Datasets:
CodeT5SmallCAPS
/
CAPS_Java

Dataset card Data Studio Files
xet
 Community
1
code
stringlengths
63
466k
code_sememe
stringlengths
141
3.79M
token_type
stringlengths
274
1.23M
public static Resource child(@NotNull Resource parentResource, @NotNull String name, @NotNull String resourceType, @NotNull ValueMap valueMap) { Resource child = new GraniteUiSyntheticResource(parentResource.getResourceResolver(), parentResource.getPath() + "/" + name, resourceType, valueMap, ImmutableList.<Resource>of()); if (parentResource instanceof GraniteUiSyntheticResource) { ((GraniteUiSyntheticResource)parentResource).addChild(child); } else { throw new IllegalArgumentException("Resource is not a GraniteUiSyntheticResource."); } return child; }
class class_name[name] begin[{] method[child, return_type[type[Resource]], modifier[public static], parameter[parentResource, name, resourceType, valueMap]] begin[{] local_variable[type[Resource], child] if[binary_operation[member[.parentResource], instanceof, type[GraniteUiSyntheticResource]]] begin[{] Cast(expression=MemberReference(member=parentResource, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=GraniteUiSyntheticResource, sub_type=None)) else begin[{] ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Resource is not a GraniteUiSyntheticResource.")], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=IllegalArgumentException, sub_type=None)), label=None) end[}] return[member[.child]] end[}] END[}]
Keyword[public] Keyword[static] identifier[Resource] identifier[child] operator[SEP] annotation[@] identifier[NotNull] identifier[Resource] identifier[parentResource] , annotation[@] identifier[NotNull] identifier[String] identifier[name] , annotation[@] identifier[NotNull] identifier[String] identifier[resourceType] , annotation[@] identifier[NotNull] identifier[ValueMap] identifier[valueMap] operator[SEP] { identifier[Resource] identifier[child] operator[=] Keyword[new] identifier[GraniteUiSyntheticResource] operator[SEP] identifier[parentResource] operator[SEP] identifier[getResourceResolver] operator[SEP] operator[SEP] , identifier[parentResource] operator[SEP] identifier[getPath] operator[SEP] operator[SEP] operator[+] literal[String] operator[+] identifier[name] , identifier[resourceType] , identifier[valueMap] , identifier[ImmutableList] operator[SEP] operator[<] identifier[Resource] operator[>] identifier[of] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[parentResource] Keyword[instanceof] identifier[GraniteUiSyntheticResource] operator[SEP] { operator[SEP] operator[SEP] identifier[GraniteUiSyntheticResource] operator[SEP] identifier[parentResource] operator[SEP] operator[SEP] identifier[addChild] operator[SEP] identifier[child] operator[SEP] operator[SEP] } Keyword[else] { Keyword[throw] Keyword[new] identifier[IllegalArgumentException] operator[SEP] literal[String] operator[SEP] operator[SEP] } Keyword[return] identifier[child] operator[SEP] }
public static String disAssembleId(String id, String... suffixes) { return IMPL.disAssembleId(id, suffixes); }
class class_name[name] begin[{] method[disAssembleId, return_type[type[String]], modifier[public static], parameter[id, suffixes]] begin[{] return[call[IMPL.disAssembleId, parameter[member[.id], member[.suffixes]]]] end[}] END[}]
Keyword[public] Keyword[static] identifier[String] identifier[disAssembleId] operator[SEP] identifier[String] identifier[id] , identifier[String] operator[...] identifier[suffixes] operator[SEP] { Keyword[return] identifier[IMPL] operator[SEP] identifier[disAssembleId] operator[SEP] identifier[id] , identifier[suffixes] operator[SEP] operator[SEP] }
@Generated(value = "com.sun.tools.xjc.Driver", date = "2018-10-12T02:52:47+02:00", comments = "JAXB RI v2.2.11") public Boolean getWiederholungstermin() { if (wiederholungstermin == null) { return false; } else { return wiederholungstermin; } }
class class_name[name] begin[{] method[getWiederholungstermin, return_type[type[Boolean]], modifier[public], parameter[]] begin[{] if[binary_operation[member[.wiederholungstermin], ==, literal[null]]] begin[{] return[literal[false]] else begin[{] return[member[.wiederholungstermin]] end[}] end[}] END[}]
annotation[@] identifier[Generated] operator[SEP] identifier[value] operator[=] literal[String] , identifier[date] operator[=] literal[String] , identifier[comments] operator[=] literal[String] operator[SEP] Keyword[public] identifier[Boolean] identifier[getWiederholungstermin] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] identifier[wiederholungstermin] operator[==] Other[null] operator[SEP] { Keyword[return] literal[boolean] operator[SEP] } Keyword[else] { Keyword[return] identifier[wiederholungstermin] operator[SEP] } }
protected void addHighlightingAndBar() { timer = null; highlightElement(); getElement().addClassName(org.opencms.gwt.client.ui.css.I_CmsLayoutBundle.INSTANCE.stateCss().cmsHovering()); }
class class_name[name] begin[{] method[addHighlightingAndBar, return_type[void], modifier[protected], parameter[]] begin[{] assign[member[.timer], literal[null]] call[.highlightElement, parameter[]] call[.getElement, parameter[]] end[}] END[}]
Keyword[protected] Keyword[void] identifier[addHighlightingAndBar] operator[SEP] operator[SEP] { identifier[timer] operator[=] Other[null] operator[SEP] identifier[highlightElement] operator[SEP] operator[SEP] operator[SEP] identifier[getElement] operator[SEP] operator[SEP] operator[SEP] identifier[addClassName] operator[SEP] identifier[org] operator[SEP] identifier[opencms] operator[SEP] identifier[gwt] operator[SEP] identifier[client] operator[SEP] identifier[ui] operator[SEP] identifier[css] operator[SEP] identifier[I_CmsLayoutBundle] operator[SEP] identifier[INSTANCE] operator[SEP] identifier[stateCss] operator[SEP] operator[SEP] operator[SEP] identifier[cmsHovering] operator[SEP] operator[SEP] operator[SEP] operator[SEP] }
public static boolean removeOccurrences( Multiset<?> multisetToModify, Iterable<?> occurrencesToRemove) { if (occurrencesToRemove instanceof Multiset) { return removeOccurrencesImpl( multisetToModify, (Multiset<?>) occurrencesToRemove); } else { return removeOccurrencesImpl(multisetToModify, occurrencesToRemove); } }
class class_name[name] begin[{] method[removeOccurrences, return_type[type[boolean]], modifier[public static], parameter[multisetToModify, occurrencesToRemove]] begin[{] if[binary_operation[member[.occurrencesToRemove], instanceof, type[Multiset]]] begin[{] return[call[.removeOccurrencesImpl, parameter[member[.multisetToModify], Cast(expression=MemberReference(member=occurrencesToRemove, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=[TypeArgument(pattern_type=?, type=None)], dimensions=[], name=Multiset, sub_type=None))]]] else begin[{] return[call[.removeOccurrencesImpl, parameter[member[.multisetToModify], member[.occurrencesToRemove]]]] end[}] end[}] END[}]
Keyword[public] Keyword[static] Keyword[boolean] identifier[removeOccurrences] operator[SEP] identifier[Multiset] operator[<] operator[?] operator[>] identifier[multisetToModify] , identifier[Iterable] operator[<] operator[?] operator[>] identifier[occurrencesToRemove] operator[SEP] { Keyword[if] operator[SEP] identifier[occurrencesToRemove] Keyword[instanceof] identifier[Multiset] operator[SEP] { Keyword[return] identifier[removeOccurrencesImpl] operator[SEP] identifier[multisetToModify] , operator[SEP] identifier[Multiset] operator[<] operator[?] operator[>] operator[SEP] identifier[occurrencesToRemove] operator[SEP] operator[SEP] } Keyword[else] { Keyword[return] identifier[removeOccurrencesImpl] operator[SEP] identifier[multisetToModify] , identifier[occurrencesToRemove] operator[SEP] operator[SEP] } }
public void restore(ObjectInputStream ois, int dataVersion) { if (TraceComponent.isAnyTracingEnabled() && tc.isEntryEnabled()) SibTr.entry( tc, "restore", new Object[] { ois, new Integer(dataVersion) }); checkPersistentVersionId(dataVersion); try { HashMap hm = (HashMap)ois.readObject(); restorePersistentDestinationData(hm); } catch (Exception e) { FFDCFilter.processException( e, "com.ibm.ws.sib.processor.impl.store.itemstreams.PtoPMessageItemStream.restore", "1:464:1.93.1.14", this); SibTr.exception(tc, e); SibTr.error(tc, "INTERNAL_MESSAGING_ERROR_CWSIP0002", new Object[] { "com.ibm.ws.sib.processor.impl.store.itemstreams.PtoPMessageItemStream", "1:471:1.93.1.14", e }); if (TraceComponent.isAnyTracingEnabled() && tc.isEntryEnabled()) SibTr.exit(tc, "restore", e); throw new SIErrorException( nls.getFormattedMessage( "INTERNAL_MESSAGING_ERROR_CWSIP0002", new Object[] { "com.ibm.ws.sib.processor.impl.store.itemstreams.PtoPMessageItemStream", "1:482:1.93.1.14", e }, null), e); } if (TraceComponent.isAnyTracingEnabled() && tc.isEntryEnabled()) SibTr.exit(tc, "restore"); }
class class_name[name] begin[{] method[restore, return_type[void], modifier[public], parameter[ois, dataVersion]] begin[{] if[binary_operation[call[TraceComponent.isAnyTracingEnabled, parameter[]], &&, call[tc.isEntryEnabled, parameter[]]]] begin[{] call[SibTr.entry, parameter[member[.tc], literal["restore"], ArrayCreator(dimensions=[None], initializer=ArrayInitializer(initializers=[MemberReference(member=ois, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), ClassCreator(arguments=[MemberReference(member=dataVersion, 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=Integer, sub_type=None))]), postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Object, sub_type=None))]] else begin[{] None end[}] call[.checkPersistentVersionId, parameter[member[.dataVersion]]] TryStatement(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Cast(expression=MethodInvocation(arguments=[], member=readObject, postfix_operators=[], prefix_operators=[], qualifier=ois, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=HashMap, sub_type=None)), name=hm)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=HashMap, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=hm, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=restorePersistentDestinationData, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="com.ibm.ws.sib.processor.impl.store.itemstreams.PtoPMessageItemStream.restore"), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="1:464:1.93.1.14"), This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[])], member=processException, postfix_operators=[], prefix_operators=[], qualifier=FFDCFilter, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=tc, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=exception, postfix_operators=[], prefix_operators=[], qualifier=SibTr, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=tc, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="INTERNAL_MESSAGING_ERROR_CWSIP0002"), ArrayCreator(dimensions=[None], initializer=ArrayInitializer(initializers=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="com.ibm.ws.sib.processor.impl.store.itemstreams.PtoPMessageItemStream"), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="1:471:1.93.1.14"), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])]), postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Object, sub_type=None))], member=error, postfix_operators=[], prefix_operators=[], qualifier=SibTr, selectors=[], type_arguments=None), label=None), IfStatement(condition=BinaryOperation(operandl=MethodInvocation(arguments=[], member=isAnyTracingEnabled, postfix_operators=[], prefix_operators=[], qualifier=TraceComponent, selectors=[], type_arguments=None), operandr=MethodInvocation(arguments=[], member=isEntryEnabled, postfix_operators=[], prefix_operators=[], qualifier=tc, selectors=[], type_arguments=None), operator=&&), else_statement=None, label=None, then_statement=StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=tc, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="restore"), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=exit, postfix_operators=[], prefix_operators=[], qualifier=SibTr, selectors=[], type_arguments=None), label=None)), ThrowStatement(expression=ClassCreator(arguments=[MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="INTERNAL_MESSAGING_ERROR_CWSIP0002"), ArrayCreator(dimensions=[None], initializer=ArrayInitializer(initializers=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="com.ibm.ws.sib.processor.impl.store.itemstreams.PtoPMessageItemStream"), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="1:482:1.93.1.14"), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])]), postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Object, sub_type=None)), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null)], member=getFormattedMessage, postfix_operators=[], prefix_operators=[], qualifier=nls, 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=SIErrorException, sub_type=None)), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['Exception']))], finally_block=None, label=None, resources=None) if[binary_operation[call[TraceComponent.isAnyTracingEnabled, parameter[]], &&, call[tc.isEntryEnabled, parameter[]]]] begin[{] call[SibTr.exit, parameter[member[.tc], literal["restore"]]] else begin[{] None end[}] end[}] END[}]
Keyword[public] Keyword[void] identifier[restore] operator[SEP] identifier[ObjectInputStream] identifier[ois] , Keyword[int] identifier[dataVersion] 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] , Keyword[new] identifier[Object] operator[SEP] operator[SEP] { identifier[ois] , Keyword[new] identifier[Integer] operator[SEP] identifier[dataVersion] operator[SEP] } operator[SEP] operator[SEP] identifier[checkPersistentVersionId] operator[SEP] identifier[dataVersion] operator[SEP] operator[SEP] Keyword[try] { identifier[HashMap] identifier[hm] operator[=] operator[SEP] identifier[HashMap] operator[SEP] identifier[ois] operator[SEP] identifier[readObject] operator[SEP] operator[SEP] operator[SEP] identifier[restorePersistentDestinationData] operator[SEP] identifier[hm] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[Exception] identifier[e] operator[SEP] { identifier[FFDCFilter] operator[SEP] identifier[processException] operator[SEP] identifier[e] , literal[String] , literal[String] , Keyword[this] operator[SEP] operator[SEP] identifier[SibTr] operator[SEP] identifier[exception] operator[SEP] identifier[tc] , identifier[e] operator[SEP] operator[SEP] identifier[SibTr] operator[SEP] identifier[error] operator[SEP] identifier[tc] , literal[String] , Keyword[new] identifier[Object] operator[SEP] operator[SEP] { literal[String] , literal[String] , identifier[e] } 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[e] operator[SEP] operator[SEP] Keyword[throw] Keyword[new] identifier[SIErrorException] operator[SEP] identifier[nls] operator[SEP] identifier[getFormattedMessage] operator[SEP] literal[String] , Keyword[new] identifier[Object] operator[SEP] operator[SEP] { literal[String] , literal[String] , identifier[e] } , Other[null] operator[SEP] , identifier[e] 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] operator[SEP] operator[SEP] }
public static int computeRawMessageSetExtensionSize( final int fieldNumber, final ByteString value) { return computeTagSize(WireFormat.MESSAGE_SET_ITEM) * 2 + computeUInt32Size(WireFormat.MESSAGE_SET_TYPE_ID, fieldNumber) + computeBytesSize(WireFormat.MESSAGE_SET_MESSAGE, value); }
class class_name[name] begin[{] method[computeRawMessageSetExtensionSize, return_type[type[int]], modifier[public static], parameter[fieldNumber, value]] begin[{] return[binary_operation[binary_operation[binary_operation[call[.computeTagSize, parameter[member[WireFormat.MESSAGE_SET_ITEM]]], *, literal[2]], +, call[.computeUInt32Size, parameter[member[WireFormat.MESSAGE_SET_TYPE_ID], member[.fieldNumber]]]], +, call[.computeBytesSize, parameter[member[WireFormat.MESSAGE_SET_MESSAGE], member[.value]]]]] end[}] END[}]
Keyword[public] Keyword[static] Keyword[int] identifier[computeRawMessageSetExtensionSize] operator[SEP] Keyword[final] Keyword[int] identifier[fieldNumber] , Keyword[final] identifier[ByteString] identifier[value] operator[SEP] { Keyword[return] identifier[computeTagSize] operator[SEP] identifier[WireFormat] operator[SEP] identifier[MESSAGE_SET_ITEM] operator[SEP] operator[*] Other[2] operator[+] identifier[computeUInt32Size] operator[SEP] identifier[WireFormat] operator[SEP] identifier[MESSAGE_SET_TYPE_ID] , identifier[fieldNumber] operator[SEP] operator[+] identifier[computeBytesSize] operator[SEP] identifier[WireFormat] operator[SEP] identifier[MESSAGE_SET_MESSAGE] , identifier[value] operator[SEP] operator[SEP] }
public void close(ResultSet rs, Statement st, Connection conn) { if (rs != null) {try {rs.close();} catch (SQLException e) {LogKit.error(e.getMessage(), e);}} if (st != null) {try {st.close();} catch (SQLException e) {LogKit.error(e.getMessage(), e);}} if (threadLocal.get() == null) { // in transaction if conn in threadlocal if (conn != null) {try {conn.close();} catch (SQLException e) {throw new ActiveRecordException(e);}} } }
class class_name[name] begin[{] method[close, return_type[void], modifier[public], parameter[rs, st, conn]] begin[{] if[binary_operation[member[.rs], !=, literal[null]]] begin[{] TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[], member=close, postfix_operators=[], prefix_operators=[], qualifier=rs, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getMessage, postfix_operators=[], prefix_operators=[], qualifier=e, selectors=[], type_arguments=None), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=error, postfix_operators=[], prefix_operators=[], qualifier=LogKit, selectors=[], type_arguments=None), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['SQLException']))], finally_block=None, label=None, resources=None) else begin[{] None end[}] if[binary_operation[member[.st], !=, literal[null]]] begin[{] TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[], member=close, postfix_operators=[], prefix_operators=[], qualifier=st, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getMessage, postfix_operators=[], prefix_operators=[], qualifier=e, selectors=[], type_arguments=None), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=error, postfix_operators=[], prefix_operators=[], qualifier=LogKit, selectors=[], type_arguments=None), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['SQLException']))], finally_block=None, label=None, resources=None) else begin[{] None end[}] if[binary_operation[call[threadLocal.get, parameter[]], ==, literal[null]]] begin[{] if[binary_operation[member[.conn], !=, literal[null]]] begin[{] TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[], member=close, postfix_operators=[], prefix_operators=[], qualifier=conn, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[ThrowStatement(expression=ClassCreator(arguments=[MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=ActiveRecordException, sub_type=None)), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['SQLException']))], finally_block=None, label=None, resources=None) else begin[{] None end[}] else begin[{] None end[}] end[}] END[}]
Keyword[public] Keyword[void] identifier[close] operator[SEP] identifier[ResultSet] identifier[rs] , identifier[Statement] identifier[st] , identifier[Connection] identifier[conn] operator[SEP] { Keyword[if] operator[SEP] identifier[rs] operator[!=] Other[null] operator[SEP] { Keyword[try] { identifier[rs] operator[SEP] identifier[close] operator[SEP] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[SQLException] identifier[e] operator[SEP] { identifier[LogKit] operator[SEP] identifier[error] operator[SEP] identifier[e] operator[SEP] identifier[getMessage] operator[SEP] operator[SEP] , identifier[e] operator[SEP] operator[SEP] } } Keyword[if] operator[SEP] identifier[st] operator[!=] Other[null] operator[SEP] { Keyword[try] { identifier[st] operator[SEP] identifier[close] operator[SEP] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[SQLException] identifier[e] operator[SEP] { identifier[LogKit] operator[SEP] identifier[error] operator[SEP] identifier[e] operator[SEP] identifier[getMessage] operator[SEP] operator[SEP] , identifier[e] operator[SEP] operator[SEP] } } Keyword[if] operator[SEP] identifier[threadLocal] operator[SEP] identifier[get] operator[SEP] operator[SEP] operator[==] Other[null] operator[SEP] { Keyword[if] operator[SEP] identifier[conn] operator[!=] Other[null] operator[SEP] { Keyword[try] { identifier[conn] operator[SEP] identifier[close] operator[SEP] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[SQLException] identifier[e] operator[SEP] { Keyword[throw] Keyword[new] identifier[ActiveRecordException] operator[SEP] identifier[e] operator[SEP] operator[SEP] } } } }
public final hqlParser.parameter_return parameter() throws RecognitionException { hqlParser.parameter_return retval = new hqlParser.parameter_return(); retval.start = input.LT(1); CommonTree root_0 = null; Token COLON137=null; Token PARAM139=null; Token NUM_INT140=null; ParserRuleReturnScope identifier138 =null; CommonTree COLON137_tree=null; CommonTree PARAM139_tree=null; CommonTree NUM_INT140_tree=null; try { // hql.g:348:2: ( COLON ^ identifier | PARAM ^ ( NUM_INT )? ) int alt44=2; int LA44_0 = input.LA(1); if ( (LA44_0==COLON) ) { alt44=1; } else if ( (LA44_0==PARAM) ) { alt44=2; } else { NoViableAltException nvae = new NoViableAltException("", 44, 0, input); throw nvae; } switch (alt44) { case 1 : // hql.g:348:4: COLON ^ identifier { root_0 = (CommonTree)adaptor.nil(); COLON137=(Token)match(input,COLON,FOLLOW_COLON_in_parameter1670); COLON137_tree = (CommonTree)adaptor.create(COLON137); root_0 = (CommonTree)adaptor.becomeRoot(COLON137_tree, root_0); pushFollow(FOLLOW_identifier_in_parameter1673); identifier138=identifier(); state._fsp--; adaptor.addChild(root_0, identifier138.getTree()); } break; case 2 : // hql.g:349:4: PARAM ^ ( NUM_INT )? { root_0 = (CommonTree)adaptor.nil(); PARAM139=(Token)match(input,PARAM,FOLLOW_PARAM_in_parameter1678); PARAM139_tree = (CommonTree)adaptor.create(PARAM139); root_0 = (CommonTree)adaptor.becomeRoot(PARAM139_tree, root_0); // hql.g:349:11: ( NUM_INT )? int alt43=2; int LA43_0 = input.LA(1); if ( (LA43_0==NUM_INT) ) { alt43=1; } switch (alt43) { case 1 : // hql.g:349:12: NUM_INT { NUM_INT140=(Token)match(input,NUM_INT,FOLLOW_NUM_INT_in_parameter1682); NUM_INT140_tree = (CommonTree)adaptor.create(NUM_INT140); adaptor.addChild(root_0, NUM_INT140_tree); } break; } } break; } retval.stop = input.LT(-1); retval.tree = (CommonTree)adaptor.rulePostProcessing(root_0); adaptor.setTokenBoundaries(retval.tree, retval.start, retval.stop); } catch (RecognitionException re) { reportError(re); recover(input,re); retval.tree = (CommonTree)adaptor.errorNode(input, retval.start, input.LT(-1), re); } finally { // do for sure before leaving } return retval; }
class class_name[name] begin[{] method[parameter, return_type[type[hqlParser]], modifier[final public], parameter[]] begin[{] local_variable[type[hqlParser], retval] assign[member[retval.start], call[input.LT, parameter[literal[1]]]] local_variable[type[CommonTree], root_0] local_variable[type[Token], COLON137] local_variable[type[Token], PARAM139] local_variable[type[Token], NUM_INT140] local_variable[type[ParserRuleReturnScope], identifier138] local_variable[type[CommonTree], COLON137_tree] local_variable[type[CommonTree], PARAM139_tree] local_variable[type[CommonTree], NUM_INT140_tree] TryStatement(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2), name=alt44)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1)], member=LA, postfix_operators=[], prefix_operators=[], qualifier=input, selectors=[], type_arguments=None), name=LA44_0)], modifiers=set(), type=BasicType(dimensions=[], name=int)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=LA44_0, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=COLON, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator===), else_statement=IfStatement(condition=BinaryOperation(operandl=MemberReference(member=LA44_0, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=PARAM, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator===), else_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=""), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=44), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), MemberReference(member=input, 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=NoViableAltException, sub_type=None)), name=nvae)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=NoViableAltException, sub_type=None)), ThrowStatement(expression=MemberReference(member=nvae, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=alt44, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2)), label=None)])), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=alt44, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1)), label=None)])), SwitchStatement(cases=[SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1)], statements=[BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=root_0, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Cast(expression=MethodInvocation(arguments=[], member=nil, postfix_operators=[], prefix_operators=[], qualifier=adaptor, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=CommonTree, sub_type=None))), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=COLON137, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Cast(expression=MethodInvocation(arguments=[MemberReference(member=input, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=COLON, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=FOLLOW_COLON_in_parameter1670, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=match, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=Token, sub_type=None))), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=COLON137_tree, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Cast(expression=MethodInvocation(arguments=[MemberReference(member=COLON137, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=create, postfix_operators=[], prefix_operators=[], qualifier=adaptor, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=CommonTree, sub_type=None))), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=root_0, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Cast(expression=MethodInvocation(arguments=[MemberReference(member=COLON137_tree, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=root_0, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=becomeRoot, postfix_operators=[], prefix_operators=[], qualifier=adaptor, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=CommonTree, sub_type=None))), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=FOLLOW_identifier_in_parameter1673, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=pushFollow, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=identifier138, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=identifier, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)), label=None), StatementExpression(expression=MemberReference(member=_fsp, postfix_operators=['--'], prefix_operators=[], qualifier=state, selectors=[]), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=root_0, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MethodInvocation(arguments=[], member=getTree, postfix_operators=[], prefix_operators=[], qualifier=identifier138, selectors=[], type_arguments=None)], member=addChild, postfix_operators=[], prefix_operators=[], qualifier=adaptor, selectors=[], type_arguments=None), label=None)]), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2)], statements=[BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=root_0, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Cast(expression=MethodInvocation(arguments=[], member=nil, postfix_operators=[], prefix_operators=[], qualifier=adaptor, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=CommonTree, sub_type=None))), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=PARAM139, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Cast(expression=MethodInvocation(arguments=[MemberReference(member=input, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=PARAM, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=FOLLOW_PARAM_in_parameter1678, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=match, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=Token, sub_type=None))), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=PARAM139_tree, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Cast(expression=MethodInvocation(arguments=[MemberReference(member=PARAM139, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=create, postfix_operators=[], prefix_operators=[], qualifier=adaptor, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=CommonTree, sub_type=None))), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=root_0, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Cast(expression=MethodInvocation(arguments=[MemberReference(member=PARAM139_tree, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=root_0, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=becomeRoot, postfix_operators=[], prefix_operators=[], qualifier=adaptor, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=CommonTree, sub_type=None))), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2), name=alt43)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1)], member=LA, postfix_operators=[], prefix_operators=[], qualifier=input, selectors=[], type_arguments=None), name=LA43_0)], modifiers=set(), type=BasicType(dimensions=[], name=int)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=LA43_0, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=NUM_INT, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator===), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=alt43, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1)), label=None)])), SwitchStatement(cases=[SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1)], statements=[BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=NUM_INT140, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Cast(expression=MethodInvocation(arguments=[MemberReference(member=input, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=NUM_INT, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=FOLLOW_NUM_INT_in_parameter1682, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=match, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=Token, sub_type=None))), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=NUM_INT140_tree, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Cast(expression=MethodInvocation(arguments=[MemberReference(member=NUM_INT140, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=create, postfix_operators=[], prefix_operators=[], qualifier=adaptor, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=CommonTree, sub_type=None))), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=root_0, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=NUM_INT140_tree, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=addChild, postfix_operators=[], prefix_operators=[], qualifier=adaptor, selectors=[], type_arguments=None), label=None)]), BreakStatement(goto=None, label=None)])], expression=MemberReference(member=alt43, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), label=None)]), BreakStatement(goto=None, label=None)])], expression=MemberReference(member=alt44, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=stop, postfix_operators=[], prefix_operators=[], qualifier=retval, selectors=[]), type==, value=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=['-'], qualifier=None, selectors=[], value=1)], member=LT, postfix_operators=[], prefix_operators=[], qualifier=input, selectors=[], type_arguments=None)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=tree, postfix_operators=[], prefix_operators=[], qualifier=retval, selectors=[]), type==, value=Cast(expression=MethodInvocation(arguments=[MemberReference(member=root_0, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=rulePostProcessing, postfix_operators=[], prefix_operators=[], qualifier=adaptor, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=CommonTree, sub_type=None))), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=tree, postfix_operators=[], prefix_operators=[], qualifier=retval, selectors=[]), MemberReference(member=start, postfix_operators=[], prefix_operators=[], qualifier=retval, selectors=[]), MemberReference(member=stop, postfix_operators=[], prefix_operators=[], qualifier=retval, selectors=[])], member=setTokenBoundaries, postfix_operators=[], prefix_operators=[], qualifier=adaptor, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=re, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=reportError, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=input, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=re, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=recover, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=tree, postfix_operators=[], prefix_operators=[], qualifier=retval, selectors=[]), type==, value=Cast(expression=MethodInvocation(arguments=[MemberReference(member=input, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=start, postfix_operators=[], prefix_operators=[], qualifier=retval, selectors=[]), MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=['-'], qualifier=None, selectors=[], value=1)], member=LT, postfix_operators=[], prefix_operators=[], qualifier=input, selectors=[], type_arguments=None), MemberReference(member=re, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=errorNode, postfix_operators=[], prefix_operators=[], qualifier=adaptor, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=CommonTree, sub_type=None))), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=re, types=['RecognitionException']))], finally_block=[], label=None, resources=None) return[member[.retval]] end[}] END[}]
Keyword[public] Keyword[final] identifier[hqlParser] operator[SEP] identifier[parameter_return] identifier[parameter] operator[SEP] operator[SEP] Keyword[throws] identifier[RecognitionException] { identifier[hqlParser] operator[SEP] identifier[parameter_return] identifier[retval] operator[=] Keyword[new] identifier[hqlParser] operator[SEP] identifier[parameter_return] operator[SEP] operator[SEP] operator[SEP] identifier[retval] operator[SEP] identifier[start] operator[=] identifier[input] operator[SEP] identifier[LT] operator[SEP] Other[1] operator[SEP] operator[SEP] identifier[CommonTree] identifier[root_0] operator[=] Other[null] operator[SEP] identifier[Token] identifier[COLON137] operator[=] Other[null] operator[SEP] identifier[Token] identifier[PARAM139] operator[=] Other[null] operator[SEP] identifier[Token] identifier[NUM_INT140] operator[=] Other[null] operator[SEP] identifier[ParserRuleReturnScope] identifier[identifier138] operator[=] Other[null] operator[SEP] identifier[CommonTree] identifier[COLON137_tree] operator[=] Other[null] operator[SEP] identifier[CommonTree] identifier[PARAM139_tree] operator[=] Other[null] operator[SEP] identifier[CommonTree] identifier[NUM_INT140_tree] operator[=] Other[null] operator[SEP] Keyword[try] { Keyword[int] identifier[alt44] operator[=] Other[2] operator[SEP] Keyword[int] identifier[LA44_0] operator[=] identifier[input] operator[SEP] identifier[LA] operator[SEP] Other[1] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[SEP] identifier[LA44_0] operator[==] identifier[COLON] operator[SEP] operator[SEP] { identifier[alt44] operator[=] Other[1] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] operator[SEP] identifier[LA44_0] operator[==] identifier[PARAM] operator[SEP] operator[SEP] { identifier[alt44] operator[=] Other[2] operator[SEP] } Keyword[else] { identifier[NoViableAltException] identifier[nvae] operator[=] Keyword[new] identifier[NoViableAltException] operator[SEP] literal[String] , Other[44] , Other[0] , identifier[input] operator[SEP] operator[SEP] Keyword[throw] identifier[nvae] operator[SEP] } Keyword[switch] operator[SEP] identifier[alt44] operator[SEP] { Keyword[case] Other[1] operator[:] { identifier[root_0] operator[=] operator[SEP] identifier[CommonTree] operator[SEP] identifier[adaptor] operator[SEP] identifier[nil] operator[SEP] operator[SEP] operator[SEP] identifier[COLON137] operator[=] operator[SEP] identifier[Token] operator[SEP] identifier[match] operator[SEP] identifier[input] , identifier[COLON] , identifier[FOLLOW_COLON_in_parameter1670] operator[SEP] operator[SEP] identifier[COLON137_tree] operator[=] operator[SEP] identifier[CommonTree] operator[SEP] identifier[adaptor] operator[SEP] identifier[create] operator[SEP] identifier[COLON137] operator[SEP] operator[SEP] identifier[root_0] operator[=] operator[SEP] identifier[CommonTree] operator[SEP] identifier[adaptor] operator[SEP] identifier[becomeRoot] operator[SEP] identifier[COLON137_tree] , identifier[root_0] operator[SEP] operator[SEP] identifier[pushFollow] operator[SEP] identifier[FOLLOW_identifier_in_parameter1673] operator[SEP] operator[SEP] identifier[identifier138] operator[=] identifier[identifier] operator[SEP] operator[SEP] operator[SEP] identifier[state] operator[SEP] identifier[_fsp] operator[--] operator[SEP] identifier[adaptor] operator[SEP] identifier[addChild] operator[SEP] identifier[root_0] , identifier[identifier138] operator[SEP] identifier[getTree] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[break] operator[SEP] Keyword[case] Other[2] operator[:] { identifier[root_0] operator[=] operator[SEP] identifier[CommonTree] operator[SEP] identifier[adaptor] operator[SEP] identifier[nil] operator[SEP] operator[SEP] operator[SEP] identifier[PARAM139] operator[=] operator[SEP] identifier[Token] operator[SEP] identifier[match] operator[SEP] identifier[input] , identifier[PARAM] , identifier[FOLLOW_PARAM_in_parameter1678] operator[SEP] operator[SEP] identifier[PARAM139_tree] operator[=] operator[SEP] identifier[CommonTree] operator[SEP] identifier[adaptor] operator[SEP] identifier[create] operator[SEP] identifier[PARAM139] operator[SEP] operator[SEP] identifier[root_0] operator[=] operator[SEP] identifier[CommonTree] operator[SEP] identifier[adaptor] operator[SEP] identifier[becomeRoot] operator[SEP] identifier[PARAM139_tree] , identifier[root_0] operator[SEP] operator[SEP] Keyword[int] identifier[alt43] operator[=] Other[2] operator[SEP] Keyword[int] identifier[LA43_0] operator[=] identifier[input] operator[SEP] identifier[LA] operator[SEP] Other[1] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[SEP] identifier[LA43_0] operator[==] identifier[NUM_INT] operator[SEP] operator[SEP] { identifier[alt43] operator[=] Other[1] operator[SEP] } Keyword[switch] operator[SEP] identifier[alt43] operator[SEP] { Keyword[case] Other[1] operator[:] { identifier[NUM_INT140] operator[=] operator[SEP] identifier[Token] operator[SEP] identifier[match] operator[SEP] identifier[input] , identifier[NUM_INT] , identifier[FOLLOW_NUM_INT_in_parameter1682] operator[SEP] operator[SEP] identifier[NUM_INT140_tree] operator[=] operator[SEP] identifier[CommonTree] operator[SEP] identifier[adaptor] operator[SEP] identifier[create] operator[SEP] identifier[NUM_INT140] operator[SEP] operator[SEP] identifier[adaptor] operator[SEP] identifier[addChild] operator[SEP] identifier[root_0] , identifier[NUM_INT140_tree] operator[SEP] operator[SEP] } Keyword[break] operator[SEP] } } Keyword[break] operator[SEP] } identifier[retval] operator[SEP] identifier[stop] operator[=] identifier[input] operator[SEP] identifier[LT] operator[SEP] operator[-] Other[1] operator[SEP] operator[SEP] identifier[retval] operator[SEP] identifier[tree] operator[=] operator[SEP] identifier[CommonTree] operator[SEP] identifier[adaptor] operator[SEP] identifier[rulePostProcessing] operator[SEP] identifier[root_0] operator[SEP] operator[SEP] identifier[adaptor] operator[SEP] identifier[setTokenBoundaries] operator[SEP] identifier[retval] operator[SEP] identifier[tree] , identifier[retval] operator[SEP] identifier[start] , identifier[retval] operator[SEP] identifier[stop] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[RecognitionException] identifier[re] operator[SEP] { identifier[reportError] operator[SEP] identifier[re] operator[SEP] operator[SEP] identifier[recover] operator[SEP] identifier[input] , identifier[re] operator[SEP] operator[SEP] identifier[retval] operator[SEP] identifier[tree] operator[=] operator[SEP] identifier[CommonTree] operator[SEP] identifier[adaptor] operator[SEP] identifier[errorNode] operator[SEP] identifier[input] , identifier[retval] operator[SEP] identifier[start] , identifier[input] operator[SEP] identifier[LT] operator[SEP] operator[-] Other[1] operator[SEP] , identifier[re] operator[SEP] operator[SEP] } Keyword[finally] { } Keyword[return] identifier[retval] operator[SEP] }
public UserQuery createUserQuery(UserQuery userQueryParam) { if(userQueryParam != null && this.serviceTicket != null) { userQueryParam.setServiceTicket(this.serviceTicket); } return new UserQuery(this.putJson( userQueryParam, WS.Path.UserQuery.Version1.userQueryCreate())); }
class class_name[name] begin[{] method[createUserQuery, return_type[type[UserQuery]], modifier[public], parameter[userQueryParam]] begin[{] if[binary_operation[binary_operation[member[.userQueryParam], !=, literal[null]], &&, binary_operation[THIS[member[None.serviceTicket]], !=, literal[null]]]] begin[{] call[userQueryParam.setServiceTicket, parameter[THIS[member[None.serviceTicket]]]] else begin[{] None end[}] return[ClassCreator(arguments=[This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MethodInvocation(arguments=[MemberReference(member=userQueryParam, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MethodInvocation(arguments=[], member=userQueryCreate, postfix_operators=[], prefix_operators=[], qualifier=WS.Path.UserQuery.Version1, selectors=[], type_arguments=None)], member=putJson, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=UserQuery, sub_type=None))] end[}] END[}]
Keyword[public] identifier[UserQuery] identifier[createUserQuery] operator[SEP] identifier[UserQuery] identifier[userQueryParam] operator[SEP] { Keyword[if] operator[SEP] identifier[userQueryParam] operator[!=] Other[null] operator[&&] Keyword[this] operator[SEP] identifier[serviceTicket] operator[!=] Other[null] operator[SEP] { identifier[userQueryParam] operator[SEP] identifier[setServiceTicket] operator[SEP] Keyword[this] operator[SEP] identifier[serviceTicket] operator[SEP] operator[SEP] } Keyword[return] Keyword[new] identifier[UserQuery] operator[SEP] Keyword[this] operator[SEP] identifier[putJson] operator[SEP] identifier[userQueryParam] , identifier[WS] operator[SEP] identifier[Path] operator[SEP] identifier[UserQuery] operator[SEP] identifier[Version1] operator[SEP] identifier[userQueryCreate] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] }
private void checkVersionOnJoinedInheritance(List<String> errors, Config config) { for (Entity entity : config.getProject().getRootEntities().getList()) { if (entity.hasInheritance() && entity.getInheritance().is(JOINED)) { for (Entity child : entity.getAllChildrenRecursive()) { for (Attribute attribute : child.getAttributes().getList()) { if (attribute.isVersion()) { errors.add(attribute.getFullColumnName() + " is a version column, you should not have @Version in a child joined entity." + " Use ignore=true in columnConfig or remove it from your table."); } } } } } }
