value=BinaryOperation(operandl=MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=p, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=*)), label=None)]), condition=BinaryOperation(operandl=MethodInvocation(arguments=[MemberReference(member=m_aEVe, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))])], member=abs, postfix_operators=[], prefix_operators=[], qualifier=MathHelper, selectors=[], type_arguments=None), operandr=BinaryOperation(operandl=MemberReference(member=EPSILON, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=tst1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=*), operator=>), label=None)])), StatementExpression(expression=Assignment(expressionl=MemberReference(member=m_aEVd, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), type==, value=BinaryOperation(operandl=MemberReference(member=m_aEVd, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), operandr=MemberReference(member=f, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=m_aEVe, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0.0)), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=m_nDim, 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=l)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=l, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None) ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), name=k)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=m_aEVd, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), name=p)], modifiers=set(), type=BasicType(dimensions=[], name=double)), ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=m_aEVd, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=j, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), operandr=MemberReference(member=p, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=<), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=k, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MemberReference(member=j, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=p, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MemberReference(member=m_aEVd, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=j, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))])), label=None)]))]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=j, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=m_nDim, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=<), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, 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=j)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=j, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=k, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=!=), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=m_aEVd, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=k, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), type==, value=MemberReference(member=m_aEVd, 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=m_aEVd, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), type==, value=MemberReference(member=p, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), label=None), ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=p, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MemberReference(member=m_aEigenVector, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=j, 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=m_aEigenVector, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=j, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), type==, value=MemberReference(member=m_aEigenVector, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=j, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), ArraySelector(index=MemberReference(member=k, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))])), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=m_aEigenVector, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=j, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), ArraySelector(index=MemberReference(member=k, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), type==, value=MemberReference(member=p, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=j, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=m_nDim, 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=j)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=j, 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=m_nDim, postfix_operators=[], prefix_operators=[], qualifier=, 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=0), name=i)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=i, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None) end[}] END[}]
Keyword[private] Keyword[void] identifier[_symmetricTql2] operator[SEP] operator[SEP] { Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[1] operator[SEP] identifier[i] operator[<] identifier[m_nDim] operator[SEP] identifier[i] operator[++] operator[SEP] identifier[m_aEVe] operator[SEP] identifier[i] operator[-] Other[1] operator[SEP] operator[=] identifier[m_aEVe] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[m_aEVe] operator[SEP] identifier[m_nDim] operator[-] Other[1] operator[SEP] operator[=] literal[Float] operator[SEP] Keyword[double] identifier[f] operator[=] literal[Float] operator[SEP] Keyword[double] identifier[tst1] operator[=] literal[Float] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[l] operator[=] Other[0] operator[SEP] identifier[l] operator[<] identifier[m_nDim] operator[SEP] identifier[l] operator[++] operator[SEP] { identifier[tst1] operator[=] identifier[Math] operator[SEP] identifier[max] operator[SEP] identifier[tst1] , identifier[MathHelper] operator[SEP] identifier[abs] operator[SEP] identifier[m_aEVd] operator[SEP] identifier[l] operator[SEP] operator[SEP] operator[+] identifier[MathHelper] operator[SEP] identifier[abs] operator[SEP] identifier[m_aEVe] operator[SEP] identifier[l] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[int] identifier[m] operator[=] identifier[l] operator[SEP] Keyword[while] operator[SEP] identifier[m] operator[<] identifier[m_nDim] operator[SEP] { Keyword[if] operator[SEP] identifier[MathHelper] operator[SEP] identifier[abs] operator[SEP] identifier[m_aEVe] operator[SEP] identifier[m] operator[SEP] operator[SEP] operator[<=] identifier[EPSILON] operator[*] identifier[tst1] operator[SEP] Keyword[break] operator[SEP] identifier[m] operator[++] operator[SEP] } Keyword[if] operator[SEP] identifier[m] operator[>] identifier[l] operator[SEP] { Keyword[do] { Keyword[double] identifier[g] operator[=] identifier[m_aEVd] operator[SEP] identifier[l] operator[SEP] operator[SEP] Keyword[double] identifier[p] operator[=] operator[SEP] identifier[m_aEVd] operator[SEP] identifier[l] operator[+] Other[1] operator[SEP] operator[-] identifier[g] operator[SEP] operator[/] operator[SEP] literal[Float] operator[*] identifier[m_aEVe] operator[SEP] identifier[l] operator[SEP] operator[SEP] operator[SEP] Keyword[double] identifier[r] operator[=] identifier[MathHelper] operator[SEP] identifier[hypot] operator[SEP] identifier[p] , literal[Float] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[p] operator[<] Other[0] operator[SEP] { identifier[r] operator[=] operator[-] identifier[r] operator[SEP] } identifier[m_aEVd] operator[SEP] identifier[l] operator[SEP] operator[=] identifier[m_aEVe] operator[SEP] identifier[l] operator[SEP] operator[/] operator[SEP] identifier[p] operator[+] identifier[r] operator[SEP] operator[SEP] identifier[m_aEVd] operator[SEP] identifier[l] operator[+] Other[1] operator[SEP] operator[=] identifier[m_aEVe] operator[SEP] identifier[l] operator[SEP] operator[*] operator[SEP] identifier[p] operator[+] identifier[r] operator[SEP] operator[SEP] Keyword[final] Keyword[double] identifier[dl1] operator[=] identifier[m_aEVd] operator[SEP] identifier[l] operator[+] Other[1] operator[SEP] operator[SEP] Keyword[double] identifier[h] operator[=] identifier[g] operator[-] identifier[m_aEVd] operator[SEP] identifier[l] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] identifier[l] operator[+] Other[2] operator[SEP] identifier[i] operator[<] identifier[m_nDim] operator[SEP] identifier[i] operator[++] operator[SEP] { identifier[m_aEVd] operator[SEP] identifier[i] operator[SEP] operator[-=] identifier[h] operator[SEP] } identifier[f] operator[+=] identifier[h] operator[SEP] identifier[p] operator[=] identifier[m_aEVd] operator[SEP] identifier[m] operator[SEP] operator[SEP] Keyword[double] identifier[c] operator[=] literal[Float] operator[SEP] Keyword[double] identifier[c2] operator[=] identifier[c] operator[SEP] Keyword[double] identifier[c3] operator[=] identifier[c] operator[SEP] Keyword[final] Keyword[double] identifier[el1] operator[=] identifier[m_aEVe] operator[SEP] identifier[l] operator[+] Other[1] operator[SEP] operator[SEP] Keyword[double] identifier[s] operator[=] literal[Float] operator[SEP] Keyword[double] identifier[s2] operator[=] literal[Float] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] identifier[m] operator[-] Other[1] operator[SEP] identifier[i] operator[>=] identifier[l] operator[SEP] identifier[i] operator[--] operator[SEP] { identifier[c3] operator[=] identifier[c2] operator[SEP] identifier[c2] operator[=] identifier[c] operator[SEP] identifier[s2] operator[=] identifier[s] operator[SEP] identifier[g] operator[=] identifier[c] operator[*] identifier[m_aEVe] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[h] operator[=] identifier[c] operator[*] identifier[p] operator[SEP] identifier[r] operator[=] identifier[MathHelper] operator[SEP] identifier[hypot] operator[SEP] identifier[p] , identifier[m_aEVe] operator[SEP] identifier[i] operator[SEP] operator[SEP] operator[SEP] identifier[m_aEVe] operator[SEP] identifier[i] operator[+] Other[1] operator[SEP] operator[=] identifier[s] operator[*] identifier[r] operator[SEP] identifier[s] operator[=] identifier[m_aEVe] operator[SEP] identifier[i] operator[SEP] operator[/] identifier[r] operator[SEP] identifier[c] operator[=] identifier[p] operator[/] identifier[r] operator[SEP] identifier[p] operator[=] identifier[c] operator[*] identifier[m_aEVd] operator[SEP] identifier[i] operator[SEP] operator[-] identifier[s] operator[*] identifier[g] operator[SEP] identifier[m_aEVd] operator[SEP] identifier[i] operator[+] Other[1] operator[SEP] operator[=] identifier[h] operator[+] identifier[s] operator[*] operator[SEP] identifier[c] operator[*] identifier[g] operator[+] identifier[s] operator[*] identifier[m_aEVd] operator[SEP] identifier[i] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[k] operator[=] Other[0] operator[SEP] identifier[k] operator[<] identifier[m_nDim] operator[SEP] identifier[k] operator[++] operator[SEP] { identifier[h] operator[=] identifier[m_aEigenVector] operator[SEP] identifier[k] operator[SEP] operator[SEP] identifier[i] operator[+] Other[1] operator[SEP] operator[SEP] identifier[m_aEigenVector] operator[SEP] identifier[k] operator[SEP] operator[SEP] identifier[i] operator[+] Other[1] operator[SEP] operator[=] identifier[s] operator[*] identifier[m_aEigenVector] operator[SEP] identifier[k] operator[SEP] operator[SEP] identifier[i] operator[SEP] operator[+] identifier[c] operator[*] identifier[h] operator[SEP] identifier[m_aEigenVector] operator[SEP] identifier[k] operator[SEP] operator[SEP] identifier[i] operator[SEP] operator[=] identifier[c] operator[*] identifier[m_aEigenVector] operator[SEP] identifier[k] operator[SEP] operator[SEP] identifier[i] operator[SEP] operator[-] identifier[s] operator[*] identifier[h] operator[SEP] } } identifier[p] operator[=] operator[-] identifier[s] operator[*] identifier[s2] operator[*] identifier[c3] operator[*] identifier[el1] operator[*] identifier[m_aEVe] operator[SEP] identifier[l] operator[SEP] operator[/] identifier[dl1] operator[SEP] identifier[m_aEVe] operator[SEP] identifier[l] operator[SEP] operator[=] identifier[s] operator[*] identifier[p] operator[SEP] identifier[m_aEVd] operator[SEP] identifier[l] operator[SEP] operator[=] identifier[c] operator[*] identifier[p] operator[SEP] } Keyword[while] operator[SEP] identifier[MathHelper] operator[SEP] identifier[abs] operator[SEP] identifier[m_aEVe] operator[SEP] identifier[l] operator[SEP] operator[SEP] operator[>] identifier[EPSILON] operator[*] identifier[tst1] operator[SEP] operator[SEP] } identifier[m_aEVd] operator[SEP] identifier[l] operator[SEP] operator[=] identifier[m_aEVd] operator[SEP] identifier[l] operator[SEP] operator[+] identifier[f] operator[SEP] identifier[m_aEVe] operator[SEP] identifier[l] operator[SEP] operator[=] literal[Float] operator[SEP] } Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[m_nDim] operator[-] Other[1] operator[SEP] identifier[i] operator[++] operator[SEP] { Keyword[int] identifier[k] operator[=] identifier[i] operator[SEP] Keyword[double] identifier[p] operator[=] identifier[m_aEVd] operator[SEP] identifier[i] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[j] operator[=] identifier[i] operator[+] Other[1] operator[SEP] identifier[j] operator[<] identifier[m_nDim] operator[SEP] identifier[j] operator[++] operator[SEP] { Keyword[if] operator[SEP] identifier[m_aEVd] operator[SEP] identifier[j] operator[SEP] operator[<] identifier[p] operator[SEP] { identifier[k] operator[=] identifier[j] operator[SEP] identifier[p] operator[=] identifier[m_aEVd] operator[SEP] identifier[j] operator[SEP] operator[SEP] } } Keyword[if] operator[SEP] identifier[k] operator[!=] identifier[i] operator[SEP] { identifier[m_aEVd] operator[SEP] identifier[k] operator[SEP] operator[=] identifier[m_aEVd] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[m_aEVd] operator[SEP] identifier[i] operator[SEP] operator[=] identifier[p] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[j] operator[=] Other[0] operator[SEP] identifier[j] operator[<] identifier[m_nDim] operator[SEP] identifier[j] operator[++] operator[SEP] { identifier[p] operator[=] identifier[m_aEigenVector] operator[SEP] identifier[j] operator[SEP] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[m_aEigenVector] operator[SEP] identifier[j] operator[SEP] operator[SEP] identifier[i] operator[SEP] operator[=] identifier[m_aEigenVector] operator[SEP] identifier[j] operator[SEP] operator[SEP] identifier[k] operator[SEP] operator[SEP] identifier[m_aEigenVector] operator[SEP] identifier[j] operator[SEP] operator[SEP] identifier[k] operator[SEP] operator[=] identifier[p] operator[SEP] } } } }
public Map<String, ServerInstanceLogRecordList> getChildren() { HashMap<String, ServerInstanceLogRecordList> map = new HashMap<String, ServerInstanceLogRecordList>(); if (traceBrowser == null) { for(Map.Entry<String, LogRepositoryBrowser> entry: logBrowser.getSubProcesses().entrySet()) { ServerInstanceLogRecordList value = new ServerInstanceLogRecordListImpl(entry.getValue(), null, switched) { @Override public OnePidRecordListImpl queryResult(LogRepositoryBrowser browser) { return ServerInstanceLogRecordListImpl.this.queryResult(browser); } }; map.put(entry.getKey(), value); } } else if (logBrowser == null) { for(Map.Entry<String, LogRepositoryBrowser> entry: traceBrowser.getSubProcesses().entrySet()) { ServerInstanceLogRecordList value = new ServerInstanceLogRecordListImpl(entry.getValue(), null, !switched) { @Override public OnePidRecordListImpl queryResult(LogRepositoryBrowser browser) { return ServerInstanceLogRecordListImpl.this.queryResult(browser); } }; map.put(entry.getKey(), value); } } else { Map<String, LogRepositoryBrowser> logSubProcs = logBrowser.getSubProcesses(); Map<String, LogRepositoryBrowser> traceSubProcs = traceBrowser.getSubProcesses(); HashSet<String> keys = new HashSet<String>(); keys.addAll(logSubProcs.keySet()); keys.addAll(traceSubProcs.keySet()); for (String key: keys) { ServerInstanceLogRecordList value = new ServerInstanceLogRecordListImpl(logSubProcs.get(key), traceSubProcs.get(key), switched) { @Override public OnePidRecordListImpl queryResult(LogRepositoryBrowser browser) { return ServerInstanceLogRecordListImpl.this.queryResult(browser); } }; map.put(key, value); } } return map; }
class class_name[name] begin[{] method[getChildren, return_type[type[Map]], modifier[public], parameter[]] begin[{] local_variable[type[HashMap], map] if[binary_operation[member[.traceBrowser], ==, literal[null]]] begin[{] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[MethodInvocation(arguments=[], member=getValue, postfix_operators=[], prefix_operators=[], qualifier=entry, selectors=[], type_arguments=None), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), MemberReference(member=switched, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=[MethodDeclaration(annotations=[Annotation(element=None, name=Override)], body=[ReturnStatement(expression=This(postfix_operators=[], prefix_operators=[], qualifier=ServerInstanceLogRecordListImpl, selectors=[MethodInvocation(arguments=[MemberReference(member=browser, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=queryResult, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), label=None)], documentation=None, modifiers={'public'}, name=queryResult, parameters=[FormalParameter(annotations=[], modifiers=set(), name=browser, type=ReferenceType(arguments=None, dimensions=[], name=LogRepositoryBrowser, sub_type=None), varargs=False)], return_type=ReferenceType(arguments=None, dimensions=[], name=OnePidRecordListImpl, sub_type=None), throws=None, type_parameters=None)], constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=ServerInstanceLogRecordListImpl, sub_type=None)), name=value)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=ServerInstanceLogRecordList, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getKey, postfix_operators=[], prefix_operators=[], qualifier=entry, selectors=[], type_arguments=None), MemberReference(member=value, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=put, postfix_operators=[], prefix_operators=[], qualifier=map, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MethodInvocation(arguments=[], member=getSubProcesses, postfix_operators=[], prefix_operators=[], qualifier=logBrowser, 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=LogRepositoryBrowser, sub_type=None))], dimensions=None, name=Entry, sub_type=None)))), label=None) else begin[{] if[binary_operation[member[.logBrowser], ==, literal[null]]] begin[{] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[MethodInvocation(arguments=[], member=getValue, postfix_operators=[], prefix_operators=[], qualifier=entry, selectors=[], type_arguments=None), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), MemberReference(member=switched, postfix_operators=[], prefix_operators=['!'], qualifier=, selectors=[])], body=[MethodDeclaration(annotations=[Annotation(element=None, name=Override)], body=[ReturnStatement(expression=This(postfix_operators=[], prefix_operators=[], qualifier=ServerInstanceLogRecordListImpl, selectors=[MethodInvocation(arguments=[MemberReference(member=browser, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=queryResult, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), label=None)], documentation=None, modifiers={'public'}, name=queryResult, parameters=[FormalParameter(annotations=[], modifiers=set(), name=browser, type=ReferenceType(arguments=None, dimensions=[], name=LogRepositoryBrowser, sub_type=None), varargs=False)], return_type=ReferenceType(arguments=None, dimensions=[], name=OnePidRecordListImpl, sub_type=None), throws=None, type_parameters=None)], constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=ServerInstanceLogRecordListImpl, sub_type=None)), name=value)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=ServerInstanceLogRecordList, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getKey, postfix_operators=[], prefix_operators=[], qualifier=entry, selectors=[], type_arguments=None), MemberReference(member=value, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=put, postfix_operators=[], prefix_operators=[], qualifier=map, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MethodInvocation(arguments=[], member=getSubProcesses, postfix_operators=[], prefix_operators=[], qualifier=traceBrowser, 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=LogRepositoryBrowser, sub_type=None))], dimensions=None, name=Entry, sub_type=None)))), label=None) else begin[{] local_variable[type[Map], logSubProcs] local_variable[type[Map], traceSubProcs] local_variable[type[HashSet], keys] call[keys.addAll, parameter[call[logSubProcs.keySet, parameter[]]]] call[keys.addAll, parameter[call[traceSubProcs.keySet, parameter[]]]] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[MethodInvocation(arguments=[MemberReference(member=key, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=get, postfix_operators=[], prefix_operators=[], qualifier=logSubProcs, selectors=[], type_arguments=None), MethodInvocation(arguments=[MemberReference(member=key, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=get, postfix_operators=[], prefix_operators=[], qualifier=traceSubProcs, selectors=[], type_arguments=None), MemberReference(member=switched, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=[MethodDeclaration(annotations=[Annotation(element=None, name=Override)], body=[ReturnStatement(expression=This(postfix_operators=[], prefix_operators=[], qualifier=ServerInstanceLogRecordListImpl, selectors=[MethodInvocation(arguments=[MemberReference(member=browser, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=queryResult, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), label=None)], documentation=None, modifiers={'public'}, name=queryResult, parameters=[FormalParameter(annotations=[], modifiers=set(), name=browser, type=ReferenceType(arguments=None, dimensions=[], name=LogRepositoryBrowser, sub_type=None), varargs=False)], return_type=ReferenceType(arguments=None, dimensions=[], name=OnePidRecordListImpl, sub_type=None), throws=None, type_parameters=None)], constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=ServerInstanceLogRecordListImpl, sub_type=None)), name=value)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=ServerInstanceLogRecordList, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=key, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=value, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=put, postfix_operators=[], prefix_operators=[], qualifier=map, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MemberReference(member=keys, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=key)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None))), label=None) end[}] end[}] return[member[.map]] end[}] END[}]
Keyword[public] identifier[Map] operator[<] identifier[String] , identifier[ServerInstanceLogRecordList] operator[>] identifier[getChildren] operator[SEP] operator[SEP] { identifier[HashMap] operator[<] identifier[String] , identifier[ServerInstanceLogRecordList] operator[>] identifier[map] operator[=] Keyword[new] identifier[HashMap] operator[<] identifier[String] , identifier[ServerInstanceLogRecordList] operator[>] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[traceBrowser] operator[==] Other[null] operator[SEP] { Keyword[for] operator[SEP] identifier[Map] operator[SEP] identifier[Entry] operator[<] identifier[String] , identifier[LogRepositoryBrowser] operator[>] identifier[entry] operator[:] identifier[logBrowser] operator[SEP] identifier[getSubProcesses] operator[SEP] operator[SEP] operator[SEP] identifier[entrySet] operator[SEP] operator[SEP] operator[SEP] { identifier[ServerInstanceLogRecordList] identifier[value] operator[=] Keyword[new] identifier[ServerInstanceLogRecordListImpl] operator[SEP] identifier[entry] operator[SEP] identifier[getValue] operator[SEP] operator[SEP] , Other[null] , identifier[switched] operator[SEP] { annotation[@] identifier[Override] Keyword[public] identifier[OnePidRecordListImpl] identifier[queryResult] operator[SEP] identifier[LogRepositoryBrowser] identifier[browser] operator[SEP] { Keyword[return] identifier[ServerInstanceLogRecordListImpl] operator[SEP] Keyword[this] operator[SEP] identifier[queryResult] operator[SEP] identifier[browser] operator[SEP] operator[SEP] } } operator[SEP] identifier[map] operator[SEP] identifier[put] operator[SEP] identifier[entry] operator[SEP] identifier[getKey] operator[SEP] operator[SEP] , identifier[value] operator[SEP] operator[SEP] } } Keyword[else] Keyword[if] operator[SEP] identifier[logBrowser] operator[==] Other[null] operator[SEP] { Keyword[for] operator[SEP] identifier[Map] operator[SEP] identifier[Entry] operator[<] identifier[String] , identifier[LogRepositoryBrowser] operator[>] identifier[entry] operator[:] identifier[traceBrowser] operator[SEP] identifier[getSubProcesses] operator[SEP] operator[SEP] operator[SEP] identifier[entrySet] operator[SEP] operator[SEP] operator[SEP] { identifier[ServerInstanceLogRecordList] identifier[value] operator[=] Keyword[new] identifier[ServerInstanceLogRecordListImpl] operator[SEP] identifier[entry] operator[SEP] identifier[getValue] operator[SEP] operator[SEP] , Other[null] , operator[!] identifier[switched] operator[SEP] { annotation[@] identifier[Override] Keyword[public] identifier[OnePidRecordListImpl] identifier[queryResult] operator[SEP] identifier[LogRepositoryBrowser] identifier[browser] operator[SEP] { Keyword[return] identifier[ServerInstanceLogRecordListImpl] operator[SEP] Keyword[this] operator[SEP] identifier[queryResult] operator[SEP] identifier[browser] operator[SEP] operator[SEP] } } operator[SEP] identifier[map] operator[SEP] identifier[put] operator[SEP] identifier[entry] operator[SEP] identifier[getKey] operator[SEP] operator[SEP] , identifier[value] operator[SEP] operator[SEP] } } Keyword[else] { identifier[Map] operator[<] identifier[String] , identifier[LogRepositoryBrowser] operator[>] identifier[logSubProcs] operator[=] identifier[logBrowser] operator[SEP] identifier[getSubProcesses] operator[SEP] operator[SEP] operator[SEP] identifier[Map] operator[<] identifier[String] , identifier[LogRepositoryBrowser] operator[>] identifier[traceSubProcs] operator[=] identifier[traceBrowser] operator[SEP] identifier[getSubProcesses] operator[SEP] operator[SEP] operator[SEP] identifier[HashSet] operator[<] identifier[String] operator[>] identifier[keys] operator[=] Keyword[new] identifier[HashSet] operator[<] identifier[String] operator[>] operator[SEP] operator[SEP] operator[SEP] identifier[keys] operator[SEP] identifier[addAll] operator[SEP] identifier[logSubProcs] operator[SEP] identifier[keySet] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[keys] operator[SEP] identifier[addAll] operator[SEP] identifier[traceSubProcs] operator[SEP] identifier[keySet] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] identifier[String] identifier[key] operator[:] identifier[keys] operator[SEP] { identifier[ServerInstanceLogRecordList] identifier[value] operator[=] Keyword[new] identifier[ServerInstanceLogRecordListImpl] operator[SEP] identifier[logSubProcs] operator[SEP] identifier[get] operator[SEP] identifier[key] operator[SEP] , identifier[traceSubProcs] operator[SEP] identifier[get] operator[SEP] identifier[key] operator[SEP] , identifier[switched] operator[SEP] { annotation[@] identifier[Override] Keyword[public] identifier[OnePidRecordListImpl] identifier[queryResult] operator[SEP] identifier[LogRepositoryBrowser] identifier[browser] operator[SEP] { Keyword[return] identifier[ServerInstanceLogRecordListImpl] operator[SEP] Keyword[this] operator[SEP] identifier[queryResult] operator[SEP] identifier[browser] operator[SEP] operator[SEP] } } operator[SEP] identifier[map] operator[SEP] identifier[put] operator[SEP] identifier[key] , identifier[value] operator[SEP] operator[SEP] } } Keyword[return] identifier[map] operator[SEP] }
public void removeTag(String tagName) { int ids = -1; for (DataSet ds : iimFile.getDataSets()) { if (ds.getInfo().getName().equals(tagName)) ids = ds.getInfo().getDataSetNumber(); } if (ids != -1) iimFile.remove(ids); }
class class_name[name] begin[{] method[removeTag, return_type[void], modifier[public], parameter[tagName]] begin[{] local_variable[type[int], ids] ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=MethodInvocation(arguments=[], member=getInfo, postfix_operators=[], prefix_operators=[], qualifier=ds, selectors=[MethodInvocation(arguments=[], member=getName, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[MemberReference(member=tagName, 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=StatementExpression(expression=Assignment(expressionl=MemberReference(member=ids, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=getInfo, postfix_operators=[], prefix_operators=[], qualifier=ds, selectors=[MethodInvocation(arguments=[], member=getDataSetNumber, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None)), label=None))]), control=EnhancedForControl(iterable=MethodInvocation(arguments=[], member=getDataSets, postfix_operators=[], prefix_operators=[], qualifier=iimFile, selectors=[], type_arguments=None), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=ds)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=DataSet, sub_type=None))), label=None) if[binary_operation[member[.ids], !=, literal[1]]] begin[{] call[iimFile.remove, parameter[member[.ids]]] else begin[{] None end[}] end[}] END[}]
Keyword[public] Keyword[void] identifier[removeTag] operator[SEP] identifier[String] identifier[tagName] operator[SEP] { Keyword[int] identifier[ids] operator[=] operator[-] Other[1] operator[SEP] Keyword[for] operator[SEP] identifier[DataSet] identifier[ds] operator[:] identifier[iimFile] operator[SEP] identifier[getDataSets] operator[SEP] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] identifier[ds] operator[SEP] identifier[getInfo] operator[SEP] operator[SEP] operator[SEP] identifier[getName] operator[SEP] operator[SEP] operator[SEP] identifier[equals] operator[SEP] identifier[tagName] operator[SEP] operator[SEP] identifier[ids] operator[=] identifier[ds] operator[SEP] identifier[getInfo] operator[SEP] operator[SEP] operator[SEP] identifier[getDataSetNumber] operator[SEP] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[ids] operator[!=] operator[-] Other[1] operator[SEP] identifier[iimFile] operator[SEP] identifier[remove] operator[SEP] identifier[ids] operator[SEP] operator[SEP] }
public static Database inMemory(String name, Map<String, ? extends Object> config) { return inMemory(name, "jdbc:h2:mem:" + name, config); }
class class_name[name] begin[{] method[inMemory, return_type[type[Database]], modifier[public static], parameter[name, config]] begin[{] return[call[.inMemory, parameter[member[.name], binary_operation[literal["jdbc:h2:mem:"], +, member[.name]], member[.config]]]] end[}] END[}]
Keyword[public] Keyword[static] identifier[Database] identifier[inMemory] operator[SEP] identifier[String] identifier[name] , identifier[Map] operator[<] identifier[String] , operator[?] Keyword[extends] identifier[Object] operator[>] identifier[config] operator[SEP] { Keyword[return] identifier[inMemory] operator[SEP] identifier[name] , literal[String] operator[+] identifier[name] , identifier[config] operator[SEP] operator[SEP] }
