code stringlengths 63 466k | code_sememe stringlengths 141 3.79M | token_type stringlengths 274 1.23M |
|---|---|---|
protected void readHorizontalMetrics(FontFileReader in)
throws IOException {
seekTab(in, "hmtx", 0);
int mtxSize = Math.max(numberOfGlyphs, nhmtx);
mtxTab = new TTFMtxEntry[mtxSize];
if (TRACE_ENABLED) {
log.debug("*** Widths array: \n");
}
for (int i = 0; i < mtxSize; i++) {
mtxTab[i] = new TTFMtxEntry();
}
for (int i = 0; i < nhmtx; i++) {
mtxTab[i].setWx(in.readTTFUShort());
mtxTab[i].setLsb(in.readTTFUShort());
if (TRACE_ENABLED) {
if (log.isDebugEnabled()) {
log.debug(" width[" + i + "] = "
+ (mtxTab[i].getWx()) + ";");
}
}
}
if (nhmtx < mtxSize) {
// Fill in the missing widths
int lastWidth = mtxTab[nhmtx - 1].getWx();
for (int i = nhmtx; i < mtxSize; i++) {
mtxTab[i].setWx(lastWidth);
mtxTab[i].setLsb(in.readTTFUShort());
}
}
} | class class_name[name] begin[{]
method[readHorizontalMetrics, return_type[void], modifier[protected], parameter[in]] begin[{]
call[.seekTab, parameter[member[.in], literal["hmtx"], literal[0]]]
local_variable[type[int], mtxSize]
assign[member[.mtxTab], ArrayCreator(dimensions=[MemberReference(member=mtxSize, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], initializer=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=TTFMtxEntry, sub_type=None))]
if[member[.TRACE_ENABLED]] begin[{]
call[log.debug, parameter[literal["*** Widths array: \n"]]]
else begin[{]
None
end[}]
ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=mtxTab, 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=TTFMtxEntry, sub_type=None))), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=mtxSize, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=<), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), name=i)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=i, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None)
ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MemberReference(member=mtxTab, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), MethodInvocation(arguments=[MethodInvocation(arguments=[], member=readTTFUShort, postfix_operators=[], prefix_operators=[], qualifier=in, selectors=[], type_arguments=None)], member=setWx, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), label=None), StatementExpression(expression=MemberReference(member=mtxTab, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), MethodInvocation(arguments=[MethodInvocation(arguments=[], member=readTTFUShort, postfix_operators=[], prefix_operators=[], qualifier=in, selectors=[], type_arguments=None)], member=setLsb, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), label=None), IfStatement(condition=MemberReference(member=TRACE_ENABLED, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[IfStatement(condition=MethodInvocation(arguments=[], member=isDebugEnabled, postfix_operators=[], prefix_operators=[], qualifier=log, selectors=[], type_arguments=None), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=" width["), operandr=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="] = "), operator=+), operandr=MemberReference(member=mtxTab, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=";"), operator=+)], member=debug, postfix_operators=[], prefix_operators=[], qualifier=log, selectors=[], type_arguments=None), label=None)]))]))]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=nhmtx, 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)
if[binary_operation[member[.nhmtx], <, member[.mtxSize]]] begin[{]
local_variable[type[int], lastWidth]
ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MemberReference(member=mtxTab, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), MethodInvocation(arguments=[MemberReference(member=lastWidth, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=setWx, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), label=None), StatementExpression(expression=MemberReference(member=mtxTab, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), MethodInvocation(arguments=[MethodInvocation(arguments=[], member=readTTFUShort, postfix_operators=[], prefix_operators=[], qualifier=in, selectors=[], type_arguments=None)], member=setLsb, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=mtxSize, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=<), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=MemberReference(member=nhmtx, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), name=i)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=i, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None)
else begin[{]
None
end[}]
end[}]
END[}] | Keyword[protected] Keyword[void] identifier[readHorizontalMetrics] operator[SEP] identifier[FontFileReader] identifier[in] operator[SEP] Keyword[throws] identifier[IOException] {
identifier[seekTab] operator[SEP] identifier[in] , literal[String] , Other[0] operator[SEP] operator[SEP] Keyword[int] identifier[mtxSize] operator[=] identifier[Math] operator[SEP] identifier[max] operator[SEP] identifier[numberOfGlyphs] , identifier[nhmtx] operator[SEP] operator[SEP] identifier[mtxTab] operator[=] Keyword[new] identifier[TTFMtxEntry] operator[SEP] identifier[mtxSize] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[TRACE_ENABLED] operator[SEP] {