class class_name[name] begin[{] method[checkVersionOnJoinedInheritance, return_type[void], modifier[private], parameter[errors, config]] begin[{] ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=MethodInvocation(arguments=[], member=hasInheritance, postfix_operators=[], prefix_operators=[], qualifier=entity, selectors=[], type_arguments=None), operandr=MethodInvocation(arguments=[], member=getInheritance, postfix_operators=[], prefix_operators=[], qualifier=entity, selectors=[MethodInvocation(arguments=[MemberReference(member=JOINED, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=is, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), operator=&&), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[ForStatement(body=BlockStatement(label=None, statements=[ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=MethodInvocation(arguments=[], member=isVersion, postfix_operators=[], prefix_operators=[], qualifier=attribute, selectors=[], type_arguments=None), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[BinaryOperation(operandl=BinaryOperation(operandl=MethodInvocation(arguments=[], member=getFullColumnName, postfix_operators=[], prefix_operators=[], qualifier=attribute, selectors=[], type_arguments=None), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=" is a version column, you should not have @Version in a child joined entity."), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=" Use ignore=true in columnConfig or remove it from your table."), operator=+)], member=add, postfix_operators=[], prefix_operators=[], qualifier=errors, selectors=[], type_arguments=None), label=None)]))]), control=EnhancedForControl(iterable=MethodInvocation(arguments=[], member=getAttributes, postfix_operators=[], prefix_operators=[], qualifier=child, selectors=[MethodInvocation(arguments=[], member=getList, 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=attribute)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Attribute, sub_type=None))), label=None)]), control=EnhancedForControl(iterable=MethodInvocation(arguments=[], member=getAllChildrenRecursive, postfix_operators=[], prefix_operators=[], qualifier=entity, selectors=[], type_arguments=None), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=child)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Entity, sub_type=None))), label=None)]))]), control=EnhancedForControl(iterable=MethodInvocation(arguments=[], member=getProject, postfix_operators=[], prefix_operators=[], qualifier=config, selectors=[MethodInvocation(arguments=[], member=getRootEntities, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[], member=getList, 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=entity)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Entity, sub_type=None))), label=None) end[}] END[}]
Keyword[private] Keyword[void] identifier[checkVersionOnJoinedInheritance] operator[SEP] identifier[List] operator[<] identifier[String] operator[>] identifier[errors] , identifier[Config] identifier[config] operator[SEP] { Keyword[for] operator[SEP] identifier[Entity] identifier[entity] operator[:] identifier[config] operator[SEP] identifier[getProject] operator[SEP] operator[SEP] operator[SEP] identifier[getRootEntities] operator[SEP] operator[SEP] operator[SEP] identifier[getList] operator[SEP] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] identifier[entity] operator[SEP] identifier[hasInheritance] operator[SEP] operator[SEP] operator[&&] identifier[entity] operator[SEP] identifier[getInheritance] operator[SEP] operator[SEP] operator[SEP] identifier[is] operator[SEP] identifier[JOINED] operator[SEP] operator[SEP] { Keyword[for] operator[SEP] identifier[Entity] identifier[child] operator[:] identifier[entity] operator[SEP] identifier[getAllChildrenRecursive] operator[SEP] operator[SEP] operator[SEP] { Keyword[for] operator[SEP] identifier[Attribute] identifier[attribute] operator[:] identifier[child] operator[SEP] identifier[getAttributes] operator[SEP] operator[SEP] operator[SEP] identifier[getList] operator[SEP] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] identifier[attribute] operator[SEP] identifier[isVersion] operator[SEP] operator[SEP] operator[SEP] { identifier[errors] operator[SEP] identifier[add] operator[SEP] identifier[attribute] operator[SEP] identifier[getFullColumnName] operator[SEP] operator[SEP] operator[+] literal[String] operator[+] literal[String] operator[SEP] operator[SEP] } } } } } }
private boolean rotateUntilInLowerCorner(Result result) { // sanity check corners. There should only be one exactly one black final int topLeft = getTotalGridElements() - gridWidth; final int topRight = getTotalGridElements() - 1; final int bottomLeft = 0; final int bottomRight = gridWidth - 1; if (classified[bottomLeft] + classified[bottomRight] + classified[topRight] + classified[topLeft] != 1) return true; // Rotate until the black corner is in the lower left hand corner on the image. // remember that origin is the top left corner result.rotation = 0; while (classified[topLeft] != 1) { result.rotation++; rotateClockWise(); } return false; }
class class_name[name] begin[{] method[rotateUntilInLowerCorner, return_type[type[boolean]], modifier[private], parameter[result]] begin[{] local_variable[type[int], topLeft] local_variable[type[int], topRight] local_variable[type[int], bottomLeft] local_variable[type[int], bottomRight] if[binary_operation[binary_operation[binary_operation[binary_operation[member[.classified], +, member[.classified]], +, member[.classified]], +, member[.classified]], !=, literal[1]]] begin[{] return[literal[true]] else begin[{] None end[}] assign[member[result.rotation], literal[0]] while[binary_operation[member[.classified], !=, literal[1]]] begin[{] member[result.rotation] call[.rotateClockWise, parameter[]] end[}] return[literal[false]] end[}] END[}]
Keyword[private] Keyword[boolean] identifier[rotateUntilInLowerCorner] operator[SEP] identifier[Result] identifier[result] operator[SEP] { Keyword[final] Keyword[int] identifier[topLeft] operator[=] identifier[getTotalGridElements] operator[SEP] operator[SEP] operator[-] identifier[gridWidth] operator[SEP] Keyword[final] Keyword[int] identifier[topRight] operator[=] identifier[getTotalGridElements] operator[SEP] operator[SEP] operator[-] Other[1] operator[SEP] Keyword[final] Keyword[int] identifier[bottomLeft] operator[=] Other[0] operator[SEP] Keyword[final] Keyword[int] identifier[bottomRight] operator[=] identifier[gridWidth] operator[-] Other[1] operator[SEP] Keyword[if] operator[SEP] identifier[classified] operator[SEP] identifier[bottomLeft] operator[SEP] operator[+] identifier[classified] operator[SEP] identifier[bottomRight] operator[SEP] operator[+] identifier[classified] operator[SEP] identifier[topRight] operator[SEP] operator[+] identifier[classified] operator[SEP] identifier[topLeft] operator[SEP] operator[!=] Other[1] operator[SEP] Keyword[return] literal[boolean] operator[SEP] identifier[result] operator[SEP] identifier[rotation] operator[=] Other[0] operator[SEP] Keyword[while] operator[SEP] identifier[classified] operator[SEP] identifier[topLeft] operator[SEP] operator[!=] Other[1] operator[SEP] { identifier[result] operator[SEP] identifier[rotation] operator[++] operator[SEP] identifier[rotateClockWise] operator[SEP] operator[SEP] operator[SEP] } Keyword[return] literal[boolean] operator[SEP] }
private void informStatusCodeListener(@Nullable Response response) { if (response == null) { return; } ScheduledActions<CreateEvents> actions = onStatusCodeActions.get(response.getStatus()); if (actions != null) { postHelper.executeCommonActions(actions, sessionChecker.isSameSession()); } }
class class_name[name] begin[{] method[informStatusCodeListener, return_type[void], modifier[private], parameter[response]] begin[{] if[binary_operation[member[.response], ==, literal[null]]] begin[{] return[None] else begin[{] None end[}] local_variable[type[ScheduledActions], actions] if[binary_operation[member[.actions], !=, literal[null]]] begin[{] call[postHelper.executeCommonActions, parameter[member[.actions], call[sessionChecker.isSameSession, parameter[]]]] else begin[{] None end[}] end[}] END[}]
Keyword[private] Keyword[void] identifier[informStatusCodeListener] operator[SEP] annotation[@] identifier[Nullable] identifier[Response] identifier[response] operator[SEP] { Keyword[if] operator[SEP] identifier[response] operator[==] Other[null] operator[SEP] { Keyword[return] operator[SEP] } identifier[ScheduledActions] operator[<] identifier[CreateEvents] operator[>] identifier[actions] operator[=] identifier[onStatusCodeActions] operator[SEP] identifier[get] operator[SEP] identifier[response] operator[SEP] identifier[getStatus] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[actions] operator[!=] Other[null] operator[SEP] { identifier[postHelper] operator[SEP] identifier[executeCommonActions] operator[SEP] identifier[actions] , identifier[sessionChecker] operator[SEP] identifier[isSameSession] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } }
public boolean dispatchKeyEvent (KeyEvent e) { int lsize = _listeners.size(); switch (e.getID()) { case KeyEvent.KEY_TYPED: // dispatch to all the global listeners for (int ii = 0; ii < lsize; ii++) { _listeners.get(ii).keyTyped(e); } // see if a chat grabber needs to grab it if (_curChatGrabber != null) { Component target = e.getComponent(); // if the key was typed on a non-text component or one // that wasn't editable... if (isChatCharacter(e.getKeyChar()) && !isTypeableTarget(target)) { // focus our grabby component, and redirect this // key event there _curChatGrabber.requestFocusInWindow(); KeyboardFocusManager.getCurrentKeyboardFocusManager(). redispatchEvent(_curChatGrabber, e); return true; } } break; case KeyEvent.KEY_PRESSED: if (lsize > 0) { for (int ii = 0; ii < lsize; ii++) { _listeners.get(ii).keyPressed(e); } // remember the key event.. _downKeys.put(e.getKeyCode(), e); } break; case KeyEvent.KEY_RELEASED: if (lsize > 0) { for (int ii = 0; ii < lsize; ii++) { _listeners.get(ii).keyReleased(e); } // forget the key event _downKeys.remove(e.getKeyCode()); } break; } return false; }
class class_name[name] begin[{] method[dispatchKeyEvent, return_type[type[boolean]], modifier[public], parameter[e]] begin[{] local_variable[type[int], lsize] SwitchStatement(cases=[SwitchStatementCase(case=[MemberReference(member=KEY_TYPED, postfix_operators=[], prefix_operators=[], qualifier=KeyEvent, selectors=[])], statements=[ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=ii, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=get, postfix_operators=[], prefix_operators=[], qualifier=_listeners, selectors=[MethodInvocation(arguments=[MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=keyTyped, 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=ii, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=lsize, 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=ii)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=ii, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=_curChatGrabber, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator=!=), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=getComponent, postfix_operators=[], prefix_operators=[], qualifier=e, selectors=[], type_arguments=None), name=target)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Component, sub_type=None)), IfStatement(condition=BinaryOperation(operandl=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getKeyChar, postfix_operators=[], prefix_operators=[], qualifier=e, selectors=[], type_arguments=None)], member=isChatCharacter, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), operandr=MethodInvocation(arguments=[MemberReference(member=target, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=isTypeableTarget, postfix_operators=[], prefix_operators=['!'], qualifier=, selectors=[], type_arguments=None), operator=&&), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[], member=requestFocusInWindow, postfix_operators=[], prefix_operators=[], qualifier=_curChatGrabber, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[], member=getCurrentKeyboardFocusManager, postfix_operators=[], prefix_operators=[], qualifier=KeyboardFocusManager, selectors=[MethodInvocation(arguments=[MemberReference(member=_curChatGrabber, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=redispatchEvent, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), label=None), ReturnStatement(expression=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true), label=None)]))])), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[MemberReference(member=KEY_PRESSED, postfix_operators=[], prefix_operators=[], qualifier=KeyEvent, selectors=[])], statements=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=lsize, 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=[ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=ii, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=get, postfix_operators=[], prefix_operators=[], qualifier=_listeners, selectors=[MethodInvocation(arguments=[MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=keyPressed, 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=ii, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=lsize, 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=ii)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=ii, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getKeyCode, postfix_operators=[], prefix_operators=[], qualifier=e, selectors=[], type_arguments=None), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=put, postfix_operators=[], prefix_operators=[], qualifier=_downKeys, selectors=[], type_arguments=None), label=None)])), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[MemberReference(member=KEY_RELEASED, postfix_operators=[], prefix_operators=[], qualifier=KeyEvent, selectors=[])], statements=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=lsize, 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=[ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=ii, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=get, postfix_operators=[], prefix_operators=[], qualifier=_listeners, selectors=[MethodInvocation(arguments=[MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=keyReleased, 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=ii, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=lsize, 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=ii)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=ii, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getKeyCode, postfix_operators=[], prefix_operators=[], qualifier=e, selectors=[], type_arguments=None)], member=remove, postfix_operators=[], prefix_operators=[], qualifier=_downKeys, selectors=[], type_arguments=None), label=None)])), BreakStatement(goto=None, label=None)])], expression=MethodInvocation(arguments=[], member=getID, postfix_operators=[], prefix_operators=[], qualifier=e, selectors=[], type_arguments=None), label=None) return[literal[false]] end[}] END[}]
Keyword[public] Keyword[boolean] identifier[dispatchKeyEvent] operator[SEP] identifier[KeyEvent] identifier[e] operator[SEP] { Keyword[int] identifier[lsize] operator[=] identifier[_listeners] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] Keyword[switch] operator[SEP] identifier[e] operator[SEP] identifier[getID] operator[SEP] operator[SEP] operator[SEP] { Keyword[case] identifier[KeyEvent] operator[SEP] identifier[KEY_TYPED] operator[:] Keyword[for] operator[SEP] Keyword[int] identifier[ii] operator[=] Other[0] operator[SEP] identifier[ii] operator[<] identifier[lsize] operator[SEP] identifier[ii] operator[++] operator[SEP] { identifier[_listeners] operator[SEP] identifier[get] operator[SEP] identifier[ii] operator[SEP] operator[SEP] identifier[keyTyped] operator[SEP] identifier[e] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[_curChatGrabber] operator[!=] Other[null] operator[SEP] { identifier[Component] identifier[target] operator[=] identifier[e] operator[SEP] identifier[getComponent] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[isChatCharacter] operator[SEP] identifier[e] operator[SEP] identifier[getKeyChar] operator[SEP] operator[SEP] operator[SEP] operator[&&] operator[!] identifier[isTypeableTarget] operator[SEP] identifier[target] operator[SEP] operator[SEP] { identifier[_curChatGrabber] operator[SEP] identifier[requestFocusInWindow] operator[SEP] operator[SEP] operator[SEP] identifier[KeyboardFocusManager] operator[SEP] identifier[getCurrentKeyboardFocusManager] operator[SEP] operator[SEP] operator[SEP] identifier[redispatchEvent] operator[SEP] identifier[_curChatGrabber] , identifier[e] operator[SEP] operator[SEP] Keyword[return] literal[boolean] operator[SEP] } } Keyword[break] operator[SEP] Keyword[case] identifier[KeyEvent] operator[SEP] identifier[KEY_PRESSED] operator[:] Keyword[if] operator[SEP] identifier[lsize] operator[>] Other[0] operator[SEP] { Keyword[for] operator[SEP] Keyword[int] identifier[ii] operator[=] Other[0] operator[SEP] identifier[ii] operator[<] identifier[lsize] operator[SEP] identifier[ii] operator[++] operator[SEP] { identifier[_listeners] operator[SEP] identifier[get] operator[SEP] identifier[ii] operator[SEP] operator[SEP] identifier[keyPressed] operator[SEP] identifier[e] operator[SEP] operator[SEP] } identifier[_downKeys] operator[SEP] identifier[put] operator[SEP] identifier[e] operator[SEP] identifier[getKeyCode] operator[SEP] operator[SEP] , identifier[e] operator[SEP] operator[SEP] } Keyword[break] operator[SEP] Keyword[case] identifier[KeyEvent] operator[SEP] identifier[KEY_RELEASED] operator[:] Keyword[if] operator[SEP] identifier[lsize] operator[>] Other[0] operator[SEP] { Keyword[for] operator[SEP] Keyword[int] identifier[ii] operator[=] Other[0] operator[SEP] identifier[ii] operator[<] identifier[lsize] operator[SEP] identifier[ii] operator[++] operator[SEP] { identifier[_listeners] operator[SEP] identifier[get] operator[SEP] identifier[ii] operator[SEP] operator[SEP] identifier[keyReleased] operator[SEP] identifier[e] operator[SEP] operator[SEP] } identifier[_downKeys] operator[SEP] identifier[remove] operator[SEP] identifier[e] operator[SEP] identifier[getKeyCode] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[break] operator[SEP] } Keyword[return] literal[boolean] operator[SEP] }
protected int getStartValue(Connection con) { Statement stmt = null; ResultSet trs = null; try { String query; String tableItem = DBInitializerHelper.getItemTableName(containerConfig); if (JDBCUtils.tableExists(tableItem, con)) { query = "select max(N_ORDER_NUM) from " + tableItem; } else { return -1; } stmt = con.createStatement(); trs = stmt.executeQuery(query); if (trs.next() && trs.getInt(1) >= 0) { return trs.getInt(1); } else { return -1; } } catch (SQLException e) { if (LOG.isDebugEnabled()) { LOG.debug("SQLException occurred while calculate the sequence start value", e); } return -1; } finally { JDBCUtils.freeResources(trs, stmt, null); } }
class class_name[name] begin[{] method[getStartValue, return_type[type[int]], modifier[protected], parameter[con]] begin[{] local_variable[type[Statement], stmt] local_variable[type[ResultSet], trs] TryStatement(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=None, name=query)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=containerConfig, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getItemTableName, postfix_operators=[], prefix_operators=[], qualifier=DBInitializerHelper, selectors=[], type_arguments=None), name=tableItem)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), IfStatement(condition=MethodInvocation(arguments=[MemberReference(member=tableItem, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=con, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=tableExists, postfix_operators=[], prefix_operators=[], qualifier=JDBCUtils, selectors=[], type_arguments=None), else_statement=BlockStatement(label=None, statements=[ReturnStatement(expression=Literal(postfix_operators=[], prefix_operators=['-'], qualifier=None, selectors=[], value=1), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=query, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="select max(N_ORDER_NUM) from "), operandr=MemberReference(member=tableItem, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+)), label=None)])), StatementExpression(expression=Assignment(expressionl=MemberReference(member=stmt, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=createStatement, postfix_operators=[], prefix_operators=[], qualifier=con, selectors=[], type_arguments=None)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=trs, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[MemberReference(member=query, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=executeQuery, postfix_operators=[], prefix_operators=[], qualifier=stmt, selectors=[], type_arguments=None)), label=None), IfStatement(condition=BinaryOperation(operandl=MethodInvocation(arguments=[], member=next, postfix_operators=[], prefix_operators=[], qualifier=trs, selectors=[], type_arguments=None), operandr=BinaryOperation(operandl=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1)], member=getInt, postfix_operators=[], prefix_operators=[], qualifier=trs, selectors=[], type_arguments=None), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), operator=>=), operator=&&), else_statement=BlockStatement(label=None, statements=[ReturnStatement(expression=Literal(postfix_operators=[], prefix_operators=['-'], qualifier=None, selectors=[], value=1), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[ReturnStatement(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1)], member=getInt, postfix_operators=[], prefix_operators=[], qualifier=trs, selectors=[], type_arguments=None), label=None)]))], catches=[CatchClause(block=[IfStatement(condition=MethodInvocation(arguments=[], member=isDebugEnabled, postfix_operators=[], prefix_operators=[], qualifier=LOG, selectors=[], type_arguments=None), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="SQLException occurred while calculate the sequence start value"), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=debug, postfix_operators=[], prefix_operators=[], qualifier=LOG, selectors=[], type_arguments=None), label=None)])), ReturnStatement(expression=Literal(postfix_operators=[], prefix_operators=['-'], qualifier=None, selectors=[], value=1), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['SQLException']))], finally_block=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=trs, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=stmt, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null)], member=freeResources, postfix_operators=[], prefix_operators=[], qualifier=JDBCUtils, selectors=[], type_arguments=None), label=None)], label=None, resources=None) end[}] END[}]
Keyword[protected] Keyword[int] identifier[getStartValue] operator[SEP] identifier[Connection] identifier[con] operator[SEP] { identifier[Statement] identifier[stmt] operator[=] Other[null] operator[SEP] identifier[ResultSet] identifier[trs] operator[=] Other[null] operator[SEP] Keyword[try] { identifier[String] identifier[query] operator[SEP] identifier[String] identifier[tableItem] operator[=] identifier[DBInitializerHelper] operator[SEP] identifier[getItemTableName] operator[SEP] identifier[containerConfig] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[JDBCUtils] operator[SEP] identifier[tableExists] operator[SEP] identifier[tableItem] , identifier[con] operator[SEP] operator[SEP] { identifier[query] operator[=] literal[String] operator[+] identifier[tableItem] operator[SEP] } Keyword[else] { Keyword[return] operator[-] Other[1] operator[SEP] } identifier[stmt] operator[=] identifier[con] operator[SEP] identifier[createStatement] operator[SEP] operator[SEP] operator[SEP] identifier[trs] operator[=] identifier[stmt] operator[SEP] identifier[executeQuery] operator[SEP] identifier[query] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[trs] operator[SEP] identifier[next] operator[SEP] operator[SEP] operator[&&] identifier[trs] operator[SEP] identifier[getInt] operator[SEP] Other[1] operator[SEP] operator[>=] Other[0] operator[SEP] { Keyword[return] identifier[trs] operator[SEP] identifier[getInt] operator[SEP] Other[1] operator[SEP] operator[SEP] } Keyword[else] { Keyword[return] operator[-] Other[1] operator[SEP] } } Keyword[catch] operator[SEP] identifier[SQLException] identifier[e] operator[SEP] { Keyword[if] operator[SEP] identifier[LOG] operator[SEP] identifier[isDebugEnabled] operator[SEP] operator[SEP] operator[SEP] { identifier[LOG] operator[SEP] identifier[debug] operator[SEP] literal[String] , identifier[e] operator[SEP] operator[SEP] } Keyword[return] operator[-] Other[1] operator[SEP] } Keyword[finally] { identifier[JDBCUtils] operator[SEP] identifier[freeResources] operator[SEP] identifier[trs] , identifier[stmt] , Other[null] operator[SEP] operator[SEP] } }
@Override public Collection<StatementOrBundle> reslice(String warp, String activity, String imgfile, String imglabel, String hdrfile, String hdrlabel, String workflow, String agent) { Collection<StatementOrBundle> ll=new LinkedList<StatementOrBundle>(); Activity a5 = pFactory.newActivity(pc(activity)); pFactory.addType(a5, pFactory.newQualifiedName(PRIM_NS, RESLICE, PRIM_PREFIX), name.PROV_QUALIFIED_NAME); Entity e15 = newFile(pFactory, imgfile, imglabel); Entity e16 = newFile(pFactory, hdrfile, hdrlabel); Entity e11 = pFactory.newEntity(pc(warp)); ll.add(newUsed(a5, ROLE_IN, e11)); ll.add(newWasGeneratedBy(e15, ROLE_IMG, a5)); ll.add(newWasGeneratedBy(e16, ROLE_HDR, a5)); ll.add(newWasDerivedFrom(e15, e11)); ll.add(newWasDerivedFrom(e16, e11)); ll.addAll(Arrays.asList(a5,e15,e16,e11)); ll.add(newUsed(a5, ROLE_IN, e11)); ll.add(pFactory.newAgent(pc(agent))); ll.add(pFactory.newActivity(pc(workflow))); ll.add(pFactory.newWasAssociatedWith(null,pc(workflow), pc(agent))); ll.add(pFactory.newWasStartedBy(null, pc(activity), null, pc(workflow))); return ll; }
class class_name[name] begin[{] method[reslice, return_type[type[Collection]], modifier[public], parameter[warp, activity, imgfile, imglabel, hdrfile, hdrlabel, workflow, agent]] begin[{] local_variable[type[Collection], ll] local_variable[type[Activity], a5] call[pFactory.addType, parameter[member[.a5], call[pFactory.newQualifiedName, parameter[member[.PRIM_NS], member[.RESLICE], member[.PRIM_PREFIX]]], member[name.PROV_QUALIFIED_NAME]]] local_variable[type[Entity], e15] local_variable[type[Entity], e16] local_variable[type[Entity], e11] call[ll.add, parameter[call[.newUsed, parameter[member[.a5], member[.ROLE_IN], member[.e11]]]]] call[ll.add, parameter[call[.newWasGeneratedBy, parameter[member[.e15], member[.ROLE_IMG], member[.a5]]]]] call[ll.add, parameter[call[.newWasGeneratedBy, parameter[member[.e16], member[.ROLE_HDR], member[.a5]]]]] call[ll.add, parameter[call[.newWasDerivedFrom, parameter[member[.e15], member[.e11]]]]] call[ll.add, parameter[call[.newWasDerivedFrom, parameter[member[.e16], member[.e11]]]]] call[ll.addAll, parameter[call[Arrays.asList, parameter[member[.a5], member[.e15], member[.e16], member[.e11]]]]] call[ll.add, parameter[call[.newUsed, parameter[member[.a5], member[.ROLE_IN], member[.e11]]]]] call[ll.add, parameter[call[pFactory.newAgent, parameter[call[.pc, parameter[member[.agent]]]]]]] call[ll.add, parameter[call[pFactory.newActivity, parameter[call[.pc, parameter[member[.workflow]]]]]]] call[ll.add, parameter[call[pFactory.newWasAssociatedWith, parameter[literal[null], call[.pc, parameter[member[.workflow]]], call[.pc, parameter[member[.agent]]]]]]] call[ll.add, parameter[call[pFactory.newWasStartedBy, parameter[literal[null], call[.pc, parameter[member[.activity]]], literal[null], call[.pc, parameter[member[.workflow]]]]]]] return[member[.ll]] end[}] END[}]
annotation[@] identifier[Override] Keyword[public] identifier[Collection] operator[<] identifier[StatementOrBundle] operator[>] identifier[reslice] operator[SEP] identifier[String] identifier[warp] , identifier[String] identifier[activity] , identifier[String] identifier[imgfile] , identifier[String] identifier[imglabel] , identifier[String] identifier[hdrfile] , identifier[String] identifier[hdrlabel] , identifier[String] identifier[workflow] , identifier[String] identifier[agent] operator[SEP] { identifier[Collection] operator[<] identifier[StatementOrBundle] operator[>] identifier[ll] operator[=] Keyword[new] identifier[LinkedList] operator[<] identifier[StatementOrBundle] operator[>] operator[SEP] operator[SEP] operator[SEP] identifier[Activity] identifier[a5] operator[=] identifier[pFactory] operator[SEP] identifier[newActivity] operator[SEP] identifier[pc] operator[SEP] identifier[activity] operator[SEP] operator[SEP] operator[SEP] identifier[pFactory] operator[SEP] identifier[addType] operator[SEP] identifier[a5] , identifier[pFactory] operator[SEP] identifier[newQualifiedName] operator[SEP] identifier[PRIM_NS] , identifier[RESLICE] , identifier[PRIM_PREFIX] operator[SEP] , identifier[name] operator[SEP] identifier[PROV_QUALIFIED_NAME] operator[SEP] operator[SEP] identifier[Entity] identifier[e15] operator[=] identifier[newFile] operator[SEP] identifier[pFactory] , identifier[imgfile] , identifier[imglabel] operator[SEP] operator[SEP] identifier[Entity] identifier[e16] operator[=] identifier[newFile] operator[SEP] identifier[pFactory] , identifier[hdrfile] , identifier[hdrlabel] operator[SEP] operator[SEP] identifier[Entity] identifier[e11] operator[=] identifier[pFactory] operator[SEP] identifier[newEntity] operator[SEP] identifier[pc] operator[SEP] identifier[warp] operator[SEP] operator[SEP] operator[SEP] identifier[ll] operator[SEP] identifier[add] operator[SEP] identifier[newUsed] operator[SEP] identifier[a5] , identifier[ROLE_IN] , identifier[e11] operator[SEP] operator[SEP] operator[SEP] identifier[ll] operator[SEP] identifier[add] operator[SEP] identifier[newWasGeneratedBy] operator[SEP] identifier[e15] , identifier[ROLE_IMG] , identifier[a5] operator[SEP] operator[SEP] operator[SEP] identifier[ll] operator[SEP] identifier[add] operator[SEP] identifier[newWasGeneratedBy] operator[SEP] identifier[e16] , identifier[ROLE_HDR] , identifier[a5] operator[SEP] operator[SEP] operator[SEP] identifier[ll] operator[SEP] identifier[add] operator[SEP] identifier[newWasDerivedFrom] operator[SEP] identifier[e15] , identifier[e11] operator[SEP] operator[SEP] operator[SEP] identifier[ll] operator[SEP] identifier[add] operator[SEP] identifier[newWasDerivedFrom] operator[SEP] identifier[e16] , identifier[e11] operator[SEP] operator[SEP] operator[SEP] identifier[ll] operator[SEP] identifier[addAll] operator[SEP] identifier[Arrays] operator[SEP] identifier[asList] operator[SEP] identifier[a5] , identifier[e15] , identifier[e16] , identifier[e11] operator[SEP] operator[SEP] operator[SEP] identifier[ll] operator[SEP] identifier[add] operator[SEP] identifier[newUsed] operator[SEP] identifier[a5] , identifier[ROLE_IN] , identifier[e11] operator[SEP] operator[SEP] operator[SEP] identifier[ll] operator[SEP] identifier[add] operator[SEP] identifier[pFactory] operator[SEP] identifier[newAgent] operator[SEP] identifier[pc] operator[SEP] identifier[agent] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[ll] operator[SEP] identifier[add] operator[SEP] identifier[pFactory] operator[SEP] identifier[newActivity] operator[SEP] identifier[pc] operator[SEP] identifier[workflow] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[ll] operator[SEP] identifier[add] operator[SEP] identifier[pFactory] operator[SEP] identifier[newWasAssociatedWith] operator[SEP] Other[null] , identifier[pc] operator[SEP] identifier[workflow] operator[SEP] , identifier[pc] operator[SEP] identifier[agent] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[ll] operator[SEP] identifier[add] operator[SEP] identifier[pFactory] operator[SEP] identifier[newWasStartedBy] operator[SEP] Other[null] , identifier[pc] operator[SEP] identifier[activity] operator[SEP] , Other[null] , identifier[pc] operator[SEP] identifier[workflow] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[ll] operator[SEP] }
public void broadcast(INDArray array) { if (array == null) return; Nd4j.getExecutioner().commit(); int numDevices = Nd4j.getAffinityManager().getNumberOfDevices(); for (int i = 0; i < numDevices; i++) { // if current thread equal to this device - we just save it, without duplication if (Nd4j.getAffinityManager().getDeviceForCurrentThread() == i) { set(i, array); } else { set(i, Nd4j.getAffinityManager().replicateToDevice(i, array)); } } }
class class_name[name] begin[{] method[broadcast, return_type[void], modifier[public], parameter[array]] begin[{] if[binary_operation[member[.array], ==, literal[null]]] begin[{] return[None] else begin[{] None end[}] call[Nd4j.getExecutioner, parameter[]] local_variable[type[int], numDevices] ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=MethodInvocation(arguments=[], member=getAffinityManager, postfix_operators=[], prefix_operators=[], qualifier=Nd4j, selectors=[MethodInvocation(arguments=[], member=getDeviceForCurrentThread, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), operandr=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator===), else_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MethodInvocation(arguments=[], member=getAffinityManager, postfix_operators=[], prefix_operators=[], qualifier=Nd4j, selectors=[MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=array, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=replicateToDevice, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None)], member=set, 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=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=array, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=set, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)]))]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=numDevices, 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) end[}] END[}]
Keyword[public] Keyword[void] identifier[broadcast] operator[SEP] identifier[INDArray] identifier[array] operator[SEP] { Keyword[if] operator[SEP] identifier[array] operator[==] Other[null] operator[SEP] Keyword[return] operator[SEP] identifier[Nd4j] operator[SEP] identifier[getExecutioner] operator[SEP] operator[SEP] operator[SEP] identifier[commit] operator[SEP] operator[SEP] operator[SEP] Keyword[int] identifier[numDevices] operator[=] identifier[Nd4j] operator[SEP] identifier[getAffinityManager] operator[SEP] operator[SEP] operator[SEP] identifier[getNumberOfDevices] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[numDevices] operator[SEP] identifier[i] operator[++] operator[SEP] { Keyword[if] operator[SEP] identifier[Nd4j] operator[SEP] identifier[getAffinityManager] operator[SEP] operator[SEP] operator[SEP] identifier[getDeviceForCurrentThread] operator[SEP] operator[SEP] operator[==] identifier[i] operator[SEP] { identifier[set] operator[SEP] identifier[i] , identifier[array] operator[SEP] operator[SEP] } Keyword[else] { identifier[set] operator[SEP] identifier[i] , identifier[Nd4j] operator[SEP] identifier[getAffinityManager] operator[SEP] operator[SEP] operator[SEP] identifier[replicateToDevice] operator[SEP] identifier[i] , identifier[array] operator[SEP] operator[SEP] operator[SEP] } } }
public String toLongString() { String plz = this.getCode(); if (this.hasLandeskennung()) { plz = toLongString(plz); } return plz; }
class class_name[name] begin[{] method[toLongString, return_type[type[String]], modifier[public], parameter[]] begin[{] local_variable[type[String], plz] if[THIS[call[None.hasLandeskennung, parameter[]]]] begin[{] assign[member[.plz], call[.toLongString, parameter[member[.plz]]]] else begin[{] None end[}] return[member[.plz]] end[}] END[}]
Keyword[public] identifier[String] identifier[toLongString] operator[SEP] operator[SEP] { identifier[String] identifier[plz] operator[=] Keyword[this] operator[SEP] identifier[getCode] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] Keyword[this] operator[SEP] identifier[hasLandeskennung] operator[SEP] operator[SEP] operator[SEP] { identifier[plz] operator[=] identifier[toLongString] operator[SEP] identifier[plz] operator[SEP] operator[SEP] } Keyword[return] identifier[plz] operator[SEP] }
@Override public void start() { try { forceMkdir(downloadDir); for (File tempFile : listTempFile(this.downloadDir)) { deleteQuietly(tempFile); } } catch (IOException e) { throw new IllegalStateException("Fail to create the directory: " + downloadDir, e); } }
class class_name[name] begin[{] method[start, return_type[void], modifier[public], parameter[]] begin[{] TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=downloadDir, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=forceMkdir, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None), ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=tempFile, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=deleteQuietly, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MethodInvocation(arguments=[This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MemberReference(member=downloadDir, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None)])], member=listTempFile, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=tempFile)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=File, sub_type=None))), label=None)], catches=[CatchClause(block=[ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Fail to create the directory: "), operandr=MemberReference(member=downloadDir, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=IllegalStateException, sub_type=None)), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['IOException']))], finally_block=None, label=None, resources=None) end[}] END[}]
annotation[@] identifier[Override] Keyword[public] Keyword[void] identifier[start] operator[SEP] operator[SEP] { Keyword[try] { identifier[forceMkdir] operator[SEP] identifier[downloadDir] operator[SEP] operator[SEP] Keyword[for] operator[SEP] identifier[File] identifier[tempFile] operator[:] identifier[listTempFile] operator[SEP] Keyword[this] operator[SEP] identifier[downloadDir] operator[SEP] operator[SEP] { identifier[deleteQuietly] operator[SEP] identifier[tempFile] operator[SEP] operator[SEP] } } Keyword[catch] operator[SEP] identifier[IOException] identifier[e] operator[SEP] { Keyword[throw] Keyword[new] identifier[IllegalStateException] operator[SEP] literal[String] operator[+] identifier[downloadDir] , identifier[e] operator[SEP] operator[SEP] } }
public DescribeSpotFleetRequestHistoryResult withHistoryRecords(HistoryRecord... historyRecords) { if (this.historyRecords == null) { setHistoryRecords(new com.amazonaws.internal.SdkInternalList<HistoryRecord>(historyRecords.length)); } for (HistoryRecord ele : historyRecords) { this.historyRecords.add(ele); } return this; }
class class_name[name] begin[{] method[withHistoryRecords, return_type[type[DescribeSpotFleetRequestHistoryResult]], modifier[public], parameter[historyRecords]] begin[{] if[binary_operation[THIS[member[None.historyRecords]], ==, literal[null]]] begin[{] call[.setHistoryRecords, parameter[ClassCreator(arguments=[MemberReference(member=length, postfix_operators=[], prefix_operators=[], qualifier=historyRecords, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=com, sub_type=ReferenceType(arguments=None, dimensions=None, name=amazonaws, sub_type=ReferenceType(arguments=None, dimensions=None, name=internal, sub_type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=HistoryRecord, sub_type=None))], dimensions=None, name=SdkInternalList, sub_type=None)))))]] else begin[{] None end[}] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MemberReference(member=historyRecords, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None), MethodInvocation(arguments=[MemberReference(member=ele, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=add, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), label=None)]), control=EnhancedForControl(iterable=MemberReference(member=historyRecords, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=ele)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=HistoryRecord, sub_type=None))), label=None) return[THIS[]] end[}] END[}]
Keyword[public] identifier[DescribeSpotFleetRequestHistoryResult] identifier[withHistoryRecords] operator[SEP] identifier[HistoryRecord] operator[...] identifier[historyRecords] operator[SEP] { Keyword[if] operator[SEP] Keyword[this] operator[SEP] identifier[historyRecords] operator[==] Other[null] operator[SEP] { identifier[setHistoryRecords] operator[SEP] Keyword[new] identifier[com] operator[SEP] identifier[amazonaws] operator[SEP] identifier[internal] operator[SEP] identifier[SdkInternalList] operator[<] identifier[HistoryRecord] operator[>] operator[SEP] identifier[historyRecords] operator[SEP] identifier[length] operator[SEP] operator[SEP] operator[SEP] } Keyword[for] operator[SEP] identifier[HistoryRecord] identifier[ele] operator[:] identifier[historyRecords] operator[SEP] { Keyword[this] operator[SEP] identifier[historyRecords] operator[SEP] identifier[add] operator[SEP] identifier[ele] operator[SEP] operator[SEP] } Keyword[return] Keyword[this] operator[SEP] }
private static JobConf getChainElementConf(JobConf jobConf, String confKey) { JobConf conf; try { Stringifier<JobConf> stringifier = new DefaultStringifier<JobConf>(jobConf, JobConf.class); conf = stringifier.fromString(jobConf.get(confKey, null)); } catch (IOException ioex) { throw new RuntimeException(ioex); } // we have to do this because the Writable desearialization clears all // values set in the conf making not possible do do a new JobConf(jobConf) // in the creation of the conf above jobConf = new JobConf(jobConf); for(Map.Entry<String, String> entry : conf) { jobConf.set(entry.getKey(), entry.getValue()); } return jobConf; }
class class_name[name] begin[{] method[getChainElementConf, return_type[type[JobConf]], modifier[private static], parameter[jobConf, confKey]] begin[{] local_variable[type[JobConf], conf] TryStatement(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[MemberReference(member=jobConf, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), ClassReference(postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=JobConf, sub_type=None))], 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=JobConf, sub_type=None))], dimensions=None, name=DefaultStringifier, sub_type=None)), name=stringifier)], modifiers=set(), type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=JobConf, sub_type=None))], dimensions=[], name=Stringifier, sub_type=None)), StatementExpression(expression=Assignment(expressionl=MemberReference(member=conf, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[MethodInvocation(arguments=[MemberReference(member=confKey, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null)], member=get, postfix_operators=[], prefix_operators=[], qualifier=jobConf, selectors=[], type_arguments=None)], member=fromString, postfix_operators=[], prefix_operators=[], qualifier=stringifier, selectors=[], type_arguments=None)), label=None)], catches=[CatchClause(block=[ThrowStatement(expression=ClassCreator(arguments=[MemberReference(member=ioex, 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=ioex, types=['IOException']))], finally_block=None, label=None, resources=None) assign[member[.jobConf], ClassCreator(arguments=[MemberReference(member=jobConf, 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=JobConf, sub_type=None))] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getKey, postfix_operators=[], prefix_operators=[], qualifier=entry, selectors=[], type_arguments=None), MethodInvocation(arguments=[], member=getValue, postfix_operators=[], prefix_operators=[], qualifier=entry, selectors=[], type_arguments=None)], member=set, postfix_operators=[], prefix_operators=[], qualifier=jobConf, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MemberReference(member=conf, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), 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=String, sub_type=None))], dimensions=None, name=Entry, sub_type=None)))), label=None) return[member[.jobConf]] end[}] END[}]