protected ArrayList<CmsWebdavRange> parseRange( HttpServletRequest request, HttpServletResponse response, I_CmsRepositoryItem item) { // Checking If-Range String headerValue = request.getHeader(HEADER_IFRANGE); if (headerValue != null) { long headerValueTime = (-1L); try { headerValueTime = request.getDateHeader(HEADER_IFRANGE); } catch (Exception e) { // noop } String eTag = getETag(item); long lastModified = item.getLastModifiedDate(); if (headerValueTime == (-1L)) { // If the ETag the client gave does not match the entity // etag, then the entire entity is returned. if (!eTag.equals(headerValue.trim())) { return FULL_RANGE; } } else { // If the timestamp of the entity the client got is older than // the last modification date of the entity, the entire entity // is returned. if (lastModified > (headerValueTime + 1000)) { return FULL_RANGE; } } } long fileLength = item.getContentLength(); if (fileLength == 0) { return null; } // Retrieving the range header (if any is specified String rangeHeader = request.getHeader(HEADER_RANGE); if (rangeHeader == null) { return null; } // bytes is the only range unit supported (and I don't see the point // of adding new ones). if (!rangeHeader.startsWith("bytes")) { response.addHeader(HEADER_CONTENTRANGE, "bytes */" + fileLength); response.setStatus(HttpServletResponse.SC_REQUESTED_RANGE_NOT_SATISFIABLE); return null; } rangeHeader = rangeHeader.substring(6); // Vector which will contain all the ranges which are successfully parsed. ArrayList<CmsWebdavRange> result = new ArrayList<CmsWebdavRange>(); StringTokenizer commaTokenizer = new StringTokenizer(rangeHeader, ","); // Parsing the range list while (commaTokenizer.hasMoreTokens()) { String rangeDefinition = commaTokenizer.nextToken().trim(); CmsWebdavRange currentRange = new CmsWebdavRange(); currentRange.setLength(fileLength); int dashPos = rangeDefinition.indexOf('-'); if (dashPos == -1) { response.addHeader(HEADER_CONTENTRANGE, "bytes */" + fileLength); response.setStatus(HttpServletResponse.SC_REQUESTED_RANGE_NOT_SATISFIABLE); return null; } if (dashPos == 0) { try { long offset = Long.parseLong(rangeDefinition); currentRange.setStart(fileLength + offset); currentRange.setEnd(fileLength - 1); } catch (NumberFormatException e) { response.addHeader(HEADER_CONTENTRANGE, "bytes */" + fileLength); response.setStatus(HttpServletResponse.SC_REQUESTED_RANGE_NOT_SATISFIABLE); return null; } } else { try { currentRange.setStart(Long.parseLong(rangeDefinition.substring(0, dashPos))); if (dashPos < (rangeDefinition.length() - 1)) { currentRange.setEnd( Long.parseLong(rangeDefinition.substring(dashPos + 1, rangeDefinition.length()))); } else { currentRange.setEnd(fileLength - 1); } } catch (NumberFormatException e) { response.addHeader(HEADER_CONTENTRANGE, "bytes */" + fileLength); response.setStatus(HttpServletResponse.SC_REQUESTED_RANGE_NOT_SATISFIABLE); return null; } } if (!currentRange.validate()) { response.addHeader(HEADER_CONTENTRANGE, "bytes */" + fileLength); response.setStatus(HttpServletResponse.SC_REQUESTED_RANGE_NOT_SATISFIABLE); return null; } result.add(currentRange); } return result; }
class class_name[name] begin[{] method[parseRange, return_type[type[ArrayList]], modifier[protected], parameter[request, response, item]] begin[{] local_variable[type[String], headerValue] if[binary_operation[member[.headerValue], !=, literal[null]]] begin[{] local_variable[type[long], headerValueTime] TryStatement(block=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=headerValueTime, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[MemberReference(member=HEADER_IFRANGE, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getDateHeader, postfix_operators=[], prefix_operators=[], qualifier=request, 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) local_variable[type[String], eTag] local_variable[type[long], lastModified] if[binary_operation[member[.headerValueTime], ==, literal[1L]]] begin[{] if[call[eTag.equals, parameter[call[headerValue.trim, parameter[]]]]] begin[{] return[member[.FULL_RANGE]] else begin[{] None end[}] else begin[{] if[binary_operation[member[.lastModified], >, binary_operation[member[.headerValueTime], +, literal[1000]]]] begin[{] return[member[.FULL_RANGE]] else begin[{] None end[}] end[}] else begin[{] None end[}] local_variable[type[long], fileLength] if[binary_operation[member[.fileLength], ==, literal[0]]] begin[{] return[literal[null]] else begin[{] None end[}] local_variable[type[String], rangeHeader] if[binary_operation[member[.rangeHeader], ==, literal[null]]] begin[{] return[literal[null]] else begin[{] None end[}] if[call[rangeHeader.startsWith, parameter[literal["bytes"]]]] begin[{] call[response.addHeader, parameter[member[.HEADER_CONTENTRANGE], binary_operation[literal["bytes */"], +, member[.fileLength]]]] call[response.setStatus, parameter[member[HttpServletResponse.SC_REQUESTED_RANGE_NOT_SATISFIABLE]]] return[literal[null]] else begin[{] None end[}] assign[member[.rangeHeader], call[rangeHeader.substring, parameter[literal[6]]]] local_variable[type[ArrayList], result] local_variable[type[StringTokenizer], commaTokenizer] while[call[commaTokenizer.hasMoreTokens, parameter[]]] begin[{] local_variable[type[String], rangeDefinition] local_variable[type[CmsWebdavRange], currentRange] call[currentRange.setLength, parameter[member[.fileLength]]] local_variable[type[int], dashPos] if[binary_operation[member[.dashPos], ==, literal[1]]] begin[{] call[response.addHeader, parameter[member[.HEADER_CONTENTRANGE], binary_operation[literal["bytes */"], +, member[.fileLength]]]] call[response.setStatus, parameter[member[HttpServletResponse.SC_REQUESTED_RANGE_NOT_SATISFIABLE]]] return[literal[null]] else begin[{] None end[}] if[binary_operation[member[.dashPos], ==, literal[0]]] begin[{] TryStatement(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=rangeDefinition, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=parseLong, postfix_operators=[], prefix_operators=[], qualifier=Long, selectors=[], type_arguments=None), name=offset)], modifiers=set(), type=BasicType(dimensions=[], name=long)), StatementExpression(expression=MethodInvocation(arguments=[BinaryOperation(operandl=MemberReference(member=fileLength, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=offset, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+)], member=setStart, postfix_operators=[], prefix_operators=[], qualifier=currentRange, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[BinaryOperation(operandl=MemberReference(member=fileLength, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=-)], member=setEnd, postfix_operators=[], prefix_operators=[], qualifier=currentRange, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=HEADER_CONTENTRANGE, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="bytes */"), operandr=MemberReference(member=fileLength, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+)], member=addHeader, postfix_operators=[], prefix_operators=[], qualifier=response, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=SC_REQUESTED_RANGE_NOT_SATISFIABLE, postfix_operators=[], prefix_operators=[], qualifier=HttpServletResponse, selectors=[])], member=setStatus, postfix_operators=[], prefix_operators=[], qualifier=response, selectors=[], type_arguments=None), label=None), ReturnStatement(expression=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['NumberFormatException']))], finally_block=None, label=None, resources=None) else begin[{] TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), MemberReference(member=dashPos, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=substring, postfix_operators=[], prefix_operators=[], qualifier=rangeDefinition, selectors=[], type_arguments=None)], member=parseLong, postfix_operators=[], prefix_operators=[], qualifier=Long, selectors=[], type_arguments=None)], member=setStart, postfix_operators=[], prefix_operators=[], qualifier=currentRange, selectors=[], type_arguments=None), label=None), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=dashPos, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=BinaryOperation(operandl=MethodInvocation(arguments=[], member=length, postfix_operators=[], prefix_operators=[], qualifier=rangeDefinition, selectors=[], type_arguments=None), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=-), operator=<), else_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[BinaryOperation(operandl=MemberReference(member=fileLength, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=-)], member=setEnd, postfix_operators=[], prefix_operators=[], qualifier=currentRange, selectors=[], type_arguments=None), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[MethodInvocation(arguments=[BinaryOperation(operandl=MemberReference(member=dashPos, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=+), MethodInvocation(arguments=[], member=length, postfix_operators=[], prefix_operators=[], qualifier=rangeDefinition, selectors=[], type_arguments=None)], member=substring, postfix_operators=[], prefix_operators=[], qualifier=rangeDefinition, selectors=[], type_arguments=None)], member=parseLong, postfix_operators=[], prefix_operators=[], qualifier=Long, selectors=[], type_arguments=None)], member=setEnd, postfix_operators=[], prefix_operators=[], qualifier=currentRange, selectors=[], type_arguments=None), label=None)]))], catches=[CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=HEADER_CONTENTRANGE, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="bytes */"), operandr=MemberReference(member=fileLength, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+)], member=addHeader, postfix_operators=[], prefix_operators=[], qualifier=response, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=SC_REQUESTED_RANGE_NOT_SATISFIABLE, postfix_operators=[], prefix_operators=[], qualifier=HttpServletResponse, selectors=[])], member=setStatus, postfix_operators=[], prefix_operators=[], qualifier=response, selectors=[], type_arguments=None), label=None), ReturnStatement(expression=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['NumberFormatException']))], finally_block=None, label=None, resources=None) end[}] if[call[currentRange.validate, parameter[]]] begin[{] call[response.addHeader, parameter[member[.HEADER_CONTENTRANGE], binary_operation[literal["bytes */"], +, member[.fileLength]]]] call[response.setStatus, parameter[member[HttpServletResponse.SC_REQUESTED_RANGE_NOT_SATISFIABLE]]] return[literal[null]] else begin[{] None end[}] call[result.add, parameter[member[.currentRange]]] end[}] return[member[.result]] end[}] END[}]
Keyword[protected] identifier[ArrayList] operator[<] identifier[CmsWebdavRange] operator[>] identifier[parseRange] operator[SEP] identifier[HttpServletRequest] identifier[request] , identifier[HttpServletResponse] identifier[response] , identifier[I_CmsRepositoryItem] identifier[item] operator[SEP] { identifier[String] identifier[headerValue] operator[=] identifier[request] operator[SEP] identifier[getHeader] operator[SEP] identifier[HEADER_IFRANGE] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[headerValue] operator[!=] Other[null] operator[SEP] { Keyword[long] identifier[headerValueTime] operator[=] operator[SEP] operator[-] Other[1L] operator[SEP] operator[SEP] Keyword[try] { identifier[headerValueTime] operator[=] identifier[request] operator[SEP] identifier[getDateHeader] operator[SEP] identifier[HEADER_IFRANGE] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[Exception] identifier[e] operator[SEP] { } identifier[String] identifier[eTag] operator[=] identifier[getETag] operator[SEP] identifier[item] operator[SEP] operator[SEP] Keyword[long] identifier[lastModified] operator[=] identifier[item] operator[SEP] identifier[getLastModifiedDate] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[headerValueTime] operator[==] operator[SEP] operator[-] Other[1L] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] operator[!] identifier[eTag] operator[SEP] identifier[equals] operator[SEP] identifier[headerValue] operator[SEP] identifier[trim] operator[SEP] operator[SEP] operator[SEP] operator[SEP] { Keyword[return] identifier[FULL_RANGE] operator[SEP] } } Keyword[else] { Keyword[if] operator[SEP] identifier[lastModified] operator[>] operator[SEP] identifier[headerValueTime] operator[+] Other[1000] operator[SEP] operator[SEP] { Keyword[return] identifier[FULL_RANGE] operator[SEP] } } } Keyword[long] identifier[fileLength] operator[=] identifier[item] operator[SEP] identifier[getContentLength] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[fileLength] operator[==] Other[0] operator[SEP] { Keyword[return] Other[null] operator[SEP] } identifier[String] identifier[rangeHeader] operator[=] identifier[request] operator[SEP] identifier[getHeader] operator[SEP] identifier[HEADER_RANGE] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[rangeHeader] operator[==] Other[null] operator[SEP] { Keyword[return] Other[null] operator[SEP] } Keyword[if] operator[SEP] operator[!] identifier[rangeHeader] operator[SEP] identifier[startsWith] operator[SEP] literal[String] operator[SEP] operator[SEP] { identifier[response] operator[SEP] identifier[addHeader] operator[SEP] identifier[HEADER_CONTENTRANGE] , literal[String] operator[+] identifier[fileLength] operator[SEP] operator[SEP] identifier[response] operator[SEP] identifier[setStatus] operator[SEP] identifier[HttpServletResponse] operator[SEP] identifier[SC_REQUESTED_RANGE_NOT_SATISFIABLE] operator[SEP] operator[SEP] Keyword[return] Other[null] operator[SEP] } identifier[rangeHeader] operator[=] identifier[rangeHeader] operator[SEP] identifier[substring] operator[SEP] Other[6] operator[SEP] operator[SEP] identifier[ArrayList] operator[<] identifier[CmsWebdavRange] operator[>] identifier[result] operator[=] Keyword[new] identifier[ArrayList] operator[<] identifier[CmsWebdavRange] operator[>] operator[SEP] operator[SEP] operator[SEP] identifier[StringTokenizer] identifier[commaTokenizer] operator[=] Keyword[new] identifier[StringTokenizer] operator[SEP] identifier[rangeHeader] , literal[String] operator[SEP] operator[SEP] Keyword[while] operator[SEP] identifier[commaTokenizer] operator[SEP] identifier[hasMoreTokens] operator[SEP] operator[SEP] operator[SEP] { identifier[String] identifier[rangeDefinition] operator[=] identifier[commaTokenizer] operator[SEP] identifier[nextToken] operator[SEP] operator[SEP] operator[SEP] identifier[trim] operator[SEP] operator[SEP] operator[SEP] identifier[CmsWebdavRange] identifier[currentRange] operator[=] Keyword[new] identifier[CmsWebdavRange] operator[SEP] operator[SEP] operator[SEP] identifier[currentRange] operator[SEP] identifier[setLength] operator[SEP] identifier[fileLength] operator[SEP] operator[SEP] Keyword[int] identifier[dashPos] operator[=] identifier[rangeDefinition] operator[SEP] identifier[indexOf] operator[SEP] literal[String] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[dashPos] operator[==] operator[-] Other[1] operator[SEP] { identifier[response] operator[SEP] identifier[addHeader] operator[SEP] identifier[HEADER_CONTENTRANGE] , literal[String] operator[+] identifier[fileLength] operator[SEP] operator[SEP] identifier[response] operator[SEP] identifier[setStatus] operator[SEP] identifier[HttpServletResponse] operator[SEP] identifier[SC_REQUESTED_RANGE_NOT_SATISFIABLE] operator[SEP] operator[SEP] Keyword[return] Other[null] operator[SEP] } Keyword[if] operator[SEP] identifier[dashPos] operator[==] Other[0] operator[SEP] { Keyword[try] { Keyword[long] identifier[offset] operator[=] identifier[Long] operator[SEP] identifier[parseLong] operator[SEP] identifier[rangeDefinition] operator[SEP] operator[SEP] identifier[currentRange] operator[SEP] identifier[setStart] operator[SEP] identifier[fileLength] operator[+] identifier[offset] operator[SEP] operator[SEP] identifier[currentRange] operator[SEP] identifier[setEnd] operator[SEP] identifier[fileLength] operator[-] Other[1] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[NumberFormatException] identifier[e] operator[SEP] { identifier[response] operator[SEP] identifier[addHeader] operator[SEP] identifier[HEADER_CONTENTRANGE] , literal[String] operator[+] identifier[fileLength] operator[SEP] operator[SEP] identifier[response] operator[SEP] identifier[setStatus] operator[SEP] identifier[HttpServletResponse] operator[SEP] identifier[SC_REQUESTED_RANGE_NOT_SATISFIABLE] operator[SEP] operator[SEP] Keyword[return] Other[null] operator[SEP] } } Keyword[else] { Keyword[try] { identifier[currentRange] operator[SEP] identifier[setStart] operator[SEP] identifier[Long] operator[SEP] identifier[parseLong] operator[SEP] identifier[rangeDefinition] operator[SEP] identifier[substring] operator[SEP] Other[0] , identifier[dashPos] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[dashPos] operator[<] operator[SEP] identifier[rangeDefinition] operator[SEP] identifier[length] operator[SEP] operator[SEP] operator[-] Other[1] operator[SEP] operator[SEP] { identifier[currentRange] operator[SEP] identifier[setEnd] operator[SEP] identifier[Long] operator[SEP] identifier[parseLong] operator[SEP] identifier[rangeDefinition] operator[SEP] identifier[substring] operator[SEP] identifier[dashPos] operator[+] Other[1] , identifier[rangeDefinition] operator[SEP] identifier[length] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] { identifier[currentRange] operator[SEP] identifier[setEnd] operator[SEP] identifier[fileLength] operator[-] Other[1] operator[SEP] operator[SEP] } } Keyword[catch] operator[SEP] identifier[NumberFormatException] identifier[e] operator[SEP] { identifier[response] operator[SEP] identifier[addHeader] operator[SEP] identifier[HEADER_CONTENTRANGE] , literal[String] operator[+] identifier[fileLength] operator[SEP] operator[SEP] identifier[response] operator[SEP] identifier[setStatus] operator[SEP] identifier[HttpServletResponse] operator[SEP] identifier[SC_REQUESTED_RANGE_NOT_SATISFIABLE] operator[SEP] operator[SEP] Keyword[return] Other[null] operator[SEP] } } Keyword[if] operator[SEP] operator[!] identifier[currentRange] operator[SEP] identifier[validate] operator[SEP] operator[SEP] operator[SEP] { identifier[response] operator[SEP] identifier[addHeader] operator[SEP] identifier[HEADER_CONTENTRANGE] , literal[String] operator[+] identifier[fileLength] operator[SEP] operator[SEP] identifier[response] operator[SEP] identifier[setStatus] operator[SEP] identifier[HttpServletResponse] operator[SEP] identifier[SC_REQUESTED_RANGE_NOT_SATISFIABLE] operator[SEP] operator[SEP] Keyword[return] Other[null] operator[SEP] } identifier[result] operator[SEP] identifier[add] operator[SEP] identifier[currentRange] operator[SEP] operator[SEP] } Keyword[return] identifier[result] operator[SEP] }
public <T extends AbstractProject<?,?>> T copy(T src, String name) throws IOException { return (T)copy((TopLevelItem)src,name); }
class class_name[name] begin[{] method[copy, return_type[type[T]], modifier[public], parameter[src, name]] begin[{] return[Cast(expression=MethodInvocation(arguments=[Cast(expression=MemberReference(member=src, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=TopLevelItem, sub_type=None)), MemberReference(member=name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=copy, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=T, sub_type=None))] end[}] END[}]
Keyword[public] operator[<] identifier[T] Keyword[extends] identifier[AbstractProject] operator[<] operator[?] , operator[?] operator[>] operator[>] identifier[T] identifier[copy] operator[SEP] identifier[T] identifier[src] , identifier[String] identifier[name] operator[SEP] Keyword[throws] identifier[IOException] { Keyword[return] operator[SEP] identifier[T] operator[SEP] identifier[copy] operator[SEP] operator[SEP] identifier[TopLevelItem] operator[SEP] identifier[src] , identifier[name] operator[SEP] operator[SEP] }
@Implementation(minSdk = KITKAT) @HiddenApi public int checkOpNoThrow(int op, int uid, String packageName) { Integer mode = appModeMap.get(getOpMapKey(uid, packageName, op)); if (mode == null) { return AppOpsManager.MODE_ALLOWED; } return mode; }
class class_name[name] begin[{] method[checkOpNoThrow, return_type[type[int]], modifier[public], parameter[op, uid, packageName]] begin[{] local_variable[type[Integer], mode] if[binary_operation[member[.mode], ==, literal[null]]] begin[{] return[member[AppOpsManager.MODE_ALLOWED]] else begin[{] None end[}] return[member[.mode]] end[}] END[}]
annotation[@] identifier[Implementation] operator[SEP] identifier[minSdk] operator[=] identifier[KITKAT] operator[SEP] annotation[@] identifier[HiddenApi] Keyword[public] Keyword[int] identifier[checkOpNoThrow] operator[SEP] Keyword[int] identifier[op] , Keyword[int] identifier[uid] , identifier[String] identifier[packageName] operator[SEP] { identifier[Integer] identifier[mode] operator[=] identifier[appModeMap] operator[SEP] identifier[get] operator[SEP] identifier[getOpMapKey] operator[SEP] identifier[uid] , identifier[packageName] , identifier[op] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[mode] operator[==] Other[null] operator[SEP] { Keyword[return] identifier[AppOpsManager] operator[SEP] identifier[MODE_ALLOWED] operator[SEP] } Keyword[return] identifier[mode] operator[SEP] }
public static UnicodeSet getExemplarSet(ULocale locale, int options, int extype) { return LocaleData.getInstance(locale).getExemplarSet(options, extype); }
class class_name[name] begin[{] method[getExemplarSet, return_type[type[UnicodeSet]], modifier[public static], parameter[locale, options, extype]] begin[{] return[call[LocaleData.getInstance, parameter[member[.locale]]]] end[}] END[}]
Keyword[public] Keyword[static] identifier[UnicodeSet] identifier[getExemplarSet] operator[SEP] identifier[ULocale] identifier[locale] , Keyword[int] identifier[options] , Keyword[int] identifier[extype] operator[SEP] { Keyword[return] identifier[LocaleData] operator[SEP] identifier[getInstance] operator[SEP] identifier[locale] operator[SEP] operator[SEP] identifier[getExemplarSet] operator[SEP] identifier[options] , identifier[extype] operator[SEP] operator[SEP] }
protected String generateSelectByShardCql(EnumSet<?> columns, Integer shardNum) { StringBuilder sb = new StringBuilder() .append("SELECT "); boolean first = true; for (Enum<?> column : columns) { if (first) { first = false; } else { sb.append(","); } sb.append(column.name()); } sb.append("\n") .append("FROM ").append(cassandra.getColumnFamily()) .append("\n").append("WHERE ").append(Columns.shard_num.name()) .append(" = ").append(shardNum).append("\n"); return sb.toString(); }
class class_name[name] begin[{] method[generateSelectByShardCql, return_type[type[String]], modifier[protected], parameter[columns, shardNum]] begin[{] local_variable[type[StringBuilder], sb] local_variable[type[boolean], first] ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=MemberReference(member=first, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), else_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=",")], member=append, postfix_operators=[], prefix_operators=[], qualifier=sb, selectors=[], type_arguments=None), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=first, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=false)), label=None)])), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=name, postfix_operators=[], prefix_operators=[], qualifier=column, selectors=[], type_arguments=None)], member=append, postfix_operators=[], prefix_operators=[], qualifier=sb, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MemberReference(member=columns, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=column)], modifiers=set(), type=ReferenceType(arguments=[TypeArgument(pattern_type=?, type=None)], dimensions=[], name=Enum, sub_type=None))), label=None) call[sb.append, parameter[literal["\n"]]] return[call[sb.toString, parameter[]]] end[}] END[}]
Keyword[protected] identifier[String] identifier[generateSelectByShardCql] operator[SEP] identifier[EnumSet] operator[<] operator[?] operator[>] identifier[columns] , identifier[Integer] identifier[shardNum] operator[SEP] { identifier[StringBuilder] identifier[sb] operator[=] Keyword[new] identifier[StringBuilder] operator[SEP] operator[SEP] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP] Keyword[boolean] identifier[first] operator[=] literal[boolean] operator[SEP] Keyword[for] operator[SEP] identifier[Enum] operator[<] operator[?] operator[>] identifier[column] operator[:] identifier[columns] operator[SEP] { Keyword[if] operator[SEP] identifier[first] operator[SEP] { identifier[first] operator[=] literal[boolean] operator[SEP] } Keyword[else] { identifier[sb] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP] } identifier[sb] operator[SEP] identifier[append] operator[SEP] identifier[column] operator[SEP] identifier[name] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } identifier[sb] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[append] operator[SEP] identifier[cassandra] operator[SEP] identifier[getColumnFamily] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[append] operator[SEP] identifier[Columns] operator[SEP] identifier[shard_num] operator[SEP] identifier[name] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[append] operator[SEP] identifier[shardNum] operator[SEP] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP] Keyword[return] identifier[sb] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] }
@Override public void registerRecoveryEventListener(RecoveryEventListener rel) /* @MD19638A */ { if (tc.isEntryEnabled()) Tr.entry(tc, "registerRecoveryEventListener", rel); RegisteredRecoveryEventListeners.instance().add(rel); if (tc.isEntryEnabled()) Tr.exit(tc, "registerRecoveryEventListener"); }
class class_name[name] begin[{] method[registerRecoveryEventListener, return_type[void], modifier[public], parameter[rel]] begin[{] if[call[tc.isEntryEnabled, parameter[]]] begin[{] call[Tr.entry, parameter[member[.tc], literal["registerRecoveryEventListener"], member[.rel]]] else begin[{] None end[}] call[RegisteredRecoveryEventListeners.instance, parameter[]] if[call[tc.isEntryEnabled, parameter[]]] begin[{] call[Tr.exit, parameter[member[.tc], literal["registerRecoveryEventListener"]]] else begin[{] None end[}] end[}] END[}]
annotation[@] identifier[Override] Keyword[public] Keyword[void] identifier[registerRecoveryEventListener] operator[SEP] identifier[RecoveryEventListener] identifier[rel] operator[SEP] { Keyword[if] operator[SEP] identifier[tc] operator[SEP] identifier[isEntryEnabled] operator[SEP] operator[SEP] operator[SEP] identifier[Tr] operator[SEP] identifier[entry] operator[SEP] identifier[tc] , literal[String] , identifier[rel] operator[SEP] operator[SEP] identifier[RegisteredRecoveryEventListeners] operator[SEP] identifier[instance] operator[SEP] operator[SEP] operator[SEP] identifier[add] operator[SEP] identifier[rel] operator[SEP] operator[SEP] Keyword[if] operator[SEP] 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] }
public ServiceFuture<Void> deleteFromTaskAsync(String jobId, String taskId, String filePath, final ServiceCallback<Void> serviceCallback) { return ServiceFuture.fromHeaderResponse(deleteFromTaskWithServiceResponseAsync(jobId, taskId, filePath), serviceCallback); }
class class_name[name] begin[{] method[deleteFromTaskAsync, return_type[type[ServiceFuture]], modifier[public], parameter[jobId, taskId, filePath, serviceCallback]] begin[{] return[call[ServiceFuture.fromHeaderResponse, parameter[call[.deleteFromTaskWithServiceResponseAsync, parameter[member[.jobId], member[.taskId], member[.filePath]]], member[.serviceCallback]]]] end[}] END[}]
Keyword[public] identifier[ServiceFuture] operator[<] identifier[Void] operator[>] identifier[deleteFromTaskAsync] operator[SEP] identifier[String] identifier[jobId] , identifier[String] identifier[taskId] , identifier[String] identifier[filePath] , Keyword[final] identifier[ServiceCallback] operator[<] identifier[Void] operator[>] identifier[serviceCallback] operator[SEP] { Keyword[return] identifier[ServiceFuture] operator[SEP] identifier[fromHeaderResponse] operator[SEP] identifier[deleteFromTaskWithServiceResponseAsync] operator[SEP] identifier[jobId] , identifier[taskId] , identifier[filePath] operator[SEP] , identifier[serviceCallback] operator[SEP] operator[SEP] }
public Vector decode(final URL url) throws IOException { LineNumberReader reader; boolean isZipFile = url.getPath().toLowerCase().endsWith(".zip"); InputStream inputStream; if (isZipFile) { inputStream = new ZipInputStream(url.openStream()); //move stream to next entry so we can read it ((ZipInputStream)inputStream).getNextEntry(); } else { inputStream = url.openStream(); } if (owner != null) { reader = new LineNumberReader( new InputStreamReader( new ProgressMonitorInputStream(owner, "Loading " + url , inputStream), ENCODING)); } else { reader = new LineNumberReader(new InputStreamReader(inputStream, ENCODING)); } Vector v = new Vector(); String line; Vector events; try { while ((line = reader.readLine()) != null) { StringBuffer buffer = new StringBuffer(line); for (int i = 0; i < 1000; i++) { buffer.append(reader.readLine()).append("\n"); } events = decodeEvents(buffer.toString()); if (events != null) { v.addAll(events); } } } finally { partialEvent = null; try { if (reader != null) { reader.close(); } } catch (Exception e) { e.printStackTrace(); } } return v; }
class class_name[name] begin[{] method[decode, return_type[type[Vector]], modifier[public], parameter[url]] begin[{] local_variable[type[LineNumberReader], reader] local_variable[type[boolean], isZipFile] local_variable[type[InputStream], inputStream] if[member[.isZipFile]] begin[{] assign[member[.inputStream], ClassCreator(arguments=[MethodInvocation(arguments=[], member=openStream, postfix_operators=[], prefix_operators=[], qualifier=url, selectors=[], type_arguments=None)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=ZipInputStream, sub_type=None))] Cast(expression=MemberReference(member=inputStream, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=ZipInputStream, sub_type=None)) else begin[{] assign[member[.inputStream], call[url.openStream, parameter[]]] end[}] if[binary_operation[member[.owner], !=, literal[null]]] begin[{] assign[member[.reader], ClassCreator(arguments=[ClassCreator(arguments=[ClassCreator(arguments=[MemberReference(member=owner, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Loading "), operandr=MemberReference(member=url, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), MemberReference(member=inputStream, 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=ProgressMonitorInputStream, sub_type=None)), MemberReference(member=ENCODING, 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=InputStreamReader, sub_type=None))], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=LineNumberReader, sub_type=None))] else begin[{] assign[member[.reader], ClassCreator(arguments=[ClassCreator(arguments=[MemberReference(member=inputStream, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=ENCODING, 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=InputStreamReader, sub_type=None))], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=LineNumberReader, sub_type=None))] end[}] local_variable[type[Vector], v] local_variable[type[String], line] local_variable[type[Vector], events] TryStatement(block=[WhileStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[MemberReference(member=line, 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=StringBuffer, sub_type=None)), name=buffer)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=StringBuffer, sub_type=None)), ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=readLine, postfix_operators=[], prefix_operators=[], qualifier=reader, selectors=[], type_arguments=None)], member=append, postfix_operators=[], prefix_operators=[], qualifier=buffer, selectors=[MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="\n")], member=append, 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=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1000), 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=Assignment(expressionl=MemberReference(member=events, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=toString, postfix_operators=[], prefix_operators=[], qualifier=buffer, selectors=[], type_arguments=None)], member=decodeEvents, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)), label=None), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=events, 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=[MemberReference(member=events, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=addAll, postfix_operators=[], prefix_operators=[], qualifier=v, 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)], catches=None, finally_block=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=partialEvent, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null)), label=None), TryStatement(block=[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=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[], member=close, postfix_operators=[], prefix_operators=[], qualifier=reader, 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)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['Exception']))], finally_block=None, label=None, resources=None)], label=None, resources=None) return[member[.v]] end[}] END[}]
