Datasets:
CodeT5SmallCAPS
/
CAPS_Java

Dataset card Data Studio Files
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1
code
stringlengths
63
466k
code_sememe
stringlengths
141
3.79M
token_type
stringlengths
274
1.23M
private int processedFailedNotifications() throws CommunicationException, KeystoreException { if (useEnhancedNotificationFormat) { logger.debug("Reading responses"); int responsesReceived = ResponsePacketReader.processResponses(this); while (responsesReceived > 0) { PushedNotification skippedNotification = null; List<PushedNotification> notificationsToResend = new ArrayList<PushedNotification>(); boolean foundFirstFail = false; for (PushedNotification notification : pushedNotifications.values()) { if (foundFirstFail || !notification.isSuccessful()) { if (foundFirstFail) notificationsToResend.add(notification); else { foundFirstFail = true; skippedNotification = notification; } } } pushedNotifications.clear(); int toResend = notificationsToResend.size(); logger.debug("Found " + toResend + " notifications that must be re-sent"); if (toResend > 0) { logger.debug("Restarting connection to resend notifications"); restartPreviousConnection(); for (PushedNotification pushedNotification : notificationsToResend) { sendNotification(pushedNotification, false); } } int remaining = responsesReceived = ResponsePacketReader.processResponses(this); if (remaining == 0) { logger.debug("No notifications remaining to be resent"); return 0; } } return responsesReceived; } else { logger.debug("Not reading responses because using simple notification format"); return 0; } }
class class_name[name] begin[{] method[processedFailedNotifications, return_type[type[int]], modifier[private], parameter[]] begin[{] if[member[.useEnhancedNotificationFormat]] begin[{] call[logger.debug, parameter[literal["Reading responses"]]] local_variable[type[int], responsesReceived] while[binary_operation[member[.responsesReceived], >, literal[0]]] begin[{] local_variable[type[PushedNotification], skippedNotification] local_variable[type[List], notificationsToResend] local_variable[type[boolean], foundFirstFail] ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=foundFirstFail, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MethodInvocation(arguments=[], member=isSuccessful, postfix_operators=[], prefix_operators=['!'], qualifier=notification, selectors=[], type_arguments=None), operator=||), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[IfStatement(condition=MemberReference(member=foundFirstFail, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), else_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=foundFirstFail, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=skippedNotification, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MemberReference(member=notification, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), label=None)]), label=None, then_statement=StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=notification, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=add, postfix_operators=[], prefix_operators=[], qualifier=notificationsToResend, selectors=[], type_arguments=None), label=None))]))]), control=EnhancedForControl(iterable=MethodInvocation(arguments=[], member=values, postfix_operators=[], prefix_operators=[], qualifier=pushedNotifications, selectors=[], type_arguments=None), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=notification)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=PushedNotification, sub_type=None))), label=None) call[pushedNotifications.clear, parameter[]] local_variable[type[int], toResend] call[logger.debug, parameter[binary_operation[binary_operation[literal["Found "], +, member[.toResend]], +, literal[" notifications that must be re-sent"]]]] if[binary_operation[member[.toResend], >, literal[0]]] begin[{] call[logger.debug, parameter[literal["Restarting connection to resend notifications"]]] call[.restartPreviousConnection, parameter[]] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=pushedNotification, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=false)], member=sendNotification, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MemberReference(member=notificationsToResend, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=pushedNotification)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=PushedNotification, sub_type=None))), label=None) else begin[{] None end[}] local_variable[type[int], remaining] if[binary_operation[member[.remaining], ==, literal[0]]] begin[{] call[logger.debug, parameter[literal["No notifications remaining to be resent"]]] return[literal[0]] else begin[{] None end[}] end[}] return[member[.responsesReceived]] else begin[{] call[logger.debug, parameter[literal["Not reading responses because using simple notification format"]]] return[literal[0]] end[}] end[}] END[}]
Keyword[private] Keyword[int] identifier[processedFailedNotifications] operator[SEP] operator[SEP] Keyword[throws] identifier[CommunicationException] , identifier[KeystoreException] { Keyword[if] operator[SEP] identifier[useEnhancedNotificationFormat] operator[SEP] { identifier[logger] operator[SEP] identifier[debug] operator[SEP] literal[String] operator[SEP] operator[SEP] Keyword[int] identifier[responsesReceived] operator[=] identifier[ResponsePacketReader] operator[SEP] identifier[processResponses] operator[SEP] Keyword[this] operator[SEP] operator[SEP] Keyword[while] operator[SEP] identifier[responsesReceived] operator[>] Other[0] operator[SEP] { identifier[PushedNotification] identifier[skippedNotification] operator[=] Other[null] operator[SEP] identifier[List] operator[<] identifier[PushedNotification] operator[>] identifier[notificationsToResend] operator[=] Keyword[new] identifier[ArrayList] operator[<] identifier[PushedNotification] operator[>] operator[SEP] operator[SEP] operator[SEP] Keyword[boolean] identifier[foundFirstFail] operator[=] literal[boolean] operator[SEP] Keyword[for] operator[SEP] identifier[PushedNotification] identifier[notification] operator[:] identifier[pushedNotifications] operator[SEP] identifier[values] operator[SEP] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] identifier[foundFirstFail] operator[||] operator[!] identifier[notification] operator[SEP] identifier[isSuccessful] operator[SEP] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] identifier[foundFirstFail] operator[SEP] identifier[notificationsToResend] operator[SEP] identifier[add] operator[SEP] identifier[notification] operator[SEP] operator[SEP] Keyword[else] { identifier[foundFirstFail] operator[=] literal[boolean] operator[SEP] identifier[skippedNotification] operator[=] identifier[notification] operator[SEP] } } } identifier[pushedNotifications] operator[SEP] identifier[clear] operator[SEP] operator[SEP] operator[SEP] Keyword[int] identifier[toResend] operator[=] identifier[notificationsToResend] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] identifier[logger] operator[SEP] identifier[debug] operator[SEP] literal[String] operator[+] identifier[toResend] operator[+] literal[String] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[toResend] operator[>] Other[0] operator[SEP] { identifier[logger] operator[SEP] identifier[debug] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[restartPreviousConnection] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] identifier[PushedNotification] identifier[pushedNotification] operator[:] identifier[notificationsToResend] operator[SEP] { identifier[sendNotification] operator[SEP] identifier[pushedNotification] , literal[boolean] operator[SEP] operator[SEP] } } Keyword[int] identifier[remaining] operator[=] identifier[responsesReceived] operator[=] identifier[ResponsePacketReader] operator[SEP] identifier[processResponses] operator[SEP] Keyword[this] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[remaining] operator[==] Other[0] operator[SEP] { identifier[logger] operator[SEP] identifier[debug] operator[SEP] literal[String] operator[SEP] operator[SEP] Keyword[return] Other[0] operator[SEP] } } Keyword[return] identifier[responsesReceived] operator[SEP] } Keyword[else] { identifier[logger] operator[SEP] identifier[debug] operator[SEP] literal[String] operator[SEP] operator[SEP] Keyword[return] Other[0] operator[SEP] } }
public String getStackTraceInfo(Throwable aThrowable) { final Writer localWriter = new StringWriter(); final PrintWriter printWriter = new PrintWriter(localWriter); aThrowable.printStackTrace(printWriter); return localWriter.toString(); }
class class_name[name] begin[{] method[getStackTraceInfo, return_type[type[String]], modifier[public], parameter[aThrowable]] begin[{] local_variable[type[Writer], localWriter] local_variable[type[PrintWriter], printWriter] call[aThrowable.printStackTrace, parameter[member[.printWriter]]] return[call[localWriter.toString, parameter[]]] end[}] END[}]
Keyword[public] identifier[String] identifier[getStackTraceInfo] operator[SEP] identifier[Throwable] identifier[aThrowable] operator[SEP] { Keyword[final] identifier[Writer] identifier[localWriter] operator[=] Keyword[new] identifier[StringWriter] operator[SEP] operator[SEP] operator[SEP] Keyword[final] identifier[PrintWriter] identifier[printWriter] operator[=] Keyword[new] identifier[PrintWriter] operator[SEP] identifier[localWriter] operator[SEP] operator[SEP] identifier[aThrowable] operator[SEP] identifier[printStackTrace] operator[SEP] identifier[printWriter] operator[SEP] operator[SEP] Keyword[return] identifier[localWriter] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] }
public void marshall(Address address, ProtocolMarshaller protocolMarshaller) { if (address == null) { throw new SdkClientException("Invalid argument passed to marshall(...)"); } try { protocolMarshaller.marshall(address.getAddressId(), ADDRESSID_BINDING); protocolMarshaller.marshall(address.getName(), NAME_BINDING); protocolMarshaller.marshall(address.getCompany(), COMPANY_BINDING); protocolMarshaller.marshall(address.getStreet1(), STREET1_BINDING); protocolMarshaller.marshall(address.getStreet2(), STREET2_BINDING); protocolMarshaller.marshall(address.getStreet3(), STREET3_BINDING); protocolMarshaller.marshall(address.getCity(), CITY_BINDING); protocolMarshaller.marshall(address.getStateOrProvince(), STATEORPROVINCE_BINDING); protocolMarshaller.marshall(address.getPrefectureOrDistrict(), PREFECTUREORDISTRICT_BINDING); protocolMarshaller.marshall(address.getLandmark(), LANDMARK_BINDING); protocolMarshaller.marshall(address.getCountry(), COUNTRY_BINDING); protocolMarshaller.marshall(address.getPostalCode(), POSTALCODE_BINDING); protocolMarshaller.marshall(address.getPhoneNumber(), PHONENUMBER_BINDING); protocolMarshaller.marshall(address.getIsRestricted(), ISRESTRICTED_BINDING); } catch (Exception e) { throw new SdkClientException("Unable to marshall request to JSON: " + e.getMessage(), e); } }
class class_name[name] begin[{] method[marshall, return_type[void], modifier[public], parameter[address, protocolMarshaller]] begin[{] if[binary_operation[member[.address], ==, literal[null]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Invalid argument passed to marshall(...)")], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=SdkClientException, sub_type=None)), label=None) else begin[{] None end[}] TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getAddressId, postfix_operators=[], prefix_operators=[], qualifier=address, selectors=[], type_arguments=None), MemberReference(member=ADDRESSID_BINDING, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=marshall, postfix_operators=[], prefix_operators=[], qualifier=protocolMarshaller, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getName, postfix_operators=[], prefix_operators=[], qualifier=address, selectors=[], type_arguments=None), MemberReference(member=NAME_BINDING, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=marshall, postfix_operators=[], prefix_operators=[], qualifier=protocolMarshaller, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getCompany, postfix_operators=[], prefix_operators=[], qualifier=address, selectors=[], type_arguments=None), MemberReference(member=COMPANY_BINDING, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=marshall, postfix_operators=[], prefix_operators=[], qualifier=protocolMarshaller, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getStreet1, postfix_operators=[], prefix_operators=[], qualifier=address, selectors=[], type_arguments=None), MemberReference(member=STREET1_BINDING, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=marshall, postfix_operators=[], prefix_operators=[], qualifier=protocolMarshaller, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getStreet2, postfix_operators=[], prefix_operators=[], qualifier=address, selectors=[], type_arguments=None), MemberReference(member=STREET2_BINDING, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=marshall, postfix_operators=[], prefix_operators=[], qualifier=protocolMarshaller, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getStreet3, postfix_operators=[], prefix_operators=[], qualifier=address, selectors=[], type_arguments=None), MemberReference(member=STREET3_BINDING, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=marshall, postfix_operators=[], prefix_operators=[], qualifier=protocolMarshaller, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getCity, postfix_operators=[], prefix_operators=[], qualifier=address, selectors=[], type_arguments=None), MemberReference(member=CITY_BINDING, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=marshall, postfix_operators=[], prefix_operators=[], qualifier=protocolMarshaller, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getStateOrProvince, postfix_operators=[], prefix_operators=[], qualifier=address, selectors=[], type_arguments=None), MemberReference(member=STATEORPROVINCE_BINDING, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=marshall, postfix_operators=[], prefix_operators=[], qualifier=protocolMarshaller, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getPrefectureOrDistrict, postfix_operators=[], prefix_operators=[], qualifier=address, selectors=[], type_arguments=None), MemberReference(member=PREFECTUREORDISTRICT_BINDING, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=marshall, postfix_operators=[], prefix_operators=[], qualifier=protocolMarshaller, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getLandmark, postfix_operators=[], prefix_operators=[], qualifier=address, selectors=[], type_arguments=None), MemberReference(member=LANDMARK_BINDING, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=marshall, postfix_operators=[], prefix_operators=[], qualifier=protocolMarshaller, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getCountry, postfix_operators=[], prefix_operators=[], qualifier=address, selectors=[], type_arguments=None), MemberReference(member=COUNTRY_BINDING, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=marshall, postfix_operators=[], prefix_operators=[], qualifier=protocolMarshaller, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getPostalCode, postfix_operators=[], prefix_operators=[], qualifier=address, selectors=[], type_arguments=None), MemberReference(member=POSTALCODE_BINDING, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=marshall, postfix_operators=[], prefix_operators=[], qualifier=protocolMarshaller, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getPhoneNumber, postfix_operators=[], prefix_operators=[], qualifier=address, selectors=[], type_arguments=None), MemberReference(member=PHONENUMBER_BINDING, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=marshall, postfix_operators=[], prefix_operators=[], qualifier=protocolMarshaller, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getIsRestricted, postfix_operators=[], prefix_operators=[], qualifier=address, selectors=[], type_arguments=None), MemberReference(member=ISRESTRICTED_BINDING, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=marshall, postfix_operators=[], prefix_operators=[], qualifier=protocolMarshaller, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Unable to marshall request to JSON: "), operandr=MethodInvocation(arguments=[], member=getMessage, postfix_operators=[], prefix_operators=[], qualifier=e, selectors=[], type_arguments=None), operator=+), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=SdkClientException, sub_type=None)), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['Exception']))], finally_block=None, label=None, resources=None) end[}] END[}]
Keyword[public] Keyword[void] identifier[marshall] operator[SEP] identifier[Address] identifier[address] , identifier[ProtocolMarshaller] identifier[protocolMarshaller] operator[SEP] { Keyword[if] operator[SEP] identifier[address] operator[==] Other[null] operator[SEP] { Keyword[throw] Keyword[new] identifier[SdkClientException] operator[SEP] literal[String] operator[SEP] operator[SEP] } Keyword[try] { identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[address] operator[SEP] identifier[getAddressId] operator[SEP] operator[SEP] , identifier[ADDRESSID_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[address] operator[SEP] identifier[getName] operator[SEP] operator[SEP] , identifier[NAME_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[address] operator[SEP] identifier[getCompany] operator[SEP] operator[SEP] , identifier[COMPANY_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[address] operator[SEP] identifier[getStreet1] operator[SEP] operator[SEP] , identifier[STREET1_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[address] operator[SEP] identifier[getStreet2] operator[SEP] operator[SEP] , identifier[STREET2_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[address] operator[SEP] identifier[getStreet3] operator[SEP] operator[SEP] , identifier[STREET3_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[address] operator[SEP] identifier[getCity] operator[SEP] operator[SEP] , identifier[CITY_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[address] operator[SEP] identifier[getStateOrProvince] operator[SEP] operator[SEP] , identifier[STATEORPROVINCE_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[address] operator[SEP] identifier[getPrefectureOrDistrict] operator[SEP] operator[SEP] , identifier[PREFECTUREORDISTRICT_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[address] operator[SEP] identifier[getLandmark] operator[SEP] operator[SEP] , identifier[LANDMARK_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[address] operator[SEP] identifier[getCountry] operator[SEP] operator[SEP] , identifier[COUNTRY_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[address] operator[SEP] identifier[getPostalCode] operator[SEP] operator[SEP] , identifier[POSTALCODE_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[address] operator[SEP] identifier[getPhoneNumber] operator[SEP] operator[SEP] , identifier[PHONENUMBER_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[address] operator[SEP] identifier[getIsRestricted] operator[SEP] operator[SEP] , identifier[ISRESTRICTED_BINDING] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[Exception] identifier[e] operator[SEP] { Keyword[throw] Keyword[new] identifier[SdkClientException] operator[SEP] literal[String] operator[+] identifier[e] operator[SEP] identifier[getMessage] operator[SEP] operator[SEP] , identifier[e] operator[SEP] operator[SEP] } }
private void queueEventToDB(final Context context, final JSONObject event, final int type) { DBAdapter.Table table = (type == Constants.PROFILE_EVENT) ? DBAdapter.Table.PROFILE_EVENTS : DBAdapter.Table.EVENTS; queueEventInternal(context,event,table); }
class class_name[name] begin[{] method[queueEventToDB, return_type[void], modifier[private], parameter[context, event, type]] begin[{] local_variable[type[DBAdapter], table] call[.queueEventInternal, parameter[member[.context], member[.event], member[.table]]] end[}] END[}]
Keyword[private] Keyword[void] identifier[queueEventToDB] operator[SEP] Keyword[final] identifier[Context] identifier[context] , Keyword[final] identifier[JSONObject] identifier[event] , Keyword[final] Keyword[int] identifier[type] operator[SEP] { identifier[DBAdapter] operator[SEP] identifier[Table] identifier[table] operator[=] operator[SEP] identifier[type] operator[==] identifier[Constants] operator[SEP] identifier[PROFILE_EVENT] operator[SEP] operator[?] identifier[DBAdapter] operator[SEP] identifier[Table] operator[SEP] identifier[PROFILE_EVENTS] operator[:] identifier[DBAdapter] operator[SEP] identifier[Table] operator[SEP] identifier[EVENTS] operator[SEP] identifier[queueEventInternal] operator[SEP] identifier[context] , identifier[event] , identifier[table] operator[SEP] operator[SEP] }
public JmxMessage operation(String name) { if (mbeanInvocation == null) { throw new CitrusRuntimeException("Invalid access to operation for JMX message"); } ManagedBeanInvocation.Operation operation = new ManagedBeanInvocation.Operation(); operation.setName(name); mbeanInvocation.setOperation(operation); return this; }
class class_name[name] begin[{] method[operation, return_type[type[JmxMessage]], modifier[public], parameter[name]] begin[{] if[binary_operation[member[.mbeanInvocation], ==, literal[null]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Invalid access to operation for JMX message")], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=CitrusRuntimeException, sub_type=None)), label=None) else begin[{] None end[}] local_variable[type[ManagedBeanInvocation], operation] call[operation.setName, parameter[member[.name]]] call[mbeanInvocation.setOperation, parameter[member[.operation]]] return[THIS[]] end[}] END[}]
Keyword[public] identifier[JmxMessage] identifier[operation] operator[SEP] identifier[String] identifier[name] operator[SEP] { Keyword[if] operator[SEP] identifier[mbeanInvocation] operator[==] Other[null] operator[SEP] { Keyword[throw] Keyword[new] identifier[CitrusRuntimeException] operator[SEP] literal[String] operator[SEP] operator[SEP] } identifier[ManagedBeanInvocation] operator[SEP] identifier[Operation] identifier[operation] operator[=] Keyword[new] identifier[ManagedBeanInvocation] operator[SEP] identifier[Operation] operator[SEP] operator[SEP] operator[SEP] identifier[operation] operator[SEP] identifier[setName] operator[SEP] identifier[name] operator[SEP] operator[SEP] identifier[mbeanInvocation] operator[SEP] identifier[setOperation] operator[SEP] identifier[operation] operator[SEP] operator[SEP] Keyword[return] Keyword[this] operator[SEP] }
public <R> MapOperator<T, R> map(MapFunction<T, R> mapper) { if (mapper == null) { throw new NullPointerException("Map function must not be null."); } String callLocation = Utils.getCallLocationName(); TypeInformation<R> resultType = TypeExtractor.getMapReturnTypes(mapper, getType(), callLocation, true); return new MapOperator<>(this, resultType, clean(mapper), callLocation); }
class class_name[name] begin[{] method[map, return_type[type[MapOperator]], modifier[public], parameter[mapper]] begin[{] if[binary_operation[member[.mapper], ==, literal[null]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Map function must not be null.")], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=NullPointerException, sub_type=None)), label=None) else begin[{] None end[}] local_variable[type[String], callLocation] local_variable[type[TypeInformation], resultType] return[ClassCreator(arguments=[This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[]), MemberReference(member=resultType, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MethodInvocation(arguments=[MemberReference(member=mapper, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=clean, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), MemberReference(member=callLocation, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=[], dimensions=None, name=MapOperator, sub_type=None))] end[}] END[}]
Keyword[public] operator[<] identifier[R] operator[>] identifier[MapOperator] operator[<] identifier[T] , identifier[R] operator[>] identifier[map] operator[SEP] identifier[MapFunction] operator[<] identifier[T] , identifier[R] operator[>] identifier[mapper] operator[SEP] { Keyword[if] operator[SEP] identifier[mapper] operator[==] Other[null] operator[SEP] { Keyword[throw] Keyword[new] identifier[NullPointerException] operator[SEP] literal[String] operator[SEP] operator[SEP] } identifier[String] identifier[callLocation] operator[=] identifier[Utils] operator[SEP] identifier[getCallLocationName] operator[SEP] operator[SEP] operator[SEP] identifier[TypeInformation] operator[<] identifier[R] operator[>] identifier[resultType] operator[=] identifier[TypeExtractor] operator[SEP] identifier[getMapReturnTypes] operator[SEP] identifier[mapper] , identifier[getType] operator[SEP] operator[SEP] , identifier[callLocation] , literal[boolean] operator[SEP] operator[SEP] Keyword[return] Keyword[new] identifier[MapOperator] operator[<] operator[>] operator[SEP] Keyword[this] , identifier[resultType] , identifier[clean] operator[SEP] identifier[mapper] operator[SEP] , identifier[callLocation] operator[SEP] operator[SEP] }
@Nullable public static List<DruidExpression> toDruidExpressions( final PlannerContext plannerContext, final RowSignature rowSignature, final List<RexNode> rexNodes ) { final List<DruidExpression> retVal = new ArrayList<>(rexNodes.size()); for (RexNode rexNode : rexNodes) { final DruidExpression druidExpression = toDruidExpression(plannerContext, rowSignature, rexNode); if (druidExpression == null) { return null; } retVal.add(druidExpression); } return retVal; }
class class_name[name] begin[{] method[toDruidExpressions, return_type[type[List]], modifier[public static], parameter[plannerContext, rowSignature, rexNodes]] begin[{] local_variable[type[List], retVal] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=plannerContext, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=rowSignature, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=rexNode, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=toDruidExpression, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), name=druidExpression)], modifiers={'final'}, type=ReferenceType(arguments=None, dimensions=[], name=DruidExpression, sub_type=None)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=druidExpression, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator===), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[ReturnStatement(expression=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), label=None)])), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=druidExpression, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=add, postfix_operators=[], prefix_operators=[], qualifier=retVal, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MemberReference(member=rexNodes, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=rexNode)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=RexNode, sub_type=None))), label=None) return[member[.retVal]] end[}] END[}]
annotation[@] identifier[Nullable] Keyword[public] Keyword[static] identifier[List] operator[<] identifier[DruidExpression] operator[>] identifier[toDruidExpressions] operator[SEP] Keyword[final] identifier[PlannerContext] identifier[plannerContext] , Keyword[final] identifier[RowSignature] identifier[rowSignature] , Keyword[final] identifier[List] operator[<] identifier[RexNode] operator[>] identifier[rexNodes] operator[SEP] { Keyword[final] identifier[List] operator[<] identifier[DruidExpression] operator[>] identifier[retVal] operator[=] Keyword[new] identifier[ArrayList] operator[<] operator[>] operator[SEP] identifier[rexNodes] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] identifier[RexNode] identifier[rexNode] operator[:] identifier[rexNodes] operator[SEP] { Keyword[final] identifier[DruidExpression] identifier[druidExpression] operator[=] identifier[toDruidExpression] operator[SEP] identifier[plannerContext] , identifier[rowSignature] , identifier[rexNode] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[druidExpression] operator[==] Other[null] operator[SEP] { Keyword[return] Other[null] operator[SEP] } identifier[retVal] operator[SEP] identifier[add] operator[SEP] identifier[druidExpression] operator[SEP] operator[SEP] } Keyword[return] identifier[retVal] operator[SEP] }
@Override public JobMasterClientContext build() { if (mMasterInquireClient == null) { mMasterInquireClient = MasterInquireClient.Factory.createForJobMaster(mContext.getConf()); } return new JobMasterClientContext(mContext, mMasterInquireClient); }
class class_name[name] begin[{] method[build, return_type[type[JobMasterClientContext]], modifier[public], parameter[]] begin[{] if[binary_operation[member[.mMasterInquireClient], ==, literal[null]]] begin[{] assign[member[.mMasterInquireClient], call[MasterInquireClient.Factory.createForJobMaster, parameter[call[mContext.getConf, parameter[]]]]] else begin[{] None end[}] return[ClassCreator(arguments=[MemberReference(member=mContext, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=mMasterInquireClient, 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=JobMasterClientContext, sub_type=None))] end[}] END[}]
annotation[@] identifier[Override] Keyword[public] identifier[JobMasterClientContext] identifier[build] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] identifier[mMasterInquireClient] operator[==] Other[null] operator[SEP] { identifier[mMasterInquireClient] operator[=] identifier[MasterInquireClient] operator[SEP] identifier[Factory] operator[SEP] identifier[createForJobMaster] operator[SEP] identifier[mContext] operator[SEP] identifier[getConf] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[return] Keyword[new] identifier[JobMasterClientContext] operator[SEP] identifier[mContext] , identifier[mMasterInquireClient] operator[SEP] operator[SEP] }
public void marshall(StopQueryRequest stopQueryRequest, ProtocolMarshaller protocolMarshaller) { if (stopQueryRequest == null) { throw new SdkClientException("Invalid argument passed to marshall(...)"); } try { protocolMarshaller.marshall(stopQueryRequest.getQueryId(), QUERYID_BINDING); } catch (Exception e) { throw new SdkClientException("Unable to marshall request to JSON: " + e.getMessage(), e); } }
class class_name[name] begin[{] method[marshall, return_type[void], modifier[public], parameter[stopQueryRequest, protocolMarshaller]] begin[{] if[binary_operation[member[.stopQueryRequest], ==, literal[null]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Invalid argument passed to marshall(...)")], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=SdkClientException, sub_type=None)), label=None) else begin[{] None end[}] TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getQueryId, postfix_operators=[], prefix_operators=[], qualifier=stopQueryRequest, selectors=[], type_arguments=None), MemberReference(member=QUERYID_BINDING, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=marshall, postfix_operators=[], prefix_operators=[], qualifier=protocolMarshaller, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Unable to marshall request to JSON: "), operandr=MethodInvocation(arguments=[], member=getMessage, postfix_operators=[], prefix_operators=[], qualifier=e, selectors=[], type_arguments=None), operator=+), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=SdkClientException, sub_type=None)), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['Exception']))], finally_block=None, label=None, resources=None) end[}] END[}]
Keyword[public] Keyword[void] identifier[marshall] operator[SEP] identifier[StopQueryRequest] identifier[stopQueryRequest] , identifier[ProtocolMarshaller] identifier[protocolMarshaller] operator[SEP] { Keyword[if] operator[SEP] identifier[stopQueryRequest] operator[==] Other[null] operator[SEP] { Keyword[throw] Keyword[new] identifier[SdkClientException] operator[SEP] literal[String] operator[SEP] operator[SEP] } Keyword[try] { identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[stopQueryRequest] operator[SEP] identifier[getQueryId] operator[SEP] operator[SEP] , identifier[QUERYID_BINDING] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[Exception] identifier[e] operator[SEP] { Keyword[throw] Keyword[new] identifier[SdkClientException] operator[SEP] literal[String] operator[+] identifier[e] operator[SEP] identifier[getMessage] operator[SEP] operator[SEP] , identifier[e] operator[SEP] operator[SEP] } }
@BetaApi public final Operation insertInstance(String zone, Instance instanceResource) { InsertInstanceHttpRequest request = InsertInstanceHttpRequest.newBuilder() .setZone(zone) .setInstanceResource(instanceResource) .build(); return insertInstance(request); }
class class_name[name] begin[{] method[insertInstance, return_type[type[Operation]], modifier[final public], parameter[zone, instanceResource]] begin[{] local_variable[type[InsertInstanceHttpRequest], request] return[call[.insertInstance, parameter[member[.request]]]] end[}] END[}]
annotation[@] identifier[BetaApi] Keyword[public] Keyword[final] identifier[Operation] identifier[insertInstance] operator[SEP] identifier[String] identifier[zone] , identifier[Instance] identifier[instanceResource] operator[SEP] { identifier[InsertInstanceHttpRequest] identifier[request] operator[=] identifier[InsertInstanceHttpRequest] operator[SEP] identifier[newBuilder] operator[SEP] operator[SEP] operator[SEP] identifier[setZone] operator[SEP] identifier[zone] operator[SEP] operator[SEP] identifier[setInstanceResource] operator[SEP] identifier[instanceResource] operator[SEP] operator[SEP] identifier[build] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[insertInstance] operator[SEP] identifier[request] operator[SEP] operator[SEP] }
public List<FlowNode> getEnteringNodes() { if (enteringNodes == null) { enteringNodes = new ArrayList<FlowNode>(); Direction[] orderedDirs = Direction.getOrderedDirs(); for( Direction direction : orderedDirs ) { switch( direction ) { case E: if (eFlow == Direction.E.getEnteringFlow()) { int newCol = col + direction.col; int newRow = row + direction.row; FlowNode node = new FlowNode(gridIter, cols, rows, newCol, newRow); enteringNodes.add(node); } break; case N: if (nFlow == Direction.N.getEnteringFlow()) { int newCol = col + direction.col; int newRow = row + direction.row; FlowNode node = new FlowNode(gridIter, cols, rows, newCol, newRow); enteringNodes.add(node); } break; case W: if (wFlow == Direction.W.getEnteringFlow()) { int newCol = col + direction.col; int newRow = row + direction.row; FlowNode node = new FlowNode(gridIter, cols, rows, newCol, newRow); enteringNodes.add(node); } break; case S: if (sFlow == Direction.S.getEnteringFlow()) { int newCol = col + direction.col; int newRow = row + direction.row; FlowNode node = new FlowNode(gridIter, cols, rows, newCol, newRow); enteringNodes.add(node); } break; case EN: if (enFlow == Direction.EN.getEnteringFlow()) { int newCol = col + direction.col; int newRow = row + direction.row; FlowNode node = new FlowNode(gridIter, cols, rows, newCol, newRow); enteringNodes.add(node); } break; case NW: if (nwFlow == Direction.NW.getEnteringFlow()) { int newCol = col + direction.col; int newRow = row + direction.row; FlowNode node = new FlowNode(gridIter, cols, rows, newCol, newRow); enteringNodes.add(node); } break; case WS: if (wsFlow == Direction.WS.getEnteringFlow()) { int newCol = col + direction.col; int newRow = row + direction.row; FlowNode node = new FlowNode(gridIter, cols, rows, newCol, newRow); enteringNodes.add(node); } break; case SE: if (seFlow == Direction.SE.getEnteringFlow()) { int newCol = col + direction.col; int newRow = row + direction.row; FlowNode node = new FlowNode(gridIter, cols, rows, newCol, newRow); enteringNodes.add(node); } break; default: throw new IllegalArgumentException(); } } } return enteringNodes; }
class class_name[name] begin[{] method[getEnteringNodes, return_type[type[List]], modifier[public], parameter[]] begin[{] if[binary_operation[member[.enteringNodes], ==, literal[null]]] begin[{] assign[member[.enteringNodes], 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=FlowNode, sub_type=None))], dimensions=None, name=ArrayList, sub_type=None))] local_variable[type[Direction], orderedDirs] ForStatement(body=BlockStatement(label=None, statements=[SwitchStatement(cases=[SwitchStatementCase(case=['E'], statements=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=eFlow, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MethodInvocation(arguments=[], member=getEnteringFlow, postfix_operators=[], prefix_operators=[], qualifier=Direction.E, selectors=[], type_arguments=None), operator===), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=col, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=col, postfix_operators=[], prefix_operators=[], qualifier=direction, selectors=[]), operator=+), name=newCol)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=row, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=row, postfix_operators=[], prefix_operators=[], qualifier=direction, selectors=[]), operator=+), name=newRow)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[MemberReference(member=gridIter, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=cols, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=rows, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=newCol, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=newRow, 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=FlowNode, sub_type=None)), name=node)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=FlowNode, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=node, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=add, postfix_operators=[], prefix_operators=[], qualifier=enteringNodes, selectors=[], type_arguments=None), label=None)])), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=['N'], statements=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=nFlow, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MethodInvocation(arguments=[], member=getEnteringFlow, postfix_operators=[], prefix_operators=[], qualifier=Direction.N, selectors=[], type_arguments=None), operator===), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=col, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=col, postfix_operators=[], prefix_operators=[], qualifier=direction, selectors=[]), operator=+), name=newCol)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=row, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=row, postfix_operators=[], prefix_operators=[], qualifier=direction, selectors=[]), operator=+), name=newRow)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[MemberReference(member=gridIter, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=cols, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=rows, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=newCol, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=newRow, 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=FlowNode, sub_type=None)), name=node)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=FlowNode, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=node, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=add, postfix_operators=[], prefix_operators=[], qualifier=enteringNodes, selectors=[], type_arguments=None), label=None)])), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=['W'], statements=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=wFlow, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MethodInvocation(arguments=[], member=getEnteringFlow, postfix_operators=[], prefix_operators=[], qualifier=Direction.W, selectors=[], type_arguments=None), operator===), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=col, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=col, postfix_operators=[], prefix_operators=[], qualifier=direction, selectors=[]), operator=+), name=newCol)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=row, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=row, postfix_operators=[], prefix_operators=[], qualifier=direction, selectors=[]), operator=+), name=newRow)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[MemberReference(member=gridIter, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=cols, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=rows, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=newCol, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=newRow, 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=FlowNode, sub_type=None)), name=node)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=FlowNode, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=node, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=add, postfix_operators=[], prefix_operators=[], qualifier=enteringNodes, selectors=[], type_arguments=None), label=None)])), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=['S'], statements=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=sFlow, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MethodInvocation(arguments=[], member=getEnteringFlow, postfix_operators=[], prefix_operators=[], qualifier=Direction.S, selectors=[], type_arguments=None), operator===), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=col, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=col, postfix_operators=[], prefix_operators=[], qualifier=direction, selectors=[]), operator=+), name=newCol)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=row, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=row, postfix_operators=[], prefix_operators=[], qualifier=direction, selectors=[]), operator=+), name=newRow)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[MemberReference(member=gridIter, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=cols, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=rows, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=newCol, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=newRow, 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=FlowNode, sub_type=None)), name=node)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=FlowNode, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=node, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=add, postfix_operators=[], prefix_operators=[], qualifier=enteringNodes, selectors=[], type_arguments=None), label=None)])), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=['EN'], statements=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=enFlow, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MethodInvocation(arguments=[], member=getEnteringFlow, postfix_operators=[], prefix_operators=[], qualifier=Direction.EN, selectors=[], type_arguments=None), operator===), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=col, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=col, postfix_operators=[], prefix_operators=[], qualifier=direction, selectors=[]), operator=+), name=newCol)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=row, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=row, postfix_operators=[], prefix_operators=[], qualifier=direction, selectors=[]), operator=+), name=newRow)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[MemberReference(member=gridIter, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=cols, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=rows, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=newCol, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=newRow, 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=FlowNode, sub_type=None)), name=node)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=FlowNode, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=node, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=add, postfix_operators=[], prefix_operators=[], qualifier=enteringNodes, selectors=[], type_arguments=None), label=None)])), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=['NW'], statements=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=nwFlow, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MethodInvocation(arguments=[], member=getEnteringFlow, postfix_operators=[], prefix_operators=[], qualifier=Direction.NW, selectors=[], type_arguments=None), operator===), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=col, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=col, postfix_operators=[], prefix_operators=[], qualifier=direction, selectors=[]), operator=+), name=newCol)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=row, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=row, postfix_operators=[], prefix_operators=[], qualifier=direction, selectors=[]), operator=+), name=newRow)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[MemberReference(member=gridIter, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=cols, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=rows, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=newCol, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=newRow, 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=FlowNode, sub_type=None)), name=node)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=FlowNode, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=node, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=add, postfix_operators=[], prefix_operators=[], qualifier=enteringNodes, selectors=[], type_arguments=None), label=None)])), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=['WS'], statements=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=wsFlow, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MethodInvocation(arguments=[], member=getEnteringFlow, postfix_operators=[], prefix_operators=[], qualifier=Direction.WS, selectors=[], type_arguments=None), operator===), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=col, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=col, postfix_operators=[], prefix_operators=[], qualifier=direction, selectors=[]), operator=+), name=newCol)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=row, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=row, postfix_operators=[], prefix_operators=[], qualifier=direction, selectors=[]), operator=+), name=newRow)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[MemberReference(member=gridIter, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=cols, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=rows, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=newCol, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=newRow, 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=FlowNode, sub_type=None)), name=node)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=FlowNode, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=node, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=add, postfix_operators=[], prefix_operators=[], qualifier=enteringNodes, selectors=[], type_arguments=None), label=None)])), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=['SE'], statements=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=seFlow, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MethodInvocation(arguments=[], member=getEnteringFlow, postfix_operators=[], prefix_operators=[], qualifier=Direction.SE, selectors=[], type_arguments=None), operator===), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=col, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=col, postfix_operators=[], prefix_operators=[], qualifier=direction, selectors=[]), operator=+), name=newCol)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=row, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=row, postfix_operators=[], prefix_operators=[], qualifier=direction, selectors=[]), operator=+), name=newRow)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[MemberReference(member=gridIter, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=cols, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=rows, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=newCol, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=newRow, 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=FlowNode, sub_type=None)), name=node)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=FlowNode, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=node, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=add, postfix_operators=[], prefix_operators=[], qualifier=enteringNodes, selectors=[], type_arguments=None), label=None)])), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[], statements=[ThrowStatement(expression=ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=IllegalArgumentException, sub_type=None)), label=None)])], expression=MemberReference(member=direction, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), label=None)]), control=EnhancedForControl(iterable=MemberReference(member=orderedDirs, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=direction)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Direction, sub_type=None))), label=None) else begin[{] None end[}] return[member[.enteringNodes]] end[}] END[}]
Keyword[public] identifier[List] operator[<] identifier[FlowNode] operator[>] identifier[getEnteringNodes] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] identifier[enteringNodes] operator[==] Other[null] operator[SEP] { identifier[enteringNodes] operator[=] Keyword[new] identifier[ArrayList] operator[<] identifier[FlowNode] operator[>] operator[SEP] operator[SEP] operator[SEP] identifier[Direction] operator[SEP] operator[SEP] identifier[orderedDirs] operator[=] identifier[Direction] operator[SEP] identifier[getOrderedDirs] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] identifier[Direction] identifier[direction] operator[:] identifier[orderedDirs] operator[SEP] { Keyword[switch] operator[SEP] identifier[direction] operator[SEP] { Keyword[case] identifier[E] operator[:] Keyword[if] operator[SEP] identifier[eFlow] operator[==] identifier[Direction] operator[SEP] identifier[E] operator[SEP] identifier[getEnteringFlow] operator[SEP] operator[SEP] operator[SEP] { Keyword[int] identifier[newCol] operator[=] identifier[col] operator[+] identifier[direction] operator[SEP] identifier[col] operator[SEP] Keyword[int] identifier[newRow] operator[=] identifier[row] operator[+] identifier[direction] operator[SEP] identifier[row] operator[SEP] identifier[FlowNode] identifier[node] operator[=] Keyword[new] identifier[FlowNode] operator[SEP] identifier[gridIter] , identifier[cols] , identifier[rows] , identifier[newCol] , identifier[newRow] operator[SEP] operator[SEP] identifier[enteringNodes] operator[SEP] identifier[add] operator[SEP] identifier[node] operator[SEP] operator[SEP] } Keyword[break] operator[SEP] Keyword[case] identifier[N] operator[:] Keyword[if] operator[SEP] identifier[nFlow] operator[==] identifier[Direction] operator[SEP] identifier[N] operator[SEP] identifier[getEnteringFlow] operator[SEP] operator[SEP] operator[SEP] { Keyword[int] identifier[newCol] operator[=] identifier[col] operator[+] identifier[direction] operator[SEP] identifier[col] operator[SEP] Keyword[int] identifier[newRow] operator[=] identifier[row] operator[+] identifier[direction] operator[SEP] identifier[row] operator[SEP] identifier[FlowNode] identifier[node] operator[=] Keyword[new] identifier[FlowNode] operator[SEP] identifier[gridIter] , identifier[cols] , identifier[rows] , identifier[newCol] , identifier[newRow] operator[SEP] operator[SEP] identifier[enteringNodes] operator[SEP] identifier[add] operator[SEP] identifier[node] operator[SEP] operator[SEP] } Keyword[break] operator[SEP] Keyword[case] identifier[W] operator[:] Keyword[if] operator[SEP] identifier[wFlow] operator[==] identifier[Direction] operator[SEP] identifier[W] operator[SEP] identifier[getEnteringFlow] operator[SEP] operator[SEP] operator[SEP] { Keyword[int] identifier[newCol] operator[=] identifier[col] operator[+] identifier[direction] operator[SEP] identifier[col] operator[SEP] Keyword[int] identifier[newRow] operator[=] identifier[row] operator[+] identifier[direction] operator[SEP] identifier[row] operator[SEP] identifier[FlowNode] identifier[node] operator[=] Keyword[new] identifier[FlowNode] operator[SEP] identifier[gridIter] , identifier[cols] , identifier[rows] , identifier[newCol] , identifier[newRow] operator[SEP] operator[SEP] identifier[enteringNodes] operator[SEP] identifier[add] operator[SEP] identifier[node] operator[SEP] operator[SEP] } Keyword[break] operator[SEP] Keyword[case] identifier[S] operator[:] Keyword[if] operator[SEP] identifier[sFlow] operator[==] identifier[Direction] operator[SEP] identifier[S] operator[SEP] identifier[getEnteringFlow] operator[SEP] operator[SEP] operator[SEP] { Keyword[int] identifier[newCol] operator[=] identifier[col] operator[+] identifier[direction] operator[SEP] identifier[col] operator[SEP] Keyword[int] identifier[newRow] operator[=] identifier[row] operator[+] identifier[direction] operator[SEP] identifier[row] operator[SEP] identifier[FlowNode] identifier[node] operator[=] Keyword[new] identifier[FlowNode] operator[SEP] identifier[gridIter] , identifier[cols] , identifier[rows] , identifier[newCol] , identifier[newRow] operator[SEP] operator[SEP] identifier[enteringNodes] operator[SEP] identifier[add] operator[SEP] identifier[node] operator[SEP] operator[SEP] } Keyword[break] operator[SEP] Keyword[case] identifier[EN] operator[:] Keyword[if] operator[SEP] identifier[enFlow] operator[==] identifier[Direction] operator[SEP] identifier[EN] operator[SEP] identifier[getEnteringFlow] operator[SEP] operator[SEP] operator[SEP] { Keyword[int] identifier[newCol] operator[=] identifier[col] operator[+] identifier[direction] operator[SEP] identifier[col] operator[SEP] Keyword[int] identifier[newRow] operator[=] identifier[row] operator[+] identifier[direction] operator[SEP] identifier[row] operator[SEP] identifier[FlowNode] identifier[node] operator[=] Keyword[new] identifier[FlowNode] operator[SEP] identifier[gridIter] , identifier[cols] , identifier[rows] , identifier[newCol] , identifier[newRow] operator[SEP] operator[SEP] identifier[enteringNodes] operator[SEP] identifier[add] operator[SEP] identifier[node] operator[SEP] operator[SEP] } Keyword[break] operator[SEP] Keyword[case] identifier[NW] operator[:] Keyword[if] operator[SEP] identifier[nwFlow] operator[==] identifier[Direction] operator[SEP] identifier[NW] operator[SEP] identifier[getEnteringFlow] operator[SEP] operator[SEP] operator[SEP] { Keyword[int] identifier[newCol] operator[=] identifier[col] operator[+] identifier[direction] operator[SEP] identifier[col] operator[SEP] Keyword[int] identifier[newRow] operator[=] identifier[row] operator[+] identifier[direction] operator[SEP] identifier[row] operator[SEP] identifier[FlowNode] identifier[node] operator[=] Keyword[new] identifier[FlowNode] operator[SEP] identifier[gridIter] , identifier[cols] , identifier[rows] , identifier[newCol] , identifier[newRow] operator[SEP] operator[SEP] identifier[enteringNodes] operator[SEP] identifier[add] operator[SEP] identifier[node] operator[SEP] operator[SEP] } Keyword[break] operator[SEP] Keyword[case] identifier[WS] operator[:] Keyword[if] operator[SEP] identifier[wsFlow] operator[==] identifier[Direction] operator[SEP] identifier[WS] operator[SEP] identifier[getEnteringFlow] operator[SEP] operator[SEP] operator[SEP] { Keyword[int] identifier[newCol] operator[=] identifier[col] operator[+] identifier[direction] operator[SEP] identifier[col] operator[SEP] Keyword[int] identifier[newRow] operator[=] identifier[row] operator[+] identifier[direction] operator[SEP] identifier[row] operator[SEP] identifier[FlowNode] identifier[node] operator[=] Keyword[new] identifier[FlowNode] operator[SEP] identifier[gridIter] , identifier[cols] , identifier[rows] , identifier[newCol] , identifier[newRow] operator[SEP] operator[SEP] identifier[enteringNodes] operator[SEP] identifier[add] operator[SEP] identifier[node] operator[SEP] operator[SEP] } Keyword[break] operator[SEP] Keyword[case] identifier[SE] operator[:] Keyword[if] operator[SEP] identifier[seFlow] operator[==] identifier[Direction] operator[SEP] identifier[SE] operator[SEP] identifier[getEnteringFlow] operator[SEP] operator[SEP] operator[SEP] { Keyword[int] identifier[newCol] operator[=] identifier[col] operator[+] identifier[direction] operator[SEP] identifier[col] operator[SEP] Keyword[int] identifier[newRow] operator[=] identifier[row] operator[+] identifier[direction] operator[SEP] identifier[row] operator[SEP] identifier[FlowNode] identifier[node] operator[=] Keyword[new] identifier[FlowNode] operator[SEP] identifier[gridIter] , identifier[cols] , identifier[rows] , identifier[newCol] , identifier[newRow] operator[SEP] operator[SEP] identifier[enteringNodes] operator[SEP] identifier[add] operator[SEP] identifier[node] operator[SEP] operator[SEP] } Keyword[break] operator[SEP] Keyword[default] operator[:] Keyword[throw] Keyword[new] identifier[IllegalArgumentException] operator[SEP] operator[SEP] operator[SEP] } } } Keyword[return] identifier[enteringNodes] operator[SEP] }
@Override public V poll(long timeout, TimeUnit unit) throws InterruptedException { return get(pollAsync(timeout, unit)); }
class class_name[name] begin[{] method[poll, return_type[type[V]], modifier[public], parameter[timeout, unit]] begin[{] return[call[.get, parameter[call[.pollAsync, parameter[member[.timeout], member[.unit]]]]]] end[}] END[}]
annotation[@] identifier[Override] Keyword[public] identifier[V] identifier[poll] operator[SEP] Keyword[long] identifier[timeout] , identifier[TimeUnit] identifier[unit] operator[SEP] Keyword[throws] identifier[InterruptedException] { Keyword[return] identifier[get] operator[SEP] identifier[pollAsync] operator[SEP] identifier[timeout] , identifier[unit] operator[SEP] operator[SEP] operator[SEP] }
@SuppressFBWarnings(justification = "Accepting that this is a bad practice - but made more sense in this use case", value = {"NP_BOOLEAN_RETURN_NULL"}) public Boolean isExperimentalEnabled() { return (line != null && line.hasOption(ARGUMENT.EXPERIMENTAL)) ? true : null; }
class class_name[name] begin[{] method[isExperimentalEnabled, return_type[type[Boolean]], modifier[public], parameter[]] begin[{] return[TernaryExpression(condition=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=line, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator=!=), operandr=MethodInvocation(arguments=[MemberReference(member=EXPERIMENTAL, postfix_operators=[], prefix_operators=[], qualifier=ARGUMENT, selectors=[])], member=hasOption, postfix_operators=[], prefix_operators=[], qualifier=line, selectors=[], type_arguments=None), operator=&&), if_false=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), if_true=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true))] end[}] END[}]