Keyword[private] Keyword[static] identifier[JobConf] identifier[getChainElementConf] operator[SEP] identifier[JobConf] identifier[jobConf] , identifier[String] identifier[confKey] operator[SEP] { identifier[JobConf] identifier[conf] operator[SEP] Keyword[try] { identifier[Stringifier] operator[<] identifier[JobConf] operator[>] identifier[stringifier] operator[=] Keyword[new] identifier[DefaultStringifier] operator[<] identifier[JobConf] operator[>] operator[SEP] identifier[jobConf] , identifier[JobConf] operator[SEP] Keyword[class] operator[SEP] operator[SEP] identifier[conf] operator[=] identifier[stringifier] operator[SEP] identifier[fromString] operator[SEP] identifier[jobConf] operator[SEP] identifier[get] operator[SEP] identifier[confKey] , Other[null] operator[SEP] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[IOException] identifier[ioex] operator[SEP] { Keyword[throw] Keyword[new] identifier[RuntimeException] operator[SEP] identifier[ioex] operator[SEP] operator[SEP] } identifier[jobConf] operator[=] Keyword[new] identifier[JobConf] operator[SEP] identifier[jobConf] operator[SEP] operator[SEP] Keyword[for] operator[SEP] identifier[Map] operator[SEP] identifier[Entry] operator[<] identifier[String] , identifier[String] operator[>] identifier[entry] operator[:] identifier[conf] operator[SEP] { identifier[jobConf] operator[SEP] identifier[set] operator[SEP] identifier[entry] operator[SEP] identifier[getKey] operator[SEP] operator[SEP] , identifier[entry] operator[SEP] identifier[getValue] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[return] identifier[jobConf] operator[SEP] }
public void createEntry(String user, String name, String[] groups) throws XMPPException { if (!connection.isAuthenticated()) { throw new IllegalStateException("Not logged in to server."); } if (connection.isAnonymous()) { throw new IllegalStateException( "Anonymous users can't have a roster."); } // Create and send roster entry creation packet. Roster rosterPacket = new Roster(); rosterPacket.setType(IQ.Type.set); rosterPacket.addItem(new JID(user), name, null, null, Arrays.asList(groups)); // Wait up to a certain number of seconds for a reply from the server. PacketCollector collector = connection .createPacketCollector(new PacketIDFilter(rosterPacket.getID())); connection.sendPacket(rosterPacket); IQ response = (IQ) collector.nextResult(SmackConfiguration .getPacketReplyTimeout()); collector.cancel(); if (response == null) { throw new XMPPException("No response from the server."); } // If the server replied with an error, throw an exception. else if (response.getType() == IQ.Type.error) { throw new XMPPException(response.getError()); } // Create a presence subscription packet and send. Presence presencePacket = new Presence(Presence.Type.subscribe); presencePacket.setTo(user); connection.sendPacket(presencePacket); }
class class_name[name] begin[{] method[createEntry, return_type[void], modifier[public], parameter[user, name, groups]] begin[{] if[call[connection.isAuthenticated, parameter[]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Not logged in to server.")], 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[}] if[call[connection.isAnonymous, parameter[]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Anonymous users can't have a roster.")], 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[Roster], rosterPacket] call[rosterPacket.setType, parameter[member[IQ.Type.set]]] call[rosterPacket.addItem, parameter[ClassCreator(arguments=[MemberReference(member=user, 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=JID, sub_type=None)), member[.name], literal[null], literal[null], call[Arrays.asList, parameter[member[.groups]]]]] local_variable[type[PacketCollector], collector] call[connection.sendPacket, parameter[member[.rosterPacket]]] local_variable[type[IQ], response] call[collector.cancel, parameter[]] if[binary_operation[member[.response], ==, literal[null]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="No response from the server.")], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=XMPPException, sub_type=None)), label=None) else begin[{] if[binary_operation[call[response.getType, parameter[]], ==, member[IQ.Type.error]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[MethodInvocation(arguments=[], member=getError, postfix_operators=[], prefix_operators=[], qualifier=response, selectors=[], type_arguments=None)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=XMPPException, sub_type=None)), label=None) else begin[{] None end[}] end[}] local_variable[type[Presence], presencePacket] call[presencePacket.setTo, parameter[member[.user]]] call[connection.sendPacket, parameter[member[.presencePacket]]] end[}] END[}]
Keyword[public] Keyword[void] identifier[createEntry] operator[SEP] identifier[String] identifier[user] , identifier[String] identifier[name] , identifier[String] operator[SEP] operator[SEP] identifier[groups] operator[SEP] Keyword[throws] identifier[XMPPException] { Keyword[if] operator[SEP] operator[!] identifier[connection] operator[SEP] identifier[isAuthenticated] operator[SEP] operator[SEP] operator[SEP] { Keyword[throw] Keyword[new] identifier[IllegalStateException] operator[SEP] literal[String] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[connection] operator[SEP] identifier[isAnonymous] operator[SEP] operator[SEP] operator[SEP] { Keyword[throw] Keyword[new] identifier[IllegalStateException] operator[SEP] literal[String] operator[SEP] operator[SEP] } identifier[Roster] identifier[rosterPacket] operator[=] Keyword[new] identifier[Roster] operator[SEP] operator[SEP] operator[SEP] identifier[rosterPacket] operator[SEP] identifier[setType] operator[SEP] identifier[IQ] operator[SEP] identifier[Type] operator[SEP] identifier[set] operator[SEP] operator[SEP] identifier[rosterPacket] operator[SEP] identifier[addItem] operator[SEP] Keyword[new] identifier[JID] operator[SEP] identifier[user] operator[SEP] , identifier[name] , Other[null] , Other[null] , identifier[Arrays] operator[SEP] identifier[asList] operator[SEP] identifier[groups] operator[SEP] operator[SEP] operator[SEP] identifier[PacketCollector] identifier[collector] operator[=] identifier[connection] operator[SEP] identifier[createPacketCollector] operator[SEP] Keyword[new] identifier[PacketIDFilter] operator[SEP] identifier[rosterPacket] operator[SEP] identifier[getID] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[connection] operator[SEP] identifier[sendPacket] operator[SEP] identifier[rosterPacket] operator[SEP] operator[SEP] identifier[IQ] identifier[response] operator[=] operator[SEP] identifier[IQ] operator[SEP] identifier[collector] operator[SEP] identifier[nextResult] operator[SEP] identifier[SmackConfiguration] operator[SEP] identifier[getPacketReplyTimeout] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[collector] operator[SEP] identifier[cancel] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[response] operator[==] Other[null] operator[SEP] { Keyword[throw] Keyword[new] identifier[XMPPException] operator[SEP] literal[String] operator[SEP] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[response] operator[SEP] identifier[getType] operator[SEP] operator[SEP] operator[==] identifier[IQ] operator[SEP] identifier[Type] operator[SEP] identifier[error] operator[SEP] { Keyword[throw] Keyword[new] identifier[XMPPException] operator[SEP] identifier[response] operator[SEP] identifier[getError] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } identifier[Presence] identifier[presencePacket] operator[=] Keyword[new] identifier[Presence] operator[SEP] identifier[Presence] operator[SEP] identifier[Type] operator[SEP] identifier[subscribe] operator[SEP] operator[SEP] identifier[presencePacket] operator[SEP] identifier[setTo] operator[SEP] identifier[user] operator[SEP] operator[SEP] identifier[connection] operator[SEP] identifier[sendPacket] operator[SEP] identifier[presencePacket] operator[SEP] operator[SEP] }
public Iterable<LogRecord> listLogRecords(StorageService service) throws URISyntaxException, StorageException { return this .listLogRecords(service, null /* startTime */, null /* endTime */, null /* options */, null /* operationContext */); }
class class_name[name] begin[{] method[listLogRecords, return_type[type[Iterable]], modifier[public], parameter[service]] begin[{] return[THIS[call[None.listLogRecords, parameter[member[.service], literal[null], literal[null], literal[null], literal[null]]]]] end[}] END[}]
Keyword[public] identifier[Iterable] operator[<] identifier[LogRecord] operator[>] identifier[listLogRecords] operator[SEP] identifier[StorageService] identifier[service] operator[SEP] Keyword[throws] identifier[URISyntaxException] , identifier[StorageException] { Keyword[return] Keyword[this] operator[SEP] identifier[listLogRecords] operator[SEP] identifier[service] , Other[null] , Other[null] , Other[null] , Other[null] operator[SEP] operator[SEP] }
@Override protected int getDefaultPort() { logger.atFine().log("GHFS.getDefaultPort:"); int result = -1; logger.atFine().log("GHFS.getDefaultPort:=> %s", result); return result; }
class class_name[name] begin[{] method[getDefaultPort, return_type[type[int]], modifier[protected], parameter[]] begin[{] call[logger.atFine, parameter[]] local_variable[type[int], result] call[logger.atFine, parameter[]] return[member[.result]] end[}] END[}]
annotation[@] identifier[Override] Keyword[protected] Keyword[int] identifier[getDefaultPort] operator[SEP] operator[SEP] { identifier[logger] operator[SEP] identifier[atFine] operator[SEP] operator[SEP] operator[SEP] identifier[log] operator[SEP] literal[String] operator[SEP] operator[SEP] Keyword[int] identifier[result] operator[=] operator[-] Other[1] operator[SEP] identifier[logger] operator[SEP] identifier[atFine] operator[SEP] operator[SEP] operator[SEP] identifier[log] operator[SEP] literal[String] , identifier[result] operator[SEP] operator[SEP] Keyword[return] identifier[result] operator[SEP] }
public ServiceFuture<List<SharedAccessAuthorizationRuleResourceInner>> listAuthorizationRulesNextAsync(final String nextPageLink, final ServiceFuture<List<SharedAccessAuthorizationRuleResourceInner>> serviceFuture, final ListOperationCallback<SharedAccessAuthorizationRuleResourceInner> serviceCallback) { return AzureServiceFuture.fromPageResponse( listAuthorizationRulesNextSinglePageAsync(nextPageLink), new Func1<String, Observable<ServiceResponse<Page<SharedAccessAuthorizationRuleResourceInner>>>>() { @Override public Observable<ServiceResponse<Page<SharedAccessAuthorizationRuleResourceInner>>> call(String nextPageLink) { return listAuthorizationRulesNextSinglePageAsync(nextPageLink); } }, serviceCallback); }
class class_name[name] begin[{] method[listAuthorizationRulesNextAsync, return_type[type[ServiceFuture]], modifier[public], parameter[nextPageLink, serviceFuture, serviceCallback]] begin[{] return[call[AzureServiceFuture.fromPageResponse, parameter[call[.listAuthorizationRulesNextSinglePageAsync, parameter[member[.nextPageLink]]], ClassCreator(arguments=[], body=[MethodDeclaration(annotations=[Annotation(element=None, name=Override)], body=[ReturnStatement(expression=MethodInvocation(arguments=[MemberReference(member=nextPageLink, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=listAuthorizationRulesNextSinglePageAsync, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)], documentation=None, modifiers={'public'}, name=call, parameters=[FormalParameter(annotations=[], modifiers=set(), name=nextPageLink, type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None), varargs=False)], return_type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=SharedAccessAuthorizationRuleResourceInner, sub_type=None))], dimensions=[], name=Page, sub_type=None))], dimensions=[], name=ServiceResponse, sub_type=None))], dimensions=[], name=Observable, sub_type=None), throws=None, type_parameters=None)], constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), TypeArgument(pattern_type=None, type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=SharedAccessAuthorizationRuleResourceInner, sub_type=None))], dimensions=[], name=Page, sub_type=None))], dimensions=[], name=ServiceResponse, sub_type=None))], dimensions=[], name=Observable, sub_type=None))], dimensions=None, name=Func1, sub_type=None)), member[.serviceCallback]]]] end[}] END[}]
Keyword[public] identifier[ServiceFuture] operator[<] identifier[List] operator[<] identifier[SharedAccessAuthorizationRuleResourceInner] operator[>] operator[>] identifier[listAuthorizationRulesNextAsync] operator[SEP] Keyword[final] identifier[String] identifier[nextPageLink] , Keyword[final] identifier[ServiceFuture] operator[<] identifier[List] operator[<] identifier[SharedAccessAuthorizationRuleResourceInner] operator[>] operator[>] identifier[serviceFuture] , Keyword[final] identifier[ListOperationCallback] operator[<] identifier[SharedAccessAuthorizationRuleResourceInner] operator[>] identifier[serviceCallback] operator[SEP] { Keyword[return] identifier[AzureServiceFuture] operator[SEP] identifier[fromPageResponse] operator[SEP] identifier[listAuthorizationRulesNextSinglePageAsync] operator[SEP] identifier[nextPageLink] operator[SEP] , Keyword[new] identifier[Func1] operator[<] identifier[String] , identifier[Observable] operator[<] identifier[ServiceResponse] operator[<] identifier[Page] operator[<] identifier[SharedAccessAuthorizationRuleResourceInner] operator[>] operator[>] operator[>] operator[>] operator[SEP] operator[SEP] { annotation[@] identifier[Override] Keyword[public] identifier[Observable] operator[<] identifier[ServiceResponse] operator[<] identifier[Page] operator[<] identifier[SharedAccessAuthorizationRuleResourceInner] operator[>] operator[>] operator[>] identifier[call] operator[SEP] identifier[String] identifier[nextPageLink] operator[SEP] { Keyword[return] identifier[listAuthorizationRulesNextSinglePageAsync] operator[SEP] identifier[nextPageLink] operator[SEP] operator[SEP] } } , identifier[serviceCallback] operator[SEP] operator[SEP] }
public List<Integer> getUniverseSystems(String datasource, String ifNoneMatch) throws ApiException { ApiResponse<List<Integer>> resp = getUniverseSystemsWithHttpInfo(datasource, ifNoneMatch); return resp.getData(); }
class class_name[name] begin[{] method[getUniverseSystems, return_type[type[List]], modifier[public], parameter[datasource, ifNoneMatch]] begin[{] local_variable[type[ApiResponse], resp] return[call[resp.getData, parameter[]]] end[}] END[}]
Keyword[public] identifier[List] operator[<] identifier[Integer] operator[>] identifier[getUniverseSystems] operator[SEP] identifier[String] identifier[datasource] , identifier[String] identifier[ifNoneMatch] operator[SEP] Keyword[throws] identifier[ApiException] { identifier[ApiResponse] operator[<] identifier[List] operator[<] identifier[Integer] operator[>] operator[>] identifier[resp] operator[=] identifier[getUniverseSystemsWithHttpInfo] operator[SEP] identifier[datasource] , identifier[ifNoneMatch] operator[SEP] operator[SEP] Keyword[return] identifier[resp] operator[SEP] identifier[getData] operator[SEP] operator[SEP] operator[SEP] }
public SystemInputDef getSystemInput() { if( systemInputDef_ == null && systemInputRef_ != null) { try( SystemInputResource resource = SystemInputResource.at( urlFor( systemInputRef_))) { systemInputDef_ = resource.getSystemInputDef(); } catch( Exception e) { throw new SystemInputException( String.format( "Can't read resource at %s", systemInputRef_), e); } } return systemInputDef_; }
class class_name[name] begin[{] method[getSystemInput, return_type[type[SystemInputDef]], modifier[public], parameter[]] begin[{] if[binary_operation[binary_operation[member[.systemInputDef_], ==, literal[null]], &&, binary_operation[member[.systemInputRef_], !=, literal[null]]]] begin[{] TryStatement(block=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=systemInputDef_, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=getSystemInputDef, postfix_operators=[], prefix_operators=[], qualifier=resource, selectors=[], type_arguments=None)), label=None)], catches=[CatchClause(block=[ThrowStatement(expression=ClassCreator(arguments=[MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Can't read resource at %s"), MemberReference(member=systemInputRef_, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=format, postfix_operators=[], prefix_operators=[], qualifier=String, 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=SystemInputException, sub_type=None)), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['Exception']))], finally_block=None, label=None, resources=[TryResource(annotations=[], modifiers=set(), name=resource, type=ReferenceType(arguments=None, dimensions=[], name=SystemInputResource, sub_type=None), value=MethodInvocation(arguments=[MethodInvocation(arguments=[MemberReference(member=systemInputRef_, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=urlFor, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)], member=at, postfix_operators=[], prefix_operators=[], qualifier=SystemInputResource, selectors=[], type_arguments=None))]) else begin[{] None end[}] return[member[.systemInputDef_]] end[}] END[}]
Keyword[public] identifier[SystemInputDef] identifier[getSystemInput] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] identifier[systemInputDef_] operator[==] Other[null] operator[&&] identifier[systemInputRef_] operator[!=] Other[null] operator[SEP] { Keyword[try] operator[SEP] identifier[SystemInputResource] identifier[resource] operator[=] identifier[SystemInputResource] operator[SEP] identifier[at] operator[SEP] identifier[urlFor] operator[SEP] identifier[systemInputRef_] operator[SEP] operator[SEP] operator[SEP] { identifier[systemInputDef_] operator[=] identifier[resource] operator[SEP] identifier[getSystemInputDef] operator[SEP] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[Exception] identifier[e] operator[SEP] { Keyword[throw] Keyword[new] identifier[SystemInputException] operator[SEP] identifier[String] operator[SEP] identifier[format] operator[SEP] literal[String] , identifier[systemInputRef_] operator[SEP] , identifier[e] operator[SEP] operator[SEP] } } Keyword[return] identifier[systemInputDef_] operator[SEP] }
public synchronized void synchronizeWith(UpdateSynchronizer newsync) { // LoggingUtil.warning("Synchronizing: " + sync + " " + newsync, new // Throwable()); if(synchronizer == newsync) { LoggingUtil.warning("Double-synced to the same plot!", new Throwable()); return; } if(synchronizer != null) { LoggingUtil.warning("Attempting to synchronize to more than one synchronizer."); return; } synchronizer = newsync; newsync.addUpdateRunner(this); }
class class_name[name] begin[{] method[synchronizeWith, return_type[void], modifier[synchronized public], parameter[newsync]] begin[{] if[binary_operation[member[.synchronizer], ==, member[.newsync]]] begin[{] call[LoggingUtil.warning, parameter[literal["Double-synced to the same plot!"], ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Throwable, sub_type=None))]] return[None] else begin[{] None end[}] if[binary_operation[member[.synchronizer], !=, literal[null]]] begin[{] call[LoggingUtil.warning, parameter[literal["Attempting to synchronize to more than one synchronizer."]]] return[None] else begin[{] None end[}] assign[member[.synchronizer], member[.newsync]] call[newsync.addUpdateRunner, parameter[THIS[]]] end[}] END[}]
Keyword[public] Keyword[synchronized] Keyword[void] identifier[synchronizeWith] operator[SEP] identifier[UpdateSynchronizer] identifier[newsync] operator[SEP] { Keyword[if] operator[SEP] identifier[synchronizer] operator[==] identifier[newsync] operator[SEP] { identifier[LoggingUtil] operator[SEP] identifier[warning] operator[SEP] literal[String] , Keyword[new] identifier[Throwable] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[return] operator[SEP] } Keyword[if] operator[SEP] identifier[synchronizer] operator[!=] Other[null] operator[SEP] { identifier[LoggingUtil] operator[SEP] identifier[warning] operator[SEP] literal[String] operator[SEP] operator[SEP] Keyword[return] operator[SEP] } identifier[synchronizer] operator[=] identifier[newsync] operator[SEP] identifier[newsync] operator[SEP] identifier[addUpdateRunner] operator[SEP] Keyword[this] operator[SEP] operator[SEP] }
public Xid[] recover() { if (TraceComponent.isAnyTracingEnabled() && tc.isEntryEnabled()) SibTr.entry(this, tc, "recover"); Xid[] xids = new Xid[_indoubtXids.size()]; _indoubtXids.toArray(xids); if (TraceComponent.isAnyTracingEnabled() && tc.isEntryEnabled()) SibTr.exit(this, tc, "recover", "return="+Arrays.toString(xids)+", size="+xids.length); return xids; }
class class_name[name] begin[{] method[recover, return_type[type[Xid]], modifier[public], parameter[]] begin[{] if[binary_operation[call[TraceComponent.isAnyTracingEnabled, parameter[]], &&, call[tc.isEntryEnabled, parameter[]]]] begin[{] call[SibTr.entry, parameter[THIS[], member[.tc], literal["recover"]]] else begin[{] None end[}] local_variable[type[Xid], xids] call[_indoubtXids.toArray, parameter[member[.xids]]] if[binary_operation[call[TraceComponent.isAnyTracingEnabled, parameter[]], &&, call[tc.isEntryEnabled, parameter[]]]] begin[{] call[SibTr.exit, parameter[THIS[], member[.tc], literal["recover"], binary_operation[binary_operation[binary_operation[literal["return="], +, call[Arrays.toString, parameter[member[.xids]]]], +, literal[", size="]], +, member[xids.length]]]] else begin[{] None end[}] return[member[.xids]] end[}] END[}]
Keyword[public] identifier[Xid] operator[SEP] operator[SEP] identifier[recover] 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] Keyword[this] , identifier[tc] , literal[String] operator[SEP] operator[SEP] identifier[Xid] operator[SEP] operator[SEP] identifier[xids] operator[=] Keyword[new] identifier[Xid] operator[SEP] identifier[_indoubtXids] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[_indoubtXids] operator[SEP] identifier[toArray] operator[SEP] identifier[xids] 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] Keyword[this] , identifier[tc] , literal[String] , literal[String] operator[+] identifier[Arrays] operator[SEP] identifier[toString] operator[SEP] identifier[xids] operator[SEP] operator[+] literal[String] operator[+] identifier[xids] operator[SEP] identifier[length] operator[SEP] operator[SEP] Keyword[return] identifier[xids] operator[SEP] }
private static int getYearInCycle(int cycleNumber, long dayOfCycle) { Integer[] cycles = getAdjustedCycle(cycleNumber); if (dayOfCycle == 0) { return 0; } if (dayOfCycle > 0) { for (int i = 0; i < cycles.length; i++) { if (dayOfCycle < cycles[i].intValue()) { return i - 1; } } return 29; } else { dayOfCycle = -dayOfCycle; for (int i = 0; i < cycles.length; i++) { if (dayOfCycle <= cycles[i].intValue()) { return i - 1; } } return 29; } }
class class_name[name] begin[{] method[getYearInCycle, return_type[type[int]], modifier[private static], parameter[cycleNumber, dayOfCycle]] begin[{] local_variable[type[Integer], cycles] if[binary_operation[member[.dayOfCycle], ==, literal[0]]] begin[{] return[literal[0]] else begin[{] None end[}] if[binary_operation[member[.dayOfCycle], >, literal[0]]] begin[{] ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=dayOfCycle, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=cycles, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), MethodInvocation(arguments=[], member=intValue, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), operator=<), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[ReturnStatement(expression=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)]))]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=length, postfix_operators=[], prefix_operators=[], qualifier=cycles, 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[29]] else begin[{] assign[member[.dayOfCycle], member[.dayOfCycle]] ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=dayOfCycle, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=cycles, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), MethodInvocation(arguments=[], member=intValue, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), operator=<=), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[ReturnStatement(expression=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)]))]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=length, postfix_operators=[], prefix_operators=[], qualifier=cycles, 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[29]] end[}] end[}] END[}]
Keyword[private] Keyword[static] Keyword[int] identifier[getYearInCycle] operator[SEP] Keyword[int] identifier[cycleNumber] , Keyword[long] identifier[dayOfCycle] operator[SEP] { identifier[Integer] operator[SEP] operator[SEP] identifier[cycles] operator[=] identifier[getAdjustedCycle] operator[SEP] identifier[cycleNumber] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[dayOfCycle] operator[==] Other[0] operator[SEP] { Keyword[return] Other[0] operator[SEP] } Keyword[if] operator[SEP] identifier[dayOfCycle] operator[>] Other[0] operator[SEP] { Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[cycles] operator[SEP] identifier[length] operator[SEP] identifier[i] operator[++] operator[SEP] { Keyword[if] operator[SEP] identifier[dayOfCycle] operator[<] identifier[cycles] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[intValue] operator[SEP] operator[SEP] operator[SEP] { Keyword[return] identifier[i] operator[-] Other[1] operator[SEP] } } Keyword[return] Other[29] operator[SEP] } Keyword[else] { identifier[dayOfCycle] operator[=] operator[-] identifier[dayOfCycle] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[cycles] operator[SEP] identifier[length] operator[SEP] identifier[i] operator[++] operator[SEP] { Keyword[if] operator[SEP] identifier[dayOfCycle] operator[<=] identifier[cycles] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[intValue] operator[SEP] operator[SEP] operator[SEP] { Keyword[return] identifier[i] operator[-] Other[1] operator[SEP] } } Keyword[return] Other[29] operator[SEP] } }
public boolean restart(final Long channelId, boolean needTermin) { boolean result = !needTermin; boolean status = false; if (status(channelId).isStop() == false) { // stop的优先级高于pause updateStatus(channelId, ChannelStatus.PAUSE); status = true; } if (needTermin) { try { result |= termin(channelId, TerminType.RESTART); } catch (Throwable e) { updateStatus(channelId, ChannelStatus.PAUSE); // 出错了,直接挂起 throw new ArbitrateException(e); } } // 处理一下重启操作,只处理pause状态 if (status || result) { // 异步启动 arbitrateExecutor.submit(new Runnable() { public void run() { // sleep一段时间,保证rollback信息有足够的时间能被处理完成 try { Thread.sleep(5000L + RandomUtils.nextInt(2000)); } catch (InterruptedException e) { // ignore } Channel channel = ArbitrateConfigUtils.getChannelByChannelId(channelId); ChannelStatus status = status(channel.getId()); if (status.isStop()) { // stop优先级最高,不允许自动重启 logger.info("channel[{}] is already stop , restart is ignored", channel.getId()); } else if (canStart(channel)) { // 出现stop,就不允许进行自动重启,stop优先级最高 start(channelId); } } }); } return result && status; }
class class_name[name] begin[{] method[restart, return_type[type[boolean]], modifier[public], parameter[channelId, needTermin]] begin[{] local_variable[type[boolean], result] local_variable[type[boolean], status] if[binary_operation[call[.status, parameter[member[.channelId]]], ==, literal[false]]] begin[{] call[.updateStatus, parameter[member[.channelId], member[ChannelStatus.PAUSE]]] assign[member[.status], literal[true]] else begin[{] None end[}] if[member[.needTermin]] begin[{] TryStatement(block=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=result, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=|=, value=MethodInvocation(arguments=[MemberReference(member=channelId, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=RESTART, postfix_operators=[], prefix_operators=[], qualifier=TerminType, selectors=[])], member=termin, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)), label=None)], catches=[CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=channelId, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=PAUSE, postfix_operators=[], prefix_operators=[], qualifier=ChannelStatus, selectors=[])], member=updateStatus, postfix_operators=[], prefix_operators=[], qualifier=, 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=ArbitrateException, sub_type=None)), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['Throwable']))], finally_block=None, label=None, resources=None) else begin[{] None end[}] if[binary_operation[member[.status], ||, member[.result]]] begin[{] call[arbitrateExecutor.submit, parameter[ClassCreator(arguments=[], body=[MethodDeclaration(annotations=[], body=[TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=5000L), operandr=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2000)], member=nextInt, postfix_operators=[], prefix_operators=[], qualifier=RandomUtils, selectors=[], type_arguments=None), operator=+)], member=sleep, postfix_operators=[], prefix_operators=[], qualifier=Thread, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['InterruptedException']))], finally_block=None, label=None, resources=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=channelId, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getChannelByChannelId, postfix_operators=[], prefix_operators=[], qualifier=ArbitrateConfigUtils, selectors=[], type_arguments=None), name=channel)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Channel, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getId, postfix_operators=[], prefix_operators=[], qualifier=channel, selectors=[], type_arguments=None)], member=status, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), name=status)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=ChannelStatus, sub_type=None)), IfStatement(condition=MethodInvocation(arguments=[], member=isStop, postfix_operators=[], prefix_operators=[], qualifier=status, selectors=[], type_arguments=None), else_statement=IfStatement(condition=MethodInvocation(arguments=[MemberReference(member=channel, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=canStart, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=channelId, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=start, postfix_operators=[], prefix_operators=[], qualifier=, 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="channel[{}] is already stop , restart is ignored"), MethodInvocation(arguments=[], member=getId, postfix_operators=[], prefix_operators=[], qualifier=channel, selectors=[], type_arguments=None)], member=info, postfix_operators=[], prefix_operators=[], qualifier=logger, selectors=[], type_arguments=None), label=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=Runnable, sub_type=None))]] else begin[{] None end[}] return[binary_operation[member[.result], &&, member[.status]]] end[}] END[}]
Keyword[public] Keyword[boolean] identifier[restart] operator[SEP] Keyword[final] identifier[Long] identifier[channelId] , Keyword[boolean] identifier[needTermin] operator[SEP] { Keyword[boolean] identifier[result] operator[=] operator[!] identifier[needTermin] operator[SEP] Keyword[boolean] identifier[status] operator[=] literal[boolean] operator[SEP] Keyword[if] operator[SEP] identifier[status] operator[SEP] identifier[channelId] operator[SEP] operator[SEP] identifier[isStop] operator[SEP] operator[SEP] operator[==] literal[boolean] operator[SEP] { identifier[updateStatus] operator[SEP] identifier[channelId] , identifier[ChannelStatus] operator[SEP] identifier[PAUSE] operator[SEP] operator[SEP] identifier[status] operator[=] literal[boolean] operator[SEP] } Keyword[if] operator[SEP] identifier[needTermin] operator[SEP] { Keyword[try] { identifier[result] operator[|=] identifier[termin] operator[SEP] identifier[channelId] , identifier[TerminType] operator[SEP] identifier[RESTART] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[Throwable] identifier[e] operator[SEP] { identifier[updateStatus] operator[SEP] identifier[channelId] , identifier[ChannelStatus] operator[SEP] identifier[PAUSE] operator[SEP] operator[SEP] Keyword[throw] Keyword[new] identifier[ArbitrateException] operator[SEP] identifier[e] operator[SEP] operator[SEP] } } Keyword[if] operator[SEP] identifier[status] operator[||] identifier[result] operator[SEP] { identifier[arbitrateExecutor] operator[SEP] identifier[submit] operator[SEP] Keyword[new] identifier[Runnable] operator[SEP] operator[SEP] { Keyword[public] Keyword[void] identifier[run] operator[SEP] operator[SEP] { Keyword[try] { identifier[Thread] operator[SEP] identifier[sleep] operator[SEP] Other[5000L] operator[+] identifier[RandomUtils] operator[SEP] identifier[nextInt] operator[SEP] Other[2000] operator[SEP] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[InterruptedException] identifier[e] operator[SEP] { } identifier[Channel] identifier[channel] operator[=] identifier[ArbitrateConfigUtils] operator[SEP] identifier[getChannelByChannelId] operator[SEP] identifier[channelId] operator[SEP] operator[SEP] identifier[ChannelStatus] identifier[status] operator[=] identifier[status] operator[SEP] identifier[channel] operator[SEP] identifier[getId] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[status] operator[SEP] identifier[isStop] operator[SEP] operator[SEP] operator[SEP] { identifier[logger] operator[SEP] identifier[info] operator[SEP] literal[String] , identifier[channel] operator[SEP] identifier[getId] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[canStart] operator[SEP] identifier[channel] operator[SEP] operator[SEP] { identifier[start] operator[SEP] identifier[channelId] operator[SEP] operator[SEP] } } } operator[SEP] operator[SEP] } Keyword[return] identifier[result] operator[&&] identifier[status] operator[SEP] }
private void processQueuedAudits(boolean interruptable) { QueuedAudit audit; try { while (!(_auditService.isShutdown() && interruptable) && ((audit = _auditQueue.poll()) != null)) { boolean written = false; while (!written) { AuditOutput auditOutput = getAuditOutputForTime(audit.time); written = auditOutput.writeAudit(audit); } } } catch (Exception e) { _log.error("Processing of queued audits failed", e); } }
class class_name[name] begin[{] method[processQueuedAudits, return_type[void], modifier[private], parameter[interruptable]] begin[{] local_variable[type[QueuedAudit], audit] TryStatement(block=[WhileStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=false), name=written)], modifiers=set(), type=BasicType(dimensions=[], name=boolean)), WhileStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=time, postfix_operators=[], prefix_operators=[], qualifier=audit, selectors=[])], member=getAuditOutputForTime, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), name=auditOutput)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=AuditOutput, sub_type=None)), StatementExpression(expression=Assignment(expressionl=MemberReference(member=written, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[MemberReference(member=audit, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=writeAudit, postfix_operators=[], prefix_operators=[], qualifier=auditOutput, selectors=[], type_arguments=None)), label=None)]), condition=MemberReference(member=written, postfix_operators=[], prefix_operators=['!'], qualifier=, selectors=[]), label=None)]), condition=BinaryOperation(operandl=BinaryOperation(operandl=MethodInvocation(arguments=[], member=isShutdown, postfix_operators=[], prefix_operators=[], qualifier=_auditService, selectors=[], type_arguments=None), operandr=MemberReference(member=interruptable, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=&&), operandr=BinaryOperation(operandl=Assignment(expressionl=MemberReference(member=audit, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=poll, postfix_operators=[], prefix_operators=[], qualifier=_auditQueue, selectors=[], type_arguments=None)), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator=!=), operator=&&), label=None)], catches=[CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Processing of queued audits failed"), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=error, postfix_operators=[], prefix_operators=[], qualifier=_log, selectors=[], type_arguments=None), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['Exception']))], finally_block=None, label=None, resources=None) end[}] END[}]
Keyword[private] Keyword[void] identifier[processQueuedAudits] operator[SEP] Keyword[boolean] identifier[interruptable] operator[SEP] { identifier[QueuedAudit] identifier[audit] operator[SEP] Keyword[try] { Keyword[while] operator[SEP] operator[!] operator[SEP] identifier[_auditService] operator[SEP] identifier[isShutdown] operator[SEP] operator[SEP] operator[&&] identifier[interruptable] operator[SEP] operator[&&] operator[SEP] operator[SEP] identifier[audit] operator[=] identifier[_auditQueue] operator[SEP] identifier[poll] operator[SEP] operator[SEP] operator[SEP] operator[!=] Other[null] operator[SEP] operator[SEP] { Keyword[boolean] identifier[written] operator[=] literal[boolean] operator[SEP] Keyword[while] operator[SEP] operator[!] identifier[written] operator[SEP] { identifier[AuditOutput] identifier[auditOutput] operator[=] identifier[getAuditOutputForTime] operator[SEP] identifier[audit] operator[SEP] identifier[time] operator[SEP] operator[SEP] identifier[written] operator[=] identifier[auditOutput] operator[SEP] identifier[writeAudit] operator[SEP] identifier[audit] operator[SEP] operator[SEP] } } } Keyword[catch] operator[SEP] identifier[Exception] identifier[e] operator[SEP] { identifier[_log] operator[SEP] identifier[error] operator[SEP] literal[String] , identifier[e] operator[SEP] operator[SEP] } }
public Observable<Page<ResourceMetricDefinitionInner>> listWebWorkerMetricDefinitionsNextAsync(final String nextPageLink) { return listWebWorkerMetricDefinitionsNextWithServiceResponseAsync(nextPageLink) .map(new Func1<ServiceResponse<Page<ResourceMetricDefinitionInner>>, Page<ResourceMetricDefinitionInner>>() { @Override public Page<ResourceMetricDefinitionInner> call(ServiceResponse<Page<ResourceMetricDefinitionInner>> response) { return response.body(); } }); }
class class_name[name] begin[{] method[listWebWorkerMetricDefinitionsNextAsync, return_type[type[Observable]], modifier[public], parameter[nextPageLink]] begin[{] return[call[.listWebWorkerMetricDefinitionsNextWithServiceResponseAsync, parameter[member[.nextPageLink]]]] end[}] END[}]
Keyword[public] identifier[Observable] operator[<] identifier[Page] operator[<] identifier[ResourceMetricDefinitionInner] operator[>] operator[>] identifier[listWebWorkerMetricDefinitionsNextAsync] operator[SEP] Keyword[final] identifier[String] identifier[nextPageLink] operator[SEP] { Keyword[return] identifier[listWebWorkerMetricDefinitionsNextWithServiceResponseAsync] operator[SEP] identifier[nextPageLink] operator[SEP] operator[SEP] identifier[map] operator[SEP] Keyword[new] identifier[Func1] operator[<] identifier[ServiceResponse] operator[<] identifier[Page] operator[<] identifier[ResourceMetricDefinitionInner] operator[>] operator[>] , identifier[Page] operator[<] identifier[ResourceMetricDefinitionInner] operator[>] operator[>] operator[SEP] operator[SEP] { annotation[@] identifier[Override] Keyword[public] identifier[Page] operator[<] identifier[ResourceMetricDefinitionInner] operator[>] identifier[call] operator[SEP] identifier[ServiceResponse] operator[<] identifier[Page] operator[<] identifier[ResourceMetricDefinitionInner] operator[>] operator[>] identifier[response] operator[SEP] { Keyword[return] identifier[response] operator[SEP] identifier[body] operator[SEP] operator[SEP] operator[SEP] } } operator[SEP] operator[SEP] }
public void addAnonymousTerminal(String expression, Option... options) { addTerminal(null, "'"+expression+"'", expression, "", 0, 10, options); }
class class_name[name] begin[{] method[addAnonymousTerminal, return_type[void], modifier[public], parameter[expression, options]] begin[{] call[.addTerminal, parameter[literal[null], binary_operation[binary_operation[literal["'"], +, member[.expression]], +, literal["'"]], member[.expression], literal[""], literal[0], literal[10], member[.options]]] end[}] END[}]
Keyword[public] Keyword[void] identifier[addAnonymousTerminal] operator[SEP] identifier[String] identifier[expression] , identifier[Option] operator[...] identifier[options] operator[SEP] { identifier[addTerminal] operator[SEP] Other[null] , literal[String] operator[+] identifier[expression] operator[+] literal[String] , identifier[expression] , literal[String] , Other[0] , Other[10] , identifier[options] operator[SEP] operator[SEP] }
public static LongIterator generate(final LongSupplier supplier) { N.checkArgNotNull(supplier); return new LongIterator() { @Override public boolean hasNext() { return true; } @Override public long nextLong() { return supplier.getAsLong(); } }; }
class class_name[name] begin[{] method[generate, return_type[type[LongIterator]], modifier[public static], parameter[supplier]] begin[{] call[N.checkArgNotNull, parameter[member[.supplier]]] return[ClassCreator(arguments=[], body=[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={'public'}, name=hasNext, parameters=[], return_type=BasicType(dimensions=[], name=boolean), throws=None, type_parameters=None), MethodDeclaration(annotations=[Annotation(element=None, name=Override)], body=[ReturnStatement(expression=MethodInvocation(arguments=[], member=getAsLong, postfix_operators=[], prefix_operators=[], qualifier=supplier, selectors=[], type_arguments=None), label=None)], documentation=None, modifiers={'public'}, name=nextLong, parameters=[], return_type=BasicType(dimensions=[], name=long), throws=None, type_parameters=None)], constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=LongIterator, sub_type=None))] end[}] END[}]