Keyword[public] identifier[Vector] identifier[decode] operator[SEP] Keyword[final] identifier[URL] identifier[url] operator[SEP] Keyword[throws] identifier[IOException] { identifier[LineNumberReader] identifier[reader] operator[SEP] Keyword[boolean] identifier[isZipFile] operator[=] identifier[url] operator[SEP] identifier[getPath] operator[SEP] operator[SEP] operator[SEP] identifier[toLowerCase] operator[SEP] operator[SEP] operator[SEP] identifier[endsWith] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[InputStream] identifier[inputStream] operator[SEP] Keyword[if] operator[SEP] identifier[isZipFile] operator[SEP] { identifier[inputStream] operator[=] Keyword[new] identifier[ZipInputStream] operator[SEP] identifier[url] operator[SEP] identifier[openStream] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[ZipInputStream] operator[SEP] identifier[inputStream] operator[SEP] operator[SEP] identifier[getNextEntry] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] { identifier[inputStream] operator[=] identifier[url] operator[SEP] identifier[openStream] operator[SEP] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[owner] operator[!=] Other[null] operator[SEP] { identifier[reader] operator[=] Keyword[new] identifier[LineNumberReader] operator[SEP] Keyword[new] identifier[InputStreamReader] operator[SEP] Keyword[new] identifier[ProgressMonitorInputStream] operator[SEP] identifier[owner] , literal[String] operator[+] identifier[url] , identifier[inputStream] operator[SEP] , identifier[ENCODING] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] { identifier[reader] operator[=] Keyword[new] identifier[LineNumberReader] operator[SEP] Keyword[new] identifier[InputStreamReader] operator[SEP] identifier[inputStream] , identifier[ENCODING] operator[SEP] operator[SEP] operator[SEP] } identifier[Vector] identifier[v] operator[=] Keyword[new] identifier[Vector] operator[SEP] operator[SEP] operator[SEP] identifier[String] identifier[line] operator[SEP] identifier[Vector] identifier[events] operator[SEP] Keyword[try] { 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[StringBuffer] identifier[buffer] operator[=] Keyword[new] identifier[StringBuffer] operator[SEP] identifier[line] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] Other[1000] operator[SEP] identifier[i] operator[++] operator[SEP] { identifier[buffer] operator[SEP] identifier[append] operator[SEP] identifier[reader] operator[SEP] identifier[readLine] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP] } identifier[events] operator[=] identifier[decodeEvents] operator[SEP] identifier[buffer] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[events] operator[!=] Other[null] operator[SEP] { identifier[v] operator[SEP] identifier[addAll] operator[SEP] identifier[events] operator[SEP] operator[SEP] } } } Keyword[finally] { identifier[partialEvent] operator[=] Other[null] operator[SEP] Keyword[try] { Keyword[if] operator[SEP] identifier[reader] operator[!=] Other[null] operator[SEP] { identifier[reader] operator[SEP] identifier[close] operator[SEP] operator[SEP] operator[SEP] } } Keyword[catch] operator[SEP] identifier[Exception] identifier[e] operator[SEP] { identifier[e] operator[SEP] identifier[printStackTrace] operator[SEP] operator[SEP] operator[SEP] } } Keyword[return] identifier[v] operator[SEP] }
public ServiceFuture<Void> updateGatewaySettingsAsync(String resourceGroupName, String clusterName, UpdateGatewaySettingsParameters parameters, final ServiceCallback<Void> serviceCallback) { return ServiceFuture.fromResponse(updateGatewaySettingsWithServiceResponseAsync(resourceGroupName, clusterName, parameters), serviceCallback); }
class class_name[name] begin[{] method[updateGatewaySettingsAsync, return_type[type[ServiceFuture]], modifier[public], parameter[resourceGroupName, clusterName, parameters, serviceCallback]] begin[{] return[call[ServiceFuture.fromResponse, parameter[call[.updateGatewaySettingsWithServiceResponseAsync, parameter[member[.resourceGroupName], member[.clusterName], member[.parameters]]], member[.serviceCallback]]]] end[}] END[}]
Keyword[public] identifier[ServiceFuture] operator[<] identifier[Void] operator[>] identifier[updateGatewaySettingsAsync] operator[SEP] identifier[String] identifier[resourceGroupName] , identifier[String] identifier[clusterName] , identifier[UpdateGatewaySettingsParameters] identifier[parameters] , Keyword[final] identifier[ServiceCallback] operator[<] identifier[Void] operator[>] identifier[serviceCallback] operator[SEP] { Keyword[return] identifier[ServiceFuture] operator[SEP] identifier[fromResponse] operator[SEP] identifier[updateGatewaySettingsWithServiceResponseAsync] operator[SEP] identifier[resourceGroupName] , identifier[clusterName] , identifier[parameters] operator[SEP] , identifier[serviceCallback] operator[SEP] operator[SEP] }
public final PrivateKey generatePrivate(KeySpec keySpec) throws InvalidKeySpecException { if (serviceIterator == null) { return spi.engineGeneratePrivate(keySpec); } Exception failure = null; KeyFactorySpi mySpi = spi; do { try { return mySpi.engineGeneratePrivate(keySpec); } catch (Exception e) { if (failure == null) { failure = e; } mySpi = nextSpi(mySpi); } } while (mySpi != null); if (failure instanceof RuntimeException) { throw (RuntimeException)failure; } if (failure instanceof InvalidKeySpecException) { throw (InvalidKeySpecException)failure; } throw new InvalidKeySpecException ("Could not generate private key", failure); }
class class_name[name] begin[{] method[generatePrivate, return_type[type[PrivateKey]], modifier[final public], parameter[keySpec]] begin[{] if[binary_operation[member[.serviceIterator], ==, literal[null]]] begin[{] return[call[spi.engineGeneratePrivate, parameter[member[.keySpec]]]] else begin[{] None end[}] local_variable[type[Exception], failure] local_variable[type[KeyFactorySpi], mySpi] do[binary_operation[member[.mySpi], !=, literal[null]]] begin[{] TryStatement(block=[ReturnStatement(expression=MethodInvocation(arguments=[MemberReference(member=keySpec, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=engineGeneratePrivate, postfix_operators=[], prefix_operators=[], qualifier=mySpi, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=failure, 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=Assignment(expressionl=MemberReference(member=failure, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), label=None)])), StatementExpression(expression=Assignment(expressionl=MemberReference(member=mySpi, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[MemberReference(member=mySpi, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=nextSpi, postfix_operators=[], prefix_operators=[], qualifier=, 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[}] if[binary_operation[member[.failure], instanceof, type[RuntimeException]]] begin[{] ThrowStatement(expression=Cast(expression=MemberReference(member=failure, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=RuntimeException, sub_type=None)), label=None) else begin[{] None end[}] if[binary_operation[member[.failure], instanceof, type[InvalidKeySpecException]]] begin[{] ThrowStatement(expression=Cast(expression=MemberReference(member=failure, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=InvalidKeySpecException, sub_type=None)), label=None) else begin[{] None end[}] ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Could not generate private key"), MemberReference(member=failure, 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=InvalidKeySpecException, sub_type=None)), label=None) end[}] END[}]
Keyword[public] Keyword[final] identifier[PrivateKey] identifier[generatePrivate] operator[SEP] identifier[KeySpec] identifier[keySpec] operator[SEP] Keyword[throws] identifier[InvalidKeySpecException] { Keyword[if] operator[SEP] identifier[serviceIterator] operator[==] Other[null] operator[SEP] { Keyword[return] identifier[spi] operator[SEP] identifier[engineGeneratePrivate] operator[SEP] identifier[keySpec] operator[SEP] operator[SEP] } identifier[Exception] identifier[failure] operator[=] Other[null] operator[SEP] identifier[KeyFactorySpi] identifier[mySpi] operator[=] identifier[spi] operator[SEP] Keyword[do] { Keyword[try] { Keyword[return] identifier[mySpi] operator[SEP] identifier[engineGeneratePrivate] operator[SEP] identifier[keySpec] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[Exception] identifier[e] operator[SEP] { Keyword[if] operator[SEP] identifier[failure] operator[==] Other[null] operator[SEP] { identifier[failure] operator[=] identifier[e] operator[SEP] } identifier[mySpi] operator[=] identifier[nextSpi] operator[SEP] identifier[mySpi] operator[SEP] operator[SEP] } } Keyword[while] operator[SEP] identifier[mySpi] operator[!=] Other[null] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[failure] Keyword[instanceof] identifier[RuntimeException] operator[SEP] { Keyword[throw] operator[SEP] identifier[RuntimeException] operator[SEP] identifier[failure] operator[SEP] } Keyword[if] operator[SEP] identifier[failure] Keyword[instanceof] identifier[InvalidKeySpecException] operator[SEP] { Keyword[throw] operator[SEP] identifier[InvalidKeySpecException] operator[SEP] identifier[failure] operator[SEP] } Keyword[throw] Keyword[new] identifier[InvalidKeySpecException] operator[SEP] literal[String] , identifier[failure] operator[SEP] operator[SEP] }
public synchronized void start() { // ggf. laufenden Thread beenden stop(); this.thread = new Thread("Flicker Update-Thread") { public void run() { // Wir fangen beim ersten Halbbyte an. halfbyteid = 0; // Die Clock, die immer hin und her kippt. Wir beginnen bei 1. // Sonst wuerde das allererste Zeichen nur einmal uebertragen // werden, was bewirkt, dass der Code erst einmal komplett // durchlaufen muesste, bevor wir einen kompletten gesendet haetten clock = 1; try { // Die Endlos-Schleife mit der Uebertragung while (true) { int[] bits = bitarray.get(halfbyteid); bits[0] = clock; paint(bits[0] == 1, bits[1] == 1, bits[2] == 1, bits[3] == 1, bits[4] == 1); clock--; if (clock < 0) { clock = 1; // Jedes Zeichen muss doppelt uebertragen werden. Einmal mit clock 0 // und einmal mit clock 1. halfbyteid++; if (halfbyteid >= bitarray.size()) { halfbyteid = 0; // Wir sind einmal mit dem Code komplett durch iterations++; done(iterations); } } // Warten // Wir errechnen die Wartezeit in jedem Durchlauf. // Dann kann die Frequenz auch waehrend des Blinkens geaendert werden. long sleep = 1000L / freq; sleep(sleep); } } catch (InterruptedException e) { // Ende der Anzeige } } }; thread.start(); }
class class_name[name] begin[{] method[start, return_type[void], modifier[synchronized public], parameter[]] begin[{] call[.stop, parameter[]] assign[THIS[member[None.thread]], ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Flicker Update-Thread")], body=[MethodDeclaration(annotations=[], body=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=halfbyteid, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=clock, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1)), label=None), TryStatement(block=[WhileStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=halfbyteid, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=get, postfix_operators=[], prefix_operators=[], qualifier=bitarray, selectors=[], type_arguments=None), name=bits)], modifiers=set(), type=BasicType(dimensions=[None], name=int)), StatementExpression(expression=Assignment(expressionl=MemberReference(member=bits, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0))]), type==, value=MemberReference(member=clock, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), label=None), StatementExpression(expression=MethodInvocation(arguments=[BinaryOperation(operandl=MemberReference(member=bits, 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=1), operator===), BinaryOperation(operandl=MemberReference(member=bits, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1))]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator===), BinaryOperation(operandl=MemberReference(member=bits, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2))]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator===), BinaryOperation(operandl=MemberReference(member=bits, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=3))]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator===), BinaryOperation(operandl=MemberReference(member=bits, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=4))]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator===)], member=paint, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MemberReference(member=clock, postfix_operators=['--'], prefix_operators=[], qualifier=, selectors=[]), label=None), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=clock, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), 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=clock, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1)), label=None), StatementExpression(expression=MemberReference(member=halfbyteid, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[]), label=None), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=halfbyteid, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MethodInvocation(arguments=[], member=size, postfix_operators=[], prefix_operators=[], qualifier=bitarray, selectors=[], type_arguments=None), operator=>=), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=halfbyteid, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0)), label=None), StatementExpression(expression=MemberReference(member=iterations, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[]), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=iterations, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=done, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)]))])), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1000L), operandr=MemberReference(member=freq, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=/), name=sleep)], modifiers=set(), type=BasicType(dimensions=[], name=long)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=sleep, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=sleep, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)]), condition=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true), label=None)], catches=[CatchClause(block=[], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['InterruptedException']))], finally_block=None, label=None, resources=None)], documentation=None, modifiers={'public'}, name=run, parameters=[], return_type=None, throws=None, type_parameters=None)], constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Thread, sub_type=None))] call[thread.start, parameter[]] end[}] END[}]
Keyword[public] Keyword[synchronized] Keyword[void] identifier[start] operator[SEP] operator[SEP] { identifier[stop] operator[SEP] operator[SEP] operator[SEP] Keyword[this] operator[SEP] identifier[thread] operator[=] Keyword[new] identifier[Thread] operator[SEP] literal[String] operator[SEP] { Keyword[public] Keyword[void] identifier[run] operator[SEP] operator[SEP] { identifier[halfbyteid] operator[=] Other[0] operator[SEP] identifier[clock] operator[=] Other[1] operator[SEP] Keyword[try] { Keyword[while] operator[SEP] literal[boolean] operator[SEP] { Keyword[int] operator[SEP] operator[SEP] identifier[bits] operator[=] identifier[bitarray] operator[SEP] identifier[get] operator[SEP] identifier[halfbyteid] operator[SEP] operator[SEP] identifier[bits] operator[SEP] Other[0] operator[SEP] operator[=] identifier[clock] operator[SEP] identifier[paint] operator[SEP] identifier[bits] operator[SEP] Other[0] operator[SEP] operator[==] Other[1] , identifier[bits] operator[SEP] Other[1] operator[SEP] operator[==] Other[1] , identifier[bits] operator[SEP] Other[2] operator[SEP] operator[==] Other[1] , identifier[bits] operator[SEP] Other[3] operator[SEP] operator[==] Other[1] , identifier[bits] operator[SEP] Other[4] operator[SEP] operator[==] Other[1] operator[SEP] operator[SEP] identifier[clock] operator[--] operator[SEP] Keyword[if] operator[SEP] identifier[clock] operator[<] Other[0] operator[SEP] { identifier[clock] operator[=] Other[1] operator[SEP] identifier[halfbyteid] operator[++] operator[SEP] Keyword[if] operator[SEP] identifier[halfbyteid] operator[>=] identifier[bitarray] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] { identifier[halfbyteid] operator[=] Other[0] operator[SEP] identifier[iterations] operator[++] operator[SEP] identifier[done] operator[SEP] identifier[iterations] operator[SEP] operator[SEP] } } Keyword[long] identifier[sleep] operator[=] Other[1000L] operator[/] identifier[freq] operator[SEP] identifier[sleep] operator[SEP] identifier[sleep] operator[SEP] operator[SEP] } } Keyword[catch] operator[SEP] identifier[InterruptedException] identifier[e] operator[SEP] { } } } operator[SEP] identifier[thread] operator[SEP] identifier[start] operator[SEP] operator[SEP] operator[SEP] }
private static Point findMidnormalPoint(Point center, Point a, Point b, Rect area, int radius) { if (a.y == b.y) { //top if (a.y < center.y) { return new Point((a.x + b.x) / 2, center.y + radius); } //bottom return new Point((a.x + b.x) / 2, center.y - radius); } if (a.x == b.x) { //left if (a.x < center.x) { return new Point(center.x + radius, (a.y + b.y) / 2); } //right return new Point(center.x - radius, (a.y + b.y) / 2); } //slope of line ab double abSlope = (a.y - b.y) / (a.x - b.x * 1.0); //slope of midnormal double midnormalSlope = -1.0 / abSlope; double radian = Math.tan(midnormalSlope); int dy = (int) (radius * Math.sin(radian)); int dx = (int) (radius * Math.cos(radian)); Point point = new Point(center.x + dx, center.y + dy); if (!inArea(point, area, 0)) { point = new Point(center.x - dx, center.y - dy); } return point; }
class class_name[name] begin[{] method[findMidnormalPoint, return_type[type[Point]], modifier[private static], parameter[center, a, b, area, radius]] begin[{] if[binary_operation[member[a.y], ==, member[b.y]]] begin[{] if[binary_operation[member[a.y], <, member[center.y]]] begin[{] return[ClassCreator(arguments=[BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=x, postfix_operators=[], prefix_operators=[], qualifier=a, selectors=[]), operandr=MemberReference(member=x, postfix_operators=[], prefix_operators=[], qualifier=b, selectors=[]), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2), operator=/), BinaryOperation(operandl=MemberReference(member=y, postfix_operators=[], prefix_operators=[], qualifier=center, selectors=[]), operandr=MemberReference(member=radius, 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=Point, sub_type=None))] else begin[{] None end[}] return[ClassCreator(arguments=[BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=x, postfix_operators=[], prefix_operators=[], qualifier=a, selectors=[]), operandr=MemberReference(member=x, postfix_operators=[], prefix_operators=[], qualifier=b, selectors=[]), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2), operator=/), BinaryOperation(operandl=MemberReference(member=y, postfix_operators=[], prefix_operators=[], qualifier=center, selectors=[]), operandr=MemberReference(member=radius, 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=Point, sub_type=None))] else begin[{] None end[}] if[binary_operation[member[a.x], ==, member[b.x]]] begin[{] if[binary_operation[member[a.x], <, member[center.x]]] begin[{] return[ClassCreator(arguments=[BinaryOperation(operandl=MemberReference(member=x, postfix_operators=[], prefix_operators=[], qualifier=center, selectors=[]), operandr=MemberReference(member=radius, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=y, postfix_operators=[], prefix_operators=[], qualifier=a, selectors=[]), operandr=MemberReference(member=y, postfix_operators=[], prefix_operators=[], qualifier=b, selectors=[]), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2), operator=/)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Point, sub_type=None))] else begin[{] None end[}] return[ClassCreator(arguments=[BinaryOperation(operandl=MemberReference(member=x, postfix_operators=[], prefix_operators=[], qualifier=center, selectors=[]), operandr=MemberReference(member=radius, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=-), BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=y, postfix_operators=[], prefix_operators=[], qualifier=a, selectors=[]), operandr=MemberReference(member=y, postfix_operators=[], prefix_operators=[], qualifier=b, selectors=[]), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2), operator=/)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Point, sub_type=None))] else begin[{] None end[}] local_variable[type[double], abSlope] local_variable[type[double], midnormalSlope] local_variable[type[double], radian] local_variable[type[int], dy] local_variable[type[int], dx] local_variable[type[Point], point] if[call[.inArea, parameter[member[.point], member[.area], literal[0]]]] begin[{] assign[member[.point], ClassCreator(arguments=[BinaryOperation(operandl=MemberReference(member=x, postfix_operators=[], prefix_operators=[], qualifier=center, selectors=[]), operandr=MemberReference(member=dx, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=-), BinaryOperation(operandl=MemberReference(member=y, postfix_operators=[], prefix_operators=[], qualifier=center, selectors=[]), operandr=MemberReference(member=dy, 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=Point, sub_type=None))] else begin[{] None end[}] return[member[.point]] end[}] END[}]
Keyword[private] Keyword[static] identifier[Point] identifier[findMidnormalPoint] operator[SEP] identifier[Point] identifier[center] , identifier[Point] identifier[a] , identifier[Point] identifier[b] , identifier[Rect] identifier[area] , Keyword[int] identifier[radius] operator[SEP] { Keyword[if] operator[SEP] identifier[a] operator[SEP] identifier[y] operator[==] identifier[b] operator[SEP] identifier[y] operator[SEP] { Keyword[if] operator[SEP] identifier[a] operator[SEP] identifier[y] operator[<] identifier[center] operator[SEP] identifier[y] operator[SEP] { Keyword[return] Keyword[new] identifier[Point] operator[SEP] operator[SEP] identifier[a] operator[SEP] identifier[x] operator[+] identifier[b] operator[SEP] identifier[x] operator[SEP] operator[/] Other[2] , identifier[center] operator[SEP] identifier[y] operator[+] identifier[radius] operator[SEP] operator[SEP] } Keyword[return] Keyword[new] identifier[Point] operator[SEP] operator[SEP] identifier[a] operator[SEP] identifier[x] operator[+] identifier[b] operator[SEP] identifier[x] operator[SEP] operator[/] Other[2] , identifier[center] operator[SEP] identifier[y] operator[-] identifier[radius] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[a] operator[SEP] identifier[x] operator[==] identifier[b] operator[SEP] identifier[x] operator[SEP] { Keyword[if] operator[SEP] identifier[a] operator[SEP] identifier[x] operator[<] identifier[center] operator[SEP] identifier[x] operator[SEP] { Keyword[return] Keyword[new] identifier[Point] operator[SEP] identifier[center] operator[SEP] identifier[x] operator[+] identifier[radius] , operator[SEP] identifier[a] operator[SEP] identifier[y] operator[+] identifier[b] operator[SEP] identifier[y] operator[SEP] operator[/] Other[2] operator[SEP] operator[SEP] } Keyword[return] Keyword[new] identifier[Point] operator[SEP] identifier[center] operator[SEP] identifier[x] operator[-] identifier[radius] , operator[SEP] identifier[a] operator[SEP] identifier[y] operator[+] identifier[b] operator[SEP] identifier[y] operator[SEP] operator[/] Other[2] operator[SEP] operator[SEP] } Keyword[double] identifier[abSlope] operator[=] operator[SEP] identifier[a] operator[SEP] identifier[y] operator[-] identifier[b] operator[SEP] identifier[y] operator[SEP] operator[/] operator[SEP] identifier[a] operator[SEP] identifier[x] operator[-] identifier[b] operator[SEP] identifier[x] operator[*] literal[Float] operator[SEP] operator[SEP] Keyword[double] identifier[midnormalSlope] operator[=] operator[-] literal[Float] operator[/] identifier[abSlope] operator[SEP] Keyword[double] identifier[radian] operator[=] identifier[Math] operator[SEP] identifier[tan] operator[SEP] identifier[midnormalSlope] operator[SEP] operator[SEP] Keyword[int] identifier[dy] operator[=] operator[SEP] Keyword[int] operator[SEP] operator[SEP] identifier[radius] operator[*] identifier[Math] operator[SEP] identifier[sin] operator[SEP] identifier[radian] operator[SEP] operator[SEP] operator[SEP] Keyword[int] identifier[dx] operator[=] operator[SEP] Keyword[int] operator[SEP] operator[SEP] identifier[radius] operator[*] identifier[Math] operator[SEP] identifier[cos] operator[SEP] identifier[radian] operator[SEP] operator[SEP] operator[SEP] identifier[Point] identifier[point] operator[=] Keyword[new] identifier[Point] operator[SEP] identifier[center] operator[SEP] identifier[x] operator[+] identifier[dx] , identifier[center] operator[SEP] identifier[y] operator[+] identifier[dy] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[inArea] operator[SEP] identifier[point] , identifier[area] , Other[0] operator[SEP] operator[SEP] { identifier[point] operator[=] Keyword[new] identifier[Point] operator[SEP] identifier[center] operator[SEP] identifier[x] operator[-] identifier[dx] , identifier[center] operator[SEP] identifier[y] operator[-] identifier[dy] operator[SEP] operator[SEP] } Keyword[return] identifier[point] operator[SEP] }
public boolean doValidationAndIndexing(ModificationQueue modificationQueue, SecurityContext securityContext, ErrorBuffer errorBuffer, boolean doValidation) throws FrameworkException { boolean valid = true; // examine only the last 4 bits here switch (status & 0x000f) { case 6: // created, modified => only creation callback will be called case 4: // created => creation callback case 2: // modified => modification callback long t0 = System.currentTimeMillis(); if (doValidation) { valid &= object.isValid(errorBuffer); } long t1 = System.currentTimeMillis(); validationTime += t1 - t0; object.indexPassiveProperties(); long t2 = System.currentTimeMillis() - t1; indexingTime += t2; break; default: break; } return valid; }
class class_name[name] begin[{] method[doValidationAndIndexing, return_type[type[boolean]], modifier[public], parameter[modificationQueue, securityContext, errorBuffer, doValidation]] begin[{] local_variable[type[boolean], valid] SwitchStatement(cases=[SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=6), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=4), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2)], statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=currentTimeMillis, postfix_operators=[], prefix_operators=[], qualifier=System, selectors=[], type_arguments=None), name=t0)], modifiers=set(), type=BasicType(dimensions=[], name=long)), IfStatement(condition=MemberReference(member=doValidation, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=valid, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=&=, value=MethodInvocation(arguments=[MemberReference(member=errorBuffer, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=isValid, postfix_operators=[], prefix_operators=[], qualifier=object, 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=t1)], modifiers=set(), type=BasicType(dimensions=[], name=long)), StatementExpression(expression=Assignment(expressionl=MemberReference(member=validationTime, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=+=, value=BinaryOperation(operandl=MemberReference(member=t1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=t0, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=-)), label=None), StatementExpression(expression=MethodInvocation(arguments=[], member=indexPassiveProperties, postfix_operators=[], prefix_operators=[], qualifier=object, 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=t1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=-), name=t2)], modifiers=set(), type=BasicType(dimensions=[], name=long)), StatementExpression(expression=Assignment(expressionl=MemberReference(member=indexingTime, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=+=, value=MemberReference(member=t2, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[], statements=[BreakStatement(goto=None, label=None)])], expression=BinaryOperation(operandl=MemberReference(member=status, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0x000f), operator=&), label=None) return[member[.valid]] end[}] END[}]
Keyword[public] Keyword[boolean] identifier[doValidationAndIndexing] operator[SEP] identifier[ModificationQueue] identifier[modificationQueue] , identifier[SecurityContext] identifier[securityContext] , identifier[ErrorBuffer] identifier[errorBuffer] , Keyword[boolean] identifier[doValidation] operator[SEP] Keyword[throws] identifier[FrameworkException] { Keyword[boolean] identifier[valid] operator[=] literal[boolean] operator[SEP] Keyword[switch] operator[SEP] identifier[status] operator[&] literal[Integer] operator[SEP] { Keyword[case] Other[6] operator[:] Keyword[case] Other[4] operator[:] Keyword[case] Other[2] operator[:] Keyword[long] identifier[t0] operator[=] identifier[System] operator[SEP] identifier[currentTimeMillis] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[doValidation] operator[SEP] { identifier[valid] operator[&=] identifier[object] operator[SEP] identifier[isValid] operator[SEP] identifier[errorBuffer] operator[SEP] operator[SEP] } Keyword[long] identifier[t1] operator[=] identifier[System] operator[SEP] identifier[currentTimeMillis] operator[SEP] operator[SEP] operator[SEP] identifier[validationTime] operator[+=] identifier[t1] operator[-] identifier[t0] operator[SEP] identifier[object] operator[SEP] identifier[indexPassiveProperties] operator[SEP] operator[SEP] operator[SEP] Keyword[long] identifier[t2] operator[=] identifier[System] operator[SEP] identifier[currentTimeMillis] operator[SEP] operator[SEP] operator[-] identifier[t1] operator[SEP] identifier[indexingTime] operator[+=] identifier[t2] operator[SEP] Keyword[break] operator[SEP] Keyword[default] operator[:] Keyword[break] operator[SEP] } Keyword[return] identifier[valid] operator[SEP] }