annotation[@] identifier[SuppressFBWarnings] operator[SEP] identifier[justification] operator[=] literal[String] , identifier[value] operator[=] { literal[String] } operator[SEP] Keyword[public] identifier[Boolean] identifier[isExperimentalEnabled] operator[SEP] operator[SEP] { Keyword[return] operator[SEP] identifier[line] operator[!=] Other[null] operator[&&] identifier[line] operator[SEP] identifier[hasOption] operator[SEP] identifier[ARGUMENT] operator[SEP] identifier[EXPERIMENTAL] operator[SEP] operator[SEP] operator[?] literal[boolean] operator[:] Other[null] operator[SEP] }
public String getColumnClassName(int column) throws SQLException { ColumnInformation ci = getColumnInformation(column); ColumnType type = ci.getColumnType(); return ColumnType .getClassName(type, (int) ci.getLength(), ci.isSigned(), ci.isBinary(), options); }
class class_name[name] begin[{] method[getColumnClassName, return_type[type[String]], modifier[public], parameter[column]] begin[{] local_variable[type[ColumnInformation], ci] local_variable[type[ColumnType], type] return[call[ColumnType.getClassName, parameter[member[.type], Cast(expression=MethodInvocation(arguments=[], member=getLength, postfix_operators=[], prefix_operators=[], qualifier=ci, selectors=[], type_arguments=None), type=BasicType(dimensions=[], name=int)), call[ci.isSigned, parameter[]], call[ci.isBinary, parameter[]], member[.options]]]] end[}] END[}]
Keyword[public] identifier[String] identifier[getColumnClassName] operator[SEP] Keyword[int] identifier[column] operator[SEP] Keyword[throws] identifier[SQLException] { identifier[ColumnInformation] identifier[ci] operator[=] identifier[getColumnInformation] operator[SEP] identifier[column] operator[SEP] operator[SEP] identifier[ColumnType] identifier[type] operator[=] identifier[ci] operator[SEP] identifier[getColumnType] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[ColumnType] operator[SEP] identifier[getClassName] operator[SEP] identifier[type] , operator[SEP] Keyword[int] operator[SEP] identifier[ci] operator[SEP] identifier[getLength] operator[SEP] operator[SEP] , identifier[ci] operator[SEP] identifier[isSigned] operator[SEP] operator[SEP] , identifier[ci] operator[SEP] identifier[isBinary] operator[SEP] operator[SEP] , identifier[options] operator[SEP] operator[SEP] }
@Override public boolean hardReset(ChargingStationId id) { LOG.info("Requesting hard reset on {}", id); return reset(id, ResetType.HARD); }
class class_name[name] begin[{] method[hardReset, return_type[type[boolean]], modifier[public], parameter[id]] begin[{] call[LOG.info, parameter[literal["Requesting hard reset on {}"], member[.id]]] return[call[.reset, parameter[member[.id], member[ResetType.HARD]]]] end[}] END[}]
annotation[@] identifier[Override] Keyword[public] Keyword[boolean] identifier[hardReset] operator[SEP] identifier[ChargingStationId] identifier[id] operator[SEP] { identifier[LOG] operator[SEP] identifier[info] operator[SEP] literal[String] , identifier[id] operator[SEP] operator[SEP] Keyword[return] identifier[reset] operator[SEP] identifier[id] , identifier[ResetType] operator[SEP] identifier[HARD] operator[SEP] operator[SEP] }
public String params(String param) { if (param == null) { return null; } if (param.startsWith(":")) { return params.get(param.toLowerCase()); // NOSONAR } else { return params.get(":" + param.toLowerCase()); // NOSONAR } }
class class_name[name] begin[{] method[params, return_type[type[String]], modifier[public], parameter[param]] begin[{] if[binary_operation[member[.param], ==, literal[null]]] begin[{] return[literal[null]] else begin[{] None end[}] if[call[param.startsWith, parameter[literal[":"]]]] begin[{] return[call[params.get, parameter[call[param.toLowerCase, parameter[]]]]] else begin[{] return[call[params.get, parameter[binary_operation[literal[":"], +, call[param.toLowerCase, parameter[]]]]]] end[}] end[}] END[}]
Keyword[public] identifier[String] identifier[params] operator[SEP] identifier[String] identifier[param] operator[SEP] { Keyword[if] operator[SEP] identifier[param] operator[==] Other[null] operator[SEP] { Keyword[return] Other[null] operator[SEP] } Keyword[if] operator[SEP] identifier[param] operator[SEP] identifier[startsWith] operator[SEP] literal[String] operator[SEP] operator[SEP] { Keyword[return] identifier[params] operator[SEP] identifier[get] operator[SEP] identifier[param] operator[SEP] identifier[toLowerCase] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] { Keyword[return] identifier[params] operator[SEP] identifier[get] operator[SEP] literal[String] operator[+] identifier[param] operator[SEP] identifier[toLowerCase] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } }
public static void proxyField(Object target, String sourceKey, String sourceProperty, String targetProperty) { PROXY_SHARED_DEFINITION.set("set", new Function("this[\"" + sourceKey + "\"][\"" + sourceProperty + "\"] = arguments[0];")); PROXY_SHARED_DEFINITION.set("get", new Function("return this[\"" + sourceKey + "\"][\"" + sourceProperty + "\"];")); JsObject.defineProperty(target, targetProperty, PROXY_SHARED_DEFINITION); }
class class_name[name] begin[{] method[proxyField, return_type[void], modifier[public static], parameter[target, sourceKey, sourceProperty, targetProperty]] begin[{] call[PROXY_SHARED_DEFINITION.set, parameter[literal["set"], ClassCreator(arguments=[BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="this[\""), operandr=MemberReference(member=sourceKey, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="\"][\""), operator=+), operandr=MemberReference(member=sourceProperty, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="\"] = arguments[0];"), operator=+)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Function, sub_type=None))]] call[PROXY_SHARED_DEFINITION.set, parameter[literal["get"], ClassCreator(arguments=[BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="return this[\""), operandr=MemberReference(member=sourceKey, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="\"][\""), operator=+), operandr=MemberReference(member=sourceProperty, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="\"];"), operator=+)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Function, sub_type=None))]] call[JsObject.defineProperty, parameter[member[.target], member[.targetProperty], member[.PROXY_SHARED_DEFINITION]]] end[}] END[}]
Keyword[public] Keyword[static] Keyword[void] identifier[proxyField] operator[SEP] identifier[Object] identifier[target] , identifier[String] identifier[sourceKey] , identifier[String] identifier[sourceProperty] , identifier[String] identifier[targetProperty] operator[SEP] { identifier[PROXY_SHARED_DEFINITION] operator[SEP] identifier[set] operator[SEP] literal[String] , Keyword[new] identifier[Function] operator[SEP] literal[String] operator[+] identifier[sourceKey] operator[+] literal[String] operator[+] identifier[sourceProperty] operator[+] literal[String] operator[SEP] operator[SEP] operator[SEP] identifier[PROXY_SHARED_DEFINITION] operator[SEP] identifier[set] operator[SEP] literal[String] , Keyword[new] identifier[Function] operator[SEP] literal[String] operator[+] identifier[sourceKey] operator[+] literal[String] operator[+] identifier[sourceProperty] operator[+] literal[String] operator[SEP] operator[SEP] operator[SEP] identifier[JsObject] operator[SEP] identifier[defineProperty] operator[SEP] identifier[target] , identifier[targetProperty] , identifier[PROXY_SHARED_DEFINITION] operator[SEP] operator[SEP] }
@Override public int compare(Proposition o1, Proposition o2) { boolean o1b = o1 instanceof TemporalProposition; boolean o2b = o2 instanceof TemporalProposition; if (o1b && o2b) { return ((TemporalProposition) o1).getInterval().compareTo( ((TemporalProposition) o2).getInterval()); } else if (o1b) { return -1; } else if (o2b) { return 1; } else { return 0; } }
class class_name[name] begin[{] method[compare, return_type[type[int]], modifier[public], parameter[o1, o2]] begin[{] local_variable[type[boolean], o1b] local_variable[type[boolean], o2b] if[binary_operation[member[.o1b], &&, member[.o2b]]] begin[{] return[Cast(expression=MemberReference(member=o1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=TemporalProposition, sub_type=None))] else begin[{] if[member[.o1b]] begin[{] return[literal[1]] else begin[{] if[member[.o2b]] begin[{] return[literal[1]] else begin[{] return[literal[0]] end[}] end[}] end[}] end[}] END[}]
annotation[@] identifier[Override] Keyword[public] Keyword[int] identifier[compare] operator[SEP] identifier[Proposition] identifier[o1] , identifier[Proposition] identifier[o2] operator[SEP] { Keyword[boolean] identifier[o1b] operator[=] identifier[o1] Keyword[instanceof] identifier[TemporalProposition] operator[SEP] Keyword[boolean] identifier[o2b] operator[=] identifier[o2] Keyword[instanceof] identifier[TemporalProposition] operator[SEP] Keyword[if] operator[SEP] identifier[o1b] operator[&&] identifier[o2b] operator[SEP] { Keyword[return] operator[SEP] operator[SEP] identifier[TemporalProposition] operator[SEP] identifier[o1] operator[SEP] operator[SEP] identifier[getInterval] operator[SEP] operator[SEP] operator[SEP] identifier[compareTo] operator[SEP] operator[SEP] operator[SEP] identifier[TemporalProposition] operator[SEP] identifier[o2] operator[SEP] operator[SEP] identifier[getInterval] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[o1b] operator[SEP] { Keyword[return] operator[-] Other[1] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[o2b] operator[SEP] { Keyword[return] Other[1] operator[SEP] } Keyword[else] { Keyword[return] Other[0] operator[SEP] } }
public void marshall(DeleteRequestValidatorRequest deleteRequestValidatorRequest, ProtocolMarshaller protocolMarshaller) { if (deleteRequestValidatorRequest == null) { throw new SdkClientException("Invalid argument passed to marshall(...)"); } try { protocolMarshaller.marshall(deleteRequestValidatorRequest.getRestApiId(), RESTAPIID_BINDING); protocolMarshaller.marshall(deleteRequestValidatorRequest.getRequestValidatorId(), REQUESTVALIDATORID_BINDING); } catch (Exception e) { throw new SdkClientException("Unable to marshall request to JSON: " + e.getMessage(), e); } }
class class_name[name] begin[{] method[marshall, return_type[void], modifier[public], parameter[deleteRequestValidatorRequest, protocolMarshaller]] begin[{] if[binary_operation[member[.deleteRequestValidatorRequest], ==, literal[null]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Invalid argument passed to marshall(...)")], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=SdkClientException, sub_type=None)), label=None) else begin[{] None end[}] TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getRestApiId, postfix_operators=[], prefix_operators=[], qualifier=deleteRequestValidatorRequest, selectors=[], type_arguments=None), MemberReference(member=RESTAPIID_BINDING, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=marshall, postfix_operators=[], prefix_operators=[], qualifier=protocolMarshaller, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getRequestValidatorId, postfix_operators=[], prefix_operators=[], qualifier=deleteRequestValidatorRequest, selectors=[], type_arguments=None), MemberReference(member=REQUESTVALIDATORID_BINDING, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=marshall, postfix_operators=[], prefix_operators=[], qualifier=protocolMarshaller, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Unable to marshall request to JSON: "), operandr=MethodInvocation(arguments=[], member=getMessage, postfix_operators=[], prefix_operators=[], qualifier=e, selectors=[], type_arguments=None), operator=+), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=SdkClientException, sub_type=None)), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['Exception']))], finally_block=None, label=None, resources=None) end[}] END[}]
Keyword[public] Keyword[void] identifier[marshall] operator[SEP] identifier[DeleteRequestValidatorRequest] identifier[deleteRequestValidatorRequest] , identifier[ProtocolMarshaller] identifier[protocolMarshaller] operator[SEP] { Keyword[if] operator[SEP] identifier[deleteRequestValidatorRequest] operator[==] Other[null] operator[SEP] { Keyword[throw] Keyword[new] identifier[SdkClientException] operator[SEP] literal[String] operator[SEP] operator[SEP] } Keyword[try] { identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[deleteRequestValidatorRequest] operator[SEP] identifier[getRestApiId] operator[SEP] operator[SEP] , identifier[RESTAPIID_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[deleteRequestValidatorRequest] operator[SEP] identifier[getRequestValidatorId] operator[SEP] operator[SEP] , identifier[REQUESTVALIDATORID_BINDING] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[Exception] identifier[e] operator[SEP] { Keyword[throw] Keyword[new] identifier[SdkClientException] operator[SEP] literal[String] operator[+] identifier[e] operator[SEP] identifier[getMessage] operator[SEP] operator[SEP] , identifier[e] operator[SEP] operator[SEP] } }
@Override public void add(IRingSet ringSet) { for (int f = 0; f < ringSet.getAtomContainerCount(); f++) { if (!contains(ringSet.getAtomContainer(f))) { addAtomContainer(ringSet.getAtomContainer(f)); } } }
class class_name[name] begin[{] method[add, return_type[void], modifier[public], parameter[ringSet]] begin[{] ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=MethodInvocation(arguments=[MethodInvocation(arguments=[MemberReference(member=f, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getAtomContainer, postfix_operators=[], prefix_operators=[], qualifier=ringSet, selectors=[], type_arguments=None)], member=contains, postfix_operators=[], prefix_operators=['!'], qualifier=, selectors=[], type_arguments=None), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[MemberReference(member=f, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getAtomContainer, postfix_operators=[], prefix_operators=[], qualifier=ringSet, selectors=[], type_arguments=None)], member=addAtomContainer, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)]))]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=f, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MethodInvocation(arguments=[], member=getAtomContainerCount, postfix_operators=[], prefix_operators=[], qualifier=ringSet, selectors=[], type_arguments=None), operator=<), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), name=f)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=f, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None) end[}] END[}]
annotation[@] identifier[Override] Keyword[public] Keyword[void] identifier[add] operator[SEP] identifier[IRingSet] identifier[ringSet] operator[SEP] { Keyword[for] operator[SEP] Keyword[int] identifier[f] operator[=] Other[0] operator[SEP] identifier[f] operator[<] identifier[ringSet] operator[SEP] identifier[getAtomContainerCount] operator[SEP] operator[SEP] operator[SEP] identifier[f] operator[++] operator[SEP] { Keyword[if] operator[SEP] operator[!] identifier[contains] operator[SEP] identifier[ringSet] operator[SEP] identifier[getAtomContainer] operator[SEP] identifier[f] operator[SEP] operator[SEP] operator[SEP] { identifier[addAtomContainer] operator[SEP] identifier[ringSet] operator[SEP] identifier[getAtomContainer] operator[SEP] identifier[f] operator[SEP] operator[SEP] operator[SEP] } } }
public <T> IDocumentQuery<T> documentQuery(Class<T> clazz, String indexName, String collectionName, boolean isMapReduce) { Tuple<String, String> indexNameAndCollection = processQueryParameters(clazz, indexName, collectionName, getConventions()); indexName = indexNameAndCollection.first; collectionName = indexNameAndCollection.second; return new DocumentQuery<>(clazz, this, indexName, collectionName, isMapReduce); }
class class_name[name] begin[{] method[documentQuery, return_type[type[IDocumentQuery]], modifier[public], parameter[clazz, indexName, collectionName, isMapReduce]] begin[{] local_variable[type[Tuple], indexNameAndCollection] assign[member[.indexName], member[indexNameAndCollection.first]] assign[member[.collectionName], member[indexNameAndCollection.second]] return[ClassCreator(arguments=[MemberReference(member=clazz, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[]), MemberReference(member=indexName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=collectionName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=isMapReduce, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=[], dimensions=None, name=DocumentQuery, sub_type=None))] end[}] END[}]
Keyword[public] operator[<] identifier[T] operator[>] identifier[IDocumentQuery] operator[<] identifier[T] operator[>] identifier[documentQuery] operator[SEP] identifier[Class] operator[<] identifier[T] operator[>] identifier[clazz] , identifier[String] identifier[indexName] , identifier[String] identifier[collectionName] , Keyword[boolean] identifier[isMapReduce] operator[SEP] { identifier[Tuple] operator[<] identifier[String] , identifier[String] operator[>] identifier[indexNameAndCollection] operator[=] identifier[processQueryParameters] operator[SEP] identifier[clazz] , identifier[indexName] , identifier[collectionName] , identifier[getConventions] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[indexName] operator[=] identifier[indexNameAndCollection] operator[SEP] identifier[first] operator[SEP] identifier[collectionName] operator[=] identifier[indexNameAndCollection] operator[SEP] identifier[second] operator[SEP] Keyword[return] Keyword[new] identifier[DocumentQuery] operator[<] operator[>] operator[SEP] identifier[clazz] , Keyword[this] , identifier[indexName] , identifier[collectionName] , identifier[isMapReduce] operator[SEP] operator[SEP] }
public static void setSessionTicketKeys(long ctx, SessionTicketKey[] keys) { if (keys == null || keys.length == 0) { throw new IllegalArgumentException("Length of the keys should be longer than 0."); } byte[] binaryKeys = new byte[keys.length * SessionTicketKey.TICKET_KEY_SIZE]; for (int i = 0; i < keys.length; i++) { SessionTicketKey key = keys[i]; int dstCurPos = SessionTicketKey.TICKET_KEY_SIZE * i; System.arraycopy(key.name, 0, binaryKeys, dstCurPos, SessionTicketKey.NAME_SIZE); dstCurPos += SessionTicketKey.NAME_SIZE; System.arraycopy(key.hmacKey, 0, binaryKeys, dstCurPos, SessionTicketKey.HMAC_KEY_SIZE); dstCurPos += SessionTicketKey.HMAC_KEY_SIZE; System.arraycopy(key.aesKey, 0, binaryKeys, dstCurPos, SessionTicketKey.AES_KEY_SIZE); } setSessionTicketKeys0(ctx, binaryKeys); }
class class_name[name] begin[{] method[setSessionTicketKeys, return_type[void], modifier[public static], parameter[ctx, keys]] begin[{] if[binary_operation[binary_operation[member[.keys], ==, literal[null]], ||, binary_operation[member[keys.length], ==, literal[0]]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Length of the keys should be longer than 0.")], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=IllegalArgumentException, sub_type=None)), label=None) else begin[{] None end[}] local_variable[type[byte], binaryKeys] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=keys, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), name=key)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=SessionTicketKey, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=TICKET_KEY_SIZE, postfix_operators=[], prefix_operators=[], qualifier=SessionTicketKey, selectors=[]), operandr=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=*), name=dstCurPos)], modifiers=set(), type=BasicType(dimensions=[], name=int)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=name, postfix_operators=[], prefix_operators=[], qualifier=key, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), MemberReference(member=binaryKeys, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=dstCurPos, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=NAME_SIZE, postfix_operators=[], prefix_operators=[], qualifier=SessionTicketKey, selectors=[])], member=arraycopy, postfix_operators=[], prefix_operators=[], qualifier=System, selectors=[], type_arguments=None), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=dstCurPos, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=+=, value=MemberReference(member=NAME_SIZE, postfix_operators=[], prefix_operators=[], qualifier=SessionTicketKey, selectors=[])), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=hmacKey, postfix_operators=[], prefix_operators=[], qualifier=key, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), MemberReference(member=binaryKeys, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=dstCurPos, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=HMAC_KEY_SIZE, postfix_operators=[], prefix_operators=[], qualifier=SessionTicketKey, selectors=[])], member=arraycopy, postfix_operators=[], prefix_operators=[], qualifier=System, selectors=[], type_arguments=None), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=dstCurPos, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=+=, value=MemberReference(member=HMAC_KEY_SIZE, postfix_operators=[], prefix_operators=[], qualifier=SessionTicketKey, selectors=[])), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=aesKey, postfix_operators=[], prefix_operators=[], qualifier=key, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), MemberReference(member=binaryKeys, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=dstCurPos, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=AES_KEY_SIZE, postfix_operators=[], prefix_operators=[], qualifier=SessionTicketKey, selectors=[])], member=arraycopy, postfix_operators=[], prefix_operators=[], qualifier=System, selectors=[], type_arguments=None), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=length, postfix_operators=[], prefix_operators=[], qualifier=keys, selectors=[]), operator=<), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), name=i)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=i, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None) call[.setSessionTicketKeys0, parameter[member[.ctx], member[.binaryKeys]]] end[}] END[}]
Keyword[public] Keyword[static] Keyword[void] identifier[setSessionTicketKeys] operator[SEP] Keyword[long] identifier[ctx] , identifier[SessionTicketKey] operator[SEP] operator[SEP] identifier[keys] operator[SEP] { Keyword[if] operator[SEP] identifier[keys] operator[==] Other[null] operator[||] identifier[keys] operator[SEP] identifier[length] operator[==] Other[0] operator[SEP] { Keyword[throw] Keyword[new] identifier[IllegalArgumentException] operator[SEP] literal[String] operator[SEP] operator[SEP] } Keyword[byte] operator[SEP] operator[SEP] identifier[binaryKeys] operator[=] Keyword[new] Keyword[byte] operator[SEP] identifier[keys] operator[SEP] identifier[length] operator[*] identifier[SessionTicketKey] operator[SEP] identifier[TICKET_KEY_SIZE] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[keys] operator[SEP] identifier[length] operator[SEP] identifier[i] operator[++] operator[SEP] { identifier[SessionTicketKey] identifier[key] operator[=] identifier[keys] operator[SEP] identifier[i] operator[SEP] operator[SEP] Keyword[int] identifier[dstCurPos] operator[=] identifier[SessionTicketKey] operator[SEP] identifier[TICKET_KEY_SIZE] operator[*] identifier[i] operator[SEP] identifier[System] operator[SEP] identifier[arraycopy] operator[SEP] identifier[key] operator[SEP] identifier[name] , Other[0] , identifier[binaryKeys] , identifier[dstCurPos] , identifier[SessionTicketKey] operator[SEP] identifier[NAME_SIZE] operator[SEP] operator[SEP] identifier[dstCurPos] operator[+=] identifier[SessionTicketKey] operator[SEP] identifier[NAME_SIZE] operator[SEP] identifier[System] operator[SEP] identifier[arraycopy] operator[SEP] identifier[key] operator[SEP] identifier[hmacKey] , Other[0] , identifier[binaryKeys] , identifier[dstCurPos] , identifier[SessionTicketKey] operator[SEP] identifier[HMAC_KEY_SIZE] operator[SEP] operator[SEP] identifier[dstCurPos] operator[+=] identifier[SessionTicketKey] operator[SEP] identifier[HMAC_KEY_SIZE] operator[SEP] identifier[System] operator[SEP] identifier[arraycopy] operator[SEP] identifier[key] operator[SEP] identifier[aesKey] , Other[0] , identifier[binaryKeys] , identifier[dstCurPos] , identifier[SessionTicketKey] operator[SEP] identifier[AES_KEY_SIZE] operator[SEP] operator[SEP] } identifier[setSessionTicketKeys0] operator[SEP] identifier[ctx] , identifier[binaryKeys] operator[SEP] operator[SEP] }
public void txnOfferBackupReserve(long itemId, String transactionId) { TxQueueItem o = txnOfferReserveInternal(itemId, transactionId); if (o != null) { logger.severe("txnOfferBackupReserve operation-> Item exists already at txMap for itemId: " + itemId); } }
class class_name[name] begin[{] method[txnOfferBackupReserve, return_type[void], modifier[public], parameter[itemId, transactionId]] begin[{] local_variable[type[TxQueueItem], o] if[binary_operation[member[.o], !=, literal[null]]] begin[{] call[logger.severe, parameter[binary_operation[literal["txnOfferBackupReserve operation-> Item exists already at txMap for itemId: "], +, member[.itemId]]]] else begin[{] None end[}] end[}] END[}]
Keyword[public] Keyword[void] identifier[txnOfferBackupReserve] operator[SEP] Keyword[long] identifier[itemId] , identifier[String] identifier[transactionId] operator[SEP] { identifier[TxQueueItem] identifier[o] operator[=] identifier[txnOfferReserveInternal] operator[SEP] identifier[itemId] , identifier[transactionId] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[o] operator[!=] Other[null] operator[SEP] { identifier[logger] operator[SEP] identifier[severe] operator[SEP] literal[String] operator[+] identifier[itemId] operator[SEP] operator[SEP] } }
private void infoOrDebug( boolean info, String msg ) { if ( info ) { getLogger().info( msg ); } else { getLogger().debug( msg ); } }
class class_name[name] begin[{] method[infoOrDebug, return_type[void], modifier[private], parameter[info, msg]] begin[{] if[member[.info]] begin[{] call[.getLogger, parameter[]] else begin[{] call[.getLogger, parameter[]] end[}] end[}] END[}]
Keyword[private] Keyword[void] identifier[infoOrDebug] operator[SEP] Keyword[boolean] identifier[info] , identifier[String] identifier[msg] operator[SEP] { Keyword[if] operator[SEP] identifier[info] operator[SEP] { identifier[getLogger] operator[SEP] operator[SEP] operator[SEP] identifier[info] operator[SEP] identifier[msg] operator[SEP] operator[SEP] } Keyword[else] { identifier[getLogger] operator[SEP] operator[SEP] operator[SEP] identifier[debug] operator[SEP] identifier[msg] operator[SEP] operator[SEP] } }
@Override public <T extends BullhornEntity> T findEntity(Class<T> type, Integer id) { return this.handleGetEntity(type, id, null, ParamFactory.entityParams()); }
class class_name[name] begin[{] method[findEntity, return_type[type[T]], modifier[public], parameter[type, id]] begin[{] return[THIS[call[None.handleGetEntity, parameter[member[.type], member[.id], literal[null], call[ParamFactory.entityParams, parameter[]]]]]] end[}] END[}]
annotation[@] identifier[Override] Keyword[public] operator[<] identifier[T] Keyword[extends] identifier[BullhornEntity] operator[>] identifier[T] identifier[findEntity] operator[SEP] identifier[Class] operator[<] identifier[T] operator[>] identifier[type] , identifier[Integer] identifier[id] operator[SEP] { Keyword[return] Keyword[this] operator[SEP] identifier[handleGetEntity] operator[SEP] identifier[type] , identifier[id] , Other[null] , identifier[ParamFactory] operator[SEP] identifier[entityParams] operator[SEP] operator[SEP] operator[SEP] operator[SEP] }
public static Intent sendEmail(String to, String subject, String text) { return sendEmail(new String[]{to}, subject, text); }
class class_name[name] begin[{] method[sendEmail, return_type[type[Intent]], modifier[public static], parameter[to, subject, text]] begin[{] return[call[.sendEmail, parameter[ArrayCreator(dimensions=[None], initializer=ArrayInitializer(initializers=[MemberReference(member=to, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])]), postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=String, sub_type=None)), member[.subject], member[.text]]]] end[}] END[}]
Keyword[public] Keyword[static] identifier[Intent] identifier[sendEmail] operator[SEP] identifier[String] identifier[to] , identifier[String] identifier[subject] , identifier[String] identifier[text] operator[SEP] { Keyword[return] identifier[sendEmail] operator[SEP] Keyword[new] identifier[String] operator[SEP] operator[SEP] { identifier[to] } , identifier[subject] , identifier[text] operator[SEP] operator[SEP] }
public ServiceFuture<CheckNameResultInner> checkNameAvailabilityAsync(String resourceGroupName, String clusterName, String name, final ServiceCallback<CheckNameResultInner> serviceCallback) { return ServiceFuture.fromResponse(checkNameAvailabilityWithServiceResponseAsync(resourceGroupName, clusterName, name), serviceCallback); }
class class_name[name] begin[{] method[checkNameAvailabilityAsync, return_type[type[ServiceFuture]], modifier[public], parameter[resourceGroupName, clusterName, name, serviceCallback]] begin[{] return[call[ServiceFuture.fromResponse, parameter[call[.checkNameAvailabilityWithServiceResponseAsync, parameter[member[.resourceGroupName], member[.clusterName], member[.name]]], member[.serviceCallback]]]] end[}] END[}]
Keyword[public] identifier[ServiceFuture] operator[<] identifier[CheckNameResultInner] operator[>] identifier[checkNameAvailabilityAsync] operator[SEP] identifier[String] identifier[resourceGroupName] , identifier[String] identifier[clusterName] , identifier[String] identifier[name] , Keyword[final] identifier[ServiceCallback] operator[<] identifier[CheckNameResultInner] operator[>] identifier[serviceCallback] operator[SEP] { Keyword[return] identifier[ServiceFuture] operator[SEP] identifier[fromResponse] operator[SEP] identifier[checkNameAvailabilityWithServiceResponseAsync] operator[SEP] identifier[resourceGroupName] , identifier[clusterName] , identifier[name] operator[SEP] , identifier[serviceCallback] operator[SEP] operator[SEP] }
@Override public void publishMetadata(Collection<? extends WorkUnitState> states) throws IOException { Set<String> partitions = new HashSet<>(); // There should be one merged metadata file per branch; first merge all of the pieces together mergeMetadataAndCollectPartitionNames(states, partitions); partitions.removeIf(Objects::isNull); // Now, pick an arbitrary WorkUnitState to get config information around metadata such as // the desired output filename. We assume that publisher config settings // are the same across all workunits so it doesn't really matter which workUnit we retrieve this information // from. WorkUnitState anyState = states.iterator().next(); for (int branchId = 0; branchId < numBranches; branchId++) { String mdOutputPath = getMetadataOutputPathFromState(anyState, branchId); String userSpecifiedPath = getUserSpecifiedOutputPathFromState(anyState, branchId); if (partitions.isEmpty() || userSpecifiedPath != null) { publishMetadata(getMergedMetadataForPartitionAndBranch(null, branchId), branchId, getMetadataOutputFileForBranch(anyState, branchId)); } else { String metadataFilename = getMetadataFileNameForBranch(anyState, branchId); if (mdOutputPath == null || metadataFilename == null) { LOG.info("Metadata filename not set for branch " + String.valueOf(branchId) + ": not publishing metadata."); continue; } for (String partition : partitions) { publishMetadata(getMergedMetadataForPartitionAndBranch(partition, branchId), branchId, new Path(new Path(mdOutputPath, partition), metadataFilename)); } } } }
class class_name[name] begin[{] method[publishMetadata, return_type[void], modifier[public], parameter[states]] begin[{] local_variable[type[Set], partitions] call[.mergeMetadataAndCollectPartitionNames, parameter[member[.states], member[.partitions]]] call[partitions.removeIf, parameter[MethodReference(expression=MemberReference(member=Objects, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), method=MemberReference(member=isNull, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type_arguments=[])]] local_variable[type[WorkUnitState], anyState] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=anyState, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=branchId, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getMetadataOutputPathFromState, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), name=mdOutputPath)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=anyState, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=branchId, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getUserSpecifiedOutputPathFromState, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), name=userSpecifiedPath)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), IfStatement(condition=BinaryOperation(operandl=MethodInvocation(arguments=[], member=isEmpty, postfix_operators=[], prefix_operators=[], qualifier=partitions, selectors=[], type_arguments=None), operandr=BinaryOperation(operandl=MemberReference(member=userSpecifiedPath, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator=!=), operator=||), else_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=anyState, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=branchId, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getMetadataFileNameForBranch, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), name=metadataFilename)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), IfStatement(condition=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=mdOutputPath, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator===), operandr=BinaryOperation(operandl=MemberReference(member=metadataFilename, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator===), operator=||), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[BinaryOperation(operandl=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Metadata filename not set for branch "), operandr=MethodInvocation(arguments=[MemberReference(member=branchId, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=valueOf, postfix_operators=[], prefix_operators=[], qualifier=String, selectors=[], type_arguments=None), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=": not publishing metadata."), operator=+)], member=info, postfix_operators=[], prefix_operators=[], qualifier=LOG, selectors=[], type_arguments=None), label=None), ContinueStatement(goto=None, label=None)])), ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[MemberReference(member=partition, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=branchId, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getMergedMetadataForPartitionAndBranch, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), MemberReference(member=branchId, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), ClassCreator(arguments=[ClassCreator(arguments=[MemberReference(member=mdOutputPath, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=partition, 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=Path, sub_type=None)), MemberReference(member=metadataFilename, 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=Path, sub_type=None))], member=publishMetadata, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MemberReference(member=partitions, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=partition)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None))), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), MemberReference(member=branchId, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getMergedMetadataForPartitionAndBranch, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), MemberReference(member=branchId, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MethodInvocation(arguments=[MemberReference(member=anyState, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=branchId, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getMetadataOutputFileForBranch, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)], member=publishMetadata, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)]))]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=branchId, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=numBranches, 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=branchId)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=branchId, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None) end[}] END[}]
annotation[@] identifier[Override] Keyword[public] Keyword[void] identifier[publishMetadata] operator[SEP] identifier[Collection] operator[<] operator[?] Keyword[extends] identifier[WorkUnitState] operator[>] identifier[states] operator[SEP] Keyword[throws] identifier[IOException] { identifier[Set] operator[<] identifier[String] operator[>] identifier[partitions] operator[=] Keyword[new] identifier[HashSet] operator[<] operator[>] operator[SEP] operator[SEP] operator[SEP] identifier[mergeMetadataAndCollectPartitionNames] operator[SEP] identifier[states] , identifier[partitions] operator[SEP] operator[SEP] identifier[partitions] operator[SEP] identifier[removeIf] operator[SEP] identifier[Objects] operator[::] identifier[isNull] operator[SEP] operator[SEP] identifier[WorkUnitState] identifier[anyState] operator[=] identifier[states] operator[SEP] identifier[iterator] operator[SEP] operator[SEP] operator[SEP] identifier[next] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[branchId] operator[=] Other[0] operator[SEP] identifier[branchId] operator[<] identifier[numBranches] operator[SEP] identifier[branchId] operator[++] operator[SEP] { identifier[String] identifier[mdOutputPath] operator[=] identifier[getMetadataOutputPathFromState] operator[SEP] identifier[anyState] , identifier[branchId] operator[SEP] operator[SEP] identifier[String] identifier[userSpecifiedPath] operator[=] identifier[getUserSpecifiedOutputPathFromState] operator[SEP] identifier[anyState] , identifier[branchId] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[partitions] operator[SEP] identifier[isEmpty] operator[SEP] operator[SEP] operator[||] identifier[userSpecifiedPath] operator[!=] Other[null] operator[SEP] { identifier[publishMetadata] operator[SEP] identifier[getMergedMetadataForPartitionAndBranch] operator[SEP] Other[null] , identifier[branchId] operator[SEP] , identifier[branchId] , identifier[getMetadataOutputFileForBranch] operator[SEP] identifier[anyState] , identifier[branchId] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] { identifier[String] identifier[metadataFilename] operator[=] identifier[getMetadataFileNameForBranch] operator[SEP] identifier[anyState] , identifier[branchId] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[mdOutputPath] operator[==] Other[null] operator[||] identifier[metadataFilename] operator[==] Other[null] operator[SEP] { identifier[LOG] operator[SEP] identifier[info] operator[SEP] literal[String] operator[+] identifier[String] operator[SEP] identifier[valueOf] operator[SEP] identifier[branchId] operator[SEP] operator[+] literal[String] operator[SEP] operator[SEP] Keyword[continue] operator[SEP] } Keyword[for] operator[SEP] identifier[String] identifier[partition] operator[:] identifier[partitions] operator[SEP] { identifier[publishMetadata] operator[SEP] identifier[getMergedMetadataForPartitionAndBranch] operator[SEP] identifier[partition] , identifier[branchId] operator[SEP] , identifier[branchId] , Keyword[new] identifier[Path] operator[SEP] Keyword[new] identifier[Path] operator[SEP] identifier[mdOutputPath] , identifier[partition] operator[SEP] , identifier[metadataFilename] operator[SEP] operator[SEP] operator[SEP] } } } }
public boolean apply() { // FIXME: need to make this incremental // Create initial set of patches. List<Patch> patches = resolver.apply(target); // Keep iterating until all patches are resolved while (patches.size() > 0) { // Create importer Importer importer = new Importer(target, true); // Now continue importing until patches all resolved. for (int i = 0; i != patches.size(); ++i) { // Import and link the given patch patches.get(i).apply(importer); } // Switch over to the next set of patches patches = importer.getPatches(); } // Consolidate any imported declarations as externals. symbolTable.consolidate(); // return status; }
class class_name[name] begin[{] method[apply, return_type[type[boolean]], modifier[public], parameter[]] begin[{] local_variable[type[List], patches] while[binary_operation[call[patches.size, parameter[]], >, literal[0]]] begin[{] local_variable[type[Importer], importer] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=get, postfix_operators=[], prefix_operators=[], qualifier=patches, selectors=[MethodInvocation(arguments=[MemberReference(member=importer, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=apply, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MethodInvocation(arguments=[], member=size, postfix_operators=[], prefix_operators=[], qualifier=patches, 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) assign[member[.patches], call[importer.getPatches, parameter[]]] end[}] call[symbolTable.consolidate, parameter[]] return[member[.status]] end[}] END[}]
Keyword[public] Keyword[boolean] identifier[apply] operator[SEP] operator[SEP] { identifier[List] operator[<] identifier[Patch] operator[>] identifier[patches] operator[=] identifier[resolver] operator[SEP] identifier[apply] operator[SEP] identifier[target] operator[SEP] operator[SEP] Keyword[while] operator[SEP] identifier[patches] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[>] Other[0] operator[SEP] { identifier[Importer] identifier[importer] operator[=] Keyword[new] identifier[Importer] operator[SEP] identifier[target] , literal[boolean] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[!=] identifier[patches] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] operator[++] identifier[i] operator[SEP] { identifier[patches] operator[SEP] identifier[get] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[apply] operator[SEP] identifier[importer] operator[SEP] operator[SEP] } identifier[patches] operator[=] identifier[importer] operator[SEP] identifier[getPatches] operator[SEP] operator[SEP] operator[SEP] } identifier[symbolTable] operator[SEP] identifier[consolidate] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[status] operator[SEP] }
public static List<String> genNoncollidingBaseNamesForExprs( List<ExprNode> exprNodes, String fallbackBaseName, ErrorReporter errorReporter) { int numExprs = exprNodes.size(); // --- Compute candidate base names for each expression. --- List<List<String>> candidateBaseNameLists = Lists.newArrayListWithCapacity(numExprs); for (ExprNode exprRoot : exprNodes) { candidateBaseNameLists.add(genCandidateBaseNamesForExpr(exprRoot)); } // --- Build a multiset of collision strings (if key has > 1 values, then it's a collision). --- // Note: We could combine this loop with the previous loop, but it's more readable this way. Multimap<String, ExprNode> collisionStrToLongestCandidatesMultimap = HashMultimap.create(); for (int i = 0; i < numExprs; i++) { ExprNode exprRoot = exprNodes.get(i); List<String> candidateBaseNameList = candidateBaseNameLists.get(i); if (candidateBaseNameList.isEmpty()) { continue; } String longestCandidate = candidateBaseNameList.get(candidateBaseNameList.size() - 1); // Add longest candidate as a collision string. collisionStrToLongestCandidatesMultimap.put(longestCandidate, exprRoot); // Add all suffixes that begin after an underscore char as collision strings. for (int j = 0, n = longestCandidate.length(); j < n; j++) { if (longestCandidate.charAt(j) == '_') { collisionStrToLongestCandidatesMultimap.put(longestCandidate.substring(j + 1), exprRoot); } } } // --- Find the shortest noncolliding candidate base name for each expression. --- List<String> noncollidingBaseNames = Lists.newArrayListWithCapacity(numExprs); OUTER: for (int i = 0; i < numExprs; i++) { List<String> candidateBaseNameList = candidateBaseNameLists.get(i); if (!candidateBaseNameList.isEmpty()) { // Has candidates: Use the shortest candidate that doesn't collide. for (String candidateBaseName : candidateBaseNameList) { if (collisionStrToLongestCandidatesMultimap.get(candidateBaseName).size() == 1) { // Found candidate with 1 value in multimap, which means no collision. noncollidingBaseNames.add(candidateBaseName); continue OUTER; } } // Did not find any candidate with no collision. ExprNode exprRoot = exprNodes.get(i); String longestCandidate = candidateBaseNameList.get(candidateBaseNameList.size() - 1); ExprNode collidingExprRoot = null; for (ExprNode er : collisionStrToLongestCandidatesMultimap.get(longestCandidate)) { if (er != exprRoot) { collidingExprRoot = er; break; } } errorReporter.report( collidingExprRoot.getSourceLocation(), COLLIDING_EXPRESSIONS, exprRoot.toSourceString(), collidingExprRoot.toSourceString()); return noncollidingBaseNames; } else { // No candidates: Use fallback. noncollidingBaseNames.add(fallbackBaseName); } } return noncollidingBaseNames; }
class class_name[name] begin[{] method[genNoncollidingBaseNamesForExprs, return_type[type[List]], modifier[public static], parameter[exprNodes, fallbackBaseName, errorReporter]] begin[{] local_variable[type[int], numExprs] local_variable[type[List], candidateBaseNameLists] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[MemberReference(member=exprRoot, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=genCandidateBaseNamesForExpr, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)], member=add, postfix_operators=[], prefix_operators=[], qualifier=candidateBaseNameLists, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MemberReference(member=exprNodes, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=exprRoot)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=ExprNode, sub_type=None))), label=None) local_variable[type[Multimap], collisionStrToLongestCandidatesMultimap] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=get, postfix_operators=[], prefix_operators=[], qualifier=exprNodes, selectors=[], type_arguments=None), name=exprRoot)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=ExprNode, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=get, postfix_operators=[], prefix_operators=[], qualifier=candidateBaseNameLists, selectors=[], type_arguments=None), name=candidateBaseNameList)], 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=[], member=isEmpty, postfix_operators=[], prefix_operators=[], qualifier=candidateBaseNameList, selectors=[], type_arguments=None), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[ContinueStatement(goto=None, label=None)])), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[BinaryOperation(operandl=MethodInvocation(arguments=[], member=size, postfix_operators=[], prefix_operators=[], qualifier=candidateBaseNameList, selectors=[], type_arguments=None), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=-)], member=get, postfix_operators=[], prefix_operators=[], qualifier=candidateBaseNameList, selectors=[], type_arguments=None), name=longestCandidate)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=longestCandidate, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=exprRoot, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=put, postfix_operators=[], prefix_operators=[], qualifier=collisionStrToLongestCandidatesMultimap, selectors=[], type_arguments=None), label=None), ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=MethodInvocation(arguments=[MemberReference(member=j, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=charAt, postfix_operators=[], prefix_operators=[], qualifier=longestCandidate, selectors=[], type_arguments=None), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='_'), operator===), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[BinaryOperation(operandl=MemberReference(member=j, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=+)], member=substring, postfix_operators=[], prefix_operators=[], qualifier=longestCandidate, selectors=[], type_arguments=None), MemberReference(member=exprRoot, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=put, postfix_operators=[], prefix_operators=[], qualifier=collisionStrToLongestCandidatesMultimap, selectors=[], type_arguments=None), label=None)]))]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=j, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=n, 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), VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=length, postfix_operators=[], prefix_operators=[], qualifier=longestCandidate, selectors=[], type_arguments=None), name=n)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=j, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=numExprs, 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) local_variable[type[List], noncollidingBaseNames] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=get, postfix_operators=[], prefix_operators=[], qualifier=candidateBaseNameLists, selectors=[], type_arguments=None), name=candidateBaseNameList)], 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=[], member=isEmpty, postfix_operators=[], prefix_operators=['!'], qualifier=candidateBaseNameList, selectors=[], type_arguments=None), else_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=fallbackBaseName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=add, postfix_operators=[], prefix_operators=[], qualifier=noncollidingBaseNames, selectors=[], type_arguments=None), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=MethodInvocation(arguments=[MemberReference(member=candidateBaseName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=get, postfix_operators=[], prefix_operators=[], qualifier=collisionStrToLongestCandidatesMultimap, selectors=[MethodInvocation(arguments=[], member=size, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator===), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=candidateBaseName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=add, postfix_operators=[], prefix_operators=[], qualifier=noncollidingBaseNames, selectors=[], type_arguments=None), label=None), ContinueStatement(goto=OUTER, label=None)]))]), control=EnhancedForControl(iterable=MemberReference(member=candidateBaseNameList, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=candidateBaseName)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None))), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=get, postfix_operators=[], prefix_operators=[], qualifier=exprNodes, selectors=[], type_arguments=None), name=exprRoot)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=ExprNode, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[BinaryOperation(operandl=MethodInvocation(arguments=[], member=size, postfix_operators=[], prefix_operators=[], qualifier=candidateBaseNameList, selectors=[], type_arguments=None), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=-)], member=get, postfix_operators=[], prefix_operators=[], qualifier=candidateBaseNameList, selectors=[], type_arguments=None), name=longestCandidate)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), name=collidingExprRoot)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=ExprNode, sub_type=None)), ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=er, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=exprRoot, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=!=), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=collidingExprRoot, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MemberReference(member=er, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), label=None), BreakStatement(goto=None, label=None)]))]), control=EnhancedForControl(iterable=MethodInvocation(arguments=[MemberReference(member=longestCandidate, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=get, postfix_operators=[], prefix_operators=[], qualifier=collisionStrToLongestCandidatesMultimap, selectors=[], type_arguments=None), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=er)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=ExprNode, sub_type=None))), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getSourceLocation, postfix_operators=[], prefix_operators=[], qualifier=collidingExprRoot, selectors=[], type_arguments=None), MemberReference(member=COLLIDING_EXPRESSIONS, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MethodInvocation(arguments=[], member=toSourceString, postfix_operators=[], prefix_operators=[], qualifier=exprRoot, selectors=[], type_arguments=None), MethodInvocation(arguments=[], member=toSourceString, postfix_operators=[], prefix_operators=[], qualifier=collidingExprRoot, selectors=[], type_arguments=None)], member=report, postfix_operators=[], prefix_operators=[], qualifier=errorReporter, selectors=[], type_arguments=None), label=None), ReturnStatement(expression=MemberReference(member=noncollidingBaseNames, 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=numExprs, 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=OUTER) return[member[.noncollidingBaseNames]] end[}] END[}]
Keyword[public] Keyword[static] identifier[List] operator[<] identifier[String] operator[>] identifier[genNoncollidingBaseNamesForExprs] operator[SEP] identifier[List] operator[<] identifier[ExprNode] operator[>] identifier[exprNodes] , identifier[String] identifier[fallbackBaseName] , identifier[ErrorReporter] identifier[errorReporter] operator[SEP] { Keyword[int] identifier[numExprs] operator[=] identifier[exprNodes] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] identifier[List] operator[<] identifier[List] operator[<] identifier[String] operator[>] operator[>] identifier[candidateBaseNameLists] operator[=] identifier[Lists] operator[SEP] identifier[newArrayListWithCapacity] operator[SEP] identifier[numExprs] operator[SEP] operator[SEP] Keyword[for] operator[SEP] identifier[ExprNode] identifier[exprRoot] operator[:] identifier[exprNodes] operator[SEP] { identifier[candidateBaseNameLists] operator[SEP] identifier[add] operator[SEP] identifier[genCandidateBaseNamesForExpr] operator[SEP] identifier[exprRoot] operator[SEP] operator[SEP] operator[SEP] } identifier[Multimap] operator[<] identifier[String] , identifier[ExprNode] operator[>] identifier[collisionStrToLongestCandidatesMultimap] operator[=] identifier[HashMultimap] operator[SEP] identifier[create] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[numExprs] operator[SEP] identifier[i] operator[++] operator[SEP] { identifier[ExprNode] identifier[exprRoot] operator[=] identifier[exprNodes] operator[SEP] identifier[get] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[List] operator[<] identifier[String] operator[>] identifier[candidateBaseNameList] operator[=] identifier[candidateBaseNameLists] operator[SEP] identifier[get] operator[SEP] identifier[i] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[candidateBaseNameList] operator[SEP] identifier[isEmpty] operator[SEP] operator[SEP] operator[SEP] { Keyword[continue] operator[SEP] } identifier[String] identifier[longestCandidate] operator[=] identifier[candidateBaseNameList] operator[SEP] identifier[get] operator[SEP] identifier[candidateBaseNameList] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[-] Other[1] operator[SEP] operator[SEP] identifier[collisionStrToLongestCandidatesMultimap] operator[SEP] identifier[put] operator[SEP] identifier[longestCandidate] , identifier[exprRoot] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[j] operator[=] Other[0] , identifier[n] operator[=] identifier[longestCandidate] operator[SEP] identifier[length] operator[SEP] operator[SEP] operator[SEP] identifier[j] operator[<] identifier[n] operator[SEP] identifier[j] operator[++] operator[SEP] { Keyword[if] operator[SEP] identifier[longestCandidate] operator[SEP] identifier[charAt] operator[SEP] identifier[j] operator[SEP] operator[==] literal[String] operator[SEP] { identifier[collisionStrToLongestCandidatesMultimap] operator[SEP] identifier[put] operator[SEP] identifier[longestCandidate] operator[SEP] identifier[substring] operator[SEP] identifier[j] operator[+] Other[1] operator[SEP] , identifier[exprRoot] operator[SEP] operator[SEP] } } } identifier[List] operator[<] identifier[String] operator[>] identifier[noncollidingBaseNames] operator[=] identifier[Lists] operator[SEP] identifier[newArrayListWithCapacity] operator[SEP] identifier[numExprs] operator[SEP] operator[SEP] identifier[OUTER] operator[:] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[numExprs] operator[SEP] identifier[i] operator[++] operator[SEP] { identifier[List] operator[<] identifier[String] operator[>] identifier[candidateBaseNameList] operator[=] identifier[candidateBaseNameLists] operator[SEP] identifier[get] operator[SEP] identifier[i] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[candidateBaseNameList] operator[SEP] identifier[isEmpty] operator[SEP] operator[SEP] operator[SEP] { Keyword[for] operator[SEP] identifier[String] identifier[candidateBaseName] operator[:] identifier[candidateBaseNameList] operator[SEP] { Keyword[if] operator[SEP] identifier[collisionStrToLongestCandidatesMultimap] operator[SEP] identifier[get] operator[SEP] identifier[candidateBaseName] operator[SEP] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[==] Other[1] operator[SEP] { identifier[noncollidingBaseNames] operator[SEP] identifier[add] operator[SEP] identifier[candidateBaseName] operator[SEP] operator[SEP] Keyword[continue] identifier[OUTER] operator[SEP] } } identifier[ExprNode] identifier[exprRoot] operator[=] identifier[exprNodes] operator[SEP] identifier[get] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[String] identifier[longestCandidate] operator[=] identifier[candidateBaseNameList] operator[SEP] identifier[get] operator[SEP] identifier[candidateBaseNameList] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[-] Other[1] operator[SEP] operator[SEP] identifier[ExprNode] identifier[collidingExprRoot] operator[=] Other[null] operator[SEP] Keyword[for] operator[SEP] identifier[ExprNode] identifier[er] operator[:] identifier[collisionStrToLongestCandidatesMultimap] operator[SEP] identifier[get] operator[SEP] identifier[longestCandidate] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] identifier[er] operator[!=] identifier[exprRoot] operator[SEP] { identifier[collidingExprRoot] operator[=] identifier[er] operator[SEP] Keyword[break] operator[SEP] } } identifier[errorReporter] operator[SEP] identifier[report] operator[SEP] identifier[collidingExprRoot] operator[SEP] identifier[getSourceLocation] operator[SEP] operator[SEP] , identifier[COLLIDING_EXPRESSIONS] , identifier[exprRoot] operator[SEP] identifier[toSourceString] operator[SEP] operator[SEP] , identifier[collidingExprRoot] operator[SEP] identifier[toSourceString] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[noncollidingBaseNames] operator[SEP] } Keyword[else] { identifier[noncollidingBaseNames] operator[SEP] identifier[add] operator[SEP] identifier[fallbackBaseName] operator[SEP] operator[SEP] } } Keyword[return] identifier[noncollidingBaseNames] operator[SEP] }
void printUsageInfo() { StringBuilder usage = new StringBuilder(); usage.append(" System Properties: \n"); usage.append(" -DselionHome=<folderPath>: \n"); usage.append(" Path of SeLion home directory. Defaults to <user.home>/.selion2/ \n"); usage.append(" -D[property]=[value]: \n"); usage.append(" Any other System Property you wish to pass to the JVM \n"); System.out.print(usage.toString()); }