identifier[log] operator[SEP] identifier[debug] operator[SEP] literal[String] operator[SEP] operator[SEP]
}
Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[mtxSize] operator[SEP] identifier[i] operator[++] operator[SEP] {
identifier[mtxTab] operator[SEP] identifier[i] operator[SEP] operator[=] Keyword[new] identifier[TTFMtxEntry] operator[SEP] operator[SEP] operator[SEP]
}
Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[nhmtx] operator[SEP] identifier[i] operator[++] operator[SEP] {
identifier[mtxTab] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[setWx] operator[SEP] identifier[in] operator[SEP] identifier[readTTFUShort] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[mtxTab] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[setLsb] operator[SEP] identifier[in] operator[SEP] identifier[readTTFUShort] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[TRACE_ENABLED] 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[i] operator[+] literal[String] operator[+] operator[SEP] identifier[mtxTab] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[getWx] operator[SEP] operator[SEP] operator[SEP] operator[+] literal[String] operator[SEP] operator[SEP]
}
}
}
Keyword[if] operator[SEP] identifier[nhmtx] operator[<] identifier[mtxSize] operator[SEP] {
Keyword[int] identifier[lastWidth] operator[=] identifier[mtxTab] operator[SEP] identifier[nhmtx] operator[-] Other[1] operator[SEP] operator[SEP] identifier[getWx] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] identifier[nhmtx] operator[SEP] identifier[i] operator[<] identifier[mtxSize] operator[SEP] identifier[i] operator[++] operator[SEP] {
identifier[mtxTab] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[setWx] operator[SEP] identifier[lastWidth] operator[SEP] operator[SEP] identifier[mtxTab] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[setLsb] operator[SEP] identifier[in] operator[SEP] identifier[readTTFUShort] operator[SEP] operator[SEP] operator[SEP] operator[SEP]
}
}
}
|
public ControllerInner update(String resourceGroupName, String name, Map<String, String> tags) {
return updateWithServiceResponseAsync(resourceGroupName, name, tags).toBlocking().single().body();
} | class class_name[name] begin[{]
method[update, return_type[type[ControllerInner]], modifier[public], parameter[resourceGroupName, name, tags]] begin[{]
return[call[.updateWithServiceResponseAsync, parameter[member[.resourceGroupName], member[.name], member[.tags]]]]
end[}]
END[}] | Keyword[public] identifier[ControllerInner] identifier[update] operator[SEP] identifier[String] identifier[resourceGroupName] , identifier[String] identifier[name] , identifier[Map] operator[<] identifier[String] , identifier[String] operator[>] identifier[tags] operator[SEP] {
Keyword[return] identifier[updateWithServiceResponseAsync] operator[SEP] identifier[resourceGroupName] , identifier[name] , identifier[tags] 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]
}
|
public <T extends Serializable> void remove(StorageKey<T> key) {
String data = storage.getItem(key.name());
storage.removeItem(key.name());
T value = cache.remove(key);
fireEvent(StorageChangeEvent.ChangeType.REMOVE, key, null, value, null, data);
} | class class_name[name] begin[{]
method[remove, return_type[void], modifier[public], parameter[key]] begin[{]
local_variable[type[String], data]
call[storage.removeItem, parameter[call[key.name, parameter[]]]]
local_variable[type[T], value]
call[.fireEvent, parameter[member[StorageChangeEvent.ChangeType.REMOVE], member[.key], literal[null], member[.value], literal[null], member[.data]]]
end[}]
END[}] | Keyword[public] operator[<] identifier[T] Keyword[extends] identifier[Serializable] operator[>] Keyword[void] identifier[remove] operator[SEP] identifier[StorageKey] operator[<] identifier[T] operator[>] identifier[key] operator[SEP] {
identifier[String] identifier[data] operator[=] identifier[storage] operator[SEP] identifier[getItem] operator[SEP] identifier[key] operator[SEP] identifier[name] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[storage] operator[SEP] identifier[removeItem] operator[SEP] identifier[key] operator[SEP] identifier[name] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[T] identifier[value] operator[=] identifier[cache] operator[SEP] identifier[remove] operator[SEP] identifier[key] operator[SEP] operator[SEP] identifier[fireEvent] operator[SEP] identifier[StorageChangeEvent] operator[SEP] identifier[ChangeType] operator[SEP] identifier[REMOVE] , identifier[key] , Other[null] , identifier[value] , Other[null] , identifier[data] operator[SEP] operator[SEP]
}
|
private int getMatchingPoint(String pattern, String itemName) {
int index = pattern.indexOf('*');
if (index == -1) {
return -1;
}
String firstPart = pattern.substring(0, index);
if (!itemName.startsWith(firstPart)) {
return -1;
}
String secondPart = pattern.substring(index + 1);
if (!itemName.endsWith(secondPart)) {
return -1;
}
return firstPart.length() + secondPart.length();
} | class class_name[name] begin[{]
method[getMatchingPoint, return_type[type[int]], modifier[private], parameter[pattern, itemName]] begin[{]
local_variable[type[int], index]