public void setIntegerParameterRanges(java.util.Collection<IntegerParameterRange> integerParameterRanges) { if (integerParameterRanges == null) { this.integerParameterRanges = null; return; } this.integerParameterRanges = new java.util.ArrayList<IntegerParameterRange>(integerParameterRanges); }
class class_name[name] begin[{] method[setIntegerParameterRanges, return_type[void], modifier[public], parameter[integerParameterRanges]] begin[{] if[binary_operation[member[.integerParameterRanges], ==, literal[null]]] begin[{] assign[THIS[member[None.integerParameterRanges]], literal[null]] return[None] else begin[{] None end[}] assign[THIS[member[None.integerParameterRanges]], ClassCreator(arguments=[MemberReference(member=integerParameterRanges, 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=java, sub_type=ReferenceType(arguments=None, dimensions=None, name=util, sub_type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=IntegerParameterRange, sub_type=None))], dimensions=None, name=ArrayList, sub_type=None))))] end[}] END[}]
Keyword[public] Keyword[void] identifier[setIntegerParameterRanges] operator[SEP] identifier[java] operator[SEP] identifier[util] operator[SEP] identifier[Collection] operator[<] identifier[IntegerParameterRange] operator[>] identifier[integerParameterRanges] operator[SEP] { Keyword[if] operator[SEP] identifier[integerParameterRanges] operator[==] Other[null] operator[SEP] { Keyword[this] operator[SEP] identifier[integerParameterRanges] operator[=] Other[null] operator[SEP] Keyword[return] operator[SEP] } Keyword[this] operator[SEP] identifier[integerParameterRanges] operator[=] Keyword[new] identifier[java] operator[SEP] identifier[util] operator[SEP] identifier[ArrayList] operator[<] identifier[IntegerParameterRange] operator[>] operator[SEP] identifier[integerParameterRanges] operator[SEP] operator[SEP] }
@SuppressWarnings("resource") protected ISynchronizationPoint<? extends Exception> serializeInputStreamValue( SerializationContext context, InputStream in, String path, List<SerializationRule> rules) { return serializeIOReadableValue(context, new IOFromInputStream(in, in.toString(), Threading.getUnmanagedTaskManager(), priority), path, rules); }
class class_name[name] begin[{] method[serializeInputStreamValue, return_type[type[ISynchronizationPoint]], modifier[protected], parameter[context, in, path, rules]] begin[{] return[call[.serializeIOReadableValue, parameter[member[.context], ClassCreator(arguments=[MemberReference(member=in, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MethodInvocation(arguments=[], member=toString, postfix_operators=[], prefix_operators=[], qualifier=in, selectors=[], type_arguments=None), MethodInvocation(arguments=[], member=getUnmanagedTaskManager, postfix_operators=[], prefix_operators=[], qualifier=Threading, selectors=[], type_arguments=None), MemberReference(member=priority, 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=IOFromInputStream, sub_type=None)), member[.path], member[.rules]]]] end[}] END[}]
annotation[@] identifier[SuppressWarnings] operator[SEP] literal[String] operator[SEP] Keyword[protected] identifier[ISynchronizationPoint] operator[<] operator[?] Keyword[extends] identifier[Exception] operator[>] identifier[serializeInputStreamValue] operator[SEP] identifier[SerializationContext] identifier[context] , identifier[InputStream] identifier[in] , identifier[String] identifier[path] , identifier[List] operator[<] identifier[SerializationRule] operator[>] identifier[rules] operator[SEP] { Keyword[return] identifier[serializeIOReadableValue] operator[SEP] identifier[context] , Keyword[new] identifier[IOFromInputStream] operator[SEP] identifier[in] , identifier[in] operator[SEP] identifier[toString] operator[SEP] operator[SEP] , identifier[Threading] operator[SEP] identifier[getUnmanagedTaskManager] operator[SEP] operator[SEP] , identifier[priority] operator[SEP] , identifier[path] , identifier[rules] operator[SEP] operator[SEP] }
public ServletHolder mapPathToServlet(String pathSpec, String servletName) { ServletHolder holder =(ServletHolder)_nameMap.get(servletName); if (!pathSpec.startsWith("/") && !pathSpec.startsWith("*")) { log.warn("pathSpec should start with '/' or '*' : "+pathSpec); pathSpec="/"+pathSpec; } if (holder==null) throw new IllegalArgumentException("Unknown servlet: "+servletName); _servletMap.put(pathSpec,holder); return holder; }
class class_name[name] begin[{] method[mapPathToServlet, return_type[type[ServletHolder]], modifier[public], parameter[pathSpec, servletName]] begin[{] local_variable[type[ServletHolder], holder] if[binary_operation[call[pathSpec.startsWith, parameter[literal["/"]]], &&, call[pathSpec.startsWith, parameter[literal["*"]]]]] begin[{] call[log.warn, parameter[binary_operation[literal["pathSpec should start with '/' or '*' : "], +, member[.pathSpec]]]] assign[member[.pathSpec], binary_operation[literal["/"], +, member[.pathSpec]]] else begin[{] None end[}] if[binary_operation[member[.holder], ==, literal[null]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Unknown servlet: "), operandr=MemberReference(member=servletName, 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) else begin[{] None end[}] call[_servletMap.put, parameter[member[.pathSpec], member[.holder]]] return[member[.holder]] end[}] END[}]
Keyword[public] identifier[ServletHolder] identifier[mapPathToServlet] operator[SEP] identifier[String] identifier[pathSpec] , identifier[String] identifier[servletName] operator[SEP] { identifier[ServletHolder] identifier[holder] operator[=] operator[SEP] identifier[ServletHolder] operator[SEP] identifier[_nameMap] operator[SEP] identifier[get] operator[SEP] identifier[servletName] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[pathSpec] operator[SEP] identifier[startsWith] operator[SEP] literal[String] operator[SEP] operator[&&] operator[!] identifier[pathSpec] operator[SEP] identifier[startsWith] operator[SEP] literal[String] operator[SEP] operator[SEP] { identifier[log] operator[SEP] identifier[warn] operator[SEP] literal[String] operator[+] identifier[pathSpec] operator[SEP] operator[SEP] identifier[pathSpec] operator[=] literal[String] operator[+] identifier[pathSpec] operator[SEP] } Keyword[if] operator[SEP] identifier[holder] operator[==] Other[null] operator[SEP] Keyword[throw] Keyword[new] identifier[IllegalArgumentException] operator[SEP] literal[String] operator[+] identifier[servletName] operator[SEP] operator[SEP] identifier[_servletMap] operator[SEP] identifier[put] operator[SEP] identifier[pathSpec] , identifier[holder] operator[SEP] operator[SEP] Keyword[return] identifier[holder] operator[SEP] }
@Requires({ "bytecode != null", "contractBytecode != null" }) @Ensures("result != null") public byte[] transformWithContracts(byte[] bytecode, byte[] contractBytecode) throws IllegalClassFormatException { try { ContractAnalyzer contracts = extractContracts(new ClassReader(contractBytecode)); return instrumentWithContracts(bytecode, contracts); } catch (Throwable t) { /* If the class file contains errors, ASM will just crash. */ IllegalClassFormatException e = new IllegalClassFormatException(); e.initCause(t); throw e; } }
class class_name[name] begin[{] method[transformWithContracts, return_type[type[byte]], modifier[public], parameter[bytecode, contractBytecode]] begin[{] TryStatement(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[ClassCreator(arguments=[MemberReference(member=contractBytecode, 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=ClassReader, sub_type=None))], member=extractContracts, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), name=contracts)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=ContractAnalyzer, sub_type=None)), ReturnStatement(expression=MethodInvocation(arguments=[MemberReference(member=bytecode, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=contracts, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=instrumentWithContracts, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[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=IllegalClassFormatException, sub_type=None)), name=e)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=IllegalClassFormatException, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=t, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=initCause, postfix_operators=[], prefix_operators=[], qualifier=e, selectors=[], type_arguments=None), label=None), ThrowStatement(expression=MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=t, types=['Throwable']))], finally_block=None, label=None, resources=None) end[}] END[}]
annotation[@] identifier[Requires] operator[SEP] { literal[String] , literal[String] } operator[SEP] annotation[@] identifier[Ensures] operator[SEP] literal[String] operator[SEP] Keyword[public] Keyword[byte] operator[SEP] operator[SEP] identifier[transformWithContracts] operator[SEP] Keyword[byte] operator[SEP] operator[SEP] identifier[bytecode] , Keyword[byte] operator[SEP] operator[SEP] identifier[contractBytecode] operator[SEP] Keyword[throws] identifier[IllegalClassFormatException] { Keyword[try] { identifier[ContractAnalyzer] identifier[contracts] operator[=] identifier[extractContracts] operator[SEP] Keyword[new] identifier[ClassReader] operator[SEP] identifier[contractBytecode] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[instrumentWithContracts] operator[SEP] identifier[bytecode] , identifier[contracts] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[Throwable] identifier[t] operator[SEP] { identifier[IllegalClassFormatException] identifier[e] operator[=] Keyword[new] identifier[IllegalClassFormatException] operator[SEP] operator[SEP] operator[SEP] identifier[e] operator[SEP] identifier[initCause] operator[SEP] identifier[t] operator[SEP] operator[SEP] Keyword[throw] identifier[e] operator[SEP] } }
public static <T> String join(Iterator<T> iterator, CharSequence conjunction) { return join(iterator, conjunction, null, null); }
class class_name[name] begin[{] method[join, return_type[type[String]], modifier[public static], parameter[iterator, conjunction]] begin[{] return[call[.join, parameter[member[.iterator], member[.conjunction], literal[null], literal[null]]]] end[}] END[}]
Keyword[public] Keyword[static] operator[<] identifier[T] operator[>] identifier[String] identifier[join] operator[SEP] identifier[Iterator] operator[<] identifier[T] operator[>] identifier[iterator] , identifier[CharSequence] identifier[conjunction] operator[SEP] { Keyword[return] identifier[join] operator[SEP] identifier[iterator] , identifier[conjunction] , Other[null] , Other[null] operator[SEP] operator[SEP] }
public void addLexeme(int lexemeId) { int count = 1; if (lexemeFrequency.get(lexemeId) != null) count = lexemeFrequency.get(lexemeId) + 1; lexemeFrequency.put(lexemeId, count); }
class class_name[name] begin[{] method[addLexeme, return_type[void], modifier[public], parameter[lexemeId]] begin[{] local_variable[type[int], count] if[binary_operation[call[lexemeFrequency.get, parameter[member[.lexemeId]]], !=, literal[null]]] begin[{] assign[member[.count], binary_operation[call[lexemeFrequency.get, parameter[member[.lexemeId]]], +, literal[1]]] else begin[{] None end[}] call[lexemeFrequency.put, parameter[member[.lexemeId], member[.count]]] end[}] END[}]
Keyword[public] Keyword[void] identifier[addLexeme] operator[SEP] Keyword[int] identifier[lexemeId] operator[SEP] { Keyword[int] identifier[count] operator[=] Other[1] operator[SEP] Keyword[if] operator[SEP] identifier[lexemeFrequency] operator[SEP] identifier[get] operator[SEP] identifier[lexemeId] operator[SEP] operator[!=] Other[null] operator[SEP] identifier[count] operator[=] identifier[lexemeFrequency] operator[SEP] identifier[get] operator[SEP] identifier[lexemeId] operator[SEP] operator[+] Other[1] operator[SEP] identifier[lexemeFrequency] operator[SEP] identifier[put] operator[SEP] identifier[lexemeId] , identifier[count] operator[SEP] operator[SEP] }
public EnableEnhancedMonitoringResult withCurrentShardLevelMetrics(MetricsName... currentShardLevelMetrics) { com.amazonaws.internal.SdkInternalList<String> currentShardLevelMetricsCopy = new com.amazonaws.internal.SdkInternalList<String>( currentShardLevelMetrics.length); for (MetricsName value : currentShardLevelMetrics) { currentShardLevelMetricsCopy.add(value.toString()); } if (getCurrentShardLevelMetrics() == null) { setCurrentShardLevelMetrics(currentShardLevelMetricsCopy); } else { getCurrentShardLevelMetrics().addAll(currentShardLevelMetricsCopy); } return this; }
class class_name[name] begin[{] method[withCurrentShardLevelMetrics, return_type[type[EnableEnhancedMonitoringResult]], modifier[public], parameter[currentShardLevelMetrics]] begin[{] local_variable[type[com], currentShardLevelMetricsCopy] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=toString, postfix_operators=[], prefix_operators=[], qualifier=value, selectors=[], type_arguments=None)], member=add, postfix_operators=[], prefix_operators=[], qualifier=currentShardLevelMetricsCopy, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MemberReference(member=currentShardLevelMetrics, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=value)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=MetricsName, sub_type=None))), label=None) if[binary_operation[call[.getCurrentShardLevelMetrics, parameter[]], ==, literal[null]]] begin[{] call[.setCurrentShardLevelMetrics, parameter[member[.currentShardLevelMetricsCopy]]] else begin[{] call[.getCurrentShardLevelMetrics, parameter[]] end[}] return[THIS[]] end[}] END[}]
Keyword[public] identifier[EnableEnhancedMonitoringResult] identifier[withCurrentShardLevelMetrics] operator[SEP] identifier[MetricsName] operator[...] identifier[currentShardLevelMetrics] operator[SEP] { identifier[com] operator[SEP] identifier[amazonaws] operator[SEP] identifier[internal] operator[SEP] identifier[SdkInternalList] operator[<] identifier[String] operator[>] identifier[currentShardLevelMetricsCopy] operator[=] Keyword[new] identifier[com] operator[SEP] identifier[amazonaws] operator[SEP] identifier[internal] operator[SEP] identifier[SdkInternalList] operator[<] identifier[String] operator[>] operator[SEP] identifier[currentShardLevelMetrics] operator[SEP] identifier[length] operator[SEP] operator[SEP] Keyword[for] operator[SEP] identifier[MetricsName] identifier[value] operator[:] identifier[currentShardLevelMetrics] operator[SEP] { identifier[currentShardLevelMetricsCopy] operator[SEP] identifier[add] operator[SEP] identifier[value] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[getCurrentShardLevelMetrics] operator[SEP] operator[SEP] operator[==] Other[null] operator[SEP] { identifier[setCurrentShardLevelMetrics] operator[SEP] identifier[currentShardLevelMetricsCopy] operator[SEP] operator[SEP] } Keyword[else] { identifier[getCurrentShardLevelMetrics] operator[SEP] operator[SEP] operator[SEP] identifier[addAll] operator[SEP] identifier[currentShardLevelMetricsCopy] operator[SEP] operator[SEP] } Keyword[return] Keyword[this] operator[SEP] }
public ZoneRulesBuilder addWindowForever(ZoneOffset standardOffset) { return addWindow(standardOffset, LocalDateTime.MAX, TimeDefinition.WALL); }
class class_name[name] begin[{] method[addWindowForever, return_type[type[ZoneRulesBuilder]], modifier[public], parameter[standardOffset]] begin[{] return[call[.addWindow, parameter[member[.standardOffset], member[LocalDateTime.MAX], member[TimeDefinition.WALL]]]] end[}] END[}]
Keyword[public] identifier[ZoneRulesBuilder] identifier[addWindowForever] operator[SEP] identifier[ZoneOffset] identifier[standardOffset] operator[SEP] { Keyword[return] identifier[addWindow] operator[SEP] identifier[standardOffset] , identifier[LocalDateTime] operator[SEP] identifier[MAX] , identifier[TimeDefinition] operator[SEP] identifier[WALL] operator[SEP] operator[SEP] }
public JsBus getBus() { if (TraceComponent.isAnyTracingEnabled() && tc.isEntryEnabled()) SibTr.entry(tc, "getBus"); JsBus jsBus = (JsBus) _engine.getBus(); if (TraceComponent.isAnyTracingEnabled() && tc.isEntryEnabled()) SibTr.exit(tc, "getBus", jsBus); return jsBus; }
class class_name[name] begin[{] method[getBus, return_type[type[JsBus]], modifier[public], parameter[]] begin[{] if[binary_operation[call[TraceComponent.isAnyTracingEnabled, parameter[]], &&, call[tc.isEntryEnabled, parameter[]]]] begin[{] call[SibTr.entry, parameter[member[.tc], literal["getBus"]]] else begin[{] None end[}] local_variable[type[JsBus], jsBus] if[binary_operation[call[TraceComponent.isAnyTracingEnabled, parameter[]], &&, call[tc.isEntryEnabled, parameter[]]]] begin[{] call[SibTr.exit, parameter[member[.tc], literal["getBus"], member[.jsBus]]] else begin[{] None end[}] return[member[.jsBus]] end[}] END[}]
Keyword[public] identifier[JsBus] identifier[getBus] 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[SibTr] operator[SEP] identifier[entry] operator[SEP] identifier[tc] , literal[String] operator[SEP] operator[SEP] identifier[JsBus] identifier[jsBus] operator[=] operator[SEP] identifier[JsBus] operator[SEP] identifier[_engine] operator[SEP] identifier[getBus] 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[SibTr] operator[SEP] identifier[exit] operator[SEP] identifier[tc] , literal[String] , identifier[jsBus] operator[SEP] operator[SEP] Keyword[return] identifier[jsBus] operator[SEP] }
@Override public Object getMember(String name) { switch (name) { case "after": return F_after; case "before": return F_before; case "compareTo": return F_compareTo; case "equals": return F_equals; case "getNanos": return F_getNanos; case "getTime": return F_getTime; case "hashCode": return F_hashCode; case "setNanos": return F_setNanos; case "setTime": return F_setTime; } return super.getMember(name); }
class class_name[name] begin[{] method[getMember, return_type[type[Object]], modifier[public], parameter[name]] begin[{] SwitchStatement(cases=[SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="after")], statements=[ReturnStatement(expression=MemberReference(member=F_after, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="before")], statements=[ReturnStatement(expression=MemberReference(member=F_before, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="compareTo")], statements=[ReturnStatement(expression=MemberReference(member=F_compareTo, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="equals")], statements=[ReturnStatement(expression=MemberReference(member=F_equals, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="getNanos")], statements=[ReturnStatement(expression=MemberReference(member=F_getNanos, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="getTime")], statements=[ReturnStatement(expression=MemberReference(member=F_getTime, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="hashCode")], statements=[ReturnStatement(expression=MemberReference(member=F_hashCode, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="setNanos")], statements=[ReturnStatement(expression=MemberReference(member=F_setNanos, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="setTime")], statements=[ReturnStatement(expression=MemberReference(member=F_setTime, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), label=None)])], expression=MemberReference(member=name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), label=None) return[SuperMethodInvocation(arguments=[MemberReference(member=name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getMember, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type_arguments=None)] end[}] END[}]
annotation[@] identifier[Override] Keyword[public] identifier[Object] identifier[getMember] operator[SEP] identifier[String] identifier[name] operator[SEP] { Keyword[switch] operator[SEP] identifier[name] operator[SEP] { Keyword[case] literal[String] operator[:] Keyword[return] identifier[F_after] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[return] identifier[F_before] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[return] identifier[F_compareTo] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[return] identifier[F_equals] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[return] identifier[F_getNanos] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[return] identifier[F_getTime] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[return] identifier[F_hashCode] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[return] identifier[F_setNanos] operator[SEP] Keyword[case] literal[String] operator[:] Keyword[return] identifier[F_setTime] operator[SEP] } Keyword[return] Keyword[super] operator[SEP] identifier[getMember] operator[SEP] identifier[name] operator[SEP] operator[SEP] }
public void setWIDTH(Integer newWIDTH) { Integer oldWIDTH = width; width = newWIDTH; if (eNotificationRequired()) eNotify(new ENotificationImpl(this, Notification.SET, AfplibPackage.GCBIMG__WIDTH, oldWIDTH, width)); }
class class_name[name] begin[{] method[setWIDTH, return_type[void], modifier[public], parameter[newWIDTH]] begin[{] local_variable[type[Integer], oldWIDTH] assign[member[.width], member[.newWIDTH]] if[call[.eNotificationRequired, parameter[]]] begin[{] call[.eNotify, parameter[ClassCreator(arguments=[This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[]), MemberReference(member=SET, postfix_operators=[], prefix_operators=[], qualifier=Notification, selectors=[]), MemberReference(member=GCBIMG__WIDTH, postfix_operators=[], prefix_operators=[], qualifier=AfplibPackage, selectors=[]), MemberReference(member=oldWIDTH, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=width, 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=ENotificationImpl, sub_type=None))]] else begin[{] None end[}] end[}] END[}]
Keyword[public] Keyword[void] identifier[setWIDTH] operator[SEP] identifier[Integer] identifier[newWIDTH] operator[SEP] { identifier[Integer] identifier[oldWIDTH] operator[=] identifier[width] operator[SEP] identifier[width] operator[=] identifier[newWIDTH] operator[SEP] Keyword[if] operator[SEP] identifier[eNotificationRequired] operator[SEP] operator[SEP] operator[SEP] identifier[eNotify] operator[SEP] Keyword[new] identifier[ENotificationImpl] operator[SEP] Keyword[this] , identifier[Notification] operator[SEP] identifier[SET] , identifier[AfplibPackage] operator[SEP] identifier[GCBIMG__WIDTH] , identifier[oldWIDTH] , identifier[width] operator[SEP] operator[SEP] operator[SEP] }
private String eatString() throws ParseException { StringBuilder b = new StringBuilder(); if (getChar() != '"') { throw new ParseException("expected string", position); } for (; ; ) { char t = getChar(); if (t == '"') { break; } b.append(t); } return b.toString(); }
class class_name[name] begin[{] method[eatString, return_type[type[String]], modifier[private], parameter[]] begin[{] local_variable[type[StringBuilder], b] if[binary_operation[call[.getChar, parameter[]], !=, literal['"']]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="expected string"), MemberReference(member=position, 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=ParseException, sub_type=None)), label=None) else begin[{] None end[}] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=getChar, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), name=t)], modifiers=set(), type=BasicType(dimensions=[], name=char)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=t, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='"'), operator===), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[BreakStatement(goto=None, label=None)])), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=t, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=append, postfix_operators=[], prefix_operators=[], qualifier=b, selectors=[], type_arguments=None), label=None)]), control=ForControl(condition=None, init=None, update=None), label=None) return[call[b.toString, parameter[]]] end[}] END[}]
Keyword[private] identifier[String] identifier[eatString] operator[SEP] operator[SEP] Keyword[throws] identifier[ParseException] { identifier[StringBuilder] identifier[b] operator[=] Keyword[new] identifier[StringBuilder] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[getChar] operator[SEP] operator[SEP] operator[!=] literal[String] operator[SEP] { Keyword[throw] Keyword[new] identifier[ParseException] operator[SEP] literal[String] , identifier[position] operator[SEP] operator[SEP] } Keyword[for] operator[SEP] operator[SEP] operator[SEP] operator[SEP] { Keyword[char] identifier[t] operator[=] identifier[getChar] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[t] operator[==] literal[String] operator[SEP] { Keyword[break] operator[SEP] } identifier[b] operator[SEP] identifier[append] operator[SEP] identifier[t] operator[SEP] operator[SEP] } Keyword[return] identifier[b] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] }
public void writeExternal(ObjectOutput out) throws IOException { if (url == null) { super.writeExternal(out); return; } out.writeInt(orderNumber); // write the path byte[] buf = url.toString().getBytes("UTF-8"); out.writeInt(buf.length); out.write(buf); }
class class_name[name] begin[{] method[writeExternal, return_type[void], modifier[public], parameter[out]] begin[{] if[binary_operation[member[.url], ==, literal[null]]] begin[{] SuperMethodInvocation(arguments=[MemberReference(member=out, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=writeExternal, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type_arguments=None) return[None] else begin[{] None end[}] call[out.writeInt, parameter[member[.orderNumber]]] local_variable[type[byte], buf] call[out.writeInt, parameter[member[buf.length]]] call[out.write, parameter[member[.buf]]] end[}] END[}]
Keyword[public] Keyword[void] identifier[writeExternal] operator[SEP] identifier[ObjectOutput] identifier[out] operator[SEP] Keyword[throws] identifier[IOException] { Keyword[if] operator[SEP] identifier[url] operator[==] Other[null] operator[SEP] { Keyword[super] operator[SEP] identifier[writeExternal] operator[SEP] identifier[out] operator[SEP] operator[SEP] Keyword[return] operator[SEP] } identifier[out] operator[SEP] identifier[writeInt] operator[SEP] identifier[orderNumber] operator[SEP] operator[SEP] Keyword[byte] operator[SEP] operator[SEP] identifier[buf] operator[=] identifier[url] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] identifier[getBytes] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[out] operator[SEP] identifier[writeInt] operator[SEP] identifier[buf] operator[SEP] identifier[length] operator[SEP] operator[SEP] identifier[out] operator[SEP] identifier[write] operator[SEP] identifier[buf] operator[SEP] operator[SEP] }
private int findNamedValue(int begin, String[] namedValues, int min) { int length = ivPos - begin; for (int i = 0; i < namedValues.length; i++) { String namedValue = namedValues[i]; if (length == namedValue.length() && ivString.regionMatches(true, begin, namedValue, 0, length)) { return min + i; } } return -1; }
class class_name[name] begin[{] method[findNamedValue, return_type[type[int]], modifier[private], parameter[begin, namedValues, min]] begin[{] local_variable[type[int], length] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=namedValues, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), name=namedValue)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), IfStatement(condition=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=length, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MethodInvocation(arguments=[], member=length, postfix_operators=[], prefix_operators=[], qualifier=namedValue, selectors=[], type_arguments=None), operator===), operandr=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true), MemberReference(member=begin, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=namedValue, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), MemberReference(member=length, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=regionMatches, postfix_operators=[], prefix_operators=[], qualifier=ivString, selectors=[], type_arguments=None), operator=&&), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[ReturnStatement(expression=BinaryOperation(operandl=MemberReference(member=min, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), 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=namedValues, 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[literal[1]] end[}] END[}]
Keyword[private] Keyword[int] identifier[findNamedValue] operator[SEP] Keyword[int] identifier[begin] , identifier[String] operator[SEP] operator[SEP] identifier[namedValues] , Keyword[int] identifier[min] operator[SEP] { Keyword[int] identifier[length] operator[=] identifier[ivPos] operator[-] identifier[begin] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[namedValues] operator[SEP] identifier[length] operator[SEP] identifier[i] operator[++] operator[SEP] { identifier[String] identifier[namedValue] operator[=] identifier[namedValues] operator[SEP] identifier[i] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[length] operator[==] identifier[namedValue] operator[SEP] identifier[length] operator[SEP] operator[SEP] operator[&&] identifier[ivString] operator[SEP] identifier[regionMatches] operator[SEP] literal[boolean] , identifier[begin] , identifier[namedValue] , Other[0] , identifier[length] operator[SEP] operator[SEP] { Keyword[return] identifier[min] operator[+] identifier[i] operator[SEP] } } Keyword[return] operator[-] Other[1] operator[SEP] }
@Override public void getLike(SocializeSession session, long id, LikeListener listener) { getAsync(session, ENDPOINT, String.valueOf(id), listener); }
class class_name[name] begin[{] method[getLike, return_type[void], modifier[public], parameter[session, id, listener]] begin[{] call[.getAsync, parameter[member[.session], member[.ENDPOINT], call[String.valueOf, parameter[member[.id]]], member[.listener]]] end[}] END[}]
annotation[@] identifier[Override] Keyword[public] Keyword[void] identifier[getLike] operator[SEP] identifier[SocializeSession] identifier[session] , Keyword[long] identifier[id] , identifier[LikeListener] identifier[listener] operator[SEP] { identifier[getAsync] operator[SEP] identifier[session] , identifier[ENDPOINT] , identifier[String] operator[SEP] identifier[valueOf] operator[SEP] identifier[id] operator[SEP] , identifier[listener] operator[SEP] operator[SEP] }
public void delete() { if (tx.isReadOnly() && !isTempTable()) throw new UnsupportedOperationException(); if (fhp == null) fhp = openHeaderForModification(); // Log that this logical operation starts RecordId deletedRid = currentRecordId(); tx.recoveryMgr().logLogicalStart(); // Delete the current record rp.delete(fhp.getLastDeletedSlot()); fhp.setLastDeletedSlot(currentRecordId()); // Log that this logical operation ends tx.recoveryMgr().logRecordFileDeletionEnd(ti.tableName(), deletedRid.block().number(), deletedRid.id()); // Close the header (release the header lock) closeHeader(); }