class class_name[name] begin[{] method[printUsageInfo, return_type[void], modifier[default], parameter[]] begin[{] local_variable[type[StringBuilder], usage] call[usage.append, parameter[literal[" System Properties: \n"]]] call[usage.append, parameter[literal[" -DselionHome=<folderPath>: \n"]]] call[usage.append, parameter[literal[" Path of SeLion home directory. Defaults to <user.home>/.selion2/ \n"]]] call[usage.append, parameter[literal[" -D[property]=[value]: \n"]]] call[usage.append, parameter[literal[" Any other System Property you wish to pass to the JVM \n"]]] call[System.out.print, parameter[call[usage.toString, parameter[]]]] end[}] END[}]
Keyword[void] identifier[printUsageInfo] operator[SEP] operator[SEP] { identifier[StringBuilder] identifier[usage] operator[=] Keyword[new] identifier[StringBuilder] operator[SEP] operator[SEP] operator[SEP] identifier[usage] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[usage] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[usage] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[usage] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[usage] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[System] operator[SEP] identifier[out] operator[SEP] identifier[print] operator[SEP] identifier[usage] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] operator[SEP] }
@Override public void destroy() { try { super.destroy(); } finally { if (jedisConnector != null && myOwnRedis) { try { jedisConnector.destroy(); } catch (Exception e) { LOGGER.warn(e.getMessage(), e); } finally { jedisConnector = null; } } } }
class class_name[name] begin[{] method[destroy, return_type[void], modifier[public], parameter[]] begin[{] TryStatement(block=[StatementExpression(expression=SuperMethodInvocation(arguments=[], member=destroy, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type_arguments=None), label=None)], catches=None, finally_block=[IfStatement(condition=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=jedisConnector, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator=!=), operandr=MemberReference(member=myOwnRedis, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=&&), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[], member=destroy, postfix_operators=[], prefix_operators=[], qualifier=jedisConnector, 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=warn, postfix_operators=[], prefix_operators=[], qualifier=LOGGER, selectors=[], type_arguments=None), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['Exception']))], finally_block=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=jedisConnector, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null)), label=None)], label=None, resources=None)]))], label=None, resources=None) end[}] END[}]
annotation[@] identifier[Override] Keyword[public] Keyword[void] identifier[destroy] operator[SEP] operator[SEP] { Keyword[try] { Keyword[super] operator[SEP] identifier[destroy] operator[SEP] operator[SEP] operator[SEP] } Keyword[finally] { Keyword[if] operator[SEP] identifier[jedisConnector] operator[!=] Other[null] operator[&&] identifier[myOwnRedis] operator[SEP] { Keyword[try] { identifier[jedisConnector] operator[SEP] identifier[destroy] operator[SEP] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[Exception] identifier[e] operator[SEP] { identifier[LOGGER] operator[SEP] identifier[warn] operator[SEP] identifier[e] operator[SEP] identifier[getMessage] operator[SEP] operator[SEP] , identifier[e] operator[SEP] operator[SEP] } Keyword[finally] { identifier[jedisConnector] operator[=] Other[null] operator[SEP] } } } }
public java.util.List<ContainerStateChange> getContainers() { if (containers == null) { containers = new com.amazonaws.internal.SdkInternalList<ContainerStateChange>(); } return containers; }
class class_name[name] begin[{] method[getContainers, return_type[type[java]], modifier[public], parameter[]] begin[{] if[binary_operation[member[.containers], ==, literal[null]]] begin[{] assign[member[.containers], ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=com, sub_type=ReferenceType(arguments=None, dimensions=None, name=amazonaws, sub_type=ReferenceType(arguments=None, dimensions=None, name=internal, sub_type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=ContainerStateChange, sub_type=None))], dimensions=None, name=SdkInternalList, sub_type=None)))))] else begin[{] None end[}] return[member[.containers]] end[}] END[}]
Keyword[public] identifier[java] operator[SEP] identifier[util] operator[SEP] identifier[List] operator[<] identifier[ContainerStateChange] operator[>] identifier[getContainers] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] identifier[containers] operator[==] Other[null] operator[SEP] { identifier[containers] operator[=] Keyword[new] identifier[com] operator[SEP] identifier[amazonaws] operator[SEP] identifier[internal] operator[SEP] identifier[SdkInternalList] operator[<] identifier[ContainerStateChange] operator[>] operator[SEP] operator[SEP] operator[SEP] } Keyword[return] identifier[containers] operator[SEP] }
public Collection<BeanRule> getBeanRules() { Collection<BeanRule> idBasedBeanRules = beanRuleRegistry.getIdBasedBeanRules(); Collection<Set<BeanRule>> typeBasedBeanRules = beanRuleRegistry.getTypeBasedBeanRules(); Collection<BeanRule> configurableBeanRules = beanRuleRegistry.getConfigurableBeanRules(); int capacity = idBasedBeanRules.size(); for (Set<BeanRule> brs : typeBasedBeanRules) { capacity += brs.size(); } capacity += configurableBeanRules.size(); capacity = (int)(capacity / 0.9f) + 1; Set<BeanRule> beanRuleSet = new HashSet<>(capacity, 0.9f); beanRuleSet.addAll(idBasedBeanRules); for (Set<BeanRule> brs : typeBasedBeanRules) { beanRuleSet.addAll(brs); } beanRuleSet.addAll(configurableBeanRules); return beanRuleSet; }
class class_name[name] begin[{] method[getBeanRules, return_type[type[Collection]], modifier[public], parameter[]] begin[{] local_variable[type[Collection], idBasedBeanRules] local_variable[type[Collection], typeBasedBeanRules] local_variable[type[Collection], configurableBeanRules] local_variable[type[int], capacity] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=capacity, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=+=, value=MethodInvocation(arguments=[], member=size, postfix_operators=[], prefix_operators=[], qualifier=brs, selectors=[], type_arguments=None)), label=None)]), control=EnhancedForControl(iterable=MemberReference(member=typeBasedBeanRules, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=brs)], modifiers=set(), type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=BeanRule, sub_type=None))], dimensions=[], name=Set, sub_type=None))), label=None) assign[member[.capacity], call[configurableBeanRules.size, parameter[]]] assign[member[.capacity], binary_operation[Cast(expression=BinaryOperation(operandl=MemberReference(member=capacity, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0.9f), operator=/), type=BasicType(dimensions=[], name=int)), +, literal[1]]] local_variable[type[Set], beanRuleSet] call[beanRuleSet.addAll, parameter[member[.idBasedBeanRules]]] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=brs, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=addAll, postfix_operators=[], prefix_operators=[], qualifier=beanRuleSet, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MemberReference(member=typeBasedBeanRules, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=brs)], modifiers=set(), type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=BeanRule, sub_type=None))], dimensions=[], name=Set, sub_type=None))), label=None) call[beanRuleSet.addAll, parameter[member[.configurableBeanRules]]] return[member[.beanRuleSet]] end[}] END[}]
Keyword[public] identifier[Collection] operator[<] identifier[BeanRule] operator[>] identifier[getBeanRules] operator[SEP] operator[SEP] { identifier[Collection] operator[<] identifier[BeanRule] operator[>] identifier[idBasedBeanRules] operator[=] identifier[beanRuleRegistry] operator[SEP] identifier[getIdBasedBeanRules] operator[SEP] operator[SEP] operator[SEP] identifier[Collection] operator[<] identifier[Set] operator[<] identifier[BeanRule] operator[>] operator[>] identifier[typeBasedBeanRules] operator[=] identifier[beanRuleRegistry] operator[SEP] identifier[getTypeBasedBeanRules] operator[SEP] operator[SEP] operator[SEP] identifier[Collection] operator[<] identifier[BeanRule] operator[>] identifier[configurableBeanRules] operator[=] identifier[beanRuleRegistry] operator[SEP] identifier[getConfigurableBeanRules] operator[SEP] operator[SEP] operator[SEP] Keyword[int] identifier[capacity] operator[=] identifier[idBasedBeanRules] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] identifier[Set] operator[<] identifier[BeanRule] operator[>] identifier[brs] operator[:] identifier[typeBasedBeanRules] operator[SEP] { identifier[capacity] operator[+=] identifier[brs] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] } identifier[capacity] operator[+=] identifier[configurableBeanRules] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] identifier[capacity] operator[=] operator[SEP] Keyword[int] operator[SEP] operator[SEP] identifier[capacity] operator[/] literal[Float] operator[SEP] operator[+] Other[1] operator[SEP] identifier[Set] operator[<] identifier[BeanRule] operator[>] identifier[beanRuleSet] operator[=] Keyword[new] identifier[HashSet] operator[<] operator[>] operator[SEP] identifier[capacity] , literal[Float] operator[SEP] operator[SEP] identifier[beanRuleSet] operator[SEP] identifier[addAll] operator[SEP] identifier[idBasedBeanRules] operator[SEP] operator[SEP] Keyword[for] operator[SEP] identifier[Set] operator[<] identifier[BeanRule] operator[>] identifier[brs] operator[:] identifier[typeBasedBeanRules] operator[SEP] { identifier[beanRuleSet] operator[SEP] identifier[addAll] operator[SEP] identifier[brs] operator[SEP] operator[SEP] } identifier[beanRuleSet] operator[SEP] identifier[addAll] operator[SEP] identifier[configurableBeanRules] operator[SEP] operator[SEP] Keyword[return] identifier[beanRuleSet] operator[SEP] }
public static base_responses enable(nitro_service client, String servicegroupname[]) throws Exception { base_responses result = null; if (servicegroupname != null && servicegroupname.length > 0) { servicegroup enableresources[] = new servicegroup[servicegroupname.length]; for (int i=0;i<servicegroupname.length;i++){ enableresources[i] = new servicegroup(); enableresources[i].servicegroupname = servicegroupname[i]; } result = perform_operation_bulk_request(client, enableresources,"enable"); } return result; }
class class_name[name] begin[{] method[enable, return_type[type[base_responses]], modifier[public static], parameter[client, servicegroupname]] begin[{] local_variable[type[base_responses], result] if[binary_operation[binary_operation[member[.servicegroupname], !=, literal[null]], &&, binary_operation[member[servicegroupname.length], >, literal[0]]]] begin[{] local_variable[type[servicegroup], enableresources] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=enableresources, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, 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=servicegroup, sub_type=None))), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=enableresources, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), MemberReference(member=servicegroupname, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None)]), type==, value=MemberReference(member=servicegroupname, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))])), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=length, postfix_operators=[], prefix_operators=[], qualifier=servicegroupname, 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[.result], call[.perform_operation_bulk_request, parameter[member[.client], member[.enableresources], literal["enable"]]]] else begin[{] None end[}] return[member[.result]] end[}] END[}]
Keyword[public] Keyword[static] identifier[base_responses] identifier[enable] operator[SEP] identifier[nitro_service] identifier[client] , identifier[String] identifier[servicegroupname] operator[SEP] operator[SEP] operator[SEP] Keyword[throws] identifier[Exception] { identifier[base_responses] identifier[result] operator[=] Other[null] operator[SEP] Keyword[if] operator[SEP] identifier[servicegroupname] operator[!=] Other[null] operator[&&] identifier[servicegroupname] operator[SEP] identifier[length] operator[>] Other[0] operator[SEP] { identifier[servicegroup] identifier[enableresources] operator[SEP] operator[SEP] operator[=] Keyword[new] identifier[servicegroup] operator[SEP] identifier[servicegroupname] operator[SEP] identifier[length] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[servicegroupname] operator[SEP] identifier[length] operator[SEP] identifier[i] operator[++] operator[SEP] { identifier[enableresources] operator[SEP] identifier[i] operator[SEP] operator[=] Keyword[new] identifier[servicegroup] operator[SEP] operator[SEP] operator[SEP] identifier[enableresources] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[servicegroupname] operator[=] identifier[servicegroupname] operator[SEP] identifier[i] operator[SEP] operator[SEP] } identifier[result] operator[=] identifier[perform_operation_bulk_request] operator[SEP] identifier[client] , identifier[enableresources] , literal[String] operator[SEP] operator[SEP] } Keyword[return] identifier[result] operator[SEP] }
public int await(TimeUnit unit, long length) { int pollPeriodMillis = getPollPeriodMillis(); long startTime = System.currentTimeMillis(); long expireTime = startTime + unit.toMillis(length); int iteration = 0; boolean success = false; while(true) { iteration++; try { validate(); //no assertion errors? condition passes, we can continue success = true; break; } catch (Throwable r) { if ( r instanceof FailImmediatelyException) { throw (FailImmediatelyException)r; } else if ( r.getCause() instanceof FailImmediatelyException) { throw (FailImmediatelyException)r.getCause(); } //ignore failures up until the last check } sleepUntil(startTime + (pollPeriodMillis * iteration)); if ( System.currentTimeMillis() >= expireTime) { break; } } if ( ! success ) { try { validate(); //this time allow any assertion errors to propagate } catch (Throwable e) { propagateAsError(e); } } return iteration; }
class class_name[name] begin[{] method[await, return_type[type[int]], modifier[public], parameter[unit, length]] begin[{] local_variable[type[int], pollPeriodMillis] local_variable[type[long], startTime] local_variable[type[long], expireTime] local_variable[type[int], iteration] local_variable[type[boolean], success] while[literal[true]] begin[{] member[.iteration] TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[], member=validate, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=success, 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)], catches=[CatchClause(block=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=r, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=FailImmediatelyException, sub_type=None), operator=instanceof), else_statement=IfStatement(condition=BinaryOperation(operandl=MethodInvocation(arguments=[], member=getCause, postfix_operators=[], prefix_operators=[], qualifier=r, selectors=[], type_arguments=None), operandr=ReferenceType(arguments=None, dimensions=[], name=FailImmediatelyException, sub_type=None), operator=instanceof), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[ThrowStatement(expression=Cast(expression=MethodInvocation(arguments=[], member=getCause, postfix_operators=[], prefix_operators=[], qualifier=r, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=FailImmediatelyException, sub_type=None)), label=None)])), label=None, then_statement=BlockStatement(label=None, statements=[ThrowStatement(expression=Cast(expression=MemberReference(member=r, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=FailImmediatelyException, sub_type=None)), label=None)]))], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=r, types=['Throwable']))], finally_block=None, label=None, resources=None) call[.sleepUntil, parameter[binary_operation[member[.startTime], +, binary_operation[member[.pollPeriodMillis], *, member[.iteration]]]]] if[binary_operation[call[System.currentTimeMillis, parameter[]], >=, member[.expireTime]]] begin[{] BreakStatement(goto=None, label=None) else begin[{] None end[}] end[}] if[member[.success]] begin[{] TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[], member=validate, 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=[])], member=propagateAsError, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['Throwable']))], finally_block=None, label=None, resources=None) else begin[{] None end[}] return[member[.iteration]] end[}] END[}]
Keyword[public] Keyword[int] identifier[await] operator[SEP] identifier[TimeUnit] identifier[unit] , Keyword[long] identifier[length] operator[SEP] { Keyword[int] identifier[pollPeriodMillis] operator[=] identifier[getPollPeriodMillis] operator[SEP] operator[SEP] operator[SEP] Keyword[long] identifier[startTime] operator[=] identifier[System] operator[SEP] identifier[currentTimeMillis] operator[SEP] operator[SEP] operator[SEP] Keyword[long] identifier[expireTime] operator[=] identifier[startTime] operator[+] identifier[unit] operator[SEP] identifier[toMillis] operator[SEP] identifier[length] operator[SEP] operator[SEP] Keyword[int] identifier[iteration] operator[=] Other[0] operator[SEP] Keyword[boolean] identifier[success] operator[=] literal[boolean] operator[SEP] Keyword[while] operator[SEP] literal[boolean] operator[SEP] { identifier[iteration] operator[++] operator[SEP] Keyword[try] { identifier[validate] operator[SEP] operator[SEP] operator[SEP] identifier[success] operator[=] literal[boolean] operator[SEP] Keyword[break] operator[SEP] } Keyword[catch] operator[SEP] identifier[Throwable] identifier[r] operator[SEP] { Keyword[if] operator[SEP] identifier[r] Keyword[instanceof] identifier[FailImmediatelyException] operator[SEP] { Keyword[throw] operator[SEP] identifier[FailImmediatelyException] operator[SEP] identifier[r] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[r] operator[SEP] identifier[getCause] operator[SEP] operator[SEP] Keyword[instanceof] identifier[FailImmediatelyException] operator[SEP] { Keyword[throw] operator[SEP] identifier[FailImmediatelyException] operator[SEP] identifier[r] operator[SEP] identifier[getCause] operator[SEP] operator[SEP] operator[SEP] } } identifier[sleepUntil] operator[SEP] identifier[startTime] operator[+] operator[SEP] identifier[pollPeriodMillis] operator[*] identifier[iteration] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[System] operator[SEP] identifier[currentTimeMillis] operator[SEP] operator[SEP] operator[>=] identifier[expireTime] operator[SEP] { Keyword[break] operator[SEP] } } Keyword[if] operator[SEP] operator[!] identifier[success] operator[SEP] { Keyword[try] { identifier[validate] operator[SEP] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[Throwable] identifier[e] operator[SEP] { identifier[propagateAsError] operator[SEP] identifier[e] operator[SEP] operator[SEP] } } Keyword[return] identifier[iteration] operator[SEP] }
@Override public boolean registerForNotifications(Notification targets, NotificationListener callbackObject) throws IllegalArgumentException { // Convert the targets to the right root, only need to do this if we have a fake root final Notification rootNotification; if (this.isNotifierForFakeRoot) { // Have a fake root so convert the paths, need to also move ! to the front of the path to indicate a non-recursive listener Collection<String> newTargetPaths = new HashSet<String>(); for (String oldPath : targets.getPaths()) { final StringBuilder newPath = new StringBuilder(); if (oldPath.startsWith("!")) { newPath.append("!"); oldPath = oldPath.substring(1); } newPath.append(pathInRealRoot); // Notification paths don't end in "/", except for root. // "/x.jar" + "/" should result in "/x.jar", not "/x.jar/". if (!oldPath.equals("/")) { newPath.append(oldPath); } newTargetPaths.add(newPath.toString()); } rootNotification = new DefaultNotification(targets.getContainer(), newTargetPaths); } else { /* * We aren't a fake root so we can use the original set of targets, even if the targets live within a child fake root that is ok as the targets in the artifact API * will be the same, we'll sort out converting the child fake root when we get a notification back */ rootNotification = targets; } /* * Instead of registering the callbackObject directly, wrap it in a CorrectInterpretedPath listener that will handle converting paths given by the artifact layer to the * correct state as seen by the interpreted layer */ CorrectInterpretedPathListener interpretedListener = new CorrectInterpretedPathListener(callbackObject); // Now register against our delegate, this will also validate the targets boolean isRegistered = this.delegateNotifier.registerForNotifications(rootNotification, interpretedListener); if (isRegistered) { // We could register with the delegate so keep track of the listener (in case we need to unregister it later) this.listeners.put(callbackObject, interpretedListener); } return isRegistered; }
class class_name[name] begin[{] method[registerForNotifications, return_type[type[boolean]], modifier[public], parameter[targets, callbackObject]] begin[{] local_variable[type[Notification], rootNotification] if[THIS[member[None.isNotifierForFakeRoot]]] begin[{] local_variable[type[Collection], newTargetPaths] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=StringBuilder, sub_type=None)), name=newPath)], modifiers={'final'}, type=ReferenceType(arguments=None, dimensions=[], name=StringBuilder, sub_type=None)), IfStatement(condition=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="!")], member=startsWith, postfix_operators=[], prefix_operators=[], qualifier=oldPath, 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="!")], member=append, postfix_operators=[], prefix_operators=[], qualifier=newPath, selectors=[], type_arguments=None), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=oldPath, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1)], member=substring, postfix_operators=[], prefix_operators=[], qualifier=oldPath, selectors=[], type_arguments=None)), label=None)])), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=pathInRealRoot, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=append, postfix_operators=[], prefix_operators=[], qualifier=newPath, selectors=[], type_arguments=None), label=None), IfStatement(condition=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="/")], member=equals, postfix_operators=[], prefix_operators=['!'], qualifier=oldPath, selectors=[], type_arguments=None), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=oldPath, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=append, postfix_operators=[], prefix_operators=[], qualifier=newPath, selectors=[], type_arguments=None), label=None)])), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=toString, postfix_operators=[], prefix_operators=[], qualifier=newPath, selectors=[], type_arguments=None)], member=add, postfix_operators=[], prefix_operators=[], qualifier=newTargetPaths, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MethodInvocation(arguments=[], member=getPaths, postfix_operators=[], prefix_operators=[], qualifier=targets, selectors=[], type_arguments=None), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=oldPath)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None))), label=None) assign[member[.rootNotification], ClassCreator(arguments=[MethodInvocation(arguments=[], member=getContainer, postfix_operators=[], prefix_operators=[], qualifier=targets, selectors=[], type_arguments=None), MemberReference(member=newTargetPaths, 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=DefaultNotification, sub_type=None))] else begin[{] assign[member[.rootNotification], member[.targets]] end[}] local_variable[type[CorrectInterpretedPathListener], interpretedListener] local_variable[type[boolean], isRegistered] if[member[.isRegistered]] begin[{] THIS[member[None.listeners]call[None.put, parameter[member[.callbackObject], member[.interpretedListener]]]] else begin[{] None end[}] return[member[.isRegistered]] end[}] END[}]
annotation[@] identifier[Override] Keyword[public] Keyword[boolean] identifier[registerForNotifications] operator[SEP] identifier[Notification] identifier[targets] , identifier[NotificationListener] identifier[callbackObject] operator[SEP] Keyword[throws] identifier[IllegalArgumentException] { Keyword[final] identifier[Notification] identifier[rootNotification] operator[SEP] Keyword[if] operator[SEP] Keyword[this] operator[SEP] identifier[isNotifierForFakeRoot] operator[SEP] { identifier[Collection] operator[<] identifier[String] operator[>] identifier[newTargetPaths] operator[=] Keyword[new] identifier[HashSet] operator[<] identifier[String] operator[>] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] identifier[String] identifier[oldPath] operator[:] identifier[targets] operator[SEP] identifier[getPaths] operator[SEP] operator[SEP] operator[SEP] { Keyword[final] identifier[StringBuilder] identifier[newPath] operator[=] Keyword[new] identifier[StringBuilder] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[oldPath] operator[SEP] identifier[startsWith] operator[SEP] literal[String] operator[SEP] operator[SEP] { identifier[newPath] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[oldPath] operator[=] identifier[oldPath] operator[SEP] identifier[substring] operator[SEP] Other[1] operator[SEP] operator[SEP] } identifier[newPath] operator[SEP] identifier[append] operator[SEP] identifier[pathInRealRoot] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[oldPath] operator[SEP] identifier[equals] operator[SEP] literal[String] operator[SEP] operator[SEP] { identifier[newPath] operator[SEP] identifier[append] operator[SEP] identifier[oldPath] operator[SEP] operator[SEP] } identifier[newTargetPaths] operator[SEP] identifier[add] operator[SEP] identifier[newPath] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } identifier[rootNotification] operator[=] Keyword[new] identifier[DefaultNotification] operator[SEP] identifier[targets] operator[SEP] identifier[getContainer] operator[SEP] operator[SEP] , identifier[newTargetPaths] operator[SEP] operator[SEP] } Keyword[else] { identifier[rootNotification] operator[=] identifier[targets] operator[SEP] } identifier[CorrectInterpretedPathListener] identifier[interpretedListener] operator[=] Keyword[new] identifier[CorrectInterpretedPathListener] operator[SEP] identifier[callbackObject] operator[SEP] operator[SEP] Keyword[boolean] identifier[isRegistered] operator[=] Keyword[this] operator[SEP] identifier[delegateNotifier] operator[SEP] identifier[registerForNotifications] operator[SEP] identifier[rootNotification] , identifier[interpretedListener] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[isRegistered] operator[SEP] { Keyword[this] operator[SEP] identifier[listeners] operator[SEP] identifier[put] operator[SEP] identifier[callbackObject] , identifier[interpretedListener] operator[SEP] operator[SEP] } Keyword[return] identifier[isRegistered] operator[SEP] }
@Deprecated public static String getJobIDsPattern(String jtIdentifier, Integer jobId) { StringBuilder builder = new StringBuilder(JOB).append(SEPARATOR); builder.append(getJobIDsPatternWOPrefix(jtIdentifier, jobId)); return builder.toString(); }
class class_name[name] begin[{] method[getJobIDsPattern, return_type[type[String]], modifier[public static], parameter[jtIdentifier, jobId]] begin[{] local_variable[type[StringBuilder], builder] call[builder.append, parameter[call[.getJobIDsPatternWOPrefix, parameter[member[.jtIdentifier], member[.jobId]]]]] return[call[builder.toString, parameter[]]] end[}] END[}]
annotation[@] identifier[Deprecated] Keyword[public] Keyword[static] identifier[String] identifier[getJobIDsPattern] operator[SEP] identifier[String] identifier[jtIdentifier] , identifier[Integer] identifier[jobId] operator[SEP] { identifier[StringBuilder] identifier[builder] operator[=] Keyword[new] identifier[StringBuilder] operator[SEP] identifier[JOB] operator[SEP] operator[SEP] identifier[append] operator[SEP] identifier[SEPARATOR] operator[SEP] operator[SEP] identifier[builder] operator[SEP] identifier[append] operator[SEP] identifier[getJobIDsPatternWOPrefix] operator[SEP] identifier[jtIdentifier] , identifier[jobId] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[builder] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] }
private static boolean available(final int element, final int charge, final int valence) { // higher atomic number elements aren't likely to be found but // we have them for rare corner cases (tellurium). // Germanium, Silicon, Tin and Antimony are a bit bonkers... switch (Elements.ofNumber(element)) { case Boron: if (charge == 0 && valence <= 2) return true; if (charge == -1 && valence <= 3) return true; break; case Carbon: case Silicon: case Germanium: case Tin: if (charge == 0 && valence <= 3) return true; break; case Nitrogen: case Phosphorus: case Arsenic: case Antimony: if (charge == 0) return valence <= 2 || valence == 4; if (charge == 1) return valence <= 3; break; case Oxygen: case Sulfur: case Selenium: case Tellurium: // valence of three or five are really only for sulphur but // are applied generally to all of group eight for simplicity if (charge == 0) return valence <= 1 || valence == 3 || valence == 5; if (charge == 1) return valence <= 2 || valence == 4; break; } return false; }
class class_name[name] begin[{] method[available, return_type[type[boolean]], modifier[private static], parameter[element, charge, valence]] begin[{] SwitchStatement(cases=[SwitchStatementCase(case=['Boron'], statements=[IfStatement(condition=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=charge, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), operator===), operandr=BinaryOperation(operandl=MemberReference(member=valence, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2), operator=<=), operator=&&), else_statement=None, label=None, then_statement=ReturnStatement(expression=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true), label=None)), IfStatement(condition=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=charge, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=['-'], qualifier=None, selectors=[], value=1), operator===), operandr=BinaryOperation(operandl=MemberReference(member=valence, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=3), operator=<=), operator=&&), else_statement=None, label=None, then_statement=ReturnStatement(expression=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true), label=None)), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=['Carbon', 'Silicon', 'Germanium', 'Tin'], statements=[IfStatement(condition=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=charge, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), operator===), operandr=BinaryOperation(operandl=MemberReference(member=valence, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=3), operator=<=), operator=&&), else_statement=None, label=None, then_statement=ReturnStatement(expression=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true), label=None)), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=['Nitrogen', 'Phosphorus', 'Arsenic', 'Antimony'], statements=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=charge, 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=ReturnStatement(expression=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=valence, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2), operator=<=), operandr=BinaryOperation(operandl=MemberReference(member=valence, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=4), operator===), operator=||), label=None)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=charge, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator===), else_statement=None, label=None, then_statement=ReturnStatement(expression=BinaryOperation(operandl=MemberReference(member=valence, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=3), operator=<=), label=None)), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=['Oxygen', 'Sulfur', 'Selenium', 'Tellurium'], statements=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=charge, 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=ReturnStatement(expression=BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=valence, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=<=), operandr=BinaryOperation(operandl=MemberReference(member=valence, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=3), operator===), operator=||), operandr=BinaryOperation(operandl=MemberReference(member=valence, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=5), operator===), operator=||), label=None)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=charge, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator===), else_statement=None, label=None, then_statement=ReturnStatement(expression=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=valence, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2), operator=<=), operandr=BinaryOperation(operandl=MemberReference(member=valence, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=4), operator===), operator=||), label=None)), BreakStatement(goto=None, label=None)])], expression=MethodInvocation(arguments=[MemberReference(member=element, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=ofNumber, postfix_operators=[], prefix_operators=[], qualifier=Elements, selectors=[], type_arguments=None), label=None) return[literal[false]] end[}] END[}]
Keyword[private] Keyword[static] Keyword[boolean] identifier[available] operator[SEP] Keyword[final] Keyword[int] identifier[element] , Keyword[final] Keyword[int] identifier[charge] , Keyword[final] Keyword[int] identifier[valence] operator[SEP] { Keyword[switch] operator[SEP] identifier[Elements] operator[SEP] identifier[ofNumber] operator[SEP] identifier[element] operator[SEP] operator[SEP] { Keyword[case] identifier[Boron] operator[:] Keyword[if] operator[SEP] identifier[charge] operator[==] Other[0] operator[&&] identifier[valence] operator[<=] Other[2] operator[SEP] Keyword[return] literal[boolean] operator[SEP] Keyword[if] operator[SEP] identifier[charge] operator[==] operator[-] Other[1] operator[&&] identifier[valence] operator[<=] Other[3] operator[SEP] Keyword[return] literal[boolean] operator[SEP] Keyword[break] operator[SEP] Keyword[case] identifier[Carbon] operator[:] Keyword[case] identifier[Silicon] operator[:] Keyword[case] identifier[Germanium] operator[:] Keyword[case] identifier[Tin] operator[:] Keyword[if] operator[SEP] identifier[charge] operator[==] Other[0] operator[&&] identifier[valence] operator[<=] Other[3] operator[SEP] Keyword[return] literal[boolean] operator[SEP] Keyword[break] operator[SEP] Keyword[case] identifier[Nitrogen] operator[:] Keyword[case] identifier[Phosphorus] operator[:] Keyword[case] identifier[Arsenic] operator[:] Keyword[case] identifier[Antimony] operator[:] Keyword[if] operator[SEP] identifier[charge] operator[==] Other[0] operator[SEP] Keyword[return] identifier[valence] operator[<=] Other[2] operator[||] identifier[valence] operator[==] Other[4] operator[SEP] Keyword[if] operator[SEP] identifier[charge] operator[==] Other[1] operator[SEP] Keyword[return] identifier[valence] operator[<=] Other[3] operator[SEP] Keyword[break] operator[SEP] Keyword[case] identifier[Oxygen] operator[:] Keyword[case] identifier[Sulfur] operator[:] Keyword[case] identifier[Selenium] operator[:] Keyword[case] identifier[Tellurium] operator[:] Keyword[if] operator[SEP] identifier[charge] operator[==] Other[0] operator[SEP] Keyword[return] identifier[valence] operator[<=] Other[1] operator[||] identifier[valence] operator[==] Other[3] operator[||] identifier[valence] operator[==] Other[5] operator[SEP] Keyword[if] operator[SEP] identifier[charge] operator[==] Other[1] operator[SEP] Keyword[return] identifier[valence] operator[<=] Other[2] operator[||] identifier[valence] operator[==] Other[4] operator[SEP] Keyword[break] operator[SEP] } Keyword[return] literal[boolean] operator[SEP] }
public void fixupVariables(java.util.Vector vars, int globalsSize) { m_fixUpWasCalled = true; int sz = vars.size(); for (int i = vars.size()-1; i >= 0; i--) { QName qn = (QName)vars.elementAt(i); // System.out.println("qn: "+qn); if(qn.equals(m_qname)) { if(i < globalsSize) { m_isGlobal = true; m_index = i; } else { m_index = i-globalsSize; } return; } } java.lang.String msg = XSLMessages.createXPATHMessage(XPATHErrorResources.ER_COULD_NOT_FIND_VAR, new Object[]{m_qname.toString()}); TransformerException te = new TransformerException(msg, this); throw new org.apache.xml.utils.WrappedRuntimeException(te); }
class class_name[name] begin[{] method[fixupVariables, return_type[void], modifier[public], parameter[vars, globalsSize]] begin[{] assign[member[.m_fixUpWasCalled], literal[true]] local_variable[type[int], sz] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Cast(expression=MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=elementAt, postfix_operators=[], prefix_operators=[], qualifier=vars, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=QName, sub_type=None)), name=qn)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=QName, sub_type=None)), IfStatement(condition=MethodInvocation(arguments=[MemberReference(member=m_qname, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=equals, postfix_operators=[], prefix_operators=[], qualifier=qn, selectors=[], type_arguments=None), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=globalsSize, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=<), else_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=m_index, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=globalsSize, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=-)), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=m_isGlobal, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=m_index, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), label=None)])), ReturnStatement(expression=None, label=None)]))]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), operator=>=), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=BinaryOperation(operandl=MethodInvocation(arguments=[], member=size, postfix_operators=[], prefix_operators=[], qualifier=vars, selectors=[], type_arguments=None), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=-), name=i)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=i, postfix_operators=['--'], prefix_operators=[], qualifier=, selectors=[])]), label=None) local_variable[type[java], msg] local_variable[type[TransformerException], te] ThrowStatement(expression=ClassCreator(arguments=[MemberReference(member=te, 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=org, sub_type=ReferenceType(arguments=None, dimensions=None, name=apache, sub_type=ReferenceType(arguments=None, dimensions=None, name=xml, sub_type=ReferenceType(arguments=None, dimensions=None, name=utils, sub_type=ReferenceType(arguments=None, dimensions=None, name=WrappedRuntimeException, sub_type=None)))))), label=None) end[}] END[}]
Keyword[public] Keyword[void] identifier[fixupVariables] operator[SEP] identifier[java] operator[SEP] identifier[util] operator[SEP] identifier[Vector] identifier[vars] , Keyword[int] identifier[globalsSize] operator[SEP] { identifier[m_fixUpWasCalled] operator[=] literal[boolean] operator[SEP] Keyword[int] identifier[sz] operator[=] identifier[vars] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] identifier[vars] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[-] Other[1] operator[SEP] identifier[i] operator[>=] Other[0] operator[SEP] identifier[i] operator[--] operator[SEP] { identifier[QName] identifier[qn] operator[=] operator[SEP] identifier[QName] operator[SEP] identifier[vars] operator[SEP] identifier[elementAt] operator[SEP] identifier[i] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[qn] operator[SEP] identifier[equals] operator[SEP] identifier[m_qname] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] identifier[i] operator[<] identifier[globalsSize] operator[SEP] { identifier[m_isGlobal] operator[=] literal[boolean] operator[SEP] identifier[m_index] operator[=] identifier[i] operator[SEP] } Keyword[else] { identifier[m_index] operator[=] identifier[i] operator[-] identifier[globalsSize] operator[SEP] } Keyword[return] operator[SEP] } } identifier[java] operator[SEP] identifier[lang] operator[SEP] identifier[String] identifier[msg] operator[=] identifier[XSLMessages] operator[SEP] identifier[createXPATHMessage] operator[SEP] identifier[XPATHErrorResources] operator[SEP] identifier[ER_COULD_NOT_FIND_VAR] , Keyword[new] identifier[Object] operator[SEP] operator[SEP] { identifier[m_qname] operator[SEP] identifier[toString] operator[SEP] operator[SEP] } operator[SEP] operator[SEP] identifier[TransformerException] identifier[te] operator[=] Keyword[new] identifier[TransformerException] operator[SEP] identifier[msg] , Keyword[this] operator[SEP] operator[SEP] Keyword[throw] Keyword[new] identifier[org] operator[SEP] identifier[apache] operator[SEP] identifier[xml] operator[SEP] identifier[utils] operator[SEP] identifier[WrappedRuntimeException] operator[SEP] identifier[te] operator[SEP] operator[SEP] }
public ObjectResult deleteObject(SpiderTransaction parentTran, String objID) { ObjectResult result = new ObjectResult(objID); try { result.setObjectID(objID); DBObject dbObj = SpiderService.instance().getObject(m_tableDef, objID); if (dbObj != null) { deleteObject(dbObj); result.setUpdated(true); parentTran.mergeSubTransaction(m_dbTran); m_logger.trace("deleteObject(): object deleted with ID={}", objID); } else { result.setComment("Object not found"); m_logger.trace("deleteObject(): no object with ID={}", objID); } } catch (Throwable ex) { buildErrorStatus(result, objID, ex); } return result; }
class class_name[name] begin[{] method[deleteObject, return_type[type[ObjectResult]], modifier[public], parameter[parentTran, objID]] begin[{] local_variable[type[ObjectResult], result] TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=objID, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=setObjectID, postfix_operators=[], prefix_operators=[], qualifier=result, selectors=[], type_arguments=None), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=instance, postfix_operators=[], prefix_operators=[], qualifier=SpiderService, selectors=[MethodInvocation(arguments=[MemberReference(member=m_tableDef, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=objID, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getObject, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), name=dbObj)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=DBObject, sub_type=None)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=dbObj, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator=!=), else_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Object not found")], member=setComment, postfix_operators=[], prefix_operators=[], qualifier=result, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="deleteObject(): no object with ID={}"), MemberReference(member=objID, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=trace, postfix_operators=[], prefix_operators=[], qualifier=m_logger, selectors=[], type_arguments=None), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=dbObj, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=deleteObject, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)], member=setUpdated, postfix_operators=[], prefix_operators=[], qualifier=result, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=m_dbTran, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=mergeSubTransaction, postfix_operators=[], prefix_operators=[], qualifier=parentTran, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="deleteObject(): object deleted with ID={}"), MemberReference(member=objID, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=trace, postfix_operators=[], prefix_operators=[], qualifier=m_logger, selectors=[], type_arguments=None), label=None)]))], catches=[CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=result, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=objID, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=ex, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=buildErrorStatus, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=ex, types=['Throwable']))], finally_block=None, label=None, resources=None) return[member[.result]] end[}] END[}]
Keyword[public] identifier[ObjectResult] identifier[deleteObject] operator[SEP] identifier[SpiderTransaction] identifier[parentTran] , identifier[String] identifier[objID] operator[SEP] { identifier[ObjectResult] identifier[result] operator[=] Keyword[new] identifier[ObjectResult] operator[SEP] identifier[objID] operator[SEP] operator[SEP] Keyword[try] { identifier[result] operator[SEP] identifier[setObjectID] operator[SEP] identifier[objID] operator[SEP] operator[SEP] identifier[DBObject] identifier[dbObj] operator[=] identifier[SpiderService] operator[SEP] identifier[instance] operator[SEP] operator[SEP] operator[SEP] identifier[getObject] operator[SEP] identifier[m_tableDef] , identifier[objID] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[dbObj] operator[!=] Other[null] operator[SEP] { identifier[deleteObject] operator[SEP] identifier[dbObj] operator[SEP] operator[SEP] identifier[result] operator[SEP] identifier[setUpdated] operator[SEP] literal[boolean] operator[SEP] operator[SEP] identifier[parentTran] operator[SEP] identifier[mergeSubTransaction] operator[SEP] identifier[m_dbTran] operator[SEP] operator[SEP] identifier[m_logger] operator[SEP] identifier[trace] operator[SEP] literal[String] , identifier[objID] operator[SEP] operator[SEP] } Keyword[else] { identifier[result] operator[SEP] identifier[setComment] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[m_logger] operator[SEP] identifier[trace] operator[SEP] literal[String] , identifier[objID] operator[SEP] operator[SEP] } } Keyword[catch] operator[SEP] identifier[Throwable] identifier[ex] operator[SEP] { identifier[buildErrorStatus] operator[SEP] identifier[result] , identifier[objID] , identifier[ex] operator[SEP] operator[SEP] } Keyword[return] identifier[result] operator[SEP] }
private static ClientConfiguration initializeOSSClientConfig(AlluxioConfiguration alluxioConf) { ClientConfiguration ossClientConf = new ClientConfiguration(); ossClientConf .setConnectionTimeout((int) alluxioConf.getMs(PropertyKey.UNDERFS_OSS_CONNECT_TIMEOUT)); ossClientConf .setSocketTimeout((int) alluxioConf.getMs(PropertyKey.UNDERFS_OSS_SOCKET_TIMEOUT)); ossClientConf.setConnectionTTL(alluxioConf.getLong(PropertyKey.UNDERFS_OSS_CONNECT_TTL)); ossClientConf.setMaxConnections(alluxioConf.getInt(PropertyKey.UNDERFS_OSS_CONNECT_MAX)); return ossClientConf; }
class class_name[name] begin[{] method[initializeOSSClientConfig, return_type[type[ClientConfiguration]], modifier[private static], parameter[alluxioConf]] begin[{] local_variable[type[ClientConfiguration], ossClientConf] call[ossClientConf.setConnectionTimeout, parameter[Cast(expression=MethodInvocation(arguments=[MemberReference(member=UNDERFS_OSS_CONNECT_TIMEOUT, postfix_operators=[], prefix_operators=[], qualifier=PropertyKey, selectors=[])], member=getMs, postfix_operators=[], prefix_operators=[], qualifier=alluxioConf, selectors=[], type_arguments=None), type=BasicType(dimensions=[], name=int))]] call[ossClientConf.setSocketTimeout, parameter[Cast(expression=MethodInvocation(arguments=[MemberReference(member=UNDERFS_OSS_SOCKET_TIMEOUT, postfix_operators=[], prefix_operators=[], qualifier=PropertyKey, selectors=[])], member=getMs, postfix_operators=[], prefix_operators=[], qualifier=alluxioConf, selectors=[], type_arguments=None), type=BasicType(dimensions=[], name=int))]] call[ossClientConf.setConnectionTTL, parameter[call[alluxioConf.getLong, parameter[member[PropertyKey.UNDERFS_OSS_CONNECT_TTL]]]]] call[ossClientConf.setMaxConnections, parameter[call[alluxioConf.getInt, parameter[member[PropertyKey.UNDERFS_OSS_CONNECT_MAX]]]]] return[member[.ossClientConf]] end[}] END[}]
Keyword[private] Keyword[static] identifier[ClientConfiguration] identifier[initializeOSSClientConfig] operator[SEP] identifier[AlluxioConfiguration] identifier[alluxioConf] operator[SEP] { identifier[ClientConfiguration] identifier[ossClientConf] operator[=] Keyword[new] identifier[ClientConfiguration] operator[SEP] operator[SEP] operator[SEP] identifier[ossClientConf] operator[SEP] identifier[setConnectionTimeout] operator[SEP] operator[SEP] Keyword[int] operator[SEP] identifier[alluxioConf] operator[SEP] identifier[getMs] operator[SEP] identifier[PropertyKey] operator[SEP] identifier[UNDERFS_OSS_CONNECT_TIMEOUT] operator[SEP] operator[SEP] operator[SEP] identifier[ossClientConf] operator[SEP] identifier[setSocketTimeout] operator[SEP] operator[SEP] Keyword[int] operator[SEP] identifier[alluxioConf] operator[SEP] identifier[getMs] operator[SEP] identifier[PropertyKey] operator[SEP] identifier[UNDERFS_OSS_SOCKET_TIMEOUT] operator[SEP] operator[SEP] operator[SEP] identifier[ossClientConf] operator[SEP] identifier[setConnectionTTL] operator[SEP] identifier[alluxioConf] operator[SEP] identifier[getLong] operator[SEP] identifier[PropertyKey] operator[SEP] identifier[UNDERFS_OSS_CONNECT_TTL] operator[SEP] operator[SEP] operator[SEP] identifier[ossClientConf] operator[SEP] identifier[setMaxConnections] operator[SEP] identifier[alluxioConf] operator[SEP] identifier[getInt] operator[SEP] identifier[PropertyKey] operator[SEP] identifier[UNDERFS_OSS_CONNECT_MAX] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[ossClientConf] operator[SEP] }
public FrontendIPConfigurationInner get(String resourceGroupName, String loadBalancerName, String frontendIPConfigurationName) { return getWithServiceResponseAsync(resourceGroupName, loadBalancerName, frontendIPConfigurationName).toBlocking().single().body(); }
class class_name[name] begin[{] method[get, return_type[type[FrontendIPConfigurationInner]], modifier[public], parameter[resourceGroupName, loadBalancerName, frontendIPConfigurationName]] begin[{] return[call[.getWithServiceResponseAsync, parameter[member[.resourceGroupName], member[.loadBalancerName], member[.frontendIPConfigurationName]]]] end[}] END[}]
Keyword[public] identifier[FrontendIPConfigurationInner] identifier[get] operator[SEP] identifier[String] identifier[resourceGroupName] , identifier[String] identifier[loadBalancerName] , identifier[String] identifier[frontendIPConfigurationName] operator[SEP] { Keyword[return] identifier[getWithServiceResponseAsync] operator[SEP] identifier[resourceGroupName] , identifier[loadBalancerName] , identifier[frontendIPConfigurationName] operator[SEP] operator[SEP] identifier[toBlocking] operator[SEP] operator[SEP] operator[SEP] identifier[single] operator[SEP] operator[SEP] operator[SEP] identifier[body] operator[SEP] operator[SEP] operator[SEP] }
private void addWord(String word, boolean containsNewLine) { currentSentence.add(word); if (containsNewLine) { sentences.add(getSentenceFromListCheckingNewLines(currentSentence)); currentSentence.clear(); } }
class class_name[name] begin[{] method[addWord, return_type[void], modifier[private], parameter[word, containsNewLine]] begin[{] call[currentSentence.add, parameter[member[.word]]] if[member[.containsNewLine]] begin[{] call[sentences.add, parameter[call[.getSentenceFromListCheckingNewLines, parameter[member[.currentSentence]]]]] call[currentSentence.clear, parameter[]] else begin[{] None end[}] end[}] END[}]
Keyword[private] Keyword[void] identifier[addWord] operator[SEP] identifier[String] identifier[word] , Keyword[boolean] identifier[containsNewLine] operator[SEP] { identifier[currentSentence] operator[SEP] identifier[add] operator[SEP] identifier[word] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[containsNewLine] operator[SEP] { identifier[sentences] operator[SEP] identifier[add] operator[SEP] identifier[getSentenceFromListCheckingNewLines] operator[SEP] identifier[currentSentence] operator[SEP] operator[SEP] operator[SEP] identifier[currentSentence] operator[SEP] identifier[clear] operator[SEP] operator[SEP] operator[SEP] } }
public static int sum( int[] values, int start, int length ) { long sum = 0; for (int index = start; index < length; index++ ) { sum+= values[index]; } if (sum < Integer.MIN_VALUE) { die ("overflow the sum is too small", sum); } if (sum > Integer.MAX_VALUE) { die ("overflow the sum is too big", sum); } return (int) sum; }
class class_name[name] begin[{] method[sum, return_type[type[int]], modifier[public static], parameter[values, start, length]] begin[{] local_variable[type[long], sum] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=sum, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=+=, value=MemberReference(member=values, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=index, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))])), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=index, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=length, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=<), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=MemberReference(member=start, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), name=index)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=index, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None) if[binary_operation[member[.sum], <, member[Integer.MIN_VALUE]]] begin[{] call[.die, parameter[literal["overflow the sum is too small"], member[.sum]]] else begin[{] None end[}] if[binary_operation[member[.sum], >, member[Integer.MAX_VALUE]]] begin[{] call[.die, parameter[literal["overflow the sum is too big"], member[.sum]]] else begin[{] None end[}] return[Cast(expression=MemberReference(member=sum, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=BasicType(dimensions=[], name=int))] end[}] END[}]
Keyword[public] Keyword[static] Keyword[int] identifier[sum] operator[SEP] Keyword[int] operator[SEP] operator[SEP] identifier[values] , Keyword[int] identifier[start] , Keyword[int] identifier[length] operator[SEP] { Keyword[long] identifier[sum] operator[=] Other[0] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[index] operator[=] identifier[start] operator[SEP] identifier[index] operator[<] identifier[length] operator[SEP] identifier[index] operator[++] operator[SEP] { identifier[sum] operator[+=] identifier[values] operator[SEP] identifier[index] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[sum] operator[<] identifier[Integer] operator[SEP] identifier[MIN_VALUE] operator[SEP] { identifier[die] operator[SEP] literal[String] , identifier[sum] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[sum] operator[>] identifier[Integer] operator[SEP] identifier[MAX_VALUE] operator[SEP] { identifier[die] operator[SEP] literal[String] , identifier[sum] operator[SEP] operator[SEP] } Keyword[return] operator[SEP] Keyword[int] operator[SEP] identifier[sum] operator[SEP] }
private void updateResultSetDesign( IResultSetMetaData md, DataSetDesign dataSetDesign ) throws OdaException { ResultSetColumns columns = DesignSessionUtil.toResultSetColumnsDesign( md ); ResultSetDefinition resultSetDefn = DesignFactory.eINSTANCE .createResultSetDefinition(); // resultSetDefn.setName( value ); // result set name resultSetDefn.setResultSetColumns( columns ); // no exception in conversion; go ahead and assign to specified dataSetDesign dataSetDesign.setPrimaryResultSet( resultSetDefn ); dataSetDesign.getResultSets().setDerivedMetaData( true ); }
class class_name[name] begin[{] method[updateResultSetDesign, return_type[void], modifier[private], parameter[md, dataSetDesign]] begin[{] local_variable[type[ResultSetColumns], columns] local_variable[type[ResultSetDefinition], resultSetDefn] call[resultSetDefn.setResultSetColumns, parameter[member[.columns]]] call[dataSetDesign.setPrimaryResultSet, parameter[member[.resultSetDefn]]] call[dataSetDesign.getResultSets, parameter[]] end[}] END[}]
Keyword[private] Keyword[void] identifier[updateResultSetDesign] operator[SEP] identifier[IResultSetMetaData] identifier[md] , identifier[DataSetDesign] identifier[dataSetDesign] operator[SEP] Keyword[throws] identifier[OdaException] { identifier[ResultSetColumns] identifier[columns] operator[=] identifier[DesignSessionUtil] operator[SEP] identifier[toResultSetColumnsDesign] operator[SEP] identifier[md] operator[SEP] operator[SEP] identifier[ResultSetDefinition] identifier[resultSetDefn] operator[=] identifier[DesignFactory] operator[SEP] identifier[eINSTANCE] operator[SEP] identifier[createResultSetDefinition] operator[SEP] operator[SEP] operator[SEP] identifier[resultSetDefn] operator[SEP] identifier[setResultSetColumns] operator[SEP] identifier[columns] operator[SEP] operator[SEP] identifier[dataSetDesign] operator[SEP] identifier[setPrimaryResultSet] operator[SEP] identifier[resultSetDefn] operator[SEP] operator[SEP] identifier[dataSetDesign] operator[SEP] identifier[getResultSets] operator[SEP] operator[SEP] operator[SEP] identifier[setDerivedMetaData] operator[SEP] literal[boolean] operator[SEP] operator[SEP] }
private JSONArray parseJSONArray() throws ParseException { expect('['); skipWhitespace(); if (peek() == ']') { // Empty array next(); return new JSONArray(Collections.emptyList()); } final List<Object> elements = new ArrayList<>(); boolean first = true; while (peek() != ']') { if (first) { first = false; } else { expect(','); } elements.add(parseJSON()); } expect(']'); return new JSONArray(elements); }
class class_name[name] begin[{] method[parseJSONArray, return_type[type[JSONArray]], modifier[private], parameter[]] begin[{] call[.expect, parameter[literal['[']]] call[.skipWhitespace, parameter[]] if[binary_operation[call[.peek, parameter[]], ==, literal[']']]] begin[{] call[.next, parameter[]] return[ClassCreator(arguments=[MethodInvocation(arguments=[], member=emptyList, postfix_operators=[], prefix_operators=[], qualifier=Collections, selectors=[], type_arguments=None)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=JSONArray, sub_type=None))] else begin[{] None end[}] local_variable[type[List], elements] local_variable[type[boolean], first] while[binary_operation[call[.peek, parameter[]], !=, literal[']']]] begin[{] if[member[.first]] begin[{] assign[member[.first], literal[false]] else begin[{] call[.expect, parameter[literal[',']]] end[}] call[elements.add, parameter[call[.parseJSON, parameter[]]]] end[}] call[.expect, parameter[literal[']']]] return[ClassCreator(arguments=[MemberReference(member=elements, 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=JSONArray, sub_type=None))] end[}] END[}]