if[binary_operation[member[.index], ==, literal[1]]] begin[{]
return[literal[1]]
else begin[{]
None
end[}]
local_variable[type[String], firstPart]
if[call[itemName.startsWith, parameter[member[.firstPart]]]] begin[{]
return[literal[1]]
else begin[{]
None
end[}]
local_variable[type[String], secondPart]
if[call[itemName.endsWith, parameter[member[.secondPart]]]] begin[{]
return[literal[1]]
else begin[{]
None
end[}]
return[binary_operation[call[firstPart.length, parameter[]], +, call[secondPart.length, parameter[]]]]
end[}]
END[}] | Keyword[private] Keyword[int] identifier[getMatchingPoint] operator[SEP] identifier[String] identifier[pattern] , identifier[String] identifier[itemName] operator[SEP] {
Keyword[int] identifier[index] operator[=] identifier[pattern] operator[SEP] identifier[indexOf] operator[SEP] literal[String] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[index] operator[==] operator[-] Other[1] operator[SEP] {
Keyword[return] operator[-] Other[1] operator[SEP]
}
identifier[String] identifier[firstPart] operator[=] identifier[pattern] operator[SEP] identifier[substring] operator[SEP] Other[0] , identifier[index] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[itemName] operator[SEP] identifier[startsWith] operator[SEP] identifier[firstPart] operator[SEP] operator[SEP] {
Keyword[return] operator[-] Other[1] operator[SEP]
}
identifier[String] identifier[secondPart] operator[=] identifier[pattern] operator[SEP] identifier[substring] operator[SEP] identifier[index] operator[+] Other[1] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[itemName] operator[SEP] identifier[endsWith] operator[SEP] identifier[secondPart] operator[SEP] operator[SEP] {
Keyword[return] operator[-] Other[1] operator[SEP]
}
Keyword[return] identifier[firstPart] operator[SEP] identifier[length] operator[SEP] operator[SEP] operator[+] identifier[secondPart] operator[SEP] identifier[length] operator[SEP] operator[SEP] operator[SEP]
}
|
private float getWordScore(DependencyTree t1, DependencyTree t2){
float score=0;
if(wg!=null){
if(wg.isSym(t1.word, t2.word))
score = 1;
else if(wg.isAntonym(t1.word, t2.word))
score = -1;
}else if(t1.word.equals(t2.word))
score = 1;
return score;
} | class class_name[name] begin[{]
method[getWordScore, return_type[type[float]], modifier[private], parameter[t1, t2]] begin[{]
local_variable[type[float], score]
if[binary_operation[member[.wg], !=, literal[null]]] begin[{]
if[call[wg.isSym, parameter[member[t1.word], member[t2.word]]]] begin[{]
assign[member[.score], literal[1]]
else begin[{]
if[call[wg.isAntonym, parameter[member[t1.word], member[t2.word]]]] begin[{]
assign[member[.score], literal[1]]
else begin[{]
None
end[}]
end[}]
else begin[{]
if[call[t1.word.equals, parameter[member[t2.word]]]] begin[{]
assign[member[.score], literal[1]]
else begin[{]
None
end[}]
end[}]
return[member[.score]]
end[}]
END[}] | Keyword[private] Keyword[float] identifier[getWordScore] operator[SEP] identifier[DependencyTree] identifier[t1] , identifier[DependencyTree] identifier[t2] operator[SEP] {
Keyword[float] identifier[score] operator[=] Other[0] operator[SEP] Keyword[if] operator[SEP] identifier[wg] operator[!=] Other[null] operator[SEP] {
Keyword[if] operator[SEP] identifier[wg] operator[SEP] identifier[isSym] operator[SEP] identifier[t1] operator[SEP] identifier[word] , identifier[t2] operator[SEP] identifier[word] operator[SEP] operator[SEP] identifier[score] operator[=] Other[1] operator[SEP] Keyword[else] Keyword[if] operator[SEP] identifier[wg] operator[SEP] identifier[isAntonym] operator[SEP] identifier[t1] operator[SEP] identifier[word] , identifier[t2] operator[SEP] identifier[word] operator[SEP] operator[SEP] identifier[score] operator[=] operator[-] Other[1] operator[SEP]
}
Keyword[else] Keyword[if] operator[SEP] identifier[t1] operator[SEP] identifier[word] operator[SEP] identifier[equals] operator[SEP] identifier[t2] operator[SEP] identifier[word] operator[SEP] operator[SEP] identifier[score] operator[=] Other[1] operator[SEP] Keyword[return] identifier[score] operator[SEP]
}
|
@Override
public void deleteOrReleaseReadLock(final String filename) {
if (isMultiChunked(filename)) {
int newValue = 0;
FileReadLockKey readLockKey = new FileReadLockKey(indexName, filename, affinitySegmentId);
boolean done = false;
Object lockValue = locksCache.get(readLockKey);
while (!done) {
if (lockValue == null) {
lockValue = locksCache.putIfAbsent(readLockKey, 0);
done = (null == lockValue);
}
else {
Integer refCountObject = (Integer) lockValue;
int refCount = refCountObject.intValue();
newValue = refCount - 1;
done = locksCache.replace(readLockKey, refCountObject, newValue);
if (!done) {
lockValue = locksCache.get(readLockKey);
}
}
}
if (newValue == 0) {
realFileDelete(indexName, filename, locksCache, chunksCache, metadataCache, forceSynchronousDeletes, affinitySegmentId);
}
}
else {
realFileDelete(indexName, filename, locksCache, chunksCache, metadataCache, forceSynchronousDeletes, affinitySegmentId);
}
} | class class_name[name] begin[{]
method[deleteOrReleaseReadLock, return_type[void], modifier[public], parameter[filename]] begin[{]
if[call[.isMultiChunked, parameter[member[.filename]]]] begin[{]