Keyword[public] Keyword[static] identifier[LongIterator] identifier[generate] operator[SEP] Keyword[final] identifier[LongSupplier] identifier[supplier] operator[SEP] { identifier[N] operator[SEP] identifier[checkArgNotNull] operator[SEP] identifier[supplier] operator[SEP] operator[SEP] Keyword[return] Keyword[new] identifier[LongIterator] operator[SEP] operator[SEP] { annotation[@] identifier[Override] Keyword[public] Keyword[boolean] identifier[hasNext] operator[SEP] operator[SEP] { Keyword[return] literal[boolean] operator[SEP] } annotation[@] identifier[Override] Keyword[public] Keyword[long] identifier[nextLong] operator[SEP] operator[SEP] { Keyword[return] identifier[supplier] operator[SEP] identifier[getAsLong] operator[SEP] operator[SEP] operator[SEP] } } operator[SEP] }
@NullableDecl public static <T> T getLast(Iterator<? extends T> iterator, @NullableDecl T defaultValue) { return iterator.hasNext() ? getLast(iterator) : defaultValue; }
class class_name[name] begin[{] method[getLast, return_type[type[T]], modifier[public static], parameter[iterator, defaultValue]] begin[{] return[TernaryExpression(condition=MethodInvocation(arguments=[], member=hasNext, postfix_operators=[], prefix_operators=[], qualifier=iterator, selectors=[], type_arguments=None), if_false=MemberReference(member=defaultValue, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), if_true=MethodInvocation(arguments=[MemberReference(member=iterator, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getLast, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None))] end[}] END[}]
annotation[@] identifier[NullableDecl] Keyword[public] Keyword[static] operator[<] identifier[T] operator[>] identifier[T] identifier[getLast] operator[SEP] identifier[Iterator] operator[<] operator[?] Keyword[extends] identifier[T] operator[>] identifier[iterator] , annotation[@] identifier[NullableDecl] identifier[T] identifier[defaultValue] operator[SEP] { Keyword[return] identifier[iterator] operator[SEP] identifier[hasNext] operator[SEP] operator[SEP] operator[?] identifier[getLast] operator[SEP] identifier[iterator] operator[SEP] operator[:] identifier[defaultValue] operator[SEP] }
@Override public void startDocument() throws IOException { // JSF 2.2 section 2.2.6.1 Render Response Partial Processing // use writePreamble(...) //_wrapped.write ("<?xml version=\"1.0\" encoding=\"utf-8\"?>"); _wrapped.startElement ("partial-response", null); // If by some reason the response has been reset, and the same // PartialResponseWriter is used, it is necessary to ensure any // variable is initialized in a consistent state. To do that, // the best point is when the document is started. hasChanges = false; insertType = null; }
class class_name[name] begin[{] method[startDocument, return_type[void], modifier[public], parameter[]] begin[{] call[_wrapped.startElement, parameter[literal["partial-response"], literal[null]]] assign[member[.hasChanges], literal[false]] assign[member[.insertType], literal[null]] end[}] END[}]
annotation[@] identifier[Override] Keyword[public] Keyword[void] identifier[startDocument] operator[SEP] operator[SEP] Keyword[throws] identifier[IOException] { identifier[_wrapped] operator[SEP] identifier[startElement] operator[SEP] literal[String] , Other[null] operator[SEP] operator[SEP] identifier[hasChanges] operator[=] literal[boolean] operator[SEP] identifier[insertType] operator[=] Other[null] operator[SEP] }
private void addFieldRules( AnnotationInstance rulesContainerAnnotation, RuleInfo ruleInfo, boolean applyToAllLocales ) { // // First parse the locale from the wrapper annotation. This will apply to all rules inside. // Locale locale = null; if ( ! applyToAllLocales ) { String language = CompilerUtils.getString( rulesContainerAnnotation, LANGUAGE_ATTR, true ); // // If there's no language specified, then this rule will only apply for the default ruleset // (i.e., if there are explicit rules for the requested locale, this rule will not be run). // if ( language != null ) { String country = CompilerUtils.getString( rulesContainerAnnotation, COUNTRY_ATTR, true ); String variant = CompilerUtils.getString( rulesContainerAnnotation, VARIANT_ATTR, true ); language = language.trim(); if ( country != null ) country = country.trim(); if ( variant != null ) variant = variant.trim(); if ( country != null && variant != null ) locale = new Locale( language, country, variant ); else if ( country != null ) locale = new Locale( language, country ); else locale = new Locale( language ); } } Map valuesPresent = rulesContainerAnnotation.getElementValues(); for ( Iterator ii = valuesPresent.entrySet().iterator(); ii.hasNext(); ) { Map.Entry entry = ( Map.Entry ) ii.next(); AnnotationValue value = ( AnnotationValue ) entry.getValue(); Object val = value.getValue(); if ( val instanceof AnnotationInstance ) { addFieldRuleFromAnnotation( ruleInfo, ( AnnotationInstance ) val, locale, applyToAllLocales ); } else if ( val instanceof List ) { List annotations = CompilerUtils.getAnnotationArray( value ); for ( Iterator i3 = annotations.iterator(); i3.hasNext(); ) { AnnotationInstance i = ( AnnotationInstance ) i3.next(); addFieldRuleFromAnnotation( ruleInfo, i, locale, applyToAllLocales ); } } } setEmpty( false ); // this ValidationModel is only "empty" if there are no rules. }
class class_name[name] begin[{] method[addFieldRules, return_type[void], modifier[private], parameter[rulesContainerAnnotation, ruleInfo, applyToAllLocales]] begin[{] local_variable[type[Locale], locale] if[member[.applyToAllLocales]] begin[{] local_variable[type[String], language] if[binary_operation[member[.language], !=, literal[null]]] begin[{] local_variable[type[String], country] local_variable[type[String], variant] assign[member[.language], call[language.trim, parameter[]]] if[binary_operation[member[.country], !=, literal[null]]] begin[{] assign[member[.country], call[country.trim, parameter[]]] else begin[{] None end[}] if[binary_operation[member[.variant], !=, literal[null]]] begin[{] assign[member[.variant], call[variant.trim, parameter[]]] else begin[{] None end[}] if[binary_operation[binary_operation[member[.country], !=, literal[null]], &&, binary_operation[member[.variant], !=, literal[null]]]] begin[{] assign[member[.locale], ClassCreator(arguments=[MemberReference(member=language, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=country, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=variant, 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=Locale, sub_type=None))] else begin[{] if[binary_operation[member[.country], !=, literal[null]]] begin[{] assign[member[.locale], ClassCreator(arguments=[MemberReference(member=language, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=country, 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=Locale, sub_type=None))] else begin[{] assign[member[.locale], ClassCreator(arguments=[MemberReference(member=language, 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=Locale, sub_type=None))] end[}] end[}] else begin[{] None end[}] else begin[{] None end[}] local_variable[type[Map], valuesPresent] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Cast(expression=MethodInvocation(arguments=[], member=next, postfix_operators=[], prefix_operators=[], qualifier=ii, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=Map, sub_type=ReferenceType(arguments=None, dimensions=None, name=Entry, sub_type=None))), name=entry)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Map, sub_type=ReferenceType(arguments=None, dimensions=None, name=Entry, sub_type=None))), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Cast(expression=MethodInvocation(arguments=[], member=getValue, postfix_operators=[], prefix_operators=[], qualifier=entry, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=AnnotationValue, sub_type=None)), name=value)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=AnnotationValue, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=getValue, postfix_operators=[], prefix_operators=[], qualifier=value, selectors=[], type_arguments=None), name=val)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Object, sub_type=None)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=val, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=AnnotationInstance, sub_type=None), operator=instanceof), else_statement=IfStatement(condition=BinaryOperation(operandl=MemberReference(member=val, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=List, sub_type=None), operator=instanceof), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=value, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getAnnotationArray, postfix_operators=[], prefix_operators=[], qualifier=CompilerUtils, selectors=[], type_arguments=None), name=annotations)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=List, sub_type=None)), ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Cast(expression=MethodInvocation(arguments=[], member=next, postfix_operators=[], prefix_operators=[], qualifier=i3, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=AnnotationInstance, sub_type=None)), name=i)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=AnnotationInstance, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=ruleInfo, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=locale, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=applyToAllLocales, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=addFieldRuleFromAnnotation, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)]), control=ForControl(condition=MethodInvocation(arguments=[], member=hasNext, postfix_operators=[], prefix_operators=[], qualifier=i3, selectors=[], type_arguments=None), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=MethodInvocation(arguments=[], member=iterator, postfix_operators=[], prefix_operators=[], qualifier=annotations, selectors=[], type_arguments=None), name=i3)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Iterator, sub_type=None)), update=None), label=None)])), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=ruleInfo, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Cast(expression=MemberReference(member=val, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=AnnotationInstance, sub_type=None)), MemberReference(member=locale, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=applyToAllLocales, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=addFieldRuleFromAnnotation, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)]))]), control=ForControl(condition=MethodInvocation(arguments=[], member=hasNext, postfix_operators=[], prefix_operators=[], qualifier=ii, selectors=[], type_arguments=None), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=MethodInvocation(arguments=[], member=entrySet, postfix_operators=[], prefix_operators=[], qualifier=valuesPresent, selectors=[MethodInvocation(arguments=[], member=iterator, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), name=ii)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Iterator, sub_type=None)), update=None), label=None) call[.setEmpty, parameter[literal[false]]] end[}] END[}]
Keyword[private] Keyword[void] identifier[addFieldRules] operator[SEP] identifier[AnnotationInstance] identifier[rulesContainerAnnotation] , identifier[RuleInfo] identifier[ruleInfo] , Keyword[boolean] identifier[applyToAllLocales] operator[SEP] { identifier[Locale] identifier[locale] operator[=] Other[null] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[applyToAllLocales] operator[SEP] { identifier[String] identifier[language] operator[=] identifier[CompilerUtils] operator[SEP] identifier[getString] operator[SEP] identifier[rulesContainerAnnotation] , identifier[LANGUAGE_ATTR] , literal[boolean] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[language] operator[!=] Other[null] operator[SEP] { identifier[String] identifier[country] operator[=] identifier[CompilerUtils] operator[SEP] identifier[getString] operator[SEP] identifier[rulesContainerAnnotation] , identifier[COUNTRY_ATTR] , literal[boolean] operator[SEP] operator[SEP] identifier[String] identifier[variant] operator[=] identifier[CompilerUtils] operator[SEP] identifier[getString] operator[SEP] identifier[rulesContainerAnnotation] , identifier[VARIANT_ATTR] , literal[boolean] operator[SEP] operator[SEP] identifier[language] operator[=] identifier[language] operator[SEP] identifier[trim] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[country] operator[!=] Other[null] operator[SEP] identifier[country] operator[=] identifier[country] operator[SEP] identifier[trim] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[variant] operator[!=] Other[null] operator[SEP] identifier[variant] operator[=] identifier[variant] operator[SEP] identifier[trim] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[country] operator[!=] Other[null] operator[&&] identifier[variant] operator[!=] Other[null] operator[SEP] identifier[locale] operator[=] Keyword[new] identifier[Locale] operator[SEP] identifier[language] , identifier[country] , identifier[variant] operator[SEP] operator[SEP] Keyword[else] Keyword[if] operator[SEP] identifier[country] operator[!=] Other[null] operator[SEP] identifier[locale] operator[=] Keyword[new] identifier[Locale] operator[SEP] identifier[language] , identifier[country] operator[SEP] operator[SEP] Keyword[else] identifier[locale] operator[=] Keyword[new] identifier[Locale] operator[SEP] identifier[language] operator[SEP] operator[SEP] } } identifier[Map] identifier[valuesPresent] operator[=] identifier[rulesContainerAnnotation] operator[SEP] identifier[getElementValues] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] identifier[Iterator] identifier[ii] operator[=] identifier[valuesPresent] operator[SEP] identifier[entrySet] operator[SEP] operator[SEP] operator[SEP] identifier[iterator] operator[SEP] operator[SEP] operator[SEP] identifier[ii] operator[SEP] identifier[hasNext] operator[SEP] operator[SEP] operator[SEP] operator[SEP] { identifier[Map] operator[SEP] identifier[Entry] identifier[entry] operator[=] operator[SEP] identifier[Map] operator[SEP] identifier[Entry] operator[SEP] identifier[ii] operator[SEP] identifier[next] operator[SEP] operator[SEP] operator[SEP] identifier[AnnotationValue] identifier[value] operator[=] operator[SEP] identifier[AnnotationValue] operator[SEP] identifier[entry] operator[SEP] identifier[getValue] operator[SEP] operator[SEP] operator[SEP] identifier[Object] identifier[val] operator[=] identifier[value] operator[SEP] identifier[getValue] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[val] Keyword[instanceof] identifier[AnnotationInstance] operator[SEP] { identifier[addFieldRuleFromAnnotation] operator[SEP] identifier[ruleInfo] , operator[SEP] identifier[AnnotationInstance] operator[SEP] identifier[val] , identifier[locale] , identifier[applyToAllLocales] operator[SEP] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[val] Keyword[instanceof] identifier[List] operator[SEP] { identifier[List] identifier[annotations] operator[=] identifier[CompilerUtils] operator[SEP] identifier[getAnnotationArray] operator[SEP] identifier[value] operator[SEP] operator[SEP] Keyword[for] operator[SEP] identifier[Iterator] identifier[i3] operator[=] identifier[annotations] operator[SEP] identifier[iterator] operator[SEP] operator[SEP] operator[SEP] identifier[i3] operator[SEP] identifier[hasNext] operator[SEP] operator[SEP] operator[SEP] operator[SEP] { identifier[AnnotationInstance] identifier[i] operator[=] operator[SEP] identifier[AnnotationInstance] operator[SEP] identifier[i3] operator[SEP] identifier[next] operator[SEP] operator[SEP] operator[SEP] identifier[addFieldRuleFromAnnotation] operator[SEP] identifier[ruleInfo] , identifier[i] , identifier[locale] , identifier[applyToAllLocales] operator[SEP] operator[SEP] } } } identifier[setEmpty] operator[SEP] literal[boolean] operator[SEP] operator[SEP] }
public static OnJqueryFunction on(final CharSequence events, final CharSequence selector, JavaScriptInlineFunction handler) { return on(JQuery.quoted(events), JQuery.quoted(selector), Attr.nullValue(), handler); }
class class_name[name] begin[{] method[on, return_type[type[OnJqueryFunction]], modifier[public static], parameter[events, selector, handler]] begin[{] return[call[.on, parameter[call[JQuery.quoted, parameter[member[.events]]], call[JQuery.quoted, parameter[member[.selector]]], call[Attr.nullValue, parameter[]], member[.handler]]]] end[}] END[}]
Keyword[public] Keyword[static] identifier[OnJqueryFunction] identifier[on] operator[SEP] Keyword[final] identifier[CharSequence] identifier[events] , Keyword[final] identifier[CharSequence] identifier[selector] , identifier[JavaScriptInlineFunction] identifier[handler] operator[SEP] { Keyword[return] identifier[on] operator[SEP] identifier[JQuery] operator[SEP] identifier[quoted] operator[SEP] identifier[events] operator[SEP] , identifier[JQuery] operator[SEP] identifier[quoted] operator[SEP] identifier[selector] operator[SEP] , identifier[Attr] operator[SEP] identifier[nullValue] operator[SEP] operator[SEP] , identifier[handler] operator[SEP] operator[SEP] }
@Override public Resource createResource(URI uri) { XMLResource result = new BpsimResourceImpl(uri); result.getDefaultSaveOptions().put(XMLResource.OPTION_EXTENDED_META_DATA, Boolean.TRUE); result.getDefaultLoadOptions().put(XMLResource.OPTION_EXTENDED_META_DATA, Boolean.TRUE); result.getDefaultSaveOptions().put(XMLResource.OPTION_SCHEMA_LOCATION, Boolean.TRUE); result.getDefaultLoadOptions().put(XMLResource.OPTION_USE_ENCODED_ATTRIBUTE_STYLE, Boolean.TRUE); result.getDefaultSaveOptions().put(XMLResource.OPTION_USE_ENCODED_ATTRIBUTE_STYLE, Boolean.TRUE); result.getDefaultLoadOptions().put(XMLResource.OPTION_USE_LEXICAL_HANDLER, Boolean.TRUE); return result; }
class class_name[name] begin[{] method[createResource, return_type[type[Resource]], modifier[public], parameter[uri]] begin[{] local_variable[type[XMLResource], result] call[result.getDefaultSaveOptions, parameter[]] call[result.getDefaultLoadOptions, parameter[]] call[result.getDefaultSaveOptions, parameter[]] call[result.getDefaultLoadOptions, parameter[]] call[result.getDefaultSaveOptions, parameter[]] call[result.getDefaultLoadOptions, parameter[]] return[member[.result]] end[}] END[}]
annotation[@] identifier[Override] Keyword[public] identifier[Resource] identifier[createResource] operator[SEP] identifier[URI] identifier[uri] operator[SEP] { identifier[XMLResource] identifier[result] operator[=] Keyword[new] identifier[BpsimResourceImpl] operator[SEP] identifier[uri] operator[SEP] operator[SEP] identifier[result] operator[SEP] identifier[getDefaultSaveOptions] operator[SEP] operator[SEP] operator[SEP] identifier[put] operator[SEP] identifier[XMLResource] operator[SEP] identifier[OPTION_EXTENDED_META_DATA] , identifier[Boolean] operator[SEP] identifier[TRUE] operator[SEP] operator[SEP] identifier[result] operator[SEP] identifier[getDefaultLoadOptions] operator[SEP] operator[SEP] operator[SEP] identifier[put] operator[SEP] identifier[XMLResource] operator[SEP] identifier[OPTION_EXTENDED_META_DATA] , identifier[Boolean] operator[SEP] identifier[TRUE] operator[SEP] operator[SEP] identifier[result] operator[SEP] identifier[getDefaultSaveOptions] operator[SEP] operator[SEP] operator[SEP] identifier[put] operator[SEP] identifier[XMLResource] operator[SEP] identifier[OPTION_SCHEMA_LOCATION] , identifier[Boolean] operator[SEP] identifier[TRUE] operator[SEP] operator[SEP] identifier[result] operator[SEP] identifier[getDefaultLoadOptions] operator[SEP] operator[SEP] operator[SEP] identifier[put] operator[SEP] identifier[XMLResource] operator[SEP] identifier[OPTION_USE_ENCODED_ATTRIBUTE_STYLE] , identifier[Boolean] operator[SEP] identifier[TRUE] operator[SEP] operator[SEP] identifier[result] operator[SEP] identifier[getDefaultSaveOptions] operator[SEP] operator[SEP] operator[SEP] identifier[put] operator[SEP] identifier[XMLResource] operator[SEP] identifier[OPTION_USE_ENCODED_ATTRIBUTE_STYLE] , identifier[Boolean] operator[SEP] identifier[TRUE] operator[SEP] operator[SEP] identifier[result] operator[SEP] identifier[getDefaultLoadOptions] operator[SEP] operator[SEP] operator[SEP] identifier[put] operator[SEP] identifier[XMLResource] operator[SEP] identifier[OPTION_USE_LEXICAL_HANDLER] , identifier[Boolean] operator[SEP] identifier[TRUE] operator[SEP] operator[SEP] Keyword[return] identifier[result] operator[SEP] }
@Override public VerifyDomainIdentityResult verifyDomainIdentity(VerifyDomainIdentityRequest request) { request = beforeClientExecution(request); return executeVerifyDomainIdentity(request); }
class class_name[name] begin[{] method[verifyDomainIdentity, return_type[type[VerifyDomainIdentityResult]], modifier[public], parameter[request]] begin[{] assign[member[.request], call[.beforeClientExecution, parameter[member[.request]]]] return[call[.executeVerifyDomainIdentity, parameter[member[.request]]]] end[}] END[}]
annotation[@] identifier[Override] Keyword[public] identifier[VerifyDomainIdentityResult] identifier[verifyDomainIdentity] operator[SEP] identifier[VerifyDomainIdentityRequest] identifier[request] operator[SEP] { identifier[request] operator[=] identifier[beforeClientExecution] operator[SEP] identifier[request] operator[SEP] operator[SEP] Keyword[return] identifier[executeVerifyDomainIdentity] operator[SEP] identifier[request] operator[SEP] operator[SEP] }
public static byte[] passwordBytes(AbstractConfig config, String key, Charset charset) { final Password password = config.getPassword(key); return password.value().getBytes(charset); }
class class_name[name] begin[{] method[passwordBytes, return_type[type[byte]], modifier[public static], parameter[config, key, charset]] begin[{] local_variable[type[Password], password] return[call[password.value, parameter[]]] end[}] END[}]
Keyword[public] Keyword[static] Keyword[byte] operator[SEP] operator[SEP] identifier[passwordBytes] operator[SEP] identifier[AbstractConfig] identifier[config] , identifier[String] identifier[key] , identifier[Charset] identifier[charset] operator[SEP] { Keyword[final] identifier[Password] identifier[password] operator[=] identifier[config] operator[SEP] identifier[getPassword] operator[SEP] identifier[key] operator[SEP] operator[SEP] Keyword[return] identifier[password] operator[SEP] identifier[value] operator[SEP] operator[SEP] operator[SEP] identifier[getBytes] operator[SEP] identifier[charset] operator[SEP] operator[SEP] }
synchronized private static Date extractFromTimestamp(String watermark) { final SimpleDateFormat inputFormat = new SimpleDateFormat(INPUTFORMAT); final SimpleDateFormat outputFormat = new SimpleDateFormat(OUTPUTFORMAT); Date outDate = null; try { Date date = inputFormat.parse(watermark); String dateStr = outputFormat.format(date); outDate = outputFormat.parse(dateStr); } catch (ParseException e) { LOG.error(e.getMessage(), e); } return outDate; }
class class_name[name] begin[{] method[extractFromTimestamp, return_type[type[Date]], modifier[synchronized private static], parameter[watermark]] begin[{] local_variable[type[SimpleDateFormat], inputFormat] local_variable[type[SimpleDateFormat], outputFormat] local_variable[type[Date], outDate] TryStatement(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=watermark, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=parse, postfix_operators=[], prefix_operators=[], qualifier=inputFormat, selectors=[], type_arguments=None), name=date)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Date, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=date, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=format, postfix_operators=[], prefix_operators=[], qualifier=outputFormat, selectors=[], type_arguments=None), name=dateStr)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), StatementExpression(expression=Assignment(expressionl=MemberReference(member=outDate, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[MemberReference(member=dateStr, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=parse, postfix_operators=[], prefix_operators=[], qualifier=outputFormat, selectors=[], type_arguments=None)), label=None)], catches=[CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getMessage, postfix_operators=[], prefix_operators=[], qualifier=e, selectors=[], type_arguments=None), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=error, postfix_operators=[], prefix_operators=[], qualifier=LOG, selectors=[], type_arguments=None), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['ParseException']))], finally_block=None, label=None, resources=None) return[member[.outDate]] end[}] END[}]
Keyword[synchronized] Keyword[private] Keyword[static] identifier[Date] identifier[extractFromTimestamp] operator[SEP] identifier[String] identifier[watermark] operator[SEP] { Keyword[final] identifier[SimpleDateFormat] identifier[inputFormat] operator[=] Keyword[new] identifier[SimpleDateFormat] operator[SEP] identifier[INPUTFORMAT] operator[SEP] operator[SEP] Keyword[final] identifier[SimpleDateFormat] identifier[outputFormat] operator[=] Keyword[new] identifier[SimpleDateFormat] operator[SEP] identifier[OUTPUTFORMAT] operator[SEP] operator[SEP] identifier[Date] identifier[outDate] operator[=] Other[null] operator[SEP] Keyword[try] { identifier[Date] identifier[date] operator[=] identifier[inputFormat] operator[SEP] identifier[parse] operator[SEP] identifier[watermark] operator[SEP] operator[SEP] identifier[String] identifier[dateStr] operator[=] identifier[outputFormat] operator[SEP] identifier[format] operator[SEP] identifier[date] operator[SEP] operator[SEP] identifier[outDate] operator[=] identifier[outputFormat] operator[SEP] identifier[parse] operator[SEP] identifier[dateStr] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[ParseException] identifier[e] operator[SEP] { identifier[LOG] operator[SEP] identifier[error] operator[SEP] identifier[e] operator[SEP] identifier[getMessage] operator[SEP] operator[SEP] , identifier[e] operator[SEP] operator[SEP] } Keyword[return] identifier[outDate] operator[SEP] }
public HostAvailabilityListener withHostUnavailableExceptions(Class<Throwable>... exceptionTypes) { hostUnavailableExceptions = new ArrayList<>(); for ( Class<Throwable> exception : exceptionTypes ) { hostUnavailableExceptions.add(exception); } return this; }
class class_name[name] begin[{] method[withHostUnavailableExceptions, return_type[type[HostAvailabilityListener]], modifier[public], parameter[exceptionTypes]] begin[{] assign[member[.hostUnavailableExceptions], ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=[], dimensions=None, name=ArrayList, sub_type=None))] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=exception, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=add, postfix_operators=[], prefix_operators=[], qualifier=hostUnavailableExceptions, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MemberReference(member=exceptionTypes, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=exception)], modifiers=set(), type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=Throwable, sub_type=None))], dimensions=[], name=Class, sub_type=None))), label=None) return[THIS[]] end[}] END[}]
Keyword[public] identifier[HostAvailabilityListener] identifier[withHostUnavailableExceptions] operator[SEP] identifier[Class] operator[<] identifier[Throwable] operator[>] operator[...] identifier[exceptionTypes] operator[SEP] { identifier[hostUnavailableExceptions] operator[=] Keyword[new] identifier[ArrayList] operator[<] operator[>] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] identifier[Class] operator[<] identifier[Throwable] operator[>] identifier[exception] operator[:] identifier[exceptionTypes] operator[SEP] { identifier[hostUnavailableExceptions] operator[SEP] identifier[add] operator[SEP] identifier[exception] operator[SEP] operator[SEP] } Keyword[return] Keyword[this] operator[SEP] }
public final CellName clusteringKey(BytesRef bytesRef) { String string = bytesRef.utf8ToString(); ByteBuffer bb = ByteBufferUtils.fromString(string); return cellNameType.cellFromByteBuffer(bb); }
class class_name[name] begin[{] method[clusteringKey, return_type[type[CellName]], modifier[final public], parameter[bytesRef]] begin[{] local_variable[type[String], string] local_variable[type[ByteBuffer], bb] return[call[cellNameType.cellFromByteBuffer, parameter[member[.bb]]]] end[}] END[}]
Keyword[public] Keyword[final] identifier[CellName] identifier[clusteringKey] operator[SEP] identifier[BytesRef] identifier[bytesRef] operator[SEP] { identifier[String] identifier[string] operator[=] identifier[bytesRef] operator[SEP] identifier[utf8ToString] operator[SEP] operator[SEP] operator[SEP] identifier[ByteBuffer] identifier[bb] operator[=] identifier[ByteBufferUtils] operator[SEP] identifier[fromString] operator[SEP] identifier[string] operator[SEP] operator[SEP] Keyword[return] identifier[cellNameType] operator[SEP] identifier[cellFromByteBuffer] operator[SEP] identifier[bb] operator[SEP] operator[SEP] }
@Nonnull public static <T> BinaryOperatorBuilder<T> binaryOperator(Consumer<BinaryOperator<T>> consumer) { return new BinaryOperatorBuilder(consumer); }
class class_name[name] begin[{] method[binaryOperator, return_type[type[BinaryOperatorBuilder]], modifier[public static], parameter[consumer]] begin[{] return[ClassCreator(arguments=[MemberReference(member=consumer, 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=BinaryOperatorBuilder, sub_type=None))] end[}] END[}]
annotation[@] identifier[Nonnull] Keyword[public] Keyword[static] operator[<] identifier[T] operator[>] identifier[BinaryOperatorBuilder] operator[<] identifier[T] operator[>] identifier[binaryOperator] operator[SEP] identifier[Consumer] operator[<] identifier[BinaryOperator] operator[<] identifier[T] operator[>] operator[>] identifier[consumer] operator[SEP] { Keyword[return] Keyword[new] identifier[BinaryOperatorBuilder] operator[SEP] identifier[consumer] operator[SEP] operator[SEP] }
@Override public Example visitExample(Context context, String key, Example example) { return example; }
class class_name[name] begin[{] method[visitExample, return_type[type[Example]], modifier[public], parameter[context, key, example]] begin[{] return[member[.example]] end[}] END[}]
annotation[@] identifier[Override] Keyword[public] identifier[Example] identifier[visitExample] operator[SEP] identifier[Context] identifier[context] , identifier[String] identifier[key] , identifier[Example] identifier[example] operator[SEP] { Keyword[return] identifier[example] operator[SEP] }
protected void addComment(ProgramElementDoc element, Content contentTree) { Tag[] tags; Content span = HtmlTree.SPAN(HtmlStyle.deprecatedLabel, deprecatedPhrase); HtmlTree div = new HtmlTree(HtmlTag.DIV); div.addStyle(HtmlStyle.block); if (Util.isDeprecated(element)) { div.addContent(span); if ((tags = element.tags("deprecated")).length > 0) addInlineDeprecatedComment(element, tags[0], div); contentTree.addContent(div); } else { ClassDoc cont = element.containingClass(); while (cont != null) { if (Util.isDeprecated(cont)) { div.addContent(span); contentTree.addContent(div); break; } cont = cont.containingClass(); } addSummaryComment(element, contentTree); } }
class class_name[name] begin[{] method[addComment, return_type[void], modifier[protected], parameter[element, contentTree]] begin[{] local_variable[type[Tag], tags] local_variable[type[Content], span] local_variable[type[HtmlTree], div] call[div.addStyle, parameter[member[HtmlStyle.block]]] if[call[Util.isDeprecated, parameter[member[.element]]]] begin[{] call[div.addContent, parameter[member[.span]]] if[binary_operation[assign[member[.tags], call[element.tags, parameter[literal["deprecated"]]]], >, literal[0]]] begin[{] call[.addInlineDeprecatedComment, parameter[member[.element], member[.tags], member[.div]]] else begin[{] None end[}] call[contentTree.addContent, parameter[member[.div]]] else begin[{] local_variable[type[ClassDoc], cont] while[binary_operation[member[.cont], !=, literal[null]]] begin[{] if[call[Util.isDeprecated, parameter[member[.cont]]]] begin[{] call[div.addContent, parameter[member[.span]]] call[contentTree.addContent, parameter[member[.div]]] BreakStatement(goto=None, label=None) else begin[{] None end[}] assign[member[.cont], call[cont.containingClass, parameter[]]] end[}] call[.addSummaryComment, parameter[member[.element], member[.contentTree]]] end[}] end[}] END[}]
Keyword[protected] Keyword[void] identifier[addComment] operator[SEP] identifier[ProgramElementDoc] identifier[element] , identifier[Content] identifier[contentTree] operator[SEP] { identifier[Tag] operator[SEP] operator[SEP] identifier[tags] operator[SEP] identifier[Content] identifier[span] operator[=] identifier[HtmlTree] operator[SEP] identifier[SPAN] operator[SEP] identifier[HtmlStyle] operator[SEP] identifier[deprecatedLabel] , identifier[deprecatedPhrase] operator[SEP] operator[SEP] identifier[HtmlTree] identifier[div] operator[=] Keyword[new] identifier[HtmlTree] operator[SEP] identifier[HtmlTag] operator[SEP] identifier[DIV] operator[SEP] operator[SEP] identifier[div] operator[SEP] identifier[addStyle] operator[SEP] identifier[HtmlStyle] operator[SEP] identifier[block] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[Util] operator[SEP] identifier[isDeprecated] operator[SEP] identifier[element] operator[SEP] operator[SEP] { identifier[div] operator[SEP] identifier[addContent] operator[SEP] identifier[span] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[SEP] identifier[tags] operator[=] identifier[element] operator[SEP] identifier[tags] operator[SEP] literal[String] operator[SEP] operator[SEP] operator[SEP] identifier[length] operator[>] Other[0] operator[SEP] identifier[addInlineDeprecatedComment] operator[SEP] identifier[element] , identifier[tags] operator[SEP] Other[0] operator[SEP] , identifier[div] operator[SEP] operator[SEP] identifier[contentTree] operator[SEP] identifier[addContent] operator[SEP] identifier[div] operator[SEP] operator[SEP] } Keyword[else] { identifier[ClassDoc] identifier[cont] operator[=] identifier[element] operator[SEP] identifier[containingClass] operator[SEP] operator[SEP] operator[SEP] Keyword[while] operator[SEP] identifier[cont] operator[!=] Other[null] operator[SEP] { Keyword[if] operator[SEP] identifier[Util] operator[SEP] identifier[isDeprecated] operator[SEP] identifier[cont] operator[SEP] operator[SEP] { identifier[div] operator[SEP] identifier[addContent] operator[SEP] identifier[span] operator[SEP] operator[SEP] identifier[contentTree] operator[SEP] identifier[addContent] operator[SEP] identifier[div] operator[SEP] operator[SEP] Keyword[break] operator[SEP] } identifier[cont] operator[=] identifier[cont] operator[SEP] identifier[containingClass] operator[SEP] operator[SEP] operator[SEP] } identifier[addSummaryComment] operator[SEP] identifier[element] , identifier[contentTree] operator[SEP] operator[SEP] } }
public void setObject(final int parameterIndex, final Object obj, final int targetSqlType) throws SQLException { setInternalObject(parameterIndex, obj, targetSqlType, Long.MAX_VALUE); }
class class_name[name] begin[{] method[setObject, return_type[void], modifier[public], parameter[parameterIndex, obj, targetSqlType]] begin[{] call[.setInternalObject, parameter[member[.parameterIndex], member[.obj], member[.targetSqlType], member[Long.MAX_VALUE]]] end[}] END[}]
Keyword[public] Keyword[void] identifier[setObject] operator[SEP] Keyword[final] Keyword[int] identifier[parameterIndex] , Keyword[final] identifier[Object] identifier[obj] , Keyword[final] Keyword[int] identifier[targetSqlType] operator[SEP] Keyword[throws] identifier[SQLException] { identifier[setInternalObject] operator[SEP] identifier[parameterIndex] , identifier[obj] , identifier[targetSqlType] , identifier[Long] operator[SEP] identifier[MAX_VALUE] operator[SEP] operator[SEP] }
private String getNativeElementClickOnItAndTypeUsingKeyboardScript(String value) throws Exception { StringBuilder script = new StringBuilder(); script.append("var keyboard; var waiter = 10; while(waiter-- > 0){try{ " + "keyboard = UIAutomation.cache.get('1').keyboard(); break;}catch(e){UIATarget.localTarget().delay(1);}}; "); Boolean keyboardResigned = false; boolean ios7 = new IOSVersion(session.getCapabilities().getSDKVersion()).isGreaterOrEqualTo("7.0"); StringBuilder current = new StringBuilder(); XPath2Engine xpathEngine = null; for (int i = 0; i < value.length(); i++) { int idx = specialKeys.indexOf(value.charAt(i)); if (idx >= 0) { if (xpathEngine == null) { xpathEngine = XPath2Engine.getXpath2Engine(nativeDriver); } if (current.length() > 0) { script.append(getKeyboardTypeStringSegement(current.toString())); current = new StringBuilder(); } switch (idx) { case 0: // DELETE // TODO, i don't like this xpath... should find the key in a better way // (like keyboard.shift) script.append(getReferenceToTapByXpath(xpathEngine, "//UIAKeyboard/UIAKey[" + ( nativeDriver.getCapabilities().getDevice() == DeviceType.ipad ? (ios7? "13" : "11") : (ios7? "last()-2" : "last()-3")) + ']' )); break; case 1: case 2: // ENTER / RETURN // TODO another smelly xpath. script.append(getReferenceToTapByXpath(xpathEngine, "//UIAKeyboard/UIAButton[" + ( nativeDriver.getCapabilities().getDevice() == DeviceType.ipad ? "1" : (ios7? "4" : "2")) + ']' )); keyboardResigned = true; break; case 3: // SHIFT script.append("keyboard.shift();"); break; default: throw new RuntimeException("Special key found in the list but not taken care of??"); } } else { current.append(value.charAt(i)); } } if (current.length() > 0) { script.append(getKeyboardTypeStringSegement(current.toString())); } //check to see if the user wants to keep the keyboard after typing in text Boolean showKeyboardAfterClickAndType = Boolean.TRUE.equals(session.getCapabilities() .getCapability((IOSCapabilities.SHOW_KEYBOARD_AFTER_CLICK_AND_TYPE))); if (!showKeyboardAfterClickAndType) { if (!keyboardResigned) { script.append("keyboard.hide();"); } } return script.toString(); }
class class_name[name] begin[{] method[getNativeElementClickOnItAndTypeUsingKeyboardScript, return_type[type[String]], modifier[private], parameter[value]] begin[{] local_variable[type[StringBuilder], script] call[script.append, parameter[binary_operation[literal["var keyboard; var waiter = 10; while(waiter-- > 0){try{ "], +, literal["keyboard = UIAutomation.cache.get('1').keyboard(); break;}catch(e){UIATarget.localTarget().delay(1);}}; "]]]] local_variable[type[Boolean], keyboardResigned] local_variable[type[boolean], ios7] local_variable[type[StringBuilder], current] local_variable[type[XPath2Engine], xpathEngine] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=charAt, postfix_operators=[], prefix_operators=[], qualifier=value, selectors=[], type_arguments=None)], member=indexOf, postfix_operators=[], prefix_operators=[], qualifier=specialKeys, selectors=[], type_arguments=None), name=idx)], modifiers=set(), type=BasicType(dimensions=[], name=int)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=idx, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), operator=>=), else_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=charAt, postfix_operators=[], prefix_operators=[], qualifier=value, selectors=[], type_arguments=None)], member=append, postfix_operators=[], prefix_operators=[], qualifier=current, selectors=[], type_arguments=None), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=xpathEngine, 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=xpathEngine, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[MemberReference(member=nativeDriver, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getXpath2Engine, postfix_operators=[], prefix_operators=[], qualifier=XPath2Engine, selectors=[], type_arguments=None)), label=None)])), IfStatement(condition=BinaryOperation(operandl=MethodInvocation(arguments=[], member=length, postfix_operators=[], prefix_operators=[], qualifier=current, selectors=[], type_arguments=None), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), operator=>), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[MethodInvocation(arguments=[], member=toString, postfix_operators=[], prefix_operators=[], qualifier=current, selectors=[], type_arguments=None)], member=getKeyboardTypeStringSegement, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)], member=append, postfix_operators=[], prefix_operators=[], qualifier=script, selectors=[], type_arguments=None), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=current, 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=None, dimensions=None, name=StringBuilder, sub_type=None))), label=None)])), SwitchStatement(cases=[SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0)], statements=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[MemberReference(member=xpathEngine, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), BinaryOperation(operandl=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="//UIAKeyboard/UIAKey["), operandr=TernaryExpression(condition=BinaryOperation(operandl=MethodInvocation(arguments=[], member=getCapabilities, postfix_operators=[], prefix_operators=[], qualifier=nativeDriver, selectors=[MethodInvocation(arguments=[], member=getDevice, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), operandr=MemberReference(member=ipad, postfix_operators=[], prefix_operators=[], qualifier=DeviceType, selectors=[]), operator===), if_false=TernaryExpression(condition=MemberReference(member=ios7, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), if_false=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="last()-3"), if_true=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="last()-2")), if_true=TernaryExpression(condition=MemberReference(member=ios7, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), if_false=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="11"), if_true=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="13"))), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=']'), operator=+)], member=getReferenceToTapByXpath, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)], member=append, postfix_operators=[], prefix_operators=[], qualifier=script, selectors=[], type_arguments=None), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2)], statements=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[MemberReference(member=xpathEngine, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), BinaryOperation(operandl=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="//UIAKeyboard/UIAButton["), operandr=TernaryExpression(condition=BinaryOperation(operandl=MethodInvocation(arguments=[], member=getCapabilities, postfix_operators=[], prefix_operators=[], qualifier=nativeDriver, selectors=[MethodInvocation(arguments=[], member=getDevice, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), operandr=MemberReference(member=ipad, postfix_operators=[], prefix_operators=[], qualifier=DeviceType, selectors=[]), operator===), if_false=TernaryExpression(condition=MemberReference(member=ios7, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), if_false=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="2"), if_true=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="4")), if_true=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="1")), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=']'), operator=+)], member=getReferenceToTapByXpath, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)], member=append, postfix_operators=[], prefix_operators=[], qualifier=script, selectors=[], type_arguments=None), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=keyboardResigned, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=3)], statements=[StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="keyboard.shift();")], member=append, postfix_operators=[], prefix_operators=[], qualifier=script, selectors=[], type_arguments=None), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[], statements=[ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Special key found in the list but not taken care of??")], 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)])], expression=MemberReference(member=idx, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), label=None)]))]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MethodInvocation(arguments=[], member=length, postfix_operators=[], prefix_operators=[], qualifier=value, selectors=[], type_arguments=None), operator=<), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), name=i)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=i, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None) if[binary_operation[call[current.length, parameter[]], >, literal[0]]] begin[{] call[script.append, parameter[call[.getKeyboardTypeStringSegement, parameter[call[current.toString, parameter[]]]]]] else begin[{] None end[}] local_variable[type[Boolean], showKeyboardAfterClickAndType] if[member[.showKeyboardAfterClickAndType]] begin[{] if[member[.keyboardResigned]] begin[{] call[script.append, parameter[literal["keyboard.hide();"]]] else begin[{] None end[}] else begin[{] None end[}] return[call[script.toString, parameter[]]] end[}] END[}]