Keyword[private] identifier[JSONArray] identifier[parseJSONArray] operator[SEP] operator[SEP] Keyword[throws] identifier[ParseException] { identifier[expect] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[skipWhitespace] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[peek] operator[SEP] operator[SEP] operator[==] literal[String] operator[SEP] { identifier[next] operator[SEP] operator[SEP] operator[SEP] Keyword[return] Keyword[new] identifier[JSONArray] operator[SEP] identifier[Collections] operator[SEP] identifier[emptyList] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[final] identifier[List] operator[<] identifier[Object] operator[>] identifier[elements] operator[=] Keyword[new] identifier[ArrayList] operator[<] operator[>] operator[SEP] operator[SEP] operator[SEP] Keyword[boolean] identifier[first] operator[=] literal[boolean] operator[SEP] Keyword[while] operator[SEP] identifier[peek] operator[SEP] operator[SEP] operator[!=] literal[String] operator[SEP] { Keyword[if] operator[SEP] identifier[first] operator[SEP] { identifier[first] operator[=] literal[boolean] operator[SEP] } Keyword[else] { identifier[expect] operator[SEP] literal[String] operator[SEP] operator[SEP] } identifier[elements] operator[SEP] identifier[add] operator[SEP] identifier[parseJSON] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } identifier[expect] operator[SEP] literal[String] operator[SEP] operator[SEP] Keyword[return] Keyword[new] identifier[JSONArray] operator[SEP] identifier[elements] operator[SEP] operator[SEP] }
public void setPhaseId(int v) { if (ProcessingStep_Type.featOkTst && ((ProcessingStep_Type)jcasType).casFeat_phaseId == null) jcasType.jcas.throwFeatMissing("phaseId", "edu.cmu.lti.oaqa.framework.types.ProcessingStep"); jcasType.ll_cas.ll_setIntValue(addr, ((ProcessingStep_Type)jcasType).casFeatCode_phaseId, v);}
class class_name[name] begin[{] method[setPhaseId, return_type[void], modifier[public], parameter[v]] begin[{] if[binary_operation[member[ProcessingStep_Type.featOkTst], &&, binary_operation[Cast(expression=MemberReference(member=jcasType, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=ProcessingStep_Type, sub_type=None)), ==, literal[null]]]] begin[{] call[jcasType.jcas.throwFeatMissing, parameter[literal["phaseId"], literal["edu.cmu.lti.oaqa.framework.types.ProcessingStep"]]] else begin[{] None end[}] call[jcasType.ll_cas.ll_setIntValue, parameter[member[.addr], Cast(expression=MemberReference(member=jcasType, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=ProcessingStep_Type, sub_type=None)), member[.v]]] end[}] END[}]
Keyword[public] Keyword[void] identifier[setPhaseId] operator[SEP] Keyword[int] identifier[v] operator[SEP] { Keyword[if] operator[SEP] identifier[ProcessingStep_Type] operator[SEP] identifier[featOkTst] operator[&&] operator[SEP] operator[SEP] identifier[ProcessingStep_Type] operator[SEP] identifier[jcasType] operator[SEP] operator[SEP] identifier[casFeat_phaseId] operator[==] Other[null] operator[SEP] identifier[jcasType] operator[SEP] identifier[jcas] operator[SEP] identifier[throwFeatMissing] operator[SEP] literal[String] , literal[String] operator[SEP] operator[SEP] identifier[jcasType] operator[SEP] identifier[ll_cas] operator[SEP] identifier[ll_setIntValue] operator[SEP] identifier[addr] , operator[SEP] operator[SEP] identifier[ProcessingStep_Type] operator[SEP] identifier[jcasType] operator[SEP] operator[SEP] identifier[casFeatCode_phaseId] , identifier[v] operator[SEP] operator[SEP] }
@Override public T getPluginOrDefaultFor(S delimiter, Supplier<T> defaultSupplier) { Assert.notNull(delimiter, "Delimiter must not be null!"); Assert.notNull(defaultSupplier, "Default supplier must not be null!"); return getPluginFor(delimiter).orElseGet(defaultSupplier); }
class class_name[name] begin[{] method[getPluginOrDefaultFor, return_type[type[T]], modifier[public], parameter[delimiter, defaultSupplier]] begin[{] call[Assert.notNull, parameter[member[.delimiter], literal["Delimiter must not be null!"]]] call[Assert.notNull, parameter[member[.defaultSupplier], literal["Default supplier must not be null!"]]] return[call[.getPluginFor, parameter[member[.delimiter]]]] end[}] END[}]
annotation[@] identifier[Override] Keyword[public] identifier[T] identifier[getPluginOrDefaultFor] operator[SEP] identifier[S] identifier[delimiter] , identifier[Supplier] operator[<] identifier[T] operator[>] identifier[defaultSupplier] operator[SEP] { identifier[Assert] operator[SEP] identifier[notNull] operator[SEP] identifier[delimiter] , literal[String] operator[SEP] operator[SEP] identifier[Assert] operator[SEP] identifier[notNull] operator[SEP] identifier[defaultSupplier] , literal[String] operator[SEP] operator[SEP] Keyword[return] identifier[getPluginFor] operator[SEP] identifier[delimiter] operator[SEP] operator[SEP] identifier[orElseGet] operator[SEP] identifier[defaultSupplier] operator[SEP] operator[SEP] }
@Override public void write(int[] b) throws IOException { write("int[]"); long code = 0; for (int i = 0; i < b.length; i++) { code = 31 * code + b[i]; } write(code); }
class class_name[name] begin[{] method[write, return_type[void], modifier[public], parameter[b]] begin[{] call[.write, parameter[literal["int[]"]]] local_variable[type[long], code] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=code, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=BinaryOperation(operandl=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=31), operandr=MemberReference(member=code, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=*), operandr=MemberReference(member=b, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), operator=+)), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=length, postfix_operators=[], prefix_operators=[], qualifier=b, selectors=[]), operator=<), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), name=i)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=i, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None) call[.write, parameter[member[.code]]] end[}] END[}]
annotation[@] identifier[Override] Keyword[public] Keyword[void] identifier[write] operator[SEP] Keyword[int] operator[SEP] operator[SEP] identifier[b] operator[SEP] Keyword[throws] identifier[IOException] { identifier[write] operator[SEP] literal[String] operator[SEP] operator[SEP] Keyword[long] identifier[code] operator[=] Other[0] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[b] operator[SEP] identifier[length] operator[SEP] identifier[i] operator[++] operator[SEP] { identifier[code] operator[=] Other[31] operator[*] identifier[code] operator[+] identifier[b] operator[SEP] identifier[i] operator[SEP] operator[SEP] } identifier[write] operator[SEP] identifier[code] operator[SEP] operator[SEP] }
public static JobGraph createJobGraph( PackagedProgram packagedProgram, Configuration configuration, int defaultParallelism, @Nullable JobID jobID) throws ProgramInvocationException { Thread.currentThread().setContextClassLoader(packagedProgram.getUserCodeClassLoader()); final Optimizer optimizer = new Optimizer(new DataStatistics(), new DefaultCostEstimator(), configuration); final FlinkPlan flinkPlan; if (packagedProgram.isUsingProgramEntryPoint()) { final JobWithJars jobWithJars = packagedProgram.getPlanWithJars(); final Plan plan = jobWithJars.getPlan(); if (plan.getDefaultParallelism() <= 0) { plan.setDefaultParallelism(defaultParallelism); } flinkPlan = optimizer.compile(jobWithJars.getPlan()); } else if (packagedProgram.isUsingInteractiveMode()) { final OptimizerPlanEnvironment optimizerPlanEnvironment = new OptimizerPlanEnvironment(optimizer); optimizerPlanEnvironment.setParallelism(defaultParallelism); flinkPlan = optimizerPlanEnvironment.getOptimizedPlan(packagedProgram); } else { throw new ProgramInvocationException("PackagedProgram does not have a valid invocation mode."); } final JobGraph jobGraph; if (flinkPlan instanceof StreamingPlan) { jobGraph = ((StreamingPlan) flinkPlan).getJobGraph(jobID); jobGraph.setSavepointRestoreSettings(packagedProgram.getSavepointSettings()); } else { final JobGraphGenerator jobGraphGenerator = new JobGraphGenerator(configuration); jobGraph = jobGraphGenerator.compileJobGraph((OptimizedPlan) flinkPlan, jobID); } for (URL url : packagedProgram.getAllLibraries()) { try { jobGraph.addJar(new Path(url.toURI())); } catch (URISyntaxException e) { throw new ProgramInvocationException("Invalid URL for jar file: " + url + '.', jobGraph.getJobID(), e); } } jobGraph.setClasspaths(packagedProgram.getClasspaths()); return jobGraph; }
class class_name[name] begin[{] method[createJobGraph, return_type[type[JobGraph]], modifier[public static], parameter[packagedProgram, configuration, defaultParallelism, jobID]] begin[{] call[Thread.currentThread, parameter[]] local_variable[type[Optimizer], optimizer] local_variable[type[FlinkPlan], flinkPlan] if[call[packagedProgram.isUsingProgramEntryPoint, parameter[]]] begin[{] local_variable[type[JobWithJars], jobWithJars] local_variable[type[Plan], plan] if[binary_operation[call[plan.getDefaultParallelism, parameter[]], <=, literal[0]]] begin[{] call[plan.setDefaultParallelism, parameter[member[.defaultParallelism]]] else begin[{] None end[}] assign[member[.flinkPlan], call[optimizer.compile, parameter[call[jobWithJars.getPlan, parameter[]]]]] else begin[{] if[call[packagedProgram.isUsingInteractiveMode, parameter[]]] begin[{] local_variable[type[OptimizerPlanEnvironment], optimizerPlanEnvironment] call[optimizerPlanEnvironment.setParallelism, parameter[member[.defaultParallelism]]] assign[member[.flinkPlan], call[optimizerPlanEnvironment.getOptimizedPlan, parameter[member[.packagedProgram]]]] else begin[{] ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="PackagedProgram does not have a valid invocation mode.")], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=ProgramInvocationException, sub_type=None)), label=None) end[}] end[}] local_variable[type[JobGraph], jobGraph] if[binary_operation[member[.flinkPlan], instanceof, type[StreamingPlan]]] begin[{] assign[member[.jobGraph], Cast(expression=MemberReference(member=flinkPlan, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=StreamingPlan, sub_type=None))] call[jobGraph.setSavepointRestoreSettings, parameter[call[packagedProgram.getSavepointSettings, parameter[]]]] else begin[{] local_variable[type[JobGraphGenerator], jobGraphGenerator] assign[member[.jobGraph], call[jobGraphGenerator.compileJobGraph, parameter[Cast(expression=MemberReference(member=flinkPlan, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=OptimizedPlan, sub_type=None)), member[.jobID]]]] end[}] ForStatement(body=BlockStatement(label=None, statements=[TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[ClassCreator(arguments=[MethodInvocation(arguments=[], member=toURI, postfix_operators=[], prefix_operators=[], qualifier=url, selectors=[], type_arguments=None)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Path, sub_type=None))], member=addJar, postfix_operators=[], prefix_operators=[], qualifier=jobGraph, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Invalid URL for jar file: "), operandr=MemberReference(member=url, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='.'), operator=+), MethodInvocation(arguments=[], member=getJobID, postfix_operators=[], prefix_operators=[], qualifier=jobGraph, 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=ProgramInvocationException, sub_type=None)), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['URISyntaxException']))], finally_block=None, label=None, resources=None)]), control=EnhancedForControl(iterable=MethodInvocation(arguments=[], member=getAllLibraries, postfix_operators=[], prefix_operators=[], qualifier=packagedProgram, selectors=[], type_arguments=None), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=url)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=URL, sub_type=None))), label=None) call[jobGraph.setClasspaths, parameter[call[packagedProgram.getClasspaths, parameter[]]]] return[member[.jobGraph]] end[}] END[}]
Keyword[public] Keyword[static] identifier[JobGraph] identifier[createJobGraph] operator[SEP] identifier[PackagedProgram] identifier[packagedProgram] , identifier[Configuration] identifier[configuration] , Keyword[int] identifier[defaultParallelism] , annotation[@] identifier[Nullable] identifier[JobID] identifier[jobID] operator[SEP] Keyword[throws] identifier[ProgramInvocationException] { identifier[Thread] operator[SEP] identifier[currentThread] operator[SEP] operator[SEP] operator[SEP] identifier[setContextClassLoader] operator[SEP] identifier[packagedProgram] operator[SEP] identifier[getUserCodeClassLoader] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[final] identifier[Optimizer] identifier[optimizer] operator[=] Keyword[new] identifier[Optimizer] operator[SEP] Keyword[new] identifier[DataStatistics] operator[SEP] operator[SEP] , Keyword[new] identifier[DefaultCostEstimator] operator[SEP] operator[SEP] , identifier[configuration] operator[SEP] operator[SEP] Keyword[final] identifier[FlinkPlan] identifier[flinkPlan] operator[SEP] Keyword[if] operator[SEP] identifier[packagedProgram] operator[SEP] identifier[isUsingProgramEntryPoint] operator[SEP] operator[SEP] operator[SEP] { Keyword[final] identifier[JobWithJars] identifier[jobWithJars] operator[=] identifier[packagedProgram] operator[SEP] identifier[getPlanWithJars] operator[SEP] operator[SEP] operator[SEP] Keyword[final] identifier[Plan] identifier[plan] operator[=] identifier[jobWithJars] operator[SEP] identifier[getPlan] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[plan] operator[SEP] identifier[getDefaultParallelism] operator[SEP] operator[SEP] operator[<=] Other[0] operator[SEP] { identifier[plan] operator[SEP] identifier[setDefaultParallelism] operator[SEP] identifier[defaultParallelism] operator[SEP] operator[SEP] } identifier[flinkPlan] operator[=] identifier[optimizer] operator[SEP] identifier[compile] operator[SEP] identifier[jobWithJars] operator[SEP] identifier[getPlan] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[packagedProgram] operator[SEP] identifier[isUsingInteractiveMode] operator[SEP] operator[SEP] operator[SEP] { Keyword[final] identifier[OptimizerPlanEnvironment] identifier[optimizerPlanEnvironment] operator[=] Keyword[new] identifier[OptimizerPlanEnvironment] operator[SEP] identifier[optimizer] operator[SEP] operator[SEP] identifier[optimizerPlanEnvironment] operator[SEP] identifier[setParallelism] operator[SEP] identifier[defaultParallelism] operator[SEP] operator[SEP] identifier[flinkPlan] operator[=] identifier[optimizerPlanEnvironment] operator[SEP] identifier[getOptimizedPlan] operator[SEP] identifier[packagedProgram] operator[SEP] operator[SEP] } Keyword[else] { Keyword[throw] Keyword[new] identifier[ProgramInvocationException] operator[SEP] literal[String] operator[SEP] operator[SEP] } Keyword[final] identifier[JobGraph] identifier[jobGraph] operator[SEP] Keyword[if] operator[SEP] identifier[flinkPlan] Keyword[instanceof] identifier[StreamingPlan] operator[SEP] { identifier[jobGraph] operator[=] operator[SEP] operator[SEP] identifier[StreamingPlan] operator[SEP] identifier[flinkPlan] operator[SEP] operator[SEP] identifier[getJobGraph] operator[SEP] identifier[jobID] operator[SEP] operator[SEP] identifier[jobGraph] operator[SEP] identifier[setSavepointRestoreSettings] operator[SEP] identifier[packagedProgram] operator[SEP] identifier[getSavepointSettings] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] { Keyword[final] identifier[JobGraphGenerator] identifier[jobGraphGenerator] operator[=] Keyword[new] identifier[JobGraphGenerator] operator[SEP] identifier[configuration] operator[SEP] operator[SEP] identifier[jobGraph] operator[=] identifier[jobGraphGenerator] operator[SEP] identifier[compileJobGraph] operator[SEP] operator[SEP] identifier[OptimizedPlan] operator[SEP] identifier[flinkPlan] , identifier[jobID] operator[SEP] operator[SEP] } Keyword[for] operator[SEP] identifier[URL] identifier[url] operator[:] identifier[packagedProgram] operator[SEP] identifier[getAllLibraries] operator[SEP] operator[SEP] operator[SEP] { Keyword[try] { identifier[jobGraph] operator[SEP] identifier[addJar] operator[SEP] Keyword[new] identifier[Path] operator[SEP] identifier[url] operator[SEP] identifier[toURI] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[URISyntaxException] identifier[e] operator[SEP] { Keyword[throw] Keyword[new] identifier[ProgramInvocationException] operator[SEP] literal[String] operator[+] identifier[url] operator[+] literal[String] , identifier[jobGraph] operator[SEP] identifier[getJobID] operator[SEP] operator[SEP] , identifier[e] operator[SEP] operator[SEP] } } identifier[jobGraph] operator[SEP] identifier[setClasspaths] operator[SEP] identifier[packagedProgram] operator[SEP] identifier[getClasspaths] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[jobGraph] operator[SEP] }
@Nullable public static Date fromIso(String dateTime) { if (dateTime == null) { return null; } return DatatypeConverter.parseDateTime(dateTime) .getTime(); }
class class_name[name] begin[{] method[fromIso, return_type[type[Date]], modifier[public static], parameter[dateTime]] begin[{] if[binary_operation[member[.dateTime], ==, literal[null]]] begin[{] return[literal[null]] else begin[{] None end[}] return[call[DatatypeConverter.parseDateTime, parameter[member[.dateTime]]]] end[}] END[}]
annotation[@] identifier[Nullable] Keyword[public] Keyword[static] identifier[Date] identifier[fromIso] operator[SEP] identifier[String] identifier[dateTime] operator[SEP] { Keyword[if] operator[SEP] identifier[dateTime] operator[==] Other[null] operator[SEP] { Keyword[return] Other[null] operator[SEP] } Keyword[return] identifier[DatatypeConverter] operator[SEP] identifier[parseDateTime] operator[SEP] identifier[dateTime] operator[SEP] operator[SEP] identifier[getTime] operator[SEP] operator[SEP] operator[SEP] }
protected void serveResource(final HttpServletRequest request, final HttpServletResponse response, final boolean content) throws IOException, ServletException { boolean serveContent = content; // Identify the requested resource path final String path = getRelativePath(request); if (log.isDebugEnabled()) { if (serveContent) log.debug("DefaultServlet.serveResource: Serving resource '" + path + "' headers and data"); else log.debug("DefaultServlet.serveResource: Serving resource '" + path + "' headers only"); } final CacheEntry cacheEntry = lookupCache(path); if (!cacheEntry.exists()) { // Check if we're included so we can return the appropriate // missing resource name in the error String requestUri = (String) request.getAttribute(RequestDispatcher.INCLUDE_REQUEST_URI); if (requestUri == null) { requestUri = request.getRequestURI(); } else { // We're included // SRV.9.3 says we must throw a FNFE throw new FileNotFoundException("Missing resource : " + requestUri); } response.sendError(HttpServletResponse.SC_NOT_FOUND, requestUri); return; } // If the resource is not a collection, and the resource path // ends with "/" or "\", return NOT FOUND if (path.endsWith("/") || (path.endsWith("\\"))) { // Check if we're included so we can return the appropriate // missing resource name in the error String requestUri = (String) request.getAttribute(RequestDispatcher.INCLUDE_REQUEST_URI); if (requestUri == null) { requestUri = request.getRequestURI(); } response.sendError(HttpServletResponse.SC_NOT_FOUND, requestUri); return; } final boolean isError = response.getStatus() >= HttpServletResponse.SC_BAD_REQUEST; // Check if the conditions specified in the optional If headers are // satisfied. // Checking If headers final boolean included = (request.getAttribute(RequestDispatcher.INCLUDE_CONTEXT_PATH) != null); if (!included && !isError && !checkIfHeaders(request, response, cacheEntry.getAttributes())) { return; } // Find content type. String contentType = cacheEntry.getAttributes().getMimeType(); if (contentType == null) { contentType = getServletContext().getMimeType(cacheEntry.getName()); cacheEntry.getAttributes().setMimeType(contentType); } ArrayList<Range> ranges = null; long contentLength = -1L; if (!isError) { if (acceptsRanges()) { // Accept ranges header response.setHeader("Accept-Ranges", "bytes"); } // Parse range specifier ranges = parseRange(request, response, cacheEntry.getAttributes()); // ETag header response.setHeader("ETag", cacheEntry.getAttributes().getETag()); // Last-Modified header response.setHeader("Last-Modified", cacheEntry.getAttributes().getLastModifiedHttp()); } // Get content length contentLength = cacheEntry.getAttributes().getContentLength(); // Special case for zero length files, which would cause a // (silent) ISE when setting the output buffer size if (contentLength == 0L) { serveContent = false; } ServletOutputStream ostream = null; PrintWriter writer = null; if (serveContent) { // Trying to retrieve the servlet output stream try { ostream = response.getOutputStream(); } catch (final IllegalStateException e) { // If it fails, we try to get a Writer instead if we're // trying to serve a text file if ((contentType == null) || (contentType.startsWith("text")) || (contentType.endsWith("xml")) || (contentType.contains("/javascript"))) { writer = response.getWriter(); // Cannot reliably serve partial content with a Writer ranges = FULL; } else { throw e; } } } // Check to see if a Filter, Valve of wrapper has written some content. // If it has, disable range requests and setting of a content length // since neither can be done reliably. ServletResponse r = response; long contentWritten = 0; while (r instanceof ServletResponseWrapper) { r = ((ServletResponseWrapper) r).getResponse(); } if (r instanceof ResponseFacade) { contentWritten = ((ResponseFacade) r).getContentWritten(); } if (contentWritten > 0) { ranges = FULL; } if (isError || (((ranges == null) || (ranges.isEmpty())) && (request.getHeader("Range") == null)) || (ranges == FULL)) { // Set the appropriate output headers if (contentType != null) { if (log.isDebugEnabled()) log.debug("DefaultServlet.serveFile: contentType='" + contentType + "'"); response.setContentType(contentType); } if ((cacheEntry.getResource() != null) && (contentLength >= 0) && (!serveContent || ostream != null)) { if (log.isDebugEnabled()) log.debug("DefaultServlet.serveFile: contentLength=" + contentLength); // Don't set a content length if something else has already // written to the response. if (contentWritten == 0) { if (contentLength < Integer.MAX_VALUE) { response.setContentLength((int) contentLength); } else { // Set the content-length as String to be able to use a // long response.setHeader("content-length", "" + contentLength); } } } final InputStream renderResult = null; // Copy the input stream to our output stream (if requested) if (serveContent) { try { response.setBufferSize(getOutputBufferSize()); } catch (final IllegalStateException e) { // Silent catch } if (ostream != null) { copy(cacheEntry, renderResult, ostream); } else { copy(cacheEntry, renderResult, writer); } } } else { if ((ranges == null) || (ranges.isEmpty())) return; // Partial content response. response.setStatus(HttpServletResponse.SC_PARTIAL_CONTENT); if (ranges.size() == 1) { final Range range = ranges.get(0); response.addHeader("Content-Range", "bytes " + range.start + "-" + range.end + "/" + range.length); final long length = range.end - range.start + 1; if (length < Integer.MAX_VALUE) { response.setContentLength((int) length); } else { // Set the content-length as String to be able to use a long response.setHeader("content-length", "" + length); } if (contentType != null) { if (log.isDebugEnabled()) log.debug("DefaultServlet.serveFile: contentType='" + contentType + "'"); response.setContentType(contentType); } if (serveContent) { try { response.setBufferSize(getOutputBufferSize()); } catch (final IllegalStateException e) { // Silent catch } if (ostream != null) { copy(cacheEntry, ostream, range); } else { // we should not get here throw new IllegalStateException(); } } } else { response.setContentType("multipart/byteranges; boundary=" + mimeSeparation); if (serveContent) { try { response.setBufferSize(getOutputBufferSize()); } catch (final IllegalStateException e) { // Silent catch } if (ostream != null) { copy(cacheEntry, ostream, ranges.iterator(), contentType); } else { // we should not get here throw new IllegalStateException(); } } } } }
class class_name[name] begin[{] method[serveResource, return_type[void], modifier[protected], parameter[request, response, content]] begin[{] local_variable[type[boolean], serveContent] local_variable[type[String], path] if[call[log.isDebugEnabled, parameter[]]] begin[{] if[member[.serveContent]] begin[{] call[log.debug, parameter[binary_operation[binary_operation[literal["DefaultServlet.serveResource: Serving resource '"], +, member[.path]], +, literal["' headers and data"]]]] else begin[{] call[log.debug, parameter[binary_operation[binary_operation[literal["DefaultServlet.serveResource: Serving resource '"], +, member[.path]], +, literal["' headers only"]]]] end[}] else begin[{] None end[}] local_variable[type[CacheEntry], cacheEntry] if[call[cacheEntry.exists, parameter[]]] begin[{] local_variable[type[String], requestUri] if[binary_operation[member[.requestUri], ==, literal[null]]] begin[{] assign[member[.requestUri], call[request.getRequestURI, parameter[]]] else begin[{] ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Missing resource : "), operandr=MemberReference(member=requestUri, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=FileNotFoundException, sub_type=None)), label=None) end[}] call[response.sendError, parameter[member[HttpServletResponse.SC_NOT_FOUND], member[.requestUri]]] return[None] else begin[{] None end[}] if[binary_operation[call[path.endsWith, parameter[literal["/"]]], ||, call[path.endsWith, parameter[literal["\\"]]]]] begin[{] local_variable[type[String], requestUri] if[binary_operation[member[.requestUri], ==, literal[null]]] begin[{] assign[member[.requestUri], call[request.getRequestURI, parameter[]]] else begin[{] None end[}] call[response.sendError, parameter[member[HttpServletResponse.SC_NOT_FOUND], member[.requestUri]]] return[None] else begin[{] None end[}] local_variable[type[boolean], isError] local_variable[type[boolean], included] if[binary_operation[binary_operation[member[.included], &&, member[.isError]], &&, call[.checkIfHeaders, parameter[member[.request], member[.response], call[cacheEntry.getAttributes, parameter[]]]]]] begin[{] return[None] else begin[{] None end[}] local_variable[type[String], contentType] if[binary_operation[member[.contentType], ==, literal[null]]] begin[{] assign[member[.contentType], call[.getServletContext, parameter[]]] call[cacheEntry.getAttributes, parameter[]] else begin[{] None end[}] local_variable[type[ArrayList], ranges] local_variable[type[long], contentLength] if[member[.isError]] begin[{] if[call[.acceptsRanges, parameter[]]] begin[{] call[response.setHeader, parameter[literal["Accept-Ranges"], literal["bytes"]]] else begin[{] None end[}] assign[member[.ranges], call[.parseRange, parameter[member[.request], member[.response], call[cacheEntry.getAttributes, parameter[]]]]] call[response.setHeader, parameter[literal["ETag"], call[cacheEntry.getAttributes, parameter[]]]] call[response.setHeader, parameter[literal["Last-Modified"], call[cacheEntry.getAttributes, parameter[]]]] else begin[{] None end[}] assign[member[.contentLength], call[cacheEntry.getAttributes, parameter[]]] if[binary_operation[member[.contentLength], ==, literal[0L]]] begin[{] assign[member[.serveContent], literal[false]] else begin[{] None end[}] local_variable[type[ServletOutputStream], ostream] local_variable[type[PrintWriter], writer] if[member[.serveContent]] begin[{] TryStatement(block=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=ostream, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=getOutputStream, postfix_operators=[], prefix_operators=[], qualifier=response, selectors=[], type_arguments=None)), label=None)], catches=[CatchClause(block=[IfStatement(condition=BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=contentType, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator===), operandr=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="text")], member=startsWith, postfix_operators=[], prefix_operators=[], qualifier=contentType, selectors=[], type_arguments=None), operator=||), operandr=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="xml")], member=endsWith, postfix_operators=[], prefix_operators=[], qualifier=contentType, selectors=[], type_arguments=None), operator=||), operandr=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="/javascript")], member=contains, postfix_operators=[], prefix_operators=[], qualifier=contentType, selectors=[], type_arguments=None), operator=||), else_statement=BlockStatement(label=None, statements=[ThrowStatement(expression=MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=writer, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=getWriter, postfix_operators=[], prefix_operators=[], qualifier=response, selectors=[], type_arguments=None)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=ranges, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MemberReference(member=FULL, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), label=None)]))], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['IllegalStateException']))], finally_block=None, label=None, resources=None) else begin[{] None end[}] local_variable[type[ServletResponse], r] local_variable[type[long], contentWritten] while[binary_operation[member[.r], instanceof, type[ServletResponseWrapper]]] begin[{] assign[member[.r], Cast(expression=MemberReference(member=r, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=ServletResponseWrapper, sub_type=None))] end[}] if[binary_operation[member[.r], instanceof, type[ResponseFacade]]] begin[{] assign[member[.contentWritten], Cast(expression=MemberReference(member=r, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=ResponseFacade, sub_type=None))] else begin[{] None end[}] if[binary_operation[member[.contentWritten], >, literal[0]]] begin[{] assign[member[.ranges], member[.FULL]] else begin[{] None end[}] if[binary_operation[binary_operation[member[.isError], ||, binary_operation[binary_operation[binary_operation[member[.ranges], ==, literal[null]], ||, call[ranges.isEmpty, parameter[]]], &&, binary_operation[call[request.getHeader, parameter[literal["Range"]]], ==, literal[null]]]], ||, binary_operation[member[.ranges], ==, member[.FULL]]]] begin[{] if[binary_operation[member[.contentType], !=, literal[null]]] begin[{] if[call[log.isDebugEnabled, parameter[]]] begin[{] call[log.debug, parameter[binary_operation[binary_operation[literal["DefaultServlet.serveFile: contentType='"], +, member[.contentType]], +, literal["'"]]]] else begin[{] None end[}] call[response.setContentType, parameter[member[.contentType]]] else begin[{] None end[}] if[binary_operation[binary_operation[binary_operation[call[cacheEntry.getResource, parameter[]], !=, literal[null]], &&, binary_operation[member[.contentLength], >=, literal[0]]], &&, binary_operation[member[.serveContent], ||, binary_operation[member[.ostream], !=, literal[null]]]]] begin[{] if[call[log.isDebugEnabled, parameter[]]] begin[{] call[log.debug, parameter[binary_operation[literal["DefaultServlet.serveFile: contentLength="], +, member[.contentLength]]]] else begin[{] None end[}] if[binary_operation[member[.contentWritten], ==, literal[0]]] begin[{] if[binary_operation[member[.contentLength], <, member[Integer.MAX_VALUE]]] begin[{] call[response.setContentLength, parameter[Cast(expression=MemberReference(member=contentLength, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=BasicType(dimensions=[], name=int))]] else begin[{] call[response.setHeader, parameter[literal["content-length"], binary_operation[literal[""], +, member[.contentLength]]]] end[}] else begin[{] None end[}] else begin[{] None end[}] local_variable[type[InputStream], renderResult] if[member[.serveContent]] begin[{] TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getOutputBufferSize, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)], member=setBufferSize, postfix_operators=[], prefix_operators=[], qualifier=response, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['IllegalStateException']))], finally_block=None, label=None, resources=None) if[binary_operation[member[.ostream], !=, literal[null]]] begin[{] call[.copy, parameter[member[.cacheEntry], member[.renderResult], member[.ostream]]] else begin[{] call[.copy, parameter[member[.cacheEntry], member[.renderResult], member[.writer]]] end[}] else begin[{] None end[}] else begin[{] if[binary_operation[binary_operation[member[.ranges], ==, literal[null]], ||, call[ranges.isEmpty, parameter[]]]] begin[{] return[None] else begin[{] None end[}] call[response.setStatus, parameter[member[HttpServletResponse.SC_PARTIAL_CONTENT]]] if[binary_operation[call[ranges.size, parameter[]], ==, literal[1]]] begin[{] local_variable[type[Range], range] call[response.addHeader, parameter[literal["Content-Range"], binary_operation[binary_operation[binary_operation[binary_operation[binary_operation[literal["bytes "], +, member[range.start]], +, literal["-"]], +, member[range.end]], +, literal["/"]], +, member[range.length]]]] local_variable[type[long], length] if[binary_operation[member[.length], <, member[Integer.MAX_VALUE]]] begin[{] call[response.setContentLength, parameter[Cast(expression=MemberReference(member=length, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=BasicType(dimensions=[], name=int))]] else begin[{] call[response.setHeader, parameter[literal["content-length"], binary_operation[literal[""], +, member[.length]]]] end[}] if[binary_operation[member[.contentType], !=, literal[null]]] begin[{] if[call[log.isDebugEnabled, parameter[]]] begin[{] call[log.debug, parameter[binary_operation[binary_operation[literal["DefaultServlet.serveFile: contentType='"], +, member[.contentType]], +, literal["'"]]]] else begin[{] None end[}] call[response.setContentType, parameter[member[.contentType]]] else begin[{] None end[}] if[member[.serveContent]] begin[{] TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getOutputBufferSize, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)], member=setBufferSize, postfix_operators=[], prefix_operators=[], qualifier=response, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['IllegalStateException']))], finally_block=None, label=None, resources=None) if[binary_operation[member[.ostream], !=, literal[null]]] begin[{] call[.copy, parameter[member[.cacheEntry], member[.ostream], member[.range]]] else begin[{] ThrowStatement(expression=ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=IllegalStateException, sub_type=None)), label=None) end[}] else begin[{] None end[}] else begin[{] call[response.setContentType, parameter[binary_operation[literal["multipart/byteranges; boundary="], +, member[.mimeSeparation]]]] if[member[.serveContent]] begin[{] TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getOutputBufferSize, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)], member=setBufferSize, postfix_operators=[], prefix_operators=[], qualifier=response, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['IllegalStateException']))], finally_block=None, label=None, resources=None) if[binary_operation[member[.ostream], !=, literal[null]]] begin[{] call[.copy, parameter[member[.cacheEntry], member[.ostream], call[ranges.iterator, parameter[]], member[.contentType]]] else begin[{] ThrowStatement(expression=ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=IllegalStateException, sub_type=None)), label=None) end[}] else begin[{] None end[}] end[}] end[}] end[}] END[}]
Keyword[protected] Keyword[void] identifier[serveResource] operator[SEP] Keyword[final] identifier[HttpServletRequest] identifier[request] , Keyword[final] identifier[HttpServletResponse] identifier[response] , Keyword[final] Keyword[boolean] identifier[content] operator[SEP] Keyword[throws] identifier[IOException] , identifier[ServletException] { Keyword[boolean] identifier[serveContent] operator[=] identifier[content] operator[SEP] Keyword[final] identifier[String] identifier[path] operator[=] identifier[getRelativePath] operator[SEP] identifier[request] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[log] operator[SEP] identifier[isDebugEnabled] operator[SEP] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] identifier[serveContent] operator[SEP] identifier[log] operator[SEP] identifier[debug] operator[SEP] literal[String] operator[+] identifier[path] operator[+] literal[String] operator[SEP] operator[SEP] Keyword[else] identifier[log] operator[SEP] identifier[debug] operator[SEP] literal[String] operator[+] identifier[path] operator[+] literal[String] operator[SEP] operator[SEP] } Keyword[final] identifier[CacheEntry] identifier[cacheEntry] operator[=] identifier[lookupCache] operator[SEP] identifier[path] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[cacheEntry] operator[SEP] identifier[exists] operator[SEP] operator[SEP] operator[SEP] { identifier[String] identifier[requestUri] operator[=] operator[SEP] identifier[String] operator[SEP] identifier[request] operator[SEP] identifier[getAttribute] operator[SEP] identifier[RequestDispatcher] operator[SEP] identifier[INCLUDE_REQUEST_URI] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[requestUri] operator[==] Other[null] operator[SEP] { identifier[requestUri] operator[=] identifier[request] operator[SEP] identifier[getRequestURI] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] { Keyword[throw] Keyword[new] identifier[FileNotFoundException] operator[SEP] literal[String] operator[+] identifier[requestUri] operator[SEP] operator[SEP] } identifier[response] operator[SEP] identifier[sendError] operator[SEP] identifier[HttpServletResponse] operator[SEP] identifier[SC_NOT_FOUND] , identifier[requestUri] operator[SEP] operator[SEP] Keyword[return] operator[SEP] } Keyword[if] operator[SEP] identifier[path] operator[SEP] identifier[endsWith] operator[SEP] literal[String] operator[SEP] operator[||] operator[SEP] identifier[path] operator[SEP] identifier[endsWith] operator[SEP] literal[String] operator[SEP] operator[SEP] operator[SEP] { identifier[String] identifier[requestUri] operator[=] operator[SEP] identifier[String] operator[SEP] identifier[request] operator[SEP] identifier[getAttribute] operator[SEP] identifier[RequestDispatcher] operator[SEP] identifier[INCLUDE_REQUEST_URI] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[requestUri] operator[==] Other[null] operator[SEP] { identifier[requestUri] operator[=] identifier[request] operator[SEP] identifier[getRequestURI] operator[SEP] operator[SEP] operator[SEP] } identifier[response] operator[SEP] identifier[sendError] operator[SEP] identifier[HttpServletResponse] operator[SEP] identifier[SC_NOT_FOUND] , identifier[requestUri] operator[SEP] operator[SEP] Keyword[return] operator[SEP] } Keyword[final] Keyword[boolean] identifier[isError] operator[=] identifier[response] operator[SEP] identifier[getStatus] operator[SEP] operator[SEP] operator[>=] identifier[HttpServletResponse] operator[SEP] identifier[SC_BAD_REQUEST] operator[SEP] Keyword[final] Keyword[boolean] identifier[included] operator[=] operator[SEP] identifier[request] operator[SEP] identifier[getAttribute] operator[SEP] identifier[RequestDispatcher] operator[SEP] identifier[INCLUDE_CONTEXT_PATH] operator[SEP] operator[!=] Other[null] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[included] operator[&&] operator[!] identifier[isError] operator[&&] operator[!] identifier[checkIfHeaders] operator[SEP] identifier[request] , identifier[response] , identifier[cacheEntry] operator[SEP] identifier[getAttributes] operator[SEP] operator[SEP] operator[SEP] operator[SEP] { Keyword[return] operator[SEP] } identifier[String] identifier[contentType] operator[=] identifier[cacheEntry] operator[SEP] identifier[getAttributes] operator[SEP] operator[SEP] operator[SEP] identifier[getMimeType] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[contentType] operator[==] Other[null] operator[SEP] { identifier[contentType] operator[=] identifier[getServletContext] operator[SEP] operator[SEP] operator[SEP] identifier[getMimeType] operator[SEP] identifier[cacheEntry] operator[SEP] identifier[getName] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[cacheEntry] operator[SEP] identifier[getAttributes] operator[SEP] operator[SEP] operator[SEP] identifier[setMimeType] operator[SEP] identifier[contentType] operator[SEP] operator[SEP] } identifier[ArrayList] operator[<] identifier[Range] operator[>] identifier[ranges] operator[=] Other[null] operator[SEP] Keyword[long] identifier[contentLength] operator[=] operator[-] Other[1L] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[isError] operator[SEP] { Keyword[if] operator[SEP] identifier[acceptsRanges] operator[SEP] operator[SEP] operator[SEP] { identifier[response] operator[SEP] identifier[setHeader] operator[SEP] literal[String] , literal[String] operator[SEP] operator[SEP] } identifier[ranges] operator[=] identifier[parseRange] operator[SEP] identifier[request] , identifier[response] , identifier[cacheEntry] operator[SEP] identifier[getAttributes] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[response] operator[SEP] identifier[setHeader] operator[SEP] literal[String] , identifier[cacheEntry] operator[SEP] identifier[getAttributes] operator[SEP] operator[SEP] operator[SEP] identifier[getETag] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[response] operator[SEP] identifier[setHeader] operator[SEP] literal[String] , identifier[cacheEntry] operator[SEP] identifier[getAttributes] operator[SEP] operator[SEP] operator[SEP] identifier[getLastModifiedHttp] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } identifier[contentLength] operator[=] identifier[cacheEntry] operator[SEP] identifier[getAttributes] operator[SEP] operator[SEP] operator[SEP] identifier[getContentLength] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[contentLength] operator[==] Other[0L] operator[SEP] { identifier[serveContent] operator[=] literal[boolean] operator[SEP] } identifier[ServletOutputStream] identifier[ostream] operator[=] Other[null] operator[SEP] identifier[PrintWriter] identifier[writer] operator[=] Other[null] operator[SEP] Keyword[if] operator[SEP] identifier[serveContent] operator[SEP] { Keyword[try] { identifier[ostream] operator[=] identifier[response] operator[SEP] identifier[getOutputStream] operator[SEP] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] Keyword[final] identifier[IllegalStateException] identifier[e] operator[SEP] { Keyword[if] operator[SEP] operator[SEP] identifier[contentType] operator[==] Other[null] operator[SEP] operator[||] operator[SEP] identifier[contentType] operator[SEP] identifier[startsWith] operator[SEP] literal[String] operator[SEP] operator[SEP] operator[||] operator[SEP] identifier[contentType] operator[SEP] identifier[endsWith] operator[SEP] literal[String] operator[SEP] operator[SEP] operator[||] operator[SEP] identifier[contentType] operator[SEP] identifier[contains] operator[SEP] literal[String] operator[SEP] operator[SEP] operator[SEP] { identifier[writer] operator[=] identifier[response] operator[SEP] identifier[getWriter] operator[SEP] operator[SEP] operator[SEP] identifier[ranges] operator[=] identifier[FULL] operator[SEP] } Keyword[else] { Keyword[throw] identifier[e] operator[SEP] } } } identifier[ServletResponse] identifier[r] operator[=] identifier[response] operator[SEP] Keyword[long] identifier[contentWritten] operator[=] Other[0] operator[SEP] Keyword[while] operator[SEP] identifier[r] Keyword[instanceof] identifier[ServletResponseWrapper] operator[SEP] { identifier[r] operator[=] operator[SEP] operator[SEP] identifier[ServletResponseWrapper] operator[SEP] identifier[r] operator[SEP] operator[SEP] identifier[getResponse] operator[SEP] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[r] Keyword[instanceof] identifier[ResponseFacade] operator[SEP] { identifier[contentWritten] operator[=] operator[SEP] operator[SEP] identifier[ResponseFacade] operator[SEP] identifier[r] operator[SEP] operator[SEP] identifier[getContentWritten] operator[SEP] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[contentWritten] operator[>] Other[0] operator[SEP] { identifier[ranges] operator[=] identifier[FULL] operator[SEP] } Keyword[if] operator[SEP] identifier[isError] operator[||] operator[SEP] operator[SEP] operator[SEP] identifier[ranges] operator[==] Other[null] operator[SEP] operator[||] operator[SEP] identifier[ranges] operator[SEP] identifier[isEmpty] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[&&] operator[SEP] identifier[request] operator[SEP] identifier[getHeader] operator[SEP] literal[String] operator[SEP] operator[==] Other[null] operator[SEP] operator[SEP] operator[||] operator[SEP] identifier[ranges] operator[==] identifier[FULL] operator[SEP] operator[SEP] { Keyword[if] operator[SEP] identifier[contentType] operator[!=] Other[null] 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] operator[+] identifier[contentType] operator[+] literal[String] operator[SEP] operator[SEP] identifier[response] operator[SEP] identifier[setContentType] operator[SEP] identifier[contentType] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] operator[SEP] identifier[cacheEntry] operator[SEP] identifier[getResource] operator[SEP] operator[SEP] operator[!=] Other[null] operator[SEP] operator[&&] operator[SEP] identifier[contentLength] operator[>=] Other[0] operator[SEP] operator[&&] operator[SEP] operator[!] identifier[serveContent] operator[||] identifier[ostream] operator[!=] Other[null] operator[SEP] 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] operator[+] identifier[contentLength] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[contentWritten] operator[==] Other[0] operator[SEP] { Keyword[if] operator[SEP] identifier[contentLength] operator[<] identifier[Integer] operator[SEP] identifier[MAX_VALUE] operator[SEP] { identifier[response] operator[SEP] identifier[setContentLength] operator[SEP] operator[SEP] Keyword[int] operator[SEP] identifier[contentLength] operator[SEP] operator[SEP] } Keyword[else] { identifier[response] operator[SEP] identifier[setHeader] operator[SEP] literal[String] , literal[String] operator[+] identifier[contentLength] operator[SEP] operator[SEP] } } } Keyword[final] identifier[InputStream] identifier[renderResult] operator[=] Other[null] operator[SEP] Keyword[if] operator[SEP] identifier[serveContent] operator[SEP] { Keyword[try] { identifier[response] operator[SEP] identifier[setBufferSize] operator[SEP] identifier[getOutputBufferSize] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] Keyword[final] identifier[IllegalStateException] identifier[e] operator[SEP] { } Keyword[if] operator[SEP] identifier[ostream] operator[!=] Other[null] operator[SEP] { identifier[copy] operator[SEP] identifier[cacheEntry] , identifier[renderResult] , identifier[ostream] operator[SEP] operator[SEP] } Keyword[else] { identifier[copy] operator[SEP] identifier[cacheEntry] , identifier[renderResult] , identifier[writer] operator[SEP] operator[SEP] } } } Keyword[else] { Keyword[if] operator[SEP] operator[SEP] identifier[ranges] operator[==] Other[null] operator[SEP] operator[||] operator[SEP] identifier[ranges] operator[SEP] identifier[isEmpty] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[return] operator[SEP] identifier[response] operator[SEP] identifier[setStatus] operator[SEP] identifier[HttpServletResponse] operator[SEP] identifier[SC_PARTIAL_CONTENT] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[ranges] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[==] Other[1] operator[SEP] { Keyword[final] identifier[Range] identifier[range] operator[=] identifier[ranges] operator[SEP] identifier[get] operator[SEP] Other[0] operator[SEP] operator[SEP] identifier[response] operator[SEP] identifier[addHeader] operator[SEP] literal[String] , literal[String] operator[+] identifier[range] operator[SEP] identifier[start] operator[+] literal[String] operator[+] identifier[range] operator[SEP] identifier[end] operator[+] literal[String] operator[+] identifier[range] operator[SEP] identifier[length] operator[SEP] operator[SEP] Keyword[final] Keyword[long] identifier[length] operator[=] identifier[range] operator[SEP] identifier[end] operator[-] identifier[range] operator[SEP] identifier[start] operator[+] Other[1] operator[SEP] Keyword[if] operator[SEP] identifier[length] operator[<] identifier[Integer] operator[SEP] identifier[MAX_VALUE] operator[SEP] { identifier[response] operator[SEP] identifier[setContentLength] operator[SEP] operator[SEP] Keyword[int] operator[SEP] identifier[length] operator[SEP] operator[SEP] } Keyword[else] { identifier[response] operator[SEP] identifier[setHeader] operator[SEP] literal[String] , literal[String] operator[+] identifier[length] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[contentType] operator[!=] Other[null] 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] operator[+] identifier[contentType] operator[+] literal[String] operator[SEP] operator[SEP] identifier[response] operator[SEP] identifier[setContentType] operator[SEP] identifier[contentType] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[serveContent] operator[SEP] { Keyword[try] { identifier[response] operator[SEP] identifier[setBufferSize] operator[SEP] identifier[getOutputBufferSize] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] Keyword[final] identifier[IllegalStateException] identifier[e] operator[SEP] { } Keyword[if] operator[SEP] identifier[ostream] operator[!=] Other[null] operator[SEP] { identifier[copy] operator[SEP] identifier[cacheEntry] , identifier[ostream] , identifier[range] operator[SEP] operator[SEP] } Keyword[else] { Keyword[throw] Keyword[new] identifier[IllegalStateException] operator[SEP] operator[SEP] operator[SEP] } } } Keyword[else] { identifier[response] operator[SEP] identifier[setContentType] operator[SEP] literal[String] operator[+] identifier[mimeSeparation] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[serveContent] operator[SEP] { Keyword[try] { identifier[response] operator[SEP] identifier[setBufferSize] operator[SEP] identifier[getOutputBufferSize] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] Keyword[final] identifier[IllegalStateException] identifier[e] operator[SEP] { } Keyword[if] operator[SEP] identifier[ostream] operator[!=] Other[null] operator[SEP] { identifier[copy] operator[SEP] identifier[cacheEntry] , identifier[ostream] , identifier[ranges] operator[SEP] identifier[iterator] operator[SEP] operator[SEP] , identifier[contentType] operator[SEP] operator[SEP] } Keyword[else] { Keyword[throw] Keyword[new] identifier[IllegalStateException] operator[SEP] operator[SEP] operator[SEP] } } } } }
public void setCaptionDescriptions(java.util.Collection<CaptionDescriptionPreset> captionDescriptions) { if (captionDescriptions == null) { this.captionDescriptions = null; return; } this.captionDescriptions = new java.util.ArrayList<CaptionDescriptionPreset>(captionDescriptions); }
class class_name[name] begin[{] method[setCaptionDescriptions, return_type[void], modifier[public], parameter[captionDescriptions]] begin[{] if[binary_operation[member[.captionDescriptions], ==, literal[null]]] begin[{] assign[THIS[member[None.captionDescriptions]], literal[null]] return[None] else begin[{] None end[}] assign[THIS[member[None.captionDescriptions]], ClassCreator(arguments=[MemberReference(member=captionDescriptions, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=java, sub_type=ReferenceType(arguments=None, dimensions=None, name=util, sub_type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=CaptionDescriptionPreset, sub_type=None))], dimensions=None, name=ArrayList, sub_type=None))))] end[}] END[}]
Keyword[public] Keyword[void] identifier[setCaptionDescriptions] operator[SEP] identifier[java] operator[SEP] identifier[util] operator[SEP] identifier[Collection] operator[<] identifier[CaptionDescriptionPreset] operator[>] identifier[captionDescriptions] operator[SEP] { Keyword[if] operator[SEP] identifier[captionDescriptions] operator[==] Other[null] operator[SEP] { Keyword[this] operator[SEP] identifier[captionDescriptions] operator[=] Other[null] operator[SEP] Keyword[return] operator[SEP] } Keyword[this] operator[SEP] identifier[captionDescriptions] operator[=] Keyword[new] identifier[java] operator[SEP] identifier[util] operator[SEP] identifier[ArrayList] operator[<] identifier[CaptionDescriptionPreset] operator[>] operator[SEP] identifier[captionDescriptions] operator[SEP] operator[SEP] }
public void setTitle(java.util.Collection<StringFilter> title) { if (title == null) { this.title = null; return; } this.title = new java.util.ArrayList<StringFilter>(title); }
class class_name[name] begin[{] method[setTitle, return_type[void], modifier[public], parameter[title]] begin[{] if[binary_operation[member[.title], ==, literal[null]]] begin[{] assign[THIS[member[None.title]], literal[null]] return[None] else begin[{] None end[}] assign[THIS[member[None.title]], ClassCreator(arguments=[MemberReference(member=title, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=java, sub_type=ReferenceType(arguments=None, dimensions=None, name=util, sub_type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=StringFilter, sub_type=None))], dimensions=None, name=ArrayList, sub_type=None))))] end[}] END[}]
Keyword[public] Keyword[void] identifier[setTitle] operator[SEP] identifier[java] operator[SEP] identifier[util] operator[SEP] identifier[Collection] operator[<] identifier[StringFilter] operator[>] identifier[title] operator[SEP] { Keyword[if] operator[SEP] identifier[title] operator[==] Other[null] operator[SEP] { Keyword[this] operator[SEP] identifier[title] operator[=] Other[null] operator[SEP] Keyword[return] operator[SEP] } Keyword[this] operator[SEP] identifier[title] operator[=] Keyword[new] identifier[java] operator[SEP] identifier[util] operator[SEP] identifier[ArrayList] operator[<] identifier[StringFilter] operator[>] operator[SEP] identifier[title] operator[SEP] operator[SEP] }
public static <First extends Comparable<? super First>, Second extends Comparable<? super Second>> int compare( final Pair<First, Second> left, final Pair<First, Second> right) { return compare( left.getFirst(), left.getSecond(), right.getFirst(), right.getSecond()); }
class class_name[name] begin[{] method[compare, return_type[type[int]], modifier[public static], parameter[left, right]] begin[{] return[call[.compare, parameter[call[left.getFirst, parameter[]], call[left.getSecond, parameter[]], call[right.getFirst, parameter[]], call[right.getSecond, parameter[]]]]] end[}] END[}]
Keyword[public] Keyword[static] operator[<] identifier[First] Keyword[extends] identifier[Comparable] operator[<] operator[?] Keyword[super] identifier[First] operator[>] , identifier[Second] Keyword[extends] identifier[Comparable] operator[<] operator[?] Keyword[super] identifier[Second] operator[>] operator[>] Keyword[int] identifier[compare] operator[SEP] Keyword[final] identifier[Pair] operator[<] identifier[First] , identifier[Second] operator[>] identifier[left] , Keyword[final] identifier[Pair] operator[<] identifier[First] , identifier[Second] operator[>] identifier[right] operator[SEP] { Keyword[return] identifier[compare] operator[SEP] identifier[left] operator[SEP] identifier[getFirst] operator[SEP] operator[SEP] , identifier[left] operator[SEP] identifier[getSecond] operator[SEP] operator[SEP] , identifier[right] operator[SEP] identifier[getFirst] operator[SEP] operator[SEP] , identifier[right] operator[SEP] identifier[getSecond] operator[SEP] operator[SEP] operator[SEP] operator[SEP] }
protected void writeJavaScript(Header header) throws IOException { addTabs(2); writeStart(HtmlTags.SCRIPT); write(HtmlTags.LANGUAGE, HtmlTags.JAVASCRIPT); if (markup.size() > 0) { /* JavaScript reference example: * * <script language="JavaScript" src="/myPath/MyFunctions.js"/> */ writeMarkupAttributes(markup); os.write(GT); writeEnd(HtmlTags.SCRIPT); } else { /* JavaScript coding convention: * * <script language="JavaScript" type="text/javascript"> * <!-- * // ... JavaScript methods ... * //--> * </script> */ write(HtmlTags.TYPE, Markup.HTML_VALUE_JAVASCRIPT); os.write(GT); addTabs(2); write(new String(BEGINCOMMENT) + "\n"); write(header.getContent()); addTabs(2); write("//" + new String(ENDCOMMENT)); addTabs(2); writeEnd(HtmlTags.SCRIPT); } }
class class_name[name] begin[{] method[writeJavaScript, return_type[void], modifier[protected], parameter[header]] begin[{] call[.addTabs, parameter[literal[2]]] call[.writeStart, parameter[member[HtmlTags.SCRIPT]]] call[.write, parameter[member[HtmlTags.LANGUAGE], member[HtmlTags.JAVASCRIPT]]] if[binary_operation[call[markup.size, parameter[]], >, literal[0]]] begin[{] call[.writeMarkupAttributes, parameter[member[.markup]]] call[os.write, parameter[member[.GT]]] call[.writeEnd, parameter[member[HtmlTags.SCRIPT]]] else begin[{] call[.write, parameter[member[HtmlTags.TYPE], member[Markup.HTML_VALUE_JAVASCRIPT]]] call[os.write, parameter[member[.GT]]] call[.addTabs, parameter[literal[2]]] call[.write, parameter[binary_operation[ClassCreator(arguments=[MemberReference(member=BEGINCOMMENT, 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=String, sub_type=None)), +, literal["\n"]]]] call[.write, parameter[call[header.getContent, parameter[]]]] call[.addTabs, parameter[literal[2]]] call[.write, parameter[binary_operation[literal["//"], +, ClassCreator(arguments=[MemberReference(member=ENDCOMMENT, 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=String, sub_type=None))]]] call[.addTabs, parameter[literal[2]]] call[.writeEnd, parameter[member[HtmlTags.SCRIPT]]] end[}] end[}] END[}]