local_variable[type[int], newValue]
local_variable[type[FileReadLockKey], readLockKey]
local_variable[type[boolean], done]
local_variable[type[Object], lockValue]
while[member[.done]] begin[{]
if[binary_operation[member[.lockValue], ==, literal[null]]] begin[{]
assign[member[.lockValue], call[locksCache.putIfAbsent, parameter[member[.readLockKey], literal[0]]]]
assign[member[.done], binary_operation[literal[null], ==, member[.lockValue]]]
else begin[{]
local_variable[type[Integer], refCountObject]
local_variable[type[int], refCount]
assign[member[.newValue], binary_operation[member[.refCount], -, literal[1]]]
assign[member[.done], call[locksCache.replace, parameter[member[.readLockKey], member[.refCountObject], member[.newValue]]]]
if[member[.done]] begin[{]
assign[member[.lockValue], call[locksCache.get, parameter[member[.readLockKey]]]]
else begin[{]
None
end[}]
end[}]
end[}]
if[binary_operation[member[.newValue], ==, literal[0]]] begin[{]
call[.realFileDelete, parameter[member[.indexName], member[.filename], member[.locksCache], member[.chunksCache], member[.metadataCache], member[.forceSynchronousDeletes], member[.affinitySegmentId]]]
else begin[{]
None
end[}]
else begin[{]
call[.realFileDelete, parameter[member[.indexName], member[.filename], member[.locksCache], member[.chunksCache], member[.metadataCache], member[.forceSynchronousDeletes], member[.affinitySegmentId]]]
end[}]
end[}]
END[}] | annotation[@] identifier[Override] Keyword[public] Keyword[void] identifier[deleteOrReleaseReadLock] operator[SEP] Keyword[final] identifier[String] identifier[filename] operator[SEP] {
Keyword[if] operator[SEP] identifier[isMultiChunked] operator[SEP] identifier[filename] operator[SEP] operator[SEP] {
Keyword[int] identifier[newValue] operator[=] Other[0] operator[SEP] identifier[FileReadLockKey] identifier[readLockKey] operator[=] Keyword[new] identifier[FileReadLockKey] operator[SEP] identifier[indexName] , identifier[filename] , identifier[affinitySegmentId] operator[SEP] operator[SEP] Keyword[boolean] identifier[done] operator[=] literal[boolean] operator[SEP] identifier[Object] identifier[lockValue] operator[=] identifier[locksCache] operator[SEP] identifier[get] operator[SEP] identifier[readLockKey] operator[SEP] operator[SEP] Keyword[while] operator[SEP] operator[!] identifier[done] operator[SEP] {
Keyword[if] operator[SEP] identifier[lockValue] operator[==] Other[null] operator[SEP] {
identifier[lockValue] operator[=] identifier[locksCache] operator[SEP] identifier[putIfAbsent] operator[SEP] identifier[readLockKey] , Other[0] operator[SEP] operator[SEP] identifier[done] operator[=] operator[SEP] Other[null] operator[==] identifier[lockValue] operator[SEP] operator[SEP]
}
Keyword[else] {
identifier[Integer] identifier[refCountObject] operator[=] operator[SEP] identifier[Integer] operator[SEP] identifier[lockValue] operator[SEP] Keyword[int] identifier[refCount] operator[=] identifier[refCountObject] operator[SEP] identifier[intValue] operator[SEP] operator[SEP] operator[SEP] identifier[newValue] operator[=] identifier[refCount] operator[-] Other[1] operator[SEP] identifier[done] operator[=] identifier[locksCache] operator[SEP] identifier[replace] operator[SEP] identifier[readLockKey] , identifier[refCountObject] , identifier[newValue] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[done] operator[SEP] {
identifier[lockValue] operator[=] identifier[locksCache] operator[SEP] identifier[get] operator[SEP] identifier[readLockKey] operator[SEP] operator[SEP]
}
}
}
Keyword[if] operator[SEP] identifier[newValue] operator[==] Other[0] operator[SEP] {
identifier[realFileDelete] operator[SEP] identifier[indexName] , identifier[filename] , identifier[locksCache] , identifier[chunksCache] , identifier[metadataCache] , identifier[forceSynchronousDeletes] , identifier[affinitySegmentId] operator[SEP] operator[SEP]
}
}
Keyword[else] {
identifier[realFileDelete] operator[SEP] identifier[indexName] , identifier[filename] , identifier[locksCache] , identifier[chunksCache] , identifier[metadataCache] , identifier[forceSynchronousDeletes] , identifier[affinitySegmentId] operator[SEP] operator[SEP]
}
}
|
private JobSpec convertHopToJobSpec (ServiceNode sourceNode, ServiceNode targetNode, FlowSpec flowSpec) {
FlowEdge flowEdge = weightedGraph.getAllEdges(sourceNode, targetNode).iterator().next();
URI templateURI = getTemplateURI (sourceNode, targetNode, flowSpec, flowEdge);
return buildJobSpec(sourceNode, targetNode, templateURI, flowSpec);
} | class class_name[name] begin[{]
method[convertHopToJobSpec, return_type[type[JobSpec]], modifier[private], parameter[sourceNode, targetNode, flowSpec]] begin[{]
local_variable[type[FlowEdge], flowEdge]
local_variable[type[URI], templateURI]
return[call[.buildJobSpec, parameter[member[.sourceNode], member[.targetNode], member[.templateURI], member[.flowSpec]]]]
end[}]
END[}] | Keyword[private] identifier[JobSpec] identifier[convertHopToJobSpec] operator[SEP] identifier[ServiceNode] identifier[sourceNode] , identifier[ServiceNode] identifier[targetNode] , identifier[FlowSpec] identifier[flowSpec] operator[SEP] {