class class_name[name] begin[{] method[delete, return_type[void], modifier[public], parameter[]] begin[{] if[binary_operation[call[tx.isReadOnly, parameter[]], &&, call[.isTempTable, parameter[]]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=UnsupportedOperationException, sub_type=None)), label=None) else begin[{] None end[}] if[binary_operation[member[.fhp], ==, literal[null]]] begin[{] assign[member[.fhp], call[.openHeaderForModification, parameter[]]] else begin[{] None end[}] local_variable[type[RecordId], deletedRid] call[tx.recoveryMgr, parameter[]] call[rp.delete, parameter[call[fhp.getLastDeletedSlot, parameter[]]]] call[fhp.setLastDeletedSlot, parameter[call[.currentRecordId, parameter[]]]] call[tx.recoveryMgr, parameter[]] call[.closeHeader, parameter[]] end[}] END[}]
Keyword[public] Keyword[void] identifier[delete] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] identifier[tx] operator[SEP] identifier[isReadOnly] operator[SEP] operator[SEP] operator[&&] operator[!] identifier[isTempTable] operator[SEP] operator[SEP] operator[SEP] Keyword[throw] Keyword[new] identifier[UnsupportedOperationException] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[fhp] operator[==] Other[null] operator[SEP] identifier[fhp] operator[=] identifier[openHeaderForModification] operator[SEP] operator[SEP] operator[SEP] identifier[RecordId] identifier[deletedRid] operator[=] identifier[currentRecordId] operator[SEP] operator[SEP] operator[SEP] identifier[tx] operator[SEP] identifier[recoveryMgr] operator[SEP] operator[SEP] operator[SEP] identifier[logLogicalStart] operator[SEP] operator[SEP] operator[SEP] identifier[rp] operator[SEP] identifier[delete] operator[SEP] identifier[fhp] operator[SEP] identifier[getLastDeletedSlot] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[fhp] operator[SEP] identifier[setLastDeletedSlot] operator[SEP] identifier[currentRecordId] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[tx] operator[SEP] identifier[recoveryMgr] operator[SEP] operator[SEP] operator[SEP] identifier[logRecordFileDeletionEnd] operator[SEP] identifier[ti] operator[SEP] identifier[tableName] operator[SEP] operator[SEP] , identifier[deletedRid] operator[SEP] identifier[block] operator[SEP] operator[SEP] operator[SEP] identifier[number] operator[SEP] operator[SEP] , identifier[deletedRid] operator[SEP] identifier[id] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[closeHeader] operator[SEP] operator[SEP] operator[SEP] }
@Override public String toJson(Object object) { CharBuf buffer = CharBuf.create(255); writeObject(object, buffer); return buffer.toString(); }
class class_name[name] begin[{] method[toJson, return_type[type[String]], modifier[public], parameter[object]] begin[{] local_variable[type[CharBuf], buffer] call[.writeObject, parameter[member[.object], member[.buffer]]] return[call[buffer.toString, parameter[]]] end[}] END[}]
annotation[@] identifier[Override] Keyword[public] identifier[String] identifier[toJson] operator[SEP] identifier[Object] identifier[object] operator[SEP] { identifier[CharBuf] identifier[buffer] operator[=] identifier[CharBuf] operator[SEP] identifier[create] operator[SEP] Other[255] operator[SEP] operator[SEP] identifier[writeObject] operator[SEP] identifier[object] , identifier[buffer] operator[SEP] operator[SEP] Keyword[return] identifier[buffer] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] }
public static Tuple of( Collection<VarBindingDef> tupleBindings) { Tuple tuple = new Tuple(); boolean bindingsCompatible; Iterator<VarBindingDef> bindings; VarBindingDef nextBinding; for( bindings = tupleBindings.iterator(), bindingsCompatible = true; bindings.hasNext() && (bindingsCompatible = isBindingCompatible( tuple, (nextBinding = bindings.next()))); tuple.add( nextBinding)); return bindingsCompatible && tuple.isCompatible() ? tuple : null; }
class class_name[name] begin[{] method[of, return_type[type[Tuple]], modifier[public static], parameter[tupleBindings]] begin[{] local_variable[type[Tuple], tuple] local_variable[type[boolean], bindingsCompatible] local_variable[type[Iterator], bindings] local_variable[type[VarBindingDef], nextBinding] ForStatement(body=Statement(label=None), control=ForControl(condition=BinaryOperation(operandl=MethodInvocation(arguments=[], member=hasNext, postfix_operators=[], prefix_operators=[], qualifier=bindings, selectors=[], type_arguments=None), operandr=Assignment(expressionl=MemberReference(member=bindingsCompatible, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[MemberReference(member=tuple, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Assignment(expressionl=MemberReference(member=nextBinding, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=next, postfix_operators=[], prefix_operators=[], qualifier=bindings, selectors=[], type_arguments=None))], member=isBindingCompatible, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)), operator=&&), init=[Assignment(expressionl=MemberReference(member=bindings, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=iterator, postfix_operators=[], prefix_operators=[], qualifier=tupleBindings, selectors=[], type_arguments=None)), Assignment(expressionl=MemberReference(member=bindingsCompatible, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true))], update=[MethodInvocation(arguments=[MemberReference(member=nextBinding, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=add, postfix_operators=[], prefix_operators=[], qualifier=tuple, selectors=[], type_arguments=None)]), label=None) return[TernaryExpression(condition=BinaryOperation(operandl=MemberReference(member=bindingsCompatible, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MethodInvocation(arguments=[], member=isCompatible, postfix_operators=[], prefix_operators=[], qualifier=tuple, selectors=[], type_arguments=None), operator=&&), if_false=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), if_true=MemberReference(member=tuple, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))] end[}] END[}]
Keyword[public] Keyword[static] identifier[Tuple] identifier[of] operator[SEP] identifier[Collection] operator[<] identifier[VarBindingDef] operator[>] identifier[tupleBindings] operator[SEP] { identifier[Tuple] identifier[tuple] operator[=] Keyword[new] identifier[Tuple] operator[SEP] operator[SEP] operator[SEP] Keyword[boolean] identifier[bindingsCompatible] operator[SEP] identifier[Iterator] operator[<] identifier[VarBindingDef] operator[>] identifier[bindings] operator[SEP] identifier[VarBindingDef] identifier[nextBinding] operator[SEP] Keyword[for] operator[SEP] identifier[bindings] operator[=] identifier[tupleBindings] operator[SEP] identifier[iterator] operator[SEP] operator[SEP] , identifier[bindingsCompatible] operator[=] literal[boolean] operator[SEP] identifier[bindings] operator[SEP] identifier[hasNext] operator[SEP] operator[SEP] operator[&&] operator[SEP] identifier[bindingsCompatible] operator[=] identifier[isBindingCompatible] operator[SEP] identifier[tuple] , operator[SEP] identifier[nextBinding] operator[=] identifier[bindings] operator[SEP] identifier[next] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[tuple] operator[SEP] identifier[add] operator[SEP] identifier[nextBinding] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[bindingsCompatible] operator[&&] identifier[tuple] operator[SEP] identifier[isCompatible] operator[SEP] operator[SEP] operator[?] identifier[tuple] operator[:] Other[null] operator[SEP] }
void unionTreeCoreset(int k,int n_1,int n_2,int d, Point[] setA,Point[] setB, Point[] centres, MTRandom clustererRandom) { //printf("Computing coreset...\n"); //total number of points int n = n_1+n_2; //choose the first centre (each point has the same probability of being choosen) //stores, how many centres have been choosen yet int choosenPoints = 0; //only choose from the n-i points not already choosen int j = clustererRandom.nextInt(n-choosenPoints); //copy the choosen point if(j < n_1){ //copyPointWithoutInit(&setA[j],&centres[choosenPoints]); centres[choosenPoints] = setA[j].clone(); } else { j = j - n_1; //copyPointWithoutInit(&setB[j],&centres[choosenPoints]); centres[choosenPoints] = setB[j].clone(); } treeNode root = new treeNode(setA,setB,n_1,n_2, centres[choosenPoints],choosenPoints); //?? choosenPoints = 1; //choose the remaining points while(choosenPoints < k){ if(root.cost > 0.0){ treeNode leaf = selectNode(root, clustererRandom); Point centre = chooseCentre(leaf, clustererRandom); split(leaf,centre,choosenPoints); //copyPointWithoutInit(centre,&centres[choosenPoints]); centres[choosenPoints] = centre; } else { //create a dummy point //copyPointWithoutInit(root.centre,&centres[choosenPoints]); centres[choosenPoints] = root.centre; int l; for(l=0;l<root.centre.dimension;l++){ centres[choosenPoints].coordinates[l] = -1 * 1000000; } centres[choosenPoints].id = -1; centres[choosenPoints].weight = 0.0; centres[choosenPoints].squareSum = 0.0; } choosenPoints++; } //free the tree freeTree(root); //recalculate clustering features int i; for(i=0;i<n;i++){ if(i < n_1) { int index = setA[i].centreIndex; if(centres[index].id != setA[i].id){ centres[index].weight += setA[i].weight; centres[index].squareSum += setA[i].squareSum; int l; for(l=0;l<centres[index].dimension;l++){ if(setA[i].weight != 0.0){ centres[index].coordinates[l] += setA[i].coordinates[l]; } } } } else { int index = setB[i-n_1].centreIndex; if(centres[index].id != setB[i-n_1].id){ centres[index].weight += setB[i-n_1].weight; centres[index].squareSum += setB[i-n_1].squareSum; int l; for(l=0;l<centres[index].dimension;l++){ if(setB[i-n_1].weight != 0.0){ centres[index].coordinates[l] += setB[i-n_1].coordinates[l]; } } } } } }
class class_name[name] begin[{] method[unionTreeCoreset, return_type[void], modifier[default], parameter[k, n_1, n_2, d, setA, setB, centres, clustererRandom]] begin[{] local_variable[type[int], n] local_variable[type[int], choosenPoints] local_variable[type[int], j] if[binary_operation[member[.j], <, member[.n_1]]] begin[{] assign[member[.centres], member[.setA]] else begin[{] assign[member[.j], binary_operation[member[.j], -, member[.n_1]]] assign[member[.centres], member[.setB]] end[}] local_variable[type[treeNode], root] assign[member[.choosenPoints], literal[1]] while[binary_operation[member[.choosenPoints], <, member[.k]]] begin[{] if[binary_operation[member[root.cost], >, literal[0.0]]] begin[{] local_variable[type[treeNode], leaf] local_variable[type[Point], centre] call[.split, parameter[member[.leaf], member[.centre], member[.choosenPoints]]] assign[member[.centres], member[.centre]] else begin[{] assign[member[.centres], member[root.centre]] local_variable[type[int], l] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=centres, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=choosenPoints, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), MemberReference(member=coordinates, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None), ArraySelector(index=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), type==, value=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=['-'], qualifier=None, selectors=[], value=1), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1000000), operator=*)), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=dimension, postfix_operators=[], prefix_operators=[], qualifier=root.centre, selectors=[]), operator=<), init=[Assignment(expressionl=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0))], update=[MemberReference(member=l, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None) assign[member[.centres], literal[1]] assign[member[.centres], literal[0.0]] assign[member[.centres], literal[0.0]] end[}] member[.choosenPoints] end[}] call[.freeTree, parameter[member[.root]]] local_variable[type[int], i] ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=n_1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=<), else_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=setB, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=n_1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=-)), MemberReference(member=centreIndex, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None)]), name=index)], modifiers=set(), type=BasicType(dimensions=[], name=int)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=centres, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=index, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), MemberReference(member=id, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None)]), operandr=MemberReference(member=setB, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=n_1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=-)), MemberReference(member=id, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None)]), operator=!=), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=centres, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=index, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), MemberReference(member=weight, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None)]), type=+=, value=MemberReference(member=setB, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=n_1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=-)), MemberReference(member=weight, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None)])), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=centres, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=index, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), MemberReference(member=squareSum, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None)]), type=+=, value=MemberReference(member=setB, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=n_1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=-)), MemberReference(member=squareSum, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None)])), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=None, name=l)], modifiers=set(), type=BasicType(dimensions=[], name=int)), ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=setB, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=n_1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=-)), MemberReference(member=weight, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None)]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0.0), operator=!=), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=centres, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=index, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), MemberReference(member=coordinates, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None), ArraySelector(index=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), type=+=, value=MemberReference(member=setB, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=n_1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=-)), MemberReference(member=coordinates, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None), ArraySelector(index=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))])), label=None)]))]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=centres, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=index, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), MemberReference(member=dimension, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None)]), operator=<), init=[Assignment(expressionl=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0))], update=[MemberReference(member=l, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None)]))]), label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=setA, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), MemberReference(member=centreIndex, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None)]), name=index)], modifiers=set(), type=BasicType(dimensions=[], name=int)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=centres, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=index, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), MemberReference(member=id, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None)]), operandr=MemberReference(member=setA, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), MemberReference(member=id, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None)]), operator=!=), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=centres, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=index, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), MemberReference(member=weight, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None)]), type=+=, value=MemberReference(member=setA, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), MemberReference(member=weight, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None)])), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=centres, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=index, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), MemberReference(member=squareSum, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None)]), type=+=, value=MemberReference(member=setA, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), MemberReference(member=squareSum, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None)])), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=None, name=l)], modifiers=set(), type=BasicType(dimensions=[], name=int)), ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=setA, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), MemberReference(member=weight, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None)]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0.0), operator=!=), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=centres, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=index, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), MemberReference(member=coordinates, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None), ArraySelector(index=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), type=+=, value=MemberReference(member=setA, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), MemberReference(member=coordinates, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None), ArraySelector(index=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))])), label=None)]))]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=centres, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=index, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), MemberReference(member=dimension, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None)]), operator=<), init=[Assignment(expressionl=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0))], update=[MemberReference(member=l, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None)]))]))]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=n, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=<), init=[Assignment(expressionl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0))], update=[MemberReference(member=i, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None) end[}] END[}]
Keyword[void] identifier[unionTreeCoreset] operator[SEP] Keyword[int] identifier[k] , Keyword[int] identifier[n_1] , Keyword[int] identifier[n_2] , Keyword[int] identifier[d] , identifier[Point] operator[SEP] operator[SEP] identifier[setA] , identifier[Point] operator[SEP] operator[SEP] identifier[setB] , identifier[Point] operator[SEP] operator[SEP] identifier[centres] , identifier[MTRandom] identifier[clustererRandom] operator[SEP] { Keyword[int] identifier[n] operator[=] identifier[n_1] operator[+] identifier[n_2] operator[SEP] Keyword[int] identifier[choosenPoints] operator[=] Other[0] operator[SEP] Keyword[int] identifier[j] operator[=] identifier[clustererRandom] operator[SEP] identifier[nextInt] operator[SEP] identifier[n] operator[-] identifier[choosenPoints] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[j] operator[<] identifier[n_1] operator[SEP] { identifier[centres] operator[SEP] identifier[choosenPoints] operator[SEP] operator[=] identifier[setA] operator[SEP] identifier[j] operator[SEP] operator[SEP] identifier[clone] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] { identifier[j] operator[=] identifier[j] operator[-] identifier[n_1] operator[SEP] identifier[centres] operator[SEP] identifier[choosenPoints] operator[SEP] operator[=] identifier[setB] operator[SEP] identifier[j] operator[SEP] operator[SEP] identifier[clone] operator[SEP] operator[SEP] operator[SEP] } identifier[treeNode] identifier[root] operator[=] Keyword[new] identifier[treeNode] operator[SEP] identifier[setA] , identifier[setB] , identifier[n_1] , identifier[n_2] , identifier[centres] operator[SEP] identifier[choosenPoints] operator[SEP] , identifier[choosenPoints] operator[SEP] operator[SEP] identifier[choosenPoints] operator[=] Other[1] operator[SEP] Keyword[while] operator[SEP] identifier[choosenPoints] operator[<] identifier[k] operator[SEP] { Keyword[if] operator[SEP] identifier[root] operator[SEP] identifier[cost] operator[>] literal[Float] operator[SEP] { identifier[treeNode] identifier[leaf] operator[=] identifier[selectNode] operator[SEP] identifier[root] , identifier[clustererRandom] operator[SEP] operator[SEP] identifier[Point] identifier[centre] operator[=] identifier[chooseCentre] operator[SEP] identifier[leaf] , identifier[clustererRandom] operator[SEP] operator[SEP] identifier[split] operator[SEP] identifier[leaf] , identifier[centre] , identifier[choosenPoints] operator[SEP] operator[SEP] identifier[centres] operator[SEP] identifier[choosenPoints] operator[SEP] operator[=] identifier[centre] operator[SEP] } Keyword[else] { identifier[centres] operator[SEP] identifier[choosenPoints] operator[SEP] operator[=] identifier[root] operator[SEP] identifier[centre] operator[SEP] Keyword[int] identifier[l] operator[SEP] Keyword[for] operator[SEP] identifier[l] operator[=] Other[0] operator[SEP] identifier[l] operator[<] identifier[root] operator[SEP] identifier[centre] operator[SEP] identifier[dimension] operator[SEP] identifier[l] operator[++] operator[SEP] { identifier[centres] operator[SEP] identifier[choosenPoints] operator[SEP] operator[SEP] identifier[coordinates] operator[SEP] identifier[l] operator[SEP] operator[=] operator[-] Other[1] operator[*] Other[1000000] operator[SEP] } identifier[centres] operator[SEP] identifier[choosenPoints] operator[SEP] operator[SEP] identifier[id] operator[=] operator[-] Other[1] operator[SEP] identifier[centres] operator[SEP] identifier[choosenPoints] operator[SEP] operator[SEP] identifier[weight] operator[=] literal[Float] operator[SEP] identifier[centres] operator[SEP] identifier[choosenPoints] operator[SEP] operator[SEP] identifier[squareSum] operator[=] literal[Float] operator[SEP] } identifier[choosenPoints] operator[++] operator[SEP] } identifier[freeTree] operator[SEP] identifier[root] operator[SEP] operator[SEP] Keyword[int] identifier[i] operator[SEP] Keyword[for] operator[SEP] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[n] operator[SEP] identifier[i] operator[++] operator[SEP] { Keyword[if] operator[SEP] identifier[i] operator[<] identifier[n_1] operator[SEP] { Keyword[int] identifier[index] operator[=] identifier[setA] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[centreIndex] operator[SEP] Keyword[if] operator[SEP] identifier[centres] operator[SEP] identifier[index] operator[SEP] operator[SEP] identifier[id] operator[!=] identifier[setA] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[id] operator[SEP] { identifier[centres] operator[SEP] identifier[index] operator[SEP] operator[SEP] identifier[weight] operator[+=] identifier[setA] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[weight] operator[SEP] identifier[centres] operator[SEP] identifier[index] operator[SEP] operator[SEP] identifier[squareSum] operator[+=] identifier[setA] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[squareSum] operator[SEP] Keyword[int] identifier[l] operator[SEP] Keyword[for] operator[SEP] identifier[l] operator[=] Other[0] operator[SEP] identifier[l] operator[<] identifier[centres] operator[SEP] identifier[index] operator[SEP] operator[SEP] identifier[dimension] operator[SEP] identifier[l] operator[++] operator[SEP] { Keyword[if] operator[SEP] identifier[setA] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[weight] operator[!=] literal[Float] operator[SEP] { identifier[centres] operator[SEP] identifier[index] operator[SEP] operator[SEP] identifier[coordinates] operator[SEP] identifier[l] operator[SEP] operator[+=] identifier[setA] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[coordinates] operator[SEP] identifier[l] operator[SEP] operator[SEP] } } } } Keyword[else] { Keyword[int] identifier[index] operator[=] identifier[setB] operator[SEP] identifier[i] operator[-] identifier[n_1] operator[SEP] operator[SEP] identifier[centreIndex] operator[SEP] Keyword[if] operator[SEP] identifier[centres] operator[SEP] identifier[index] operator[SEP] operator[SEP] identifier[id] operator[!=] identifier[setB] operator[SEP] identifier[i] operator[-] identifier[n_1] operator[SEP] operator[SEP] identifier[id] operator[SEP] { identifier[centres] operator[SEP] identifier[index] operator[SEP] operator[SEP] identifier[weight] operator[+=] identifier[setB] operator[SEP] identifier[i] operator[-] identifier[n_1] operator[SEP] operator[SEP] identifier[weight] operator[SEP] identifier[centres] operator[SEP] identifier[index] operator[SEP] operator[SEP] identifier[squareSum] operator[+=] identifier[setB] operator[SEP] identifier[i] operator[-] identifier[n_1] operator[SEP] operator[SEP] identifier[squareSum] operator[SEP] Keyword[int] identifier[l] operator[SEP] Keyword[for] operator[SEP] identifier[l] operator[=] Other[0] operator[SEP] identifier[l] operator[<] identifier[centres] operator[SEP] identifier[index] operator[SEP] operator[SEP] identifier[dimension] operator[SEP] identifier[l] operator[++] operator[SEP] { Keyword[if] operator[SEP] identifier[setB] operator[SEP] identifier[i] operator[-] identifier[n_1] operator[SEP] operator[SEP] identifier[weight] operator[!=] literal[Float] operator[SEP] { identifier[centres] operator[SEP] identifier[index] operator[SEP] operator[SEP] identifier[coordinates] operator[SEP] identifier[l] operator[SEP] operator[+=] identifier[setB] operator[SEP] identifier[i] operator[-] identifier[n_1] operator[SEP] operator[SEP] identifier[coordinates] operator[SEP] identifier[l] operator[SEP] operator[SEP] } } } } } }
public static boolean isSystemApp(@NonNull final Context context, @NonNull final String appPackage) { try { final ApplicationInfo appInfo = context.getPackageManager().getApplicationInfo( appPackage, 0); return (appInfo.flags & ApplicationInfo.FLAG_SYSTEM) != 0 || (appInfo.flags & ApplicationInfo.FLAG_UPDATED_SYSTEM_APP) != 0; } catch (PackageManager.NameNotFoundException ignore) { // ignore } return false; }
class class_name[name] begin[{] method[isSystemApp, return_type[type[boolean]], modifier[public static], parameter[context, appPackage]] begin[{] TryStatement(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=getPackageManager, postfix_operators=[], prefix_operators=[], qualifier=context, selectors=[MethodInvocation(arguments=[MemberReference(member=appPackage, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0)], member=getApplicationInfo, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), name=appInfo)], modifiers={'final'}, type=ReferenceType(arguments=None, dimensions=[], name=ApplicationInfo, sub_type=None)), ReturnStatement(expression=BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=flags, postfix_operators=[], prefix_operators=[], qualifier=appInfo, selectors=[]), operandr=MemberReference(member=FLAG_SYSTEM, postfix_operators=[], prefix_operators=[], qualifier=ApplicationInfo, selectors=[]), operator=&), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), operator=!=), operandr=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=flags, postfix_operators=[], prefix_operators=[], qualifier=appInfo, selectors=[]), operandr=MemberReference(member=FLAG_UPDATED_SYSTEM_APP, postfix_operators=[], prefix_operators=[], qualifier=ApplicationInfo, selectors=[]), operator=&), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), operator=!=), operator=||), label=None)], catches=[CatchClause(block=[], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=ignore, types=['PackageManager.NameNotFoundException']))], finally_block=None, label=None, resources=None) return[literal[false]] end[}] END[}]
Keyword[public] Keyword[static] Keyword[boolean] identifier[isSystemApp] operator[SEP] annotation[@] identifier[NonNull] Keyword[final] identifier[Context] identifier[context] , annotation[@] identifier[NonNull] Keyword[final] identifier[String] identifier[appPackage] operator[SEP] { Keyword[try] { Keyword[final] identifier[ApplicationInfo] identifier[appInfo] operator[=] identifier[context] operator[SEP] identifier[getPackageManager] operator[SEP] operator[SEP] operator[SEP] identifier[getApplicationInfo] operator[SEP] identifier[appPackage] , Other[0] operator[SEP] operator[SEP] Keyword[return] operator[SEP] identifier[appInfo] operator[SEP] identifier[flags] operator[&] identifier[ApplicationInfo] operator[SEP] identifier[FLAG_SYSTEM] operator[SEP] operator[!=] Other[0] operator[||] operator[SEP] identifier[appInfo] operator[SEP] identifier[flags] operator[&] identifier[ApplicationInfo] operator[SEP] identifier[FLAG_UPDATED_SYSTEM_APP] operator[SEP] operator[!=] Other[0] operator[SEP] } Keyword[catch] operator[SEP] identifier[PackageManager] operator[SEP] identifier[NameNotFoundException] identifier[ignore] operator[SEP] { } Keyword[return] literal[boolean] operator[SEP] }
public void setAddress(final String address) { this.address = address == null ? null : URI.create(address); }
class class_name[name] begin[{] method[setAddress, return_type[void], modifier[public], parameter[address]] begin[{] assign[THIS[member[None.address]], TernaryExpression(condition=BinaryOperation(operandl=MemberReference(member=address, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator===), if_false=MethodInvocation(arguments=[MemberReference(member=address, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=create, postfix_operators=[], prefix_operators=[], qualifier=URI, selectors=[], type_arguments=None), if_true=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null))] end[}] END[}]
Keyword[public] Keyword[void] identifier[setAddress] operator[SEP] Keyword[final] identifier[String] identifier[address] operator[SEP] { Keyword[this] operator[SEP] identifier[address] operator[=] identifier[address] operator[==] Other[null] operator[?] Other[null] operator[:] identifier[URI] operator[SEP] identifier[create] operator[SEP] identifier[address] operator[SEP] operator[SEP] }
void removeEdgeLabel(EdgeLabel edgeLabel, boolean preserveData) { getTopology().lock(); String fn = this.name + "." + EDGE_PREFIX + edgeLabel.getName(); if (!uncommittedRemovedEdgeLabels.contains(fn)) { uncommittedRemovedEdgeLabels.add(fn); TopologyManager.removeEdgeLabel(this.sqlgGraph, edgeLabel); for (VertexLabel lbl : edgeLabel.getOutVertexLabels()) { lbl.removeOutEdge(edgeLabel); } for (VertexLabel lbl : edgeLabel.getInVertexLabels()) { lbl.removeInEdge(edgeLabel); } if (!preserveData) { edgeLabel.delete(); } getTopology().fire(edgeLabel, "", TopologyChangeAction.DELETE); } }