Keyword[protected] Keyword[void] identifier[writeJavaScript] operator[SEP] identifier[Header] identifier[header] operator[SEP] Keyword[throws] identifier[IOException] { identifier[addTabs] operator[SEP] Other[2] operator[SEP] operator[SEP] identifier[writeStart] operator[SEP] identifier[HtmlTags] operator[SEP] identifier[SCRIPT] operator[SEP] operator[SEP] identifier[write] operator[SEP] identifier[HtmlTags] operator[SEP] identifier[LANGUAGE] , identifier[HtmlTags] operator[SEP] identifier[JAVASCRIPT] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[markup] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[>] Other[0] operator[SEP] { identifier[writeMarkupAttributes] operator[SEP] identifier[markup] operator[SEP] operator[SEP] identifier[os] operator[SEP] identifier[write] operator[SEP] identifier[GT] operator[SEP] operator[SEP] identifier[writeEnd] operator[SEP] identifier[HtmlTags] operator[SEP] identifier[SCRIPT] operator[SEP] operator[SEP] } Keyword[else] { identifier[write] operator[SEP] identifier[HtmlTags] operator[SEP] identifier[TYPE] , identifier[Markup] operator[SEP] identifier[HTML_VALUE_JAVASCRIPT] operator[SEP] operator[SEP] identifier[os] operator[SEP] identifier[write] operator[SEP] identifier[GT] operator[SEP] operator[SEP] identifier[addTabs] operator[SEP] Other[2] operator[SEP] operator[SEP] identifier[write] operator[SEP] Keyword[new] identifier[String] operator[SEP] identifier[BEGINCOMMENT] operator[SEP] operator[+] literal[String] operator[SEP] operator[SEP] identifier[write] operator[SEP] identifier[header] operator[SEP] identifier[getContent] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[addTabs] operator[SEP] Other[2] operator[SEP] operator[SEP] identifier[write] operator[SEP] literal[String] operator[+] Keyword[new] identifier[String] operator[SEP] identifier[ENDCOMMENT] operator[SEP] operator[SEP] operator[SEP] identifier[addTabs] operator[SEP] Other[2] operator[SEP] operator[SEP] identifier[writeEnd] operator[SEP] identifier[HtmlTags] operator[SEP] identifier[SCRIPT] operator[SEP] operator[SEP] } }
@SuppressWarnings("deprecation") Result begin(String... argv) { // Preprocess @file arguments try { argv = CommandLine.parse(argv); } catch (IOException e) { error("main.cant.read", e.getMessage()); return ERROR; } if (argv.length > 0 && "-Xold".equals(argv[0])) { warn("main.legacy_api"); String[] nargv = Arrays.copyOfRange(argv, 1, argv.length); int rc = com.sun.tools.javadoc.Main.execute( messager.programName, messager.getWriter(WriterKind.ERROR), messager.getWriter(WriterKind.WARNING), messager.getWriter(WriterKind.NOTICE), OldStdDocletName, nargv); return (rc == 0) ? OK : ERROR; } return begin(Arrays.asList(argv), Collections.emptySet()); }
class class_name[name] begin[{] method[begin, return_type[type[Result]], modifier[default], parameter[argv]] begin[{] TryStatement(block=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=argv, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[MemberReference(member=argv, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=parse, postfix_operators=[], prefix_operators=[], qualifier=CommandLine, selectors=[], type_arguments=None)), label=None)], catches=[CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="main.cant.read"), MethodInvocation(arguments=[], member=getMessage, postfix_operators=[], prefix_operators=[], qualifier=e, selectors=[], type_arguments=None)], member=error, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None), ReturnStatement(expression=MemberReference(member=ERROR, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['IOException']))], finally_block=None, label=None, resources=None) if[binary_operation[binary_operation[member[argv.length], >, literal[0]], &&, literal["-Xold"]]] begin[{] call[.warn, parameter[literal["main.legacy_api"]]] local_variable[type[String], nargv] local_variable[type[int], rc] return[TernaryExpression(condition=BinaryOperation(operandl=MemberReference(member=rc, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), operator===), if_false=MemberReference(member=ERROR, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), if_true=MemberReference(member=OK, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))] else begin[{] None end[}] return[call[.begin, parameter[call[Arrays.asList, parameter[member[.argv]]], call[Collections.emptySet, parameter[]]]]] end[}] END[}]
annotation[@] identifier[SuppressWarnings] operator[SEP] literal[String] operator[SEP] identifier[Result] identifier[begin] operator[SEP] identifier[String] operator[...] identifier[argv] operator[SEP] { Keyword[try] { identifier[argv] operator[=] identifier[CommandLine] operator[SEP] identifier[parse] operator[SEP] identifier[argv] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[IOException] identifier[e] operator[SEP] { identifier[error] operator[SEP] literal[String] , identifier[e] operator[SEP] identifier[getMessage] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[ERROR] operator[SEP] } Keyword[if] operator[SEP] identifier[argv] operator[SEP] identifier[length] operator[>] Other[0] operator[&&] literal[String] operator[SEP] identifier[equals] operator[SEP] identifier[argv] operator[SEP] Other[0] operator[SEP] operator[SEP] operator[SEP] { identifier[warn] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[String] operator[SEP] operator[SEP] identifier[nargv] operator[=] identifier[Arrays] operator[SEP] identifier[copyOfRange] operator[SEP] identifier[argv] , Other[1] , identifier[argv] operator[SEP] identifier[length] operator[SEP] operator[SEP] Keyword[int] identifier[rc] operator[=] identifier[com] operator[SEP] identifier[sun] operator[SEP] identifier[tools] operator[SEP] identifier[javadoc] operator[SEP] identifier[Main] operator[SEP] identifier[execute] operator[SEP] identifier[messager] operator[SEP] identifier[programName] , identifier[messager] operator[SEP] identifier[getWriter] operator[SEP] identifier[WriterKind] operator[SEP] identifier[ERROR] operator[SEP] , identifier[messager] operator[SEP] identifier[getWriter] operator[SEP] identifier[WriterKind] operator[SEP] identifier[WARNING] operator[SEP] , identifier[messager] operator[SEP] identifier[getWriter] operator[SEP] identifier[WriterKind] operator[SEP] identifier[NOTICE] operator[SEP] , identifier[OldStdDocletName] , identifier[nargv] operator[SEP] operator[SEP] Keyword[return] operator[SEP] identifier[rc] operator[==] Other[0] operator[SEP] operator[?] identifier[OK] operator[:] identifier[ERROR] operator[SEP] } Keyword[return] identifier[begin] operator[SEP] identifier[Arrays] operator[SEP] identifier[asList] operator[SEP] identifier[argv] operator[SEP] , identifier[Collections] operator[SEP] identifier[emptySet] operator[SEP] operator[SEP] operator[SEP] operator[SEP] }
@Override public void setApplicationContext(ApplicationContext applicationContext) throws BeansException { if (StringUtils.isEmpty(propertyFile)) { return; } for (String pf : propertyFile.split("\\,")) { loadAliases(applicationContext, pf); } if (fileCount > 0) { log.info("Loaded " + entryCount + " aliases from " + fileCount + " files."); } }
class class_name[name] begin[{] method[setApplicationContext, return_type[void], modifier[public], parameter[applicationContext]] begin[{] if[call[StringUtils.isEmpty, parameter[member[.propertyFile]]]] begin[{] return[None] else begin[{] None end[}] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=applicationContext, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=pf, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=loadAliases, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="\\,")], member=split, postfix_operators=[], prefix_operators=[], qualifier=propertyFile, selectors=[], type_arguments=None), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=pf)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None))), label=None) if[binary_operation[member[.fileCount], >, literal[0]]] begin[{] call[log.info, parameter[binary_operation[binary_operation[binary_operation[binary_operation[literal["Loaded "], +, member[.entryCount]], +, literal[" aliases from "]], +, member[.fileCount]], +, literal[" files."]]]] else begin[{] None end[}] end[}] END[}]
annotation[@] identifier[Override] Keyword[public] Keyword[void] identifier[setApplicationContext] operator[SEP] identifier[ApplicationContext] identifier[applicationContext] operator[SEP] Keyword[throws] identifier[BeansException] { Keyword[if] operator[SEP] identifier[StringUtils] operator[SEP] identifier[isEmpty] operator[SEP] identifier[propertyFile] operator[SEP] operator[SEP] { Keyword[return] operator[SEP] } Keyword[for] operator[SEP] identifier[String] identifier[pf] operator[:] identifier[propertyFile] operator[SEP] identifier[split] operator[SEP] literal[String] operator[SEP] operator[SEP] { identifier[loadAliases] operator[SEP] identifier[applicationContext] , identifier[pf] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[fileCount] operator[>] Other[0] operator[SEP] { identifier[log] operator[SEP] identifier[info] operator[SEP] literal[String] operator[+] identifier[entryCount] operator[+] literal[String] operator[+] identifier[fileCount] operator[+] literal[String] operator[SEP] operator[SEP] } }
public static boolean startsWith(byte[] bs, byte[] head) { if (bs.length < head.length) { return false; } for (int i = 0; i < head.length; i++) { if (head[i] != bs[i]) { return false; } } return true; }
class class_name[name] begin[{] method[startsWith, return_type[type[boolean]], modifier[public static], parameter[bs, head]] begin[{] if[binary_operation[member[bs.length], <, member[head.length]]] begin[{] return[literal[false]] else begin[{] None end[}] ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=head, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), operandr=MemberReference(member=bs, 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=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=false), 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=head, 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[true]] end[}] END[}]
Keyword[public] Keyword[static] Keyword[boolean] identifier[startsWith] operator[SEP] Keyword[byte] operator[SEP] operator[SEP] identifier[bs] , Keyword[byte] operator[SEP] operator[SEP] identifier[head] operator[SEP] { Keyword[if] operator[SEP] identifier[bs] operator[SEP] identifier[length] operator[<] identifier[head] operator[SEP] identifier[length] operator[SEP] { Keyword[return] literal[boolean] operator[SEP] } Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[head] operator[SEP] identifier[length] operator[SEP] identifier[i] operator[++] operator[SEP] { Keyword[if] operator[SEP] identifier[head] operator[SEP] identifier[i] operator[SEP] operator[!=] identifier[bs] operator[SEP] identifier[i] operator[SEP] operator[SEP] { Keyword[return] literal[boolean] operator[SEP] } } Keyword[return] literal[boolean] operator[SEP] }
@Override @SuppressFBWarnings ("IL_INFINITE_LOOP") public void write (final String s, final int off, final int len) throws IOException { _ensureOpen (); int b = off; final int t = off + len; while (b < t) { final int d = Math.min (m_nChars - m_nNextChar, t - b); s.getChars (b, b + d, m_aBuf, m_nNextChar); b += d; m_nNextChar += d; if (m_nNextChar >= m_nChars) flushBuffer (); } }
class class_name[name] begin[{] method[write, return_type[void], modifier[public], parameter[s, off, len]] begin[{] call[._ensureOpen, parameter[]] local_variable[type[int], b] local_variable[type[int], t] while[binary_operation[member[.b], <, member[.t]]] begin[{] local_variable[type[int], d] call[s.getChars, parameter[member[.b], binary_operation[member[.b], +, member[.d]], member[.m_aBuf], member[.m_nNextChar]]] assign[member[.b], member[.d]] assign[member[.m_nNextChar], member[.d]] if[binary_operation[member[.m_nNextChar], >=, member[.m_nChars]]] begin[{] call[.flushBuffer, parameter[]] else begin[{] None end[}] end[}] end[}] END[}]
annotation[@] identifier[Override] annotation[@] identifier[SuppressFBWarnings] operator[SEP] literal[String] operator[SEP] Keyword[public] Keyword[void] identifier[write] operator[SEP] Keyword[final] identifier[String] identifier[s] , Keyword[final] Keyword[int] identifier[off] , Keyword[final] Keyword[int] identifier[len] operator[SEP] Keyword[throws] identifier[IOException] { identifier[_ensureOpen] operator[SEP] operator[SEP] operator[SEP] Keyword[int] identifier[b] operator[=] identifier[off] operator[SEP] Keyword[final] Keyword[int] identifier[t] operator[=] identifier[off] operator[+] identifier[len] operator[SEP] Keyword[while] operator[SEP] identifier[b] operator[<] identifier[t] operator[SEP] { Keyword[final] Keyword[int] identifier[d] operator[=] identifier[Math] operator[SEP] identifier[min] operator[SEP] identifier[m_nChars] operator[-] identifier[m_nNextChar] , identifier[t] operator[-] identifier[b] operator[SEP] operator[SEP] identifier[s] operator[SEP] identifier[getChars] operator[SEP] identifier[b] , identifier[b] operator[+] identifier[d] , identifier[m_aBuf] , identifier[m_nNextChar] operator[SEP] operator[SEP] identifier[b] operator[+=] identifier[d] operator[SEP] identifier[m_nNextChar] operator[+=] identifier[d] operator[SEP] Keyword[if] operator[SEP] identifier[m_nNextChar] operator[>=] identifier[m_nChars] operator[SEP] identifier[flushBuffer] operator[SEP] operator[SEP] operator[SEP] } }
void handleStatusEvent(StatusEvent event) { AsteriskChannelImpl channel; final Extension extension; boolean isNew = false; Map<String, String> variables = event.getVariables(); channel = getChannelImplById(event.getUniqueId()); if (channel == null) { Date dateOfCreation; if (event.getSeconds() != null) { dateOfCreation = new Date(DateUtil.getDate().getTime() - (event.getSeconds() * 1000L)); } else { dateOfCreation = DateUtil.getDate(); } channel = new AsteriskChannelImpl(server, event.getChannel(), event.getUniqueId(), dateOfCreation); isNew = true; if (variables != null) { for (Entry<String, String> variable : variables.entrySet()) { channel.updateVariable(variable.getKey(), variable.getValue()); } } } if (event.getContext() == null && event.getExtension() == null && event.getPriority() == null) { extension = null; } else { extension = new Extension(event.getContext(), event.getExtension(), event.getPriority()); } synchronized (channel) { channel.setCallerId(new CallerId(event.getCallerIdName(), event.getCallerIdNum())); channel.setAccount(event.getAccountCode()); if (event.getChannelState() != null) { channel.stateChanged(event.getDateReceived(), ChannelState.valueOf(event.getChannelState())); } channel.extensionVisited(event.getDateReceived(), extension); if (event.getBridgedChannel() != null) { final AsteriskChannelImpl linkedChannel = getChannelImplByName(event.getBridgedChannel()); if (linkedChannel != null) { // the date used here is not correct! channel.channelLinked(event.getDateReceived(), linkedChannel); synchronized (linkedChannel) { linkedChannel.channelLinked(event.getDateReceived(), channel); } } } } if (isNew) { logger.info("Adding new channel " + channel.getName()); addChannel(channel); server.fireNewAsteriskChannel(channel); } }
class class_name[name] begin[{] method[handleStatusEvent, return_type[void], modifier[default], parameter[event]] begin[{] local_variable[type[AsteriskChannelImpl], channel] local_variable[type[Extension], extension] local_variable[type[boolean], isNew] local_variable[type[Map], variables] assign[member[.channel], call[.getChannelImplById, parameter[call[event.getUniqueId, parameter[]]]]] if[binary_operation[member[.channel], ==, literal[null]]] begin[{] local_variable[type[Date], dateOfCreation] if[binary_operation[call[event.getSeconds, parameter[]], !=, literal[null]]] begin[{] assign[member[.dateOfCreation], ClassCreator(arguments=[BinaryOperation(operandl=MethodInvocation(arguments=[], member=getDate, postfix_operators=[], prefix_operators=[], qualifier=DateUtil, selectors=[MethodInvocation(arguments=[], member=getTime, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), operandr=BinaryOperation(operandl=MethodInvocation(arguments=[], member=getSeconds, postfix_operators=[], prefix_operators=[], qualifier=event, selectors=[], type_arguments=None), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1000L), operator=*), operator=-)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Date, sub_type=None))] else begin[{] assign[member[.dateOfCreation], call[DateUtil.getDate, parameter[]]] end[}] assign[member[.channel], ClassCreator(arguments=[MemberReference(member=server, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MethodInvocation(arguments=[], member=getChannel, postfix_operators=[], prefix_operators=[], qualifier=event, selectors=[], type_arguments=None), MethodInvocation(arguments=[], member=getUniqueId, postfix_operators=[], prefix_operators=[], qualifier=event, selectors=[], type_arguments=None), MemberReference(member=dateOfCreation, 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=AsteriskChannelImpl, sub_type=None))] assign[member[.isNew], literal[true]] if[binary_operation[member[.variables], !=, literal[null]]] begin[{] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getKey, postfix_operators=[], prefix_operators=[], qualifier=variable, selectors=[], type_arguments=None), MethodInvocation(arguments=[], member=getValue, postfix_operators=[], prefix_operators=[], qualifier=variable, selectors=[], type_arguments=None)], member=updateVariable, postfix_operators=[], prefix_operators=[], qualifier=channel, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MethodInvocation(arguments=[], member=entrySet, postfix_operators=[], prefix_operators=[], qualifier=variables, selectors=[], type_arguments=None), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=variable)], modifiers=set(), type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None))], dimensions=[], name=Entry, sub_type=None))), label=None) else begin[{] None end[}] else begin[{] None end[}] if[binary_operation[binary_operation[binary_operation[call[event.getContext, parameter[]], ==, literal[null]], &&, binary_operation[call[event.getExtension, parameter[]], ==, literal[null]]], &&, binary_operation[call[event.getPriority, parameter[]], ==, literal[null]]]] begin[{] assign[member[.extension], literal[null]] else begin[{] assign[member[.extension], ClassCreator(arguments=[MethodInvocation(arguments=[], member=getContext, postfix_operators=[], prefix_operators=[], qualifier=event, selectors=[], type_arguments=None), MethodInvocation(arguments=[], member=getExtension, postfix_operators=[], prefix_operators=[], qualifier=event, selectors=[], type_arguments=None), MethodInvocation(arguments=[], member=getPriority, postfix_operators=[], prefix_operators=[], qualifier=event, selectors=[], type_arguments=None)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Extension, sub_type=None))] end[}] SYNCHRONIZED[member[.channel]] BEGIN[{] call[channel.setCallerId, parameter[ClassCreator(arguments=[MethodInvocation(arguments=[], member=getCallerIdName, postfix_operators=[], prefix_operators=[], qualifier=event, selectors=[], type_arguments=None), MethodInvocation(arguments=[], member=getCallerIdNum, postfix_operators=[], prefix_operators=[], qualifier=event, selectors=[], type_arguments=None)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=CallerId, sub_type=None))]] call[channel.setAccount, parameter[call[event.getAccountCode, parameter[]]]] if[binary_operation[call[event.getChannelState, parameter[]], !=, literal[null]]] begin[{] call[channel.stateChanged, parameter[call[event.getDateReceived, parameter[]], call[ChannelState.valueOf, parameter[call[event.getChannelState, parameter[]]]]]] else begin[{] None end[}] call[channel.extensionVisited, parameter[call[event.getDateReceived, parameter[]], member[.extension]]] if[binary_operation[call[event.getBridgedChannel, parameter[]], !=, literal[null]]] begin[{] local_variable[type[AsteriskChannelImpl], linkedChannel] if[binary_operation[member[.linkedChannel], !=, literal[null]]] begin[{] call[channel.channelLinked, parameter[call[event.getDateReceived, parameter[]], member[.linkedChannel]]] SYNCHRONIZED[member[.linkedChannel]] BEGIN[{] call[linkedChannel.channelLinked, parameter[call[event.getDateReceived, parameter[]], member[.channel]]] END[}] else begin[{] None end[}] else begin[{] None end[}] END[}] if[member[.isNew]] begin[{] call[logger.info, parameter[binary_operation[literal["Adding new channel "], +, call[channel.getName, parameter[]]]]] call[.addChannel, parameter[member[.channel]]] call[server.fireNewAsteriskChannel, parameter[member[.channel]]] else begin[{] None end[}] end[}] END[}]
Keyword[void] identifier[handleStatusEvent] operator[SEP] identifier[StatusEvent] identifier[event] operator[SEP] { identifier[AsteriskChannelImpl] identifier[channel] operator[SEP] Keyword[final] identifier[Extension] identifier[extension] operator[SEP] Keyword[boolean] identifier[isNew] operator[=] literal[boolean] operator[SEP] identifier[Map] operator[<] identifier[String] , identifier[String] operator[>] identifier[variables] operator[=] identifier[event] operator[SEP] identifier[getVariables] operator[SEP] operator[SEP] operator[SEP] identifier[channel] operator[=] identifier[getChannelImplById] operator[SEP] identifier[event] operator[SEP] identifier[getUniqueId] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[channel] operator[==] Other[null] operator[SEP] { identifier[Date] identifier[dateOfCreation] operator[SEP] Keyword[if] operator[SEP] identifier[event] operator[SEP] identifier[getSeconds] operator[SEP] operator[SEP] operator[!=] Other[null] operator[SEP] { identifier[dateOfCreation] operator[=] Keyword[new] identifier[Date] operator[SEP] identifier[DateUtil] operator[SEP] identifier[getDate] operator[SEP] operator[SEP] operator[SEP] identifier[getTime] operator[SEP] operator[SEP] operator[-] operator[SEP] identifier[event] operator[SEP] identifier[getSeconds] operator[SEP] operator[SEP] operator[*] Other[1000L] operator[SEP] operator[SEP] operator[SEP] } Keyword[else] { identifier[dateOfCreation] operator[=] identifier[DateUtil] operator[SEP] identifier[getDate] operator[SEP] operator[SEP] operator[SEP] } identifier[channel] operator[=] Keyword[new] identifier[AsteriskChannelImpl] operator[SEP] identifier[server] , identifier[event] operator[SEP] identifier[getChannel] operator[SEP] operator[SEP] , identifier[event] operator[SEP] identifier[getUniqueId] operator[SEP] operator[SEP] , identifier[dateOfCreation] operator[SEP] operator[SEP] identifier[isNew] operator[=] literal[boolean] operator[SEP] Keyword[if] operator[SEP] identifier[variables] operator[!=] Other[null] operator[SEP] { Keyword[for] operator[SEP] identifier[Entry] operator[<] identifier[String] , identifier[String] operator[>] identifier[variable] operator[:] identifier[variables] operator[SEP] identifier[entrySet] operator[SEP] operator[SEP] operator[SEP] { identifier[channel] operator[SEP] identifier[updateVariable] operator[SEP] identifier[variable] operator[SEP] identifier[getKey] operator[SEP] operator[SEP] , identifier[variable] operator[SEP] identifier[getValue] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } } } Keyword[if] operator[SEP] identifier[event] operator[SEP] identifier[getContext] operator[SEP] operator[SEP] operator[==] Other[null] operator[&&] identifier[event] operator[SEP] identifier[getExtension] operator[SEP] operator[SEP] operator[==] Other[null] operator[&&] identifier[event] operator[SEP] identifier[getPriority] operator[SEP] operator[SEP] operator[==] Other[null] operator[SEP] { identifier[extension] operator[=] Other[null] operator[SEP] } Keyword[else] { identifier[extension] operator[=] Keyword[new] identifier[Extension] operator[SEP] identifier[event] operator[SEP] identifier[getContext] operator[SEP] operator[SEP] , identifier[event] operator[SEP] identifier[getExtension] operator[SEP] operator[SEP] , identifier[event] operator[SEP] identifier[getPriority] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[synchronized] operator[SEP] identifier[channel] operator[SEP] { identifier[channel] operator[SEP] identifier[setCallerId] operator[SEP] Keyword[new] identifier[CallerId] operator[SEP] identifier[event] operator[SEP] identifier[getCallerIdName] operator[SEP] operator[SEP] , identifier[event] operator[SEP] identifier[getCallerIdNum] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[channel] operator[SEP] identifier[setAccount] operator[SEP] identifier[event] operator[SEP] identifier[getAccountCode] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[event] operator[SEP] identifier[getChannelState] operator[SEP] operator[SEP] operator[!=] Other[null] operator[SEP] { identifier[channel] operator[SEP] identifier[stateChanged] operator[SEP] identifier[event] operator[SEP] identifier[getDateReceived] operator[SEP] operator[SEP] , identifier[ChannelState] operator[SEP] identifier[valueOf] operator[SEP] identifier[event] operator[SEP] identifier[getChannelState] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } identifier[channel] operator[SEP] identifier[extensionVisited] operator[SEP] identifier[event] operator[SEP] identifier[getDateReceived] operator[SEP] operator[SEP] , identifier[extension] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[event] operator[SEP] identifier[getBridgedChannel] operator[SEP] operator[SEP] operator[!=] Other[null] operator[SEP] { Keyword[final] identifier[AsteriskChannelImpl] identifier[linkedChannel] operator[=] identifier[getChannelImplByName] operator[SEP] identifier[event] operator[SEP] identifier[getBridgedChannel] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[linkedChannel] operator[!=] Other[null] operator[SEP] { identifier[channel] operator[SEP] identifier[channelLinked] operator[SEP] identifier[event] operator[SEP] identifier[getDateReceived] operator[SEP] operator[SEP] , identifier[linkedChannel] operator[SEP] operator[SEP] Keyword[synchronized] operator[SEP] identifier[linkedChannel] operator[SEP] { identifier[linkedChannel] operator[SEP] identifier[channelLinked] operator[SEP] identifier[event] operator[SEP] identifier[getDateReceived] operator[SEP] operator[SEP] , identifier[channel] operator[SEP] operator[SEP] } } } } Keyword[if] operator[SEP] identifier[isNew] operator[SEP] { identifier[logger] operator[SEP] identifier[info] operator[SEP] literal[String] operator[+] identifier[channel] operator[SEP] identifier[getName] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[addChannel] operator[SEP] identifier[channel] operator[SEP] operator[SEP] identifier[server] operator[SEP] identifier[fireNewAsteriskChannel] operator[SEP] identifier[channel] operator[SEP] operator[SEP] } }
public long readLELong() throws IOException { return EndianNumbers.toLELong(read(), read(), read(), read(), read(), read(), read(), read()); }
class class_name[name] begin[{] method[readLELong, return_type[type[long]], modifier[public], parameter[]] begin[{] return[call[EndianNumbers.toLELong, parameter[call[.read, parameter[]], call[.read, parameter[]], call[.read, parameter[]], call[.read, parameter[]], call[.read, parameter[]], call[.read, parameter[]], call[.read, parameter[]], call[.read, parameter[]]]]] end[}] END[}]
Keyword[public] Keyword[long] identifier[readLELong] operator[SEP] operator[SEP] Keyword[throws] identifier[IOException] { Keyword[return] identifier[EndianNumbers] operator[SEP] identifier[toLELong] operator[SEP] identifier[read] operator[SEP] operator[SEP] , identifier[read] operator[SEP] operator[SEP] , identifier[read] operator[SEP] operator[SEP] , identifier[read] operator[SEP] operator[SEP] , identifier[read] operator[SEP] operator[SEP] , identifier[read] operator[SEP] operator[SEP] , identifier[read] operator[SEP] operator[SEP] , identifier[read] operator[SEP] operator[SEP] operator[SEP] operator[SEP] }
public static String fillZero(long number, int length) { StringBuilder builder = new StringBuilder(); int least = length - numberLength(number); char[] zeros = new char[least]; for (int i = 0; i < least; i++) { zeros[i] = '0'; } builder.append(new String(zeros)); builder.append(number); return builder.toString(); }
class class_name[name] begin[{] method[fillZero, return_type[type[String]], modifier[public static], parameter[number, length]] begin[{] local_variable[type[StringBuilder], builder] local_variable[type[int], least] local_variable[type[char], zeros] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=zeros, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), type==, value=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=least, 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) call[builder.append, parameter[ClassCreator(arguments=[MemberReference(member=zeros, 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=String, sub_type=None))]] call[builder.append, parameter[member[.number]]] return[call[builder.toString, parameter[]]] end[}] END[}]
Keyword[public] Keyword[static] identifier[String] identifier[fillZero] operator[SEP] Keyword[long] identifier[number] , Keyword[int] identifier[length] operator[SEP] { identifier[StringBuilder] identifier[builder] operator[=] Keyword[new] identifier[StringBuilder] operator[SEP] operator[SEP] operator[SEP] Keyword[int] identifier[least] operator[=] identifier[length] operator[-] identifier[numberLength] operator[SEP] identifier[number] operator[SEP] operator[SEP] Keyword[char] operator[SEP] operator[SEP] identifier[zeros] operator[=] Keyword[new] Keyword[char] operator[SEP] identifier[least] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[least] operator[SEP] identifier[i] operator[++] operator[SEP] { identifier[zeros] operator[SEP] identifier[i] operator[SEP] operator[=] literal[String] operator[SEP] } identifier[builder] operator[SEP] identifier[append] operator[SEP] Keyword[new] identifier[String] operator[SEP] identifier[zeros] operator[SEP] operator[SEP] operator[SEP] identifier[builder] operator[SEP] identifier[append] operator[SEP] identifier[number] operator[SEP] operator[SEP] Keyword[return] identifier[builder] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] }
public static void checkNearCacheConfig(String mapName, NearCacheConfig nearCacheConfig, NativeMemoryConfig nativeMemoryConfig, boolean isClient) { checkNotNativeWhenOpenSource(nearCacheConfig.getInMemoryFormat()); checkLocalUpdatePolicy(mapName, nearCacheConfig.getLocalUpdatePolicy()); checkEvictionConfig(nearCacheConfig.getEvictionConfig(), true); checkOnHeapNearCacheMaxSizePolicy(nearCacheConfig); checkNearCacheNativeMemoryConfig(nearCacheConfig.getInMemoryFormat(), nativeMemoryConfig, getBuildInfo().isEnterprise()); if (isClient && nearCacheConfig.isCacheLocalEntries()) { throw new IllegalArgumentException("The Near Cache option `cache-local-entries` is not supported in " + "client configurations."); } checkPreloaderConfig(nearCacheConfig, isClient); }
class class_name[name] begin[{] method[checkNearCacheConfig, return_type[void], modifier[public static], parameter[mapName, nearCacheConfig, nativeMemoryConfig, isClient]] begin[{] call[.checkNotNativeWhenOpenSource, parameter[call[nearCacheConfig.getInMemoryFormat, parameter[]]]] call[.checkLocalUpdatePolicy, parameter[member[.mapName], call[nearCacheConfig.getLocalUpdatePolicy, parameter[]]]] call[.checkEvictionConfig, parameter[call[nearCacheConfig.getEvictionConfig, parameter[]], literal[true]]] call[.checkOnHeapNearCacheMaxSizePolicy, parameter[member[.nearCacheConfig]]] call[.checkNearCacheNativeMemoryConfig, parameter[call[nearCacheConfig.getInMemoryFormat, parameter[]], member[.nativeMemoryConfig], call[.getBuildInfo, parameter[]]]] if[binary_operation[member[.isClient], &&, call[nearCacheConfig.isCacheLocalEntries, parameter[]]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="The Near Cache option `cache-local-entries` is not supported in "), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="client configurations."), operator=+)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=IllegalArgumentException, sub_type=None)), label=None) else begin[{] None end[}] call[.checkPreloaderConfig, parameter[member[.nearCacheConfig], member[.isClient]]] end[}] END[}]
Keyword[public] Keyword[static] Keyword[void] identifier[checkNearCacheConfig] operator[SEP] identifier[String] identifier[mapName] , identifier[NearCacheConfig] identifier[nearCacheConfig] , identifier[NativeMemoryConfig] identifier[nativeMemoryConfig] , Keyword[boolean] identifier[isClient] operator[SEP] { identifier[checkNotNativeWhenOpenSource] operator[SEP] identifier[nearCacheConfig] operator[SEP] identifier[getInMemoryFormat] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[checkLocalUpdatePolicy] operator[SEP] identifier[mapName] , identifier[nearCacheConfig] operator[SEP] identifier[getLocalUpdatePolicy] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[checkEvictionConfig] operator[SEP] identifier[nearCacheConfig] operator[SEP] identifier[getEvictionConfig] operator[SEP] operator[SEP] , literal[boolean] operator[SEP] operator[SEP] identifier[checkOnHeapNearCacheMaxSizePolicy] operator[SEP] identifier[nearCacheConfig] operator[SEP] operator[SEP] identifier[checkNearCacheNativeMemoryConfig] operator[SEP] identifier[nearCacheConfig] operator[SEP] identifier[getInMemoryFormat] operator[SEP] operator[SEP] , identifier[nativeMemoryConfig] , identifier[getBuildInfo] operator[SEP] operator[SEP] operator[SEP] identifier[isEnterprise] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[isClient] operator[&&] identifier[nearCacheConfig] operator[SEP] identifier[isCacheLocalEntries] operator[SEP] operator[SEP] operator[SEP] { Keyword[throw] Keyword[new] identifier[IllegalArgumentException] operator[SEP] literal[String] operator[+] literal[String] operator[SEP] operator[SEP] } identifier[checkPreloaderConfig] operator[SEP] identifier[nearCacheConfig] , identifier[isClient] operator[SEP] operator[SEP] }
public void unparsedEntityDecl( String name, String publicId, String systemId, String notationName) throws SAXException { if (null != m_resultDTDHandler) m_resultDTDHandler.unparsedEntityDecl(name, publicId, systemId, notationName); }
class class_name[name] begin[{] method[unparsedEntityDecl, return_type[void], modifier[public], parameter[name, publicId, systemId, notationName]] begin[{] if[binary_operation[literal[null], !=, member[.m_resultDTDHandler]]] begin[{] call[m_resultDTDHandler.unparsedEntityDecl, parameter[member[.name], member[.publicId], member[.systemId], member[.notationName]]] else begin[{] None end[}] end[}] END[}]
Keyword[public] Keyword[void] identifier[unparsedEntityDecl] operator[SEP] identifier[String] identifier[name] , identifier[String] identifier[publicId] , identifier[String] identifier[systemId] , identifier[String] identifier[notationName] operator[SEP] Keyword[throws] identifier[SAXException] { Keyword[if] operator[SEP] Other[null] operator[!=] identifier[m_resultDTDHandler] operator[SEP] identifier[m_resultDTDHandler] operator[SEP] identifier[unparsedEntityDecl] operator[SEP] identifier[name] , identifier[publicId] , identifier[systemId] , identifier[notationName] operator[SEP] operator[SEP] }
public static boolean transformEntries(InputStream is, ZipEntryTransformerEntry[] entries, OutputStream os) { if (log.isDebugEnabled()) log.debug("Copying '" + is + "' to '" + os + "' and transforming entries " + Arrays.asList(entries) + "."); try { ZipOutputStream out = new ZipOutputStream(os); TransformerZipEntryCallback action = new TransformerZipEntryCallback(Arrays.asList(entries), out); iterate(is, action); // Finishes writing the contents of the ZIP output stream without closing // the underlying stream. out.finish(); return action.found(); } catch (IOException e) { throw ZipExceptionUtil.rethrow(e); } }
class class_name[name] begin[{] method[transformEntries, return_type[type[boolean]], modifier[public static], parameter[is, entries, os]] begin[{] if[call[log.isDebugEnabled, parameter[]]] begin[{] call[log.debug, parameter[binary_operation[binary_operation[binary_operation[binary_operation[binary_operation[binary_operation[literal["Copying '"], +, member[.is]], +, literal["' to '"]], +, member[.os]], +, literal["' and transforming entries "]], +, call[Arrays.asList, parameter[member[.entries]]]], +, literal["."]]]] else begin[{] None end[}] TryStatement(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[MemberReference(member=os, 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=ZipOutputStream, sub_type=None)), name=out)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=ZipOutputStream, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[MethodInvocation(arguments=[MemberReference(member=entries, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=asList, postfix_operators=[], prefix_operators=[], qualifier=Arrays, selectors=[], type_arguments=None), MemberReference(member=out, 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=TransformerZipEntryCallback, sub_type=None)), name=action)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=TransformerZipEntryCallback, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=is, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=action, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=iterate, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[], member=finish, postfix_operators=[], prefix_operators=[], qualifier=out, selectors=[], type_arguments=None), label=None), ReturnStatement(expression=MethodInvocation(arguments=[], member=found, postfix_operators=[], prefix_operators=[], qualifier=action, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[ThrowStatement(expression=MethodInvocation(arguments=[MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=rethrow, postfix_operators=[], prefix_operators=[], qualifier=ZipExceptionUtil, selectors=[], type_arguments=None), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['IOException']))], finally_block=None, label=None, resources=None) end[}] END[}]
Keyword[public] Keyword[static] Keyword[boolean] identifier[transformEntries] operator[SEP] identifier[InputStream] identifier[is] , identifier[ZipEntryTransformerEntry] operator[SEP] operator[SEP] identifier[entries] , identifier[OutputStream] identifier[os] 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] operator[+] identifier[is] operator[+] literal[String] operator[+] identifier[os] operator[+] literal[String] operator[+] identifier[Arrays] operator[SEP] identifier[asList] operator[SEP] identifier[entries] operator[SEP] operator[+] literal[String] operator[SEP] operator[SEP] Keyword[try] { identifier[ZipOutputStream] identifier[out] operator[=] Keyword[new] identifier[ZipOutputStream] operator[SEP] identifier[os] operator[SEP] operator[SEP] identifier[TransformerZipEntryCallback] identifier[action] operator[=] Keyword[new] identifier[TransformerZipEntryCallback] operator[SEP] identifier[Arrays] operator[SEP] identifier[asList] operator[SEP] identifier[entries] operator[SEP] , identifier[out] operator[SEP] operator[SEP] identifier[iterate] operator[SEP] identifier[is] , identifier[action] operator[SEP] operator[SEP] identifier[out] operator[SEP] identifier[finish] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[action] operator[SEP] identifier[found] operator[SEP] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[IOException] identifier[e] operator[SEP] { Keyword[throw] identifier[ZipExceptionUtil] operator[SEP] identifier[rethrow] operator[SEP] identifier[e] operator[SEP] operator[SEP] } }
@Override public void write(String str, int off, int len) throws IOException { encodedAppender.append( encoder, (encodingStateRegistry != null && off == 0 && len == str.length()) ? encodingStateRegistry .getEncodingStateFor(str) : null, str, off, len); }
class class_name[name] begin[{] method[write, return_type[void], modifier[public], parameter[str, off, len]] begin[{] call[encodedAppender.append, parameter[member[.encoder], TernaryExpression(condition=BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=encodingStateRegistry, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator=!=), operandr=BinaryOperation(operandl=MemberReference(member=off, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), operator===), operator=&&), operandr=BinaryOperation(operandl=MemberReference(member=len, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MethodInvocation(arguments=[], member=length, postfix_operators=[], prefix_operators=[], qualifier=str, selectors=[], type_arguments=None), operator===), operator=&&), if_false=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), if_true=MethodInvocation(arguments=[MemberReference(member=str, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getEncodingStateFor, postfix_operators=[], prefix_operators=[], qualifier=encodingStateRegistry, selectors=[], type_arguments=None)), member[.str], member[.off], member[.len]]] end[}] END[}]
annotation[@] identifier[Override] Keyword[public] Keyword[void] identifier[write] operator[SEP] identifier[String] identifier[str] , Keyword[int] identifier[off] , Keyword[int] identifier[len] operator[SEP] Keyword[throws] identifier[IOException] { identifier[encodedAppender] operator[SEP] identifier[append] operator[SEP] identifier[encoder] , operator[SEP] identifier[encodingStateRegistry] operator[!=] Other[null] operator[&&] identifier[off] operator[==] Other[0] operator[&&] identifier[len] operator[==] identifier[str] operator[SEP] identifier[length] operator[SEP] operator[SEP] operator[SEP] operator[?] identifier[encodingStateRegistry] operator[SEP] identifier[getEncodingStateFor] operator[SEP] identifier[str] operator[SEP] operator[:] Other[null] , identifier[str] , identifier[off] , identifier[len] operator[SEP] operator[SEP] }
public void setRunner(DaoRunner runner) { this.runner = runner; if (runner instanceof NutDaoRunner) { ((NutDaoRunner)runner).setMeta(meta); } }
class class_name[name] begin[{] method[setRunner, return_type[void], modifier[public], parameter[runner]] begin[{] assign[THIS[member[None.runner]], member[.runner]] if[binary_operation[member[.runner], instanceof, type[NutDaoRunner]]] begin[{] Cast(expression=MemberReference(member=runner, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=NutDaoRunner, sub_type=None)) else begin[{] None end[}] end[}] END[}]
Keyword[public] Keyword[void] identifier[setRunner] operator[SEP] identifier[DaoRunner] identifier[runner] operator[SEP] { Keyword[this] operator[SEP] identifier[runner] operator[=] identifier[runner] operator[SEP] Keyword[if] operator[SEP] identifier[runner] Keyword[instanceof] identifier[NutDaoRunner] operator[SEP] { operator[SEP] operator[SEP] identifier[NutDaoRunner] operator[SEP] identifier[runner] operator[SEP] operator[SEP] identifier[setMeta] operator[SEP] identifier[meta] operator[SEP] operator[SEP] } }
protected Map<FaxActionType,String> initializeFaxActionType2ResourceMap() { //get resources Map<FaxActionType,String> map=new HashMap<FaxActionType,String>(); FaxActionType[] faxActionTypes=new FaxActionType[]{FaxActionType.SUBMIT_FAX_JOB, FaxActionType.SUSPEND_FAX_JOB, FaxActionType.RESUME_FAX_JOB, FaxActionType.CANCEL_FAX_JOB, FaxActionType.GET_FAX_JOB_STATUS}; Enum<?>[] keys=new Enum<?>[]{FaxClientSpiConfigurationConstants.SUBMIT_HTTP_RESOURCE_PROPERTY_KEY, FaxClientSpiConfigurationConstants.SUSPEND_HTTP_RESOURCE_PROPERTY_KEY, FaxClientSpiConfigurationConstants.RESUME_HTTP_RESOURCE_PROPERTY_KEY, FaxClientSpiConfigurationConstants.CANCEL_HTTP_RESOURCE_PROPERTY_KEY, FaxClientSpiConfigurationConstants.GET_STATUS_HTTP_RESOURCE_PROPERTY_KEY}; String resource=null; for(int index=0;index<faxActionTypes.length;index++) { //get next resource resource=this.getConfigurationValue(keys[index]); if(resource!=null) { map.put(faxActionTypes[index],resource); } } return map; }
class class_name[name] begin[{] method[initializeFaxActionType2ResourceMap, return_type[type[Map]], modifier[protected], parameter[]] begin[{] local_variable[type[Map], map] local_variable[type[FaxActionType], faxActionTypes] local_variable[type[Enum], keys] local_variable[type[String], resource] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=resource, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MethodInvocation(arguments=[MemberReference(member=keys, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=index, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))])], member=getConfigurationValue, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)])), label=None), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=resource, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator=!=), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=faxActionTypes, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=index, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), MemberReference(member=resource, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=put, postfix_operators=[], prefix_operators=[], qualifier=map, selectors=[], type_arguments=None), label=None)]))]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=index, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=length, postfix_operators=[], prefix_operators=[], qualifier=faxActionTypes, selectors=[]), operator=<), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), name=index)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=index, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None) return[member[.map]] end[}] END[}]
Keyword[protected] identifier[Map] operator[<] identifier[FaxActionType] , identifier[String] operator[>] identifier[initializeFaxActionType2ResourceMap] operator[SEP] operator[SEP] { identifier[Map] operator[<] identifier[FaxActionType] , identifier[String] operator[>] identifier[map] operator[=] Keyword[new] identifier[HashMap] operator[<] identifier[FaxActionType] , identifier[String] operator[>] operator[SEP] operator[SEP] operator[SEP] identifier[FaxActionType] operator[SEP] operator[SEP] identifier[faxActionTypes] operator[=] Keyword[new] identifier[FaxActionType] operator[SEP] operator[SEP] { identifier[FaxActionType] operator[SEP] identifier[SUBMIT_FAX_JOB] , identifier[FaxActionType] operator[SEP] identifier[SUSPEND_FAX_JOB] , identifier[FaxActionType] operator[SEP] identifier[RESUME_FAX_JOB] , identifier[FaxActionType] operator[SEP] identifier[CANCEL_FAX_JOB] , identifier[FaxActionType] operator[SEP] identifier[GET_FAX_JOB_STATUS] } operator[SEP] identifier[Enum] operator[<] operator[?] operator[>] operator[SEP] operator[SEP] identifier[keys] operator[=] Keyword[new] identifier[Enum] operator[<] operator[?] operator[>] operator[SEP] operator[SEP] { identifier[FaxClientSpiConfigurationConstants] operator[SEP] identifier[SUBMIT_HTTP_RESOURCE_PROPERTY_KEY] , identifier[FaxClientSpiConfigurationConstants] operator[SEP] identifier[SUSPEND_HTTP_RESOURCE_PROPERTY_KEY] , identifier[FaxClientSpiConfigurationConstants] operator[SEP] identifier[RESUME_HTTP_RESOURCE_PROPERTY_KEY] , identifier[FaxClientSpiConfigurationConstants] operator[SEP] identifier[CANCEL_HTTP_RESOURCE_PROPERTY_KEY] , identifier[FaxClientSpiConfigurationConstants] operator[SEP] identifier[GET_STATUS_HTTP_RESOURCE_PROPERTY_KEY] } operator[SEP] identifier[String] identifier[resource] operator[=] Other[null] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[index] operator[=] Other[0] operator[SEP] identifier[index] operator[<] identifier[faxActionTypes] operator[SEP] identifier[length] operator[SEP] identifier[index] operator[++] operator[SEP] { identifier[resource] operator[=] Keyword[this] operator[SEP] identifier[getConfigurationValue] operator[SEP] identifier[keys] operator[SEP] identifier[index] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[resource] operator[!=] Other[null] operator[SEP] { identifier[map] operator[SEP] identifier[put] operator[SEP] identifier[faxActionTypes] operator[SEP] identifier[index] operator[SEP] , identifier[resource] operator[SEP] operator[SEP] } } Keyword[return] identifier[map] operator[SEP] }
public int getContentLength() { try { getInputStream(); } catch (Exception e) { return -1; } int l = contentLength; if (l < 0) { try { l = Integer.parseInt(properties.findValue("content-length")); setContentLength(l); } catch(Exception e) { } } return l; }
class class_name[name] begin[{] method[getContentLength, return_type[type[int]], modifier[public], parameter[]] begin[{] TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[], member=getInputStream, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[ReturnStatement(expression=Literal(postfix_operators=[], prefix_operators=['-'], qualifier=None, selectors=[], value=1), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['Exception']))], finally_block=None, label=None, resources=None) local_variable[type[int], l] if[binary_operation[member[.l], <, literal[0]]] begin[{] TryStatement(block=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="content-length")], member=findValue, postfix_operators=[], prefix_operators=[], qualifier=properties, selectors=[], type_arguments=None)], member=parseInt, postfix_operators=[], prefix_operators=[], qualifier=Integer, selectors=[], type_arguments=None)), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=setContentLength, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['Exception']))], finally_block=None, label=None, resources=None) else begin[{] None end[}] return[member[.l]] end[}] END[}]
Keyword[public] Keyword[int] identifier[getContentLength] operator[SEP] operator[SEP] { Keyword[try] { identifier[getInputStream] operator[SEP] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[Exception] identifier[e] operator[SEP] { Keyword[return] operator[-] Other[1] operator[SEP] } Keyword[int] identifier[l] operator[=] identifier[contentLength] operator[SEP] Keyword[if] operator[SEP] identifier[l] operator[<] Other[0] operator[SEP] { Keyword[try] { identifier[l] operator[=] identifier[Integer] operator[SEP] identifier[parseInt] operator[SEP] identifier[properties] operator[SEP] identifier[findValue] operator[SEP] literal[String] operator[SEP] operator[SEP] operator[SEP] identifier[setContentLength] operator[SEP] identifier[l] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[Exception] identifier[e] operator[SEP] { } } Keyword[return] identifier[l] operator[SEP] }
public static void configurePolling(final int pollingPeriod, final PolledObjectConfig config, final AttributePropertiesManager attributePropertiesManager) throws DevFailed { final int unsignedPolling = Math.abs(pollingPeriod); config.setPolled(true); config.setPollingPeriod(unsignedPolling); attributePropertiesManager.setAttributePropertyInDB(config.getName(), Constants.IS_POLLED, "true"); attributePropertiesManager.setAttributePropertyInDB(config.getName(), Constants.POLLING_PERIOD, Integer.toString(unsignedPolling)); }
class class_name[name] begin[{] method[configurePolling, return_type[void], modifier[public static], parameter[pollingPeriod, config, attributePropertiesManager]] begin[{] local_variable[type[int], unsignedPolling] call[config.setPolled, parameter[literal[true]]] call[config.setPollingPeriod, parameter[member[.unsignedPolling]]] call[attributePropertiesManager.setAttributePropertyInDB, parameter[call[config.getName, parameter[]], member[Constants.IS_POLLED], literal["true"]]] call[attributePropertiesManager.setAttributePropertyInDB, parameter[call[config.getName, parameter[]], member[Constants.POLLING_PERIOD], call[Integer.toString, parameter[member[.unsignedPolling]]]]] end[}] END[}]
Keyword[public] Keyword[static] Keyword[void] identifier[configurePolling] operator[SEP] Keyword[final] Keyword[int] identifier[pollingPeriod] , Keyword[final] identifier[PolledObjectConfig] identifier[config] , Keyword[final] identifier[AttributePropertiesManager] identifier[attributePropertiesManager] operator[SEP] Keyword[throws] identifier[DevFailed] { Keyword[final] Keyword[int] identifier[unsignedPolling] operator[=] identifier[Math] operator[SEP] identifier[abs] operator[SEP] identifier[pollingPeriod] operator[SEP] operator[SEP] identifier[config] operator[SEP] identifier[setPolled] operator[SEP] literal[boolean] operator[SEP] operator[SEP] identifier[config] operator[SEP] identifier[setPollingPeriod] operator[SEP] identifier[unsignedPolling] operator[SEP] operator[SEP] identifier[attributePropertiesManager] operator[SEP] identifier[setAttributePropertyInDB] operator[SEP] identifier[config] operator[SEP] identifier[getName] operator[SEP] operator[SEP] , identifier[Constants] operator[SEP] identifier[IS_POLLED] , literal[String] operator[SEP] operator[SEP] identifier[attributePropertiesManager] operator[SEP] identifier[setAttributePropertyInDB] operator[SEP] identifier[config] operator[SEP] identifier[getName] operator[SEP] operator[SEP] , identifier[Constants] operator[SEP] identifier[POLLING_PERIOD] , identifier[Integer] operator[SEP] identifier[toString] operator[SEP] identifier[unsignedPolling] operator[SEP] operator[SEP] operator[SEP] }
static public int replaceSafeUnicodeChars(StringBuilder buffer) { int replaced = 0; for (int i = 0; i < buffer.length(); i++) { char c = buffer.charAt(i); for (int j = 0; j < CHAR_TABLE.length; j++) { if (c == CHAR_TABLE[j][0]) { replaced++; buffer.setCharAt(i, CHAR_TABLE[j][1]); } } } return replaced; }
class class_name[name] begin[{] method[replaceSafeUnicodeChars, return_type[type[int]], modifier[public static], parameter[buffer]] begin[{] local_variable[type[int], replaced] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=charAt, postfix_operators=[], prefix_operators=[], qualifier=buffer, selectors=[], type_arguments=None), name=c)], modifiers=set(), type=BasicType(dimensions=[], name=char)), ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=CHAR_TABLE, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=j, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0))]), operator===), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MemberReference(member=replaced, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[]), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=CHAR_TABLE, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=j, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), ArraySelector(index=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1))])], member=setCharAt, postfix_operators=[], prefix_operators=[], qualifier=buffer, selectors=[], type_arguments=None), label=None)]))]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=j, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=length, postfix_operators=[], prefix_operators=[], qualifier=CHAR_TABLE, selectors=[]), operator=<), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), name=j)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=j, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MethodInvocation(arguments=[], member=length, postfix_operators=[], prefix_operators=[], qualifier=buffer, 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) return[member[.replaced]] end[}] END[}]
Keyword[static] Keyword[public] Keyword[int] identifier[replaceSafeUnicodeChars] operator[SEP] identifier[StringBuilder] identifier[buffer] operator[SEP] { Keyword[int] identifier[replaced] operator[=] Other[0] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[buffer] operator[SEP] identifier[length] operator[SEP] operator[SEP] operator[SEP] identifier[i] operator[++] operator[SEP] { Keyword[char] identifier[c] operator[=] identifier[buffer] operator[SEP] identifier[charAt] operator[SEP] identifier[i] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[j] operator[=] Other[0] operator[SEP] identifier[j] operator[<] identifier[CHAR_TABLE] operator[SEP] identifier[length] operator[SEP] identifier[j] operator[++] operator[SEP] { Keyword[if] operator[SEP] identifier[c] operator[==] identifier[CHAR_TABLE] operator[SEP] identifier[j] operator[SEP] operator[SEP] Other[0] operator[SEP] operator[SEP] { identifier[replaced] operator[++] operator[SEP] identifier[buffer] operator[SEP] identifier[setCharAt] operator[SEP] identifier[i] , identifier[CHAR_TABLE] operator[SEP] identifier[j] operator[SEP] operator[SEP] Other[1] operator[SEP] operator[SEP] operator[SEP] } } } Keyword[return] identifier[replaced] operator[SEP] }
@FFDCIgnore(value = { InterruptedException.class }) public Client checkoutClient() { Client client = null; try { // need to poll here as the dequeue can be permanently emptied by close method at any time while (client == null && numClientsClosed.get() == 0) { client = clients.poll(200, TimeUnit.MILLISECONDS); } } catch (InterruptedException e) { if (TraceComponent.isAnyTracingEnabled() && tc.isEventEnabled()) Tr.event(tc, "InterruptedException during checkout"); } if (TraceComponent.isAnyTracingEnabled() && tc.isEventEnabled()) { int clientHash = (client != null) ? client.hashCode() : 0; Tr.event(tc, "post-checkout - (" + clientHash + ") " + (numClients - clients.remainingCapacity()) + " of " + numClients + " clients available."); } return client; }
class class_name[name] begin[{] method[checkoutClient, return_type[type[Client]], modifier[public], parameter[]] begin[{] local_variable[type[Client], client] TryStatement(block=[WhileStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=client, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=200), MemberReference(member=MILLISECONDS, postfix_operators=[], prefix_operators=[], qualifier=TimeUnit, selectors=[])], member=poll, postfix_operators=[], prefix_operators=[], qualifier=clients, selectors=[], type_arguments=None)), label=None)]), condition=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=client, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator===), operandr=BinaryOperation(operandl=MethodInvocation(arguments=[], member=get, postfix_operators=[], prefix_operators=[], qualifier=numClientsClosed, selectors=[], type_arguments=None), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), operator===), operator=&&), label=None)], catches=[CatchClause(block=[IfStatement(condition=BinaryOperation(operandl=MethodInvocation(arguments=[], member=isAnyTracingEnabled, postfix_operators=[], prefix_operators=[], qualifier=TraceComponent, selectors=[], type_arguments=None), operandr=MethodInvocation(arguments=[], member=isEventEnabled, 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="InterruptedException during checkout")], member=event, postfix_operators=[], prefix_operators=[], qualifier=Tr, selectors=[], type_arguments=None), label=None))], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['InterruptedException']))], finally_block=None, label=None, resources=None) if[binary_operation[call[TraceComponent.isAnyTracingEnabled, parameter[]], &&, call[tc.isEventEnabled, parameter[]]]] begin[{] local_variable[type[int], clientHash] call[Tr.event, parameter[member[.tc], binary_operation[binary_operation[binary_operation[binary_operation[binary_operation[binary_operation[literal["post-checkout - ("], +, member[.clientHash]], +, literal[") "]], +, binary_operation[member[.numClients], -, call[clients.remainingCapacity, parameter[]]]], +, literal[" of "]], +, member[.numClients]], +, literal[" clients available."]]]] else begin[{] None end[}] return[member[.client]] end[}] END[}]