identifier[FlowEdge] identifier[flowEdge] operator[=] identifier[weightedGraph] operator[SEP] identifier[getAllEdges] operator[SEP] identifier[sourceNode] , identifier[targetNode] operator[SEP] operator[SEP] identifier[iterator] operator[SEP] operator[SEP] operator[SEP] identifier[next] operator[SEP] operator[SEP] operator[SEP] identifier[URI] identifier[templateURI] operator[=] identifier[getTemplateURI] operator[SEP] identifier[sourceNode] , identifier[targetNode] , identifier[flowSpec] , identifier[flowEdge] operator[SEP] operator[SEP] Keyword[return] identifier[buildJobSpec] operator[SEP] identifier[sourceNode] , identifier[targetNode] , identifier[templateURI] , identifier[flowSpec] operator[SEP] operator[SEP]
}
|
public static int setInterface(int modifier, boolean b) {
if (b) {
return (modifier | (INTERFACE | ABSTRACT)) &
(~FINAL & ~SYNCHRONIZED & ~VOLATILE & ~TRANSIENT & ~NATIVE);
}
else {
return modifier & ~INTERFACE;
}
} | class class_name[name] begin[{]
method[setInterface, return_type[type[int]], modifier[public static], parameter[modifier, b]] begin[{]
if[member[.b]] begin[{]
return[binary_operation[binary_operation[member[.modifier], |, binary_operation[member[.INTERFACE], |, member[.ABSTRACT]]], &, binary_operation[binary_operation[binary_operation[binary_operation[member[.FINAL], &, member[.SYNCHRONIZED]], &, member[.VOLATILE]], &, member[.TRANSIENT]], &, member[.NATIVE]]]]
else begin[{]
return[binary_operation[member[.modifier], &, member[.INTERFACE]]]
end[}]
end[}]
END[}] | Keyword[public] Keyword[static] Keyword[int] identifier[setInterface] operator[SEP] Keyword[int] identifier[modifier] , Keyword[boolean] identifier[b] operator[SEP] {
Keyword[if] operator[SEP] identifier[b] operator[SEP] {
Keyword[return] operator[SEP] identifier[modifier] operator[|] operator[SEP] identifier[INTERFACE] operator[|] identifier[ABSTRACT] operator[SEP] operator[SEP] operator[&] operator[SEP] operator[~] identifier[FINAL] operator[&] operator[~] identifier[SYNCHRONIZED] operator[&] operator[~] identifier[VOLATILE] operator[&] operator[~] identifier[TRANSIENT] operator[&] operator[~] identifier[NATIVE] operator[SEP] operator[SEP]
}
Keyword[else] {
Keyword[return] identifier[modifier] operator[&] operator[~] identifier[INTERFACE] operator[SEP]
}
}
|
public void marshall(JobDetail jobDetail, ProtocolMarshaller protocolMarshaller) {
if (jobDetail == null) {
throw new SdkClientException("Invalid argument passed to marshall(...)");
}
try {
protocolMarshaller.marshall(jobDetail.getJobName(), JOBNAME_BINDING);
protocolMarshaller.marshall(jobDetail.getJobId(), JOBID_BINDING);
protocolMarshaller.marshall(jobDetail.getJobQueue(), JOBQUEUE_BINDING);
protocolMarshaller.marshall(jobDetail.getStatus(), STATUS_BINDING);
protocolMarshaller.marshall(jobDetail.getAttempts(), ATTEMPTS_BINDING);
protocolMarshaller.marshall(jobDetail.getStatusReason(), STATUSREASON_BINDING);
protocolMarshaller.marshall(jobDetail.getCreatedAt(), CREATEDAT_BINDING);
protocolMarshaller.marshall(jobDetail.getRetryStrategy(), RETRYSTRATEGY_BINDING);
protocolMarshaller.marshall(jobDetail.getStartedAt(), STARTEDAT_BINDING);
protocolMarshaller.marshall(jobDetail.getStoppedAt(), STOPPEDAT_BINDING);
protocolMarshaller.marshall(jobDetail.getDependsOn(), DEPENDSON_BINDING);
protocolMarshaller.marshall(jobDetail.getJobDefinition(), JOBDEFINITION_BINDING);
protocolMarshaller.marshall(jobDetail.getParameters(), PARAMETERS_BINDING);
protocolMarshaller.marshall(jobDetail.getContainer(), CONTAINER_BINDING);
protocolMarshaller.marshall(jobDetail.getNodeDetails(), NODEDETAILS_BINDING);
protocolMarshaller.marshall(jobDetail.getNodeProperties(), NODEPROPERTIES_BINDING);
protocolMarshaller.marshall(jobDetail.getArrayProperties(), ARRAYPROPERTIES_BINDING);
protocolMarshaller.marshall(jobDetail.getTimeout(), TIMEOUT_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[jobDetail, protocolMarshaller]] begin[{]
if[binary_operation[member[.jobDetail], ==, 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=getJobName, postfix_operators=[], prefix_operators=[], qualifier=jobDetail, selectors=[], type_arguments=None), MemberReference(member=JOBNAME_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=getJobId, postfix_operators=[], prefix_operators=[], qualifier=jobDetail, selectors=[], type_arguments=None), MemberReference(member=JOBID_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=getJobQueue, postfix_operators=[], prefix_operators=[], qualifier=jobDetail, selectors=[], type_arguments=None), MemberReference(member=JOBQUEUE_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=getStatus, postfix_operators=[], prefix_operators=[], qualifier=jobDetail, selectors=[], type_arguments=None), MemberReference(member=STATUS_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=getAttempts, postfix_operators=[], prefix_operators=[], qualifier=jobDetail, selectors=[], type_arguments=None), MemberReference(member=ATTEMPTS_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=getStatusReason, postfix_operators=[], prefix_operators=[], qualifier=jobDetail, selectors=[], type_arguments=None), MemberReference(member=STATUSREASON_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=getCreatedAt, postfix_operators=[], prefix_operators=[], qualifier=jobDetail, selectors=[], type_arguments=None), MemberReference(member=CREATEDAT_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=getRetryStrategy, postfix_operators=[], prefix_operators=[], qualifier=jobDetail, selectors=[], type_arguments=None), MemberReference(member=RETRYSTRATEGY_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=getStartedAt, postfix_operators=[], prefix_operators=[], qualifier=jobDetail, selectors=[], type_arguments=None), MemberReference(member=STARTEDAT_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=getStoppedAt, postfix_operators=[], prefix_operators=[], qualifier=jobDetail, selectors=[], type_arguments=None), MemberReference(member=STOPPEDAT_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=getDependsOn, postfix_operators=[], prefix_operators=[], qualifier=jobDetail, selectors=[], type_arguments=None), MemberReference(member=DEPENDSON_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=getJobDefinition, postfix_operators=[], prefix_operators=[], qualifier=jobDetail, selectors=[], type_arguments=None), MemberReference(member=JOBDEFINITION_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=getParameters, postfix_operators=[], prefix_operators=[], qualifier=jobDetail, selectors=[], type_arguments=None), MemberReference(member=PARAMETERS_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=getContainer, postfix_operators=[], prefix_operators=[], qualifier=jobDetail, selectors=[], type_arguments=None), MemberReference(member=CONTAINER_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=getNodeDetails, postfix_operators=[], prefix_operators=[], qualifier=jobDetail, selectors=[], type_arguments=None), MemberReference(member=NODEDETAILS_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=getNodeProperties, postfix_operators=[], prefix_operators=[], qualifier=jobDetail, selectors=[], type_arguments=None), MemberReference(member=NODEPROPERTIES_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=getArrayProperties, postfix_operators=[], prefix_operators=[], qualifier=jobDetail, selectors=[], type_arguments=None), MemberReference(member=ARRAYPROPERTIES_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=getTimeout, postfix_operators=[], prefix_operators=[], qualifier=jobDetail, selectors=[], type_arguments=None), MemberReference(member=TIMEOUT_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[JobDetail] identifier[jobDetail] , identifier[ProtocolMarshaller] identifier[protocolMarshaller] operator[SEP] {
Keyword[if] operator[SEP] identifier[jobDetail] 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[jobDetail] operator[SEP] identifier[getJobName] operator[SEP] operator[SEP] , identifier[JOBNAME_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[jobDetail] operator[SEP] identifier[getJobId] operator[SEP] operator[SEP] , identifier[JOBID_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[jobDetail] operator[SEP] identifier[getJobQueue] operator[SEP] operator[SEP] , identifier[JOBQUEUE_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[jobDetail] operator[SEP] identifier[getStatus] operator[SEP] operator[SEP] , identifier[STATUS_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[jobDetail] operator[SEP] identifier[getAttempts] operator[SEP] operator[SEP] , identifier[ATTEMPTS_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[jobDetail] operator[SEP] identifier[getStatusReason] operator[SEP] operator[SEP] , identifier[STATUSREASON_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[jobDetail] operator[SEP] identifier[getCreatedAt] operator[SEP] operator[SEP] , identifier[CREATEDAT_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[jobDetail] operator[SEP] identifier[getRetryStrategy] operator[SEP] operator[SEP] , identifier[RETRYSTRATEGY_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[jobDetail] operator[SEP] identifier[getStartedAt] operator[SEP] operator[SEP] , identifier[STARTEDAT_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[jobDetail] operator[SEP] identifier[getStoppedAt] operator[SEP] operator[SEP] , identifier[STOPPEDAT_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[jobDetail] operator[SEP] identifier[getDependsOn] operator[SEP] operator[SEP] , identifier[DEPENDSON_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[jobDetail] operator[SEP] identifier[getJobDefinition] operator[SEP] operator[SEP] , identifier[JOBDEFINITION_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[jobDetail] operator[SEP] identifier[getParameters] operator[SEP] operator[SEP] , identifier[PARAMETERS_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[jobDetail] operator[SEP] identifier[getContainer] operator[SEP] operator[SEP] , identifier[CONTAINER_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[jobDetail] operator[SEP] identifier[getNodeDetails] operator[SEP] operator[SEP] , identifier[NODEDETAILS_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[jobDetail] operator[SEP] identifier[getNodeProperties] operator[SEP] operator[SEP] , identifier[NODEPROPERTIES_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[jobDetail] operator[SEP] identifier[getArrayProperties] operator[SEP] operator[SEP] , identifier[ARRAYPROPERTIES_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[jobDetail] operator[SEP] identifier[getTimeout] operator[SEP] operator[SEP] , identifier[TIMEOUT_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 Result<Response> handleAsync(JsonPath jsonPath, QueryAdapter queryAdapter, Document requestBody) {