Keyword[private] identifier[String] identifier[getNativeElementClickOnItAndTypeUsingKeyboardScript] operator[SEP] identifier[String] identifier[value] operator[SEP] Keyword[throws] identifier[Exception] { identifier[StringBuilder] identifier[script] operator[=] Keyword[new] identifier[StringBuilder] operator[SEP] operator[SEP] operator[SEP] identifier[script] operator[SEP] identifier[append] operator[SEP] literal[String] operator[+] literal[String] operator[SEP] operator[SEP] identifier[Boolean] identifier[keyboardResigned] operator[=] literal[boolean] operator[SEP] Keyword[boolean] identifier[ios7] operator[=] Keyword[new] identifier[IOSVersion] operator[SEP] identifier[session] operator[SEP] identifier[getCapabilities] operator[SEP] operator[SEP] operator[SEP] identifier[getSDKVersion] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[isGreaterOrEqualTo] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[StringBuilder] identifier[current] operator[=] Keyword[new] identifier[StringBuilder] operator[SEP] operator[SEP] operator[SEP] identifier[XPath2Engine] identifier[xpathEngine] operator[=] Other[null] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[value] operator[SEP] identifier[length] operator[SEP] operator[SEP] operator[SEP] identifier[i] operator[++] operator[SEP] { Keyword[int] identifier[idx] operator[=] identifier[specialKeys] operator[SEP] identifier[indexOf] operator[SEP] identifier[value] operator[SEP] identifier[charAt] operator[SEP] identifier[i] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[idx] operator[>=] Other[0] operator[SEP] { Keyword[if] operator[SEP] identifier[xpathEngine] operator[==] Other[null] operator[SEP] { identifier[xpathEngine] operator[=] identifier[XPath2Engine] operator[SEP] identifier[getXpath2Engine] operator[SEP] identifier[nativeDriver] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[current] operator[SEP] identifier[length] operator[SEP] operator[SEP] operator[>] Other[0] operator[SEP] { identifier[script] operator[SEP] identifier[append] operator[SEP] identifier[getKeyboardTypeStringSegement] operator[SEP] identifier[current] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[current] operator[=] Keyword[new] identifier[StringBuilder] operator[SEP] operator[SEP] operator[SEP] } Keyword[switch] operator[SEP] identifier[idx] operator[SEP] { Keyword[case] Other[0] operator[:] identifier[script] operator[SEP] identifier[append] operator[SEP] identifier[getReferenceToTapByXpath] operator[SEP] identifier[xpathEngine] , literal[String] operator[+] operator[SEP] identifier[nativeDriver] operator[SEP] identifier[getCapabilities] operator[SEP] operator[SEP] operator[SEP] identifier[getDevice] operator[SEP] operator[SEP] operator[==] identifier[DeviceType] operator[SEP] identifier[ipad] operator[?] operator[SEP] identifier[ios7] operator[?] literal[String] operator[:] literal[String] operator[SEP] operator[:] operator[SEP] identifier[ios7] operator[?] literal[String] operator[:] literal[String] operator[SEP] operator[SEP] operator[+] literal[String] operator[SEP] operator[SEP] operator[SEP] Keyword[break] operator[SEP] Keyword[case] Other[1] operator[:] Keyword[case] Other[2] operator[:] identifier[script] operator[SEP] identifier[append] operator[SEP] identifier[getReferenceToTapByXpath] operator[SEP] identifier[xpathEngine] , literal[String] operator[+] operator[SEP] identifier[nativeDriver] operator[SEP] identifier[getCapabilities] operator[SEP] operator[SEP] operator[SEP] identifier[getDevice] operator[SEP] operator[SEP] operator[==] identifier[DeviceType] operator[SEP] identifier[ipad] operator[?] literal[String] operator[:] operator[SEP] identifier[ios7] operator[?] literal[String] operator[:] literal[String] operator[SEP] operator[SEP] operator[+] literal[String] operator[SEP] operator[SEP] operator[SEP] identifier[keyboardResigned] operator[=] literal[boolean] operator[SEP] Keyword[break] operator[SEP] Keyword[case] Other[3] operator[:] identifier[script] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP] Keyword[break] operator[SEP] Keyword[default] operator[:] Keyword[throw] Keyword[new] identifier[RuntimeException] operator[SEP] literal[String] operator[SEP] operator[SEP] } } Keyword[else] { identifier[current] operator[SEP] identifier[append] operator[SEP] identifier[value] operator[SEP] identifier[charAt] operator[SEP] identifier[i] operator[SEP] operator[SEP] operator[SEP] } } Keyword[if] operator[SEP] identifier[current] operator[SEP] identifier[length] operator[SEP] operator[SEP] operator[>] Other[0] operator[SEP] { identifier[script] operator[SEP] identifier[append] operator[SEP] identifier[getKeyboardTypeStringSegement] operator[SEP] identifier[current] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } identifier[Boolean] identifier[showKeyboardAfterClickAndType] operator[=] identifier[Boolean] operator[SEP] identifier[TRUE] operator[SEP] identifier[equals] operator[SEP] identifier[session] operator[SEP] identifier[getCapabilities] operator[SEP] operator[SEP] operator[SEP] identifier[getCapability] operator[SEP] operator[SEP] identifier[IOSCapabilities] operator[SEP] identifier[SHOW_KEYBOARD_AFTER_CLICK_AND_TYPE] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[showKeyboardAfterClickAndType] operator[SEP] { Keyword[if] operator[SEP] operator[!] identifier[keyboardResigned] operator[SEP] { identifier[script] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP] } } Keyword[return] identifier[script] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] }
static ContinuableFuture<Void> executeWithThreadPool(final Try.Runnable<? extends Exception> action) { return execute(new FutureTask<Void>(FN.toCallable(action)), TP_EXECUTOR); }
class class_name[name] begin[{] method[executeWithThreadPool, return_type[type[ContinuableFuture]], modifier[static], parameter[action]] begin[{] return[call[.execute, parameter[ClassCreator(arguments=[MethodInvocation(arguments=[MemberReference(member=action, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=toCallable, postfix_operators=[], prefix_operators=[], qualifier=FN, selectors=[], type_arguments=None)], 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=Void, sub_type=None))], dimensions=None, name=FutureTask, sub_type=None)), member[.TP_EXECUTOR]]]] end[}] END[}]
Keyword[static] identifier[ContinuableFuture] operator[<] identifier[Void] operator[>] identifier[executeWithThreadPool] operator[SEP] Keyword[final] identifier[Try] operator[SEP] identifier[Runnable] operator[<] operator[?] Keyword[extends] identifier[Exception] operator[>] identifier[action] operator[SEP] { Keyword[return] identifier[execute] operator[SEP] Keyword[new] identifier[FutureTask] operator[<] identifier[Void] operator[>] operator[SEP] identifier[FN] operator[SEP] identifier[toCallable] operator[SEP] identifier[action] operator[SEP] operator[SEP] , identifier[TP_EXECUTOR] operator[SEP] operator[SEP] }
@SuppressWarnings({ "rawtypes", "unchecked" }) @NonNull public static <T> MaybeObserver<? super T> onSubscribe(@NonNull Maybe<T> source, @NonNull MaybeObserver<? super T> observer) { BiFunction<? super Maybe, ? super MaybeObserver, ? extends MaybeObserver> f = onMaybeSubscribe; if (f != null) { return apply(f, source, observer); } return observer; }
class class_name[name] begin[{] method[onSubscribe, return_type[type[MaybeObserver]], modifier[public static], parameter[source, observer]] begin[{] local_variable[type[BiFunction], f] if[binary_operation[member[.f], !=, literal[null]]] begin[{] return[call[.apply, parameter[member[.f], member[.source], member[.observer]]]] else begin[{] None end[}] return[member[.observer]] end[}] END[}]
annotation[@] identifier[SuppressWarnings] operator[SEP] { literal[String] , literal[String] } operator[SEP] annotation[@] identifier[NonNull] Keyword[public] Keyword[static] operator[<] identifier[T] operator[>] identifier[MaybeObserver] operator[<] operator[?] Keyword[super] identifier[T] operator[>] identifier[onSubscribe] operator[SEP] annotation[@] identifier[NonNull] identifier[Maybe] operator[<] identifier[T] operator[>] identifier[source] , annotation[@] identifier[NonNull] identifier[MaybeObserver] operator[<] operator[?] Keyword[super] identifier[T] operator[>] identifier[observer] operator[SEP] { identifier[BiFunction] operator[<] operator[?] Keyword[super] identifier[Maybe] , operator[?] Keyword[super] identifier[MaybeObserver] , operator[?] Keyword[extends] identifier[MaybeObserver] operator[>] identifier[f] operator[=] identifier[onMaybeSubscribe] operator[SEP] Keyword[if] operator[SEP] identifier[f] operator[!=] Other[null] operator[SEP] { Keyword[return] identifier[apply] operator[SEP] identifier[f] , identifier[source] , identifier[observer] operator[SEP] operator[SEP] } Keyword[return] identifier[observer] operator[SEP] }
public static List<Long> createTimestampList(final long startUnixTimestamp, final long endUnixTimestamp) { if (startUnixTimestamp > endUnixTimestamp) { return Collections.emptyList(); } // normalize the start and end (next day's start) final long normStart = TimeModifier.START_OF_DAY.applyModifier(startUnixTimestamp); final long normEnd = TimeModifier.moveDays(endUnixTimestamp, true, 1); // determine which times we have to query for final List<Long> times = new ArrayList<>(); for (long time = normStart; time < normEnd; time += 24 * 60 * 60) { times.add(time); } return times; }
class class_name[name] begin[{] method[createTimestampList, return_type[type[List]], modifier[public static], parameter[startUnixTimestamp, endUnixTimestamp]] begin[{] if[binary_operation[member[.startUnixTimestamp], >, member[.endUnixTimestamp]]] begin[{] return[call[Collections.emptyList, parameter[]]] else begin[{] None end[}] local_variable[type[long], normStart] local_variable[type[long], normEnd] local_variable[type[List], times] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=time, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=add, postfix_operators=[], prefix_operators=[], qualifier=times, selectors=[], type_arguments=None), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=time, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=normEnd, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=<), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=MemberReference(member=normStart, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), name=time)], modifiers=set(), type=BasicType(dimensions=[], name=long)), update=[Assignment(expressionl=MemberReference(member=time, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=+=, value=BinaryOperation(operandl=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=24), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=60), operator=*), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=60), operator=*))]), label=None) return[member[.times]] end[}] END[}]
Keyword[public] Keyword[static] identifier[List] operator[<] identifier[Long] operator[>] identifier[createTimestampList] operator[SEP] Keyword[final] Keyword[long] identifier[startUnixTimestamp] , Keyword[final] Keyword[long] identifier[endUnixTimestamp] operator[SEP] { Keyword[if] operator[SEP] identifier[startUnixTimestamp] operator[>] identifier[endUnixTimestamp] operator[SEP] { Keyword[return] identifier[Collections] operator[SEP] identifier[emptyList] operator[SEP] operator[SEP] operator[SEP] } Keyword[final] Keyword[long] identifier[normStart] operator[=] identifier[TimeModifier] operator[SEP] identifier[START_OF_DAY] operator[SEP] identifier[applyModifier] operator[SEP] identifier[startUnixTimestamp] operator[SEP] operator[SEP] Keyword[final] Keyword[long] identifier[normEnd] operator[=] identifier[TimeModifier] operator[SEP] identifier[moveDays] operator[SEP] identifier[endUnixTimestamp] , literal[boolean] , Other[1] operator[SEP] operator[SEP] Keyword[final] identifier[List] operator[<] identifier[Long] operator[>] identifier[times] operator[=] Keyword[new] identifier[ArrayList] operator[<] operator[>] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[long] identifier[time] operator[=] identifier[normStart] operator[SEP] identifier[time] operator[<] identifier[normEnd] operator[SEP] identifier[time] operator[+=] Other[24] operator[*] Other[60] operator[*] Other[60] operator[SEP] { identifier[times] operator[SEP] identifier[add] operator[SEP] identifier[time] operator[SEP] operator[SEP] } Keyword[return] identifier[times] operator[SEP] }
static void addDeployOperationStep(final CompositeOperationBuilder builder, final DeploymentDescription deployment) { final String name = deployment.getName(); final Set<String> serverGroups = deployment.getServerGroups(); // If the server groups are empty this is a standalone deployment if (serverGroups.isEmpty()) { final ModelNode address = createAddress(DEPLOYMENT, name); builder.addStep(createOperation(DEPLOYMENT_DEPLOY_OPERATION, address)); } else { for (String serverGroup : serverGroups) { final ModelNode address = createAddress(SERVER_GROUP, serverGroup, DEPLOYMENT, name); builder.addStep(createOperation(DEPLOYMENT_DEPLOY_OPERATION, address)); } } }
class class_name[name] begin[{] method[addDeployOperationStep, return_type[void], modifier[static], parameter[builder, deployment]] begin[{] local_variable[type[String], name] local_variable[type[Set], serverGroups] if[call[serverGroups.isEmpty, parameter[]]] begin[{] local_variable[type[ModelNode], address] call[builder.addStep, parameter[call[.createOperation, parameter[member[.DEPLOYMENT_DEPLOY_OPERATION], member[.address]]]]] else begin[{] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=SERVER_GROUP, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=serverGroup, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=DEPLOYMENT, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=createAddress, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), name=address)], modifiers={'final'}, type=ReferenceType(arguments=None, dimensions=[], name=ModelNode, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[MemberReference(member=DEPLOYMENT_DEPLOY_OPERATION, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=address, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=createOperation, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)], member=addStep, postfix_operators=[], prefix_operators=[], qualifier=builder, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MemberReference(member=serverGroups, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=serverGroup)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None))), label=None) end[}] end[}] END[}]
Keyword[static] Keyword[void] identifier[addDeployOperationStep] operator[SEP] Keyword[final] identifier[CompositeOperationBuilder] identifier[builder] , Keyword[final] identifier[DeploymentDescription] identifier[deployment] operator[SEP] { Keyword[final] identifier[String] identifier[name] operator[=] identifier[deployment] operator[SEP] identifier[getName] operator[SEP] operator[SEP] operator[SEP] Keyword[final] identifier[Set] operator[<] identifier[String] operator[>] identifier[serverGroups] operator[=] identifier[deployment] operator[SEP] identifier[getServerGroups] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[serverGroups] operator[SEP] identifier[isEmpty] operator[SEP] operator[SEP] operator[SEP] { Keyword[final] identifier[ModelNode] identifier[address] operator[=] identifier[createAddress] operator[SEP] identifier[DEPLOYMENT] , identifier[name] operator[SEP] operator[SEP] identifier[builder] operator[SEP] identifier[addStep] operator[SEP] identifier[createOperation] operator[SEP] identifier[DEPLOYMENT_DEPLOY_OPERATION] , identifier[address] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] { Keyword[for] operator[SEP] identifier[String] identifier[serverGroup] operator[:] identifier[serverGroups] operator[SEP] { Keyword[final] identifier[ModelNode] identifier[address] operator[=] identifier[createAddress] operator[SEP] identifier[SERVER_GROUP] , identifier[serverGroup] , identifier[DEPLOYMENT] , identifier[name] operator[SEP] operator[SEP] identifier[builder] operator[SEP] identifier[addStep] operator[SEP] identifier[createOperation] operator[SEP] identifier[DEPLOYMENT_DEPLOY_OPERATION] , identifier[address] operator[SEP] operator[SEP] operator[SEP] } } }
private void updateCacheControl() { // regular HTTP path, the Set-Cookie values are already put into BNFHdrs // but localhttp they might still be in the cookie cache boolean addSet1 = containsHeader(HttpHeaderKeys.HDR_SET_COOKIE) || isCookieCacheDirty(HttpHeaderKeys.HDR_SET_COOKIE); boolean addSet2 = containsHeader(HttpHeaderKeys.HDR_SET_COOKIE2) || isCookieCacheDirty(HttpHeaderKeys.HDR_SET_COOKIE2); if (!addSet1 && !addSet2) { // set-cookie(2) does not exist, nothing to do return; } // make sure the Expires header exists if (!containsHeader(HttpHeaderKeys.HDR_EXPIRES)) { // add the Expires header setSpecialHeader(HttpHeaderKeys.HDR_EXPIRES, LONG_AGO); } // check whether we need to update an existing Cache-Control header // or simply add one if (containsHeader(HttpHeaderKeys.HDR_CACHE_CONTROL)) { // need to update the existing value HeaderHandler handler = new HeaderHandler(this, ',', HttpHeaderKeys.HDR_CACHE_CONTROL); if (!handler.contains("no-cache")) { boolean updated = false; if (addSet1) { updated = handler.add("no-cache", "set-cookie"); } if (addSet2) { updated = handler.add("no-cache", "set-cookie2") | updated; } if (updated) { if (TraceComponent.isAnyTracingEnabled() && tc.isEventEnabled()) { Tr.event(tc, "Updating Cache-Control for Set-Cookie"); } setSpecialHeader(HttpHeaderKeys.HDR_CACHE_CONTROL, handler.marshall()); } } } else { // not present, just write what we want if (TraceComponent.isAnyTracingEnabled() && tc.isEventEnabled()) { Tr.event(tc, "Adding Cache-Control due to Set-Cookie"); } setSpecialHeader(HttpHeaderKeys.HDR_CACHE_CONTROL, NOCACHE_VALUE); } }
class class_name[name] begin[{] method[updateCacheControl, return_type[void], modifier[private], parameter[]] begin[{] local_variable[type[boolean], addSet1] local_variable[type[boolean], addSet2] if[binary_operation[member[.addSet1], &&, member[.addSet2]]] begin[{] return[None] else begin[{] None end[}] if[call[.containsHeader, parameter[member[HttpHeaderKeys.HDR_EXPIRES]]]] begin[{] call[.setSpecialHeader, parameter[member[HttpHeaderKeys.HDR_EXPIRES], member[.LONG_AGO]]] else begin[{] None end[}] if[call[.containsHeader, parameter[member[HttpHeaderKeys.HDR_CACHE_CONTROL]]]] begin[{] local_variable[type[HeaderHandler], handler] if[call[handler.contains, parameter[literal["no-cache"]]]] begin[{] local_variable[type[boolean], updated] if[member[.addSet1]] begin[{] assign[member[.updated], call[handler.add, parameter[literal["no-cache"], literal["set-cookie"]]]] else begin[{] None end[}] if[member[.addSet2]] begin[{] assign[member[.updated], binary_operation[call[handler.add, parameter[literal["no-cache"], literal["set-cookie2"]]], |, member[.updated]]] else begin[{] None end[}] if[member[.updated]] begin[{] if[binary_operation[call[TraceComponent.isAnyTracingEnabled, parameter[]], &&, call[tc.isEventEnabled, parameter[]]]] begin[{] call[Tr.event, parameter[member[.tc], literal["Updating Cache-Control for Set-Cookie"]]] else begin[{] None end[}] call[.setSpecialHeader, parameter[member[HttpHeaderKeys.HDR_CACHE_CONTROL], call[handler.marshall, parameter[]]]] else begin[{] None end[}] else begin[{] None end[}] else begin[{] if[binary_operation[call[TraceComponent.isAnyTracingEnabled, parameter[]], &&, call[tc.isEventEnabled, parameter[]]]] begin[{] call[Tr.event, parameter[member[.tc], literal["Adding Cache-Control due to Set-Cookie"]]] else begin[{] None end[}] call[.setSpecialHeader, parameter[member[HttpHeaderKeys.HDR_CACHE_CONTROL], member[.NOCACHE_VALUE]]] end[}] end[}] END[}]
Keyword[private] Keyword[void] identifier[updateCacheControl] operator[SEP] operator[SEP] { Keyword[boolean] identifier[addSet1] operator[=] identifier[containsHeader] operator[SEP] identifier[HttpHeaderKeys] operator[SEP] identifier[HDR_SET_COOKIE] operator[SEP] operator[||] identifier[isCookieCacheDirty] operator[SEP] identifier[HttpHeaderKeys] operator[SEP] identifier[HDR_SET_COOKIE] operator[SEP] operator[SEP] Keyword[boolean] identifier[addSet2] operator[=] identifier[containsHeader] operator[SEP] identifier[HttpHeaderKeys] operator[SEP] identifier[HDR_SET_COOKIE2] operator[SEP] operator[||] identifier[isCookieCacheDirty] operator[SEP] identifier[HttpHeaderKeys] operator[SEP] identifier[HDR_SET_COOKIE2] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[addSet1] operator[&&] operator[!] identifier[addSet2] operator[SEP] { Keyword[return] operator[SEP] } Keyword[if] operator[SEP] operator[!] identifier[containsHeader] operator[SEP] identifier[HttpHeaderKeys] operator[SEP] identifier[HDR_EXPIRES] operator[SEP] operator[SEP] { identifier[setSpecialHeader] operator[SEP] identifier[HttpHeaderKeys] operator[SEP] identifier[HDR_EXPIRES] , identifier[LONG_AGO] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[containsHeader] operator[SEP] identifier[HttpHeaderKeys] operator[SEP] identifier[HDR_CACHE_CONTROL] operator[SEP] operator[SEP] { identifier[HeaderHandler] identifier[handler] operator[=] Keyword[new] identifier[HeaderHandler] operator[SEP] Keyword[this] , literal[String] , identifier[HttpHeaderKeys] operator[SEP] identifier[HDR_CACHE_CONTROL] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[handler] operator[SEP] identifier[contains] operator[SEP] literal[String] operator[SEP] operator[SEP] { Keyword[boolean] identifier[updated] operator[=] literal[boolean] operator[SEP] Keyword[if] operator[SEP] identifier[addSet1] operator[SEP] { identifier[updated] operator[=] identifier[handler] operator[SEP] identifier[add] operator[SEP] literal[String] , literal[String] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[addSet2] operator[SEP] { identifier[updated] operator[=] identifier[handler] operator[SEP] identifier[add] operator[SEP] literal[String] , literal[String] operator[SEP] operator[|] identifier[updated] operator[SEP] } Keyword[if] operator[SEP] identifier[updated] operator[SEP] { Keyword[if] operator[SEP] identifier[TraceComponent] operator[SEP] identifier[isAnyTracingEnabled] operator[SEP] operator[SEP] operator[&&] identifier[tc] operator[SEP] identifier[isEventEnabled] operator[SEP] operator[SEP] operator[SEP] { identifier[Tr] operator[SEP] identifier[event] operator[SEP] identifier[tc] , literal[String] operator[SEP] operator[SEP] } identifier[setSpecialHeader] operator[SEP] identifier[HttpHeaderKeys] operator[SEP] identifier[HDR_CACHE_CONTROL] , identifier[handler] operator[SEP] identifier[marshall] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } } } Keyword[else] { Keyword[if] operator[SEP] identifier[TraceComponent] operator[SEP] identifier[isAnyTracingEnabled] operator[SEP] operator[SEP] operator[&&] identifier[tc] operator[SEP] identifier[isEventEnabled] operator[SEP] operator[SEP] operator[SEP] { identifier[Tr] operator[SEP] identifier[event] operator[SEP] identifier[tc] , literal[String] operator[SEP] operator[SEP] } identifier[setSpecialHeader] operator[SEP] identifier[HttpHeaderKeys] operator[SEP] identifier[HDR_CACHE_CONTROL] , identifier[NOCACHE_VALUE] operator[SEP] operator[SEP] } }
private boolean add(int i, T type) { Set<T> types = edges.get(i); // If there weren't any edges to this vertex, then special case the // creation and return true. if (types == null) { types = new HashSet<T>(); edges.put(i, types); } boolean b = types.add(type); if (b) size++; return b; }
class class_name[name] begin[{] method[add, return_type[type[boolean]], modifier[private], parameter[i, type]] begin[{] local_variable[type[Set], types] if[binary_operation[member[.types], ==, literal[null]]] begin[{] assign[member[.types], 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=T, sub_type=None))], dimensions=None, name=HashSet, sub_type=None))] call[edges.put, parameter[member[.i], member[.types]]] else begin[{] None end[}] local_variable[type[boolean], b] if[member[.b]] begin[{] member[.size] else begin[{] None end[}] return[member[.b]] end[}] END[}]
Keyword[private] Keyword[boolean] identifier[add] operator[SEP] Keyword[int] identifier[i] , identifier[T] identifier[type] operator[SEP] { identifier[Set] operator[<] identifier[T] operator[>] identifier[types] operator[=] identifier[edges] operator[SEP] identifier[get] operator[SEP] identifier[i] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[types] operator[==] Other[null] operator[SEP] { identifier[types] operator[=] Keyword[new] identifier[HashSet] operator[<] identifier[T] operator[>] operator[SEP] operator[SEP] operator[SEP] identifier[edges] operator[SEP] identifier[put] operator[SEP] identifier[i] , identifier[types] operator[SEP] operator[SEP] } Keyword[boolean] identifier[b] operator[=] identifier[types] operator[SEP] identifier[add] operator[SEP] identifier[type] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[b] operator[SEP] identifier[size] operator[++] operator[SEP] Keyword[return] identifier[b] operator[SEP] }
private static long divideAndRound(long ldividend, long ldivisor, int roundingMode) { int qsign; // quotient sign long q = ldividend / ldivisor; // store quotient in long if (roundingMode == ROUND_DOWN) return q; long r = ldividend % ldivisor; // store remainder in long qsign = ((ldividend < 0) == (ldivisor < 0)) ? 1 : -1; if (r != 0) { boolean increment = needIncrement(ldivisor, roundingMode, qsign, q, r); return increment ? q + qsign : q; } else { return q; } }
class class_name[name] begin[{] method[divideAndRound, return_type[type[long]], modifier[private static], parameter[ldividend, ldivisor, roundingMode]] begin[{] local_variable[type[int], qsign] local_variable[type[long], q] if[binary_operation[member[.roundingMode], ==, member[.ROUND_DOWN]]] begin[{] return[member[.q]] else begin[{] None end[}] local_variable[type[long], r] assign[member[.qsign], TernaryExpression(condition=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=ldividend, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), operator=<), operandr=BinaryOperation(operandl=MemberReference(member=ldivisor, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), operator=<), operator===), if_false=Literal(postfix_operators=[], prefix_operators=['-'], qualifier=None, selectors=[], value=1), if_true=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1))] if[binary_operation[member[.r], !=, literal[0]]] begin[{] local_variable[type[boolean], increment] return[TernaryExpression(condition=MemberReference(member=increment, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), if_false=MemberReference(member=q, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), if_true=BinaryOperation(operandl=MemberReference(member=q, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=qsign, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+))] else begin[{] return[member[.q]] end[}] end[}] END[}]
Keyword[private] Keyword[static] Keyword[long] identifier[divideAndRound] operator[SEP] Keyword[long] identifier[ldividend] , Keyword[long] identifier[ldivisor] , Keyword[int] identifier[roundingMode] operator[SEP] { Keyword[int] identifier[qsign] operator[SEP] Keyword[long] identifier[q] operator[=] identifier[ldividend] operator[/] identifier[ldivisor] operator[SEP] Keyword[if] operator[SEP] identifier[roundingMode] operator[==] identifier[ROUND_DOWN] operator[SEP] Keyword[return] identifier[q] operator[SEP] Keyword[long] identifier[r] operator[=] identifier[ldividend] operator[%] identifier[ldivisor] operator[SEP] identifier[qsign] operator[=] operator[SEP] operator[SEP] identifier[ldividend] operator[<] Other[0] operator[SEP] operator[==] operator[SEP] identifier[ldivisor] operator[<] Other[0] operator[SEP] operator[SEP] operator[?] Other[1] operator[:] operator[-] Other[1] operator[SEP] Keyword[if] operator[SEP] identifier[r] operator[!=] Other[0] operator[SEP] { Keyword[boolean] identifier[increment] operator[=] identifier[needIncrement] operator[SEP] identifier[ldivisor] , identifier[roundingMode] , identifier[qsign] , identifier[q] , identifier[r] operator[SEP] operator[SEP] Keyword[return] identifier[increment] operator[?] identifier[q] operator[+] identifier[qsign] operator[:] identifier[q] operator[SEP] } Keyword[else] { Keyword[return] identifier[q] operator[SEP] } }
@Override public void signal(final ActivityExecution execution, final String signalName, final Object signalData) throws Exception { ProcessApplicationReference targetProcessApplication = ProcessApplicationContextUtil.getTargetProcessApplication((ExecutionEntity) execution); if(ProcessApplicationContextUtil.requiresContextSwitch(targetProcessApplication)) { Context.executeWithinProcessApplication(new Callable<Void>() { public Void call() throws Exception { signal(execution, signalName, signalData); return null; } }, targetProcessApplication, new InvocationContext(execution)); } else { doSignal(execution, signalName, signalData); } }
class class_name[name] begin[{] method[signal, return_type[void], modifier[public], parameter[execution, signalName, signalData]] begin[{] local_variable[type[ProcessApplicationReference], targetProcessApplication] if[call[ProcessApplicationContextUtil.requiresContextSwitch, parameter[member[.targetProcessApplication]]]] begin[{] call[Context.executeWithinProcessApplication, parameter[ClassCreator(arguments=[], body=[MethodDeclaration(annotations=[], body=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=execution, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=signalName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=signalData, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=signal, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None), ReturnStatement(expression=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), label=None)], documentation=None, modifiers={'public'}, name=call, parameters=[], return_type=ReferenceType(arguments=None, dimensions=[], name=Void, sub_type=None), throws=['Exception'], 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=Void, sub_type=None))], dimensions=None, name=Callable, sub_type=None)), member[.targetProcessApplication], ClassCreator(arguments=[MemberReference(member=execution, 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=InvocationContext, sub_type=None))]] else begin[{] call[.doSignal, parameter[member[.execution], member[.signalName], member[.signalData]]] end[}] end[}] END[}]
annotation[@] identifier[Override] Keyword[public] Keyword[void] identifier[signal] operator[SEP] Keyword[final] identifier[ActivityExecution] identifier[execution] , Keyword[final] identifier[String] identifier[signalName] , Keyword[final] identifier[Object] identifier[signalData] operator[SEP] Keyword[throws] identifier[Exception] { identifier[ProcessApplicationReference] identifier[targetProcessApplication] operator[=] identifier[ProcessApplicationContextUtil] operator[SEP] identifier[getTargetProcessApplication] operator[SEP] operator[SEP] identifier[ExecutionEntity] operator[SEP] identifier[execution] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[ProcessApplicationContextUtil] operator[SEP] identifier[requiresContextSwitch] operator[SEP] identifier[targetProcessApplication] operator[SEP] operator[SEP] { identifier[Context] operator[SEP] identifier[executeWithinProcessApplication] operator[SEP] Keyword[new] identifier[Callable] operator[<] identifier[Void] operator[>] operator[SEP] operator[SEP] { Keyword[public] identifier[Void] identifier[call] operator[SEP] operator[SEP] Keyword[throws] identifier[Exception] { identifier[signal] operator[SEP] identifier[execution] , identifier[signalName] , identifier[signalData] operator[SEP] operator[SEP] Keyword[return] Other[null] operator[SEP] } } , identifier[targetProcessApplication] , Keyword[new] identifier[InvocationContext] operator[SEP] identifier[execution] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] { identifier[doSignal] operator[SEP] identifier[execution] , identifier[signalName] , identifier[signalData] operator[SEP] operator[SEP] } }
protected void addDefaultOnChangeProcessors() { onChangeProcessors.add(new ButtonOnChangeProcessor()); onChangeProcessors.add(new ListOnChangeProcessor()); onChangeProcessors.add(new ListSingleItemOnChangeProcessor()); onChangeProcessors.add(new ProgressBarOnChangeProcessor()); onChangeProcessors.add(new SelectBoxOnChangeProcessor()); onChangeProcessors.add(new SelectBoxSingleItemOnChangeProcessor()); onChangeProcessors.add(new TextFieldOnChangeProcessor()); }
class class_name[name] begin[{] method[addDefaultOnChangeProcessors, return_type[void], modifier[protected], parameter[]] begin[{] call[onChangeProcessors.add, parameter[ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=ButtonOnChangeProcessor, sub_type=None))]] call[onChangeProcessors.add, parameter[ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=ListOnChangeProcessor, sub_type=None))]] call[onChangeProcessors.add, parameter[ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=ListSingleItemOnChangeProcessor, sub_type=None))]] call[onChangeProcessors.add, parameter[ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=ProgressBarOnChangeProcessor, sub_type=None))]] call[onChangeProcessors.add, parameter[ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=SelectBoxOnChangeProcessor, sub_type=None))]] call[onChangeProcessors.add, parameter[ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=SelectBoxSingleItemOnChangeProcessor, sub_type=None))]] call[onChangeProcessors.add, parameter[ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=TextFieldOnChangeProcessor, sub_type=None))]] end[}] END[}]
Keyword[protected] Keyword[void] identifier[addDefaultOnChangeProcessors] operator[SEP] operator[SEP] { identifier[onChangeProcessors] operator[SEP] identifier[add] operator[SEP] Keyword[new] identifier[ButtonOnChangeProcessor] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[onChangeProcessors] operator[SEP] identifier[add] operator[SEP] Keyword[new] identifier[ListOnChangeProcessor] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[onChangeProcessors] operator[SEP] identifier[add] operator[SEP] Keyword[new] identifier[ListSingleItemOnChangeProcessor] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[onChangeProcessors] operator[SEP] identifier[add] operator[SEP] Keyword[new] identifier[ProgressBarOnChangeProcessor] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[onChangeProcessors] operator[SEP] identifier[add] operator[SEP] Keyword[new] identifier[SelectBoxOnChangeProcessor] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[onChangeProcessors] operator[SEP] identifier[add] operator[SEP] Keyword[new] identifier[SelectBoxSingleItemOnChangeProcessor] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[onChangeProcessors] operator[SEP] identifier[add] operator[SEP] Keyword[new] identifier[TextFieldOnChangeProcessor] operator[SEP] operator[SEP] operator[SEP] operator[SEP] }
public static int randomSegment(int[] probability) { int total = 0; for (int i = 0; i < probability.length; i++) { total += probability[i]; probability[i] = total; } int rand = (int) random(0, total - 1); for (int i = 0; i < probability.length; i++) { if (rand < probability[i]) { return i; } } return -1; }
class class_name[name] begin[{] method[randomSegment, return_type[type[int]], modifier[public static], parameter[probability]] begin[{] local_variable[type[int], total] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=total, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=+=, value=MemberReference(member=probability, 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=probability, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), type==, value=MemberReference(member=total, 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=length, postfix_operators=[], prefix_operators=[], qualifier=probability, 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) local_variable[type[int], rand] ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=rand, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=probability, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), operator=<), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[ReturnStatement(expression=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=length, postfix_operators=[], prefix_operators=[], qualifier=probability, 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[public] Keyword[static] Keyword[int] identifier[randomSegment] operator[SEP] Keyword[int] operator[SEP] operator[SEP] identifier[probability] operator[SEP] { Keyword[int] identifier[total] operator[=] Other[0] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[probability] operator[SEP] identifier[length] operator[SEP] identifier[i] operator[++] operator[SEP] { identifier[total] operator[+=] identifier[probability] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[probability] operator[SEP] identifier[i] operator[SEP] operator[=] identifier[total] operator[SEP] } Keyword[int] identifier[rand] operator[=] operator[SEP] Keyword[int] operator[SEP] identifier[random] operator[SEP] Other[0] , identifier[total] operator[-] Other[1] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[probability] operator[SEP] identifier[length] operator[SEP] identifier[i] operator[++] operator[SEP] { Keyword[if] operator[SEP] identifier[rand] operator[<] identifier[probability] operator[SEP] identifier[i] operator[SEP] operator[SEP] { Keyword[return] identifier[i] operator[SEP] } } Keyword[return] operator[-] Other[1] operator[SEP] }
public static String getLocalhost() throws RuntimeException { String hostname = null; try { InetAddress addr = InetAddress.getLocalHost(); hostname = addr.getHostName(); } catch (UnknownHostException e) { throw new RuntimeException("[FileHelper] {getLocalhost}: Can't get local hostname"); } return hostname; }
class class_name[name] begin[{] method[getLocalhost, return_type[type[String]], modifier[public static], parameter[]] begin[{] local_variable[type[String], hostname] TryStatement(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=getLocalHost, postfix_operators=[], prefix_operators=[], qualifier=InetAddress, selectors=[], type_arguments=None), name=addr)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=InetAddress, sub_type=None)), StatementExpression(expression=Assignment(expressionl=MemberReference(member=hostname, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=getHostName, postfix_operators=[], prefix_operators=[], qualifier=addr, selectors=[], type_arguments=None)), label=None)], catches=[CatchClause(block=[ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="[FileHelper] {getLocalhost}: Can't get local hostname")], 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=['UnknownHostException']))], finally_block=None, label=None, resources=None) return[member[.hostname]] end[}] END[}]
Keyword[public] Keyword[static] identifier[String] identifier[getLocalhost] operator[SEP] operator[SEP] Keyword[throws] identifier[RuntimeException] { identifier[String] identifier[hostname] operator[=] Other[null] operator[SEP] Keyword[try] { identifier[InetAddress] identifier[addr] operator[=] identifier[InetAddress] operator[SEP] identifier[getLocalHost] operator[SEP] operator[SEP] operator[SEP] identifier[hostname] operator[=] identifier[addr] operator[SEP] identifier[getHostName] operator[SEP] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[UnknownHostException] identifier[e] operator[SEP] { Keyword[throw] Keyword[new] identifier[RuntimeException] operator[SEP] literal[String] operator[SEP] operator[SEP] } Keyword[return] identifier[hostname] operator[SEP] }
private void evaluateConstructor(List<Constructor<?>> matchingConstructors, Constructor<?> constructor) { boolean newHasBetterParam = false; boolean existingHasBetterParam = false; Class<?>[] paramTypes = constructor.getParameterTypes(); for (int i = 0; i < paramTypes.length; ++i) { Class<?> paramType = paramTypes[i]; if (!paramType.isPrimitive()) { for (Constructor<?> existingCtor : matchingConstructors) { Class<?> existingParamType = existingCtor.getParameterTypes()[i]; if (paramType != existingParamType) { if (paramType.isAssignableFrom(existingParamType)) { existingHasBetterParam = true; } else { newHasBetterParam = true; } } } } } if (!existingHasBetterParam) { matchingConstructors.clear(); } if (newHasBetterParam || !existingHasBetterParam) { matchingConstructors.add(constructor); } }