annotation[@] identifier[FFDCIgnore] operator[SEP] identifier[value] operator[=] { identifier[InterruptedException] operator[SEP] Keyword[class] } operator[SEP] Keyword[public] identifier[Client] identifier[checkoutClient] operator[SEP] operator[SEP] { identifier[Client] identifier[client] operator[=] Other[null] operator[SEP] Keyword[try] { Keyword[while] operator[SEP] identifier[client] operator[==] Other[null] operator[&&] identifier[numClientsClosed] operator[SEP] identifier[get] operator[SEP] operator[SEP] operator[==] Other[0] operator[SEP] { identifier[client] operator[=] identifier[clients] operator[SEP] identifier[poll] operator[SEP] Other[200] , identifier[TimeUnit] operator[SEP] identifier[MILLISECONDS] operator[SEP] operator[SEP] } } Keyword[catch] operator[SEP] identifier[InterruptedException] identifier[e] 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] } 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] { Keyword[int] identifier[clientHash] operator[=] operator[SEP] identifier[client] operator[!=] Other[null] operator[SEP] operator[?] identifier[client] operator[SEP] identifier[hashCode] operator[SEP] operator[SEP] operator[:] Other[0] operator[SEP] identifier[Tr] operator[SEP] identifier[event] operator[SEP] identifier[tc] , literal[String] operator[+] identifier[clientHash] operator[+] literal[String] operator[+] operator[SEP] identifier[numClients] operator[-] identifier[clients] operator[SEP] identifier[remainingCapacity] operator[SEP] operator[SEP] operator[SEP] operator[+] literal[String] operator[+] identifier[numClients] operator[+] literal[String] operator[SEP] operator[SEP] } Keyword[return] identifier[client] operator[SEP] }
void setProductInfo(int prod_type, Pinfo pinfo) { /* memo field */ String[] cmode = new String[]{"Maintenance", "Clear Air", "Precip Mode"}; short prod_max = pinfo.p4; short prod_min = 0; int prod_elevation = 0; //int prod_info; int prod_top; int radial = 0; String summary = null; java.util.Date endDate; java.util.Date startDate; String dstring; double t1 = 124.0 * 1.853 / 111.26; double t2 = 230 / (111.26 * Math.cos(Math.toRadians(latitude))); lat_min = latitude - t1; lat_max = latitude + t1; lon_min = longitude + t2; //* Math.cos(Math.toRadians(lat_min)); lon_max = longitude - t2; //* Math.cos(Math.toRadians(lat_min)); startDate = getDate( volumeScanDate, volumeScanTime*1000); endDate = getDate( volumeScanDate, volumeScanTime*1000); if (prod_type == SPECTRUM) { radial = 1; prod_elevation = pinfo.p3; cmemo = "Base Specturm Width " + prod_elevation/10 + " DEG " + cmode[pinfo.opmode]; ctilt = pname_lookup(pcode, prod_elevation/10); ctitle = "BREF: Base Spectrum Width"; cunit = "Knots"; cname = "SpectrumWidth"; summary = ctilt + " is a radial image of base reflectivity at tilt " + (prod_elevation/10 + 1) + " and range 124 nm"; if(pcode == 28 ){ t1 = t1 * 0.25; t2 = t2 * 0.25; lat_min = latitude - t1; lat_max = latitude + t1; lon_min = longitude + t2; //* Math.cos(Math.toRadians(lat_min)); lon_max = longitude - t2; //* Math.cos(Math.toRadians(lat_min)); summary = ctilt + " is a radial image of base reflectivity at tilt " + (prod_elevation/10 + 1) + " and range 32 nm"; } } else if (prod_type == DigitalDifferentialReflectivity) { radial = 1; prod_elevation = pinfo.p3; cmemo = "Differential Reflectivity " + prod_elevation/10 + " DEG " + cmode[pinfo.opmode]; int pLevel = getProductLevel(prod_elevation); ctilt = pname_lookup(15, pLevel); ctitle = "Dualpol: Digital Differential Reflectivity"; cunit = "dBz"; cname = "DifferentialReflectivity"; summary = ctilt + " is a radial image of dual pol differential reflectivity field and its range 162 nm"; } else if (prod_type == DigitalCorrelationCoefficient) { radial = 1; prod_elevation = pinfo.p3; cmemo = "Correlation Coefficient " + prod_elevation/10 + " DEG " + cmode[pinfo.opmode]; int pLevel = getProductLevel(prod_elevation); ctilt = pname_lookup(16, pLevel); ctitle = "Dualpol: Digital Correlation Coefficient"; cunit = " "; cname = "CorrelationCoefficient"; summary = ctilt + " is a radial image of dual pol Correlation Coefficient field and its range 162 nm"; } else if (prod_type == DigitalDifferentialPhase) { radial = 1; prod_elevation = pinfo.p3; cmemo = "Differential Phase " + prod_elevation/10 + " DEG " + cmode[pinfo.opmode]; int pLevel = getProductLevel(prod_elevation); ctilt = pname_lookup(17, pLevel); ctitle = "Dualpol: Digital Differential Phase"; cunit = "Degree/km"; cname = "DifferentialPhase"; summary = ctilt + " is a radial image of dual pol Differential Phase field and its range 162 nm"; } else if (prod_type == HydrometeorClassification ) { radial = 1; prod_elevation = pinfo.p3; cmemo = "Hydrometeor Classification " + prod_elevation/10 + " DEG " + cmode[pinfo.opmode]; int pLevel = getProductLevel(prod_elevation); ctilt = pname_lookup(18, pLevel); ctitle = "Dualpol: Hydrometeor Classification"; cunit = " "; cname = "HydrometeorClassification"; summary = ctilt + " is a radial image of dual pol Hydrometeor Classification field and its range 162 nm"; } else if (prod_type == HypridHydrometeorClassification ) { radial = 1; prod_elevation = pinfo.p3; cmemo = "Hyprid Hydrometeor Classification " + prod_elevation/10 + " DEG " + cmode[pinfo.opmode]; int pLevel = getProductLevel(prod_elevation); ctilt = pname_lookup(18, pLevel); ctitle = "Dualpol: Hyprid Hydrometeor Classification"; cunit = " "; cname = "HypridHydrometeorClassification"; summary = ctilt + " is a radial image of dual pol Hyprid Hydrometeor Classification field and its range 162 nm"; } else if (prod_type == OneHourAccumulation ) { radial = 1; prod_elevation = pinfo.p3; cmemo = "One Hour Accumulation " + prod_elevation/10 + " DEG " + cmode[pinfo.opmode]; ctilt = "OHA"; ctitle = "Dualpol: One Hour Accumulation"; cunit = "IN"; cname = "OneHourAccumulation"; summary = ctilt + " is a radial image of dual pol One Hour Accumulation field and its range 124 nm"; } else if (prod_type == DigitalAccumulationArray ) { radial = 1; prod_elevation = pinfo.p3; cmemo = "Digital Accumulation Array " + cmode[pinfo.opmode]; ctilt = "DAA"; ctitle = "Dualpol: Digital Accumulation Array"; cunit = "IN"; cname = "DigitalAccumulationArray"; summary = ctilt + " is a radial image of dual pol Digital Accumulation Array field and its range 124 nm"; } else if (prod_type == StormTotalAccumulation ) { radial = 1; prod_elevation = pinfo.p3; cmemo = "Storm Total Accumulation " + cmode[pinfo.opmode]; ctilt = "PTA"; ctitle = "Dualpol: Storm Total Accumulation"; cunit = "IN"; cname = "StormTotalAccumulation"; summary = ctilt + " is a radial image of dual pol Storm Total Accumulation field and its range 124 nm"; } else if (prod_type == DigitalStormTotalAccumulation ) { radial = 1; prod_elevation = pinfo.p3; cmemo = "Digital Storm Total Accumulation " + cmode[pinfo.opmode]; ctilt = "DTA"; ctitle = "Dualpol: Digital Storm Total Accumulation"; cunit = "IN"; cname = "DigitalStormTotalAccumulation"; summary = ctilt + " is a radial image of dual pol Digital StormTotal Accumulation field and its range 124 nm"; } else if (prod_type == Accumulation3Hour ) { radial = 1; prod_elevation = pinfo.p3; cmemo = "Hyprid Hydrometeor Classification " + prod_elevation/10 + " DEG " + cmode[pinfo.opmode]; int pLevel = getProductLevel(prod_elevation); ctilt = pname_lookup(18, pLevel); ctitle = "Dualpol: 3-hour Accumulation"; cunit = "IN"; cname = "Accumulation3Hour"; summary = ctilt + " is a radial image of dual pol 3-hour Accumulation field and its range 124 nm"; } else if (prod_type == Digital1HourDifferenceAccumulation) { radial = 1; prod_elevation = pinfo.p3; cmemo = "Digital One Hour Difference Accumulation " + cmode[pinfo.opmode]; ctilt = "DOD"; ctitle = "Dualpol: Digital One Hour Difference Accumulation"; cunit = "IN"; cname = "Digital1HourDifferenceAccumulation"; summary = ctilt + " is a radial image of dual pol Digital One Hour Difference Accumulation field and its range 124 nm"; } else if (prod_type == DigitalTotalDifferenceAccumulation ) { radial = 1; prod_elevation = pinfo.p3; cmemo = "Digital Total Difference Accumulation " + cmode[pinfo.opmode]; ctilt = "DSD"; ctitle = "Dualpol: Digital Total Difference Accumulation"; cunit = "IN"; cname = "DigitalTotalDifferenceAccumulation"; summary = ctilt + " is a radial image of dual pol Digital Total Difference Accumulation field and its range 124 nm"; } else if (prod_type == DigitalInstantaneousPrecipitationRate ) { radial = 1; prod_elevation = pinfo.p3; cmemo = "Digital Instantaneous Precipitation Rate " + cmode[pinfo.opmode]; ctilt = "DPR"; ctitle = "Dualpol: Digital Instantaneous Precipitation Rate"; cunit = "IN/Hour"; cname = "DigitalInstantaneousPrecipitationRate"; summary = ctilt + " is a radial image of dual pol Digital Instantaneous Precipitation Rate field and its range 124 nm"; } else if (prod_type == BaseReflectivityDR) { radial = 1; prod_elevation = pinfo.p3; cmemo = "Base Reflectivity DR " + prod_elevation/10 + " DEG " + cmode[pinfo.opmode]; int pLevel = getProductLevel(prod_elevation); ctilt = pname_lookup(94, pLevel); ctitle = "HighResolution: Base Reflectivity"; cunit = "dBz"; cname = "BaseReflectivityDR"; summary = ctilt + " is a radial image of base reflectivity field and its range 248 nm"; } else if (prod_type == BaseVelocityDV) { radial = 1; prod_elevation = pinfo.p3; cmemo = "Base Velocity DR " + prod_elevation/10 + " DEG " + cmode[pinfo.opmode]; int pLevel = getProductLevel(prod_elevation); ctilt = pname_lookup(99, pLevel); ctitle = "HighResolution: Base Velocity"; cunit = "m/s"; cname = "BaseVelocityDV"; summary = ctilt + " is a radial image of base velocity field and its range 124 nm"; } else if (prod_type == DigitalVert_Liquid) { radial = 1; prod_elevation = pinfo.p3; cmemo = "Digital Hybrid Reflect " + prod_elevation/10 + " DEG " + cmode[pinfo.opmode]; ctilt = pname_lookup(134, prod_elevation/10); ctitle = "Digital: Vertical Integ Liquid"; cunit = "kg/m^2"; cname = "DigitalIntegLiquid"; summary = ctilt + " is a radial image high resolution vertical integral liquid and range 248 nm"; } else if (prod_type == DigitalHybridReflect) { radial = 1; prod_elevation = pinfo.p3; cmemo = "Digital Hybrid Reflect " + prod_elevation/10 + " DEG " + cmode[pinfo.opmode]; ctilt = pname_lookup(19, prod_elevation/10); ctitle = "DigitalHybrid: Reflectivity"; cunit = "dBz"; cname = "DigitalHybridReflectivity"; summary = ctilt + " is a radial image of base reflectivity at tilt " + (prod_elevation/10 + 1) + " and range 124 nm"; } else if (prod_type == Base_Reflect || prod_type == Reflect1) { radial = 1; prod_elevation = pinfo.p3; cmemo = "Base Reflct " + prod_elevation/10 + " DEG " + cmode[pinfo.opmode]; if(prod_type == Reflect1){ ctilt = "R" + prod_elevation/10; summary = ctilt + " is a radial image of base reflectivity at tilt " + (prod_elevation/10 + 1); } else { ctilt = pname_lookup(19, prod_elevation/10); summary = ctilt + " is a radial image of base reflectivity at tilt " + (prod_elevation/10 + 1) + " and range 124 nm"; } ctitle = "BREF: Base Reflectivity"; cunit = "dBz"; cname = "BaseReflectivity"; } else if (prod_type == BaseReflect248) { radial = 1; prod_elevation = pinfo.p3; cmemo = "Base Reflct 248 " + prod_elevation/10 + " DEG " + cmode[pinfo.opmode]; ctilt = pname_lookup(20, prod_elevation/10); ctitle = "BREF: 248 nm Base Reflectivity"; cunit = "dBz"; cname = "BaseReflectivity248"; summary = ctilt + " is a radial image of base reflectivity at tilt " + (prod_elevation/10 + 1) + " and range 248 nm"; t1 = 248.0 * 1.853 / 111.26; t2 = 460 / (111.26 * Math.cos(Math.toRadians(latitude))); lat_min = latitude - t1; lat_max = latitude + t1; lon_min = longitude + t2; lon_max = longitude - t2; } else if (prod_type == Comp_Reflect) { radial = 3; prod_elevation = -1; ctilt = pname_lookup(pinfo.pcode, elevationNumber); if(pinfo.pcode == 36 || pinfo.pcode == 38 ) { t1 = t1 * 2; t2 = t2 * 2; lat_min = latitude - t1; lat_max = latitude + t1; lon_min = longitude + t2; lon_max = longitude - t2; } summary = ctilt + "is a raster image of composite reflectivity"; cmemo = "Composite Reflectivity at " + cmode[pinfo.opmode]; ctitle = "CREF Composite Reflectivity" + ctilt; cunit = "dBz" ; cname = "BaseReflectivityComp"; } else if (prod_type == Layer_Reflect_Avg || prod_type == Layer_Reflect_Max) { radial = 3; prod_elevation = pinfo.p5; prod_top = pinfo.p6; ctilt = pname_lookup(pcode, 0); summary = ctilt + " is a raster image of composite reflectivity at range 124 nm"; cmemo = "Layer Reflct " + prod_elevation + " - " + prod_top + cmode[pinfo.opmode]; t1 = t1 * 4; t2 = t2 * 4; lat_min = latitude - t1; lat_max = latitude + t1; lon_min = longitude + t2; lon_max = longitude - t2; ctitle = "LREF: Layer Composite Reflectivity" ; cunit = "dBz" ; cname = "LayerCompReflect"; } else if (prod_type == EnhancedEcho_Tops) { radial = 1; prod_elevation = -1; summary = "EET is a radial image of echo tops at range 186 nm"; cmemo = "Enhanced Echo Tops [K FT] " + cmode[pinfo.opmode]; ctilt = pname_lookup(135, elevationNumber); ctitle = "TOPS: Enhanced Echo Tops"; cunit = "K FT" ; cname = "EnhancedEchoTop"; t1 = t1 * 4; t2 = t2 * 4; lat_min = latitude - t1; lat_max = latitude + t1; lon_min = longitude + t2; lon_max = longitude - t2; } else if (prod_type == Echo_Tops) { radial = 3; prod_elevation = -1; summary = "NET is a raster image of echo tops at range 124 nm"; cmemo = "Echo Tops [K FT] " + cmode[pinfo.opmode]; ctilt = pname_lookup(41, elevationNumber); ctitle = "TOPS: Echo Tops"; cunit = "K FT" ; cname = "EchoTop"; t1 = t1 * 4; t2 = t2 * 4; lat_min = latitude - t1; lat_max = latitude + t1; lon_min = longitude + t2; lon_max = longitude - t2; } else if (prod_type == Precip_1) { radial = 1; prod_elevation = -1; prod_max /= 10; endDate = getDate( pinfo.p7, pinfo.p8 * 60 * 1000); summary = "N1P is a raster image of 1 hour surface rainfall accumulation at range 124 nm"; cmemo = "1-hr Rainfall [IN] " + cmode[pinfo.opmode]; ctilt = pname_lookup(78, elevationNumber); ctitle = "PRE1: Surface 1-hour Rainfall Total"; cunit = "IN"; cname = "Precip1hr"; t1 = t1 * 2; t2 = t2 * 2; lat_min = latitude - t1; lat_max = latitude + t1; lon_min = longitude + t2; lon_max = longitude - t2; } else if (prod_type == Precip_3) { radial = 1; prod_elevation = -1; prod_max /= 10; endDate = getDate( pinfo.p7, pinfo.p8 * 60 * 1000); summary = "N3P is a raster image of 3 hour surface rainfall accumulation at range 124 nm"; cmemo = "3-hr Rainfall [IN] " + cmode[pinfo.opmode] ; ctilt = pname_lookup(79, elevationNumber); ctitle = "PRE3: Surface 3-hour Rainfall Total" ; cunit = "IN" ; cname = "Precip3hr"; t1 = t1 * 2; t2 = t2 * 2; lat_min = latitude - t1; lat_max = latitude + t1; lon_min = longitude + t2; lon_max = longitude - t2; } else if (prod_type == DigitalStormTotalPrecip) { radial = 1; prod_elevation = -1; //startDate = getDate( pinfo.p5, pinfo.p6 * 60 * 1000); endDate = getDate( pinfo.p7, pinfo.p8 * 60 * 1000); summary = "DSP is a radial image of digital storm total rainfall"; cmemo = "Digital Strm Total Precip [IN] " + cmode[pinfo.opmode] ; ctilt = pname_lookup(80, elevationNumber); ctitle = "DPRE: Digital Storm Total Rainfall" ; cunit = "IN" ; cname = "DigitalPrecip"; t1 = t1 * 2; t2 = t2 * 2; lat_min = latitude - t1; lat_max = latitude + t1; lon_min = longitude + t2; lon_max = longitude - t2; } else if (prod_type == Precip_Accum) { radial = 1; prod_elevation = -1; //startDate = getDate( pinfo.p5, pinfo.p6 * 60 * 1000); endDate = getDate( pinfo.p7, pinfo.p8 * 60 * 1000); summary = "NTP is a raster image of storm total rainfall accumulation at range 124 nm"; cmemo = "Strm Tot Rain [IN] " + cmode[pinfo.opmode] ; ctilt = pname_lookup(80, elevationNumber); ctitle = "PRET: Surface Storm Total Rainfall" ; cunit = "IN" ; cname = "PrecipAccum"; t1 = t1 * 2; t2 = t2 * 2; lat_min = latitude - t1; lat_max = latitude + t1; lon_min = longitude + t2; lon_max = longitude - t2; } else if (prod_type == Precip_Array) { radial = 3; prod_elevation = -1; summary = "DPA is a raster image of hourly digital precipitation array at range 124 nm"; endDate = getDate( pinfo.p7, pinfo.p8 * 60 * 1000); cmemo = "Precip Array [IN] " + cmode[pinfo.opmode] ; ctilt = pname_lookup(81, elevationNumber); ctitle = "PRET: Hourly Digital Precipitation Array" ; cunit = "dBA" ; cname = "PrecipArray"; } else if (prod_type == Vert_Liquid) { radial = 3; prod_elevation = -1; summary = "NVL is a raster image of verticalintegrated liguid at range 124 nm"; cmemo = "Vert Int Lq H2O [mm] " + cmode[pinfo.opmode] ; ctilt = pname_lookup(57, elevationNumber); ctitle = "VIL: Vertically-integrated Liquid Water" ; cunit = "kg/m^2" ; cname = "VertLiquid"; t1 = t1 * 4; t2 = t2 * 4; lat_min = latitude - t1; lat_max = latitude + t1; lon_min = longitude + t2; lon_max = longitude - t2; } else if (prod_type == Velocity || prod_type == Velocity1) { radial = 1; prod_elevation = pinfo.p3; prod_min = pinfo.p4; prod_max = pinfo.p5; if(prod_type == Velocity) { ctilt = pname_lookup(pinfo.pcode, prod_elevation/10); } else { ctilt = "V" + prod_elevation/10; } if(pinfo.pcode == 25) { t1 = 32.0 * 1.853 / 111.26; t2 = 64 / (111.26 * Math.cos(Math.toRadians(latitude))); lat_min = latitude - t1; lat_max = latitude + t1; lon_min = longitude + t2; lon_max = longitude - t2; summary = ctilt + " is a radial image of base velocity" + (prod_elevation/10 + 1) + " and range 32 nm"; cunit = "m/s"; } else { summary = ctilt + " is a radial image of base velocity at tilt " + (prod_elevation/10 + 1); cunit = "m/s"; } cmemo = "Rad Vel "+ prod_elevation/10. + " DEG " + cmode[pinfo.opmode]; ctitle = "VEL: Radial Velocity" ; cname = "RadialVelocity"; } else if (prod_type == StrmRelMeanVel) { radial = 1; prod_elevation = pinfo.p3; prod_min = pinfo.p4; prod_max = pinfo.p5; ctilt = pname_lookup(56, prod_elevation/10); summary = ctilt + " is a radial image of storm relative mean radial velocity at tilt " + (prod_elevation/10 + 1) + " and range 124 nm"; cmemo = "StrmRelMnVl " + prod_elevation/10. + " DEG " + cmode[pinfo.opmode]; ctitle = "SRMV: Storm Relative Mean Velocity" ; cunit = "KT" ; cname = "StormMeanVelocity"; } else if (prod_type == VAD) { radial = 0; prod_elevation = pinfo.p3; prod_min = pinfo.p4; prod_max = pinfo.p5; summary = "NVW is VAD wind profile which contains wind barbs and alpha numeric data"; cmemo = "StrmRelMnVl " + prod_elevation/10. + " DEG " + cmode[pinfo.opmode]; ctilt = pname_lookup(48, elevationNumber); ctitle = "SRMV: Velocity Azimuth Display" ; cunit = "KT" ; cname = "VADWindSpeed"; lat_min = latitude; lat_max = latitude; lon_min = longitude; lon_max = longitude; } else { ctilt = "error"; ctitle = "error" ; cunit = "error" ; cname = "error"; } /* add geo global att */ ncfile.addAttribute(null, new Attribute("summary", "Nexrad level 3 data are WSR-88D radar products." + summary )); ncfile.addAttribute(null, new Attribute("keywords_vocabulary", ctilt)); ncfile.addAttribute(null, new Attribute("conventions", _Coordinate.Convention)); ncfile.addAttribute(null, new Attribute("format", "Level3/NIDS")); ncfile.addAttribute(null, new Attribute("geospatial_lat_min", new Float(lat_min))); ncfile.addAttribute(null, new Attribute("geospatial_lat_max", new Float(lat_max))); ncfile.addAttribute(null, new Attribute("geospatial_lon_min", new Float(lon_min))); ncfile.addAttribute(null, new Attribute("geospatial_lon_max", new Float(lon_max))); ncfile.addAttribute(null, new Attribute("geospatial_vertical_min", new Float(height))); ncfile.addAttribute(null, new Attribute("geospatial_vertical_max", new Float(height))); ncfile.addAttribute(null, new Attribute("RadarElevationNumber", new Integer(prod_elevation))); dstring = formatter.toDateTimeStringISO(startDate); ncfile.addAttribute(null, new Attribute("time_coverage_start", dstring)); dstring = formatter.toDateTimeStringISO(endDate); ncfile.addAttribute(null, new Attribute("time_coverage_end", dstring)); ncfile.addAttribute(null, new Attribute("data_min", new Float(prod_min))); ncfile.addAttribute(null, new Attribute("data_max", new Float(prod_max))); ncfile.addAttribute(null, new Attribute("isRadial", new Integer(radial))); }
class class_name[name] begin[{] method[setProductInfo, return_type[void], modifier[default], parameter[prod_type, pinfo]] begin[{] local_variable[type[String], cmode] local_variable[type[short], prod_max] local_variable[type[short], prod_min] local_variable[type[int], prod_elevation] local_variable[type[int], prod_top] local_variable[type[int], radial] local_variable[type[String], summary] local_variable[type[java], endDate] local_variable[type[java], startDate] local_variable[type[String], dstring] local_variable[type[double], t1] local_variable[type[double], t2] assign[member[.lat_min], binary_operation[member[.latitude], -, member[.t1]]] assign[member[.lat_max], binary_operation[member[.latitude], +, member[.t1]]] assign[member[.lon_min], binary_operation[member[.longitude], +, member[.t2]]] assign[member[.lon_max], binary_operation[member[.longitude], -, member[.t2]]] assign[member[.startDate], call[.getDate, parameter[member[.volumeScanDate], binary_operation[member[.volumeScanTime], *, literal[1000]]]]] assign[member[.endDate], call[.getDate, parameter[member[.volumeScanDate], binary_operation[member[.volumeScanTime], *, literal[1000]]]]] if[binary_operation[member[.prod_type], ==, member[.SPECTRUM]]] begin[{] assign[member[.radial], literal[1]] assign[member[.prod_elevation], member[pinfo.p3]] assign[member[.cmemo], binary_operation[binary_operation[binary_operation[literal["Base Specturm Width "], +, binary_operation[member[.prod_elevation], /, literal[10]]], +, literal[" DEG "]], +, member[.cmode]]] assign[member[.ctilt], call[.pname_lookup, parameter[member[.pcode], binary_operation[member[.prod_elevation], /, literal[10]]]]] assign[member[.ctitle], literal["BREF: Base Spectrum Width"]] assign[member[.cunit], literal["Knots"]] assign[member[.cname], literal["SpectrumWidth"]] assign[member[.summary], binary_operation[binary_operation[binary_operation[member[.ctilt], +, literal[" is a radial image of base reflectivity at tilt "]], +, binary_operation[binary_operation[member[.prod_elevation], /, literal[10]], +, literal[1]]], +, literal[" and range 124 nm"]]] if[binary_operation[member[.pcode], ==, literal[28]]] begin[{] assign[member[.t1], binary_operation[member[.t1], *, literal[0.25]]] assign[member[.t2], binary_operation[member[.t2], *, literal[0.25]]] assign[member[.lat_min], binary_operation[member[.latitude], -, member[.t1]]] assign[member[.lat_max], binary_operation[member[.latitude], +, member[.t1]]] assign[member[.lon_min], binary_operation[member[.longitude], +, member[.t2]]] assign[member[.lon_max], binary_operation[member[.longitude], -, member[.t2]]] assign[member[.summary], binary_operation[binary_operation[binary_operation[member[.ctilt], +, literal[" is a radial image of base reflectivity at tilt "]], +, binary_operation[binary_operation[member[.prod_elevation], /, literal[10]], +, literal[1]]], +, literal[" and range 32 nm"]]] else begin[{] None end[}] else begin[{] if[binary_operation[member[.prod_type], ==, member[.DigitalDifferentialReflectivity]]] begin[{] assign[member[.radial], literal[1]] assign[member[.prod_elevation], member[pinfo.p3]] assign[member[.cmemo], binary_operation[binary_operation[binary_operation[literal["Differential Reflectivity "], +, binary_operation[member[.prod_elevation], /, literal[10]]], +, literal[" DEG "]], +, member[.cmode]]] local_variable[type[int], pLevel] assign[member[.ctilt], call[.pname_lookup, parameter[literal[15], member[.pLevel]]]] assign[member[.ctitle], literal["Dualpol: Digital Differential Reflectivity"]] assign[member[.cunit], literal["dBz"]] assign[member[.cname], literal["DifferentialReflectivity"]] assign[member[.summary], binary_operation[member[.ctilt], +, literal[" is a radial image of dual pol differential reflectivity field and its range 162 nm"]]] else begin[{] if[binary_operation[member[.prod_type], ==, member[.DigitalCorrelationCoefficient]]] begin[{] assign[member[.radial], literal[1]] assign[member[.prod_elevation], member[pinfo.p3]] assign[member[.cmemo], binary_operation[binary_operation[binary_operation[literal["Correlation Coefficient "], +, binary_operation[member[.prod_elevation], /, literal[10]]], +, literal[" DEG "]], +, member[.cmode]]] local_variable[type[int], pLevel] assign[member[.ctilt], call[.pname_lookup, parameter[literal[16], member[.pLevel]]]] assign[member[.ctitle], literal["Dualpol: Digital Correlation Coefficient"]] assign[member[.cunit], literal[" "]] assign[member[.cname], literal["CorrelationCoefficient"]] assign[member[.summary], binary_operation[member[.ctilt], +, literal[" is a radial image of dual pol Correlation Coefficient field and its range 162 nm"]]] else begin[{] if[binary_operation[member[.prod_type], ==, member[.DigitalDifferentialPhase]]] begin[{] assign[member[.radial], literal[1]] assign[member[.prod_elevation], member[pinfo.p3]] assign[member[.cmemo], binary_operation[binary_operation[binary_operation[literal["Differential Phase "], +, binary_operation[member[.prod_elevation], /, literal[10]]], +, literal[" DEG "]], +, member[.cmode]]] local_variable[type[int], pLevel] assign[member[.ctilt], call[.pname_lookup, parameter[literal[17], member[.pLevel]]]] assign[member[.ctitle], literal["Dualpol: Digital Differential Phase"]] assign[member[.cunit], literal["Degree/km"]] assign[member[.cname], literal["DifferentialPhase"]] assign[member[.summary], binary_operation[member[.ctilt], +, literal[" is a radial image of dual pol Differential Phase field and its range 162 nm"]]] else begin[{] if[binary_operation[member[.prod_type], ==, member[.HydrometeorClassification]]] begin[{] assign[member[.radial], literal[1]] assign[member[.prod_elevation], member[pinfo.p3]] assign[member[.cmemo], binary_operation[binary_operation[binary_operation[literal["Hydrometeor Classification "], +, binary_operation[member[.prod_elevation], /, literal[10]]], +, literal[" DEG "]], +, member[.cmode]]] local_variable[type[int], pLevel] assign[member[.ctilt], call[.pname_lookup, parameter[literal[18], member[.pLevel]]]] assign[member[.ctitle], literal["Dualpol: Hydrometeor Classification"]] assign[member[.cunit], literal[" "]] assign[member[.cname], literal["HydrometeorClassification"]] assign[member[.summary], binary_operation[member[.ctilt], +, literal[" is a radial image of dual pol Hydrometeor Classification field and its range 162 nm"]]] else begin[{] if[binary_operation[member[.prod_type], ==, member[.HypridHydrometeorClassification]]] begin[{] assign[member[.radial], literal[1]] assign[member[.prod_elevation], member[pinfo.p3]] assign[member[.cmemo], binary_operation[binary_operation[binary_operation[literal["Hyprid Hydrometeor Classification "], +, binary_operation[member[.prod_elevation], /, literal[10]]], +, literal[" DEG "]], +, member[.cmode]]] local_variable[type[int], pLevel] assign[member[.ctilt], call[.pname_lookup, parameter[literal[18], member[.pLevel]]]] assign[member[.ctitle], literal["Dualpol: Hyprid Hydrometeor Classification"]] assign[member[.cunit], literal[" "]] assign[member[.cname], literal["HypridHydrometeorClassification"]] assign[member[.summary], binary_operation[member[.ctilt], +, literal[" is a radial image of dual pol Hyprid Hydrometeor Classification field and its range 162 nm"]]] else begin[{] if[binary_operation[member[.prod_type], ==, member[.OneHourAccumulation]]] begin[{] assign[member[.radial], literal[1]] assign[member[.prod_elevation], member[pinfo.p3]] assign[member[.cmemo], binary_operation[binary_operation[binary_operation[literal["One Hour Accumulation "], +, binary_operation[member[.prod_elevation], /, literal[10]]], +, literal[" DEG "]], +, member[.cmode]]] assign[member[.ctilt], literal["OHA"]] assign[member[.ctitle], literal["Dualpol: One Hour Accumulation"]] assign[member[.cunit], literal["IN"]] assign[member[.cname], literal["OneHourAccumulation"]] assign[member[.summary], binary_operation[member[.ctilt], +, literal[" is a radial image of dual pol One Hour Accumulation field and its range 124 nm"]]] else begin[{] if[binary_operation[member[.prod_type], ==, member[.DigitalAccumulationArray]]] begin[{] assign[member[.radial], literal[1]] assign[member[.prod_elevation], member[pinfo.p3]] assign[member[.cmemo], binary_operation[literal["Digital Accumulation Array "], +, member[.cmode]]] assign[member[.ctilt], literal["DAA"]] assign[member[.ctitle], literal["Dualpol: Digital Accumulation Array"]] assign[member[.cunit], literal["IN"]] assign[member[.cname], literal["DigitalAccumulationArray"]] assign[member[.summary], binary_operation[member[.ctilt], +, literal[" is a radial image of dual pol Digital Accumulation Array field and its range 124 nm"]]] else begin[{] if[binary_operation[member[.prod_type], ==, member[.StormTotalAccumulation]]] begin[{] assign[member[.radial], literal[1]] assign[member[.prod_elevation], member[pinfo.p3]] assign[member[.cmemo], binary_operation[literal["Storm Total Accumulation "], +, member[.cmode]]] assign[member[.ctilt], literal["PTA"]] assign[member[.ctitle], literal["Dualpol: Storm Total Accumulation"]] assign[member[.cunit], literal["IN"]] assign[member[.cname], literal["StormTotalAccumulation"]] assign[member[.summary], binary_operation[member[.ctilt], +, literal[" is a radial image of dual pol Storm Total Accumulation field and its range 124 nm"]]] else begin[{] if[binary_operation[member[.prod_type], ==, member[.DigitalStormTotalAccumulation]]] begin[{] assign[member[.radial], literal[1]] assign[member[.prod_elevation], member[pinfo.p3]] assign[member[.cmemo], binary_operation[literal["Digital Storm Total Accumulation "], +, member[.cmode]]] assign[member[.ctilt], literal["DTA"]] assign[member[.ctitle], literal["Dualpol: Digital Storm Total Accumulation"]] assign[member[.cunit], literal["IN"]] assign[member[.cname], literal["DigitalStormTotalAccumulation"]] assign[member[.summary], binary_operation[member[.ctilt], +, literal[" is a radial image of dual pol Digital StormTotal Accumulation field and its range 124 nm"]]] else begin[{] if[binary_operation[member[.prod_type], ==, member[.Accumulation3Hour]]] begin[{] assign[member[.radial], literal[1]] assign[member[.prod_elevation], member[pinfo.p3]] assign[member[.cmemo], binary_operation[binary_operation[binary_operation[literal["Hyprid Hydrometeor Classification "], +, binary_operation[member[.prod_elevation], /, literal[10]]], +, literal[" DEG "]], +, member[.cmode]]] local_variable[type[int], pLevel] assign[member[.ctilt], call[.pname_lookup, parameter[literal[18], member[.pLevel]]]] assign[member[.ctitle], literal["Dualpol: 3-hour Accumulation"]] assign[member[.cunit], literal["IN"]] assign[member[.cname], literal["Accumulation3Hour"]] assign[member[.summary], binary_operation[member[.ctilt], +, literal[" is a radial image of dual pol 3-hour Accumulation field and its range 124 nm"]]] else begin[{] if[binary_operation[member[.prod_type], ==, member[.Digital1HourDifferenceAccumulation]]] begin[{] assign[member[.radial], literal[1]] assign[member[.prod_elevation], member[pinfo.p3]] assign[member[.cmemo], binary_operation[literal["Digital One Hour Difference Accumulation "], +, member[.cmode]]] assign[member[.ctilt], literal["DOD"]] assign[member[.ctitle], literal["Dualpol: Digital One Hour Difference Accumulation"]] assign[member[.cunit], literal["IN"]] assign[member[.cname], literal["Digital1HourDifferenceAccumulation"]] assign[member[.summary], binary_operation[member[.ctilt], +, literal[" is a radial image of dual pol Digital One Hour Difference Accumulation field and its range 124 nm"]]] else begin[{] if[binary_operation[member[.prod_type], ==, member[.DigitalTotalDifferenceAccumulation]]] begin[{] assign[member[.radial], literal[1]] assign[member[.prod_elevation], member[pinfo.p3]] assign[member[.cmemo], binary_operation[literal["Digital Total Difference Accumulation "], +, member[.cmode]]] assign[member[.ctilt], literal["DSD"]] assign[member[.ctitle], literal["Dualpol: Digital Total Difference Accumulation"]] assign[member[.cunit], literal["IN"]] assign[member[.cname], literal["DigitalTotalDifferenceAccumulation"]] assign[member[.summary], binary_operation[member[.ctilt], +, literal[" is a radial image of dual pol Digital Total Difference Accumulation field and its range 124 nm"]]] else begin[{] if[binary_operation[member[.prod_type], ==, member[.DigitalInstantaneousPrecipitationRate]]] begin[{] assign[member[.radial], literal[1]] assign[member[.prod_elevation], member[pinfo.p3]] assign[member[.cmemo], binary_operation[literal["Digital Instantaneous Precipitation Rate "], +, member[.cmode]]] assign[member[.ctilt], literal["DPR"]] assign[member[.ctitle], literal["Dualpol: Digital Instantaneous Precipitation Rate"]] assign[member[.cunit], literal["IN/Hour"]] assign[member[.cname], literal["DigitalInstantaneousPrecipitationRate"]] assign[member[.summary], binary_operation[member[.ctilt], +, literal[" is a radial image of dual pol Digital Instantaneous Precipitation Rate field and its range 124 nm"]]] else begin[{] if[binary_operation[member[.prod_type], ==, member[.BaseReflectivityDR]]] begin[{] assign[member[.radial], literal[1]] assign[member[.prod_elevation], member[pinfo.p3]] assign[member[.cmemo], binary_operation[binary_operation[binary_operation[literal["Base Reflectivity DR "], +, binary_operation[member[.prod_elevation], /, literal[10]]], +, literal[" DEG "]], +, member[.cmode]]] local_variable[type[int], pLevel] assign[member[.ctilt], call[.pname_lookup, parameter[literal[94], member[.pLevel]]]] assign[member[.ctitle], literal["HighResolution: Base Reflectivity"]] assign[member[.cunit], literal["dBz"]] assign[member[.cname], literal["BaseReflectivityDR"]] assign[member[.summary], binary_operation[member[.ctilt], +, literal[" is a radial image of base reflectivity field and its range 248 nm"]]] else begin[{] if[binary_operation[member[.prod_type], ==, member[.BaseVelocityDV]]] begin[{] assign[member[.radial], literal[1]] assign[member[.prod_elevation], member[pinfo.p3]] assign[member[.cmemo], binary_operation[binary_operation[binary_operation[literal["Base Velocity DR "], +, binary_operation[member[.prod_elevation], /, literal[10]]], +, literal[" DEG "]], +, member[.cmode]]] local_variable[type[int], pLevel] assign[member[.ctilt], call[.pname_lookup, parameter[literal[99], member[.pLevel]]]] assign[member[.ctitle], literal["HighResolution: Base Velocity"]] assign[member[.cunit], literal["m/s"]] assign[member[.cname], literal["BaseVelocityDV"]] assign[member[.summary], binary_operation[member[.ctilt], +, literal[" is a radial image of base velocity field and its range 124 nm"]]] else begin[{] if[binary_operation[member[.prod_type], ==, member[.DigitalVert_Liquid]]] begin[{] assign[member[.radial], literal[1]] assign[member[.prod_elevation], member[pinfo.p3]] assign[member[.cmemo], binary_operation[binary_operation[binary_operation[literal["Digital Hybrid Reflect "], +, binary_operation[member[.prod_elevation], /, literal[10]]], +, literal[" DEG "]], +, member[.cmode]]] assign[member[.ctilt], call[.pname_lookup, parameter[literal[134], binary_operation[member[.prod_elevation], /, literal[10]]]]] assign[member[.ctitle], literal["Digital: Vertical Integ Liquid"]] assign[member[.cunit], literal["kg/m^2"]] assign[member[.cname], literal["DigitalIntegLiquid"]] assign[member[.summary], binary_operation[member[.ctilt], +, literal[" is a radial image high resolution vertical integral liquid and range 248 nm"]]] else begin[{] if[binary_operation[member[.prod_type], ==, member[.DigitalHybridReflect]]] begin[{] assign[member[.radial], literal[1]] assign[member[.prod_elevation], member[pinfo.p3]] assign[member[.cmemo], binary_operation[binary_operation[binary_operation[literal["Digital Hybrid Reflect "], +, binary_operation[member[.prod_elevation], /, literal[10]]], +, literal[" DEG "]], +, member[.cmode]]] assign[member[.ctilt], call[.pname_lookup, parameter[literal[19], binary_operation[member[.prod_elevation], /, literal[10]]]]] assign[member[.ctitle], literal["DigitalHybrid: Reflectivity"]] assign[member[.cunit], literal["dBz"]] assign[member[.cname], literal["DigitalHybridReflectivity"]] assign[member[.summary], binary_operation[binary_operation[binary_operation[member[.ctilt], +, literal[" is a radial image of base reflectivity at tilt "]], +, binary_operation[binary_operation[member[.prod_elevation], /, literal[10]], +, literal[1]]], +, literal[" and range 124 nm"]]] else begin[{] if[binary_operation[binary_operation[member[.prod_type], ==, member[.Base_Reflect]], ||, binary_operation[member[.prod_type], ==, member[.Reflect1]]]] begin[{] assign[member[.radial], literal[1]] assign[member[.prod_elevation], member[pinfo.p3]] assign[member[.cmemo], binary_operation[binary_operation[binary_operation[literal["Base Reflct "], +, binary_operation[member[.prod_elevation], /, literal[10]]], +, literal[" DEG "]], +, member[.cmode]]] if[binary_operation[member[.prod_type], ==, member[.Reflect1]]] begin[{] assign[member[.ctilt], binary_operation[literal["R"], +, binary_operation[member[.prod_elevation], /, literal[10]]]] assign[member[.summary], binary_operation[binary_operation[member[.ctilt], +, literal[" is a radial image of base reflectivity at tilt "]], +, binary_operation[binary_operation[member[.prod_elevation], /, literal[10]], +, literal[1]]]] else begin[{] assign[member[.ctilt], call[.pname_lookup, parameter[literal[19], binary_operation[member[.prod_elevation], /, literal[10]]]]] assign[member[.summary], binary_operation[binary_operation[binary_operation[member[.ctilt], +, literal[" is a radial image of base reflectivity at tilt "]], +, binary_operation[binary_operation[member[.prod_elevation], /, literal[10]], +, literal[1]]], +, literal[" and range 124 nm"]]] end[}] assign[member[.ctitle], literal["BREF: Base Reflectivity"]] assign[member[.cunit], literal["dBz"]] assign[member[.cname], literal["BaseReflectivity"]] else begin[{] if[binary_operation[member[.prod_type], ==, member[.BaseReflect248]]] begin[{] assign[member[.radial], literal[1]] assign[member[.prod_elevation], member[pinfo.p3]] assign[member[.cmemo], binary_operation[binary_operation[binary_operation[literal["Base Reflct 248 "], +, binary_operation[member[.prod_elevation], /, literal[10]]], +, literal[" DEG "]], +, member[.cmode]]] assign[member[.ctilt], call[.pname_lookup, parameter[literal[20], binary_operation[member[.prod_elevation], /, literal[10]]]]] assign[member[.ctitle], literal["BREF: 248 nm Base Reflectivity"]] assign[member[.cunit], literal["dBz"]] assign[member[.cname], literal["BaseReflectivity248"]] assign[member[.summary], binary_operation[binary_operation[binary_operation[member[.ctilt], +, literal[" is a radial image of base reflectivity at tilt "]], +, binary_operation[binary_operation[member[.prod_elevation], /, literal[10]], +, literal[1]]], +, literal[" and range 248 nm"]]] assign[member[.t1], binary_operation[binary_operation[literal[248.0], *, literal[1.853]], /, literal[111.26]]] assign[member[.t2], binary_operation[literal[460], /, binary_operation[literal[111.26], *, call[Math.cos, parameter[call[Math.toRadians, parameter[member[.latitude]]]]]]]] assign[member[.lat_min], binary_operation[member[.latitude], -, member[.t1]]] assign[member[.lat_max], binary_operation[member[.latitude], +, member[.t1]]] assign[member[.lon_min], binary_operation[member[.longitude], +, member[.t2]]] assign[member[.lon_max], binary_operation[member[.longitude], -, member[.t2]]] else begin[{] if[binary_operation[member[.prod_type], ==, member[.Comp_Reflect]]] begin[{] assign[member[.radial], literal[3]] assign[member[.prod_elevation], literal[1]] assign[member[.ctilt], call[.pname_lookup, parameter[member[pinfo.pcode], member[.elevationNumber]]]] if[binary_operation[binary_operation[member[pinfo.pcode], ==, literal[36]], ||, binary_operation[member[pinfo.pcode], ==, literal[38]]]] begin[{] assign[member[.t1], binary_operation[member[.t1], *, literal[2]]] assign[member[.t2], binary_operation[member[.t2], *, literal[2]]] assign[member[.lat_min], binary_operation[member[.latitude], -, member[.t1]]] assign[member[.lat_max], binary_operation[member[.latitude], +, member[.t1]]] assign[member[.lon_min], binary_operation[member[.longitude], +, member[.t2]]] assign[member[.lon_max], binary_operation[member[.longitude], -, member[.t2]]] else begin[{] None end[}] assign[member[.summary], binary_operation[member[.ctilt], +, literal["is a raster image of composite reflectivity"]]] assign[member[.cmemo], binary_operation[literal["Composite Reflectivity at "], +, member[.cmode]]] assign[member[.ctitle], binary_operation[literal["CREF Composite Reflectivity"], +, member[.ctilt]]] assign[member[.cunit], literal["dBz"]] assign[member[.cname], literal["BaseReflectivityComp"]] else begin[{] if[binary_operation[binary_operation[member[.prod_type], ==, member[.Layer_Reflect_Avg]], ||, binary_operation[member[.prod_type], ==, member[.Layer_Reflect_Max]]]] begin[{] assign[member[.radial], literal[3]] assign[member[.prod_elevation], member[pinfo.p5]] assign[member[.prod_top], member[pinfo.p6]] assign[member[.ctilt], call[.pname_lookup, parameter[member[.pcode], literal[0]]]] assign[member[.summary], binary_operation[member[.ctilt], +, literal[" is a raster image of composite reflectivity at range 124 nm"]]] assign[member[.cmemo], binary_operation[binary_operation[binary_operation[binary_operation[literal["Layer Reflct "], +, member[.prod_elevation]], +, literal[" - "]], +, member[.prod_top]], +, member[.cmode]]] assign[member[.t1], binary_operation[member[.t1], *, literal[4]]] assign[member[.t2], binary_operation[member[.t2], *, literal[4]]] assign[member[.lat_min], binary_operation[member[.latitude], -, member[.t1]]] assign[member[.lat_max], binary_operation[member[.latitude], +, member[.t1]]] assign[member[.lon_min], binary_operation[member[.longitude], +, member[.t2]]] assign[member[.lon_max], binary_operation[member[.longitude], -, member[.t2]]] assign[member[.ctitle], literal["LREF: Layer Composite Reflectivity"]] assign[member[.cunit], literal["dBz"]] assign[member[.cname], literal["LayerCompReflect"]] else begin[{] if[binary_operation[member[.prod_type], ==, member[.EnhancedEcho_Tops]]] begin[{] assign[member[.radial], literal[1]] assign[member[.prod_elevation], literal[1]] assign[member[.summary], literal["EET is a radial image of echo tops at range 186 nm"]] assign[member[.cmemo], binary_operation[literal["Enhanced Echo Tops [K FT] "], +, member[.cmode]]] assign[member[.ctilt], call[.pname_lookup, parameter[literal[135], member[.elevationNumber]]]] assign[member[.ctitle], literal["TOPS: Enhanced Echo Tops"]] assign[member[.cunit], literal["K FT"]] assign[member[.cname], literal["EnhancedEchoTop"]] assign[member[.t1], binary_operation[member[.t1], *, literal[4]]] assign[member[.t2], binary_operation[member[.t2], *, literal[4]]] assign[member[.lat_min], binary_operation[member[.latitude], -, member[.t1]]] assign[member[.lat_max], binary_operation[member[.latitude], +, member[.t1]]] assign[member[.lon_min], binary_operation[member[.longitude], +, member[.t2]]] assign[member[.lon_max], binary_operation[member[.longitude], -, member[.t2]]] else begin[{] if[binary_operation[member[.prod_type], ==, member[.Echo_Tops]]] begin[{] assign[member[.radial], literal[3]] assign[member[.prod_elevation], literal[1]] assign[member[.summary], literal["NET is a raster image of echo tops at range 124 nm"]] assign[member[.cmemo], binary_operation[literal["Echo Tops [K FT] "], +, member[.cmode]]] assign[member[.ctilt], call[.pname_lookup, parameter[literal[41], member[.elevationNumber]]]] assign[member[.ctitle], literal["TOPS: Echo Tops"]] assign[member[.cunit], literal["K FT"]] assign[member[.cname], literal["EchoTop"]] assign[member[.t1], binary_operation[member[.t1], *, literal[4]]] assign[member[.t2], binary_operation[member[.t2], *, literal[4]]] assign[member[.lat_min], binary_operation[member[.latitude], -, member[.t1]]] assign[member[.lat_max], binary_operation[member[.latitude], +, member[.t1]]] assign[member[.lon_min], binary_operation[member[.longitude], +, member[.t2]]] assign[member[.lon_max], binary_operation[member[.longitude], -, member[.t2]]] else begin[{] if[binary_operation[member[.prod_type], ==, member[.Precip_1]]] begin[{] assign[member[.radial], literal[1]] assign[member[.prod_elevation], literal[1]] assign[member[.prod_max], literal[10]] assign[member[.endDate], call[.getDate, parameter[member[pinfo.p7], binary_operation[binary_operation[member[pinfo.p8], *, literal[60]], *, literal[1000]]]]] assign[member[.summary], literal["N1P is a raster image of 1 hour surface rainfall accumulation at range 124 nm"]] assign[member[.cmemo], binary_operation[literal["1-hr Rainfall [IN] "], +, member[.cmode]]] assign[member[.ctilt], call[.pname_lookup, parameter[literal[78], member[.elevationNumber]]]] assign[member[.ctitle], literal["PRE1: Surface 1-hour Rainfall Total"]] assign[member[.cunit], literal["IN"]] assign[member[.cname], literal["Precip1hr"]] assign[member[.t1], binary_operation[member[.t1], *, literal[2]]] assign[member[.t2], binary_operation[member[.t2], *, literal[2]]] assign[member[.lat_min], binary_operation[member[.latitude], -, member[.t1]]] assign[member[.lat_max], binary_operation[member[.latitude], +, member[.t1]]] assign[member[.lon_min], binary_operation[member[.longitude], +, member[.t2]]] assign[member[.lon_max], binary_operation[member[.longitude], -, member[.t2]]] else begin[{] if[binary_operation[member[.prod_type], ==, member[.Precip_3]]] begin[{] assign[member[.radial], literal[1]] assign[member[.prod_elevation], literal[1]] assign[member[.prod_max], literal[10]] assign[member[.endDate], call[.getDate, parameter[member[pinfo.p7], binary_operation[binary_operation[member[pinfo.p8], *, literal[60]], *, literal[1000]]]]] assign[member[.summary], literal["N3P is a raster image of 3 hour surface rainfall accumulation at range 124 nm"]] assign[member[.cmemo], binary_operation[literal["3-hr Rainfall [IN] "], +, member[.cmode]]] assign[member[.ctilt], call[.pname_lookup, parameter[literal[79], member[.elevationNumber]]]] assign[member[.ctitle], literal["PRE3: Surface 3-hour Rainfall Total"]] assign[member[.cunit], literal["IN"]] assign[member[.cname], literal["Precip3hr"]] assign[member[.t1], binary_operation[member[.t1], *, literal[2]]] assign[member[.t2], binary_operation[member[.t2], *, literal[2]]] assign[member[.lat_min], binary_operation[member[.latitude], -, member[.t1]]] assign[member[.lat_max], binary_operation[member[.latitude], +, member[.t1]]] assign[member[.lon_min], binary_operation[member[.longitude], +, member[.t2]]] assign[member[.lon_max], binary_operation[member[.longitude], -, member[.t2]]] else begin[{] if[binary_operation[member[.prod_type], ==, member[.DigitalStormTotalPrecip]]] begin[{] assign[member[.radial], literal[1]] assign[member[.prod_elevation], literal[1]] assign[member[.endDate], call[.getDate, parameter[member[pinfo.p7], binary_operation[binary_operation[member[pinfo.p8], *, literal[60]], *, literal[1000]]]]] assign[member[.summary], literal["DSP is a radial image of digital storm total rainfall"]] assign[member[.cmemo], binary_operation[literal["Digital Strm Total Precip [IN] "], +, member[.cmode]]] assign[member[.ctilt], call[.pname_lookup, parameter[literal[80], member[.elevationNumber]]]] assign[member[.ctitle], literal["DPRE: Digital Storm Total Rainfall"]] assign[member[.cunit], literal["IN"]] assign[member[.cname], literal["DigitalPrecip"]] assign[member[.t1], binary_operation[member[.t1], *, literal[2]]] assign[member[.t2], binary_operation[member[.t2], *, literal[2]]] assign[member[.lat_min], binary_operation[member[.latitude], -, member[.t1]]] assign[member[.lat_max], binary_operation[member[.latitude], +, member[.t1]]] assign[member[.lon_min], binary_operation[member[.longitude], +, member[.t2]]] assign[member[.lon_max], binary_operation[member[.longitude], -, member[.t2]]] else begin[{] if[binary_operation[member[.prod_type], ==, member[.Precip_Accum]]] begin[{] assign[member[.radial], literal[1]] assign[member[.prod_elevation], literal[1]] assign[member[.endDate], call[.getDate, parameter[member[pinfo.p7], binary_operation[binary_operation[member[pinfo.p8], *, literal[60]], *, literal[1000]]]]] assign[member[.summary], literal["NTP is a raster image of storm total rainfall accumulation at range 124 nm"]] assign[member[.cmemo], binary_operation[literal["Strm Tot Rain [IN] "], +, member[.cmode]]] assign[member[.ctilt], call[.pname_lookup, parameter[literal[80], member[.elevationNumber]]]] assign[member[.ctitle], literal["PRET: Surface Storm Total Rainfall"]] assign[member[.cunit], literal["IN"]] assign[member[.cname], literal["PrecipAccum"]] assign[member[.t1], binary_operation[member[.t1], *, literal[2]]] assign[member[.t2], binary_operation[member[.t2], *, literal[2]]] assign[member[.lat_min], binary_operation[member[.latitude], -, member[.t1]]] assign[member[.lat_max], binary_operation[member[.latitude], +, member[.t1]]] assign[member[.lon_min], binary_operation[member[.longitude], +, member[.t2]]] assign[member[.lon_max], binary_operation[member[.longitude], -, member[.t2]]] else begin[{] if[binary_operation[member[.prod_type], ==, member[.Precip_Array]]] begin[{] assign[member[.radial], literal[3]] assign[member[.prod_elevation], literal[1]] assign[member[.summary], literal["DPA is a raster image of hourly digital precipitation array at range 124 nm"]] assign[member[.endDate], call[.getDate, parameter[member[pinfo.p7], binary_operation[binary_operation[member[pinfo.p8], *, literal[60]], *, literal[1000]]]]] assign[member[.cmemo], binary_operation[literal["Precip Array [IN] "], +, member[.cmode]]] assign[member[.ctilt], call[.pname_lookup, parameter[literal[81], member[.elevationNumber]]]] assign[member[.ctitle], literal["PRET: Hourly Digital Precipitation Array"]] assign[member[.cunit], literal["dBA"]] assign[member[.cname], literal["PrecipArray"]] else begin[{] if[binary_operation[member[.prod_type], ==, member[.Vert_Liquid]]] begin[{] assign[member[.radial], literal[3]] assign[member[.prod_elevation], literal[1]] assign[member[.summary], literal["NVL is a raster image of verticalintegrated liguid at range 124 nm"]] assign[member[.cmemo], binary_operation[literal["Vert Int Lq H2O [mm] "], +, member[.cmode]]] assign[member[.ctilt], call[.pname_lookup, parameter[literal[57], member[.elevationNumber]]]] assign[member[.ctitle], literal["VIL: Vertically-integrated Liquid Water"]] assign[member[.cunit], literal["kg/m^2"]] assign[member[.cname], literal["VertLiquid"]] assign[member[.t1], binary_operation[member[.t1], *, literal[4]]] assign[member[.t2], binary_operation[member[.t2], *, literal[4]]] assign[member[.lat_min], binary_operation[member[.latitude], -, member[.t1]]] assign[member[.lat_max], binary_operation[member[.latitude], +, member[.t1]]] assign[member[.lon_min], binary_operation[member[.longitude], +, member[.t2]]] assign[member[.lon_max], binary_operation[member[.longitude], -, member[.t2]]] else begin[{] if[binary_operation[binary_operation[member[.prod_type], ==, member[.Velocity]], ||, binary_operation[member[.prod_type], ==, member[.Velocity1]]]] begin[{] assign[member[.radial], literal[1]] assign[member[.prod_elevation], member[pinfo.p3]] assign[member[.prod_min], member[pinfo.p4]] assign[member[.prod_max], member[pinfo.p5]] if[binary_operation[member[.prod_type], ==, member[.Velocity]]] begin[{] assign[member[.ctilt], call[.pname_lookup, parameter[member[pinfo.pcode], binary_operation[member[.prod_elevation], /, literal[10]]]]] else begin[{] assign[member[.ctilt], binary_operation[literal["V"], +, binary_operation[member[.prod_elevation], /, literal[10]]]] end[}] if[binary_operation[member[pinfo.pcode], ==, literal[25]]] begin[{] assign[member[.t1], binary_operation[binary_operation[literal[32.0], *, literal[1.853]], /, literal[111.26]]] assign[member[.t2], binary_operation[literal[64], /, binary_operation[literal[111.26], *, call[Math.cos, parameter[call[Math.toRadians, parameter[member[.latitude]]]]]]]] assign[member[.lat_min], binary_operation[member[.latitude], -, member[.t1]]] assign[member[.lat_max], binary_operation[member[.latitude], +, member[.t1]]] assign[member[.lon_min], binary_operation[member[.longitude], +, member[.t2]]] assign[member[.lon_max], binary_operation[member[.longitude], -, member[.t2]]] assign[member[.summary], binary_operation[binary_operation[binary_operation[member[.ctilt], +, literal[" is a radial image of base velocity"]], +, binary_operation[binary_operation[member[.prod_elevation], /, literal[10]], +, literal[1]]], +, literal[" and range 32 nm"]]] assign[member[.cunit], literal["m/s"]] else begin[{] assign[member[.summary], binary_operation[binary_operation[member[.ctilt], +, literal[" is a radial image of base velocity at tilt "]], +, binary_operation[binary_operation[member[.prod_elevation], /, literal[10]], +, literal[1]]]] assign[member[.cunit], literal["m/s"]] end[}] assign[member[.cmemo], binary_operation[binary_operation[binary_operation[literal["Rad Vel "], +, binary_operation[member[.prod_elevation], /, literal[10.]]], +, literal[" DEG "]], +, member[.cmode]]] assign[member[.ctitle], literal["VEL: Radial Velocity"]] assign[member[.cname], literal["RadialVelocity"]] else begin[{] if[binary_operation[member[.prod_type], ==, member[.StrmRelMeanVel]]] begin[{] assign[member[.radial], literal[1]] assign[member[.prod_elevation], member[pinfo.p3]] assign[member[.prod_min], member[pinfo.p4]] assign[member[.prod_max], member[pinfo.p5]] assign[member[.ctilt], call[.pname_lookup, parameter[literal[56], binary_operation[member[.prod_elevation], /, literal[10]]]]] assign[member[.summary], binary_operation[binary_operation[binary_operation[member[.ctilt], +, literal[" is a radial image of storm relative mean radial velocity at tilt "]], +, binary_operation[binary_operation[member[.prod_elevation], /, literal[10]], +, literal[1]]], +, literal[" and range 124 nm"]]] assign[member[.cmemo], binary_operation[binary_operation[binary_operation[literal["StrmRelMnVl "], +, binary_operation[member[.prod_elevation], /, literal[10.]]], +, literal[" DEG "]], +, member[.cmode]]] assign[member[.ctitle], literal["SRMV: Storm Relative Mean Velocity"]] assign[member[.cunit], literal["KT"]] assign[member[.cname], literal["StormMeanVelocity"]] else begin[{] if[binary_operation[member[.prod_type], ==, member[.VAD]]] begin[{] assign[member[.radial], literal[0]] assign[member[.prod_elevation], member[pinfo.p3]] assign[member[.prod_min], member[pinfo.p4]] assign[member[.prod_max], member[pinfo.p5]] assign[member[.summary], literal["NVW is VAD wind profile which contains wind barbs and alpha numeric data"]] assign[member[.cmemo], binary_operation[binary_operation[binary_operation[literal["StrmRelMnVl "], +, binary_operation[member[.prod_elevation], /, literal[10.]]], +, literal[" DEG "]], +, member[.cmode]]] assign[member[.ctilt], call[.pname_lookup, parameter[literal[48], member[.elevationNumber]]]] assign[member[.ctitle], literal["SRMV: Velocity Azimuth Display"]] assign[member[.cunit], literal["KT"]] assign[member[.cname], literal["VADWindSpeed"]] assign[member[.lat_min], member[.latitude]] assign[member[.lat_max], member[.latitude]] assign[member[.lon_min], member[.longitude]] assign[member[.lon_max], member[.longitude]] else begin[{] assign[member[.ctilt], literal["error"]] assign[member[.ctitle], literal["error"]] assign[member[.cunit], literal["error"]] assign[member[.cname], literal["error"]] end[}] end[}] end[}] end[}] end[}] end[}] end[}] end[}] end[}] end[}] end[}] end[}] end[}] end[}] end[}] end[}] end[}] end[}] end[}] end[}] end[}] end[}] end[}] end[}] end[}] end[}] end[}] end[}] end[}] end[}] end[}] end[}] end[}] call[ncfile.addAttribute, parameter[literal[null], ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="summary"), BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Nexrad level 3 data are WSR-88D radar products."), operandr=MemberReference(member=summary, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Attribute, sub_type=None))]] call[ncfile.addAttribute, parameter[literal[null], ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="keywords_vocabulary"), MemberReference(member=ctilt, 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=Attribute, sub_type=None))]] call[ncfile.addAttribute, parameter[literal[null], ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="conventions"), MemberReference(member=Convention, postfix_operators=[], prefix_operators=[], qualifier=_Coordinate, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Attribute, sub_type=None))]] call[ncfile.addAttribute, parameter[literal[null], ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="format"), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Level3/NIDS")], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Attribute, sub_type=None))]] call[ncfile.addAttribute, parameter[literal[null], ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="geospatial_lat_min"), ClassCreator(arguments=[MemberReference(member=lat_min, 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=Float, sub_type=None))], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Attribute, sub_type=None))]] call[ncfile.addAttribute, parameter[literal[null], ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="geospatial_lat_max"), ClassCreator(arguments=[MemberReference(member=lat_max, 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=Float, sub_type=None))], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Attribute, sub_type=None))]] call[ncfile.addAttribute, parameter[literal[null], ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="geospatial_lon_min"), ClassCreator(arguments=[MemberReference(member=lon_min, 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=Float, sub_type=None))], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Attribute, sub_type=None))]] call[ncfile.addAttribute, parameter[literal[null], ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="geospatial_lon_max"), ClassCreator(arguments=[MemberReference(member=lon_max, 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=Float, sub_type=None))], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Attribute, sub_type=None))]] call[ncfile.addAttribute, parameter[literal[null], ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="geospatial_vertical_min"), ClassCreator(arguments=[MemberReference(member=height, 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=Float, sub_type=None))], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Attribute, sub_type=None))]] call[ncfile.addAttribute, parameter[literal[null], ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="geospatial_vertical_max"), ClassCreator(arguments=[MemberReference(member=height, 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=Float, sub_type=None))], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Attribute, sub_type=None))]] call[ncfile.addAttribute, parameter[literal[null], ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="RadarElevationNumber"), ClassCreator(arguments=[MemberReference(member=prod_elevation, 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))], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Attribute, sub_type=None))]] assign[member[.dstring], call[formatter.toDateTimeStringISO, parameter[member[.startDate]]]] call[ncfile.addAttribute, parameter[literal[null], ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="time_coverage_start"), MemberReference(member=dstring, 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=Attribute, sub_type=None))]] assign[member[.dstring], call[formatter.toDateTimeStringISO, parameter[member[.endDate]]]] call[ncfile.addAttribute, parameter[literal[null], ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="time_coverage_end"), MemberReference(member=dstring, 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=Attribute, sub_type=None))]] call[ncfile.addAttribute, parameter[literal[null], ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="data_min"), ClassCreator(arguments=[MemberReference(member=prod_min, 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=Float, sub_type=None))], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Attribute, sub_type=None))]] call[ncfile.addAttribute, parameter[literal[null], ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="data_max"), ClassCreator(arguments=[MemberReference(member=prod_max, 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=Float, sub_type=None))], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Attribute, sub_type=None))]] call[ncfile.addAttribute, parameter[literal[null], ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="isRadial"), ClassCreator(arguments=[MemberReference(member=radial, 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))], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Attribute, sub_type=None))]] end[}] END[}]