Serializable id = jsonPath.getId();
RegistryEntry rootEntry = jsonPath.getRootEntry();
ResourceRepositoryAdapter resourceRepository = rootEntry.getResourceRepository();
DocumentMappingConfig docummentMapperConfig = DocumentMappingConfig.create();
DocumentMapper documentMapper = context.getDocumentMapper();
return resourceRepository.findOne(id, queryAdapter)
.merge(it -> documentMapper.toDocument(it, queryAdapter, docummentMapperConfig))
.map(this::toResponse);
} | class class_name[name] begin[{]
method[handleAsync, return_type[type[Result]], modifier[public], parameter[jsonPath, queryAdapter, requestBody]] begin[{]
local_variable[type[Serializable], id]
local_variable[type[RegistryEntry], rootEntry]
local_variable[type[ResourceRepositoryAdapter], resourceRepository]
local_variable[type[DocumentMappingConfig], docummentMapperConfig]
local_variable[type[DocumentMapper], documentMapper]
return[call[resourceRepository.findOne, parameter[member[.id], member[.queryAdapter]]]]
end[}]
END[}] | annotation[@] identifier[Override] Keyword[public] identifier[Result] operator[<] identifier[Response] operator[>] identifier[handleAsync] operator[SEP] identifier[JsonPath] identifier[jsonPath] , identifier[QueryAdapter] identifier[queryAdapter] , identifier[Document] identifier[requestBody] operator[SEP] {
identifier[Serializable] identifier[id] operator[=] identifier[jsonPath] operator[SEP] identifier[getId] operator[SEP] operator[SEP] operator[SEP] identifier[RegistryEntry] identifier[rootEntry] operator[=] identifier[jsonPath] operator[SEP] identifier[getRootEntry] operator[SEP] operator[SEP] operator[SEP] identifier[ResourceRepositoryAdapter] identifier[resourceRepository] operator[=] identifier[rootEntry] operator[SEP] identifier[getResourceRepository] operator[SEP] operator[SEP] operator[SEP] identifier[DocumentMappingConfig] identifier[docummentMapperConfig] operator[=] identifier[DocumentMappingConfig] operator[SEP] identifier[create] operator[SEP] operator[SEP] operator[SEP] identifier[DocumentMapper] identifier[documentMapper] operator[=] identifier[context] operator[SEP] identifier[getDocumentMapper] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[resourceRepository] operator[SEP] identifier[findOne] operator[SEP] identifier[id] , identifier[queryAdapter] operator[SEP] operator[SEP] identifier[merge] operator[SEP] identifier[it] operator[->] identifier[documentMapper] operator[SEP] identifier[toDocument] operator[SEP] identifier[it] , identifier[queryAdapter] , identifier[docummentMapperConfig] operator[SEP] operator[SEP] operator[SEP] identifier[map] operator[SEP] Keyword[this] operator[::] identifier[toResponse] operator[SEP] operator[SEP]
}
|
public static String getExtension(String fileName) {
if (fileName == null)
return null;
if (fileName.isEmpty())
return "";
int idx = fileName.lastIndexOf(".");
if (idx != -1) {
return fileName.substring(idx);
} else {
return "";
}
} | class class_name[name] begin[{]
method[getExtension, return_type[type[String]], modifier[public static], parameter[fileName]] begin[{]
if[binary_operation[member[.fileName], ==, literal[null]]] begin[{]
return[literal[null]]
else begin[{]
None
end[}]
if[call[fileName.isEmpty, parameter[]]] begin[{]
return[literal[""]]
else begin[{]
None
end[}]
local_variable[type[int], idx]
if[binary_operation[member[.idx], !=, literal[1]]] begin[{]
return[call[fileName.substring, parameter[member[.idx]]]]
else begin[{]
return[literal[""]]
end[}]
end[}]
END[}] | Keyword[public] Keyword[static] identifier[String] identifier[getExtension] operator[SEP] identifier[String] identifier[fileName] operator[SEP] {
Keyword[if] operator[SEP] identifier[fileName] operator[==] Other[null] operator[SEP] Keyword[return] Other[null] operator[SEP] Keyword[if] operator[SEP] identifier[fileName] operator[SEP] identifier[isEmpty] operator[SEP] operator[SEP] operator[SEP] Keyword[return] literal[String] operator[SEP] Keyword[int] identifier[idx] operator[=] identifier[fileName] operator[SEP] identifier[lastIndexOf] operator[SEP] literal[String] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[idx] operator[!=] operator[-] Other[1] operator[SEP] {
Keyword[return] identifier[fileName] operator[SEP] identifier[substring] operator[SEP] identifier[idx] operator[SEP] operator[SEP]
}
Keyword[else] {
Keyword[return] literal[String] operator[SEP]
}
}
|
public void setYmSize(Integer newYmSize) {
Integer oldYmSize = ymSize;
ymSize = newYmSize;
if (eNotificationRequired())
eNotify(new ENotificationImpl(this, Notification.SET, AfplibPackage.MDD__YM_SIZE, oldYmSize, ymSize));
} | class class_name[name] begin[{]
method[setYmSize, return_type[void], modifier[public], parameter[newYmSize]] begin[{]
local_variable[type[Integer], oldYmSize]
assign[member[.ymSize], member[.newYmSize]]
if[call[.eNotificationRequired, parameter[]]] begin[{]