class class_name[name] begin[{] method[evaluateConstructor, return_type[void], modifier[private], parameter[matchingConstructors, constructor]] begin[{] local_variable[type[boolean], newHasBetterParam] local_variable[type[boolean], existingHasBetterParam] local_variable[type[Class], paramTypes] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=paramTypes, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), name=paramType)], modifiers=set(), type=ReferenceType(arguments=[TypeArgument(pattern_type=?, type=None)], dimensions=[], name=Class, sub_type=None)), IfStatement(condition=MethodInvocation(arguments=[], member=isPrimitive, postfix_operators=[], prefix_operators=['!'], qualifier=paramType, selectors=[], type_arguments=None), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=getParameterTypes, postfix_operators=[], prefix_operators=[], qualifier=existingCtor, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))], type_arguments=None), name=existingParamType)], modifiers=set(), type=ReferenceType(arguments=[TypeArgument(pattern_type=?, type=None)], dimensions=[], name=Class, sub_type=None)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=paramType, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=existingParamType, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=!=), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[IfStatement(condition=MethodInvocation(arguments=[MemberReference(member=existingParamType, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=isAssignableFrom, postfix_operators=[], prefix_operators=[], qualifier=paramType, selectors=[], type_arguments=None), else_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=newHasBetterParam, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=existingHasBetterParam, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)), label=None)]))]))]), control=EnhancedForControl(iterable=MemberReference(member=matchingConstructors, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=existingCtor)], modifiers=set(), type=ReferenceType(arguments=[TypeArgument(pattern_type=?, type=None)], dimensions=[], name=Constructor, sub_type=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=paramTypes, selectors=[]), operator=<), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), name=i)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=i, postfix_operators=[], prefix_operators=['++'], qualifier=, selectors=[])]), label=None) if[member[.existingHasBetterParam]] begin[{] call[matchingConstructors.clear, parameter[]] else begin[{] None end[}] if[binary_operation[member[.newHasBetterParam], ||, member[.existingHasBetterParam]]] begin[{] call[matchingConstructors.add, parameter[member[.constructor]]] else begin[{] None end[}] end[}] END[}]
Keyword[private] Keyword[void] identifier[evaluateConstructor] operator[SEP] identifier[List] operator[<] identifier[Constructor] operator[<] operator[?] operator[>] operator[>] identifier[matchingConstructors] , identifier[Constructor] operator[<] operator[?] operator[>] identifier[constructor] operator[SEP] { Keyword[boolean] identifier[newHasBetterParam] operator[=] literal[boolean] operator[SEP] Keyword[boolean] identifier[existingHasBetterParam] operator[=] literal[boolean] operator[SEP] identifier[Class] operator[<] operator[?] operator[>] operator[SEP] operator[SEP] identifier[paramTypes] operator[=] identifier[constructor] operator[SEP] identifier[getParameterTypes] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[paramTypes] operator[SEP] identifier[length] operator[SEP] operator[++] identifier[i] operator[SEP] { identifier[Class] operator[<] operator[?] operator[>] identifier[paramType] operator[=] identifier[paramTypes] operator[SEP] identifier[i] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[paramType] operator[SEP] identifier[isPrimitive] operator[SEP] operator[SEP] operator[SEP] { Keyword[for] operator[SEP] identifier[Constructor] operator[<] operator[?] operator[>] identifier[existingCtor] operator[:] identifier[matchingConstructors] operator[SEP] { identifier[Class] operator[<] operator[?] operator[>] identifier[existingParamType] operator[=] identifier[existingCtor] operator[SEP] identifier[getParameterTypes] operator[SEP] operator[SEP] operator[SEP] identifier[i] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[paramType] operator[!=] identifier[existingParamType] operator[SEP] { Keyword[if] operator[SEP] identifier[paramType] operator[SEP] identifier[isAssignableFrom] operator[SEP] identifier[existingParamType] operator[SEP] operator[SEP] { identifier[existingHasBetterParam] operator[=] literal[boolean] operator[SEP] } Keyword[else] { identifier[newHasBetterParam] operator[=] literal[boolean] operator[SEP] } } } } } Keyword[if] operator[SEP] operator[!] identifier[existingHasBetterParam] operator[SEP] { identifier[matchingConstructors] operator[SEP] identifier[clear] operator[SEP] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[newHasBetterParam] operator[||] operator[!] identifier[existingHasBetterParam] operator[SEP] { identifier[matchingConstructors] operator[SEP] identifier[add] operator[SEP] identifier[constructor] operator[SEP] operator[SEP] } }
public Color getColor(int x, int y) { if (pixelData == null) { pixelData = texture.getTextureData(); } int xo = (int) (textureOffsetX * texture.getTextureWidth()); int yo = (int) (textureOffsetY * texture.getTextureHeight()); if (textureWidth < 0) { x = xo - x; } else { x = xo + x; } if (textureHeight < 0) { y = yo - y; } else { y = yo + y; } // Clamp to texture dimensions x %= texture.getTextureWidth(); y %= texture.getTextureHeight(); int offset = x + (y * texture.getTextureWidth()); offset *= texture.hasAlpha() ? 4 : 3; if (texture.hasAlpha()) { return new Color(translate(pixelData[offset]),translate(pixelData[offset+1]), translate(pixelData[offset+2]),translate(pixelData[offset+3])); } else { return new Color(translate(pixelData[offset]),translate(pixelData[offset+1]), translate(pixelData[offset+2])); } }
class class_name[name] begin[{] method[getColor, return_type[type[Color]], modifier[public], parameter[x, y]] begin[{] if[binary_operation[member[.pixelData], ==, literal[null]]] begin[{] assign[member[.pixelData], call[texture.getTextureData, parameter[]]] else begin[{] None end[}] local_variable[type[int], xo] local_variable[type[int], yo] if[binary_operation[member[.textureWidth], <, literal[0]]] begin[{] assign[member[.x], binary_operation[member[.xo], -, member[.x]]] else begin[{] assign[member[.x], binary_operation[member[.xo], +, member[.x]]] end[}] if[binary_operation[member[.textureHeight], <, literal[0]]] begin[{] assign[member[.y], binary_operation[member[.yo], -, member[.y]]] else begin[{] assign[member[.y], binary_operation[member[.yo], +, member[.y]]] end[}] assign[member[.x], call[texture.getTextureWidth, parameter[]]] assign[member[.y], call[texture.getTextureHeight, parameter[]]] local_variable[type[int], offset] assign[member[.offset], TernaryExpression(condition=MethodInvocation(arguments=[], member=hasAlpha, postfix_operators=[], prefix_operators=[], qualifier=texture, selectors=[], type_arguments=None), if_false=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=3), if_true=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=4))] if[call[texture.hasAlpha, parameter[]]] begin[{] return[ClassCreator(arguments=[MethodInvocation(arguments=[MemberReference(member=pixelData, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=offset, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))])], member=translate, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), MethodInvocation(arguments=[MemberReference(member=pixelData, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=BinaryOperation(operandl=MemberReference(member=offset, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=+))])], member=translate, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), MethodInvocation(arguments=[MemberReference(member=pixelData, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=BinaryOperation(operandl=MemberReference(member=offset, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2), operator=+))])], member=translate, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), MethodInvocation(arguments=[MemberReference(member=pixelData, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=BinaryOperation(operandl=MemberReference(member=offset, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=3), operator=+))])], member=translate, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Color, sub_type=None))] else begin[{] return[ClassCreator(arguments=[MethodInvocation(arguments=[MemberReference(member=pixelData, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=offset, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))])], member=translate, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), MethodInvocation(arguments=[MemberReference(member=pixelData, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=BinaryOperation(operandl=MemberReference(member=offset, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=+))])], member=translate, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), MethodInvocation(arguments=[MemberReference(member=pixelData, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=BinaryOperation(operandl=MemberReference(member=offset, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2), operator=+))])], member=translate, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Color, sub_type=None))] end[}] end[}] END[}]
Keyword[public] identifier[Color] identifier[getColor] operator[SEP] Keyword[int] identifier[x] , Keyword[int] identifier[y] operator[SEP] { Keyword[if] operator[SEP] identifier[pixelData] operator[==] Other[null] operator[SEP] { identifier[pixelData] operator[=] identifier[texture] operator[SEP] identifier[getTextureData] operator[SEP] operator[SEP] operator[SEP] } Keyword[int] identifier[xo] operator[=] operator[SEP] Keyword[int] operator[SEP] operator[SEP] identifier[textureOffsetX] operator[*] identifier[texture] operator[SEP] identifier[getTextureWidth] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[int] identifier[yo] operator[=] operator[SEP] Keyword[int] operator[SEP] operator[SEP] identifier[textureOffsetY] operator[*] identifier[texture] operator[SEP] identifier[getTextureHeight] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[textureWidth] operator[<] Other[0] operator[SEP] { identifier[x] operator[=] identifier[xo] operator[-] identifier[x] operator[SEP] } Keyword[else] { identifier[x] operator[=] identifier[xo] operator[+] identifier[x] operator[SEP] } Keyword[if] operator[SEP] identifier[textureHeight] operator[<] Other[0] operator[SEP] { identifier[y] operator[=] identifier[yo] operator[-] identifier[y] operator[SEP] } Keyword[else] { identifier[y] operator[=] identifier[yo] operator[+] identifier[y] operator[SEP] } identifier[x] operator[%=] identifier[texture] operator[SEP] identifier[getTextureWidth] operator[SEP] operator[SEP] operator[SEP] identifier[y] operator[%=] identifier[texture] operator[SEP] identifier[getTextureHeight] operator[SEP] operator[SEP] operator[SEP] Keyword[int] identifier[offset] operator[=] identifier[x] operator[+] operator[SEP] identifier[y] operator[*] identifier[texture] operator[SEP] identifier[getTextureWidth] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[offset] operator[*=] identifier[texture] operator[SEP] identifier[hasAlpha] operator[SEP] operator[SEP] operator[?] Other[4] operator[:] Other[3] operator[SEP] Keyword[if] operator[SEP] identifier[texture] operator[SEP] identifier[hasAlpha] operator[SEP] operator[SEP] operator[SEP] { Keyword[return] Keyword[new] identifier[Color] operator[SEP] identifier[translate] operator[SEP] identifier[pixelData] operator[SEP] identifier[offset] operator[SEP] operator[SEP] , identifier[translate] operator[SEP] identifier[pixelData] operator[SEP] identifier[offset] operator[+] Other[1] operator[SEP] operator[SEP] , identifier[translate] operator[SEP] identifier[pixelData] operator[SEP] identifier[offset] operator[+] Other[2] operator[SEP] operator[SEP] , identifier[translate] operator[SEP] identifier[pixelData] operator[SEP] identifier[offset] operator[+] Other[3] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] { Keyword[return] Keyword[new] identifier[Color] operator[SEP] identifier[translate] operator[SEP] identifier[pixelData] operator[SEP] identifier[offset] operator[SEP] operator[SEP] , identifier[translate] operator[SEP] identifier[pixelData] operator[SEP] identifier[offset] operator[+] Other[1] operator[SEP] operator[SEP] , identifier[translate] operator[SEP] identifier[pixelData] operator[SEP] identifier[offset] operator[+] Other[2] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } }
private void processUndefinedWave(final Wave wave) throws WaveException { LOGGER.info(NOTIFIER_CONSUMES, wave.toString()); wave.status(Status.Consumed); // Retrieve all interested object from the map if (this.notifierMap.containsKey(wave.waveType())) { final WaveSubscription ws = this.notifierMap.get(wave.waveType()); // Filter and store all Wave handlers into the wave // They will be removed from the list when they are handled in order to know if there is any handler left before wave.setWaveHandlers(ws.getWaveHandlers().stream().filter(wh -> wh.check(wave)).collect(Collectors.toList())); // For each object interested in that wave type, process the action // Make a defensive copy to protect from concurrent modification exception when the wavehandler will be removed from list for (final WaveHandler waveHandler : new ArrayList<>(wave.getWaveHandlers())) { // The handler will be performed in the right thread according to RunType annotation waveHandler.handle(wave); } } else { LOGGER.warn(NO_WAVE_LISTENER, wave.waveType().toString()); if (CoreParameters.DEVELOPER_MODE.get()) { this.unprocessedWaveHandler.manageUnprocessedWave(NO_WAVE_LISTENER.getText(wave.waveType().toString()), wave); } } // The current wave will be marked as Handled when all Wave Handlers will be terminated // if(!wave.isRelated()){ // LOGGER.info(NOTIFIER_HANDLES, wave.toString()); // wave.status(Status.Handled); // } }
class class_name[name] begin[{] method[processUndefinedWave, return_type[void], modifier[private], parameter[wave]] begin[{] call[LOGGER.info, parameter[member[.NOTIFIER_CONSUMES], call[wave.toString, parameter[]]]] call[wave.status, parameter[member[Status.Consumed]]] if[THIS[member[None.notifierMap]call[None.containsKey, parameter[call[wave.waveType, parameter[]]]]]] begin[{] local_variable[type[WaveSubscription], ws] call[wave.setWaveHandlers, parameter[call[ws.getWaveHandlers, parameter[]]]] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=wave, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=handle, postfix_operators=[], prefix_operators=[], qualifier=waveHandler, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=ClassCreator(arguments=[MethodInvocation(arguments=[], member=getWaveHandlers, postfix_operators=[], prefix_operators=[], qualifier=wave, selectors=[], type_arguments=None)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=[], dimensions=None, name=ArrayList, sub_type=None)), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=waveHandler)], modifiers={'final'}, type=ReferenceType(arguments=None, dimensions=[], name=WaveHandler, sub_type=None))), label=None) else begin[{] call[LOGGER.warn, parameter[member[.NO_WAVE_LISTENER], call[wave.waveType, parameter[]]]] if[call[CoreParameters.DEVELOPER_MODE.get, parameter[]]] begin[{] THIS[member[None.unprocessedWaveHandler]call[None.manageUnprocessedWave, parameter[call[NO_WAVE_LISTENER.getText, parameter[call[wave.waveType, parameter[]]]], member[.wave]]]] else begin[{] None end[}] end[}] end[}] END[}]
Keyword[private] Keyword[void] identifier[processUndefinedWave] operator[SEP] Keyword[final] identifier[Wave] identifier[wave] operator[SEP] Keyword[throws] identifier[WaveException] { identifier[LOGGER] operator[SEP] identifier[info] operator[SEP] identifier[NOTIFIER_CONSUMES] , identifier[wave] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[wave] operator[SEP] identifier[status] operator[SEP] identifier[Status] operator[SEP] identifier[Consumed] operator[SEP] operator[SEP] Keyword[if] operator[SEP] Keyword[this] operator[SEP] identifier[notifierMap] operator[SEP] identifier[containsKey] operator[SEP] identifier[wave] operator[SEP] identifier[waveType] operator[SEP] operator[SEP] operator[SEP] operator[SEP] { Keyword[final] identifier[WaveSubscription] identifier[ws] operator[=] Keyword[this] operator[SEP] identifier[notifierMap] operator[SEP] identifier[get] operator[SEP] identifier[wave] operator[SEP] identifier[waveType] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[wave] operator[SEP] identifier[setWaveHandlers] operator[SEP] identifier[ws] operator[SEP] identifier[getWaveHandlers] operator[SEP] operator[SEP] operator[SEP] identifier[stream] operator[SEP] operator[SEP] operator[SEP] identifier[filter] operator[SEP] identifier[wh] operator[->] identifier[wh] operator[SEP] identifier[check] operator[SEP] identifier[wave] operator[SEP] operator[SEP] operator[SEP] identifier[collect] operator[SEP] identifier[Collectors] operator[SEP] identifier[toList] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[final] identifier[WaveHandler] identifier[waveHandler] operator[:] Keyword[new] identifier[ArrayList] operator[<] operator[>] operator[SEP] identifier[wave] operator[SEP] identifier[getWaveHandlers] operator[SEP] operator[SEP] operator[SEP] operator[SEP] { identifier[waveHandler] operator[SEP] identifier[handle] operator[SEP] identifier[wave] operator[SEP] operator[SEP] } } Keyword[else] { identifier[LOGGER] operator[SEP] identifier[warn] operator[SEP] identifier[NO_WAVE_LISTENER] , identifier[wave] operator[SEP] identifier[waveType] operator[SEP] operator[SEP] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[CoreParameters] operator[SEP] identifier[DEVELOPER_MODE] operator[SEP] identifier[get] operator[SEP] operator[SEP] operator[SEP] { Keyword[this] operator[SEP] identifier[unprocessedWaveHandler] operator[SEP] identifier[manageUnprocessedWave] operator[SEP] identifier[NO_WAVE_LISTENER] operator[SEP] identifier[getText] operator[SEP] identifier[wave] operator[SEP] identifier[waveType] operator[SEP] operator[SEP] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] , identifier[wave] operator[SEP] operator[SEP] } } }
final void sendErrorReportToConnectors(ConnectorOutputProvider connectorOutputProvider) { for (Connector connector : this.connectorMap.values()) { connector.sendErrorReport(connectorOutputProvider); } }
class class_name[name] begin[{] method[sendErrorReportToConnectors, return_type[void], modifier[final], parameter[connectorOutputProvider]] begin[{] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=connectorOutputProvider, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=sendErrorReport, postfix_operators=[], prefix_operators=[], qualifier=connector, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MemberReference(member=connectorMap, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None), MethodInvocation(arguments=[], member=values, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=connector)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Connector, sub_type=None))), label=None) end[}] END[}]
Keyword[final] Keyword[void] identifier[sendErrorReportToConnectors] operator[SEP] identifier[ConnectorOutputProvider] identifier[connectorOutputProvider] operator[SEP] { Keyword[for] operator[SEP] identifier[Connector] identifier[connector] operator[:] Keyword[this] operator[SEP] identifier[connectorMap] operator[SEP] identifier[values] operator[SEP] operator[SEP] operator[SEP] { identifier[connector] operator[SEP] identifier[sendErrorReport] operator[SEP] identifier[connectorOutputProvider] operator[SEP] operator[SEP] } }
private void doList() throws PageException, SearchException { required("collection", action, "name", name); // if(StringUtil.isEmpty(name))throw new ApplicationException("for action list attribute name is // required"); pageContext.setVariable(name, getSearchEngine().getCollectionsAsQuery()); }
class class_name[name] begin[{] method[doList, return_type[void], modifier[private], parameter[]] begin[{] call[.required, parameter[literal["collection"], member[.action], literal["name"], member[.name]]] call[pageContext.setVariable, parameter[member[.name], call[.getSearchEngine, parameter[]]]] end[}] END[}]
Keyword[private] Keyword[void] identifier[doList] operator[SEP] operator[SEP] Keyword[throws] identifier[PageException] , identifier[SearchException] { identifier[required] operator[SEP] literal[String] , identifier[action] , literal[String] , identifier[name] operator[SEP] operator[SEP] identifier[pageContext] operator[SEP] identifier[setVariable] operator[SEP] identifier[name] , identifier[getSearchEngine] operator[SEP] operator[SEP] operator[SEP] identifier[getCollectionsAsQuery] operator[SEP] operator[SEP] operator[SEP] operator[SEP] }
public static ThreadFactory getThreadFactory(String nameFormat, boolean daemon) { if (PlatformInformation.isOnGAEStandard7() || PlatformInformation.isOnGAEStandard8()) { return MoreExecutors.platformThreadFactory(); } else { return new ThreadFactoryBuilder() .setDaemon(daemon) .setNameFormat(nameFormat) .build(); } }
class class_name[name] begin[{] method[getThreadFactory, return_type[type[ThreadFactory]], modifier[public static], parameter[nameFormat, daemon]] begin[{] if[binary_operation[call[PlatformInformation.isOnGAEStandard7, parameter[]], ||, call[PlatformInformation.isOnGAEStandard8, parameter[]]]] begin[{] return[call[MoreExecutors.platformThreadFactory, parameter[]]] else begin[{] return[ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MethodInvocation(arguments=[MemberReference(member=daemon, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=setDaemon, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[MemberReference(member=nameFormat, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=setNameFormat, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[], member=build, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type=ReferenceType(arguments=None, dimensions=None, name=ThreadFactoryBuilder, sub_type=None))] end[}] end[}] END[}]
Keyword[public] Keyword[static] identifier[ThreadFactory] identifier[getThreadFactory] operator[SEP] identifier[String] identifier[nameFormat] , Keyword[boolean] identifier[daemon] operator[SEP] { Keyword[if] operator[SEP] identifier[PlatformInformation] operator[SEP] identifier[isOnGAEStandard7] operator[SEP] operator[SEP] operator[||] identifier[PlatformInformation] operator[SEP] identifier[isOnGAEStandard8] operator[SEP] operator[SEP] operator[SEP] { Keyword[return] identifier[MoreExecutors] operator[SEP] identifier[platformThreadFactory] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] { Keyword[return] Keyword[new] identifier[ThreadFactoryBuilder] operator[SEP] operator[SEP] operator[SEP] identifier[setDaemon] operator[SEP] identifier[daemon] operator[SEP] operator[SEP] identifier[setNameFormat] operator[SEP] identifier[nameFormat] operator[SEP] operator[SEP] identifier[build] operator[SEP] operator[SEP] operator[SEP] } }
public short getPixelValue(BufferedImage image, int x, int y) { validateImageType(image); WritableRaster raster = image.getRaster(); short pixelValue = getPixelValue(raster, x, y); return pixelValue; }
class class_name[name] begin[{] method[getPixelValue, return_type[type[short]], modifier[public], parameter[image, x, y]] begin[{] call[.validateImageType, parameter[member[.image]]] local_variable[type[WritableRaster], raster] local_variable[type[short], pixelValue] return[member[.pixelValue]] end[}] END[}]
Keyword[public] Keyword[short] identifier[getPixelValue] operator[SEP] identifier[BufferedImage] identifier[image] , Keyword[int] identifier[x] , Keyword[int] identifier[y] operator[SEP] { identifier[validateImageType] operator[SEP] identifier[image] operator[SEP] operator[SEP] identifier[WritableRaster] identifier[raster] operator[=] identifier[image] operator[SEP] identifier[getRaster] operator[SEP] operator[SEP] operator[SEP] Keyword[short] identifier[pixelValue] operator[=] identifier[getPixelValue] operator[SEP] identifier[raster] , identifier[x] , identifier[y] operator[SEP] operator[SEP] Keyword[return] identifier[pixelValue] operator[SEP] }
@Override public CPDefinitionInventory fetchByUUID_G(String uuid, long groupId) { return fetchByUUID_G(uuid, groupId, true); }
class class_name[name] begin[{] method[fetchByUUID_G, return_type[type[CPDefinitionInventory]], modifier[public], parameter[uuid, groupId]] begin[{] return[call[.fetchByUUID_G, parameter[member[.uuid], member[.groupId], literal[true]]]] end[}] END[}]
annotation[@] identifier[Override] Keyword[public] identifier[CPDefinitionInventory] identifier[fetchByUUID_G] operator[SEP] identifier[String] identifier[uuid] , Keyword[long] identifier[groupId] operator[SEP] { Keyword[return] identifier[fetchByUUID_G] operator[SEP] identifier[uuid] , identifier[groupId] , literal[boolean] operator[SEP] operator[SEP] }
protected final void execute(ConnectionBlock connectionBlock) throws Exception { checkState(initialized); setupConnection(); checkNotNull(connection); boolean committed = false; try { connectionBlock.use(connection); connection.commit(); committed = true; } finally { if (!committed) { connection.rollback(); cleanupConnection(); } } }
class class_name[name] begin[{] method[execute, return_type[void], modifier[final protected], parameter[connectionBlock]] begin[{] call[.checkState, parameter[member[.initialized]]] call[.setupConnection, parameter[]] call[.checkNotNull, parameter[member[.connection]]] local_variable[type[boolean], committed] TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=connection, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=use, postfix_operators=[], prefix_operators=[], qualifier=connectionBlock, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[], member=commit, postfix_operators=[], prefix_operators=[], qualifier=connection, selectors=[], type_arguments=None), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=committed, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)), label=None)], catches=None, finally_block=[IfStatement(condition=MemberReference(member=committed, postfix_operators=[], prefix_operators=['!'], qualifier=, selectors=[]), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[], member=rollback, postfix_operators=[], prefix_operators=[], qualifier=connection, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[], member=cleanupConnection, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)]))], label=None, resources=None) end[}] END[}]
Keyword[protected] Keyword[final] Keyword[void] identifier[execute] operator[SEP] identifier[ConnectionBlock] identifier[connectionBlock] operator[SEP] Keyword[throws] identifier[Exception] { identifier[checkState] operator[SEP] identifier[initialized] operator[SEP] operator[SEP] identifier[setupConnection] operator[SEP] operator[SEP] operator[SEP] identifier[checkNotNull] operator[SEP] identifier[connection] operator[SEP] operator[SEP] Keyword[boolean] identifier[committed] operator[=] literal[boolean] operator[SEP] Keyword[try] { identifier[connectionBlock] operator[SEP] identifier[use] operator[SEP] identifier[connection] operator[SEP] operator[SEP] identifier[connection] operator[SEP] identifier[commit] operator[SEP] operator[SEP] operator[SEP] identifier[committed] operator[=] literal[boolean] operator[SEP] } Keyword[finally] { Keyword[if] operator[SEP] operator[!] identifier[committed] operator[SEP] { identifier[connection] operator[SEP] identifier[rollback] operator[SEP] operator[SEP] operator[SEP] identifier[cleanupConnection] operator[SEP] operator[SEP] operator[SEP] } } }
private void drawTicks() { // Abort if not attached if (!isAttached()) { return; } // Draw the ticks int lineWidth = lineElement.getOffsetWidth(); if (numTicks > 0) { // Create the ticks or make them visible for (int i = 0; i <= numTicks; i++) { Element tick = null; if (i < tickElements.size()) { tick = tickElements.get(i); } else { // Create the new tick tick = DOM.createDiv(); DOM.setStyleAttribute(tick, "position", "absolute"); DOM.setStyleAttribute(tick, "display", "none"); DOM.appendChild(getElement(), tick); tickElements.add(tick); } if (enabled) { DOM.setElementProperty(tick, "className", SLIDER_TICK); } else { DOM.setElementProperty(tick, "className", SLIDER_TICK + " " + SLIDER_TICK_SLIDING); } // Position the tick and make it visible DOM.setStyleAttribute(tick, "visibility", "hidden"); DOM.setStyleAttribute(tick, "display", ""); int tickWidth = tick.getOffsetWidth(); int tickLeftOffset = lineLeftOffset + (lineWidth * i / numTicks) - (tickWidth / 2); tickLeftOffset = Math.min(tickLeftOffset, lineLeftOffset + lineWidth - tickWidth); DOM.setStyleAttribute(tick, "left", tickLeftOffset + "px"); DOM.setStyleAttribute(tick, "visibility", "visible"); } // Hide unused ticks for (int i = (numTicks + 1); i < tickElements.size(); i++) { DOM.setStyleAttribute(tickElements.get(i), "display", "none"); } } else { // Hide all ticks for (Element elem : tickElements) { DOM.setStyleAttribute(elem, "display", "none"); } } }
class class_name[name] begin[{] method[drawTicks, return_type[void], modifier[private], parameter[]] begin[{] if[call[.isAttached, parameter[]]] begin[{] return[None] else begin[{] None end[}] local_variable[type[int], lineWidth] if[binary_operation[member[.numTicks], >, literal[0]]] begin[{] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), name=tick)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Element, sub_type=None)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MethodInvocation(arguments=[], member=size, postfix_operators=[], prefix_operators=[], qualifier=tickElements, selectors=[], type_arguments=None), operator=<), else_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tick, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=createDiv, postfix_operators=[], prefix_operators=[], qualifier=DOM, selectors=[], type_arguments=None)), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=tick, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="position"), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="absolute")], member=setStyleAttribute, postfix_operators=[], prefix_operators=[], qualifier=DOM, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=tick, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="display"), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="none")], member=setStyleAttribute, postfix_operators=[], prefix_operators=[], qualifier=DOM, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getElement, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), MemberReference(member=tick, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=appendChild, postfix_operators=[], prefix_operators=[], qualifier=DOM, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=tick, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=add, postfix_operators=[], prefix_operators=[], qualifier=tickElements, selectors=[], type_arguments=None), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=tick, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=get, postfix_operators=[], prefix_operators=[], qualifier=tickElements, selectors=[], type_arguments=None)), label=None)])), IfStatement(condition=MemberReference(member=enabled, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), else_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=tick, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="className"), BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=SLIDER_TICK, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=" "), operator=+), operandr=MemberReference(member=SLIDER_TICK_SLIDING, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+)], member=setElementProperty, postfix_operators=[], prefix_operators=[], qualifier=DOM, selectors=[], type_arguments=None), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=tick, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="className"), MemberReference(member=SLIDER_TICK, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=setElementProperty, postfix_operators=[], prefix_operators=[], qualifier=DOM, selectors=[], type_arguments=None), label=None)])), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=tick, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="visibility"), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="hidden")], member=setStyleAttribute, postfix_operators=[], prefix_operators=[], qualifier=DOM, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=tick, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="display"), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="")], member=setStyleAttribute, postfix_operators=[], prefix_operators=[], qualifier=DOM, selectors=[], type_arguments=None), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=getOffsetWidth, postfix_operators=[], prefix_operators=[], qualifier=tick, selectors=[], type_arguments=None), name=tickWidth)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=lineLeftOffset, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=lineWidth, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=*), operandr=MemberReference(member=numTicks, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=/), operator=+), operandr=BinaryOperation(operandl=MemberReference(member=tickWidth, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2), operator=/), operator=-), name=tickLeftOffset)], modifiers=set(), type=BasicType(dimensions=[], name=int)), StatementExpression(expression=Assignment(expressionl=MemberReference(member=tickLeftOffset, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[MemberReference(member=tickLeftOffset, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=lineLeftOffset, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=lineWidth, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), operandr=MemberReference(member=tickWidth, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=-)], member=min, postfix_operators=[], prefix_operators=[], qualifier=Math, selectors=[], type_arguments=None)), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=tick, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="left"), BinaryOperation(operandl=MemberReference(member=tickLeftOffset, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="px"), operator=+)], member=setStyleAttribute, postfix_operators=[], prefix_operators=[], qualifier=DOM, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=tick, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="visibility"), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="visible")], member=setStyleAttribute, postfix_operators=[], prefix_operators=[], qualifier=DOM, selectors=[], type_arguments=None), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=numTicks, 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) ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=get, postfix_operators=[], prefix_operators=[], qualifier=tickElements, selectors=[], type_arguments=None), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="display"), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="none")], member=setStyleAttribute, postfix_operators=[], prefix_operators=[], qualifier=DOM, selectors=[], type_arguments=None), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MethodInvocation(arguments=[], member=size, postfix_operators=[], prefix_operators=[], qualifier=tickElements, selectors=[], type_arguments=None), operator=<), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=BinaryOperation(operandl=MemberReference(member=numTicks, 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) else begin[{] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=elem, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="display"), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="none")], member=setStyleAttribute, postfix_operators=[], prefix_operators=[], qualifier=DOM, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MemberReference(member=tickElements, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=elem)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Element, sub_type=None))), label=None) end[}] end[}] END[}]
Keyword[private] Keyword[void] identifier[drawTicks] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] operator[!] identifier[isAttached] operator[SEP] operator[SEP] operator[SEP] { Keyword[return] operator[SEP] } Keyword[int] identifier[lineWidth] operator[=] identifier[lineElement] operator[SEP] identifier[getOffsetWidth] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[numTicks] operator[>] Other[0] operator[SEP] { Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<=] identifier[numTicks] operator[SEP] identifier[i] operator[++] operator[SEP] { identifier[Element] identifier[tick] operator[=] Other[null] operator[SEP] Keyword[if] operator[SEP] identifier[i] operator[<] identifier[tickElements] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] { identifier[tick] operator[=] identifier[tickElements] operator[SEP] identifier[get] operator[SEP] identifier[i] operator[SEP] operator[SEP] } Keyword[else] { identifier[tick] operator[=] identifier[DOM] operator[SEP] identifier[createDiv] operator[SEP] operator[SEP] operator[SEP] identifier[DOM] operator[SEP] identifier[setStyleAttribute] operator[SEP] identifier[tick] , literal[String] , literal[String] operator[SEP] operator[SEP] identifier[DOM] operator[SEP] identifier[setStyleAttribute] operator[SEP] identifier[tick] , literal[String] , literal[String] operator[SEP] operator[SEP] identifier[DOM] operator[SEP] identifier[appendChild] operator[SEP] identifier[getElement] operator[SEP] operator[SEP] , identifier[tick] operator[SEP] operator[SEP] identifier[tickElements] operator[SEP] identifier[add] operator[SEP] identifier[tick] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[enabled] operator[SEP] { identifier[DOM] operator[SEP] identifier[setElementProperty] operator[SEP] identifier[tick] , literal[String] , identifier[SLIDER_TICK] operator[SEP] operator[SEP] } Keyword[else] { identifier[DOM] operator[SEP] identifier[setElementProperty] operator[SEP] identifier[tick] , literal[String] , identifier[SLIDER_TICK] operator[+] literal[String] operator[+] identifier[SLIDER_TICK_SLIDING] operator[SEP] operator[SEP] } identifier[DOM] operator[SEP] identifier[setStyleAttribute] operator[SEP] identifier[tick] , literal[String] , literal[String] operator[SEP] operator[SEP] identifier[DOM] operator[SEP] identifier[setStyleAttribute] operator[SEP] identifier[tick] , literal[String] , literal[String] operator[SEP] operator[SEP] Keyword[int] identifier[tickWidth] operator[=] identifier[tick] operator[SEP] identifier[getOffsetWidth] operator[SEP] operator[SEP] operator[SEP] Keyword[int] identifier[tickLeftOffset] operator[=] identifier[lineLeftOffset] operator[+] operator[SEP] identifier[lineWidth] operator[*] identifier[i] operator[/] identifier[numTicks] operator[SEP] operator[-] operator[SEP] identifier[tickWidth] operator[/] Other[2] operator[SEP] operator[SEP] identifier[tickLeftOffset] operator[=] identifier[Math] operator[SEP] identifier[min] operator[SEP] identifier[tickLeftOffset] , identifier[lineLeftOffset] operator[+] identifier[lineWidth] operator[-] identifier[tickWidth] operator[SEP] operator[SEP] identifier[DOM] operator[SEP] identifier[setStyleAttribute] operator[SEP] identifier[tick] , literal[String] , identifier[tickLeftOffset] operator[+] literal[String] operator[SEP] operator[SEP] identifier[DOM] operator[SEP] identifier[setStyleAttribute] operator[SEP] identifier[tick] , literal[String] , literal[String] operator[SEP] operator[SEP] } Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] operator[SEP] identifier[numTicks] operator[+] Other[1] operator[SEP] operator[SEP] identifier[i] operator[<] identifier[tickElements] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] identifier[i] operator[++] operator[SEP] { identifier[DOM] operator[SEP] identifier[setStyleAttribute] operator[SEP] identifier[tickElements] operator[SEP] identifier[get] operator[SEP] identifier[i] operator[SEP] , literal[String] , literal[String] operator[SEP] operator[SEP] } } Keyword[else] { Keyword[for] operator[SEP] identifier[Element] identifier[elem] operator[:] identifier[tickElements] operator[SEP] { identifier[DOM] operator[SEP] identifier[setStyleAttribute] operator[SEP] identifier[elem] , literal[String] , literal[String] operator[SEP] operator[SEP] } } }
public String convertToString(String htmlInput) throws UnsupportedEncodingException { // first: collect all converter classes to use on the input Map<String, List<String>> converters = new HashMap<String, List<String>>(); for (Iterator<String> i = getModes().iterator(); i.hasNext();) { String mode = i.next(); String converterClass = OpenCms.getResourceManager().getHtmlConverter(mode); List<String> modes = new ArrayList<String>(); if (converters.containsKey(converterClass)) { // converter class already defined for a previous mode, get mode list modes = converters.get(converterClass); } // add mode name to list for the converter modes.add(mode); // store converter with modes in map converters.put(converterClass, modes); } // second: convert the content with all found converter classes for (Iterator<Entry<String, List<String>>> i = converters.entrySet().iterator(); i.hasNext();) { Entry<String, List<String>> entry = i.next(); String className = entry.getKey(); List<String> modes = entry.getValue(); try { I_CmsHtmlConverter converter = (I_CmsHtmlConverter)Class.forName(className).newInstance(); // initialize converter converter.init(getEncoding(), modes); // convert input String htmlInput = converter.convertToString(htmlInput); } catch (ClassNotFoundException e) { LOG.error( org.opencms.loader.Messages.get().getBundle().key( org.opencms.loader.Messages.LOG_HTML_CONVERTER_CLASS_NOT_FOUND_1, className), e); } catch (IllegalAccessException e) { LOG.error( org.opencms.loader.Messages.get().getBundle().key( org.opencms.loader.Messages.LOG_HTML_CONVERTER_CLASS_NOT_FOUND_1, className), e); } catch (InstantiationException e) { LOG.error( org.opencms.loader.Messages.get().getBundle().key( org.opencms.loader.Messages.LOG_HTML_CONVERTER_CLASS_NOT_FOUND_1, className), e); } } return htmlInput; }