class class_name[name] begin[{] method[removeEdgeLabel, return_type[void], modifier[default], parameter[edgeLabel, preserveData]] begin[{] call[.getTopology, parameter[]] local_variable[type[String], fn] if[call[uncommittedRemovedEdgeLabels.contains, parameter[member[.fn]]]] begin[{] call[uncommittedRemovedEdgeLabels.add, parameter[member[.fn]]] call[TopologyManager.removeEdgeLabel, parameter[THIS[member[None.sqlgGraph]], member[.edgeLabel]]] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=edgeLabel, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=removeOutEdge, postfix_operators=[], prefix_operators=[], qualifier=lbl, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MethodInvocation(arguments=[], member=getOutVertexLabels, postfix_operators=[], prefix_operators=[], qualifier=edgeLabel, selectors=[], type_arguments=None), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=lbl)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=VertexLabel, sub_type=None))), label=None) ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=edgeLabel, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=removeInEdge, postfix_operators=[], prefix_operators=[], qualifier=lbl, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MethodInvocation(arguments=[], member=getInVertexLabels, postfix_operators=[], prefix_operators=[], qualifier=edgeLabel, selectors=[], type_arguments=None), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=lbl)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=VertexLabel, sub_type=None))), label=None) if[member[.preserveData]] begin[{] call[edgeLabel.delete, parameter[]] else begin[{] None end[}] call[.getTopology, parameter[]] else begin[{] None end[}] end[}] END[}]
Keyword[void] identifier[removeEdgeLabel] operator[SEP] identifier[EdgeLabel] identifier[edgeLabel] , Keyword[boolean] identifier[preserveData] operator[SEP] { identifier[getTopology] operator[SEP] operator[SEP] operator[SEP] identifier[lock] operator[SEP] operator[SEP] operator[SEP] identifier[String] identifier[fn] operator[=] Keyword[this] operator[SEP] identifier[name] operator[+] literal[String] operator[+] identifier[EDGE_PREFIX] operator[+] identifier[edgeLabel] operator[SEP] identifier[getName] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[uncommittedRemovedEdgeLabels] operator[SEP] identifier[contains] operator[SEP] identifier[fn] operator[SEP] operator[SEP] { identifier[uncommittedRemovedEdgeLabels] operator[SEP] identifier[add] operator[SEP] identifier[fn] operator[SEP] operator[SEP] identifier[TopologyManager] operator[SEP] identifier[removeEdgeLabel] operator[SEP] Keyword[this] operator[SEP] identifier[sqlgGraph] , identifier[edgeLabel] operator[SEP] operator[SEP] Keyword[for] operator[SEP] identifier[VertexLabel] identifier[lbl] operator[:] identifier[edgeLabel] operator[SEP] identifier[getOutVertexLabels] operator[SEP] operator[SEP] operator[SEP] { identifier[lbl] operator[SEP] identifier[removeOutEdge] operator[SEP] identifier[edgeLabel] operator[SEP] operator[SEP] } Keyword[for] operator[SEP] identifier[VertexLabel] identifier[lbl] operator[:] identifier[edgeLabel] operator[SEP] identifier[getInVertexLabels] operator[SEP] operator[SEP] operator[SEP] { identifier[lbl] operator[SEP] identifier[removeInEdge] operator[SEP] identifier[edgeLabel] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] operator[!] identifier[preserveData] operator[SEP] { identifier[edgeLabel] operator[SEP] identifier[delete] operator[SEP] operator[SEP] operator[SEP] } identifier[getTopology] operator[SEP] operator[SEP] operator[SEP] identifier[fire] operator[SEP] identifier[edgeLabel] , literal[String] , identifier[TopologyChangeAction] operator[SEP] identifier[DELETE] operator[SEP] operator[SEP] } }
@Override public LightweightTypeReference getActualType(XExpression expression) { LightweightTypeReference result = doGetActualType(expression); return toOwnedReference(result); }
class class_name[name] begin[{] method[getActualType, return_type[type[LightweightTypeReference]], modifier[public], parameter[expression]] begin[{] local_variable[type[LightweightTypeReference], result] return[call[.toOwnedReference, parameter[member[.result]]]] end[}] END[}]
annotation[@] identifier[Override] Keyword[public] identifier[LightweightTypeReference] identifier[getActualType] operator[SEP] identifier[XExpression] identifier[expression] operator[SEP] { identifier[LightweightTypeReference] identifier[result] operator[=] identifier[doGetActualType] operator[SEP] identifier[expression] operator[SEP] operator[SEP] Keyword[return] identifier[toOwnedReference] operator[SEP] identifier[result] operator[SEP] operator[SEP] }
private String ocspResponseToB64(OCSPResp ocspResp) { if (ocspResp == null) { return null; } try { return Base64.encodeBase64String(ocspResp.getEncoded()); } catch (Throwable ex) { LOGGER.debug("Could not convert OCSP Response to Base64"); return null; } }
class class_name[name] begin[{] method[ocspResponseToB64, return_type[type[String]], modifier[private], parameter[ocspResp]] begin[{] if[binary_operation[member[.ocspResp], ==, literal[null]]] begin[{] return[literal[null]] else begin[{] None end[}] TryStatement(block=[ReturnStatement(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getEncoded, postfix_operators=[], prefix_operators=[], qualifier=ocspResp, selectors=[], type_arguments=None)], member=encodeBase64String, postfix_operators=[], prefix_operators=[], qualifier=Base64, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Could not convert OCSP Response to Base64")], member=debug, postfix_operators=[], prefix_operators=[], qualifier=LOGGER, selectors=[], type_arguments=None), label=None), ReturnStatement(expression=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=ex, types=['Throwable']))], finally_block=None, label=None, resources=None) end[}] END[}]
Keyword[private] identifier[String] identifier[ocspResponseToB64] operator[SEP] identifier[OCSPResp] identifier[ocspResp] operator[SEP] { Keyword[if] operator[SEP] identifier[ocspResp] operator[==] Other[null] operator[SEP] { Keyword[return] Other[null] operator[SEP] } Keyword[try] { Keyword[return] identifier[Base64] operator[SEP] identifier[encodeBase64String] operator[SEP] identifier[ocspResp] operator[SEP] identifier[getEncoded] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[Throwable] identifier[ex] operator[SEP] { identifier[LOGGER] operator[SEP] identifier[debug] operator[SEP] literal[String] operator[SEP] operator[SEP] Keyword[return] Other[null] operator[SEP] } }
public ModelNode getConnector(String name) throws Exception { final Address address = Address.root().add(SUBSYSTEM, SUBSYSTEM_WEB, CONNECTOR, name); return readResource(address, true); }
class class_name[name] begin[{] method[getConnector, return_type[type[ModelNode]], modifier[public], parameter[name]] begin[{] local_variable[type[Address], address] return[call[.readResource, parameter[member[.address], literal[true]]]] end[}] END[}]
Keyword[public] identifier[ModelNode] identifier[getConnector] operator[SEP] identifier[String] identifier[name] operator[SEP] Keyword[throws] identifier[Exception] { Keyword[final] identifier[Address] identifier[address] operator[=] identifier[Address] operator[SEP] identifier[root] operator[SEP] operator[SEP] operator[SEP] identifier[add] operator[SEP] identifier[SUBSYSTEM] , identifier[SUBSYSTEM_WEB] , identifier[CONNECTOR] , identifier[name] operator[SEP] operator[SEP] Keyword[return] identifier[readResource] operator[SEP] identifier[address] , literal[boolean] operator[SEP] operator[SEP] }
public void setIgnoreStateErrors(boolean b) { // 311717 if (com.ibm.ejs.ras.TraceComponent.isAnyTracingEnabled()&&logger.isLoggable (Level.FINE)) //306998.15 logger.logp(Level.FINE, CLASS_NAME,"setIgnoreStateErrors", " " + String.valueOf(b),"["+this+"]"); _ignoreStateErrors = b; }
class class_name[name] begin[{] method[setIgnoreStateErrors, return_type[void], modifier[public], parameter[b]] begin[{] if[binary_operation[call[com.ibm.ejs.ras.TraceComponent.isAnyTracingEnabled, parameter[]], &&, call[logger.isLoggable, parameter[member[Level.FINE]]]]] begin[{] call[logger.logp, parameter[member[Level.FINE], member[.CLASS_NAME], literal["setIgnoreStateErrors"], binary_operation[literal[" "], +, call[String.valueOf, parameter[member[.b]]]], binary_operation[binary_operation[literal["["], +, THIS[]], +, literal["]"]]]] else begin[{] None end[}] assign[member[._ignoreStateErrors], member[.b]] end[}] END[}]
Keyword[public] Keyword[void] identifier[setIgnoreStateErrors] operator[SEP] Keyword[boolean] identifier[b] operator[SEP] { Keyword[if] operator[SEP] identifier[com] operator[SEP] identifier[ibm] operator[SEP] identifier[ejs] operator[SEP] identifier[ras] operator[SEP] identifier[TraceComponent] operator[SEP] identifier[isAnyTracingEnabled] operator[SEP] operator[SEP] operator[&&] identifier[logger] operator[SEP] identifier[isLoggable] operator[SEP] identifier[Level] operator[SEP] identifier[FINE] operator[SEP] operator[SEP] identifier[logger] operator[SEP] identifier[logp] operator[SEP] identifier[Level] operator[SEP] identifier[FINE] , identifier[CLASS_NAME] , literal[String] , literal[String] operator[+] identifier[String] operator[SEP] identifier[valueOf] operator[SEP] identifier[b] operator[SEP] , literal[String] operator[+] Keyword[this] operator[+] literal[String] operator[SEP] operator[SEP] identifier[_ignoreStateErrors] operator[=] identifier[b] operator[SEP] }
public void valueUnbound(HttpSessionBindingEvent event) { Utility.getLogger().info("Session Unbound"); if (this.getMainTask() == null) this.free(); else // Never - This would mean the session was released before the http response was sent (memory leak) Utility.getLogger().severe("Unbound error ServletApplication.valueUnbound"); }
class class_name[name] begin[{] method[valueUnbound, return_type[void], modifier[public], parameter[event]] begin[{] call[Utility.getLogger, parameter[]] if[binary_operation[THIS[call[None.getMainTask, parameter[]]], ==, literal[null]]] begin[{] THIS[call[None.free, parameter[]]] else begin[{] call[Utility.getLogger, parameter[]] end[}] end[}] END[}]
Keyword[public] Keyword[void] identifier[valueUnbound] operator[SEP] identifier[HttpSessionBindingEvent] identifier[event] operator[SEP] { identifier[Utility] operator[SEP] identifier[getLogger] operator[SEP] operator[SEP] operator[SEP] identifier[info] operator[SEP] literal[String] operator[SEP] operator[SEP] Keyword[if] operator[SEP] Keyword[this] operator[SEP] identifier[getMainTask] operator[SEP] operator[SEP] operator[==] Other[null] operator[SEP] Keyword[this] operator[SEP] identifier[free] operator[SEP] operator[SEP] operator[SEP] Keyword[else] identifier[Utility] operator[SEP] identifier[getLogger] operator[SEP] operator[SEP] operator[SEP] identifier[severe] operator[SEP] literal[String] operator[SEP] operator[SEP] }
public void marshall(Category category, ProtocolMarshaller protocolMarshaller) { if (category == null) { throw new SdkClientException("Invalid argument passed to marshall(...)"); } try { protocolMarshaller.marshall(category.getCategoryId(), CATEGORYID_BINDING); protocolMarshaller.marshall(category.getCategoryName(), CATEGORYNAME_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[category, protocolMarshaller]] begin[{] if[binary_operation[member[.category], ==, 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=getCategoryId, postfix_operators=[], prefix_operators=[], qualifier=category, selectors=[], type_arguments=None), MemberReference(member=CATEGORYID_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=getCategoryName, postfix_operators=[], prefix_operators=[], qualifier=category, selectors=[], type_arguments=None), MemberReference(member=CATEGORYNAME_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[Category] identifier[category] , identifier[ProtocolMarshaller] identifier[protocolMarshaller] operator[SEP] { Keyword[if] operator[SEP] identifier[category] 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[category] operator[SEP] identifier[getCategoryId] operator[SEP] operator[SEP] , identifier[CATEGORYID_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[category] operator[SEP] identifier[getCategoryName] operator[SEP] operator[SEP] , identifier[CATEGORYNAME_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 EEnum getIfcProfileTypeEnum() { if (ifcProfileTypeEnumEEnum == null) { ifcProfileTypeEnumEEnum = (EEnum) EPackage.Registry.INSTANCE.getEPackage(Ifc4Package.eNS_URI) .getEClassifiers().get(1037); } return ifcProfileTypeEnumEEnum; }
class class_name[name] begin[{] method[getIfcProfileTypeEnum, return_type[type[EEnum]], modifier[public], parameter[]] begin[{] if[binary_operation[member[.ifcProfileTypeEnumEEnum], ==, literal[null]]] begin[{] assign[member[.ifcProfileTypeEnumEEnum], Cast(expression=MethodInvocation(arguments=[MemberReference(member=eNS_URI, postfix_operators=[], prefix_operators=[], qualifier=Ifc4Package, selectors=[])], member=getEPackage, postfix_operators=[], prefix_operators=[], qualifier=EPackage.Registry.INSTANCE, selectors=[MethodInvocation(arguments=[], member=getEClassifiers, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1037)], member=get, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=EEnum, sub_type=None))] else begin[{] None end[}] return[member[.ifcProfileTypeEnumEEnum]] end[}] END[}]
annotation[@] identifier[Override] Keyword[public] identifier[EEnum] identifier[getIfcProfileTypeEnum] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] identifier[ifcProfileTypeEnumEEnum] operator[==] Other[null] operator[SEP] { identifier[ifcProfileTypeEnumEEnum] operator[=] operator[SEP] identifier[EEnum] operator[SEP] identifier[EPackage] operator[SEP] identifier[Registry] operator[SEP] identifier[INSTANCE] operator[SEP] identifier[getEPackage] operator[SEP] identifier[Ifc4Package] operator[SEP] identifier[eNS_URI] operator[SEP] operator[SEP] identifier[getEClassifiers] operator[SEP] operator[SEP] operator[SEP] identifier[get] operator[SEP] Other[1037] operator[SEP] operator[SEP] } Keyword[return] identifier[ifcProfileTypeEnumEEnum] operator[SEP] }
public static Map<String, String> readValues(String keyName) throws RegistryException { try (Key key = Key.open(keyName, KEY_READ)) { int[] info = invoke(Methods.REG_QUERY_INFO_KEY.get(), key.id); checkError(info[InfoIndex.INFO_ERROR_CODE.get()]); int count = info[InfoIndex.INFO_COUNT_VALUES.get()]; int maxLength = info[InfoIndex.INFO_MAX_VALUE_LENGTH.get()] + 1; Map<String, String> values = new HashMap<>(); for (int i = 0; i < count; i++) { String valueName = fromByteArray(invoke(Methods.REG_ENUM_VALUE.get(), key.id, i, maxLength)); values.put(valueName, readValue(keyName, valueName)); } return values; } }
class class_name[name] begin[{] method[readValues, return_type[type[Map]], modifier[public static], parameter[keyName]] begin[{] TryStatement(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=get, postfix_operators=[], prefix_operators=[], qualifier=Methods.REG_QUERY_INFO_KEY, selectors=[], type_arguments=None), MemberReference(member=id, postfix_operators=[], prefix_operators=[], qualifier=key, selectors=[])], member=invoke, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), name=info)], modifiers=set(), type=BasicType(dimensions=[None], name=int)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=info, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MethodInvocation(arguments=[], member=get, postfix_operators=[], prefix_operators=[], qualifier=InfoIndex.INFO_ERROR_CODE, selectors=[], type_arguments=None))])], member=checkError, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=info, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MethodInvocation(arguments=[], member=get, postfix_operators=[], prefix_operators=[], qualifier=InfoIndex.INFO_COUNT_VALUES, selectors=[], type_arguments=None))]), name=count)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=info, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MethodInvocation(arguments=[], member=get, postfix_operators=[], prefix_operators=[], qualifier=InfoIndex.INFO_MAX_VALUE_LENGTH, selectors=[], type_arguments=None))]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=+), name=maxLength)], modifiers=set(), type=BasicType(dimensions=[], name=int)), 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=HashMap, sub_type=None)), name=values)], modifiers=set(), 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=String, sub_type=None))], dimensions=[], name=Map, sub_type=None)), ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MethodInvocation(arguments=[MethodInvocation(arguments=[], member=get, postfix_operators=[], prefix_operators=[], qualifier=Methods.REG_ENUM_VALUE, selectors=[], type_arguments=None), MemberReference(member=id, postfix_operators=[], prefix_operators=[], qualifier=key, selectors=[]), MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=maxLength, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=invoke, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)], member=fromByteArray, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), name=valueName)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=valueName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MethodInvocation(arguments=[MemberReference(member=keyName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=valueName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=readValue, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)], member=put, postfix_operators=[], prefix_operators=[], qualifier=values, selectors=[], type_arguments=None), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=count, 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), ReturnStatement(expression=MemberReference(member=values, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), label=None)], catches=None, finally_block=None, label=None, resources=[TryResource(annotations=[], modifiers=set(), name=key, type=ReferenceType(arguments=None, dimensions=[], name=Key, sub_type=None), value=MethodInvocation(arguments=[MemberReference(member=keyName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=KEY_READ, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=open, postfix_operators=[], prefix_operators=[], qualifier=Key, selectors=[], type_arguments=None))]) end[}] END[}]
Keyword[public] Keyword[static] identifier[Map] operator[<] identifier[String] , identifier[String] operator[>] identifier[readValues] operator[SEP] identifier[String] identifier[keyName] operator[SEP] Keyword[throws] identifier[RegistryException] { Keyword[try] operator[SEP] identifier[Key] identifier[key] operator[=] identifier[Key] operator[SEP] identifier[open] operator[SEP] identifier[keyName] , identifier[KEY_READ] operator[SEP] operator[SEP] { Keyword[int] operator[SEP] operator[SEP] identifier[info] operator[=] identifier[invoke] operator[SEP] identifier[Methods] operator[SEP] identifier[REG_QUERY_INFO_KEY] operator[SEP] identifier[get] operator[SEP] operator[SEP] , identifier[key] operator[SEP] identifier[id] operator[SEP] operator[SEP] identifier[checkError] operator[SEP] identifier[info] operator[SEP] identifier[InfoIndex] operator[SEP] identifier[INFO_ERROR_CODE] operator[SEP] identifier[get] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[int] identifier[count] operator[=] identifier[info] operator[SEP] identifier[InfoIndex] operator[SEP] identifier[INFO_COUNT_VALUES] operator[SEP] identifier[get] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[int] identifier[maxLength] operator[=] identifier[info] operator[SEP] identifier[InfoIndex] operator[SEP] identifier[INFO_MAX_VALUE_LENGTH] operator[SEP] identifier[get] operator[SEP] operator[SEP] operator[SEP] operator[+] Other[1] operator[SEP] identifier[Map] operator[<] identifier[String] , identifier[String] operator[>] identifier[values] operator[=] Keyword[new] identifier[HashMap] operator[<] operator[>] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[count] operator[SEP] identifier[i] operator[++] operator[SEP] { identifier[String] identifier[valueName] operator[=] identifier[fromByteArray] operator[SEP] identifier[invoke] operator[SEP] identifier[Methods] operator[SEP] identifier[REG_ENUM_VALUE] operator[SEP] identifier[get] operator[SEP] operator[SEP] , identifier[key] operator[SEP] identifier[id] , identifier[i] , identifier[maxLength] operator[SEP] operator[SEP] operator[SEP] identifier[values] operator[SEP] identifier[put] operator[SEP] identifier[valueName] , identifier[readValue] operator[SEP] identifier[keyName] , identifier[valueName] operator[SEP] operator[SEP] operator[SEP] } Keyword[return] identifier[values] operator[SEP] } }
private CumulativeTrainee getCumulativeTrainee( BudgetSummaryDto budgetSummaryData) { CumulativeTrainee cumulativeTrainee = CumulativeTrainee.Factory .newInstance(); cumulativeTrainee .setCumulativeTotalFundsRequestedTraineeCosts(BigDecimal.ZERO); if (budgetSummaryData != null) { cumulativeTrainee .setCumulativeTotalFundsRequestedTraineeCosts(budgetSummaryData .getpartOtherCost() .add( budgetSummaryData .getpartStipendCost() .add( budgetSummaryData .getpartTravelCost() .add( budgetSummaryData .getPartTuition() .add( budgetSummaryData .getPartSubsistence())))) .bigDecimalValue()); cumulativeTrainee .setCumulativeTraineeTuitionFeesHealthInsurance(budgetSummaryData .getPartTuition().bigDecimalValue()); cumulativeTrainee.setCumulativeTraineeStipends(budgetSummaryData .getpartStipendCost().bigDecimalValue()); cumulativeTrainee.setCumulativeTraineeTravel(budgetSummaryData .getpartTravelCost().bigDecimalValue()); cumulativeTrainee.setCumulativeTraineeSubsistence(budgetSummaryData .getPartSubsistence().bigDecimalValue()); cumulativeTrainee.setCumulativeOtherTraineeCost(budgetSummaryData .getpartOtherCost().bigDecimalValue()); cumulativeTrainee.setCumulativeNoofTrainees(budgetSummaryData .getparticipantCount()); } return cumulativeTrainee; }
class class_name[name] begin[{] method[getCumulativeTrainee, return_type[type[CumulativeTrainee]], modifier[private], parameter[budgetSummaryData]] begin[{] local_variable[type[CumulativeTrainee], cumulativeTrainee] call[cumulativeTrainee.setCumulativeTotalFundsRequestedTraineeCosts, parameter[member[BigDecimal.ZERO]]] if[binary_operation[member[.budgetSummaryData], !=, literal[null]]] begin[{] call[cumulativeTrainee.setCumulativeTotalFundsRequestedTraineeCosts, parameter[call[budgetSummaryData.getpartOtherCost, parameter[]]]] call[cumulativeTrainee.setCumulativeTraineeTuitionFeesHealthInsurance, parameter[call[budgetSummaryData.getPartTuition, parameter[]]]] call[cumulativeTrainee.setCumulativeTraineeStipends, parameter[call[budgetSummaryData.getpartStipendCost, parameter[]]]] call[cumulativeTrainee.setCumulativeTraineeTravel, parameter[call[budgetSummaryData.getpartTravelCost, parameter[]]]] call[cumulativeTrainee.setCumulativeTraineeSubsistence, parameter[call[budgetSummaryData.getPartSubsistence, parameter[]]]] call[cumulativeTrainee.setCumulativeOtherTraineeCost, parameter[call[budgetSummaryData.getpartOtherCost, parameter[]]]] call[cumulativeTrainee.setCumulativeNoofTrainees, parameter[call[budgetSummaryData.getparticipantCount, parameter[]]]] else begin[{] None end[}] return[member[.cumulativeTrainee]] end[}] END[}]
Keyword[private] identifier[CumulativeTrainee] identifier[getCumulativeTrainee] operator[SEP] identifier[BudgetSummaryDto] identifier[budgetSummaryData] operator[SEP] { identifier[CumulativeTrainee] identifier[cumulativeTrainee] operator[=] identifier[CumulativeTrainee] operator[SEP] identifier[Factory] operator[SEP] identifier[newInstance] operator[SEP] operator[SEP] operator[SEP] identifier[cumulativeTrainee] operator[SEP] identifier[setCumulativeTotalFundsRequestedTraineeCosts] operator[SEP] identifier[BigDecimal] operator[SEP] identifier[ZERO] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[budgetSummaryData] operator[!=] Other[null] operator[SEP] { identifier[cumulativeTrainee] operator[SEP] identifier[setCumulativeTotalFundsRequestedTraineeCosts] operator[SEP] identifier[budgetSummaryData] operator[SEP] identifier[getpartOtherCost] operator[SEP] operator[SEP] operator[SEP] identifier[add] operator[SEP] identifier[budgetSummaryData] operator[SEP] identifier[getpartStipendCost] operator[SEP] operator[SEP] operator[SEP] identifier[add] operator[SEP] identifier[budgetSummaryData] operator[SEP] identifier[getpartTravelCost] operator[SEP] operator[SEP] operator[SEP] identifier[add] operator[SEP] identifier[budgetSummaryData] operator[SEP] identifier[getPartTuition] operator[SEP] operator[SEP] operator[SEP] identifier[add] operator[SEP] identifier[budgetSummaryData] operator[SEP] identifier[getPartSubsistence] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[bigDecimalValue] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[cumulativeTrainee] operator[SEP] identifier[setCumulativeTraineeTuitionFeesHealthInsurance] operator[SEP] identifier[budgetSummaryData] operator[SEP] identifier[getPartTuition] operator[SEP] operator[SEP] operator[SEP] identifier[bigDecimalValue] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[cumulativeTrainee] operator[SEP] identifier[setCumulativeTraineeStipends] operator[SEP] identifier[budgetSummaryData] operator[SEP] identifier[getpartStipendCost] operator[SEP] operator[SEP] operator[SEP] identifier[bigDecimalValue] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[cumulativeTrainee] operator[SEP] identifier[setCumulativeTraineeTravel] operator[SEP] identifier[budgetSummaryData] operator[SEP] identifier[getpartTravelCost] operator[SEP] operator[SEP] operator[SEP] identifier[bigDecimalValue] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[cumulativeTrainee] operator[SEP] identifier[setCumulativeTraineeSubsistence] operator[SEP] identifier[budgetSummaryData] operator[SEP] identifier[getPartSubsistence] operator[SEP] operator[SEP] operator[SEP] identifier[bigDecimalValue] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[cumulativeTrainee] operator[SEP] identifier[setCumulativeOtherTraineeCost] operator[SEP] identifier[budgetSummaryData] operator[SEP] identifier[getpartOtherCost] operator[SEP] operator[SEP] operator[SEP] identifier[bigDecimalValue] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[cumulativeTrainee] operator[SEP] identifier[setCumulativeNoofTrainees] operator[SEP] identifier[budgetSummaryData] operator[SEP] identifier[getparticipantCount] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[return] identifier[cumulativeTrainee] operator[SEP] }
private void flush(FlinkKafkaProducer.KafkaTransactionState transaction) throws FlinkKafkaException { if (transaction.producer != null) { transaction.producer.flush(); } long pendingRecordsCount = pendingRecords.get(); if (pendingRecordsCount != 0) { throw new IllegalStateException("Pending record count must be zero at this point: " + pendingRecordsCount); } // if the flushed requests has errors, we should propagate it also and fail the checkpoint checkErroneous(); }
class class_name[name] begin[{] method[flush, return_type[void], modifier[private], parameter[transaction]] begin[{] if[binary_operation[member[transaction.producer], !=, literal[null]]] begin[{] call[transaction.producer.flush, parameter[]] else begin[{] None end[}] local_variable[type[long], pendingRecordsCount] if[binary_operation[member[.pendingRecordsCount], !=, literal[0]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Pending record count must be zero at this point: "), operandr=MemberReference(member=pendingRecordsCount, 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[}] call[.checkErroneous, parameter[]] end[}] END[}]
Keyword[private] Keyword[void] identifier[flush] operator[SEP] identifier[FlinkKafkaProducer] operator[SEP] identifier[KafkaTransactionState] identifier[transaction] operator[SEP] Keyword[throws] identifier[FlinkKafkaException] { Keyword[if] operator[SEP] identifier[transaction] operator[SEP] identifier[producer] operator[!=] Other[null] operator[SEP] { identifier[transaction] operator[SEP] identifier[producer] operator[SEP] identifier[flush] operator[SEP] operator[SEP] operator[SEP] } Keyword[long] identifier[pendingRecordsCount] operator[=] identifier[pendingRecords] operator[SEP] identifier[get] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[pendingRecordsCount] operator[!=] Other[0] operator[SEP] { Keyword[throw] Keyword[new] identifier[IllegalStateException] operator[SEP] literal[String] operator[+] identifier[pendingRecordsCount] operator[SEP] operator[SEP] } identifier[checkErroneous] operator[SEP] operator[SEP] operator[SEP] }
private static Executable locateFirefoxBinaryFromSystemProperty() { String binaryName = System.getProperty(FirefoxDriver.SystemProperty.BROWSER_BINARY); if (binaryName == null) return null; File binary = new File(binaryName); if (binary.exists() && !binary.isDirectory()) return new Executable(binary); Platform current = Platform.getCurrent(); if (current.is(WINDOWS)) { if (!binaryName.endsWith(".exe")) { binaryName += ".exe"; } } else if (current.is(MAC)) { if (!binaryName.endsWith(".app")) { binaryName += ".app"; } binaryName += "/Contents/MacOS/firefox-bin"; } binary = new File(binaryName); if (binary.exists()) return new Executable(binary); throw new WebDriverException( String.format("'%s' property set, but unable to locate the requested binary: %s", FirefoxDriver.SystemProperty.BROWSER_BINARY, binaryName)); }
class class_name[name] begin[{] method[locateFirefoxBinaryFromSystemProperty, return_type[type[Executable]], modifier[private static], parameter[]] begin[{] local_variable[type[String], binaryName] if[binary_operation[member[.binaryName], ==, literal[null]]] begin[{] return[literal[null]] else begin[{] None end[}] local_variable[type[File], binary] if[binary_operation[call[binary.exists, parameter[]], &&, call[binary.isDirectory, parameter[]]]] begin[{] return[ClassCreator(arguments=[MemberReference(member=binary, 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=Executable, sub_type=None))] else begin[{] None end[}] local_variable[type[Platform], current] if[call[current.is, parameter[member[.WINDOWS]]]] begin[{] if[call[binaryName.endsWith, parameter[literal[".exe"]]]] begin[{] assign[member[.binaryName], literal[".exe"]] else begin[{] None end[}] else begin[{] if[call[current.is, parameter[member[.MAC]]]] begin[{] if[call[binaryName.endsWith, parameter[literal[".app"]]]] begin[{] assign[member[.binaryName], literal[".app"]] else begin[{] None end[}] assign[member[.binaryName], literal["/Contents/MacOS/firefox-bin"]] else begin[{] None end[}] end[}] assign[member[.binary], ClassCreator(arguments=[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=File, sub_type=None))] if[call[binary.exists, parameter[]]] begin[{] return[ClassCreator(arguments=[MemberReference(member=binary, 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=Executable, sub_type=None))] else begin[{] None end[}] ThrowStatement(expression=ClassCreator(arguments=[MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="'%s' property set, but unable to locate the requested binary: %s"), MemberReference(member=BROWSER_BINARY, postfix_operators=[], prefix_operators=[], qualifier=FirefoxDriver.SystemProperty, selectors=[]), MemberReference(member=binaryName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=format, postfix_operators=[], prefix_operators=[], qualifier=String, selectors=[], type_arguments=None)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=WebDriverException, sub_type=None)), label=None) end[}] END[}]