Keyword[void] identifier[setProductInfo] operator[SEP] Keyword[int] identifier[prod_type] , identifier[Pinfo] identifier[pinfo] operator[SEP] { identifier[String] operator[SEP] operator[SEP] identifier[cmode] operator[=] Keyword[new] identifier[String] operator[SEP] operator[SEP] { literal[String] , literal[String] , literal[String] } operator[SEP] Keyword[short] identifier[prod_max] operator[=] identifier[pinfo] operator[SEP] identifier[p4] operator[SEP] Keyword[short] identifier[prod_min] operator[=] Other[0] operator[SEP] Keyword[int] identifier[prod_elevation] operator[=] Other[0] operator[SEP] Keyword[int] identifier[prod_top] operator[SEP] Keyword[int] identifier[radial] operator[=] Other[0] operator[SEP] identifier[String] identifier[summary] operator[=] Other[null] operator[SEP] identifier[java] operator[SEP] identifier[util] operator[SEP] identifier[Date] identifier[endDate] operator[SEP] identifier[java] operator[SEP] identifier[util] operator[SEP] identifier[Date] identifier[startDate] operator[SEP] identifier[String] identifier[dstring] operator[SEP] Keyword[double] identifier[t1] operator[=] literal[Float] operator[*] literal[Float] operator[/] literal[Float] operator[SEP] Keyword[double] identifier[t2] operator[=] Other[230] operator[/] operator[SEP] literal[Float] operator[*] identifier[Math] operator[SEP] identifier[cos] operator[SEP] identifier[Math] operator[SEP] identifier[toRadians] operator[SEP] identifier[latitude] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[lat_min] operator[=] identifier[latitude] operator[-] identifier[t1] operator[SEP] identifier[lat_max] operator[=] identifier[latitude] operator[+] identifier[t1] operator[SEP] identifier[lon_min] operator[=] identifier[longitude] operator[+] identifier[t2] operator[SEP] identifier[lon_max] operator[=] identifier[longitude] operator[-] identifier[t2] operator[SEP] identifier[startDate] operator[=] identifier[getDate] operator[SEP] identifier[volumeScanDate] , identifier[volumeScanTime] operator[*] Other[1000] operator[SEP] operator[SEP] identifier[endDate] operator[=] identifier[getDate] operator[SEP] identifier[volumeScanDate] , identifier[volumeScanTime] operator[*] Other[1000] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[SPECTRUM] operator[SEP] { identifier[radial] operator[=] Other[1] operator[SEP] identifier[prod_elevation] operator[=] identifier[pinfo] operator[SEP] identifier[p3] operator[SEP] identifier[cmemo] operator[=] literal[String] operator[+] identifier[prod_elevation] operator[/] Other[10] operator[+] literal[String] operator[+] identifier[cmode] operator[SEP] identifier[pinfo] operator[SEP] identifier[opmode] operator[SEP] operator[SEP] identifier[ctilt] operator[=] identifier[pname_lookup] operator[SEP] identifier[pcode] , identifier[prod_elevation] operator[/] Other[10] operator[SEP] operator[SEP] identifier[ctitle] operator[=] literal[String] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] identifier[summary] operator[=] identifier[ctilt] operator[+] literal[String] operator[+] operator[SEP] identifier[prod_elevation] operator[/] Other[10] operator[+] Other[1] operator[SEP] operator[+] literal[String] operator[SEP] Keyword[if] operator[SEP] identifier[pcode] operator[==] Other[28] operator[SEP] { identifier[t1] operator[=] identifier[t1] operator[*] literal[Float] operator[SEP] identifier[t2] operator[=] identifier[t2] operator[*] literal[Float] operator[SEP] identifier[lat_min] operator[=] identifier[latitude] operator[-] identifier[t1] operator[SEP] identifier[lat_max] operator[=] identifier[latitude] operator[+] identifier[t1] operator[SEP] identifier[lon_min] operator[=] identifier[longitude] operator[+] identifier[t2] operator[SEP] identifier[lon_max] operator[=] identifier[longitude] operator[-] identifier[t2] operator[SEP] identifier[summary] operator[=] identifier[ctilt] operator[+] literal[String] operator[+] operator[SEP] identifier[prod_elevation] operator[/] Other[10] operator[+] Other[1] operator[SEP] operator[+] literal[String] operator[SEP] } } Keyword[else] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[DigitalDifferentialReflectivity] operator[SEP] { identifier[radial] operator[=] Other[1] operator[SEP] identifier[prod_elevation] operator[=] identifier[pinfo] operator[SEP] identifier[p3] operator[SEP] identifier[cmemo] operator[=] literal[String] operator[+] identifier[prod_elevation] operator[/] Other[10] operator[+] literal[String] operator[+] identifier[cmode] operator[SEP] identifier[pinfo] operator[SEP] identifier[opmode] operator[SEP] operator[SEP] Keyword[int] identifier[pLevel] operator[=] identifier[getProductLevel] operator[SEP] identifier[prod_elevation] operator[SEP] operator[SEP] identifier[ctilt] operator[=] identifier[pname_lookup] operator[SEP] Other[15] , identifier[pLevel] operator[SEP] operator[SEP] identifier[ctitle] operator[=] literal[String] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] identifier[summary] operator[=] identifier[ctilt] operator[+] literal[String] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[DigitalCorrelationCoefficient] operator[SEP] { identifier[radial] operator[=] Other[1] operator[SEP] identifier[prod_elevation] operator[=] identifier[pinfo] operator[SEP] identifier[p3] operator[SEP] identifier[cmemo] operator[=] literal[String] operator[+] identifier[prod_elevation] operator[/] Other[10] operator[+] literal[String] operator[+] identifier[cmode] operator[SEP] identifier[pinfo] operator[SEP] identifier[opmode] operator[SEP] operator[SEP] Keyword[int] identifier[pLevel] operator[=] identifier[getProductLevel] operator[SEP] identifier[prod_elevation] operator[SEP] operator[SEP] identifier[ctilt] operator[=] identifier[pname_lookup] operator[SEP] Other[16] , identifier[pLevel] operator[SEP] operator[SEP] identifier[ctitle] operator[=] literal[String] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] identifier[summary] operator[=] identifier[ctilt] operator[+] literal[String] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[DigitalDifferentialPhase] operator[SEP] { identifier[radial] operator[=] Other[1] operator[SEP] identifier[prod_elevation] operator[=] identifier[pinfo] operator[SEP] identifier[p3] operator[SEP] identifier[cmemo] operator[=] literal[String] operator[+] identifier[prod_elevation] operator[/] Other[10] operator[+] literal[String] operator[+] identifier[cmode] operator[SEP] identifier[pinfo] operator[SEP] identifier[opmode] operator[SEP] operator[SEP] Keyword[int] identifier[pLevel] operator[=] identifier[getProductLevel] operator[SEP] identifier[prod_elevation] operator[SEP] operator[SEP] identifier[ctilt] operator[=] identifier[pname_lookup] operator[SEP] Other[17] , identifier[pLevel] operator[SEP] operator[SEP] identifier[ctitle] operator[=] literal[String] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] identifier[summary] operator[=] identifier[ctilt] operator[+] literal[String] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[HydrometeorClassification] operator[SEP] { identifier[radial] operator[=] Other[1] operator[SEP] identifier[prod_elevation] operator[=] identifier[pinfo] operator[SEP] identifier[p3] operator[SEP] identifier[cmemo] operator[=] literal[String] operator[+] identifier[prod_elevation] operator[/] Other[10] operator[+] literal[String] operator[+] identifier[cmode] operator[SEP] identifier[pinfo] operator[SEP] identifier[opmode] operator[SEP] operator[SEP] Keyword[int] identifier[pLevel] operator[=] identifier[getProductLevel] operator[SEP] identifier[prod_elevation] operator[SEP] operator[SEP] identifier[ctilt] operator[=] identifier[pname_lookup] operator[SEP] Other[18] , identifier[pLevel] operator[SEP] operator[SEP] identifier[ctitle] operator[=] literal[String] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] identifier[summary] operator[=] identifier[ctilt] operator[+] literal[String] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[HypridHydrometeorClassification] operator[SEP] { identifier[radial] operator[=] Other[1] operator[SEP] identifier[prod_elevation] operator[=] identifier[pinfo] operator[SEP] identifier[p3] operator[SEP] identifier[cmemo] operator[=] literal[String] operator[+] identifier[prod_elevation] operator[/] Other[10] operator[+] literal[String] operator[+] identifier[cmode] operator[SEP] identifier[pinfo] operator[SEP] identifier[opmode] operator[SEP] operator[SEP] Keyword[int] identifier[pLevel] operator[=] identifier[getProductLevel] operator[SEP] identifier[prod_elevation] operator[SEP] operator[SEP] identifier[ctilt] operator[=] identifier[pname_lookup] operator[SEP] Other[18] , identifier[pLevel] operator[SEP] operator[SEP] identifier[ctitle] operator[=] literal[String] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] identifier[summary] operator[=] identifier[ctilt] operator[+] literal[String] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[OneHourAccumulation] operator[SEP] { identifier[radial] operator[=] Other[1] operator[SEP] identifier[prod_elevation] operator[=] identifier[pinfo] operator[SEP] identifier[p3] operator[SEP] identifier[cmemo] operator[=] literal[String] operator[+] identifier[prod_elevation] operator[/] Other[10] operator[+] literal[String] operator[+] identifier[cmode] operator[SEP] identifier[pinfo] operator[SEP] identifier[opmode] operator[SEP] operator[SEP] identifier[ctilt] operator[=] literal[String] operator[SEP] identifier[ctitle] operator[=] literal[String] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] identifier[summary] operator[=] identifier[ctilt] operator[+] literal[String] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[DigitalAccumulationArray] operator[SEP] { identifier[radial] operator[=] Other[1] operator[SEP] identifier[prod_elevation] operator[=] identifier[pinfo] operator[SEP] identifier[p3] operator[SEP] identifier[cmemo] operator[=] literal[String] operator[+] identifier[cmode] operator[SEP] identifier[pinfo] operator[SEP] identifier[opmode] operator[SEP] operator[SEP] identifier[ctilt] operator[=] literal[String] operator[SEP] identifier[ctitle] operator[=] literal[String] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] identifier[summary] operator[=] identifier[ctilt] operator[+] literal[String] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[StormTotalAccumulation] operator[SEP] { identifier[radial] operator[=] Other[1] operator[SEP] identifier[prod_elevation] operator[=] identifier[pinfo] operator[SEP] identifier[p3] operator[SEP] identifier[cmemo] operator[=] literal[String] operator[+] identifier[cmode] operator[SEP] identifier[pinfo] operator[SEP] identifier[opmode] operator[SEP] operator[SEP] identifier[ctilt] operator[=] literal[String] operator[SEP] identifier[ctitle] operator[=] literal[String] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] identifier[summary] operator[=] identifier[ctilt] operator[+] literal[String] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[DigitalStormTotalAccumulation] operator[SEP] { identifier[radial] operator[=] Other[1] operator[SEP] identifier[prod_elevation] operator[=] identifier[pinfo] operator[SEP] identifier[p3] operator[SEP] identifier[cmemo] operator[=] literal[String] operator[+] identifier[cmode] operator[SEP] identifier[pinfo] operator[SEP] identifier[opmode] operator[SEP] operator[SEP] identifier[ctilt] operator[=] literal[String] operator[SEP] identifier[ctitle] operator[=] literal[String] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] identifier[summary] operator[=] identifier[ctilt] operator[+] literal[String] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[Accumulation3Hour] operator[SEP] { identifier[radial] operator[=] Other[1] operator[SEP] identifier[prod_elevation] operator[=] identifier[pinfo] operator[SEP] identifier[p3] operator[SEP] identifier[cmemo] operator[=] literal[String] operator[+] identifier[prod_elevation] operator[/] Other[10] operator[+] literal[String] operator[+] identifier[cmode] operator[SEP] identifier[pinfo] operator[SEP] identifier[opmode] operator[SEP] operator[SEP] Keyword[int] identifier[pLevel] operator[=] identifier[getProductLevel] operator[SEP] identifier[prod_elevation] operator[SEP] operator[SEP] identifier[ctilt] operator[=] identifier[pname_lookup] operator[SEP] Other[18] , identifier[pLevel] operator[SEP] operator[SEP] identifier[ctitle] operator[=] literal[String] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] identifier[summary] operator[=] identifier[ctilt] operator[+] literal[String] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[Digital1HourDifferenceAccumulation] operator[SEP] { identifier[radial] operator[=] Other[1] operator[SEP] identifier[prod_elevation] operator[=] identifier[pinfo] operator[SEP] identifier[p3] operator[SEP] identifier[cmemo] operator[=] literal[String] operator[+] identifier[cmode] operator[SEP] identifier[pinfo] operator[SEP] identifier[opmode] operator[SEP] operator[SEP] identifier[ctilt] operator[=] literal[String] operator[SEP] identifier[ctitle] operator[=] literal[String] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] identifier[summary] operator[=] identifier[ctilt] operator[+] literal[String] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[DigitalTotalDifferenceAccumulation] operator[SEP] { identifier[radial] operator[=] Other[1] operator[SEP] identifier[prod_elevation] operator[=] identifier[pinfo] operator[SEP] identifier[p3] operator[SEP] identifier[cmemo] operator[=] literal[String] operator[+] identifier[cmode] operator[SEP] identifier[pinfo] operator[SEP] identifier[opmode] operator[SEP] operator[SEP] identifier[ctilt] operator[=] literal[String] operator[SEP] identifier[ctitle] operator[=] literal[String] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] identifier[summary] operator[=] identifier[ctilt] operator[+] literal[String] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[DigitalInstantaneousPrecipitationRate] operator[SEP] { identifier[radial] operator[=] Other[1] operator[SEP] identifier[prod_elevation] operator[=] identifier[pinfo] operator[SEP] identifier[p3] operator[SEP] identifier[cmemo] operator[=] literal[String] operator[+] identifier[cmode] operator[SEP] identifier[pinfo] operator[SEP] identifier[opmode] operator[SEP] operator[SEP] identifier[ctilt] operator[=] literal[String] operator[SEP] identifier[ctitle] operator[=] literal[String] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] identifier[summary] operator[=] identifier[ctilt] operator[+] literal[String] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[BaseReflectivityDR] operator[SEP] { identifier[radial] operator[=] Other[1] operator[SEP] identifier[prod_elevation] operator[=] identifier[pinfo] operator[SEP] identifier[p3] operator[SEP] identifier[cmemo] operator[=] literal[String] operator[+] identifier[prod_elevation] operator[/] Other[10] operator[+] literal[String] operator[+] identifier[cmode] operator[SEP] identifier[pinfo] operator[SEP] identifier[opmode] operator[SEP] operator[SEP] Keyword[int] identifier[pLevel] operator[=] identifier[getProductLevel] operator[SEP] identifier[prod_elevation] operator[SEP] operator[SEP] identifier[ctilt] operator[=] identifier[pname_lookup] operator[SEP] Other[94] , identifier[pLevel] operator[SEP] operator[SEP] identifier[ctitle] operator[=] literal[String] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] identifier[summary] operator[=] identifier[ctilt] operator[+] literal[String] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[BaseVelocityDV] operator[SEP] { identifier[radial] operator[=] Other[1] operator[SEP] identifier[prod_elevation] operator[=] identifier[pinfo] operator[SEP] identifier[p3] operator[SEP] identifier[cmemo] operator[=] literal[String] operator[+] identifier[prod_elevation] operator[/] Other[10] operator[+] literal[String] operator[+] identifier[cmode] operator[SEP] identifier[pinfo] operator[SEP] identifier[opmode] operator[SEP] operator[SEP] Keyword[int] identifier[pLevel] operator[=] identifier[getProductLevel] operator[SEP] identifier[prod_elevation] operator[SEP] operator[SEP] identifier[ctilt] operator[=] identifier[pname_lookup] operator[SEP] Other[99] , identifier[pLevel] operator[SEP] operator[SEP] identifier[ctitle] operator[=] literal[String] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] identifier[summary] operator[=] identifier[ctilt] operator[+] literal[String] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[DigitalVert_Liquid] operator[SEP] { identifier[radial] operator[=] Other[1] operator[SEP] identifier[prod_elevation] operator[=] identifier[pinfo] operator[SEP] identifier[p3] operator[SEP] identifier[cmemo] operator[=] literal[String] operator[+] identifier[prod_elevation] operator[/] Other[10] operator[+] literal[String] operator[+] identifier[cmode] operator[SEP] identifier[pinfo] operator[SEP] identifier[opmode] operator[SEP] operator[SEP] identifier[ctilt] operator[=] identifier[pname_lookup] operator[SEP] Other[134] , identifier[prod_elevation] operator[/] Other[10] operator[SEP] operator[SEP] identifier[ctitle] operator[=] literal[String] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] identifier[summary] operator[=] identifier[ctilt] operator[+] literal[String] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[DigitalHybridReflect] operator[SEP] { identifier[radial] operator[=] Other[1] operator[SEP] identifier[prod_elevation] operator[=] identifier[pinfo] operator[SEP] identifier[p3] operator[SEP] identifier[cmemo] operator[=] literal[String] operator[+] identifier[prod_elevation] operator[/] Other[10] operator[+] literal[String] operator[+] identifier[cmode] operator[SEP] identifier[pinfo] operator[SEP] identifier[opmode] operator[SEP] operator[SEP] identifier[ctilt] operator[=] identifier[pname_lookup] operator[SEP] Other[19] , identifier[prod_elevation] operator[/] Other[10] operator[SEP] operator[SEP] identifier[ctitle] operator[=] literal[String] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] identifier[summary] operator[=] identifier[ctilt] operator[+] literal[String] operator[+] operator[SEP] identifier[prod_elevation] operator[/] Other[10] operator[+] Other[1] operator[SEP] operator[+] literal[String] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[Base_Reflect] operator[||] identifier[prod_type] operator[==] identifier[Reflect1] operator[SEP] { identifier[radial] operator[=] Other[1] operator[SEP] identifier[prod_elevation] operator[=] identifier[pinfo] operator[SEP] identifier[p3] operator[SEP] identifier[cmemo] operator[=] literal[String] operator[+] identifier[prod_elevation] operator[/] Other[10] operator[+] literal[String] operator[+] identifier[cmode] operator[SEP] identifier[pinfo] operator[SEP] identifier[opmode] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[Reflect1] operator[SEP] { identifier[ctilt] operator[=] literal[String] operator[+] identifier[prod_elevation] operator[/] Other[10] operator[SEP] identifier[summary] operator[=] identifier[ctilt] operator[+] literal[String] operator[+] operator[SEP] identifier[prod_elevation] operator[/] Other[10] operator[+] Other[1] operator[SEP] operator[SEP] } Keyword[else] { identifier[ctilt] operator[=] identifier[pname_lookup] operator[SEP] Other[19] , identifier[prod_elevation] operator[/] Other[10] operator[SEP] operator[SEP] identifier[summary] operator[=] identifier[ctilt] operator[+] literal[String] operator[+] operator[SEP] identifier[prod_elevation] operator[/] Other[10] operator[+] Other[1] operator[SEP] operator[+] literal[String] operator[SEP] } identifier[ctitle] operator[=] literal[String] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[BaseReflect248] operator[SEP] { identifier[radial] operator[=] Other[1] operator[SEP] identifier[prod_elevation] operator[=] identifier[pinfo] operator[SEP] identifier[p3] operator[SEP] identifier[cmemo] operator[=] literal[String] operator[+] identifier[prod_elevation] operator[/] Other[10] operator[+] literal[String] operator[+] identifier[cmode] operator[SEP] identifier[pinfo] operator[SEP] identifier[opmode] operator[SEP] operator[SEP] identifier[ctilt] operator[=] identifier[pname_lookup] operator[SEP] Other[20] , identifier[prod_elevation] operator[/] Other[10] operator[SEP] operator[SEP] identifier[ctitle] operator[=] literal[String] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] identifier[summary] operator[=] identifier[ctilt] operator[+] literal[String] operator[+] operator[SEP] identifier[prod_elevation] operator[/] Other[10] operator[+] Other[1] operator[SEP] operator[+] literal[String] operator[SEP] identifier[t1] operator[=] literal[Float] operator[*] literal[Float] operator[/] literal[Float] operator[SEP] identifier[t2] operator[=] Other[460] operator[/] operator[SEP] literal[Float] operator[*] identifier[Math] operator[SEP] identifier[cos] operator[SEP] identifier[Math] operator[SEP] identifier[toRadians] operator[SEP] identifier[latitude] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[lat_min] operator[=] identifier[latitude] operator[-] identifier[t1] operator[SEP] identifier[lat_max] operator[=] identifier[latitude] operator[+] identifier[t1] operator[SEP] identifier[lon_min] operator[=] identifier[longitude] operator[+] identifier[t2] operator[SEP] identifier[lon_max] operator[=] identifier[longitude] operator[-] identifier[t2] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[Comp_Reflect] operator[SEP] { identifier[radial] operator[=] Other[3] operator[SEP] identifier[prod_elevation] operator[=] operator[-] Other[1] operator[SEP] identifier[ctilt] operator[=] identifier[pname_lookup] operator[SEP] identifier[pinfo] operator[SEP] identifier[pcode] , identifier[elevationNumber] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[pinfo] operator[SEP] identifier[pcode] operator[==] Other[36] operator[||] identifier[pinfo] operator[SEP] identifier[pcode] operator[==] Other[38] operator[SEP] { identifier[t1] operator[=] identifier[t1] operator[*] Other[2] operator[SEP] identifier[t2] operator[=] identifier[t2] operator[*] Other[2] operator[SEP] identifier[lat_min] operator[=] identifier[latitude] operator[-] identifier[t1] operator[SEP] identifier[lat_max] operator[=] identifier[latitude] operator[+] identifier[t1] operator[SEP] identifier[lon_min] operator[=] identifier[longitude] operator[+] identifier[t2] operator[SEP] identifier[lon_max] operator[=] identifier[longitude] operator[-] identifier[t2] operator[SEP] } identifier[summary] operator[=] identifier[ctilt] operator[+] literal[String] operator[SEP] identifier[cmemo] operator[=] literal[String] operator[+] identifier[cmode] operator[SEP] identifier[pinfo] operator[SEP] identifier[opmode] operator[SEP] operator[SEP] identifier[ctitle] operator[=] literal[String] operator[+] identifier[ctilt] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[Layer_Reflect_Avg] operator[||] identifier[prod_type] operator[==] identifier[Layer_Reflect_Max] operator[SEP] { identifier[radial] operator[=] Other[3] operator[SEP] identifier[prod_elevation] operator[=] identifier[pinfo] operator[SEP] identifier[p5] operator[SEP] identifier[prod_top] operator[=] identifier[pinfo] operator[SEP] identifier[p6] operator[SEP] identifier[ctilt] operator[=] identifier[pname_lookup] operator[SEP] identifier[pcode] , Other[0] operator[SEP] operator[SEP] identifier[summary] operator[=] identifier[ctilt] operator[+] literal[String] operator[SEP] identifier[cmemo] operator[=] literal[String] operator[+] identifier[prod_elevation] operator[+] literal[String] operator[+] identifier[prod_top] operator[+] identifier[cmode] operator[SEP] identifier[pinfo] operator[SEP] identifier[opmode] operator[SEP] operator[SEP] identifier[t1] operator[=] identifier[t1] operator[*] Other[4] operator[SEP] identifier[t2] operator[=] identifier[t2] operator[*] Other[4] operator[SEP] identifier[lat_min] operator[=] identifier[latitude] operator[-] identifier[t1] operator[SEP] identifier[lat_max] operator[=] identifier[latitude] operator[+] identifier[t1] operator[SEP] identifier[lon_min] operator[=] identifier[longitude] operator[+] identifier[t2] operator[SEP] identifier[lon_max] operator[=] identifier[longitude] operator[-] identifier[t2] operator[SEP] identifier[ctitle] operator[=] literal[String] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[EnhancedEcho_Tops] operator[SEP] { identifier[radial] operator[=] Other[1] operator[SEP] identifier[prod_elevation] operator[=] operator[-] Other[1] operator[SEP] identifier[summary] operator[=] literal[String] operator[SEP] identifier[cmemo] operator[=] literal[String] operator[+] identifier[cmode] operator[SEP] identifier[pinfo] operator[SEP] identifier[opmode] operator[SEP] operator[SEP] identifier[ctilt] operator[=] identifier[pname_lookup] operator[SEP] Other[135] , identifier[elevationNumber] operator[SEP] operator[SEP] identifier[ctitle] operator[=] literal[String] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] identifier[t1] operator[=] identifier[t1] operator[*] Other[4] operator[SEP] identifier[t2] operator[=] identifier[t2] operator[*] Other[4] operator[SEP] identifier[lat_min] operator[=] identifier[latitude] operator[-] identifier[t1] operator[SEP] identifier[lat_max] operator[=] identifier[latitude] operator[+] identifier[t1] operator[SEP] identifier[lon_min] operator[=] identifier[longitude] operator[+] identifier[t2] operator[SEP] identifier[lon_max] operator[=] identifier[longitude] operator[-] identifier[t2] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[Echo_Tops] operator[SEP] { identifier[radial] operator[=] Other[3] operator[SEP] identifier[prod_elevation] operator[=] operator[-] Other[1] operator[SEP] identifier[summary] operator[=] literal[String] operator[SEP] identifier[cmemo] operator[=] literal[String] operator[+] identifier[cmode] operator[SEP] identifier[pinfo] operator[SEP] identifier[opmode] operator[SEP] operator[SEP] identifier[ctilt] operator[=] identifier[pname_lookup] operator[SEP] Other[41] , identifier[elevationNumber] operator[SEP] operator[SEP] identifier[ctitle] operator[=] literal[String] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] identifier[t1] operator[=] identifier[t1] operator[*] Other[4] operator[SEP] identifier[t2] operator[=] identifier[t2] operator[*] Other[4] operator[SEP] identifier[lat_min] operator[=] identifier[latitude] operator[-] identifier[t1] operator[SEP] identifier[lat_max] operator[=] identifier[latitude] operator[+] identifier[t1] operator[SEP] identifier[lon_min] operator[=] identifier[longitude] operator[+] identifier[t2] operator[SEP] identifier[lon_max] operator[=] identifier[longitude] operator[-] identifier[t2] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[Precip_1] operator[SEP] { identifier[radial] operator[=] Other[1] operator[SEP] identifier[prod_elevation] operator[=] operator[-] Other[1] operator[SEP] identifier[prod_max] operator[/=] Other[10] operator[SEP] identifier[endDate] operator[=] identifier[getDate] operator[SEP] identifier[pinfo] operator[SEP] identifier[p7] , identifier[pinfo] operator[SEP] identifier[p8] operator[*] Other[60] operator[*] Other[1000] operator[SEP] operator[SEP] identifier[summary] operator[=] literal[String] operator[SEP] identifier[cmemo] operator[=] literal[String] operator[+] identifier[cmode] operator[SEP] identifier[pinfo] operator[SEP] identifier[opmode] operator[SEP] operator[SEP] identifier[ctilt] operator[=] identifier[pname_lookup] operator[SEP] Other[78] , identifier[elevationNumber] operator[SEP] operator[SEP] identifier[ctitle] operator[=] literal[String] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] identifier[t1] operator[=] identifier[t1] operator[*] Other[2] operator[SEP] identifier[t2] operator[=] identifier[t2] operator[*] Other[2] operator[SEP] identifier[lat_min] operator[=] identifier[latitude] operator[-] identifier[t1] operator[SEP] identifier[lat_max] operator[=] identifier[latitude] operator[+] identifier[t1] operator[SEP] identifier[lon_min] operator[=] identifier[longitude] operator[+] identifier[t2] operator[SEP] identifier[lon_max] operator[=] identifier[longitude] operator[-] identifier[t2] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[Precip_3] operator[SEP] { identifier[radial] operator[=] Other[1] operator[SEP] identifier[prod_elevation] operator[=] operator[-] Other[1] operator[SEP] identifier[prod_max] operator[/=] Other[10] operator[SEP] identifier[endDate] operator[=] identifier[getDate] operator[SEP] identifier[pinfo] operator[SEP] identifier[p7] , identifier[pinfo] operator[SEP] identifier[p8] operator[*] Other[60] operator[*] Other[1000] operator[SEP] operator[SEP] identifier[summary] operator[=] literal[String] operator[SEP] identifier[cmemo] operator[=] literal[String] operator[+] identifier[cmode] operator[SEP] identifier[pinfo] operator[SEP] identifier[opmode] operator[SEP] operator[SEP] identifier[ctilt] operator[=] identifier[pname_lookup] operator[SEP] Other[79] , identifier[elevationNumber] operator[SEP] operator[SEP] identifier[ctitle] operator[=] literal[String] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] identifier[t1] operator[=] identifier[t1] operator[*] Other[2] operator[SEP] identifier[t2] operator[=] identifier[t2] operator[*] Other[2] operator[SEP] identifier[lat_min] operator[=] identifier[latitude] operator[-] identifier[t1] operator[SEP] identifier[lat_max] operator[=] identifier[latitude] operator[+] identifier[t1] operator[SEP] identifier[lon_min] operator[=] identifier[longitude] operator[+] identifier[t2] operator[SEP] identifier[lon_max] operator[=] identifier[longitude] operator[-] identifier[t2] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[DigitalStormTotalPrecip] operator[SEP] { identifier[radial] operator[=] Other[1] operator[SEP] identifier[prod_elevation] operator[=] operator[-] Other[1] operator[SEP] identifier[endDate] operator[=] identifier[getDate] operator[SEP] identifier[pinfo] operator[SEP] identifier[p7] , identifier[pinfo] operator[SEP] identifier[p8] operator[*] Other[60] operator[*] Other[1000] operator[SEP] operator[SEP] identifier[summary] operator[=] literal[String] operator[SEP] identifier[cmemo] operator[=] literal[String] operator[+] identifier[cmode] operator[SEP] identifier[pinfo] operator[SEP] identifier[opmode] operator[SEP] operator[SEP] identifier[ctilt] operator[=] identifier[pname_lookup] operator[SEP] Other[80] , identifier[elevationNumber] operator[SEP] operator[SEP] identifier[ctitle] operator[=] literal[String] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] identifier[t1] operator[=] identifier[t1] operator[*] Other[2] operator[SEP] identifier[t2] operator[=] identifier[t2] operator[*] Other[2] operator[SEP] identifier[lat_min] operator[=] identifier[latitude] operator[-] identifier[t1] operator[SEP] identifier[lat_max] operator[=] identifier[latitude] operator[+] identifier[t1] operator[SEP] identifier[lon_min] operator[=] identifier[longitude] operator[+] identifier[t2] operator[SEP] identifier[lon_max] operator[=] identifier[longitude] operator[-] identifier[t2] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[Precip_Accum] operator[SEP] { identifier[radial] operator[=] Other[1] operator[SEP] identifier[prod_elevation] operator[=] operator[-] Other[1] operator[SEP] identifier[endDate] operator[=] identifier[getDate] operator[SEP] identifier[pinfo] operator[SEP] identifier[p7] , identifier[pinfo] operator[SEP] identifier[p8] operator[*] Other[60] operator[*] Other[1000] operator[SEP] operator[SEP] identifier[summary] operator[=] literal[String] operator[SEP] identifier[cmemo] operator[=] literal[String] operator[+] identifier[cmode] operator[SEP] identifier[pinfo] operator[SEP] identifier[opmode] operator[SEP] operator[SEP] identifier[ctilt] operator[=] identifier[pname_lookup] operator[SEP] Other[80] , identifier[elevationNumber] operator[SEP] operator[SEP] identifier[ctitle] operator[=] literal[String] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] identifier[t1] operator[=] identifier[t1] operator[*] Other[2] operator[SEP] identifier[t2] operator[=] identifier[t2] operator[*] Other[2] operator[SEP] identifier[lat_min] operator[=] identifier[latitude] operator[-] identifier[t1] operator[SEP] identifier[lat_max] operator[=] identifier[latitude] operator[+] identifier[t1] operator[SEP] identifier[lon_min] operator[=] identifier[longitude] operator[+] identifier[t2] operator[SEP] identifier[lon_max] operator[=] identifier[longitude] operator[-] identifier[t2] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[Precip_Array] operator[SEP] { identifier[radial] operator[=] Other[3] operator[SEP] identifier[prod_elevation] operator[=] operator[-] Other[1] operator[SEP] identifier[summary] operator[=] literal[String] operator[SEP] identifier[endDate] operator[=] identifier[getDate] operator[SEP] identifier[pinfo] operator[SEP] identifier[p7] , identifier[pinfo] operator[SEP] identifier[p8] operator[*] Other[60] operator[*] Other[1000] operator[SEP] operator[SEP] identifier[cmemo] operator[=] literal[String] operator[+] identifier[cmode] operator[SEP] identifier[pinfo] operator[SEP] identifier[opmode] operator[SEP] operator[SEP] identifier[ctilt] operator[=] identifier[pname_lookup] operator[SEP] Other[81] , identifier[elevationNumber] operator[SEP] operator[SEP] identifier[ctitle] operator[=] literal[String] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[Vert_Liquid] operator[SEP] { identifier[radial] operator[=] Other[3] operator[SEP] identifier[prod_elevation] operator[=] operator[-] Other[1] operator[SEP] identifier[summary] operator[=] literal[String] operator[SEP] identifier[cmemo] operator[=] literal[String] operator[+] identifier[cmode] operator[SEP] identifier[pinfo] operator[SEP] identifier[opmode] operator[SEP] operator[SEP] identifier[ctilt] operator[=] identifier[pname_lookup] operator[SEP] Other[57] , identifier[elevationNumber] operator[SEP] operator[SEP] identifier[ctitle] operator[=] literal[String] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] identifier[t1] operator[=] identifier[t1] operator[*] Other[4] operator[SEP] identifier[t2] operator[=] identifier[t2] operator[*] Other[4] operator[SEP] identifier[lat_min] operator[=] identifier[latitude] operator[-] identifier[t1] operator[SEP] identifier[lat_max] operator[=] identifier[latitude] operator[+] identifier[t1] operator[SEP] identifier[lon_min] operator[=] identifier[longitude] operator[+] identifier[t2] operator[SEP] identifier[lon_max] operator[=] identifier[longitude] operator[-] identifier[t2] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[Velocity] operator[||] identifier[prod_type] operator[==] identifier[Velocity1] operator[SEP] { identifier[radial] operator[=] Other[1] operator[SEP] identifier[prod_elevation] operator[=] identifier[pinfo] operator[SEP] identifier[p3] operator[SEP] identifier[prod_min] operator[=] identifier[pinfo] operator[SEP] identifier[p4] operator[SEP] identifier[prod_max] operator[=] identifier[pinfo] operator[SEP] identifier[p5] operator[SEP] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[Velocity] operator[SEP] { identifier[ctilt] operator[=] identifier[pname_lookup] operator[SEP] identifier[pinfo] operator[SEP] identifier[pcode] , identifier[prod_elevation] operator[/] Other[10] operator[SEP] operator[SEP] } Keyword[else] { identifier[ctilt] operator[=] literal[String] operator[+] identifier[prod_elevation] operator[/] Other[10] operator[SEP] } Keyword[if] operator[SEP] identifier[pinfo] operator[SEP] identifier[pcode] operator[==] Other[25] operator[SEP] { identifier[t1] operator[=] literal[Float] operator[*] literal[Float] operator[/] literal[Float] operator[SEP] identifier[t2] operator[=] Other[64] operator[/] operator[SEP] literal[Float] operator[*] identifier[Math] operator[SEP] identifier[cos] operator[SEP] identifier[Math] operator[SEP] identifier[toRadians] operator[SEP] identifier[latitude] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[lat_min] operator[=] identifier[latitude] operator[-] identifier[t1] operator[SEP] identifier[lat_max] operator[=] identifier[latitude] operator[+] identifier[t1] operator[SEP] identifier[lon_min] operator[=] identifier[longitude] operator[+] identifier[t2] operator[SEP] identifier[lon_max] operator[=] identifier[longitude] operator[-] identifier[t2] operator[SEP] identifier[summary] operator[=] identifier[ctilt] operator[+] literal[String] operator[+] operator[SEP] identifier[prod_elevation] operator[/] Other[10] operator[+] Other[1] operator[SEP] operator[+] literal[String] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] } Keyword[else] { identifier[summary] operator[=] identifier[ctilt] operator[+] literal[String] operator[+] operator[SEP] identifier[prod_elevation] operator[/] Other[10] operator[+] Other[1] operator[SEP] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] } identifier[cmemo] operator[=] literal[String] operator[+] identifier[prod_elevation] operator[/] literal[Float] operator[+] literal[String] operator[+] identifier[cmode] operator[SEP] identifier[pinfo] operator[SEP] identifier[opmode] operator[SEP] operator[SEP] identifier[ctitle] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[StrmRelMeanVel] operator[SEP] { identifier[radial] operator[=] Other[1] operator[SEP] identifier[prod_elevation] operator[=] identifier[pinfo] operator[SEP] identifier[p3] operator[SEP] identifier[prod_min] operator[=] identifier[pinfo] operator[SEP] identifier[p4] operator[SEP] identifier[prod_max] operator[=] identifier[pinfo] operator[SEP] identifier[p5] operator[SEP] identifier[ctilt] operator[=] identifier[pname_lookup] operator[SEP] Other[56] , identifier[prod_elevation] operator[/] Other[10] operator[SEP] operator[SEP] identifier[summary] operator[=] identifier[ctilt] operator[+] literal[String] operator[+] operator[SEP] identifier[prod_elevation] operator[/] Other[10] operator[+] Other[1] operator[SEP] operator[+] literal[String] operator[SEP] identifier[cmemo] operator[=] literal[String] operator[+] identifier[prod_elevation] operator[/] literal[Float] operator[+] literal[String] operator[+] identifier[cmode] operator[SEP] identifier[pinfo] operator[SEP] identifier[opmode] operator[SEP] operator[SEP] identifier[ctitle] operator[=] literal[String] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] } Keyword[else] Keyword[if] operator[SEP] identifier[prod_type] operator[==] identifier[VAD] operator[SEP] { identifier[radial] operator[=] Other[0] operator[SEP] identifier[prod_elevation] operator[=] identifier[pinfo] operator[SEP] identifier[p3] operator[SEP] identifier[prod_min] operator[=] identifier[pinfo] operator[SEP] identifier[p4] operator[SEP] identifier[prod_max] operator[=] identifier[pinfo] operator[SEP] identifier[p5] operator[SEP] identifier[summary] operator[=] literal[String] operator[SEP] identifier[cmemo] operator[=] literal[String] operator[+] identifier[prod_elevation] operator[/] literal[Float] operator[+] literal[String] operator[+] identifier[cmode] operator[SEP] identifier[pinfo] operator[SEP] identifier[opmode] operator[SEP] operator[SEP] identifier[ctilt] operator[=] identifier[pname_lookup] operator[SEP] Other[48] , identifier[elevationNumber] operator[SEP] operator[SEP] identifier[ctitle] operator[=] literal[String] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] identifier[lat_min] operator[=] identifier[latitude] operator[SEP] identifier[lat_max] operator[=] identifier[latitude] operator[SEP] identifier[lon_min] operator[=] identifier[longitude] operator[SEP] identifier[lon_max] operator[=] identifier[longitude] operator[SEP] } Keyword[else] { identifier[ctilt] operator[=] literal[String] operator[SEP] identifier[ctitle] operator[=] literal[String] operator[SEP] identifier[cunit] operator[=] literal[String] operator[SEP] identifier[cname] operator[=] literal[String] operator[SEP] } identifier[ncfile] operator[SEP] identifier[addAttribute] operator[SEP] Other[null] , Keyword[new] identifier[Attribute] operator[SEP] literal[String] , literal[String] operator[+] identifier[summary] operator[SEP] operator[SEP] operator[SEP] identifier[ncfile] operator[SEP] identifier[addAttribute] operator[SEP] Other[null] , Keyword[new] identifier[Attribute] operator[SEP] literal[String] , identifier[ctilt] operator[SEP] operator[SEP] operator[SEP] identifier[ncfile] operator[SEP] identifier[addAttribute] operator[SEP] Other[null] , Keyword[new] identifier[Attribute] operator[SEP] literal[String] , identifier[_Coordinate] operator[SEP] identifier[Convention] operator[SEP] operator[SEP] operator[SEP] identifier[ncfile] operator[SEP] identifier[addAttribute] operator[SEP] Other[null] , Keyword[new] identifier[Attribute] operator[SEP] literal[String] , literal[String] operator[SEP] operator[SEP] operator[SEP] identifier[ncfile] operator[SEP] identifier[addAttribute] operator[SEP] Other[null] , Keyword[new] identifier[Attribute] operator[SEP] literal[String] , Keyword[new] identifier[Float] operator[SEP] identifier[lat_min] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[ncfile] operator[SEP] identifier[addAttribute] operator[SEP] Other[null] , Keyword[new] identifier[Attribute] operator[SEP] literal[String] , Keyword[new] identifier[Float] operator[SEP] identifier[lat_max] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[ncfile] operator[SEP] identifier[addAttribute] operator[SEP] Other[null] , Keyword[new] identifier[Attribute] operator[SEP] literal[String] , Keyword[new] identifier[Float] operator[SEP] identifier[lon_min] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[ncfile] operator[SEP] identifier[addAttribute] operator[SEP] Other[null] , Keyword[new] identifier[Attribute] operator[SEP] literal[String] , Keyword[new] identifier[Float] operator[SEP] identifier[lon_max] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[ncfile] operator[SEP] identifier[addAttribute] operator[SEP] Other[null] , Keyword[new] identifier[Attribute] operator[SEP] literal[String] , Keyword[new] identifier[Float] operator[SEP] identifier[height] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[ncfile] operator[SEP] identifier[addAttribute] operator[SEP] Other[null] , Keyword[new] identifier[Attribute] operator[SEP] literal[String] , Keyword[new] identifier[Float] operator[SEP] identifier[height] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[ncfile] operator[SEP] identifier[addAttribute] operator[SEP] Other[null] , Keyword[new] identifier[Attribute] operator[SEP] literal[String] , Keyword[new] identifier[Integer] operator[SEP] identifier[prod_elevation] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[dstring] operator[=] identifier[formatter] operator[SEP] identifier[toDateTimeStringISO] operator[SEP] identifier[startDate] operator[SEP] operator[SEP] identifier[ncfile] operator[SEP] identifier[addAttribute] operator[SEP] Other[null] , Keyword[new] identifier[Attribute] operator[SEP] literal[String] , identifier[dstring] operator[SEP] operator[SEP] operator[SEP] identifier[dstring] operator[=] identifier[formatter] operator[SEP] identifier[toDateTimeStringISO] operator[SEP] identifier[endDate] operator[SEP] operator[SEP] identifier[ncfile] operator[SEP] identifier[addAttribute] operator[SEP] Other[null] , Keyword[new] identifier[Attribute] operator[SEP] literal[String] , identifier[dstring] operator[SEP] operator[SEP] operator[SEP] identifier[ncfile] operator[SEP] identifier[addAttribute] operator[SEP] Other[null] , Keyword[new] identifier[Attribute] operator[SEP] literal[String] , Keyword[new] identifier[Float] operator[SEP] identifier[prod_min] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[ncfile] operator[SEP] identifier[addAttribute] operator[SEP] Other[null] , Keyword[new] identifier[Attribute] operator[SEP] literal[String] , Keyword[new] identifier[Float] operator[SEP] identifier[prod_max] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[ncfile] operator[SEP] identifier[addAttribute] operator[SEP] Other[null] , Keyword[new] identifier[Attribute] operator[SEP] literal[String] , Keyword[new] identifier[Integer] operator[SEP] identifier[radial] operator[SEP] operator[SEP] operator[SEP] operator[SEP] }
@SuppressWarnings("rawtypes") public SortedMap<String, Gauge> getGauges(MetricFilter filter) { return getMetrics(Gauge.class, filter); }
class class_name[name] begin[{] method[getGauges, return_type[type[SortedMap]], modifier[public], parameter[filter]] begin[{] return[call[.getMetrics, parameter[ClassReference(postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Gauge, sub_type=None)), member[.filter]]]] end[}] END[}]
annotation[@] identifier[SuppressWarnings] operator[SEP] literal[String] operator[SEP] Keyword[public] identifier[SortedMap] operator[<] identifier[String] , identifier[Gauge] operator[>] identifier[getGauges] operator[SEP] identifier[MetricFilter] identifier[filter] operator[SEP] { Keyword[return] identifier[getMetrics] operator[SEP] identifier[Gauge] operator[SEP] Keyword[class] , identifier[filter] operator[SEP] operator[SEP] }
public void merge (Model target, Model... sources) { // Empty merged and added elements sets mergedElements.clear(); addedElements.clear(); // Fill equivalence map with objects from target model Set<BioPAXElement> targetElements = target.getObjects(); for (BioPAXElement t_bpe : targetElements) { this.addIntoEquivalanceMap(t_bpe); } // Try to insert every biopax element in every source one by one for (Model source : sources) { Set<BioPAXElement> sourceElements = source.getObjects(); for (BioPAXElement bpe : sourceElements) { insert(target, bpe); } } }
class class_name[name] begin[{] method[merge, return_type[void], modifier[public], parameter[target, sources]] begin[{] call[mergedElements.clear, parameter[]] call[addedElements.clear, parameter[]] local_variable[type[Set], targetElements] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MethodInvocation(arguments=[MemberReference(member=t_bpe, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=addIntoEquivalanceMap, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), label=None)]), control=EnhancedForControl(iterable=MemberReference(member=targetElements, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=t_bpe)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=BioPAXElement, sub_type=None))), label=None) ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=getObjects, postfix_operators=[], prefix_operators=[], qualifier=source, selectors=[], type_arguments=None), name=sourceElements)], modifiers=set(), type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=BioPAXElement, sub_type=None))], dimensions=[], name=Set, sub_type=None)), ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=target, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=bpe, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=insert, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MemberReference(member=sourceElements, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=bpe)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=BioPAXElement, sub_type=None))), label=None)]), control=EnhancedForControl(iterable=MemberReference(member=sources, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=source)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Model, sub_type=None))), label=None) end[}] END[}]
Keyword[public] Keyword[void] identifier[merge] operator[SEP] identifier[Model] identifier[target] , identifier[Model] operator[...] identifier[sources] operator[SEP] { identifier[mergedElements] operator[SEP] identifier[clear] operator[SEP] operator[SEP] operator[SEP] identifier[addedElements] operator[SEP] identifier[clear] operator[SEP] operator[SEP] operator[SEP] identifier[Set] operator[<] identifier[BioPAXElement] operator[>] identifier[targetElements] operator[=] identifier[target] operator[SEP] identifier[getObjects] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] identifier[BioPAXElement] identifier[t_bpe] operator[:] identifier[targetElements] operator[SEP] { Keyword[this] operator[SEP] identifier[addIntoEquivalanceMap] operator[SEP] identifier[t_bpe] operator[SEP] operator[SEP] } Keyword[for] operator[SEP] identifier[Model] identifier[source] operator[:] identifier[sources] operator[SEP] { identifier[Set] operator[<] identifier[BioPAXElement] operator[>] identifier[sourceElements] operator[=] identifier[source] operator[SEP] identifier[getObjects] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] identifier[BioPAXElement] identifier[bpe] operator[:] identifier[sourceElements] operator[SEP] { identifier[insert] operator[SEP] identifier[target] , identifier[bpe] operator[SEP] operator[SEP] } } }
@Override public void removeByUuid_C(String uuid, long companyId) { for (CPDefinitionVirtualSetting cpDefinitionVirtualSetting : findByUuid_C( uuid, companyId, QueryUtil.ALL_POS, QueryUtil.ALL_POS, null)) { remove(cpDefinitionVirtualSetting); } }
class class_name[name] begin[{] method[removeByUuid_C, return_type[void], modifier[public], parameter[uuid, companyId]] begin[{] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=cpDefinitionVirtualSetting, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=remove, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MethodInvocation(arguments=[MemberReference(member=uuid, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=companyId, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=ALL_POS, postfix_operators=[], prefix_operators=[], qualifier=QueryUtil, selectors=[]), MemberReference(member=ALL_POS, postfix_operators=[], prefix_operators=[], qualifier=QueryUtil, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null)], member=findByUuid_C, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=cpDefinitionVirtualSetting)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=CPDefinitionVirtualSetting, sub_type=None))), label=None) end[}] END[}]
annotation[@] identifier[Override] Keyword[public] Keyword[void] identifier[removeByUuid_C] operator[SEP] identifier[String] identifier[uuid] , Keyword[long] identifier[companyId] operator[SEP] { Keyword[for] operator[SEP] identifier[CPDefinitionVirtualSetting] identifier[cpDefinitionVirtualSetting] operator[:] identifier[findByUuid_C] operator[SEP] identifier[uuid] , identifier[companyId] , identifier[QueryUtil] operator[SEP] identifier[ALL_POS] , identifier[QueryUtil] operator[SEP] identifier[ALL_POS] , Other[null] operator[SEP] operator[SEP] { identifier[remove] operator[SEP] identifier[cpDefinitionVirtualSetting] operator[SEP] operator[SEP] } }
static <T, ID> Dao<T, ID> createDao(ConnectionSource connectionSource, DatabaseTableConfig<T> tableConfig) throws SQLException { return new BaseDaoImpl<T, ID>(connectionSource, tableConfig) { }; }
class class_name[name] begin[{] method[createDao, return_type[type[Dao]], modifier[static], parameter[connectionSource, tableConfig]] begin[{] return[ClassCreator(arguments=[MemberReference(member=connectionSource, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=tableConfig, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=[], 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)), TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=ID, sub_type=None))], dimensions=None, name=BaseDaoImpl, sub_type=None))] end[}] END[}]
Keyword[static] operator[<] identifier[T] , identifier[ID] operator[>] identifier[Dao] operator[<] identifier[T] , identifier[ID] operator[>] identifier[createDao] operator[SEP] identifier[ConnectionSource] identifier[connectionSource] , identifier[DatabaseTableConfig] operator[<] identifier[T] operator[>] identifier[tableConfig] operator[SEP] Keyword[throws] identifier[SQLException] { Keyword[return] Keyword[new] identifier[BaseDaoImpl] operator[<] identifier[T] , identifier[ID] operator[>] operator[SEP] identifier[connectionSource] , identifier[tableConfig] operator[SEP] { } operator[SEP] }
public Vector3d mul(double x, double y, double z) { return mul(x, y, z, thisOrNew()); }
class class_name[name] begin[{] method[mul, return_type[type[Vector3d]], modifier[public], parameter[x, y, z]] begin[{] return[call[.mul, parameter[member[.x], member[.y], member[.z], call[.thisOrNew, parameter[]]]]] end[}] END[}]
Keyword[public] identifier[Vector3d] identifier[mul] operator[SEP] Keyword[double] identifier[x] , Keyword[double] identifier[y] , Keyword[double] identifier[z] operator[SEP] { Keyword[return] identifier[mul] operator[SEP] identifier[x] , identifier[y] , identifier[z] , identifier[thisOrNew] operator[SEP] operator[SEP] operator[SEP] operator[SEP] }
private static boolean isQnameDeclarationWithoutAssignment(@Nullable Node node) { return node != null && node.isGetProp() && node.getParent().isExprResult(); }
class class_name[name] begin[{] method[isQnameDeclarationWithoutAssignment, return_type[type[boolean]], modifier[private static], parameter[node]] begin[{] return[binary_operation[binary_operation[binary_operation[member[.node], !=, literal[null]], &&, call[node.isGetProp, parameter[]]], &&, call[node.getParent, parameter[]]]] end[}] END[}]
Keyword[private] Keyword[static] Keyword[boolean] identifier[isQnameDeclarationWithoutAssignment] operator[SEP] annotation[@] identifier[Nullable] identifier[Node] identifier[node] operator[SEP] { Keyword[return] identifier[node] operator[!=] Other[null] operator[&&] identifier[node] operator[SEP] identifier[isGetProp] operator[SEP] operator[SEP] operator[&&] identifier[node] operator[SEP] identifier[getParent] operator[SEP] operator[SEP] operator[SEP] identifier[isExprResult] operator[SEP] operator[SEP] operator[SEP] }
public byte[] read() throws IOException { Closer closer = Closer.create(); try { InputStream in = closer.register(openStream()); Optional<Long> size = sizeIfKnown(); return size.isPresent() ? ByteStreams.toByteArray(in, size.get()) : ByteStreams.toByteArray(in); } catch (Throwable e) { throw closer.rethrow(e); } finally { closer.close(); } }
class class_name[name] begin[{] method[read, return_type[type[byte]], modifier[public], parameter[]] begin[{] local_variable[type[Closer], closer] TryStatement(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=openStream, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)], member=register, postfix_operators=[], prefix_operators=[], qualifier=closer, selectors=[], type_arguments=None), name=in)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=InputStream, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=sizeIfKnown, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), name=size)], modifiers=set(), type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=Long, sub_type=None))], dimensions=[], name=Optional, sub_type=None)), ReturnStatement(expression=TernaryExpression(condition=MethodInvocation(arguments=[], member=isPresent, postfix_operators=[], prefix_operators=[], qualifier=size, selectors=[], type_arguments=None), if_false=MethodInvocation(arguments=[MemberReference(member=in, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=toByteArray, postfix_operators=[], prefix_operators=[], qualifier=ByteStreams, selectors=[], type_arguments=None), if_true=MethodInvocation(arguments=[MemberReference(member=in, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MethodInvocation(arguments=[], member=get, postfix_operators=[], prefix_operators=[], qualifier=size, selectors=[], type_arguments=None)], member=toByteArray, postfix_operators=[], prefix_operators=[], qualifier=ByteStreams, selectors=[], type_arguments=None)), label=None)], catches=[CatchClause(block=[ThrowStatement(expression=MethodInvocation(arguments=[MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=rethrow, postfix_operators=[], prefix_operators=[], qualifier=closer, selectors=[], type_arguments=None), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['Throwable']))], finally_block=[StatementExpression(expression=MethodInvocation(arguments=[], member=close, postfix_operators=[], prefix_operators=[], qualifier=closer, selectors=[], type_arguments=None), label=None)], label=None, resources=None) end[}] END[}]
Keyword[public] Keyword[byte] operator[SEP] operator[SEP] identifier[read] operator[SEP] operator[SEP] Keyword[throws] identifier[IOException] { identifier[Closer] identifier[closer] operator[=] identifier[Closer] operator[SEP] identifier[create] operator[SEP] operator[SEP] operator[SEP] Keyword[try] { identifier[InputStream] identifier[in] operator[=] identifier[closer] operator[SEP] identifier[register] operator[SEP] identifier[openStream] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[Optional] operator[<] identifier[Long] operator[>] identifier[size] operator[=] identifier[sizeIfKnown] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[size] operator[SEP] identifier[isPresent] operator[SEP] operator[SEP] operator[?] identifier[ByteStreams] operator[SEP] identifier[toByteArray] operator[SEP] identifier[in] , identifier[size] operator[SEP] identifier[get] operator[SEP] operator[SEP] operator[SEP] operator[:] identifier[ByteStreams] operator[SEP] identifier[toByteArray] operator[SEP] identifier[in] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[Throwable] identifier[e] operator[SEP] { Keyword[throw] identifier[closer] operator[SEP] identifier[rethrow] operator[SEP] identifier[e] operator[SEP] operator[SEP] } Keyword[finally] { identifier[closer] operator[SEP] identifier[close] operator[SEP] operator[SEP] operator[SEP] } }
public AssessmentRun withNotifications(AssessmentRunNotification... notifications) { if (this.notifications == null) { setNotifications(new java.util.ArrayList<AssessmentRunNotification>(notifications.length)); } for (AssessmentRunNotification ele : notifications) { this.notifications.add(ele); } return this; }