class class_name[name] begin[{] method[convertToString, return_type[type[String]], modifier[public], parameter[htmlInput]] begin[{] local_variable[type[Map], converters] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=next, postfix_operators=[], prefix_operators=[], qualifier=i, selectors=[], type_arguments=None), name=mode)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=getResourceManager, postfix_operators=[], prefix_operators=[], qualifier=OpenCms, selectors=[MethodInvocation(arguments=[MemberReference(member=mode, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getHtmlConverter, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), name=converterClass)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None))], dimensions=None, name=ArrayList, sub_type=None)), name=modes)], modifiers=set(), type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None))], dimensions=[], name=List, sub_type=None)), IfStatement(condition=MethodInvocation(arguments=[MemberReference(member=converterClass, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=containsKey, postfix_operators=[], prefix_operators=[], qualifier=converters, selectors=[], type_arguments=None), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=modes, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[MemberReference(member=converterClass, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=get, postfix_operators=[], prefix_operators=[], qualifier=converters, selectors=[], type_arguments=None)), label=None)])), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=mode, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=add, postfix_operators=[], prefix_operators=[], qualifier=modes, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=converterClass, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=modes, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=put, postfix_operators=[], prefix_operators=[], qualifier=converters, selectors=[], type_arguments=None), label=None)]), control=ForControl(condition=MethodInvocation(arguments=[], member=hasNext, postfix_operators=[], prefix_operators=[], qualifier=i, selectors=[], type_arguments=None), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=MethodInvocation(arguments=[], member=getModes, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[MethodInvocation(arguments=[], member=iterator, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), name=i)], modifiers=set(), type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None))], dimensions=[], name=Iterator, sub_type=None)), update=None), label=None) ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=next, postfix_operators=[], prefix_operators=[], qualifier=i, selectors=[], type_arguments=None), name=entry)], 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=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None))], dimensions=[], name=List, sub_type=None))], dimensions=[], name=Entry, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=getKey, postfix_operators=[], prefix_operators=[], qualifier=entry, selectors=[], type_arguments=None), name=className)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=getValue, postfix_operators=[], prefix_operators=[], qualifier=entry, selectors=[], type_arguments=None), name=modes)], modifiers=set(), type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None))], dimensions=[], name=List, sub_type=None)), TryStatement(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Cast(expression=MethodInvocation(arguments=[MemberReference(member=className, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=forName, postfix_operators=[], prefix_operators=[], qualifier=Class, selectors=[MethodInvocation(arguments=[], member=newInstance, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=I_CmsHtmlConverter, sub_type=None)), name=converter)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=I_CmsHtmlConverter, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getEncoding, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), MemberReference(member=modes, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=init, postfix_operators=[], prefix_operators=[], qualifier=converter, selectors=[], type_arguments=None), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=htmlInput, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[MemberReference(member=htmlInput, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=convertToString, postfix_operators=[], prefix_operators=[], qualifier=converter, selectors=[], type_arguments=None)), label=None)], catches=[CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=get, postfix_operators=[], prefix_operators=[], qualifier=org.opencms.loader.Messages, selectors=[MethodInvocation(arguments=[], member=getBundle, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[MemberReference(member=LOG_HTML_CONVERTER_CLASS_NOT_FOUND_1, postfix_operators=[], prefix_operators=[], qualifier=org.opencms.loader.Messages, selectors=[]), MemberReference(member=className, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=key, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=error, postfix_operators=[], prefix_operators=[], qualifier=LOG, selectors=[], type_arguments=None), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['ClassNotFoundException'])), CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=get, postfix_operators=[], prefix_operators=[], qualifier=org.opencms.loader.Messages, selectors=[MethodInvocation(arguments=[], member=getBundle, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[MemberReference(member=LOG_HTML_CONVERTER_CLASS_NOT_FOUND_1, postfix_operators=[], prefix_operators=[], qualifier=org.opencms.loader.Messages, selectors=[]), MemberReference(member=className, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=key, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=error, postfix_operators=[], prefix_operators=[], qualifier=LOG, selectors=[], type_arguments=None), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['IllegalAccessException'])), CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=get, postfix_operators=[], prefix_operators=[], qualifier=org.opencms.loader.Messages, selectors=[MethodInvocation(arguments=[], member=getBundle, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[MemberReference(member=LOG_HTML_CONVERTER_CLASS_NOT_FOUND_1, postfix_operators=[], prefix_operators=[], qualifier=org.opencms.loader.Messages, selectors=[]), MemberReference(member=className, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=key, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=error, postfix_operators=[], prefix_operators=[], qualifier=LOG, selectors=[], type_arguments=None), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['InstantiationException']))], finally_block=None, label=None, resources=None)]), control=ForControl(condition=MethodInvocation(arguments=[], member=hasNext, postfix_operators=[], prefix_operators=[], qualifier=i, selectors=[], type_arguments=None), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=MethodInvocation(arguments=[], member=entrySet, postfix_operators=[], prefix_operators=[], qualifier=converters, selectors=[MethodInvocation(arguments=[], member=iterator, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), name=i)], modifiers=set(), type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), TypeArgument(pattern_type=None, type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None))], dimensions=[], name=List, sub_type=None))], dimensions=[], name=Entry, sub_type=None))], dimensions=[], name=Iterator, sub_type=None)), update=None), label=None) return[member[.htmlInput]] end[}] END[}]
Keyword[public] identifier[String] identifier[convertToString] operator[SEP] identifier[String] identifier[htmlInput] operator[SEP] Keyword[throws] identifier[UnsupportedEncodingException] { identifier[Map] operator[<] identifier[String] , identifier[List] operator[<] identifier[String] operator[>] operator[>] identifier[converters] operator[=] Keyword[new] identifier[HashMap] operator[<] identifier[String] , identifier[List] operator[<] identifier[String] operator[>] operator[>] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] identifier[Iterator] operator[<] identifier[String] operator[>] identifier[i] operator[=] identifier[getModes] operator[SEP] operator[SEP] operator[SEP] identifier[iterator] operator[SEP] operator[SEP] operator[SEP] identifier[i] operator[SEP] identifier[hasNext] operator[SEP] operator[SEP] operator[SEP] operator[SEP] { identifier[String] identifier[mode] operator[=] identifier[i] operator[SEP] identifier[next] operator[SEP] operator[SEP] operator[SEP] identifier[String] identifier[converterClass] operator[=] identifier[OpenCms] operator[SEP] identifier[getResourceManager] operator[SEP] operator[SEP] operator[SEP] identifier[getHtmlConverter] operator[SEP] identifier[mode] operator[SEP] operator[SEP] identifier[List] operator[<] identifier[String] operator[>] identifier[modes] operator[=] Keyword[new] identifier[ArrayList] operator[<] identifier[String] operator[>] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[converters] operator[SEP] identifier[containsKey] operator[SEP] identifier[converterClass] operator[SEP] operator[SEP] { identifier[modes] operator[=] identifier[converters] operator[SEP] identifier[get] operator[SEP] identifier[converterClass] operator[SEP] operator[SEP] } identifier[modes] operator[SEP] identifier[add] operator[SEP] identifier[mode] operator[SEP] operator[SEP] identifier[converters] operator[SEP] identifier[put] operator[SEP] identifier[converterClass] , identifier[modes] operator[SEP] operator[SEP] } Keyword[for] operator[SEP] identifier[Iterator] operator[<] identifier[Entry] operator[<] identifier[String] , identifier[List] operator[<] identifier[String] operator[>] operator[>] operator[>] identifier[i] operator[=] identifier[converters] operator[SEP] identifier[entrySet] operator[SEP] operator[SEP] operator[SEP] identifier[iterator] operator[SEP] operator[SEP] operator[SEP] identifier[i] operator[SEP] identifier[hasNext] operator[SEP] operator[SEP] operator[SEP] operator[SEP] { identifier[Entry] operator[<] identifier[String] , identifier[List] operator[<] identifier[String] operator[>] operator[>] identifier[entry] operator[=] identifier[i] operator[SEP] identifier[next] operator[SEP] operator[SEP] operator[SEP] identifier[String] identifier[className] operator[=] identifier[entry] operator[SEP] identifier[getKey] operator[SEP] operator[SEP] operator[SEP] identifier[List] operator[<] identifier[String] operator[>] identifier[modes] operator[=] identifier[entry] operator[SEP] identifier[getValue] operator[SEP] operator[SEP] operator[SEP] Keyword[try] { identifier[I_CmsHtmlConverter] identifier[converter] operator[=] operator[SEP] identifier[I_CmsHtmlConverter] operator[SEP] identifier[Class] operator[SEP] identifier[forName] operator[SEP] identifier[className] operator[SEP] operator[SEP] identifier[newInstance] operator[SEP] operator[SEP] operator[SEP] identifier[converter] operator[SEP] identifier[init] operator[SEP] identifier[getEncoding] operator[SEP] operator[SEP] , identifier[modes] operator[SEP] operator[SEP] identifier[htmlInput] operator[=] identifier[converter] operator[SEP] identifier[convertToString] operator[SEP] identifier[htmlInput] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[ClassNotFoundException] identifier[e] operator[SEP] { identifier[LOG] operator[SEP] identifier[error] operator[SEP] identifier[org] operator[SEP] identifier[opencms] operator[SEP] identifier[loader] operator[SEP] identifier[Messages] operator[SEP] identifier[get] operator[SEP] operator[SEP] operator[SEP] identifier[getBundle] operator[SEP] operator[SEP] operator[SEP] identifier[key] operator[SEP] identifier[org] operator[SEP] identifier[opencms] operator[SEP] identifier[loader] operator[SEP] identifier[Messages] operator[SEP] identifier[LOG_HTML_CONVERTER_CLASS_NOT_FOUND_1] , identifier[className] operator[SEP] , identifier[e] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[IllegalAccessException] identifier[e] operator[SEP] { identifier[LOG] operator[SEP] identifier[error] operator[SEP] identifier[org] operator[SEP] identifier[opencms] operator[SEP] identifier[loader] operator[SEP] identifier[Messages] operator[SEP] identifier[get] operator[SEP] operator[SEP] operator[SEP] identifier[getBundle] operator[SEP] operator[SEP] operator[SEP] identifier[key] operator[SEP] identifier[org] operator[SEP] identifier[opencms] operator[SEP] identifier[loader] operator[SEP] identifier[Messages] operator[SEP] identifier[LOG_HTML_CONVERTER_CLASS_NOT_FOUND_1] , identifier[className] operator[SEP] , identifier[e] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[InstantiationException] identifier[e] operator[SEP] { identifier[LOG] operator[SEP] identifier[error] operator[SEP] identifier[org] operator[SEP] identifier[opencms] operator[SEP] identifier[loader] operator[SEP] identifier[Messages] operator[SEP] identifier[get] operator[SEP] operator[SEP] operator[SEP] identifier[getBundle] operator[SEP] operator[SEP] operator[SEP] identifier[key] operator[SEP] identifier[org] operator[SEP] identifier[opencms] operator[SEP] identifier[loader] operator[SEP] identifier[Messages] operator[SEP] identifier[LOG_HTML_CONVERTER_CLASS_NOT_FOUND_1] , identifier[className] operator[SEP] , identifier[e] operator[SEP] operator[SEP] } } Keyword[return] identifier[htmlInput] operator[SEP] }
public Router all(@NotNull final String pattern, @NotNull final Middleware... handler) { get(pattern, handler); put(pattern, handler); post(pattern, handler); delete(pattern, handler); options(pattern, handler); head(pattern, handler); trace(pattern, handler); connect(pattern, handler); patch(pattern, handler); return this; }
class class_name[name] begin[{] method[all, return_type[type[Router]], modifier[public], parameter[pattern, handler]] begin[{] call[.get, parameter[member[.pattern], member[.handler]]] call[.put, parameter[member[.pattern], member[.handler]]] call[.post, parameter[member[.pattern], member[.handler]]] call[.delete, parameter[member[.pattern], member[.handler]]] call[.options, parameter[member[.pattern], member[.handler]]] call[.head, parameter[member[.pattern], member[.handler]]] call[.trace, parameter[member[.pattern], member[.handler]]] call[.connect, parameter[member[.pattern], member[.handler]]] call[.patch, parameter[member[.pattern], member[.handler]]] return[THIS[]] end[}] END[}]
Keyword[public] identifier[Router] identifier[all] operator[SEP] annotation[@] identifier[NotNull] Keyword[final] identifier[String] identifier[pattern] , annotation[@] identifier[NotNull] Keyword[final] identifier[Middleware] operator[...] identifier[handler] operator[SEP] { identifier[get] operator[SEP] identifier[pattern] , identifier[handler] operator[SEP] operator[SEP] identifier[put] operator[SEP] identifier[pattern] , identifier[handler] operator[SEP] operator[SEP] identifier[post] operator[SEP] identifier[pattern] , identifier[handler] operator[SEP] operator[SEP] identifier[delete] operator[SEP] identifier[pattern] , identifier[handler] operator[SEP] operator[SEP] identifier[options] operator[SEP] identifier[pattern] , identifier[handler] operator[SEP] operator[SEP] identifier[head] operator[SEP] identifier[pattern] , identifier[handler] operator[SEP] operator[SEP] identifier[trace] operator[SEP] identifier[pattern] , identifier[handler] operator[SEP] operator[SEP] identifier[connect] operator[SEP] identifier[pattern] , identifier[handler] operator[SEP] operator[SEP] identifier[patch] operator[SEP] identifier[pattern] , identifier[handler] operator[SEP] operator[SEP] Keyword[return] Keyword[this] operator[SEP] }
public static KieRuntimeLogger newThreadedFileLogger(KieRuntimeEventManager session, String fileName, int interval) { return getKnowledgeRuntimeLoggerProvider().newThreadedFileLogger( session, fileName, interval ); }
class class_name[name] begin[{] method[newThreadedFileLogger, return_type[type[KieRuntimeLogger]], modifier[public static], parameter[session, fileName, interval]] begin[{] return[call[.getKnowledgeRuntimeLoggerProvider, parameter[]]] end[}] END[}]
Keyword[public] Keyword[static] identifier[KieRuntimeLogger] identifier[newThreadedFileLogger] operator[SEP] identifier[KieRuntimeEventManager] identifier[session] , identifier[String] identifier[fileName] , Keyword[int] identifier[interval] operator[SEP] { Keyword[return] identifier[getKnowledgeRuntimeLoggerProvider] operator[SEP] operator[SEP] operator[SEP] identifier[newThreadedFileLogger] operator[SEP] identifier[session] , identifier[fileName] , identifier[interval] operator[SEP] operator[SEP] }
public synchronized Object remove(Object key) { int index = keys.indexOf(key); if (index != -1) { Object prev = elements.elementAt(index); keys.removeElementAt(index); elements.removeElementAt(index); return prev; } else { return null; } }
class class_name[name] begin[{] method[remove, return_type[type[Object]], modifier[synchronized public], parameter[key]] begin[{] local_variable[type[int], index] if[binary_operation[member[.index], !=, literal[1]]] begin[{] local_variable[type[Object], prev] call[keys.removeElementAt, parameter[member[.index]]] call[elements.removeElementAt, parameter[member[.index]]] return[member[.prev]] else begin[{] return[literal[null]] end[}] end[}] END[}]
Keyword[public] Keyword[synchronized] identifier[Object] identifier[remove] operator[SEP] identifier[Object] identifier[key] operator[SEP] { Keyword[int] identifier[index] operator[=] identifier[keys] operator[SEP] identifier[indexOf] operator[SEP] identifier[key] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[index] operator[!=] operator[-] Other[1] operator[SEP] { identifier[Object] identifier[prev] operator[=] identifier[elements] operator[SEP] identifier[elementAt] operator[SEP] identifier[index] operator[SEP] operator[SEP] identifier[keys] operator[SEP] identifier[removeElementAt] operator[SEP] identifier[index] operator[SEP] operator[SEP] identifier[elements] operator[SEP] identifier[removeElementAt] operator[SEP] identifier[index] operator[SEP] operator[SEP] Keyword[return] identifier[prev] operator[SEP] } Keyword[else] { Keyword[return] Other[null] operator[SEP] } }
@Override public ThreadContext createThreadContext(Map<String, String> execProps, String classloaderIdentifier) { return new ClassloaderContextImpl(this, classloaderIdentifier); }
class class_name[name] begin[{] method[createThreadContext, return_type[type[ThreadContext]], modifier[public], parameter[execProps, classloaderIdentifier]] begin[{] return[ClassCreator(arguments=[This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[]), MemberReference(member=classloaderIdentifier, 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=ClassloaderContextImpl, sub_type=None))] end[}] END[}]
annotation[@] identifier[Override] Keyword[public] identifier[ThreadContext] identifier[createThreadContext] operator[SEP] identifier[Map] operator[<] identifier[String] , identifier[String] operator[>] identifier[execProps] , identifier[String] identifier[classloaderIdentifier] operator[SEP] { Keyword[return] Keyword[new] identifier[ClassloaderContextImpl] operator[SEP] Keyword[this] , identifier[classloaderIdentifier] operator[SEP] operator[SEP] }
@Pure @Inline(value = "Math.abs($1) < Math.ulp($1)", imported = Math.class) public static boolean isEpsilonZero(double value) { return Math.abs(value) < Math.ulp(value); }
class class_name[name] begin[{] method[isEpsilonZero, return_type[type[boolean]], modifier[public static], parameter[value]] begin[{] return[binary_operation[call[Math.abs, parameter[member[.value]]], <, call[Math.ulp, parameter[member[.value]]]]] end[}] END[}]
annotation[@] identifier[Pure] annotation[@] identifier[Inline] operator[SEP] identifier[value] operator[=] literal[String] , identifier[imported] operator[=] identifier[Math] operator[SEP] Keyword[class] operator[SEP] Keyword[public] Keyword[static] Keyword[boolean] identifier[isEpsilonZero] operator[SEP] Keyword[double] identifier[value] operator[SEP] { Keyword[return] identifier[Math] operator[SEP] identifier[abs] operator[SEP] identifier[value] operator[SEP] operator[<] identifier[Math] operator[SEP] identifier[ulp] operator[SEP] identifier[value] operator[SEP] operator[SEP] }
private void initWorkplaceCmsContext(CmsWorkplaceSettings settings, CmsObject cms) { CmsRequestContext reqCont = cms.getRequestContext(); // check project setting if (!settings.getProject().equals(reqCont.getCurrentProject().getUuid())) { try { reqCont.setCurrentProject(cms.readProject(settings.getProject())); } catch (CmsDbEntryNotFoundException e) { try { // project not found, set current project and settings to online project reqCont.setCurrentProject(cms.readProject(CmsProject.ONLINE_PROJECT_ID)); settings.setProject(CmsProject.ONLINE_PROJECT_ID); } catch (CmsException ex) { // log error if (LOG.isInfoEnabled()) { LOG.info(ex.getLocalizedMessage()); } } } catch (CmsException e1) { if (LOG.isInfoEnabled()) { LOG.info(e1.getLocalizedMessage()); } } } // check site setting if (!(settings.getSite().equals(reqCont.getSiteRoot()))) { // site was switched, set new site root reqCont.setSiteRoot(settings.getSite()); // removed setting explorer resource to "/" to get the stored folder } }
class class_name[name] begin[{] method[initWorkplaceCmsContext, return_type[void], modifier[private], parameter[settings, cms]] begin[{] local_variable[type[CmsRequestContext], reqCont] if[call[settings.getProject, parameter[]]] begin[{] TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getProject, postfix_operators=[], prefix_operators=[], qualifier=settings, selectors=[], type_arguments=None)], member=readProject, postfix_operators=[], prefix_operators=[], qualifier=cms, selectors=[], type_arguments=None)], member=setCurrentProject, postfix_operators=[], prefix_operators=[], qualifier=reqCont, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[MemberReference(member=ONLINE_PROJECT_ID, postfix_operators=[], prefix_operators=[], qualifier=CmsProject, selectors=[])], member=readProject, postfix_operators=[], prefix_operators=[], qualifier=cms, selectors=[], type_arguments=None)], member=setCurrentProject, postfix_operators=[], prefix_operators=[], qualifier=reqCont, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=ONLINE_PROJECT_ID, postfix_operators=[], prefix_operators=[], qualifier=CmsProject, selectors=[])], member=setProject, postfix_operators=[], prefix_operators=[], qualifier=settings, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[IfStatement(condition=MethodInvocation(arguments=[], member=isInfoEnabled, postfix_operators=[], prefix_operators=[], qualifier=LOG, selectors=[], type_arguments=None), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getLocalizedMessage, postfix_operators=[], prefix_operators=[], qualifier=ex, selectors=[], type_arguments=None)], member=info, postfix_operators=[], prefix_operators=[], qualifier=LOG, selectors=[], type_arguments=None), label=None)]))], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=ex, types=['CmsException']))], finally_block=None, label=None, resources=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['CmsDbEntryNotFoundException'])), CatchClause(block=[IfStatement(condition=MethodInvocation(arguments=[], member=isInfoEnabled, postfix_operators=[], prefix_operators=[], qualifier=LOG, selectors=[], type_arguments=None), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getLocalizedMessage, postfix_operators=[], prefix_operators=[], qualifier=e1, selectors=[], type_arguments=None)], member=info, postfix_operators=[], prefix_operators=[], qualifier=LOG, selectors=[], type_arguments=None), label=None)]))], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e1, types=['CmsException']))], finally_block=None, label=None, resources=None) else begin[{] None end[}] if[call[settings.getSite, parameter[]]] begin[{] call[reqCont.setSiteRoot, parameter[call[settings.getSite, parameter[]]]] else begin[{] None end[}] end[}] END[}]
Keyword[private] Keyword[void] identifier[initWorkplaceCmsContext] operator[SEP] identifier[CmsWorkplaceSettings] identifier[settings] , identifier[CmsObject] identifier[cms] operator[SEP] { identifier[CmsRequestContext] identifier[reqCont] operator[=] identifier[cms] operator[SEP] identifier[getRequestContext] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[settings] operator[SEP] identifier[getProject] operator[SEP] operator[SEP] operator[SEP] identifier[equals] operator[SEP] identifier[reqCont] operator[SEP] identifier[getCurrentProject] operator[SEP] operator[SEP] operator[SEP] identifier[getUuid] operator[SEP] operator[SEP] operator[SEP] operator[SEP] { Keyword[try] { identifier[reqCont] operator[SEP] identifier[setCurrentProject] operator[SEP] identifier[cms] operator[SEP] identifier[readProject] operator[SEP] identifier[settings] operator[SEP] identifier[getProject] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[CmsDbEntryNotFoundException] identifier[e] operator[SEP] { Keyword[try] { identifier[reqCont] operator[SEP] identifier[setCurrentProject] operator[SEP] identifier[cms] operator[SEP] identifier[readProject] operator[SEP] identifier[CmsProject] operator[SEP] identifier[ONLINE_PROJECT_ID] operator[SEP] operator[SEP] operator[SEP] identifier[settings] operator[SEP] identifier[setProject] operator[SEP] identifier[CmsProject] operator[SEP] identifier[ONLINE_PROJECT_ID] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[CmsException] identifier[ex] operator[SEP] { Keyword[if] operator[SEP] identifier[LOG] operator[SEP] identifier[isInfoEnabled] operator[SEP] operator[SEP] operator[SEP] { identifier[LOG] operator[SEP] identifier[info] operator[SEP] identifier[ex] operator[SEP] identifier[getLocalizedMessage] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } } } Keyword[catch] operator[SEP] identifier[CmsException] identifier[e1] operator[SEP] { Keyword[if] operator[SEP] identifier[LOG] operator[SEP] identifier[isInfoEnabled] operator[SEP] operator[SEP] operator[SEP] { identifier[LOG] operator[SEP] identifier[info] operator[SEP] identifier[e1] operator[SEP] identifier[getLocalizedMessage] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } } } Keyword[if] operator[SEP] operator[!] operator[SEP] identifier[settings] operator[SEP] identifier[getSite] operator[SEP] operator[SEP] operator[SEP] identifier[equals] operator[SEP] identifier[reqCont] operator[SEP] identifier[getSiteRoot] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] { identifier[reqCont] operator[SEP] identifier[setSiteRoot] operator[SEP] identifier[settings] operator[SEP] identifier[getSite] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } }
public int getShift(long utc) { if (utc <= 0) { return 0; } ExtendedLSE[] events = this.getEventsInDescendingOrder(); for (int i = 0; i < events.length; i++) { ExtendedLSE lse = events[i]; if (utc > lse.utc()) { return 0; } else { long start = lse.utc() - lse.getShift(); if (utc > start) { // Schaltbereich return (int) (utc - start); } } } return 0; }
class class_name[name] begin[{] method[getShift, return_type[type[int]], modifier[public], parameter[utc]] begin[{] if[binary_operation[member[.utc], <=, literal[0]]] begin[{] return[literal[0]] else begin[{] None end[}] local_variable[type[ExtendedLSE], events] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=events, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), name=lse)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=ExtendedLSE, sub_type=None)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=utc, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MethodInvocation(arguments=[], member=utc, postfix_operators=[], prefix_operators=[], qualifier=lse, selectors=[], type_arguments=None), operator=>), else_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MethodInvocation(arguments=[], member=utc, postfix_operators=[], prefix_operators=[], qualifier=lse, selectors=[], type_arguments=None), operandr=MethodInvocation(arguments=[], member=getShift, postfix_operators=[], prefix_operators=[], qualifier=lse, selectors=[], type_arguments=None), operator=-), name=start)], modifiers=set(), type=BasicType(dimensions=[], name=long)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=utc, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=start, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=>), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[ReturnStatement(expression=Cast(expression=BinaryOperation(operandl=MemberReference(member=utc, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=start, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=-), type=BasicType(dimensions=[], name=int)), label=None)]))]), label=None, then_statement=BlockStatement(label=None, statements=[ReturnStatement(expression=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), 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=events, 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[0]] end[}] END[}]
Keyword[public] Keyword[int] identifier[getShift] operator[SEP] Keyword[long] identifier[utc] operator[SEP] { Keyword[if] operator[SEP] identifier[utc] operator[<=] Other[0] operator[SEP] { Keyword[return] Other[0] operator[SEP] } identifier[ExtendedLSE] operator[SEP] operator[SEP] identifier[events] operator[=] Keyword[this] operator[SEP] identifier[getEventsInDescendingOrder] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[events] operator[SEP] identifier[length] operator[SEP] identifier[i] operator[++] operator[SEP] { identifier[ExtendedLSE] identifier[lse] operator[=] identifier[events] operator[SEP] identifier[i] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[utc] operator[>] identifier[lse] operator[SEP] identifier[utc] operator[SEP] operator[SEP] operator[SEP] { Keyword[return] Other[0] operator[SEP] } Keyword[else] { Keyword[long] identifier[start] operator[=] identifier[lse] operator[SEP] identifier[utc] operator[SEP] operator[SEP] operator[-] identifier[lse] operator[SEP] identifier[getShift] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[utc] operator[>] identifier[start] operator[SEP] { Keyword[return] operator[SEP] Keyword[int] operator[SEP] operator[SEP] identifier[utc] operator[-] identifier[start] operator[SEP] operator[SEP] } } } Keyword[return] Other[0] operator[SEP] }
public String getPropertyValue(String key) { checkArgument(!Strings.isNullOrEmpty(key), "key"); String errorMessage = String.format("Failed to retrieve %s property from Conqueso server: %s", key, conquesoUrl.toExternalForm()); return readStringFromUrl("properties/" + key, errorMessage); }
class class_name[name] begin[{] method[getPropertyValue, return_type[type[String]], modifier[public], parameter[key]] begin[{] call[.checkArgument, parameter[call[Strings.isNullOrEmpty, parameter[member[.key]]], literal["key"]]] local_variable[type[String], errorMessage] return[call[.readStringFromUrl, parameter[binary_operation[literal["properties/"], +, member[.key]], member[.errorMessage]]]] end[}] END[}]
Keyword[public] identifier[String] identifier[getPropertyValue] operator[SEP] identifier[String] identifier[key] operator[SEP] { identifier[checkArgument] operator[SEP] operator[!] identifier[Strings] operator[SEP] identifier[isNullOrEmpty] operator[SEP] identifier[key] operator[SEP] , literal[String] operator[SEP] operator[SEP] identifier[String] identifier[errorMessage] operator[=] identifier[String] operator[SEP] identifier[format] operator[SEP] literal[String] , identifier[key] , identifier[conquesoUrl] operator[SEP] identifier[toExternalForm] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[readStringFromUrl] operator[SEP] literal[String] operator[+] identifier[key] , identifier[errorMessage] operator[SEP] operator[SEP] }
protected void _beforeNewSegment(int resizeBy) { // Called for each new segment being added. if (m_bPathStarted) { _initPathStartPoint();// make sure the m_movetoPoint exists and has // right vertex description // The new path is started. Need to grow m_parts and m_pathFlags. if (m_paths == null) { m_paths = (AttributeStreamOfInt32) AttributeStreamBase .createIndexStream(2); m_paths.write(0, 0); m_pathFlags = (AttributeStreamOfInt8) AttributeStreamBase .createByteStream(2, (byte) 0); } else { // _ASSERT(m_parts.size() >= 2); m_paths.resize(m_paths.size() + 1, 0); m_pathFlags.resize(m_pathFlags.size() + 1, 0); } if (m_bPolygon) { // Mark the path as closed m_pathFlags.write(m_pathFlags.size() - 2, (byte) PathFlags.enumClosed); } resizeBy++; // +1 for the StartPath point. } int oldcount = m_pointCount; m_paths.write(m_paths.size() - 1, m_pointCount + resizeBy); // The // NotifyModified // will // update // the // m_pointCount // with this // value. _resizeImpl(oldcount + resizeBy); m_pathFlags.write(m_paths.size() - 1, (byte) 0); if (m_bPathStarted) { setPointByVal(oldcount, m_moveToPoint);// setPoint(oldcount, // m_moveToPoint); //finally // set the start point to // the geometry m_bPathStarted = false; } }
class class_name[name] begin[{] method[_beforeNewSegment, return_type[void], modifier[protected], parameter[resizeBy]] begin[{] if[member[.m_bPathStarted]] begin[{] call[._initPathStartPoint, parameter[]] if[binary_operation[member[.m_paths], ==, literal[null]]] begin[{] assign[member[.m_paths], Cast(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2)], member=createIndexStream, postfix_operators=[], prefix_operators=[], qualifier=AttributeStreamBase, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=AttributeStreamOfInt32, sub_type=None))] call[m_paths.write, parameter[literal[0], literal[0]]] assign[member[.m_pathFlags], Cast(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2), Cast(expression=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), type=BasicType(dimensions=[], name=byte))], member=createByteStream, postfix_operators=[], prefix_operators=[], qualifier=AttributeStreamBase, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=AttributeStreamOfInt8, sub_type=None))] else begin[{] call[m_paths.resize, parameter[binary_operation[call[m_paths.size, parameter[]], +, literal[1]], literal[0]]] call[m_pathFlags.resize, parameter[binary_operation[call[m_pathFlags.size, parameter[]], +, literal[1]], literal[0]]] end[}] if[member[.m_bPolygon]] begin[{] call[m_pathFlags.write, parameter[binary_operation[call[m_pathFlags.size, parameter[]], -, literal[2]], Cast(expression=MemberReference(member=enumClosed, postfix_operators=[], prefix_operators=[], qualifier=PathFlags, selectors=[]), type=BasicType(dimensions=[], name=byte))]] else begin[{] None end[}] member[.resizeBy] else begin[{] None end[}] local_variable[type[int], oldcount] call[m_paths.write, parameter[binary_operation[call[m_paths.size, parameter[]], -, literal[1]], binary_operation[member[.m_pointCount], +, member[.resizeBy]]]] call[._resizeImpl, parameter[binary_operation[member[.oldcount], +, member[.resizeBy]]]] call[m_pathFlags.write, parameter[binary_operation[call[m_paths.size, parameter[]], -, literal[1]], Cast(expression=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), type=BasicType(dimensions=[], name=byte))]] if[member[.m_bPathStarted]] begin[{] call[.setPointByVal, parameter[member[.oldcount], member[.m_moveToPoint]]] assign[member[.m_bPathStarted], literal[false]] else begin[{] None end[}] end[}] END[}]
Keyword[protected] Keyword[void] identifier[_beforeNewSegment] operator[SEP] Keyword[int] identifier[resizeBy] operator[SEP] { Keyword[if] operator[SEP] identifier[m_bPathStarted] operator[SEP] { identifier[_initPathStartPoint] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[m_paths] operator[==] Other[null] operator[SEP] { identifier[m_paths] operator[=] operator[SEP] identifier[AttributeStreamOfInt32] operator[SEP] identifier[AttributeStreamBase] operator[SEP] identifier[createIndexStream] operator[SEP] Other[2] operator[SEP] operator[SEP] identifier[m_paths] operator[SEP] identifier[write] operator[SEP] Other[0] , Other[0] operator[SEP] operator[SEP] identifier[m_pathFlags] operator[=] operator[SEP] identifier[AttributeStreamOfInt8] operator[SEP] identifier[AttributeStreamBase] operator[SEP] identifier[createByteStream] operator[SEP] Other[2] , operator[SEP] Keyword[byte] operator[SEP] Other[0] operator[SEP] operator[SEP] } Keyword[else] { identifier[m_paths] operator[SEP] identifier[resize] operator[SEP] identifier[m_paths] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[+] Other[1] , Other[0] operator[SEP] operator[SEP] identifier[m_pathFlags] operator[SEP] identifier[resize] operator[SEP] identifier[m_pathFlags] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[+] Other[1] , Other[0] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[m_bPolygon] operator[SEP] { identifier[m_pathFlags] operator[SEP] identifier[write] operator[SEP] identifier[m_pathFlags] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[-] Other[2] , operator[SEP] Keyword[byte] operator[SEP] identifier[PathFlags] operator[SEP] identifier[enumClosed] operator[SEP] operator[SEP] } identifier[resizeBy] operator[++] operator[SEP] } Keyword[int] identifier[oldcount] operator[=] identifier[m_pointCount] operator[SEP] identifier[m_paths] operator[SEP] identifier[write] operator[SEP] identifier[m_paths] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[-] Other[1] , identifier[m_pointCount] operator[+] identifier[resizeBy] operator[SEP] operator[SEP] identifier[_resizeImpl] operator[SEP] identifier[oldcount] operator[+] identifier[resizeBy] operator[SEP] operator[SEP] identifier[m_pathFlags] operator[SEP] identifier[write] operator[SEP] identifier[m_paths] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[-] Other[1] , operator[SEP] Keyword[byte] operator[SEP] Other[0] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[m_bPathStarted] operator[SEP] { identifier[setPointByVal] operator[SEP] identifier[oldcount] , identifier[m_moveToPoint] operator[SEP] operator[SEP] identifier[m_bPathStarted] operator[=] literal[boolean] operator[SEP] } }
public void logout( boolean invalidateSessions ) { LoginHandler lh = Handlers.get( getServletContext() ).getLoginHandler(); lh.logout( getHandlerContext(), invalidateSessions ); }
class class_name[name] begin[{] method[logout, return_type[void], modifier[public], parameter[invalidateSessions]] begin[{] local_variable[type[LoginHandler], lh] call[lh.logout, parameter[call[.getHandlerContext, parameter[]], member[.invalidateSessions]]] end[}] END[}]
Keyword[public] Keyword[void] identifier[logout] operator[SEP] Keyword[boolean] identifier[invalidateSessions] operator[SEP] { identifier[LoginHandler] identifier[lh] operator[=] identifier[Handlers] operator[SEP] identifier[get] operator[SEP] identifier[getServletContext] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[getLoginHandler] operator[SEP] operator[SEP] operator[SEP] identifier[lh] operator[SEP] identifier[logout] operator[SEP] identifier[getHandlerContext] operator[SEP] operator[SEP] , identifier[invalidateSessions] operator[SEP] operator[SEP] }
public static synchronized void shutdown() { if (BACKGROUND_SERVICE != null) { try { BACKGROUND_SERVICE.stop(); } catch (Throwable t) { LOGGER.error("Exception stopping Stackify Metrics API service", t); } INITIALIZED.compareAndSet(true, false); } }
class class_name[name] begin[{] method[shutdown, return_type[void], modifier[synchronized public static], parameter[]] begin[{] if[binary_operation[member[.BACKGROUND_SERVICE], !=, literal[null]]] begin[{] TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[], member=stop, postfix_operators=[], prefix_operators=[], qualifier=BACKGROUND_SERVICE, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Exception stopping Stackify Metrics API service"), MemberReference(member=t, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=error, postfix_operators=[], prefix_operators=[], qualifier=LOGGER, selectors=[], type_arguments=None), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=t, types=['Throwable']))], finally_block=None, label=None, resources=None) call[INITIALIZED.compareAndSet, parameter[literal[true], literal[false]]] else begin[{] None end[}] end[}] END[}]
Keyword[public] Keyword[static] Keyword[synchronized] Keyword[void] identifier[shutdown] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] identifier[BACKGROUND_SERVICE] operator[!=] Other[null] operator[SEP] { Keyword[try] { identifier[BACKGROUND_SERVICE] operator[SEP] identifier[stop] operator[SEP] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[Throwable] identifier[t] operator[SEP] { identifier[LOGGER] operator[SEP] identifier[error] operator[SEP] literal[String] , identifier[t] operator[SEP] operator[SEP] } identifier[INITIALIZED] operator[SEP] identifier[compareAndSet] operator[SEP] literal[boolean] , literal[boolean] operator[SEP] operator[SEP] } }
public static void doubleCenterMatrix(double[] dMatrix, int size) { double[] rowMean = new double[size]; // row sum for(int i = 0, c = 0; i < size; i++) { for(int j = 0; j < i; j++) { double v = dMatrix[c++]; rowMean[i] += v; rowMean[j] += v; } assert (dMatrix[c] == 0.); c++; // Diagonal entry. Must be zero! } // Normalize averages: double matrixMean = 0.; for(int i = 0; i < size; i++) { matrixMean += rowMean[i]; rowMean[i] /= size; } matrixMean /= size * size; for(int o = 0, c = 0; o < size; o++) { // Including row mean! for(int p = 0; p <= o; p++) { dMatrix[c++] -= rowMean[o] + rowMean[p] - matrixMean; } } }
class class_name[name] begin[{] method[doubleCenterMatrix, return_type[void], modifier[public static], parameter[dMatrix, size]] begin[{] local_variable[type[double], rowMean] ForStatement(body=BlockStatement(label=None, statements=[ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=dMatrix, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=c, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[]))]), name=v)], modifiers=set(), type=BasicType(dimensions=[], name=double)), StatementExpression(expression=Assignment(expressionl=MemberReference(member=rowMean, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), type=+=, value=MemberReference(member=v, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=rowMean, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=j, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), type=+=, value=MemberReference(member=v, 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=i, 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), AssertStatement(condition=BinaryOperation(operandl=MemberReference(member=dMatrix, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0.), operator===), label=None, value=None), StatementExpression(expression=MemberReference(member=c, 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=size, 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), VariableDeclarator(dimensions=[], initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), name=c)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=i, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None) local_variable[type[double], matrixMean] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=matrixMean, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=+=, value=MemberReference(member=rowMean, 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=rowMean, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), type=/=, value=MemberReference(member=size, 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=size, 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) assign[member[.matrixMean], binary_operation[member[.size], *, member[.size]]] ForStatement(body=BlockStatement(label=None, statements=[ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=dMatrix, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=c, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[]))]), type=-=, value=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=rowMean, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=o, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), operandr=MemberReference(member=rowMean, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=p, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), operator=+), operandr=MemberReference(member=matrixMean, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=-)), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=p, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=o, 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=p)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=p, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=o, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=size, 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=o), VariableDeclarator(dimensions=[], initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), name=c)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=o, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None) end[}] END[}]