Keyword[private] Keyword[static] identifier[Executable] identifier[locateFirefoxBinaryFromSystemProperty] operator[SEP] operator[SEP] { identifier[String] identifier[binaryName] operator[=] identifier[System] operator[SEP] identifier[getProperty] operator[SEP] identifier[FirefoxDriver] operator[SEP] identifier[SystemProperty] operator[SEP] identifier[BROWSER_BINARY] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[binaryName] operator[==] Other[null] operator[SEP] Keyword[return] Other[null] operator[SEP] identifier[File] identifier[binary] operator[=] Keyword[new] identifier[File] operator[SEP] identifier[binaryName] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[binary] operator[SEP] identifier[exists] operator[SEP] operator[SEP] operator[&&] operator[!] identifier[binary] operator[SEP] identifier[isDirectory] operator[SEP] operator[SEP] operator[SEP] Keyword[return] Keyword[new] identifier[Executable] operator[SEP] identifier[binary] operator[SEP] operator[SEP] identifier[Platform] identifier[current] operator[=] identifier[Platform] operator[SEP] identifier[getCurrent] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[current] operator[SEP] identifier[is] operator[SEP] identifier[WINDOWS] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] operator[!] identifier[binaryName] operator[SEP] identifier[endsWith] operator[SEP] literal[String] operator[SEP] operator[SEP] { identifier[binaryName] operator[+=] literal[String] operator[SEP] } } Keyword[else] Keyword[if] operator[SEP] identifier[current] operator[SEP] identifier[is] operator[SEP] identifier[MAC] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] operator[!] identifier[binaryName] operator[SEP] identifier[endsWith] operator[SEP] literal[String] operator[SEP] operator[SEP] { identifier[binaryName] operator[+=] literal[String] operator[SEP] } identifier[binaryName] operator[+=] literal[String] operator[SEP] } identifier[binary] operator[=] Keyword[new] identifier[File] operator[SEP] identifier[binaryName] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[binary] operator[SEP] identifier[exists] operator[SEP] operator[SEP] operator[SEP] Keyword[return] Keyword[new] identifier[Executable] operator[SEP] identifier[binary] operator[SEP] operator[SEP] Keyword[throw] Keyword[new] identifier[WebDriverException] operator[SEP] identifier[String] operator[SEP] identifier[format] operator[SEP] literal[String] , identifier[FirefoxDriver] operator[SEP] identifier[SystemProperty] operator[SEP] identifier[BROWSER_BINARY] , identifier[binaryName] operator[SEP] operator[SEP] operator[SEP] }
protected boolean prepHolderForAnimateMove(final H holder, int fromX, int fromY, int toX, int toY) { final View view = holder.itemView; int deltaX = toX - fromX; int deltaY = toY - fromY; if (deltaX == 0 && deltaY == 0) { dispatchMoveFinished(holder); return false; } if (deltaX != 0) { ViewCompat.setTranslationX(view, -deltaX); } if (deltaY != 0) { ViewCompat.setTranslationY(view, -deltaY); } return true; }
class class_name[name] begin[{] method[prepHolderForAnimateMove, return_type[type[boolean]], modifier[protected], parameter[holder, fromX, fromY, toX, toY]] begin[{] local_variable[type[View], view] local_variable[type[int], deltaX] local_variable[type[int], deltaY] if[binary_operation[binary_operation[member[.deltaX], ==, literal[0]], &&, binary_operation[member[.deltaY], ==, literal[0]]]] begin[{] call[.dispatchMoveFinished, parameter[member[.holder]]] return[literal[false]] else begin[{] None end[}] if[binary_operation[member[.deltaX], !=, literal[0]]] begin[{] call[ViewCompat.setTranslationX, parameter[member[.view], member[.deltaX]]] else begin[{] None end[}] if[binary_operation[member[.deltaY], !=, literal[0]]] begin[{] call[ViewCompat.setTranslationY, parameter[member[.view], member[.deltaY]]] else begin[{] None end[}] return[literal[true]] end[}] END[}]
Keyword[protected] Keyword[boolean] identifier[prepHolderForAnimateMove] operator[SEP] Keyword[final] identifier[H] identifier[holder] , Keyword[int] identifier[fromX] , Keyword[int] identifier[fromY] , Keyword[int] identifier[toX] , Keyword[int] identifier[toY] operator[SEP] { Keyword[final] identifier[View] identifier[view] operator[=] identifier[holder] operator[SEP] identifier[itemView] operator[SEP] Keyword[int] identifier[deltaX] operator[=] identifier[toX] operator[-] identifier[fromX] operator[SEP] Keyword[int] identifier[deltaY] operator[=] identifier[toY] operator[-] identifier[fromY] operator[SEP] Keyword[if] operator[SEP] identifier[deltaX] operator[==] Other[0] operator[&&] identifier[deltaY] operator[==] Other[0] operator[SEP] { identifier[dispatchMoveFinished] operator[SEP] identifier[holder] operator[SEP] operator[SEP] Keyword[return] literal[boolean] operator[SEP] } Keyword[if] operator[SEP] identifier[deltaX] operator[!=] Other[0] operator[SEP] { identifier[ViewCompat] operator[SEP] identifier[setTranslationX] operator[SEP] identifier[view] , operator[-] identifier[deltaX] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[deltaY] operator[!=] Other[0] operator[SEP] { identifier[ViewCompat] operator[SEP] identifier[setTranslationY] operator[SEP] identifier[view] , operator[-] identifier[deltaY] operator[SEP] operator[SEP] } Keyword[return] literal[boolean] operator[SEP] }
public boolean hasField(final FieldDescriptorType descriptor) { if (descriptor.isRepeated()) { throw new IllegalArgumentException( "hasField() can only be called on non-repeated fields."); } return fields.get(descriptor) != null; }
class class_name[name] begin[{] method[hasField, return_type[type[boolean]], modifier[public], parameter[descriptor]] begin[{] if[call[descriptor.isRepeated, parameter[]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="hasField() can only be called on non-repeated fields.")], 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[binary_operation[call[fields.get, parameter[member[.descriptor]]], !=, literal[null]]] end[}] END[}]
Keyword[public] Keyword[boolean] identifier[hasField] operator[SEP] Keyword[final] identifier[FieldDescriptorType] identifier[descriptor] operator[SEP] { Keyword[if] operator[SEP] identifier[descriptor] operator[SEP] identifier[isRepeated] operator[SEP] operator[SEP] operator[SEP] { Keyword[throw] Keyword[new] identifier[IllegalArgumentException] operator[SEP] literal[String] operator[SEP] operator[SEP] } Keyword[return] identifier[fields] operator[SEP] identifier[get] operator[SEP] identifier[descriptor] operator[SEP] operator[!=] Other[null] operator[SEP] }
public static ResourceMeta withStream(final HasInputStream stream, final Map<String, String> meta) { return new BaseStreamResource(meta,stream); }
class class_name[name] begin[{] method[withStream, return_type[type[ResourceMeta]], modifier[public static], parameter[stream, meta]] begin[{] return[ClassCreator(arguments=[MemberReference(member=meta, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=stream, 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=BaseStreamResource, sub_type=None))] end[}] END[}]
Keyword[public] Keyword[static] identifier[ResourceMeta] identifier[withStream] operator[SEP] Keyword[final] identifier[HasInputStream] identifier[stream] , Keyword[final] identifier[Map] operator[<] identifier[String] , identifier[String] operator[>] identifier[meta] operator[SEP] { Keyword[return] Keyword[new] identifier[BaseStreamResource] operator[SEP] identifier[meta] , identifier[stream] operator[SEP] operator[SEP] }
public static String publicKeyEncrypt(String key, String plainText) throws NoSuchAlgorithmException, InvalidKeySpecException, NoSuchPaddingException, InvalidKeyException, BadPaddingException, IllegalBlockSizeException, UnsupportedEncodingException { PublicKey publicKey = commonGetPublickeyByText(key); Cipher cipher = Cipher.getInstance(RSA); cipher.init(Cipher.ENCRYPT_MODE, publicKey); byte [] result = cipher.doFinal(plainText.getBytes(Charset.UTF_8)); return Base64.byteArrayToBase64(result); }
class class_name[name] begin[{] method[publicKeyEncrypt, return_type[type[String]], modifier[public static], parameter[key, plainText]] begin[{] local_variable[type[PublicKey], publicKey] local_variable[type[Cipher], cipher] call[cipher.init, parameter[member[Cipher.ENCRYPT_MODE], member[.publicKey]]] local_variable[type[byte], result] return[call[Base64.byteArrayToBase64, parameter[member[.result]]]] end[}] END[}]
Keyword[public] Keyword[static] identifier[String] identifier[publicKeyEncrypt] operator[SEP] identifier[String] identifier[key] , identifier[String] identifier[plainText] operator[SEP] Keyword[throws] identifier[NoSuchAlgorithmException] , identifier[InvalidKeySpecException] , identifier[NoSuchPaddingException] , identifier[InvalidKeyException] , identifier[BadPaddingException] , identifier[IllegalBlockSizeException] , identifier[UnsupportedEncodingException] { identifier[PublicKey] identifier[publicKey] operator[=] identifier[commonGetPublickeyByText] operator[SEP] identifier[key] operator[SEP] operator[SEP] identifier[Cipher] identifier[cipher] operator[=] identifier[Cipher] operator[SEP] identifier[getInstance] operator[SEP] identifier[RSA] operator[SEP] operator[SEP] identifier[cipher] operator[SEP] identifier[init] operator[SEP] identifier[Cipher] operator[SEP] identifier[ENCRYPT_MODE] , identifier[publicKey] operator[SEP] operator[SEP] Keyword[byte] operator[SEP] operator[SEP] identifier[result] operator[=] identifier[cipher] operator[SEP] identifier[doFinal] operator[SEP] identifier[plainText] operator[SEP] identifier[getBytes] operator[SEP] identifier[Charset] operator[SEP] identifier[UTF_8] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[Base64] operator[SEP] identifier[byteArrayToBase64] operator[SEP] identifier[result] operator[SEP] operator[SEP] }
private static void ensureReadWrite(IFile file) throws CoreException { /* * fix for bug 1683264: we should checkout file before writing to it */ if (file.isReadOnly()) { IStatus checkOutStatus = ResourcesPlugin.getWorkspace().validateEdit(new IFile[] { file }, null); if (!checkOutStatus.isOK()) { throw new CoreException(checkOutStatus); } } }
class class_name[name] begin[{] method[ensureReadWrite, return_type[void], modifier[private static], parameter[file]] begin[{] if[call[file.isReadOnly, parameter[]]] begin[{] local_variable[type[IStatus], checkOutStatus] if[call[checkOutStatus.isOK, parameter[]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[MemberReference(member=checkOutStatus, 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=CoreException, sub_type=None)), label=None) else begin[{] None end[}] else begin[{] None end[}] end[}] END[}]
Keyword[private] Keyword[static] Keyword[void] identifier[ensureReadWrite] operator[SEP] identifier[IFile] identifier[file] operator[SEP] Keyword[throws] identifier[CoreException] { Keyword[if] operator[SEP] identifier[file] operator[SEP] identifier[isReadOnly] operator[SEP] operator[SEP] operator[SEP] { identifier[IStatus] identifier[checkOutStatus] operator[=] identifier[ResourcesPlugin] operator[SEP] identifier[getWorkspace] operator[SEP] operator[SEP] operator[SEP] identifier[validateEdit] operator[SEP] Keyword[new] identifier[IFile] operator[SEP] operator[SEP] { identifier[file] } , Other[null] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[checkOutStatus] operator[SEP] identifier[isOK] operator[SEP] operator[SEP] operator[SEP] { Keyword[throw] Keyword[new] identifier[CoreException] operator[SEP] identifier[checkOutStatus] operator[SEP] operator[SEP] } } }
@Override protected final char[] escape(int cp) { if (cp < replacementsLength) { char[] chars = replacements[cp]; if (chars != null) { return chars; } } if (cp >= safeMin && cp <= safeMax) { return null; } return escapeUnsafe(cp); }
class class_name[name] begin[{] method[escape, return_type[type[char]], modifier[final protected], parameter[cp]] begin[{] if[binary_operation[member[.cp], <, member[.replacementsLength]]] begin[{] local_variable[type[char], chars] if[binary_operation[member[.chars], !=, literal[null]]] begin[{] return[member[.chars]] else begin[{] None end[}] else begin[{] None end[}] if[binary_operation[binary_operation[member[.cp], >=, member[.safeMin]], &&, binary_operation[member[.cp], <=, member[.safeMax]]]] begin[{] return[literal[null]] else begin[{] None end[}] return[call[.escapeUnsafe, parameter[member[.cp]]]] end[}] END[}]
annotation[@] identifier[Override] Keyword[protected] Keyword[final] Keyword[char] operator[SEP] operator[SEP] identifier[escape] operator[SEP] Keyword[int] identifier[cp] operator[SEP] { Keyword[if] operator[SEP] identifier[cp] operator[<] identifier[replacementsLength] operator[SEP] { Keyword[char] operator[SEP] operator[SEP] identifier[chars] operator[=] identifier[replacements] operator[SEP] identifier[cp] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[chars] operator[!=] Other[null] operator[SEP] { Keyword[return] identifier[chars] operator[SEP] } } Keyword[if] operator[SEP] identifier[cp] operator[>=] identifier[safeMin] operator[&&] identifier[cp] operator[<=] identifier[safeMax] operator[SEP] { Keyword[return] Other[null] operator[SEP] } Keyword[return] identifier[escapeUnsafe] operator[SEP] identifier[cp] operator[SEP] operator[SEP] }
public OETLProcessor parse(final Collection<ODocument> iBeginBlocks, final ODocument iSource, final ODocument iExtractor, final Collection<ODocument> iTransformers, final ODocument iLoader, final Collection<ODocument> iEndBlocks, final OCommandContext iContext) { if (iExtractor == null) throw new IllegalArgumentException("No Extractor configured"); context = iContext != null ? iContext : createDefaultContext(); init(); try { String name; // BEGIN BLOCKS beginBlocks = new ArrayList<OBlock>(); if (iBeginBlocks != null) for (ODocument block : iBeginBlocks) { name = block.fieldNames()[0]; final OBlock b = factory.getBlock(name); beginBlocks.add(b); configureComponent(b, (ODocument) block.field(name), iContext); } if (iSource != null) { // SOURCE name = iSource.fieldNames()[0]; source = factory.getSource(name); configureComponent(source, (ODocument) iSource.field(name), iContext); } else source = factory.getSource("input"); // EXTRACTOR name = iExtractor.fieldNames()[0]; extractor = factory.getExtractor(name); configureComponent(extractor, (ODocument) iExtractor.field(name), iContext); if (iLoader != null) { // LOADER name = iLoader.fieldNames()[0]; loader = factory.getLoader(name); configureComponent(loader, (ODocument) iLoader.field(name), iContext); } else loader = factory.getLoader("output"); // TRANSFORMERS transformers = new ArrayList<OTransformer>(); if (iTransformers != null) for (ODocument t : iTransformers) { name = t.fieldNames()[0]; final OTransformer tr = factory.getTransformer(name); transformers.add(tr); configureComponent(tr, (ODocument) t.field(name), iContext); } // END BLOCKS endBlocks = new ArrayList<OBlock>(); if (iEndBlocks != null) for (ODocument block : iEndBlocks) { name = block.fieldNames()[0]; final OBlock b = factory.getBlock(name); endBlocks.add(b); configureComponent(b, (ODocument) block.field(name), iContext); } // analyzeFlow(); } catch (Exception e) { throw new OConfigurationException("Error on creating ETL processor", e); } return this; }
class class_name[name] begin[{] method[parse, return_type[type[OETLProcessor]], modifier[public], parameter[iBeginBlocks, iSource, iExtractor, iTransformers, iLoader, iEndBlocks, iContext]] begin[{] if[binary_operation[member[.iExtractor], ==, literal[null]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="No Extractor configured")], 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[}] assign[member[.context], TernaryExpression(condition=BinaryOperation(operandl=MemberReference(member=iContext, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator=!=), if_false=MethodInvocation(arguments=[], member=createDefaultContext, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), if_true=MemberReference(member=iContext, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))] call[.init, parameter[]] TryStatement(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=None, name=name)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), StatementExpression(expression=Assignment(expressionl=MemberReference(member=beginBlocks, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=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=OBlock, sub_type=None))], dimensions=None, name=ArrayList, sub_type=None))), label=None), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=iBeginBlocks, 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=ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=fieldNames, postfix_operators=[], prefix_operators=[], qualifier=block, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0))], type_arguments=None)), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getBlock, postfix_operators=[], prefix_operators=[], qualifier=factory, selectors=[], type_arguments=None), name=b)], modifiers={'final'}, type=ReferenceType(arguments=None, dimensions=[], name=OBlock, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=b, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=add, postfix_operators=[], prefix_operators=[], qualifier=beginBlocks, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=b, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Cast(expression=MethodInvocation(arguments=[MemberReference(member=name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=field, postfix_operators=[], prefix_operators=[], qualifier=block, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=ODocument, sub_type=None)), MemberReference(member=iContext, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=configureComponent, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MemberReference(member=iBeginBlocks, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=block)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=ODocument, sub_type=None))), label=None)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=iSource, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator=!=), else_statement=StatementExpression(expression=Assignment(expressionl=MemberReference(member=source, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="input")], member=getSource, postfix_operators=[], prefix_operators=[], qualifier=factory, selectors=[], type_arguments=None)), label=None), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=fieldNames, postfix_operators=[], prefix_operators=[], qualifier=iSource, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0))], type_arguments=None)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=source, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[MemberReference(member=name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getSource, postfix_operators=[], prefix_operators=[], qualifier=factory, selectors=[], type_arguments=None)), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=source, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Cast(expression=MethodInvocation(arguments=[MemberReference(member=name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=field, postfix_operators=[], prefix_operators=[], qualifier=iSource, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=ODocument, sub_type=None)), MemberReference(member=iContext, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=configureComponent, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)])), StatementExpression(expression=Assignment(expressionl=MemberReference(member=name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=fieldNames, postfix_operators=[], prefix_operators=[], qualifier=iExtractor, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0))], type_arguments=None)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=extractor, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[MemberReference(member=name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getExtractor, postfix_operators=[], prefix_operators=[], qualifier=factory, selectors=[], type_arguments=None)), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=extractor, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Cast(expression=MethodInvocation(arguments=[MemberReference(member=name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=field, postfix_operators=[], prefix_operators=[], qualifier=iExtractor, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=ODocument, sub_type=None)), MemberReference(member=iContext, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=configureComponent, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=iLoader, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator=!=), else_statement=StatementExpression(expression=Assignment(expressionl=MemberReference(member=loader, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="output")], member=getLoader, postfix_operators=[], prefix_operators=[], qualifier=factory, selectors=[], type_arguments=None)), label=None), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=fieldNames, postfix_operators=[], prefix_operators=[], qualifier=iLoader, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0))], type_arguments=None)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=loader, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[MemberReference(member=name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getLoader, postfix_operators=[], prefix_operators=[], qualifier=factory, selectors=[], type_arguments=None)), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=loader, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Cast(expression=MethodInvocation(arguments=[MemberReference(member=name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=field, postfix_operators=[], prefix_operators=[], qualifier=iLoader, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=ODocument, sub_type=None)), MemberReference(member=iContext, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=configureComponent, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)])), StatementExpression(expression=Assignment(expressionl=MemberReference(member=transformers, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=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=OTransformer, sub_type=None))], dimensions=None, name=ArrayList, sub_type=None))), label=None), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=iTransformers, 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=ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=fieldNames, postfix_operators=[], prefix_operators=[], qualifier=t, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0))], type_arguments=None)), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getTransformer, postfix_operators=[], prefix_operators=[], qualifier=factory, selectors=[], type_arguments=None), name=tr)], modifiers={'final'}, type=ReferenceType(arguments=None, dimensions=[], name=OTransformer, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=tr, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=add, postfix_operators=[], prefix_operators=[], qualifier=transformers, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=tr, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Cast(expression=MethodInvocation(arguments=[MemberReference(member=name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=field, postfix_operators=[], prefix_operators=[], qualifier=t, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=ODocument, sub_type=None)), MemberReference(member=iContext, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=configureComponent, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MemberReference(member=iTransformers, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=t)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=ODocument, sub_type=None))), label=None)), StatementExpression(expression=Assignment(expressionl=MemberReference(member=endBlocks, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=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=OBlock, sub_type=None))], dimensions=None, name=ArrayList, sub_type=None))), label=None), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=iEndBlocks, 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=ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=fieldNames, postfix_operators=[], prefix_operators=[], qualifier=block, selectors=[ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0))], type_arguments=None)), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getBlock, postfix_operators=[], prefix_operators=[], qualifier=factory, selectors=[], type_arguments=None), name=b)], modifiers={'final'}, type=ReferenceType(arguments=None, dimensions=[], name=OBlock, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=b, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=add, postfix_operators=[], prefix_operators=[], qualifier=endBlocks, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=b, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Cast(expression=MethodInvocation(arguments=[MemberReference(member=name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=field, postfix_operators=[], prefix_operators=[], qualifier=block, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=ODocument, sub_type=None)), MemberReference(member=iContext, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=configureComponent, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MemberReference(member=iEndBlocks, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=block)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=ODocument, sub_type=None))), label=None))], catches=[CatchClause(block=[ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Error on creating ETL processor"), 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=OConfigurationException, sub_type=None)), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['Exception']))], finally_block=None, label=None, resources=None) return[THIS[]] end[}] END[}]
Keyword[public] identifier[OETLProcessor] identifier[parse] operator[SEP] Keyword[final] identifier[Collection] operator[<] identifier[ODocument] operator[>] identifier[iBeginBlocks] , Keyword[final] identifier[ODocument] identifier[iSource] , Keyword[final] identifier[ODocument] identifier[iExtractor] , Keyword[final] identifier[Collection] operator[<] identifier[ODocument] operator[>] identifier[iTransformers] , Keyword[final] identifier[ODocument] identifier[iLoader] , Keyword[final] identifier[Collection] operator[<] identifier[ODocument] operator[>] identifier[iEndBlocks] , Keyword[final] identifier[OCommandContext] identifier[iContext] operator[SEP] { Keyword[if] operator[SEP] identifier[iExtractor] operator[==] Other[null] operator[SEP] Keyword[throw] Keyword[new] identifier[IllegalArgumentException] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[context] operator[=] identifier[iContext] operator[!=] Other[null] operator[?] identifier[iContext] operator[:] identifier[createDefaultContext] operator[SEP] operator[SEP] operator[SEP] identifier[init] operator[SEP] operator[SEP] operator[SEP] Keyword[try] { identifier[String] identifier[name] operator[SEP] identifier[beginBlocks] operator[=] Keyword[new] identifier[ArrayList] operator[<] identifier[OBlock] operator[>] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[iBeginBlocks] operator[!=] Other[null] operator[SEP] Keyword[for] operator[SEP] identifier[ODocument] identifier[block] operator[:] identifier[iBeginBlocks] operator[SEP] { identifier[name] operator[=] identifier[block] operator[SEP] identifier[fieldNames] operator[SEP] operator[SEP] operator[SEP] Other[0] operator[SEP] operator[SEP] Keyword[final] identifier[OBlock] identifier[b] operator[=] identifier[factory] operator[SEP] identifier[getBlock] operator[SEP] identifier[name] operator[SEP] operator[SEP] identifier[beginBlocks] operator[SEP] identifier[add] operator[SEP] identifier[b] operator[SEP] operator[SEP] identifier[configureComponent] operator[SEP] identifier[b] , operator[SEP] identifier[ODocument] operator[SEP] identifier[block] operator[SEP] identifier[field] operator[SEP] identifier[name] operator[SEP] , identifier[iContext] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[iSource] operator[!=] Other[null] operator[SEP] { identifier[name] operator[=] identifier[iSource] operator[SEP] identifier[fieldNames] operator[SEP] operator[SEP] operator[SEP] Other[0] operator[SEP] operator[SEP] identifier[source] operator[=] identifier[factory] operator[SEP] identifier[getSource] operator[SEP] identifier[name] operator[SEP] operator[SEP] identifier[configureComponent] operator[SEP] identifier[source] , operator[SEP] identifier[ODocument] operator[SEP] identifier[iSource] operator[SEP] identifier[field] operator[SEP] identifier[name] operator[SEP] , identifier[iContext] operator[SEP] operator[SEP] } Keyword[else] identifier[source] operator[=] identifier[factory] operator[SEP] identifier[getSource] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[name] operator[=] identifier[iExtractor] operator[SEP] identifier[fieldNames] operator[SEP] operator[SEP] operator[SEP] Other[0] operator[SEP] operator[SEP] identifier[extractor] operator[=] identifier[factory] operator[SEP] identifier[getExtractor] operator[SEP] identifier[name] operator[SEP] operator[SEP] identifier[configureComponent] operator[SEP] identifier[extractor] , operator[SEP] identifier[ODocument] operator[SEP] identifier[iExtractor] operator[SEP] identifier[field] operator[SEP] identifier[name] operator[SEP] , identifier[iContext] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[iLoader] operator[!=] Other[null] operator[SEP] { identifier[name] operator[=] identifier[iLoader] operator[SEP] identifier[fieldNames] operator[SEP] operator[SEP] operator[SEP] Other[0] operator[SEP] operator[SEP] identifier[loader] operator[=] identifier[factory] operator[SEP] identifier[getLoader] operator[SEP] identifier[name] operator[SEP] operator[SEP] identifier[configureComponent] operator[SEP] identifier[loader] , operator[SEP] identifier[ODocument] operator[SEP] identifier[iLoader] operator[SEP] identifier[field] operator[SEP] identifier[name] operator[SEP] , identifier[iContext] operator[SEP] operator[SEP] } Keyword[else] identifier[loader] operator[=] identifier[factory] operator[SEP] identifier[getLoader] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[transformers] operator[=] Keyword[new] identifier[ArrayList] operator[<] identifier[OTransformer] operator[>] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[iTransformers] operator[!=] Other[null] operator[SEP] Keyword[for] operator[SEP] identifier[ODocument] identifier[t] operator[:] identifier[iTransformers] operator[SEP] { identifier[name] operator[=] identifier[t] operator[SEP] identifier[fieldNames] operator[SEP] operator[SEP] operator[SEP] Other[0] operator[SEP] operator[SEP] Keyword[final] identifier[OTransformer] identifier[tr] operator[=] identifier[factory] operator[SEP] identifier[getTransformer] operator[SEP] identifier[name] operator[SEP] operator[SEP] identifier[transformers] operator[SEP] identifier[add] operator[SEP] identifier[tr] operator[SEP] operator[SEP] identifier[configureComponent] operator[SEP] identifier[tr] , operator[SEP] identifier[ODocument] operator[SEP] identifier[t] operator[SEP] identifier[field] operator[SEP] identifier[name] operator[SEP] , identifier[iContext] operator[SEP] operator[SEP] } identifier[endBlocks] operator[=] Keyword[new] identifier[ArrayList] operator[<] identifier[OBlock] operator[>] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[iEndBlocks] operator[!=] Other[null] operator[SEP] Keyword[for] operator[SEP] identifier[ODocument] identifier[block] operator[:] identifier[iEndBlocks] operator[SEP] { identifier[name] operator[=] identifier[block] operator[SEP] identifier[fieldNames] operator[SEP] operator[SEP] operator[SEP] Other[0] operator[SEP] operator[SEP] Keyword[final] identifier[OBlock] identifier[b] operator[=] identifier[factory] operator[SEP] identifier[getBlock] operator[SEP] identifier[name] operator[SEP] operator[SEP] identifier[endBlocks] operator[SEP] identifier[add] operator[SEP] identifier[b] operator[SEP] operator[SEP] identifier[configureComponent] operator[SEP] identifier[b] , operator[SEP] identifier[ODocument] operator[SEP] identifier[block] operator[SEP] identifier[field] operator[SEP] identifier[name] operator[SEP] , identifier[iContext] operator[SEP] operator[SEP] } } Keyword[catch] operator[SEP] identifier[Exception] identifier[e] operator[SEP] { Keyword[throw] Keyword[new] identifier[OConfigurationException] operator[SEP] literal[String] , identifier[e] operator[SEP] operator[SEP] } Keyword[return] Keyword[this] operator[SEP] }