class class_name[name] begin[{] method[withNotifications, return_type[type[AssessmentRun]], modifier[public], parameter[notifications]] begin[{] if[binary_operation[THIS[member[None.notifications]], ==, literal[null]]] begin[{] call[.setNotifications, parameter[ClassCreator(arguments=[MemberReference(member=length, postfix_operators=[], prefix_operators=[], qualifier=notifications, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=java, sub_type=ReferenceType(arguments=None, dimensions=None, name=util, sub_type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=AssessmentRunNotification, sub_type=None))], dimensions=None, name=ArrayList, 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=notifications, 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=notifications, 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=AssessmentRunNotification, sub_type=None))), label=None) return[THIS[]] end[}] END[}]
Keyword[public] identifier[AssessmentRun] identifier[withNotifications] operator[SEP] identifier[AssessmentRunNotification] operator[...] identifier[notifications] operator[SEP] { Keyword[if] operator[SEP] Keyword[this] operator[SEP] identifier[notifications] operator[==] Other[null] operator[SEP] { identifier[setNotifications] operator[SEP] Keyword[new] identifier[java] operator[SEP] identifier[util] operator[SEP] identifier[ArrayList] operator[<] identifier[AssessmentRunNotification] operator[>] operator[SEP] identifier[notifications] operator[SEP] identifier[length] operator[SEP] operator[SEP] operator[SEP] } Keyword[for] operator[SEP] identifier[AssessmentRunNotification] identifier[ele] operator[:] identifier[notifications] operator[SEP] { Keyword[this] operator[SEP] identifier[notifications] operator[SEP] identifier[add] operator[SEP] identifier[ele] operator[SEP] operator[SEP] } Keyword[return] Keyword[this] operator[SEP] }
@Override public Object eGet(int featureID, boolean resolve, boolean coreType) { switch (featureID) { case AfplibPackage.DEVICE_APPEARANCE__DEV_APP: return getDevApp(); case AfplibPackage.DEVICE_APPEARANCE__RESERVED: return getReserved(); } return super.eGet(featureID, resolve, coreType); }
class class_name[name] begin[{] method[eGet, return_type[type[Object]], modifier[public], parameter[featureID, resolve, coreType]] begin[{] SwitchStatement(cases=[SwitchStatementCase(case=[MemberReference(member=DEVICE_APPEARANCE__DEV_APP, postfix_operators=[], prefix_operators=[], qualifier=AfplibPackage, selectors=[])], statements=[ReturnStatement(expression=MethodInvocation(arguments=[], member=getDevApp, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)]), SwitchStatementCase(case=[MemberReference(member=DEVICE_APPEARANCE__RESERVED, postfix_operators=[], prefix_operators=[], qualifier=AfplibPackage, selectors=[])], statements=[ReturnStatement(expression=MethodInvocation(arguments=[], member=getReserved, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)])], expression=MemberReference(member=featureID, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), label=None) return[SuperMethodInvocation(arguments=[MemberReference(member=featureID, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=resolve, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=coreType, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=eGet, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type_arguments=None)] end[}] END[}]
annotation[@] identifier[Override] Keyword[public] identifier[Object] identifier[eGet] operator[SEP] Keyword[int] identifier[featureID] , Keyword[boolean] identifier[resolve] , Keyword[boolean] identifier[coreType] operator[SEP] { Keyword[switch] operator[SEP] identifier[featureID] operator[SEP] { Keyword[case] identifier[AfplibPackage] operator[SEP] identifier[DEVICE_APPEARANCE__DEV_APP] operator[:] Keyword[return] identifier[getDevApp] operator[SEP] operator[SEP] operator[SEP] Keyword[case] identifier[AfplibPackage] operator[SEP] identifier[DEVICE_APPEARANCE__RESERVED] operator[:] Keyword[return] identifier[getReserved] operator[SEP] operator[SEP] operator[SEP] } Keyword[return] Keyword[super] operator[SEP] identifier[eGet] operator[SEP] identifier[featureID] , identifier[resolve] , identifier[coreType] operator[SEP] operator[SEP] }
private <E> List<E> provide(TypeLiteral<Set<E>> type) { List<E> collection; try { Set<E> retrieved = injector.getInstance(Key.get(type)); collection = retrieved.stream().filter(Objects::nonNull).collect(toList()); if (collection.isEmpty()) { throw new ConfigurationException(new ArrayList<>()); } } catch (ConfigurationException ce) { log.info(() -> "There is no registered instance of the type: "); collection = new ArrayList<>(); } return collection; }
class class_name[name] begin[{] method[provide, return_type[type[List]], modifier[private], parameter[type]] begin[{] local_variable[type[List], collection] TryStatement(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MethodInvocation(arguments=[MemberReference(member=type, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=get, postfix_operators=[], prefix_operators=[], qualifier=Key, selectors=[], type_arguments=None)], member=getInstance, postfix_operators=[], prefix_operators=[], qualifier=injector, selectors=[], type_arguments=None), name=retrieved)], modifiers=set(), type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=E, sub_type=None))], dimensions=[], name=Set, sub_type=None)), StatementExpression(expression=Assignment(expressionl=MemberReference(member=collection, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=stream, postfix_operators=[], prefix_operators=[], qualifier=retrieved, selectors=[MethodInvocation(arguments=[MethodReference(expression=MemberReference(member=Objects, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), method=MemberReference(member=nonNull, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type_arguments=[])], member=filter, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[MethodInvocation(arguments=[], member=toList, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)], member=collect, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None)), label=None), IfStatement(condition=MethodInvocation(arguments=[], member=isEmpty, postfix_operators=[], prefix_operators=[], qualifier=collection, selectors=[], type_arguments=None), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[ThrowStatement(expression=ClassCreator(arguments=[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))], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=ConfigurationException, sub_type=None)), label=None)]))], catches=[CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[LambdaExpression(body=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="There is no registered instance of the type: "), parameters=[])], member=info, postfix_operators=[], prefix_operators=[], qualifier=log, selectors=[], type_arguments=None), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=collection, 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=[], dimensions=None, name=ArrayList, sub_type=None))), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=ce, types=['ConfigurationException']))], finally_block=None, label=None, resources=None) return[member[.collection]] end[}] END[}]
Keyword[private] operator[<] identifier[E] operator[>] identifier[List] operator[<] identifier[E] operator[>] identifier[provide] operator[SEP] identifier[TypeLiteral] operator[<] identifier[Set] operator[<] identifier[E] operator[>] operator[>] identifier[type] operator[SEP] { identifier[List] operator[<] identifier[E] operator[>] identifier[collection] operator[SEP] Keyword[try] { identifier[Set] operator[<] identifier[E] operator[>] identifier[retrieved] operator[=] identifier[injector] operator[SEP] identifier[getInstance] operator[SEP] identifier[Key] operator[SEP] identifier[get] operator[SEP] identifier[type] operator[SEP] operator[SEP] operator[SEP] identifier[collection] operator[=] identifier[retrieved] operator[SEP] identifier[stream] operator[SEP] operator[SEP] operator[SEP] identifier[filter] operator[SEP] identifier[Objects] operator[::] identifier[nonNull] operator[SEP] operator[SEP] identifier[collect] operator[SEP] identifier[toList] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[collection] operator[SEP] identifier[isEmpty] operator[SEP] operator[SEP] operator[SEP] { Keyword[throw] Keyword[new] identifier[ConfigurationException] operator[SEP] Keyword[new] identifier[ArrayList] operator[<] operator[>] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } } Keyword[catch] operator[SEP] identifier[ConfigurationException] identifier[ce] operator[SEP] { identifier[log] operator[SEP] identifier[info] operator[SEP] operator[SEP] operator[SEP] operator[->] literal[String] operator[SEP] operator[SEP] identifier[collection] operator[=] Keyword[new] identifier[ArrayList] operator[<] operator[>] operator[SEP] operator[SEP] operator[SEP] } Keyword[return] identifier[collection] operator[SEP] }
public int getInt(String category, String key) { String value = this.getProperty(category, key).toLowerCase().trim(); return Integer.parseInt(value); }
class class_name[name] begin[{] method[getInt, return_type[type[int]], modifier[public], parameter[category, key]] begin[{] local_variable[type[String], value] return[call[Integer.parseInt, parameter[member[.value]]]] end[}] END[}]
Keyword[public] Keyword[int] identifier[getInt] operator[SEP] identifier[String] identifier[category] , identifier[String] identifier[key] operator[SEP] { identifier[String] identifier[value] operator[=] Keyword[this] operator[SEP] identifier[getProperty] operator[SEP] identifier[category] , identifier[key] operator[SEP] operator[SEP] identifier[toLowerCase] operator[SEP] operator[SEP] operator[SEP] identifier[trim] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[Integer] operator[SEP] identifier[parseInt] operator[SEP] identifier[value] operator[SEP] operator[SEP] }
public static Object invoke(ApplicationContext context, String beanName, MethodInfo methodInfo, final Object[] params) throws IllegalArgumentException, IllegalAccessException, InvocationTargetException { Object bean = context.getBean(beanName); Method handlerMethod = methodInfo.getMethod(); ReflectionUtils.makeAccessible(handlerMethod); Object result = handlerMethod.invoke(bean, params); if (result != null && result instanceof Optional) { return ((Optional<?>) result).orElse(null); } return result; }
class class_name[name] begin[{] method[invoke, return_type[type[Object]], modifier[public static], parameter[context, beanName, methodInfo, params]] begin[{] local_variable[type[Object], bean] local_variable[type[Method], handlerMethod] call[ReflectionUtils.makeAccessible, parameter[member[.handlerMethod]]] local_variable[type[Object], result] if[binary_operation[binary_operation[member[.result], !=, literal[null]], &&, binary_operation[member[.result], instanceof, type[Optional]]]] begin[{] return[Cast(expression=MemberReference(member=result, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=[TypeArgument(pattern_type=?, type=None)], dimensions=[], name=Optional, sub_type=None))] else begin[{] None end[}] return[member[.result]] end[}] END[}]
Keyword[public] Keyword[static] identifier[Object] identifier[invoke] operator[SEP] identifier[ApplicationContext] identifier[context] , identifier[String] identifier[beanName] , identifier[MethodInfo] identifier[methodInfo] , Keyword[final] identifier[Object] operator[SEP] operator[SEP] identifier[params] operator[SEP] Keyword[throws] identifier[IllegalArgumentException] , identifier[IllegalAccessException] , identifier[InvocationTargetException] { identifier[Object] identifier[bean] operator[=] identifier[context] operator[SEP] identifier[getBean] operator[SEP] identifier[beanName] operator[SEP] operator[SEP] identifier[Method] identifier[handlerMethod] operator[=] identifier[methodInfo] operator[SEP] identifier[getMethod] operator[SEP] operator[SEP] operator[SEP] identifier[ReflectionUtils] operator[SEP] identifier[makeAccessible] operator[SEP] identifier[handlerMethod] operator[SEP] operator[SEP] identifier[Object] identifier[result] operator[=] identifier[handlerMethod] operator[SEP] identifier[invoke] operator[SEP] identifier[bean] , identifier[params] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[result] operator[!=] Other[null] operator[&&] identifier[result] Keyword[instanceof] identifier[Optional] operator[SEP] { Keyword[return] operator[SEP] operator[SEP] identifier[Optional] operator[<] operator[?] operator[>] operator[SEP] identifier[result] operator[SEP] operator[SEP] identifier[orElse] operator[SEP] Other[null] operator[SEP] operator[SEP] } Keyword[return] identifier[result] operator[SEP] }
private String format(String algorithm, int iterations, byte[] salt, byte[] value) { final char COLON = ':'; StringBuffer sb = new StringBuffer(algorithm); sb.append(COLON).append(iterations).append(COLON).append(Base64Coder.base64EncodeToString(salt)).append(COLON).append(Base64Coder.base64EncodeToString(value)); return sb.toString(); }
class class_name[name] begin[{] method[format, return_type[type[String]], modifier[private], parameter[algorithm, iterations, salt, value]] begin[{] local_variable[type[char], COLON] local_variable[type[StringBuffer], sb] call[sb.append, parameter[member[.COLON]]] return[call[sb.toString, parameter[]]] end[}] END[}]
Keyword[private] identifier[String] identifier[format] operator[SEP] identifier[String] identifier[algorithm] , Keyword[int] identifier[iterations] , Keyword[byte] operator[SEP] operator[SEP] identifier[salt] , Keyword[byte] operator[SEP] operator[SEP] identifier[value] operator[SEP] { Keyword[final] Keyword[char] identifier[COLON] operator[=] literal[String] operator[SEP] identifier[StringBuffer] identifier[sb] operator[=] Keyword[new] identifier[StringBuffer] operator[SEP] identifier[algorithm] operator[SEP] operator[SEP] identifier[sb] operator[SEP] identifier[append] operator[SEP] identifier[COLON] operator[SEP] operator[SEP] identifier[append] operator[SEP] identifier[iterations] operator[SEP] operator[SEP] identifier[append] operator[SEP] identifier[COLON] operator[SEP] operator[SEP] identifier[append] operator[SEP] identifier[Base64Coder] operator[SEP] identifier[base64EncodeToString] operator[SEP] identifier[salt] operator[SEP] operator[SEP] operator[SEP] identifier[append] operator[SEP] identifier[COLON] operator[SEP] operator[SEP] identifier[append] operator[SEP] identifier[Base64Coder] operator[SEP] identifier[base64EncodeToString] operator[SEP] identifier[value] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[sb] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] }
private boolean listACLEquals(List<ACL> lista, List<ACL> listb) { if (lista.size() != listb.size()) { return false; } for (int i = 0; i < lista.size(); i++) { ACL a = lista.get(i); ACL b = listb.get(i); if (!a.equals(b)) { return false; } } return true; }
class class_name[name] begin[{] method[listACLEquals, return_type[type[boolean]], modifier[private], parameter[lista, listb]] begin[{] if[binary_operation[call[lista.size, parameter[]], !=, call[listb.size, parameter[]]]] begin[{] return[literal[false]] else begin[{] None end[}] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=get, postfix_operators=[], prefix_operators=[], qualifier=lista, selectors=[], type_arguments=None), name=a)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=ACL, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=get, postfix_operators=[], prefix_operators=[], qualifier=listb, selectors=[], type_arguments=None), name=b)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=ACL, sub_type=None)), IfStatement(condition=MethodInvocation(arguments=[MemberReference(member=b, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=equals, postfix_operators=[], prefix_operators=['!'], qualifier=a, selectors=[], type_arguments=None), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[ReturnStatement(expression=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=false), 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=lista, 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) return[literal[true]] end[}] END[}]
Keyword[private] Keyword[boolean] identifier[listACLEquals] operator[SEP] identifier[List] operator[<] identifier[ACL] operator[>] identifier[lista] , identifier[List] operator[<] identifier[ACL] operator[>] identifier[listb] operator[SEP] { Keyword[if] operator[SEP] identifier[lista] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[!=] identifier[listb] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] { Keyword[return] literal[boolean] operator[SEP] } Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[lista] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] identifier[i] operator[++] operator[SEP] { identifier[ACL] identifier[a] operator[=] identifier[lista] operator[SEP] identifier[get] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[ACL] identifier[b] operator[=] identifier[listb] operator[SEP] identifier[get] operator[SEP] identifier[i] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[a] operator[SEP] identifier[equals] operator[SEP] identifier[b] operator[SEP] operator[SEP] { Keyword[return] literal[boolean] operator[SEP] } } Keyword[return] literal[boolean] operator[SEP] }
protected InvCatalog createSkeletonCatalog( String prefixUrlPath ) throws IOException { this.checkAccessPoint(); // Create catalog. InvCatalogImpl catalog = new InvCatalogImpl( null, null, null ); //this.getName(), null, null); // Create service. InvService service = new InvService( this.getResultService().getName(), this.getResultService().getServiceType().toString(), this.getResultService().getBase(), this.getResultService().getSuffix(), this.getResultService().getDescription()); for ( Iterator it = this.getResultService().getProperties().iterator(); it.hasNext(); ) { service.addProperty( (InvProperty) it.next() ); } for ( Iterator it = this.getResultService().getServices().iterator(); it.hasNext(); ) { service.addService( (InvService) it.next() ); } // Add service to catalog. catalog.addService( service); // Create top-level dataset. File apFile = new File( this.getAccessPoint() ); InvDatasetImpl topDs = new LocalInvDataset( null, apFile, prefixUrlPath); // Set the serviceName (inherited by all datasets) in top-level dataset. ThreddsMetadata tm = new ThreddsMetadata( false); tm.setServiceName( service.getName()); InvMetadata md = new InvMetadata( topDs, null, XMLEntityResolver.CATALOG_NAMESPACE_10, "", true, true, null, tm); ThreddsMetadata tm2 = new ThreddsMetadata( false); tm2.addMetadata( md); topDs.setLocalMetadata(tm2); // Add top-level dataset to catalog. catalog.addDataset( topDs); // Tie up any loose ends in catalog with finish(). ((InvCatalogImpl) catalog).finish(); return( catalog); }
class class_name[name] begin[{] method[createSkeletonCatalog, return_type[type[InvCatalog]], modifier[protected], parameter[prefixUrlPath]] begin[{] THIS[call[None.checkAccessPoint, parameter[]]] local_variable[type[InvCatalogImpl], catalog] local_variable[type[InvService], service] ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[Cast(expression=MethodInvocation(arguments=[], member=next, postfix_operators=[], prefix_operators=[], qualifier=it, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=InvProperty, sub_type=None))], member=addProperty, postfix_operators=[], prefix_operators=[], qualifier=service, selectors=[], type_arguments=None), label=None)]), control=ForControl(condition=MethodInvocation(arguments=[], member=hasNext, postfix_operators=[], prefix_operators=[], qualifier=it, selectors=[], type_arguments=None), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MethodInvocation(arguments=[], member=getResultService, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[], member=getProperties, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[], member=iterator, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), name=it)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Iterator, sub_type=None)), update=None), label=None) ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[Cast(expression=MethodInvocation(arguments=[], member=next, postfix_operators=[], prefix_operators=[], qualifier=it, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=InvService, sub_type=None))], member=addService, postfix_operators=[], prefix_operators=[], qualifier=service, selectors=[], type_arguments=None), label=None)]), control=ForControl(condition=MethodInvocation(arguments=[], member=hasNext, postfix_operators=[], prefix_operators=[], qualifier=it, selectors=[], type_arguments=None), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MethodInvocation(arguments=[], member=getResultService, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[], member=getServices, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[], member=iterator, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), name=it)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Iterator, sub_type=None)), update=None), label=None) call[catalog.addService, parameter[member[.service]]] local_variable[type[File], apFile] local_variable[type[InvDatasetImpl], topDs] local_variable[type[ThreddsMetadata], tm] call[tm.setServiceName, parameter[call[service.getName, parameter[]]]] local_variable[type[InvMetadata], md] local_variable[type[ThreddsMetadata], tm2] call[tm2.addMetadata, parameter[member[.md]]] call[topDs.setLocalMetadata, parameter[member[.tm2]]] call[catalog.addDataset, parameter[member[.topDs]]] Cast(expression=MemberReference(member=catalog, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=InvCatalogImpl, sub_type=None)) return[member[.catalog]] end[}] END[}]
Keyword[protected] identifier[InvCatalog] identifier[createSkeletonCatalog] operator[SEP] identifier[String] identifier[prefixUrlPath] operator[SEP] Keyword[throws] identifier[IOException] { Keyword[this] operator[SEP] identifier[checkAccessPoint] operator[SEP] operator[SEP] operator[SEP] identifier[InvCatalogImpl] identifier[catalog] operator[=] Keyword[new] identifier[InvCatalogImpl] operator[SEP] Other[null] , Other[null] , Other[null] operator[SEP] operator[SEP] identifier[InvService] identifier[service] operator[=] Keyword[new] identifier[InvService] operator[SEP] Keyword[this] operator[SEP] identifier[getResultService] operator[SEP] operator[SEP] operator[SEP] identifier[getName] operator[SEP] operator[SEP] , Keyword[this] operator[SEP] identifier[getResultService] operator[SEP] operator[SEP] operator[SEP] identifier[getServiceType] operator[SEP] operator[SEP] operator[SEP] identifier[toString] operator[SEP] operator[SEP] , Keyword[this] operator[SEP] identifier[getResultService] operator[SEP] operator[SEP] operator[SEP] identifier[getBase] operator[SEP] operator[SEP] , Keyword[this] operator[SEP] identifier[getResultService] operator[SEP] operator[SEP] operator[SEP] identifier[getSuffix] operator[SEP] operator[SEP] , Keyword[this] operator[SEP] identifier[getResultService] operator[SEP] operator[SEP] operator[SEP] identifier[getDescription] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] identifier[Iterator] identifier[it] operator[=] Keyword[this] operator[SEP] identifier[getResultService] operator[SEP] operator[SEP] operator[SEP] identifier[getProperties] operator[SEP] operator[SEP] operator[SEP] identifier[iterator] operator[SEP] operator[SEP] operator[SEP] identifier[it] operator[SEP] identifier[hasNext] operator[SEP] operator[SEP] operator[SEP] operator[SEP] { identifier[service] operator[SEP] identifier[addProperty] operator[SEP] operator[SEP] identifier[InvProperty] operator[SEP] identifier[it] operator[SEP] identifier[next] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } Keyword[for] operator[SEP] identifier[Iterator] identifier[it] operator[=] Keyword[this] operator[SEP] identifier[getResultService] operator[SEP] operator[SEP] operator[SEP] identifier[getServices] operator[SEP] operator[SEP] operator[SEP] identifier[iterator] operator[SEP] operator[SEP] operator[SEP] identifier[it] operator[SEP] identifier[hasNext] operator[SEP] operator[SEP] operator[SEP] operator[SEP] { identifier[service] operator[SEP] identifier[addService] operator[SEP] operator[SEP] identifier[InvService] operator[SEP] identifier[it] operator[SEP] identifier[next] operator[SEP] operator[SEP] operator[SEP] operator[SEP] } identifier[catalog] operator[SEP] identifier[addService] operator[SEP] identifier[service] operator[SEP] operator[SEP] identifier[File] identifier[apFile] operator[=] Keyword[new] identifier[File] operator[SEP] Keyword[this] operator[SEP] identifier[getAccessPoint] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[InvDatasetImpl] identifier[topDs] operator[=] Keyword[new] identifier[LocalInvDataset] operator[SEP] Other[null] , identifier[apFile] , identifier[prefixUrlPath] operator[SEP] operator[SEP] identifier[ThreddsMetadata] identifier[tm] operator[=] Keyword[new] identifier[ThreddsMetadata] operator[SEP] literal[boolean] operator[SEP] operator[SEP] identifier[tm] operator[SEP] identifier[setServiceName] operator[SEP] identifier[service] operator[SEP] identifier[getName] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[InvMetadata] identifier[md] operator[=] Keyword[new] identifier[InvMetadata] operator[SEP] identifier[topDs] , Other[null] , identifier[XMLEntityResolver] operator[SEP] identifier[CATALOG_NAMESPACE_10] , literal[String] , literal[boolean] , literal[boolean] , Other[null] , identifier[tm] operator[SEP] operator[SEP] identifier[ThreddsMetadata] identifier[tm2] operator[=] Keyword[new] identifier[ThreddsMetadata] operator[SEP] literal[boolean] operator[SEP] operator[SEP] identifier[tm2] operator[SEP] identifier[addMetadata] operator[SEP] identifier[md] operator[SEP] operator[SEP] identifier[topDs] operator[SEP] identifier[setLocalMetadata] operator[SEP] identifier[tm2] operator[SEP] operator[SEP] identifier[catalog] operator[SEP] identifier[addDataset] operator[SEP] identifier[topDs] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[InvCatalogImpl] operator[SEP] identifier[catalog] operator[SEP] operator[SEP] identifier[finish] operator[SEP] operator[SEP] operator[SEP] Keyword[return] operator[SEP] identifier[catalog] operator[SEP] operator[SEP] }
public final void mMAX() throws RecognitionException { try { int _type = MAX; int _channel = DEFAULT_TOKEN_CHANNEL; // druidG.g:614:5: ( ( 'MAX' ) ) // druidG.g:614:7: ( 'MAX' ) { // druidG.g:614:7: ( 'MAX' ) // druidG.g:614:8: 'MAX' { match("MAX"); } } state.type = _type; state.channel = _channel; } finally { // do for sure before leaving } }
class class_name[name] begin[{] method[mMAX, return_type[void], modifier[final public], parameter[]] begin[{] TryStatement(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=MAX, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), name=_type)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=DEFAULT_TOKEN_CHANNEL, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), name=_channel)], modifiers=set(), type=BasicType(dimensions=[], name=int)), BlockStatement(label=None, statements=[BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="MAX")], member=match, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)])]), StatementExpression(expression=Assignment(expressionl=MemberReference(member=type, postfix_operators=[], prefix_operators=[], qualifier=state, selectors=[]), type==, value=MemberReference(member=_type, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=channel, postfix_operators=[], prefix_operators=[], qualifier=state, selectors=[]), type==, value=MemberReference(member=_channel, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), label=None)], catches=None, finally_block=[], label=None, resources=None) end[}] END[}]
Keyword[public] Keyword[final] Keyword[void] identifier[mMAX] operator[SEP] operator[SEP] Keyword[throws] identifier[RecognitionException] { Keyword[try] { Keyword[int] identifier[_type] operator[=] identifier[MAX] operator[SEP] Keyword[int] identifier[_channel] operator[=] identifier[DEFAULT_TOKEN_CHANNEL] operator[SEP] { { identifier[match] operator[SEP] literal[String] operator[SEP] operator[SEP] } } identifier[state] operator[SEP] identifier[type] operator[=] identifier[_type] operator[SEP] identifier[state] operator[SEP] identifier[channel] operator[=] identifier[_channel] operator[SEP] } Keyword[finally] { } }
public boolean matches(final Node node) throws IllegalArgumentException { // Precondition checks if (node == null) { throw new IllegalArgumentException("node must be specified"); } if (!name.equals(node.getName())) { return false; } if ((text != null && node.getText() == null) || (text != null && !text.trim().equals(node.getText().trim()))) { return false; } if (attributes != null) { for (final Map.Entry<String, String> attribute : attributes.entrySet()) { final String attrValue = attribute.getValue(); final String attrName = attribute.getKey(); if (!attrValue.equals(node.getAttribute(attrName))) { return false; } } } return true; }
class class_name[name] begin[{] method[matches, return_type[type[boolean]], modifier[public], parameter[node]] begin[{] if[binary_operation[member[.node], ==, literal[null]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="node must be specified")], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=IllegalArgumentException, sub_type=None)), label=None) else begin[{] None end[}] if[call[name.equals, parameter[call[node.getName, parameter[]]]]] begin[{] return[literal[false]] else begin[{] None end[}] if[binary_operation[binary_operation[binary_operation[member[.text], !=, literal[null]], &&, binary_operation[call[node.getText, parameter[]], ==, literal[null]]], ||, binary_operation[binary_operation[member[.text], !=, literal[null]], &&, call[text.trim, parameter[]]]]] begin[{] return[literal[false]] else begin[{] None end[}] if[binary_operation[member[.attributes], !=, literal[null]]] begin[{] ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=getValue, postfix_operators=[], prefix_operators=[], qualifier=attribute, selectors=[], type_arguments=None), name=attrValue)], modifiers={'final'}, type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=getKey, postfix_operators=[], prefix_operators=[], qualifier=attribute, selectors=[], type_arguments=None), name=attrName)], modifiers={'final'}, type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), IfStatement(condition=MethodInvocation(arguments=[MethodInvocation(arguments=[MemberReference(member=attrName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getAttribute, postfix_operators=[], prefix_operators=[], qualifier=node, selectors=[], type_arguments=None)], member=equals, postfix_operators=[], prefix_operators=['!'], qualifier=attrValue, selectors=[], type_arguments=None), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[ReturnStatement(expression=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=false), label=None)]))]), control=EnhancedForControl(iterable=MethodInvocation(arguments=[], member=entrySet, postfix_operators=[], prefix_operators=[], qualifier=attributes, selectors=[], type_arguments=None), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=attribute)], modifiers={'final'}, 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) else begin[{] None end[}] return[literal[true]] end[}] END[}]
Keyword[public] Keyword[boolean] identifier[matches] operator[SEP] Keyword[final] identifier[Node] identifier[node] operator[SEP] Keyword[throws] identifier[IllegalArgumentException] { Keyword[if] operator[SEP] identifier[node] operator[==] Other[null] operator[SEP] { Keyword[throw] Keyword[new] identifier[IllegalArgumentException] operator[SEP] literal[String] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] operator[!] identifier[name] operator[SEP] identifier[equals] operator[SEP] identifier[node] operator[SEP] identifier[getName] operator[SEP] operator[SEP] operator[SEP] operator[SEP] { Keyword[return] literal[boolean] operator[SEP] } Keyword[if] operator[SEP] operator[SEP] identifier[text] operator[!=] Other[null] operator[&&] identifier[node] operator[SEP] identifier[getText] operator[SEP] operator[SEP] operator[==] Other[null] operator[SEP] operator[||] operator[SEP] identifier[text] operator[!=] Other[null] operator[&&] operator[!] identifier[text] operator[SEP] identifier[trim] operator[SEP] operator[SEP] operator[SEP] identifier[equals] operator[SEP] identifier[node] operator[SEP] identifier[getText] operator[SEP] operator[SEP] operator[SEP] identifier[trim] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] { Keyword[return] literal[boolean] operator[SEP] } Keyword[if] operator[SEP] identifier[attributes] operator[!=] Other[null] operator[SEP] { Keyword[for] operator[SEP] Keyword[final] identifier[Map] operator[SEP] identifier[Entry] operator[<] identifier[String] , identifier[String] operator[>] identifier[attribute] operator[:] identifier[attributes] operator[SEP] identifier[entrySet] operator[SEP] operator[SEP] operator[SEP] { Keyword[final] identifier[String] identifier[attrValue] operator[=] identifier[attribute] operator[SEP] identifier[getValue] operator[SEP] operator[SEP] operator[SEP] Keyword[final] identifier[String] identifier[attrName] operator[=] identifier[attribute] operator[SEP] identifier[getKey] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[attrValue] operator[SEP] identifier[equals] operator[SEP] identifier[node] operator[SEP] identifier[getAttribute] operator[SEP] identifier[attrName] operator[SEP] operator[SEP] operator[SEP] { Keyword[return] literal[boolean] operator[SEP] } } } Keyword[return] literal[boolean] operator[SEP] }
public static byte[] encipher(byte[] decrypted_bytes, String crypto_algorithm) throws InvalidPasswordCipherException, UnsupportedCryptoAlgorithmException { EncryptedInfo info = encipher_internal(decrypted_bytes, crypto_algorithm, (String) null); // TODO check null return info.getEncryptedBytes(); }
class class_name[name] begin[{] method[encipher, return_type[type[byte]], modifier[public static], parameter[decrypted_bytes, crypto_algorithm]] begin[{] local_variable[type[EncryptedInfo], info] return[call[info.getEncryptedBytes, parameter[]]] end[}] END[}]
Keyword[public] Keyword[static] Keyword[byte] operator[SEP] operator[SEP] identifier[encipher] operator[SEP] Keyword[byte] operator[SEP] operator[SEP] identifier[decrypted_bytes] , identifier[String] identifier[crypto_algorithm] operator[SEP] Keyword[throws] identifier[InvalidPasswordCipherException] , identifier[UnsupportedCryptoAlgorithmException] { identifier[EncryptedInfo] identifier[info] operator[=] identifier[encipher_internal] operator[SEP] identifier[decrypted_bytes] , identifier[crypto_algorithm] , operator[SEP] identifier[String] operator[SEP] Other[null] operator[SEP] operator[SEP] Keyword[return] identifier[info] operator[SEP] identifier[getEncryptedBytes] operator[SEP] operator[SEP] operator[SEP] }
public static Number parseNumber(String value, Locale... locales) throws NumberFormatException { return parseNumber(value, false, locales); }
class class_name[name] begin[{] method[parseNumber, return_type[type[Number]], modifier[public static], parameter[value, locales]] begin[{] return[call[.parseNumber, parameter[member[.value], literal[false], member[.locales]]]] end[}] END[}]
Keyword[public] Keyword[static] identifier[Number] identifier[parseNumber] operator[SEP] identifier[String] identifier[value] , identifier[Locale] operator[...] identifier[locales] operator[SEP] Keyword[throws] identifier[NumberFormatException] { Keyword[return] identifier[parseNumber] operator[SEP] identifier[value] , literal[boolean] , identifier[locales] operator[SEP] operator[SEP] }
private void setupSSL(ReadDeploymentResults readDepl) { SslType sslType = readDepl.deployment.getSsl(); m_config.m_sslEnable = m_config.m_sslEnable || (sslType != null && sslType.isEnabled()); if (m_config.m_sslEnable) { try { hostLog.info("SSL enabled for HTTP. Please point browser to HTTPS URL."); m_config.m_sslExternal = m_config.m_sslExternal || (sslType != null && sslType.isExternal()); m_config.m_sslDR = m_config.m_sslDR || (sslType != null && sslType.isDr()); m_config.m_sslInternal = m_config.m_sslInternal || (sslType != null && sslType.isInternal()); boolean setSslBuilder = m_config.m_sslExternal || m_config.m_sslDR || m_config.m_sslInternal; setupSslContextCreators(sslType, setSslBuilder); if (m_config.m_sslExternal) { hostLog.info("SSL enabled for admin and client port. Please enable SSL on client."); } if (m_config.m_sslDR) { hostLog.info("SSL enabled for DR port. Please enable SSL on consumer clusters' DR connections."); } if (m_config.m_sslInternal) { hostLog.info("SSL enabled for internal inter-node communication."); } CipherExecutor.SERVER.startup(); } catch (Exception e) { VoltDB.crashLocalVoltDB("Unable to configure SSL", true, e); } } }
class class_name[name] begin[{] method[setupSSL, return_type[void], modifier[private], parameter[readDepl]] begin[{] local_variable[type[SslType], sslType] assign[member[m_config.m_sslEnable], binary_operation[member[m_config.m_sslEnable], ||, binary_operation[binary_operation[member[.sslType], !=, literal[null]], &&, call[sslType.isEnabled, parameter[]]]]] if[member[m_config.m_sslEnable]] begin[{] TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="SSL enabled for HTTP. Please point browser to HTTPS URL.")], member=info, postfix_operators=[], prefix_operators=[], qualifier=hostLog, selectors=[], type_arguments=None), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=m_sslExternal, postfix_operators=[], prefix_operators=[], qualifier=m_config, selectors=[]), type==, value=BinaryOperation(operandl=MemberReference(member=m_sslExternal, postfix_operators=[], prefix_operators=[], qualifier=m_config, selectors=[]), operandr=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=sslType, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator=!=), operandr=MethodInvocation(arguments=[], member=isExternal, postfix_operators=[], prefix_operators=[], qualifier=sslType, selectors=[], type_arguments=None), operator=&&), operator=||)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=m_sslDR, postfix_operators=[], prefix_operators=[], qualifier=m_config, selectors=[]), type==, value=BinaryOperation(operandl=MemberReference(member=m_sslDR, postfix_operators=[], prefix_operators=[], qualifier=m_config, selectors=[]), operandr=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=sslType, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator=!=), operandr=MethodInvocation(arguments=[], member=isDr, postfix_operators=[], prefix_operators=[], qualifier=sslType, selectors=[], type_arguments=None), operator=&&), operator=||)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=m_sslInternal, postfix_operators=[], prefix_operators=[], qualifier=m_config, selectors=[]), type==, value=BinaryOperation(operandl=MemberReference(member=m_sslInternal, postfix_operators=[], prefix_operators=[], qualifier=m_config, selectors=[]), operandr=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=sslType, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator=!=), operandr=MethodInvocation(arguments=[], member=isInternal, postfix_operators=[], prefix_operators=[], qualifier=sslType, selectors=[], type_arguments=None), operator=&&), operator=||)), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=m_sslExternal, postfix_operators=[], prefix_operators=[], qualifier=m_config, selectors=[]), operandr=MemberReference(member=m_sslDR, postfix_operators=[], prefix_operators=[], qualifier=m_config, selectors=[]), operator=||), operandr=MemberReference(member=m_sslInternal, postfix_operators=[], prefix_operators=[], qualifier=m_config, selectors=[]), operator=||), name=setSslBuilder)], modifiers=set(), type=BasicType(dimensions=[], name=boolean)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=sslType, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=setSslBuilder, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=setupSslContextCreators, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None), IfStatement(condition=MemberReference(member=m_sslExternal, postfix_operators=[], prefix_operators=[], qualifier=m_config, selectors=[]), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="SSL enabled for admin and client port. Please enable SSL on client.")], member=info, postfix_operators=[], prefix_operators=[], qualifier=hostLog, selectors=[], type_arguments=None), label=None)])), IfStatement(condition=MemberReference(member=m_sslDR, postfix_operators=[], prefix_operators=[], qualifier=m_config, selectors=[]), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="SSL enabled for DR port. Please enable SSL on consumer clusters' DR connections.")], member=info, postfix_operators=[], prefix_operators=[], qualifier=hostLog, selectors=[], type_arguments=None), label=None)])), IfStatement(condition=MemberReference(member=m_sslInternal, postfix_operators=[], prefix_operators=[], qualifier=m_config, selectors=[]), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="SSL enabled for internal inter-node communication.")], member=info, postfix_operators=[], prefix_operators=[], qualifier=hostLog, selectors=[], type_arguments=None), label=None)])), StatementExpression(expression=MethodInvocation(arguments=[], member=startup, postfix_operators=[], prefix_operators=[], qualifier=CipherExecutor.SERVER, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Unable to configure SSL"), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=crashLocalVoltDB, postfix_operators=[], prefix_operators=[], qualifier=VoltDB, 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) else begin[{] None end[}] end[}] END[}]
Keyword[private] Keyword[void] identifier[setupSSL] operator[SEP] identifier[ReadDeploymentResults] identifier[readDepl] operator[SEP] { identifier[SslType] identifier[sslType] operator[=] identifier[readDepl] operator[SEP] identifier[deployment] operator[SEP] identifier[getSsl] operator[SEP] operator[SEP] operator[SEP] identifier[m_config] operator[SEP] identifier[m_sslEnable] operator[=] identifier[m_config] operator[SEP] identifier[m_sslEnable] operator[||] operator[SEP] identifier[sslType] operator[!=] Other[null] operator[&&] identifier[sslType] operator[SEP] identifier[isEnabled] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[m_config] operator[SEP] identifier[m_sslEnable] operator[SEP] { Keyword[try] { identifier[hostLog] operator[SEP] identifier[info] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[m_config] operator[SEP] identifier[m_sslExternal] operator[=] identifier[m_config] operator[SEP] identifier[m_sslExternal] operator[||] operator[SEP] identifier[sslType] operator[!=] Other[null] operator[&&] identifier[sslType] operator[SEP] identifier[isExternal] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[m_config] operator[SEP] identifier[m_sslDR] operator[=] identifier[m_config] operator[SEP] identifier[m_sslDR] operator[||] operator[SEP] identifier[sslType] operator[!=] Other[null] operator[&&] identifier[sslType] operator[SEP] identifier[isDr] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[m_config] operator[SEP] identifier[m_sslInternal] operator[=] identifier[m_config] operator[SEP] identifier[m_sslInternal] operator[||] operator[SEP] identifier[sslType] operator[!=] Other[null] operator[&&] identifier[sslType] operator[SEP] identifier[isInternal] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[boolean] identifier[setSslBuilder] operator[=] identifier[m_config] operator[SEP] identifier[m_sslExternal] operator[||] identifier[m_config] operator[SEP] identifier[m_sslDR] operator[||] identifier[m_config] operator[SEP] identifier[m_sslInternal] operator[SEP] identifier[setupSslContextCreators] operator[SEP] identifier[sslType] , identifier[setSslBuilder] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[m_config] operator[SEP] identifier[m_sslExternal] operator[SEP] { identifier[hostLog] operator[SEP] identifier[info] operator[SEP] literal[String] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[m_config] operator[SEP] identifier[m_sslDR] operator[SEP] { identifier[hostLog] operator[SEP] identifier[info] operator[SEP] literal[String] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] identifier[m_config] operator[SEP] identifier[m_sslInternal] operator[SEP] { identifier[hostLog] operator[SEP] identifier[info] operator[SEP] literal[String] operator[SEP] operator[SEP] } identifier[CipherExecutor] operator[SEP] identifier[SERVER] operator[SEP] identifier[startup] operator[SEP] operator[SEP] operator[SEP] } Keyword[catch] operator[SEP] identifier[Exception] identifier[e] operator[SEP] { identifier[VoltDB] operator[SEP] identifier[crashLocalVoltDB] operator[SEP] literal[String] , literal[boolean] , identifier[e] operator[SEP] operator[SEP] } } }
public static Type getLowerBoundOfSingleTypeParameter(Type type) { if (type == null) { throw new IllegalArgumentException("Method parameter type must not be null."); } // The generic type may contain the generic type declarations, e.g. List<String>. if (!(type instanceof ParameterizedType)) { throw new IllegalArgumentException("Cannot obtain the component type of " + type + ", it does not declare generic type parameters."); } // Only the ParametrizedType contains reflection information about the actual type. ParameterizedType parameterizedType = (ParameterizedType) type; Type[] typeArguments = parameterizedType.getActualTypeArguments(); // We expect exactly one argument representing the model type. if (typeArguments.length != 1) { signalUnsupportedNumberOfTypeDeclarations(type); } Type typeArgument = typeArguments[0]; // Wildcard type <X ... Y> if (typeArgument instanceof WildcardType) { WildcardType wildcardType = (WildcardType) typeArgument; Type[] lowerBounds = wildcardType.getLowerBounds(); if (lowerBounds.length == 0) { throw new IllegalArgumentException("Cannot obtain the generic type of " + type + ", it has a wildcard declaration with an upper" + " bound (<? extends Y>) and is thus read-only." + " Only simple type parameters (e.g. <MyType>)" + " or lower bound wildcards (e.g. <? super MyModel>)" + " are supported."); } typeArgument = lowerBounds[0]; } return typeArgument; }
class class_name[name] begin[{] method[getLowerBoundOfSingleTypeParameter, return_type[type[Type]], modifier[public static], parameter[type]] begin[{] if[binary_operation[member[.type], ==, literal[null]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Method parameter type must not be null.")], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=IllegalArgumentException, sub_type=None)), label=None) else begin[{] None end[}] if[binary_operation[member[.type], instanceof, type[ParameterizedType]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Cannot obtain the component type of "), operandr=MemberReference(member=type, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=", it does not declare generic type parameters."), operator=+)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=IllegalArgumentException, sub_type=None)), label=None) else begin[{] None end[}] local_variable[type[ParameterizedType], parameterizedType] local_variable[type[Type], typeArguments] if[binary_operation[member[typeArguments.length], !=, literal[1]]] begin[{] call[.signalUnsupportedNumberOfTypeDeclarations, parameter[member[.type]]] else begin[{] None end[}] local_variable[type[Type], typeArgument] if[binary_operation[member[.typeArgument], instanceof, type[WildcardType]]] begin[{] local_variable[type[WildcardType], wildcardType] local_variable[type[Type], lowerBounds] if[binary_operation[member[lowerBounds.length], ==, literal[0]]] begin[{] ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Cannot obtain the generic type of "), operandr=MemberReference(member=type, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=", it has a wildcard declaration with an upper"), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=" bound (<? extends Y>) and is thus read-only."), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=" Only simple type parameters (e.g. <MyType>)"), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=" or lower bound wildcards (e.g. <? super MyModel>)"), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=" are supported."), operator=+)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=IllegalArgumentException, sub_type=None)), label=None) else begin[{] None end[}] assign[member[.typeArgument], member[.lowerBounds]] else begin[{] None end[}] return[member[.typeArgument]] end[}] END[}]
Keyword[public] Keyword[static] identifier[Type] identifier[getLowerBoundOfSingleTypeParameter] operator[SEP] identifier[Type] identifier[type] operator[SEP] { Keyword[if] operator[SEP] identifier[type] operator[==] Other[null] operator[SEP] { Keyword[throw] Keyword[new] identifier[IllegalArgumentException] operator[SEP] literal[String] operator[SEP] operator[SEP] } Keyword[if] operator[SEP] operator[!] operator[SEP] identifier[type] Keyword[instanceof] identifier[ParameterizedType] operator[SEP] operator[SEP] { Keyword[throw] Keyword[new] identifier[IllegalArgumentException] operator[SEP] literal[String] operator[+] identifier[type] operator[+] literal[String] operator[SEP] operator[SEP] } identifier[ParameterizedType] identifier[parameterizedType] operator[=] operator[SEP] identifier[ParameterizedType] operator[SEP] identifier[type] operator[SEP] identifier[Type] operator[SEP] operator[SEP] identifier[typeArguments] operator[=] identifier[parameterizedType] operator[SEP] identifier[getActualTypeArguments] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[typeArguments] operator[SEP] identifier[length] operator[!=] Other[1] operator[SEP] { identifier[signalUnsupportedNumberOfTypeDeclarations] operator[SEP] identifier[type] operator[SEP] operator[SEP] } identifier[Type] identifier[typeArgument] operator[=] identifier[typeArguments] operator[SEP] Other[0] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[typeArgument] Keyword[instanceof] identifier[WildcardType] operator[SEP] { identifier[WildcardType] identifier[wildcardType] operator[=] operator[SEP] identifier[WildcardType] operator[SEP] identifier[typeArgument] operator[SEP] identifier[Type] operator[SEP] operator[SEP] identifier[lowerBounds] operator[=] identifier[wildcardType] operator[SEP] identifier[getLowerBounds] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[lowerBounds] operator[SEP] identifier[length] operator[==] Other[0] operator[SEP] { Keyword[throw] Keyword[new] identifier[IllegalArgumentException] operator[SEP] literal[String] operator[+] identifier[type] operator[+] literal[String] operator[+] literal[String] operator[+] literal[String] operator[+] literal[String] operator[+] literal[String] operator[SEP] operator[SEP] } identifier[typeArgument] operator[=] identifier[lowerBounds] operator[SEP] Other[0] operator[SEP] operator[SEP] } Keyword[return] identifier[typeArgument] operator[SEP] }
public boolean isModifiedOnVersion(String version) { if (version == null || version.isEmpty()) { return true; } if (this.history != null && this.history.isModifiedOnVersion(version)) { return true; } if (this.fields != null) { for (APIParameter param : this.fields) { if (param.isModifiedOnVersion(version)) { return true; } } } return false; }
class class_name[name] begin[{] method[isModifiedOnVersion, return_type[type[boolean]], modifier[public], parameter[version]] begin[{] if[binary_operation[binary_operation[member[.version], ==, literal[null]], ||, call[version.isEmpty, parameter[]]]] begin[{] return[literal[true]] else begin[{] None end[}] if[binary_operation[binary_operation[THIS[member[None.history]], !=, literal[null]], &&, THIS[member[None.history]call[None.isModifiedOnVersion, parameter[member[.version]]]]]] begin[{] return[literal[true]] else begin[{] None end[}] if[binary_operation[THIS[member[None.fields]], !=, literal[null]]] begin[{] ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=MethodInvocation(arguments=[MemberReference(member=version, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=isModifiedOnVersion, postfix_operators=[], prefix_operators=[], qualifier=param, selectors=[], type_arguments=None), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[ReturnStatement(expression=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true), label=None)]))]), control=EnhancedForControl(iterable=This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MemberReference(member=fields, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None)]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=param)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=APIParameter, sub_type=None))), label=None) else begin[{] None end[}] return[literal[false]] end[}] END[}]
Keyword[public] Keyword[boolean] identifier[isModifiedOnVersion] operator[SEP] identifier[String] identifier[version] operator[SEP] { Keyword[if] operator[SEP] identifier[version] operator[==] Other[null] operator[||] identifier[version] operator[SEP] identifier[isEmpty] operator[SEP] operator[SEP] operator[SEP] { Keyword[return] literal[boolean] operator[SEP] } Keyword[if] operator[SEP] Keyword[this] operator[SEP] identifier[history] operator[!=] Other[null] operator[&&] Keyword[this] operator[SEP] identifier[history] operator[SEP] identifier[isModifiedOnVersion] operator[SEP] identifier[version] operator[SEP] operator[SEP] { Keyword[return] literal[boolean] operator[SEP] } Keyword[if] operator[SEP] Keyword[this] operator[SEP] identifier[fields] operator[!=] Other[null] operator[SEP] { Keyword[for] operator[SEP] identifier[APIParameter] identifier[param] operator[:] Keyword[this] operator[SEP] identifier[fields] operator[SEP] { Keyword[if] operator[SEP] identifier[param] operator[SEP] identifier[isModifiedOnVersion] operator[SEP] identifier[version] operator[SEP] operator[SEP] { Keyword[return] literal[boolean] operator[SEP] } } } Keyword[return] literal[boolean] operator[SEP] }
public void readGroup(final int fieldNumber, final MessageLite.Builder builder, final ExtensionRegistryLite extensionRegistry) throws IOException { if (recursionDepth >= recursionLimit) { throw InvalidProtocolBufferException.recursionLimitExceeded(); } ++recursionDepth; builder.mergeFrom(this, extensionRegistry); checkLastTagWas( WireFormat.makeTag(fieldNumber, WireFormat.WIRETYPE_END_GROUP)); --recursionDepth; }
class class_name[name] begin[{] method[readGroup, return_type[void], modifier[public], parameter[fieldNumber, builder, extensionRegistry]] begin[{] if[binary_operation[member[.recursionDepth], >=, member[.recursionLimit]]] begin[{] ThrowStatement(expression=MethodInvocation(arguments=[], member=recursionLimitExceeded, postfix_operators=[], prefix_operators=[], qualifier=InvalidProtocolBufferException, selectors=[], type_arguments=None), label=None) else begin[{] None end[}] member[.recursionDepth] call[builder.mergeFrom, parameter[THIS[], member[.extensionRegistry]]] call[.checkLastTagWas, parameter[call[WireFormat.makeTag, parameter[member[.fieldNumber], member[WireFormat.WIRETYPE_END_GROUP]]]]] member[.recursionDepth] end[}] END[}]
Keyword[public] Keyword[void] identifier[readGroup] operator[SEP] Keyword[final] Keyword[int] identifier[fieldNumber] , Keyword[final] identifier[MessageLite] operator[SEP] identifier[Builder] identifier[builder] , Keyword[final] identifier[ExtensionRegistryLite] identifier[extensionRegistry] operator[SEP] Keyword[throws] identifier[IOException] { Keyword[if] operator[SEP] identifier[recursionDepth] operator[>=] identifier[recursionLimit] operator[SEP] { Keyword[throw] identifier[InvalidProtocolBufferException] operator[SEP] identifier[recursionLimitExceeded] operator[SEP] operator[SEP] operator[SEP] } operator[++] identifier[recursionDepth] operator[SEP] identifier[builder] operator[SEP] identifier[mergeFrom] operator[SEP] Keyword[this] , identifier[extensionRegistry] operator[SEP] operator[SEP] identifier[checkLastTagWas] operator[SEP] identifier[WireFormat] operator[SEP] identifier[makeTag] operator[SEP] identifier[fieldNumber] , identifier[WireFormat] operator[SEP] identifier[WIRETYPE_END_GROUP] operator[SEP] operator[SEP] operator[SEP] operator[--] identifier[recursionDepth] operator[SEP] }
public Comparer<Long> since(String targetDate) { return since(this.style.from().apply(targetDate)); }
class class_name[name] begin[{] method[since, return_type[type[Comparer]], modifier[public], parameter[targetDate]] begin[{] return[call[.since, parameter[THIS[member[None.style]call[None.from, parameter[]]call[None.apply, parameter[member[.targetDate]]]]]]] end[}] END[}]
Keyword[public] identifier[Comparer] operator[<] identifier[Long] operator[>] identifier[since] operator[SEP] identifier[String] identifier[targetDate] operator[SEP] { Keyword[return] identifier[since] operator[SEP] Keyword[this] operator[SEP] identifier[style] operator[SEP] identifier[from] operator[SEP] operator[SEP] operator[SEP] identifier[apply] operator[SEP] identifier[targetDate] operator[SEP] operator[SEP] operator[SEP] }
@Override public Stream<T> queued(int queueSize) { final Iterator<T> iter = iterator(); if (iter instanceof QueuedIterator && ((QueuedIterator<? extends T>) iter).max() >= queueSize) { return newStream(elements, sorted, cmp); } else { return newStream(Stream.parallelConcatt(Arrays.asList(iter), 1, queueSize), sorted, cmp); } }
class class_name[name] begin[{] method[queued, return_type[type[Stream]], modifier[public], parameter[queueSize]] begin[{] local_variable[type[Iterator], iter] if[binary_operation[binary_operation[member[.iter], instanceof, type[QueuedIterator]], &&, binary_operation[Cast(expression=MemberReference(member=iter, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=[TypeArgument(pattern_type=extends, type=ReferenceType(arguments=None, dimensions=[], name=T, sub_type=None))], dimensions=[], name=QueuedIterator, sub_type=None)), >=, member[.queueSize]]]] begin[{] return[call[.newStream, parameter[member[.elements], member[.sorted], member[.cmp]]]] else begin[{] return[call[.newStream, parameter[call[Stream.parallelConcatt, parameter[call[Arrays.asList, parameter[member[.iter]]], literal[1], member[.queueSize]]], member[.sorted], member[.cmp]]]] end[}] end[}] END[}]
annotation[@] identifier[Override] Keyword[public] identifier[Stream] operator[<] identifier[T] operator[>] identifier[queued] operator[SEP] Keyword[int] identifier[queueSize] operator[SEP] { Keyword[final] identifier[Iterator] operator[<] identifier[T] operator[>] identifier[iter] operator[=] identifier[iterator] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[iter] Keyword[instanceof] identifier[QueuedIterator] operator[&&] operator[SEP] operator[SEP] identifier[QueuedIterator] operator[<] operator[?] Keyword[extends] identifier[T] operator[>] operator[SEP] identifier[iter] operator[SEP] operator[SEP] identifier[max] operator[SEP] operator[SEP] operator[>=] identifier[queueSize] operator[SEP] { Keyword[return] identifier[newStream] operator[SEP] identifier[elements] , identifier[sorted] , identifier[cmp] operator[SEP] operator[SEP] } Keyword[else] { Keyword[return] identifier[newStream] operator[SEP] identifier[Stream] operator[SEP] identifier[parallelConcatt] operator[SEP] identifier[Arrays] operator[SEP] identifier[asList] operator[SEP] identifier[iter] operator[SEP] , Other[1] , identifier[queueSize] operator[SEP] , identifier[sorted] , identifier[cmp] operator[SEP] operator[SEP] } }