Keyword[public] Keyword[static] Keyword[void] identifier[doubleCenterMatrix] operator[SEP] Keyword[double] operator[SEP] operator[SEP] identifier[dMatrix] , Keyword[int] identifier[size] operator[SEP] { Keyword[double] operator[SEP] operator[SEP] identifier[rowMean] operator[=] Keyword[new] Keyword[double] operator[SEP] identifier[size] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] , identifier[c] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[size] operator[SEP] identifier[i] operator[++] operator[SEP] { Keyword[for] operator[SEP] Keyword[int] identifier[j] operator[=] Other[0] operator[SEP] identifier[j] operator[<] identifier[i] operator[SEP] identifier[j] operator[++] operator[SEP] { Keyword[double] identifier[v] operator[=] identifier[dMatrix] operator[SEP] identifier[c] operator[++] operator[SEP] operator[SEP] identifier[rowMean] operator[SEP] identifier[i] operator[SEP] operator[+=] identifier[v] operator[SEP] identifier[rowMean] operator[SEP] identifier[j] operator[SEP] operator[+=] identifier[v] operator[SEP] } Keyword[assert] operator[SEP] identifier[dMatrix] operator[SEP] identifier[c] operator[SEP] operator[==] literal[Float] operator[SEP] operator[SEP] identifier[c] operator[++] operator[SEP] } Keyword[double] identifier[matrixMean] operator[=] literal[Float] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[size] operator[SEP] identifier[i] operator[++] operator[SEP] { identifier[matrixMean] operator[+=] identifier[rowMean] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[rowMean] operator[SEP] identifier[i] operator[SEP] operator[/=] identifier[size] operator[SEP] } identifier[matrixMean] operator[/=] identifier[size] operator[*] identifier[size] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[o] operator[=] Other[0] , identifier[c] operator[=] Other[0] operator[SEP] identifier[o] operator[<] identifier[size] operator[SEP] identifier[o] operator[++] operator[SEP] { Keyword[for] operator[SEP] Keyword[int] identifier[p] operator[=] Other[0] operator[SEP] identifier[p] operator[<=] identifier[o] operator[SEP] identifier[p] operator[++] operator[SEP] { identifier[dMatrix] operator[SEP] identifier[c] operator[++] operator[SEP] operator[-=] identifier[rowMean] operator[SEP] identifier[o] operator[SEP] operator[+] identifier[rowMean] operator[SEP] identifier[p] operator[SEP] operator[-] identifier[matrixMean] operator[SEP] } } }
@Override public String getDefaultHostname() { final String hostname = varReg.resolveString(VAR_DEFAULTHOSTNAME); // If we have no specified host name (we get the raw variable back), or the host name is empty, default to localhost if (VAR_DEFAULTHOSTNAME.equals(hostname) || hostname.trim().isEmpty()) { return "localhost"; } else if ("*".equals(hostname)) { return null; // Carried over behaviour from CollectiveHostName } else { return hostname.toLowerCase(); } }
class class_name[name] begin[{] method[getDefaultHostname, return_type[type[String]], modifier[public], parameter[]] begin[{] local_variable[type[String], hostname] if[binary_operation[call[VAR_DEFAULTHOSTNAME.equals, parameter[member[.hostname]]], ||, call[hostname.trim, parameter[]]]] begin[{] return[literal["localhost"]] else begin[{] if[literal["*"]] begin[{] return[literal[null]] else begin[{] return[call[hostname.toLowerCase, parameter[]]] end[}] end[}] end[}] END[}]
annotation[@] identifier[Override] Keyword[public] identifier[String] identifier[getDefaultHostname] operator[SEP] operator[SEP] { Keyword[final] identifier[String] identifier[hostname] operator[=] identifier[varReg] operator[SEP] identifier[resolveString] operator[SEP] identifier[VAR_DEFAULTHOSTNAME] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[VAR_DEFAULTHOSTNAME] operator[SEP] identifier[equals] operator[SEP] identifier[hostname] operator[SEP] operator[||] identifier[hostname] operator[SEP] identifier[trim] operator[SEP] operator[SEP] operator[SEP] identifier[isEmpty] operator[SEP] operator[SEP] operator[SEP] { Keyword[return] literal[String] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] literal[String] operator[SEP] identifier[equals] operator[SEP] identifier[hostname] operator[SEP] operator[SEP] { Keyword[return] Other[null] operator[SEP] } Keyword[else] { Keyword[return] identifier[hostname] operator[SEP] identifier[toLowerCase] operator[SEP] operator[SEP] operator[SEP] } }
public void checkForWellFormedGroupSizeEncoding(final Node node) { final EncodedDataType blockLengthType = (EncodedDataType)containedTypeByNameMap.get("blockLength"); final EncodedDataType numInGroupType = (EncodedDataType)containedTypeByNameMap.get("numInGroup"); if (blockLengthType == null) { XmlSchemaParser.handleError(node, "composite for group encodedLength encoding must have \"blockLength\""); } else if (!isUnsigned(blockLengthType.primitiveType())) { XmlSchemaParser.handleError(node, "\"blockLength\" must be unsigned type"); } else { if (blockLengthType.primitiveType() != UINT8 && blockLengthType.primitiveType() != UINT16) { XmlSchemaParser.handleWarning(node, "\"blockLength\" should be UINT8 or UINT16"); } final PrimitiveValue blockLengthTypeMaxValue = blockLengthType.maxValue(); validateGroupMaxValue(node, blockLengthType.primitiveType(), blockLengthTypeMaxValue); } if (numInGroupType == null) { XmlSchemaParser.handleError(node, "composite for group encodedLength encoding must have \"numInGroup\""); } else if (!isUnsigned(numInGroupType.primitiveType())) { XmlSchemaParser.handleWarning(node, "\"numInGroup\" should be unsigned type"); final PrimitiveValue numInGroupMinValue = numInGroupType.minValue(); if (null == numInGroupMinValue) { XmlSchemaParser.handleError(node, "\"numInGroup\" minValue must be set for signed types"); } else if (numInGroupMinValue.longValue() < 0) { XmlSchemaParser.handleError(node, String.format( "\"numInGroup\" minValue=%s must be greater than zero " + "for signed \"numInGroup\" types", numInGroupMinValue)); } } else { if (numInGroupType.primitiveType() != UINT8 && numInGroupType.primitiveType() != UINT16) { XmlSchemaParser.handleWarning(node, "\"numInGroup\" should be UINT8 or UINT16"); } final PrimitiveValue numInGroupMaxValue = numInGroupType.maxValue(); validateGroupMaxValue(node, numInGroupType.primitiveType(), numInGroupMaxValue); final PrimitiveValue numInGroupMinValue = numInGroupType.minValue(); if (null != numInGroupMinValue) { final long max = numInGroupMaxValue != null ? numInGroupMaxValue.longValue() : numInGroupType.primitiveType().maxValue().longValue(); if (numInGroupMinValue.longValue() > max) { XmlSchemaParser.handleError(node, String.format( "\"numInGroup\" minValue=%s greater than maxValue=%d", numInGroupMinValue, max)); } } } }
class class_name[name] begin[{] method[checkForWellFormedGroupSizeEncoding, return_type[void], modifier[public], parameter[node]] begin[{] local_variable[type[EncodedDataType], blockLengthType] local_variable[type[EncodedDataType], numInGroupType] if[binary_operation[member[.blockLengthType], ==, literal[null]]] begin[{] call[XmlSchemaParser.handleError, parameter[member[.node], literal["composite for group encodedLength encoding must have \"blockLength\""]]] else begin[{] if[call[.isUnsigned, parameter[call[blockLengthType.primitiveType, parameter[]]]]] begin[{] call[XmlSchemaParser.handleError, parameter[member[.node], literal["\"blockLength\" must be unsigned type"]]] else begin[{] if[binary_operation[binary_operation[call[blockLengthType.primitiveType, parameter[]], !=, member[.UINT8]], &&, binary_operation[call[blockLengthType.primitiveType, parameter[]], !=, member[.UINT16]]]] begin[{] call[XmlSchemaParser.handleWarning, parameter[member[.node], literal["\"blockLength\" should be UINT8 or UINT16"]]] else begin[{] None end[}] local_variable[type[PrimitiveValue], blockLengthTypeMaxValue] call[.validateGroupMaxValue, parameter[member[.node], call[blockLengthType.primitiveType, parameter[]], member[.blockLengthTypeMaxValue]]] end[}] end[}] if[binary_operation[member[.numInGroupType], ==, literal[null]]] begin[{] call[XmlSchemaParser.handleError, parameter[member[.node], literal["composite for group encodedLength encoding must have \"numInGroup\""]]] else begin[{] if[call[.isUnsigned, parameter[call[numInGroupType.primitiveType, parameter[]]]]] begin[{] call[XmlSchemaParser.handleWarning, parameter[member[.node], literal["\"numInGroup\" should be unsigned type"]]] local_variable[type[PrimitiveValue], numInGroupMinValue] if[binary_operation[literal[null], ==, member[.numInGroupMinValue]]] begin[{] call[XmlSchemaParser.handleError, parameter[member[.node], literal["\"numInGroup\" minValue must be set for signed types"]]] else begin[{] if[binary_operation[call[numInGroupMinValue.longValue, parameter[]], <, literal[0]]] begin[{] call[XmlSchemaParser.handleError, parameter[member[.node], call[String.format, parameter[binary_operation[literal["\"numInGroup\" minValue=%s must be greater than zero "], +, literal["for signed \"numInGroup\" types"]], member[.numInGroupMinValue]]]]] else begin[{] None end[}] end[}] else begin[{] if[binary_operation[binary_operation[call[numInGroupType.primitiveType, parameter[]], !=, member[.UINT8]], &&, binary_operation[call[numInGroupType.primitiveType, parameter[]], !=, member[.UINT16]]]] begin[{] call[XmlSchemaParser.handleWarning, parameter[member[.node], literal["\"numInGroup\" should be UINT8 or UINT16"]]] else begin[{] None end[}] local_variable[type[PrimitiveValue], numInGroupMaxValue] call[.validateGroupMaxValue, parameter[member[.node], call[numInGroupType.primitiveType, parameter[]], member[.numInGroupMaxValue]]] local_variable[type[PrimitiveValue], numInGroupMinValue] if[binary_operation[literal[null], !=, member[.numInGroupMinValue]]] begin[{] local_variable[type[long], max] if[binary_operation[call[numInGroupMinValue.longValue, parameter[]], >, member[.max]]] begin[{] call[XmlSchemaParser.handleError, parameter[member[.node], call[String.format, parameter[literal["\"numInGroup\" minValue=%s greater than maxValue=%d"], member[.numInGroupMinValue], member[.max]]]]] else begin[{] None end[}] else begin[{] None end[}] end[}] end[}] end[}] END[}]
Keyword[public] Keyword[void] identifier[checkForWellFormedGroupSizeEncoding] operator[SEP] Keyword[final] identifier[Node] identifier[node] operator[SEP] { Keyword[final] identifier[EncodedDataType] identifier[blockLengthType] operator[=] operator[SEP] identifier[EncodedDataType] operator[SEP] identifier[containedTypeByNameMap] operator[SEP] identifier[get] operator[SEP] literal[String] operator[SEP] operator[SEP] Keyword[final] identifier[EncodedDataType] identifier[numInGroupType] operator[=] operator[SEP] identifier[EncodedDataType] operator[SEP] identifier[containedTypeByNameMap] operator[SEP] identifier[get] operator[SEP] literal[String] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[blockLengthType] operator[==] Other[null] operator[SEP] { identifier[XmlSchemaParser] operator[SEP] identifier[handleError] operator[SEP] identifier[node] , literal[String] operator[SEP] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] operator[!] identifier[isUnsigned] operator[SEP] identifier[blockLengthType] operator[SEP] identifier[primitiveType] operator[SEP] operator[SEP] operator[SEP] operator[SEP] { identifier[XmlSchemaParser] operator[SEP] identifier[handleError] operator[SEP] identifier[node] , literal[String] operator[SEP] operator[SEP] } Keyword[else] { Keyword[if] operator[SEP] identifier[blockLengthType] operator[SEP] identifier[primitiveType] operator[SEP] operator[SEP] operator[!=] identifier[UINT8] operator[&&] identifier[blockLengthType] operator[SEP] identifier[primitiveType] operator[SEP] operator[SEP] operator[!=] identifier[UINT16] operator[SEP] { identifier[XmlSchemaParser] operator[SEP] identifier[handleWarning] operator[SEP] identifier[node] , literal[String] operator[SEP] operator[SEP] } Keyword[final] identifier[PrimitiveValue] identifier[blockLengthTypeMaxValue] operator[=] identifier[blockLengthType] operator[SEP] identifier[maxValue] operator[SEP] operator[SEP] operator[SEP] identifier[validateGroupMaxValue] operator[SEP] identifier[node] , identifier[blockLengthType] operator[SEP] identifier[primitiveType] operator[SEP] operator[SEP] , identifier[blockLengthTypeMaxValue] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[numInGroupType] operator[==] Other[null] operator[SEP] { identifier[XmlSchemaParser] operator[SEP] identifier[handleError] operator[SEP] identifier[node] , literal[String] operator[SEP] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] operator[!] identifier[isUnsigned] operator[SEP] identifier[numInGroupType] operator[SEP] identifier[primitiveType] operator[SEP] operator[SEP] operator[SEP] operator[SEP] { identifier[XmlSchemaParser] operator[SEP] identifier[handleWarning] operator[SEP] identifier[node] , literal[String] operator[SEP] operator[SEP] Keyword[final] identifier[PrimitiveValue] identifier[numInGroupMinValue] operator[=] identifier[numInGroupType] operator[SEP] identifier[minValue] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] Other[null] operator[==] identifier[numInGroupMinValue] operator[SEP] { identifier[XmlSchemaParser] operator[SEP] identifier[handleError] operator[SEP] identifier[node] , literal[String] operator[SEP] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[numInGroupMinValue] operator[SEP] identifier[longValue] operator[SEP] operator[SEP] operator[<] Other[0] operator[SEP] { identifier[XmlSchemaParser] operator[SEP] identifier[handleError] operator[SEP] identifier[node] , identifier[String] operator[SEP] identifier[format] operator[SEP] literal[String] operator[+] literal[String] , identifier[numInGroupMinValue] operator[SEP] operator[SEP] operator[SEP] } } Keyword[else] { Keyword[if] operator[SEP] identifier[numInGroupType] operator[SEP] identifier[primitiveType] operator[SEP] operator[SEP] operator[!=] identifier[UINT8] operator[&&] identifier[numInGroupType] operator[SEP] identifier[primitiveType] operator[SEP] operator[SEP] operator[!=] identifier[UINT16] operator[SEP] { identifier[XmlSchemaParser] operator[SEP] identifier[handleWarning] operator[SEP] identifier[node] , literal[String] operator[SEP] operator[SEP] } Keyword[final] identifier[PrimitiveValue] identifier[numInGroupMaxValue] operator[=] identifier[numInGroupType] operator[SEP] identifier[maxValue] operator[SEP] operator[SEP] operator[SEP] identifier[validateGroupMaxValue] operator[SEP] identifier[node] , identifier[numInGroupType] operator[SEP] identifier[primitiveType] operator[SEP] operator[SEP] , identifier[numInGroupMaxValue] operator[SEP] operator[SEP] Keyword[final] identifier[PrimitiveValue] identifier[numInGroupMinValue] operator[=] identifier[numInGroupType] operator[SEP] identifier[minValue] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] Other[null] operator[!=] identifier[numInGroupMinValue] operator[SEP] { Keyword[final] Keyword[long] identifier[max] operator[=] identifier[numInGroupMaxValue] operator[!=] Other[null] operator[?] identifier[numInGroupMaxValue] operator[SEP] identifier[longValue] operator[SEP] operator[SEP] operator[:] identifier[numInGroupType] operator[SEP] identifier[primitiveType] operator[SEP] operator[SEP] operator[SEP] identifier[maxValue] operator[SEP] operator[SEP] operator[SEP] identifier[longValue] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[numInGroupMinValue] operator[SEP] identifier[longValue] operator[SEP] operator[SEP] operator[>] identifier[max] operator[SEP] { identifier[XmlSchemaParser] operator[SEP] identifier[handleError] operator[SEP] identifier[node] , identifier[String] operator[SEP] identifier[format] operator[SEP] literal[String] , identifier[numInGroupMinValue] , identifier[max] operator[SEP] operator[SEP] operator[SEP] } } } }
@Override public AnalyzeDocumentResult analyzeDocument(AnalyzeDocumentRequest request) { request = beforeClientExecution(request); return executeAnalyzeDocument(request); }
class class_name[name] begin[{] method[analyzeDocument, return_type[type[AnalyzeDocumentResult]], modifier[public], parameter[request]] begin[{] assign[member[.request], call[.beforeClientExecution, parameter[member[.request]]]] return[call[.executeAnalyzeDocument, parameter[member[.request]]]] end[}] END[}]
annotation[@] identifier[Override] Keyword[public] identifier[AnalyzeDocumentResult] identifier[analyzeDocument] operator[SEP] identifier[AnalyzeDocumentRequest] identifier[request] operator[SEP] { identifier[request] operator[=] identifier[beforeClientExecution] operator[SEP] identifier[request] operator[SEP] operator[SEP] Keyword[return] identifier[executeAnalyzeDocument] operator[SEP] identifier[request] operator[SEP] operator[SEP] }
@BetaApi public final Operation insertForwardingRule( String region, ForwardingRule forwardingRuleResource) { InsertForwardingRuleHttpRequest request = InsertForwardingRuleHttpRequest.newBuilder() .setRegion(region) .setForwardingRuleResource(forwardingRuleResource) .build(); return insertForwardingRule(request); }
class class_name[name] begin[{] method[insertForwardingRule, return_type[type[Operation]], modifier[final public], parameter[region, forwardingRuleResource]] begin[{] local_variable[type[InsertForwardingRuleHttpRequest], request] return[call[.insertForwardingRule, parameter[member[.request]]]] end[}] END[}]
annotation[@] identifier[BetaApi] Keyword[public] Keyword[final] identifier[Operation] identifier[insertForwardingRule] operator[SEP] identifier[String] identifier[region] , identifier[ForwardingRule] identifier[forwardingRuleResource] operator[SEP] { identifier[InsertForwardingRuleHttpRequest] identifier[request] operator[=] identifier[InsertForwardingRuleHttpRequest] operator[SEP] identifier[newBuilder] operator[SEP] operator[SEP] operator[SEP] identifier[setRegion] operator[SEP] identifier[region] operator[SEP] operator[SEP] identifier[setForwardingRuleResource] operator[SEP] identifier[forwardingRuleResource] operator[SEP] operator[SEP] identifier[build] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[insertForwardingRule] operator[SEP] identifier[request] operator[SEP] operator[SEP] }
public void writeNameValuePair(String name, int value) throws IOException { internalWriteNameValuePair(name, Integer.toString(value)); }
class class_name[name] begin[{] method[writeNameValuePair, return_type[void], modifier[public], parameter[name, value]] begin[{] call[.internalWriteNameValuePair, parameter[member[.name], call[Integer.toString, parameter[member[.value]]]]] end[}] END[}]
Keyword[public] Keyword[void] identifier[writeNameValuePair] operator[SEP] identifier[String] identifier[name] , Keyword[int] identifier[value] operator[SEP] Keyword[throws] identifier[IOException] { identifier[internalWriteNameValuePair] operator[SEP] identifier[name] , identifier[Integer] operator[SEP] identifier[toString] operator[SEP] identifier[value] operator[SEP] operator[SEP] operator[SEP] }
private int[] loadNodes(int size, int relType, Direction direction) { final CursorFactory cursors = ktx.cursors(); try (NodeCursor node = cursors.allocateNodeCursor()) { // todo reuse array int[] offsets = new int[size]; Arrays.fill(offsets,-1); int offset = 0; int maxIdx = 0; ktx.dataRead().allNodesScan(node); while (node.next()) { int degree = DegreeUtil.degree(node, cursors, relType, direction); int idx = mapId(node.nodeReference()); // offsets[idx] = degree; offsets[idx] = offset; offset += degree; if (idx > maxIdx) maxIdx = idx; } return maxIdx < offsets.length -1 ? Arrays.copyOf(offsets,maxIdx+1) : offsets; } }
class class_name[name] begin[{] method[loadNodes, return_type[type[int]], modifier[private], parameter[size, relType, direction]] begin[{] local_variable[type[CursorFactory], cursors] TryStatement(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ArrayCreator(dimensions=[MemberReference(member=size, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], initializer=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=BasicType(dimensions=None, name=int)), name=offsets)], modifiers=set(), type=BasicType(dimensions=[None], name=int)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=offsets, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=['-'], qualifier=None, selectors=[], value=1)], member=fill, postfix_operators=[], prefix_operators=[], qualifier=Arrays, selectors=[], type_arguments=None), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), name=offset)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), name=maxIdx)], modifiers=set(), type=BasicType(dimensions=[], name=int)), StatementExpression(expression=MethodInvocation(arguments=[], member=dataRead, postfix_operators=[], prefix_operators=[], qualifier=ktx, selectors=[MethodInvocation(arguments=[MemberReference(member=node, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=allNodesScan, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), label=None), WhileStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=node, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=cursors, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=relType, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=direction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=degree, postfix_operators=[], prefix_operators=[], qualifier=DegreeUtil, selectors=[], type_arguments=None), name=degree)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=nodeReference, postfix_operators=[], prefix_operators=[], qualifier=node, selectors=[], type_arguments=None)], member=mapId, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), name=idx)], modifiers=set(), type=BasicType(dimensions=[], name=int)), StatementExpression(expression=Assignment(expressionl=MemberReference(member=offsets, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=idx, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), type==, value=MemberReference(member=offset, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=offset, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=+=, value=MemberReference(member=degree, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), label=None), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=idx, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=maxIdx, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=>), else_statement=None, label=None, then_statement=StatementExpression(expression=Assignment(expressionl=MemberReference(member=maxIdx, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MemberReference(member=idx, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), label=None))]), condition=MethodInvocation(arguments=[], member=next, postfix_operators=[], prefix_operators=[], qualifier=node, selectors=[], type_arguments=None), label=None), ReturnStatement(expression=TernaryExpression(condition=BinaryOperation(operandl=MemberReference(member=maxIdx, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=BinaryOperation(operandl=MemberReference(member=length, postfix_operators=[], prefix_operators=[], qualifier=offsets, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=-), operator=<), if_false=MemberReference(member=offsets, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), if_true=MethodInvocation(arguments=[MemberReference(member=offsets, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), BinaryOperation(operandl=MemberReference(member=maxIdx, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=+)], member=copyOf, postfix_operators=[], prefix_operators=[], qualifier=Arrays, selectors=[], type_arguments=None)), label=None)], catches=None, finally_block=None, label=None, resources=[TryResource(annotations=[], modifiers=set(), name=node, type=ReferenceType(arguments=None, dimensions=[], name=NodeCursor, sub_type=None), value=MethodInvocation(arguments=[], member=allocateNodeCursor, postfix_operators=[], prefix_operators=[], qualifier=cursors, selectors=[], type_arguments=None))]) end[}] END[}]
Keyword[private] Keyword[int] operator[SEP] operator[SEP] identifier[loadNodes] operator[SEP] Keyword[int] identifier[size] , Keyword[int] identifier[relType] , identifier[Direction] identifier[direction] operator[SEP] { Keyword[final] identifier[CursorFactory] identifier[cursors] operator[=] identifier[ktx] operator[SEP] identifier[cursors] operator[SEP] operator[SEP] operator[SEP] Keyword[try] operator[SEP] identifier[NodeCursor] identifier[node] operator[=] identifier[cursors] operator[SEP] identifier[allocateNodeCursor] operator[SEP] operator[SEP] operator[SEP] { Keyword[int] operator[SEP] operator[SEP] identifier[offsets] operator[=] Keyword[new] Keyword[int] operator[SEP] identifier[size] operator[SEP] operator[SEP] identifier[Arrays] operator[SEP] identifier[fill] operator[SEP] identifier[offsets] , operator[-] Other[1] operator[SEP] operator[SEP] Keyword[int] identifier[offset] operator[=] Other[0] operator[SEP] Keyword[int] identifier[maxIdx] operator[=] Other[0] operator[SEP] identifier[ktx] operator[SEP] identifier[dataRead] operator[SEP] operator[SEP] operator[SEP] identifier[allNodesScan] operator[SEP] identifier[node] operator[SEP] operator[SEP] Keyword[while] operator[SEP] identifier[node] operator[SEP] identifier[next] operator[SEP] operator[SEP] operator[SEP] { Keyword[int] identifier[degree] operator[=] identifier[DegreeUtil] operator[SEP] identifier[degree] operator[SEP] identifier[node] , identifier[cursors] , identifier[relType] , identifier[direction] operator[SEP] operator[SEP] Keyword[int] identifier[idx] operator[=] identifier[mapId] operator[SEP] identifier[node] operator[SEP] identifier[nodeReference] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[offsets] operator[SEP] identifier[idx] operator[SEP] operator[=] identifier[offset] operator[SEP] identifier[offset] operator[+=] identifier[degree] operator[SEP] Keyword[if] operator[SEP] identifier[idx] operator[>] identifier[maxIdx] operator[SEP] identifier[maxIdx] operator[=] identifier[idx] operator[SEP] } Keyword[return] identifier[maxIdx] operator[<] identifier[offsets] operator[SEP] identifier[length] operator[-] Other[1] operator[?] identifier[Arrays] operator[SEP] identifier[copyOf] operator[SEP] identifier[offsets] , identifier[maxIdx] operator[+] Other[1] operator[SEP] operator[:] identifier[offsets] operator[SEP] } }
public static void start(String name) { if (!active) return; TimerNode root = new TimerNode(name, System.currentTimeMillis()); TimerStack stack = (TimerStack) curStack.get(); if (null == stack) curStack.set(new TimerStack(root)); else stack.push(root); }
class class_name[name] begin[{] method[start, return_type[void], modifier[public static], parameter[name]] begin[{] if[member[.active]] begin[{] return[None] else begin[{] None end[}] local_variable[type[TimerNode], root] local_variable[type[TimerStack], stack] if[binary_operation[literal[null], ==, member[.stack]]] begin[{] call[curStack.set, parameter[ClassCreator(arguments=[MemberReference(member=root, 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=TimerStack, sub_type=None))]] else begin[{] call[stack.push, parameter[member[.root]]] end[}] end[}] END[}]
Keyword[public] Keyword[static] Keyword[void] identifier[start] operator[SEP] identifier[String] identifier[name] operator[SEP] { Keyword[if] operator[SEP] operator[!] identifier[active] operator[SEP] Keyword[return] operator[SEP] identifier[TimerNode] identifier[root] operator[=] Keyword[new] identifier[TimerNode] operator[SEP] identifier[name] , identifier[System] operator[SEP] identifier[currentTimeMillis] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[TimerStack] identifier[stack] operator[=] operator[SEP] identifier[TimerStack] operator[SEP] identifier[curStack] operator[SEP] identifier[get] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] Other[null] operator[==] identifier[stack] operator[SEP] identifier[curStack] operator[SEP] identifier[set] operator[SEP] Keyword[new] identifier[TimerStack] operator[SEP] identifier[root] operator[SEP] operator[SEP] operator[SEP] Keyword[else] identifier[stack] operator[SEP] identifier[push] operator[SEP] identifier[root] operator[SEP] operator[SEP] }
public static Set<Symbol> extractUnique(RowExpression expression) { return ImmutableSet.copyOf(extractAll(expression).stream().map(variable -> new Symbol(variable.getName())).collect(toSet())); }
class class_name[name] begin[{] method[extractUnique, return_type[type[Set]], modifier[public static], parameter[expression]] begin[{] return[call[ImmutableSet.copyOf, parameter[call[.extractAll, parameter[member[.expression]]]]]] end[}] END[}]
Keyword[public] Keyword[static] identifier[Set] operator[<] identifier[Symbol] operator[>] identifier[extractUnique] operator[SEP] identifier[RowExpression] identifier[expression] operator[SEP] { Keyword[return] identifier[ImmutableSet] operator[SEP] identifier[copyOf] operator[SEP] identifier[extractAll] operator[SEP] identifier[expression] operator[SEP] operator[SEP] identifier[stream] operator[SEP] operator[SEP] operator[SEP] identifier[map] operator[SEP] identifier[variable] operator[->] Keyword[new] identifier[Symbol] operator[SEP] identifier[variable] operator[SEP] identifier[getName] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[collect] operator[SEP] identifier[toSet] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] }
protected ActionRequest createActionRequest( final String actionPath, final String[] actionPathChunks, final ActionRuntime actionRuntime, final Object action, final HttpServletRequest servletRequest, final HttpServletResponse servletResponse) { return new ActionRequest(this, actionPath, actionPathChunks, actionRuntime, action, servletRequest, servletResponse); }
class class_name[name] begin[{] method[createActionRequest, return_type[type[ActionRequest]], modifier[protected], parameter[actionPath, actionPathChunks, actionRuntime, action, servletRequest, servletResponse]] begin[{] return[ClassCreator(arguments=[This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[]), MemberReference(member=actionPath, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=actionPathChunks, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=actionRuntime, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=action, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=servletRequest, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=servletResponse, 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=ActionRequest, sub_type=None))] end[}] END[}]
Keyword[protected] identifier[ActionRequest] identifier[createActionRequest] operator[SEP] Keyword[final] identifier[String] identifier[actionPath] , Keyword[final] identifier[String] operator[SEP] operator[SEP] identifier[actionPathChunks] , Keyword[final] identifier[ActionRuntime] identifier[actionRuntime] , Keyword[final] identifier[Object] identifier[action] , Keyword[final] identifier[HttpServletRequest] identifier[servletRequest] , Keyword[final] identifier[HttpServletResponse] identifier[servletResponse] operator[SEP] { Keyword[return] Keyword[new] identifier[ActionRequest] operator[SEP] Keyword[this] , identifier[actionPath] , identifier[actionPathChunks] , identifier[actionRuntime] , identifier[action] , identifier[servletRequest] , identifier[servletResponse] operator[SEP] operator[SEP] }
public void addTokenRangeToCurrentBatchForCluster(String cluster, String placement, Collection<ScanRange> ranges) { PlanBatch batch = _clusterTails.get(cluster); if (batch == null) { batch = new PlanBatch(); _clusterHeads.put(cluster, batch); _clusterTails.put(cluster, batch); } batch.addPlanItem(new PlanItem(placement, ranges)); }
class class_name[name] begin[{] method[addTokenRangeToCurrentBatchForCluster, return_type[void], modifier[public], parameter[cluster, placement, ranges]] begin[{] local_variable[type[PlanBatch], batch] if[binary_operation[member[.batch], ==, literal[null]]] begin[{] assign[member[.batch], ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=PlanBatch, sub_type=None))] call[_clusterHeads.put, parameter[member[.cluster], member[.batch]]] call[_clusterTails.put, parameter[member[.cluster], member[.batch]]] else begin[{] None end[}] call[batch.addPlanItem, parameter[ClassCreator(arguments=[MemberReference(member=placement, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=ranges, 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=PlanItem, sub_type=None))]] end[}] END[}]
Keyword[public] Keyword[void] identifier[addTokenRangeToCurrentBatchForCluster] operator[SEP] identifier[String] identifier[cluster] , identifier[String] identifier[placement] , identifier[Collection] operator[<] identifier[ScanRange] operator[>] identifier[ranges] operator[SEP] { identifier[PlanBatch] identifier[batch] operator[=] identifier[_clusterTails] operator[SEP] identifier[get] operator[SEP] identifier[cluster] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[batch] operator[==] Other[null] operator[SEP] { identifier[batch] operator[=] Keyword[new] identifier[PlanBatch] operator[SEP] operator[SEP] operator[SEP] identifier[_clusterHeads] operator[SEP] identifier[put] operator[SEP] identifier[cluster] , identifier[batch] operator[SEP] operator[SEP] identifier[_clusterTails] operator[SEP] identifier[put] operator[SEP] identifier[cluster] , identifier[batch] operator[SEP] operator[SEP] } identifier[batch] operator[SEP] identifier[addPlanItem] operator[SEP] Keyword[new] identifier[PlanItem] operator[SEP] identifier[placement] , identifier[ranges] operator[SEP] operator[SEP] operator[SEP] }
public UserInfo getPeerAdmin(String orgName) throws NetworkConfigurationException { OrgInfo org = getOrganizationInfo(orgName); if (org == null) { throw new NetworkConfigurationException(format("Organization %s is not defined", orgName)); } return org.getPeerAdmin(); }
class class_name[name] begin[{] method[getPeerAdmin, return_type[type[UserInfo]], modifier[public], parameter[orgName]] begin[{] local_variable[type[OrgInfo], org] if[binary_operation[member[.org], ==, literal[null]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Organization %s is not defined"), MemberReference(member=orgName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=format, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=NetworkConfigurationException, sub_type=None)), label=None) else begin[{] None end[}] return[call[org.getPeerAdmin, parameter[]]] end[}] END[}]
Keyword[public] identifier[UserInfo] identifier[getPeerAdmin] operator[SEP] identifier[String] identifier[orgName] operator[SEP] Keyword[throws] identifier[NetworkConfigurationException] { identifier[OrgInfo] identifier[org] operator[=] identifier[getOrganizationInfo] operator[SEP] identifier[orgName] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[org] operator[==] Other[null] operator[SEP] { Keyword[throw] Keyword[new] identifier[NetworkConfigurationException] operator[SEP] identifier[format] operator[SEP] literal[String] , identifier[orgName] operator[SEP] operator[SEP] operator[SEP] } Keyword[return] identifier[org] operator[SEP] identifier[getPeerAdmin] operator[SEP] operator[SEP] operator[SEP] }
private String getDateString(Date value) { Calendar cal = DateHelper.popCalendar(value); int year = cal.get(Calendar.YEAR); int month = cal.get(Calendar.MONTH) + 1; int day = cal.get(Calendar.DAY_OF_MONTH); DateHelper.pushCalendar(cal); StringBuilder sb = new StringBuilder(8); sb.append(m_fourDigitFormat.format(year)); sb.append(m_twoDigitFormat.format(month)); sb.append(m_twoDigitFormat.format(day)); return (sb.toString()); }
class class_name[name] begin[{] method[getDateString, return_type[type[String]], modifier[private], parameter[value]] begin[{] local_variable[type[Calendar], cal] local_variable[type[int], year] local_variable[type[int], month] local_variable[type[int], day] call[DateHelper.pushCalendar, parameter[member[.cal]]] local_variable[type[StringBuilder], sb] call[sb.append, parameter[call[m_fourDigitFormat.format, parameter[member[.year]]]]] call[sb.append, parameter[call[m_twoDigitFormat.format, parameter[member[.month]]]]] call[sb.append, parameter[call[m_twoDigitFormat.format, parameter[member[.day]]]]] return[call[sb.toString, parameter[]]] end[}] END[}]
Keyword[private] identifier[String] identifier[getDateString] operator[SEP] identifier[Date] identifier[value] operator[SEP] { identifier[Calendar] identifier[cal] operator[=] identifier[DateHelper] operator[SEP] identifier[popCalendar] operator[SEP] identifier[value] operator[SEP] operator[SEP] Keyword[int] identifier[year] operator[=] identifier[cal] operator[SEP] identifier[get] operator[SEP] identifier[Calendar] operator[SEP] identifier[YEAR] operator[SEP] operator[SEP] Keyword[int] identifier[month] operator[=] identifier[cal] operator[SEP] identifier[get] operator[SEP] identifier[Calendar] operator[SEP] identifier[MONTH] operator[SEP] operator[+] Other[1] operator[SEP] Keyword[int] identifier[day] operator[=] identifier[cal] operator[SEP] identifier[get] operator[SEP] identifier[Calendar] operator[SEP] identifier[DAY_OF_MONTH] operator[SEP] operator[SEP] identifier[DateHelper] operator[SEP] identifier[pushCalendar] operator[SEP] identifier[cal] operator[SEP] operator[SEP] identifier[StringBuilder] identifier[sb] operator[=] Keyword[new] identifier[StringBuilder] operator[SEP] Other[8] operator[SEP] operator[SEP] identifier[sb] operator[SEP] identifier[append] operator[SEP] identifier[m_fourDigitFormat] operator[SEP] identifier[format] operator[SEP] identifier[year] operator[SEP] operator[SEP] operator[SEP] identifier[sb] operator[SEP] identifier[append] operator[SEP] identifier[m_twoDigitFormat] operator[SEP] identifier[format] operator[SEP] identifier[month] operator[SEP] operator[SEP] operator[SEP] identifier[sb] operator[SEP] identifier[append] operator[SEP] identifier[m_twoDigitFormat] operator[SEP] identifier[format] operator[SEP] identifier[day] operator[SEP] operator[SEP] operator[SEP] Keyword[return] operator[SEP] identifier[sb] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] operator[SEP] }
public static void assertNotNull(final Object object, final String message) { if (object == null) { throw new NullPointerException(message == null ? "Object is null" : message); } }
class class_name[name] begin[{] method[assertNotNull, return_type[void], modifier[public static], parameter[object, message]] begin[{] if[binary_operation[member[.object], ==, literal[null]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[TernaryExpression(condition=BinaryOperation(operandl=MemberReference(member=message, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator===), if_false=MemberReference(member=message, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), if_true=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Object is null"))], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=NullPointerException, sub_type=None)), label=None) else begin[{] None end[}] end[}] END[}]
Keyword[public] Keyword[static] Keyword[void] identifier[assertNotNull] operator[SEP] Keyword[final] identifier[Object] identifier[object] , Keyword[final] identifier[String] identifier[message] operator[SEP] { Keyword[if] operator[SEP] identifier[object] operator[==] Other[null] operator[SEP] { Keyword[throw] Keyword[new] identifier[NullPointerException] operator[SEP] identifier[message] operator[==] Other[null] operator[?] literal[String] operator[:] identifier[message] operator[SEP] operator[SEP] } }
public void removeSubtree( Tree<T> subtree ) { if ( children.remove( subtree ) ) { subtree.parent = null; } }
class class_name[name] begin[{] method[removeSubtree, return_type[void], modifier[public], parameter[subtree]] begin[{] if[call[children.remove, parameter[member[.subtree]]]] begin[{] assign[member[subtree.parent], literal[null]] else begin[{] None end[}] end[}] END[}]
Keyword[public] Keyword[void] identifier[removeSubtree] operator[SEP] identifier[Tree] operator[<] identifier[T] operator[>] identifier[subtree] operator[SEP] { Keyword[if] operator[SEP] identifier[children] operator[SEP] identifier[remove] operator[SEP] identifier[subtree] operator[SEP] operator[SEP] { identifier[subtree] operator[SEP] identifier[parent] operator[=] Other[null] operator[SEP] } }
public ResumeSessionResponse resumeSession(ResumeSessionRequest request) { checkNotNull(request, "The parameter request should NOT be null."); checkStringNotEmpty(request.getSessionId(), "The parameter sessionId should NOT be null or empty string."); InternalRequest internalRequest = createRequest(HttpMethodName.PUT, request, LIVE_SESSION, request.getSessionId()); internalRequest.addParameter(RESUME, null); return invokeHttpClient(internalRequest, ResumeSessionResponse.class); }
class class_name[name] begin[{] method[resumeSession, return_type[type[ResumeSessionResponse]], modifier[public], parameter[request]] begin[{] call[.checkNotNull, parameter[member[.request], literal["The parameter request should NOT be null."]]] call[.checkStringNotEmpty, parameter[call[request.getSessionId, parameter[]], literal["The parameter sessionId should NOT be null or empty string."]]] local_variable[type[InternalRequest], internalRequest] call[internalRequest.addParameter, parameter[member[.RESUME], literal[null]]] return[call[.invokeHttpClient, parameter[member[.internalRequest], ClassReference(postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=ResumeSessionResponse, sub_type=None))]]] end[}] END[}]
Keyword[public] identifier[ResumeSessionResponse] identifier[resumeSession] operator[SEP] identifier[ResumeSessionRequest] identifier[request] operator[SEP] { identifier[checkNotNull] operator[SEP] identifier[request] , literal[String] operator[SEP] operator[SEP] identifier[checkStringNotEmpty] operator[SEP] identifier[request] operator[SEP] identifier[getSessionId] operator[SEP] operator[SEP] , literal[String] operator[SEP] operator[SEP] identifier[InternalRequest] identifier[internalRequest] operator[=] identifier[createRequest] operator[SEP] identifier[HttpMethodName] operator[SEP] identifier[PUT] , identifier[request] , identifier[LIVE_SESSION] , identifier[request] operator[SEP] identifier[getSessionId] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[internalRequest] operator[SEP] identifier[addParameter] operator[SEP] identifier[RESUME] , Other[null] operator[SEP] operator[SEP] Keyword[return] identifier[invokeHttpClient] operator[SEP] identifier[internalRequest] , identifier[ResumeSessionResponse] operator[SEP] Keyword[class] operator[SEP] operator[SEP] }
public ServiceFuture<SkuInfosInner> listSkusAsync(final ServiceCallback<SkuInfosInner> serviceCallback) { return ServiceFuture.fromResponse(listSkusWithServiceResponseAsync(), serviceCallback); }
class class_name[name] begin[{] method[listSkusAsync, return_type[type[ServiceFuture]], modifier[public], parameter[serviceCallback]] begin[{] return[call[ServiceFuture.fromResponse, parameter[call[.listSkusWithServiceResponseAsync, parameter[]], member[.serviceCallback]]]] end[}] END[}]
Keyword[public] identifier[ServiceFuture] operator[<] identifier[SkuInfosInner] operator[>] identifier[listSkusAsync] operator[SEP] Keyword[final] identifier[ServiceCallback] operator[<] identifier[SkuInfosInner] operator[>] identifier[serviceCallback] operator[SEP] { Keyword[return] identifier[ServiceFuture] operator[SEP] identifier[fromResponse] operator[SEP] identifier[listSkusWithServiceResponseAsync] operator[SEP] operator[SEP] , identifier[serviceCallback] operator[SEP] operator[SEP] }