private static Tile searchForTile(MapTile map, ImageBuffer tileSprite, int x, int y) { // Check each tile on each sheet for (final Integer sheet : map.getSheets()) { final Tile tile = checkTile(map, tileSprite, sheet, x, y); if (tile != null) { return tile; } } // No tile found return null; }
class class_name[name] begin[{] method[searchForTile, return_type[type[Tile]], modifier[private static], parameter[map, tileSprite, x, y]] begin[{] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=map, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=tileSprite, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=sheet, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=x, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=y, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=checkTile, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), name=tile)], modifiers={'final'}, type=ReferenceType(arguments=None, dimensions=[], name=Tile, sub_type=None)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=tile, 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=[ReturnStatement(expression=MemberReference(member=tile, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), label=None)]))]), control=EnhancedForControl(iterable=MethodInvocation(arguments=[], member=getSheets, postfix_operators=[], prefix_operators=[], qualifier=map, selectors=[], type_arguments=None), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=sheet)], modifiers={'final'}, type=ReferenceType(arguments=None, dimensions=[], name=Integer, sub_type=None))), label=None) return[literal[null]] end[}] END[}]
Keyword[private] Keyword[static] identifier[Tile] identifier[searchForTile] operator[SEP] identifier[MapTile] identifier[map] , identifier[ImageBuffer] identifier[tileSprite] , Keyword[int] identifier[x] , Keyword[int] identifier[y] operator[SEP] { Keyword[for] operator[SEP] Keyword[final] identifier[Integer] identifier[sheet] operator[:] identifier[map] operator[SEP] identifier[getSheets] operator[SEP] operator[SEP] operator[SEP] { Keyword[final] identifier[Tile] identifier[tile] operator[=] identifier[checkTile] operator[SEP] identifier[map] , identifier[tileSprite] , identifier[sheet] , identifier[x] , identifier[y] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[tile] operator[!=] Other[null] operator[SEP] { Keyword[return] identifier[tile] operator[SEP] } } Keyword[return] Other[null] operator[SEP] }
@Nullable private Object getSingleResult(Query query) { if (projection != null) { Object result = query.getSingleResult(); if (result != null) { if (!result.getClass().isArray()) { result = new Object[]{result}; } return projection.newInstance((Object[]) result); } else { return null; } } else { return query.getSingleResult(); } }
class class_name[name] begin[{] method[getSingleResult, return_type[type[Object]], modifier[private], parameter[query]] begin[{] if[binary_operation[member[.projection], !=, literal[null]]] begin[{] local_variable[type[Object], result] if[binary_operation[member[.result], !=, literal[null]]] begin[{] if[call[result.getClass, parameter[]]] begin[{] assign[member[.result], ArrayCreator(dimensions=[None], initializer=ArrayInitializer(initializers=[MemberReference(member=result, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])]), postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Object, sub_type=None))] else begin[{] None end[}] return[call[projection.newInstance, parameter[Cast(expression=MemberReference(member=result, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[None], name=Object, sub_type=None))]]] else begin[{] return[literal[null]] end[}] else begin[{] return[call[query.getSingleResult, parameter[]]] end[}] end[}] END[}]
annotation[@] identifier[Nullable] Keyword[private] identifier[Object] identifier[getSingleResult] operator[SEP] identifier[Query] identifier[query] operator[SEP] { Keyword[if] operator[SEP] identifier[projection] operator[!=] Other[null] operator[SEP] { identifier[Object] identifier[result] operator[=] identifier[query] operator[SEP] identifier[getSingleResult] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[result] operator[!=] Other[null] operator[SEP] { Keyword[if] operator[SEP] operator[!] identifier[result] operator[SEP] identifier[getClass] operator[SEP] operator[SEP] operator[SEP] identifier[isArray] operator[SEP] operator[SEP] operator[SEP] { identifier[result] operator[=] Keyword[new] identifier[Object] operator[SEP] operator[SEP] { identifier[result] } operator[SEP] } Keyword[return] identifier[projection] operator[SEP] identifier[newInstance] operator[SEP] operator[SEP] identifier[Object] operator[SEP] operator[SEP] operator[SEP] identifier[result] operator[SEP] operator[SEP] } Keyword[else] { Keyword[return] Other[null] operator[SEP] } } Keyword[else] { Keyword[return] identifier[query] operator[SEP] identifier[getSingleResult] operator[SEP] operator[SEP] operator[SEP] } }
private void executeReconnect() throws InterruptedException { // Close connection websocketEndpoint.close(); // Store the reconnect time to prevent to much // reconnects in a short timeframe. Otherwise the // rate limit will apply and the reconnects are not successfully logger.info("Wait for next reconnect timeslot"); eventsInTimeslotManager.recordNewEvent(); eventsInTimeslotManager.waitForNewTimeslot(); logger.info("Wait for next reconnect timeslot DONE"); bitfinexApiBroker.reconnect(); }
class class_name[name] begin[{] method[executeReconnect, return_type[void], modifier[private], parameter[]] begin[{] call[websocketEndpoint.close, parameter[]] call[logger.info, parameter[literal["Wait for next reconnect timeslot"]]] call[eventsInTimeslotManager.recordNewEvent, parameter[]] call[eventsInTimeslotManager.waitForNewTimeslot, parameter[]] call[logger.info, parameter[literal["Wait for next reconnect timeslot DONE"]]] call[bitfinexApiBroker.reconnect, parameter[]] end[}] END[}]
Keyword[private] Keyword[void] identifier[executeReconnect] operator[SEP] operator[SEP] Keyword[throws] identifier[InterruptedException] { identifier[websocketEndpoint] operator[SEP] identifier[close] operator[SEP] operator[SEP] operator[SEP] identifier[logger] operator[SEP] identifier[info] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[eventsInTimeslotManager] operator[SEP] identifier[recordNewEvent] operator[SEP] operator[SEP] operator[SEP] identifier[eventsInTimeslotManager] operator[SEP] identifier[waitForNewTimeslot] operator[SEP] operator[SEP] operator[SEP] identifier[logger] operator[SEP] identifier[info] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[bitfinexApiBroker] operator[SEP] identifier[reconnect] operator[SEP] operator[SEP] operator[SEP] }
private void _badType(int type, Object value) { if (type < 0) { throw new IllegalStateException(String.format( "Internal error: missing BeanDefinition for id %d (class %s)", type, value.getClass().getName())); } String typeDesc = (value == null) ? "NULL" : value.getClass().getName(); throw new IllegalStateException(String.format("Unsupported type: %s (%s)", type, typeDesc)); }
class class_name[name] begin[{] method[_badType, return_type[void], modifier[private], parameter[type, value]] begin[{] if[binary_operation[member[.type], <, literal[0]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Internal error: missing BeanDefinition for id %d (class %s)"), MemberReference(member=type, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MethodInvocation(arguments=[], member=getClass, postfix_operators=[], prefix_operators=[], qualifier=value, selectors=[MethodInvocation(arguments=[], member=getName, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None)], member=format, postfix_operators=[], prefix_operators=[], qualifier=String, selectors=[], type_arguments=None)], 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[}] local_variable[type[String], typeDesc] ThrowStatement(expression=ClassCreator(arguments=[MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Unsupported type: %s (%s)"), MemberReference(member=type, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=typeDesc, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=format, postfix_operators=[], prefix_operators=[], qualifier=String, selectors=[], type_arguments=None)], 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[private] Keyword[void] identifier[_badType] operator[SEP] Keyword[int] identifier[type] , identifier[Object] identifier[value] operator[SEP] { Keyword[if] operator[SEP] identifier[type] operator[<] Other[0] operator[SEP] { Keyword[throw] Keyword[new] identifier[IllegalStateException] operator[SEP] identifier[String] operator[SEP] identifier[format] operator[SEP] literal[String] , identifier[type] , identifier[value] operator[SEP] identifier[getClass] operator[SEP] operator[SEP] operator[SEP] identifier[getName] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } identifier[String] identifier[typeDesc] operator[=] operator[SEP] identifier[value] operator[==] Other[null] operator[SEP] operator[?] literal[String] operator[:] identifier[value] operator[SEP] identifier[getClass] operator[SEP] operator[SEP] operator[SEP] identifier[getName] operator[SEP] operator[SEP] operator[SEP] Keyword[throw] Keyword[new] identifier[IllegalStateException] operator[SEP] identifier[String] operator[SEP] identifier[format] operator[SEP] literal[String] , identifier[type] , identifier[typeDesc] operator[SEP] operator[SEP] operator[SEP] }
public BackupStorageResult backupStorageAccount(String vaultBaseUrl, String storageAccountName) { return backupStorageAccountWithServiceResponseAsync(vaultBaseUrl, storageAccountName).toBlocking().single().body(); }
class class_name[name] begin[{] method[backupStorageAccount, return_type[type[BackupStorageResult]], modifier[public], parameter[vaultBaseUrl, storageAccountName]] begin[{] return[call[.backupStorageAccountWithServiceResponseAsync, parameter[member[.vaultBaseUrl], member[.storageAccountName]]]] end[}] END[}]
Keyword[public] identifier[BackupStorageResult] identifier[backupStorageAccount] operator[SEP] identifier[String] identifier[vaultBaseUrl] , identifier[String] identifier[storageAccountName] operator[SEP] { Keyword[return] identifier[backupStorageAccountWithServiceResponseAsync] operator[SEP] identifier[vaultBaseUrl] , identifier[storageAccountName] operator[SEP] operator[SEP] identifier[toBlocking] operator[SEP] operator[SEP] operator[SEP] identifier[single] operator[SEP] operator[SEP] operator[SEP] identifier[body] operator[SEP] operator[SEP] operator[SEP] }
@Override void init() { header = new Entry<K, V>(-1, null, null, null); header.before = header.after = header; }
class class_name[name] begin[{] method[init, return_type[void], modifier[default], parameter[]] begin[{] assign[member[.header], ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=['-'], qualifier=None, selectors=[], value=1), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null)], 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=K, sub_type=None)), TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=V, sub_type=None))], dimensions=None, name=Entry, sub_type=None))] assign[member[header.before], assign[member[header.after], member[.header]]] end[}] END[}]
annotation[@] identifier[Override] Keyword[void] identifier[init] operator[SEP] operator[SEP] { identifier[header] operator[=] Keyword[new] identifier[Entry] operator[<] identifier[K] , identifier[V] operator[>] operator[SEP] operator[-] Other[1] , Other[null] , Other[null] , Other[null] operator[SEP] operator[SEP] identifier[header] operator[SEP] identifier[before] operator[=] identifier[header] operator[SEP] identifier[after] operator[=] identifier[header] operator[SEP] }
public ICompletableFuture<Map<K, Object>> submitToKeys(Set<K> keys, EntryProcessor entryProcessor) { checkNotNull(keys, NULL_KEYS_ARE_NOT_ALLOWED); if (keys.isEmpty()) { return new SimpleCompletedFuture<>(Collections.emptyMap()); } handleHazelcastInstanceAwareParams(entryProcessor); Set<Data> dataKeys = createHashSet(keys.size()); return submitToKeysInternal(keys, dataKeys, entryProcessor); }
class class_name[name] begin[{] method[submitToKeys, return_type[type[ICompletableFuture]], modifier[public], parameter[keys, entryProcessor]] begin[{] call[.checkNotNull, parameter[member[.keys], member[.NULL_KEYS_ARE_NOT_ALLOWED]]] if[call[keys.isEmpty, parameter[]]] begin[{] return[ClassCreator(arguments=[MethodInvocation(arguments=[], member=emptyMap, postfix_operators=[], prefix_operators=[], qualifier=Collections, selectors=[], type_arguments=None)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=[], dimensions=None, name=SimpleCompletedFuture, sub_type=None))] else begin[{] None end[}] call[.handleHazelcastInstanceAwareParams, parameter[member[.entryProcessor]]] local_variable[type[Set], dataKeys] return[call[.submitToKeysInternal, parameter[member[.keys], member[.dataKeys], member[.entryProcessor]]]] end[}] END[}]
Keyword[public] identifier[ICompletableFuture] operator[<] identifier[Map] operator[<] identifier[K] , identifier[Object] operator[>] operator[>] identifier[submitToKeys] operator[SEP] identifier[Set] operator[<] identifier[K] operator[>] identifier[keys] , identifier[EntryProcessor] identifier[entryProcessor] operator[SEP] { identifier[checkNotNull] operator[SEP] identifier[keys] , identifier[NULL_KEYS_ARE_NOT_ALLOWED] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[keys] operator[SEP] identifier[isEmpty] operator[SEP] operator[SEP] operator[SEP] { Keyword[return] Keyword[new] identifier[SimpleCompletedFuture] operator[<] operator[>] operator[SEP] identifier[Collections] operator[SEP] identifier[emptyMap] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } identifier[handleHazelcastInstanceAwareParams] operator[SEP] identifier[entryProcessor] operator[SEP] operator[SEP] identifier[Set] operator[<] identifier[Data] operator[>] identifier[dataKeys] operator[=] identifier[createHashSet] operator[SEP] identifier[keys] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[submitToKeysInternal] operator[SEP] identifier[keys] , identifier[dataKeys] , identifier[entryProcessor] operator[SEP] operator[SEP] }
private void addActivityWithDataUsage(String activity) { Validate.notNull(activity); Validate.notEmpty(activity); Set<String> currentActivities = getActivitiesWithDataUsage(); currentActivities.add(activity); setProperty(ProcessContextProperty.ACTIVITIES_WITH_DATA_USAGE, ArrayUtils.toString(currentActivities.toArray())); }
class class_name[name] begin[{] method[addActivityWithDataUsage, return_type[void], modifier[private], parameter[activity]] begin[{] call[Validate.notNull, parameter[member[.activity]]] call[Validate.notEmpty, parameter[member[.activity]]] local_variable[type[Set], currentActivities] call[currentActivities.add, parameter[member[.activity]]] call[.setProperty, parameter[member[ProcessContextProperty.ACTIVITIES_WITH_DATA_USAGE], call[ArrayUtils.toString, parameter[call[currentActivities.toArray, parameter[]]]]]] end[}] END[}]
Keyword[private] Keyword[void] identifier[addActivityWithDataUsage] operator[SEP] identifier[String] identifier[activity] operator[SEP] { identifier[Validate] operator[SEP] identifier[notNull] operator[SEP] identifier[activity] operator[SEP] operator[SEP] identifier[Validate] operator[SEP] identifier[notEmpty] operator[SEP] identifier[activity] operator[SEP] operator[SEP] identifier[Set] operator[<] identifier[String] operator[>] identifier[currentActivities] operator[=] identifier[getActivitiesWithDataUsage] operator[SEP] operator[SEP] operator[SEP] identifier[currentActivities] operator[SEP] identifier[add] operator[SEP] identifier[activity] operator[SEP] operator[SEP] identifier[setProperty] operator[SEP] identifier[ProcessContextProperty] operator[SEP] identifier[ACTIVITIES_WITH_DATA_USAGE] , identifier[ArrayUtils] operator[SEP] identifier[toString] operator[SEP] identifier[currentActivities] operator[SEP] identifier[toArray] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] }
public void setLimits(int maxConPerRoute, int maxConTotal) { this.maxConnPerRoute = maxConPerRoute; this.maxConnTotal = maxConTotal; if ( asyncHttpClient != null ) { try { asyncHttpClient.close(); } catch (IOException e) { e.printStackTrace(); } asyncHttpClient = null; } }
class class_name[name] begin[{] method[setLimits, return_type[void], modifier[public], parameter[maxConPerRoute, maxConTotal]] begin[{] assign[THIS[member[None.maxConnPerRoute]], member[.maxConPerRoute]] assign[THIS[member[None.maxConnTotal]], member[.maxConTotal]] if[binary_operation[member[.asyncHttpClient], !=, literal[null]]] begin[{] TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[], member=close, postfix_operators=[], prefix_operators=[], qualifier=asyncHttpClient, 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)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['IOException']))], finally_block=None, label=None, resources=None) assign[member[.asyncHttpClient], literal[null]] else begin[{] None end[}] end[}] END[}]
Keyword[public] Keyword[void] identifier[setLimits] operator[SEP] Keyword[int] identifier[maxConPerRoute] , Keyword[int] identifier[maxConTotal] operator[SEP] { Keyword[this] operator[SEP] identifier[maxConnPerRoute] operator[=] identifier[maxConPerRoute] operator[SEP] Keyword[this] operator[SEP] identifier[maxConnTotal] operator[=] identifier[maxConTotal] operator[SEP] Keyword[if] operator[SEP] identifier[asyncHttpClient] operator[!=] Other[null] operator[SEP] { Keyword[try] { identifier[asyncHttpClient] operator[SEP] identifier[close] operator[SEP] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[IOException] identifier[e] operator[SEP] { identifier[e] operator[SEP] identifier[printStackTrace] operator[SEP] operator[SEP] operator[SEP] } identifier[asyncHttpClient] operator[=] Other[null] operator[SEP] } }
public Observable<Page<SasTokenInfoInner>> listSasTokensAsync(final String resourceGroupName, final String accountName, final String storageAccountName, final String containerName) { return listSasTokensWithServiceResponseAsync(resourceGroupName, accountName, storageAccountName, containerName) .map(new Func1<ServiceResponse<Page<SasTokenInfoInner>>, Page<SasTokenInfoInner>>() { @Override public Page<SasTokenInfoInner> call(ServiceResponse<Page<SasTokenInfoInner>> response) { return response.body(); } }); }
class class_name[name] begin[{] method[listSasTokensAsync, return_type[type[Observable]], modifier[public], parameter[resourceGroupName, accountName, storageAccountName, containerName]] begin[{] return[call[.listSasTokensWithServiceResponseAsync, parameter[member[.resourceGroupName], member[.accountName], member[.storageAccountName], member[.containerName]]]] end[}] END[}]
Keyword[public] identifier[Observable] operator[<] identifier[Page] operator[<] identifier[SasTokenInfoInner] operator[>] operator[>] identifier[listSasTokensAsync] operator[SEP] Keyword[final] identifier[String] identifier[resourceGroupName] , Keyword[final] identifier[String] identifier[accountName] , Keyword[final] identifier[String] identifier[storageAccountName] , Keyword[final] identifier[String] identifier[containerName] operator[SEP] { Keyword[return] identifier[listSasTokensWithServiceResponseAsync] operator[SEP] identifier[resourceGroupName] , identifier[accountName] , identifier[storageAccountName] , identifier[containerName] operator[SEP] operator[SEP] identifier[map] operator[SEP] Keyword[new] identifier[Func1] operator[<] identifier[ServiceResponse] operator[<] identifier[Page] operator[<] identifier[SasTokenInfoInner] operator[>] operator[>] , identifier[Page] operator[<] identifier[SasTokenInfoInner] operator[>] operator[>] operator[SEP] operator[SEP] { annotation[@] identifier[Override] Keyword[public] identifier[Page] operator[<] identifier[SasTokenInfoInner] operator[>] identifier[call] operator[SEP] identifier[ServiceResponse] operator[<] identifier[Page] operator[<] identifier[SasTokenInfoInner] 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 DoubleBuffer get3x3(int index, DoubleBuffer buffer) { MemUtil.INSTANCE.put3x3(this, index, buffer); return buffer; }
class class_name[name] begin[{] method[get3x3, return_type[type[DoubleBuffer]], modifier[public], parameter[index, buffer]] begin[{] call[MemUtil.INSTANCE.put3x3, parameter[THIS[], member[.index], member[.buffer]]] return[member[.buffer]] end[}] END[}]
Keyword[public] identifier[DoubleBuffer] identifier[get3x3] operator[SEP] Keyword[int] identifier[index] , identifier[DoubleBuffer] identifier[buffer] operator[SEP] { identifier[MemUtil] operator[SEP] identifier[INSTANCE] operator[SEP] identifier[put3x3] operator[SEP] Keyword[this] , identifier[index] , identifier[buffer] operator[SEP] operator[SEP] Keyword[return] identifier[buffer] operator[SEP] }
protected void registerNamespace( SqlValidatorScope usingScope, String alias, SqlValidatorNamespace ns, boolean forceNullable) { namespaces.put(ns.getNode(), ns); if (usingScope != null) { usingScope.addChild(ns, alias, forceNullable); } }
class class_name[name] begin[{] method[registerNamespace, return_type[void], modifier[protected], parameter[usingScope, alias, ns, forceNullable]] begin[{] call[namespaces.put, parameter[call[ns.getNode, parameter[]], member[.ns]]] if[binary_operation[member[.usingScope], !=, literal[null]]] begin[{] call[usingScope.addChild, parameter[member[.ns], member[.alias], member[.forceNullable]]] else begin[{] None end[}] end[}] END[}]
Keyword[protected] Keyword[void] identifier[registerNamespace] operator[SEP] identifier[SqlValidatorScope] identifier[usingScope] , identifier[String] identifier[alias] , identifier[SqlValidatorNamespace] identifier[ns] , Keyword[boolean] identifier[forceNullable] operator[SEP] { identifier[namespaces] operator[SEP] identifier[put] operator[SEP] identifier[ns] operator[SEP] identifier[getNode] operator[SEP] operator[SEP] , identifier[ns] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[usingScope] operator[!=] Other[null] operator[SEP] { identifier[usingScope] operator[SEP] identifier[addChild] operator[SEP] identifier[ns] , identifier[alias] , identifier[forceNullable] operator[SEP] operator[SEP] } }
@Override public Integer convert(Object value) { if (value instanceof Number) { return ((Number) value).intValue(); } else if (value instanceof String && StringUtils.containsDigits(value.toString().trim())) { try { return Integer.parseInt(value.toString().trim()); } catch (NumberFormatException cause) { throw newConversionException(cause, "[%s] is not a valid Integer", value); } } else { return super.convert(value); } }
class class_name[name] begin[{] method[convert, return_type[type[Integer]], modifier[public], parameter[value]] begin[{] if[binary_operation[member[.value], instanceof, type[Number]]] begin[{] return[Cast(expression=MemberReference(member=value, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=Number, sub_type=None))] else begin[{] if[binary_operation[binary_operation[member[.value], instanceof, type[String]], &&, call[StringUtils.containsDigits, parameter[call[value.toString, parameter[]]]]]] begin[{] TryStatement(block=[ReturnStatement(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=toString, postfix_operators=[], prefix_operators=[], qualifier=value, selectors=[MethodInvocation(arguments=[], member=trim, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None)], member=parseInt, postfix_operators=[], prefix_operators=[], qualifier=Integer, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[ThrowStatement(expression=MethodInvocation(arguments=[MemberReference(member=cause, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="[%s] is not a valid Integer"), MemberReference(member=value, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=newConversionException, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=cause, types=['NumberFormatException']))], finally_block=None, label=None, resources=None) else begin[{] return[SuperMethodInvocation(arguments=[MemberReference(member=value, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=convert, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type_arguments=None)] end[}] end[}] end[}] END[}]
annotation[@] identifier[Override] Keyword[public] identifier[Integer] identifier[convert] operator[SEP] identifier[Object] identifier[value] operator[SEP] { Keyword[if] operator[SEP] identifier[value] Keyword[instanceof] identifier[Number] operator[SEP] { Keyword[return] operator[SEP] operator[SEP] identifier[Number] operator[SEP] identifier[value] operator[SEP] operator[SEP] identifier[intValue] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[value] Keyword[instanceof] identifier[String] operator[&&] identifier[StringUtils] operator[SEP] identifier[containsDigits] operator[SEP] identifier[value] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] identifier[trim] operator[SEP] operator[SEP] operator[SEP] operator[SEP] { Keyword[try] { Keyword[return] identifier[Integer] operator[SEP] identifier[parseInt] operator[SEP] identifier[value] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] identifier[trim] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[NumberFormatException] identifier[cause] operator[SEP] { Keyword[throw] identifier[newConversionException] operator[SEP] identifier[cause] , literal[String] , identifier[value] operator[SEP] operator[SEP] } } Keyword[else] { Keyword[return] Keyword[super] operator[SEP] identifier[convert] operator[SEP] identifier[value] operator[SEP] operator[SEP] } }
public boolean send(String topic, String data, Map<String, Object> properties) throws StoppedException, IllegalArgumentException { return send(topic, data, properties, defaultSendOptions, null, null); }
class class_name[name] begin[{] method[send, return_type[type[boolean]], modifier[public], parameter[topic, data, properties]] begin[{] return[call[.send, parameter[member[.topic], member[.data], member[.properties], member[.defaultSendOptions], literal[null], literal[null]]]] end[}] END[}]
Keyword[public] Keyword[boolean] identifier[send] operator[SEP] identifier[String] identifier[topic] , identifier[String] identifier[data] , identifier[Map] operator[<] identifier[String] , identifier[Object] operator[>] identifier[properties] operator[SEP] Keyword[throws] identifier[StoppedException] , identifier[IllegalArgumentException] { Keyword[return] identifier[send] operator[SEP] identifier[topic] , identifier[data] , identifier[properties] , identifier[defaultSendOptions] , Other[null] , Other[null] operator[SEP] operator[SEP] }
@Override public Hash2<Integer, V> createHashTable() { return new Hash2<Integer, V>(this) { @Override protected int modifiedHashCode(final int hc) { return IntHeapCache.this.modifiedHash(hc); } @Override protected boolean keyObjIsEqual(final Integer key, final Entry e) { return true; } }; }
class class_name[name] begin[{] method[createHashTable, return_type[type[Hash2]], modifier[public], parameter[]] begin[{] return[ClassCreator(arguments=[This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[])], body=[MethodDeclaration(annotations=[Annotation(element=None, name=Override)], body=[ReturnStatement(expression=This(postfix_operators=[], prefix_operators=[], qualifier=IntHeapCache, selectors=[MethodInvocation(arguments=[MemberReference(member=hc, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=modifiedHash, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), label=None)], documentation=None, modifiers={'protected'}, name=modifiedHashCode, parameters=[FormalParameter(annotations=[], modifiers={'final'}, name=hc, type=BasicType(dimensions=[], name=int), varargs=False)], return_type=BasicType(dimensions=[], name=int), throws=None, type_parameters=None), MethodDeclaration(annotations=[Annotation(element=None, name=Override)], body=[ReturnStatement(expression=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true), label=None)], documentation=None, modifiers={'protected'}, name=keyObjIsEqual, parameters=[FormalParameter(annotations=[], modifiers={'final'}, name=key, type=ReferenceType(arguments=None, dimensions=[], name=Integer, sub_type=None), varargs=False), FormalParameter(annotations=[], modifiers={'final'}, name=e, type=ReferenceType(arguments=None, dimensions=[], name=Entry, sub_type=None), varargs=False)], return_type=BasicType(dimensions=[], name=boolean), 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=None, dimensions=[], name=Integer, sub_type=None)), TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=V, sub_type=None))], dimensions=None, name=Hash2, sub_type=None))] end[}] END[}]
annotation[@] identifier[Override] Keyword[public] identifier[Hash2] operator[<] identifier[Integer] , identifier[V] operator[>] identifier[createHashTable] operator[SEP] operator[SEP] { Keyword[return] Keyword[new] identifier[Hash2] operator[<] identifier[Integer] , identifier[V] operator[>] operator[SEP] Keyword[this] operator[SEP] { annotation[@] identifier[Override] Keyword[protected] Keyword[int] identifier[modifiedHashCode] operator[SEP] Keyword[final] Keyword[int] identifier[hc] operator[SEP] { Keyword[return] identifier[IntHeapCache] operator[SEP] Keyword[this] operator[SEP] identifier[modifiedHash] operator[SEP] identifier[hc] operator[SEP] operator[SEP] } annotation[@] identifier[Override] Keyword[protected] Keyword[boolean] identifier[keyObjIsEqual] operator[SEP] Keyword[final] identifier[Integer] identifier[key] , Keyword[final] identifier[Entry] identifier[e] operator[SEP] { Keyword[return] literal[boolean] operator[SEP] } } operator[SEP] }
@Override public final Class<T> returnedClass() { @SuppressWarnings("unchecked")Class<T> result = (Class<T>) TypeHelper.getTypeArguments(AbstractColumnMapper.class, getClass()).get(0); return result; }
class class_name[name] begin[{] method[returnedClass, return_type[type[Class]], modifier[final public], parameter[]] begin[{] local_variable[type[Class], result] return[member[.result]] end[}] END[}]
annotation[@] identifier[Override] Keyword[public] Keyword[final] identifier[Class] operator[<] identifier[T] operator[>] identifier[returnedClass] operator[SEP] operator[SEP] { annotation[@] identifier[SuppressWarnings] operator[SEP] literal[String] operator[SEP] identifier[Class] operator[<] identifier[T] operator[>] identifier[result] operator[=] operator[SEP] identifier[Class] operator[<] identifier[T] operator[>] operator[SEP] identifier[TypeHelper] operator[SEP] identifier[getTypeArguments] operator[SEP] identifier[AbstractColumnMapper] operator[SEP] Keyword[class] , identifier[getClass] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[get] operator[SEP] Other[0] operator[SEP] operator[SEP] Keyword[return] identifier[result] operator[SEP] }