call[.eNotify, parameter[ClassCreator(arguments=[This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[]), MemberReference(member=SET, postfix_operators=[], prefix_operators=[], qualifier=Notification, selectors=[]), MemberReference(member=MDD__YM_SIZE, postfix_operators=[], prefix_operators=[], qualifier=AfplibPackage, selectors=[]), MemberReference(member=oldYmSize, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=ymSize, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=ENotificationImpl, sub_type=None))]]
else begin[{]
None
end[}]
end[}]
END[}] | Keyword[public] Keyword[void] identifier[setYmSize] operator[SEP] identifier[Integer] identifier[newYmSize] operator[SEP] {
identifier[Integer] identifier[oldYmSize] operator[=] identifier[ymSize] operator[SEP] identifier[ymSize] operator[=] identifier[newYmSize] operator[SEP] Keyword[if] operator[SEP] identifier[eNotificationRequired] operator[SEP] operator[SEP] operator[SEP] identifier[eNotify] operator[SEP] Keyword[new] identifier[ENotificationImpl] operator[SEP] Keyword[this] , identifier[Notification] operator[SEP] identifier[SET] , identifier[AfplibPackage] operator[SEP] identifier[MDD__YM_SIZE] , identifier[oldYmSize] , identifier[ymSize] operator[SEP] operator[SEP] operator[SEP]
}
|
public final String getValue() {
final StringBuilder b = new StringBuilder();
if ((getStatusCode() != null)) {
b.append(getStatusCode());
}
if ((getDescription() != null)) {
b.append(';');
b.append(getDescription());
}
if ((getExData() != null)) {
b.append(';');
b.append(getExData());
}
return b.toString();
} | class class_name[name] begin[{]
method[getValue, return_type[type[String]], modifier[final public], parameter[]] begin[{]
local_variable[type[StringBuilder], b]
if[binary_operation[call[.getStatusCode, parameter[]], !=, literal[null]]] begin[{]
call[b.append, parameter[call[.getStatusCode, parameter[]]]]
else begin[{]
None
end[}]
if[binary_operation[call[.getDescription, parameter[]], !=, literal[null]]] begin[{]
call[b.append, parameter[literal[';']]]
call[b.append, parameter[call[.getDescription, parameter[]]]]
else begin[{]
None
end[}]
if[binary_operation[call[.getExData, parameter[]], !=, literal[null]]] begin[{]
call[b.append, parameter[literal[';']]]
call[b.append, parameter[call[.getExData, parameter[]]]]
else begin[{]
None
end[}]
return[call[b.toString, parameter[]]]
end[}]
END[}] | Keyword[public] Keyword[final] identifier[String] identifier[getValue] operator[SEP] operator[SEP] {
Keyword[final] identifier[StringBuilder] identifier[b] operator[=] Keyword[new] identifier[StringBuilder] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[SEP] identifier[getStatusCode] operator[SEP] operator[SEP] operator[!=] Other[null] operator[SEP] operator[SEP] {
identifier[b] operator[SEP] identifier[append] operator[SEP] identifier[getStatusCode] operator[SEP] operator[SEP] operator[SEP] operator[SEP]
}
Keyword[if] operator[SEP] operator[SEP] identifier[getDescription] operator[SEP] operator[SEP] operator[!=] Other[null] operator[SEP] operator[SEP] {
identifier[b] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[b] operator[SEP] identifier[append] operator[SEP] identifier[getDescription] operator[SEP] operator[SEP] operator[SEP] operator[SEP]
}
Keyword[if] operator[SEP] operator[SEP] identifier[getExData] operator[SEP] operator[SEP] operator[!=] Other[null] operator[SEP] operator[SEP] {
identifier[b] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[b] operator[SEP] identifier[append] operator[SEP] identifier[getExData] operator[SEP] operator[SEP] operator[SEP] operator[SEP]
}
Keyword[return] identifier[b] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP]
}
|
public static boolean isFileUpdate(String oldName, String newName) {
return isFileEqual(new File(oldName), new File(newName));
} | class class_name[name] begin[{]
method[isFileUpdate, return_type[type[boolean]], modifier[public static], parameter[oldName, newName]] begin[{]
return[call[.isFileEqual, parameter[ClassCreator(arguments=[MemberReference(member=oldName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=File, sub_type=None)), ClassCreator(arguments=[MemberReference(member=newName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=File, sub_type=None))]]]
end[}]
END[}] | Keyword[public] Keyword[static] Keyword[boolean] identifier[isFileUpdate] operator[SEP] identifier[String] identifier[oldName] , identifier[String] identifier[newName] operator[SEP] {
Keyword[return] identifier[isFileEqual] operator[SEP] Keyword[new] identifier[File] operator[SEP] identifier[oldName] operator[SEP] , Keyword[new] identifier[File] operator[SEP] identifier[newName] operator[SEP] operator[SEP] operator[SEP]
}
|
void radb2(final int ido, final int l1, final double in[], final int in_off, final double out[], final int out_off, final int offset) {
int i, ic;
double t1i, t1r, w1r, w1i;
int iw1 = offset;
int idx0 = l1 * ido;
for (int k = 0; k < l1; k++) {
int idx1 = k * ido;
int idx2 = 2 * idx1;
int idx3 = idx2 + ido;
int oidx1 = out_off + idx1;
int iidx1 = in_off + idx2;
int iidx2 = in_off + ido - 1 + idx3;
double i1r = in[iidx1];
double i2r = in[iidx2];
out[oidx1] = i1r + i2r;
out[oidx1 + idx0] = i1r - i2r;
}
if (ido < 2)
return;
if (ido != 2) {
for (int k = 0; k < l1; ++k) {
int idx1 = k * ido;
int idx2 = 2 * idx1;
int idx3 = idx2 + ido;
int idx4 = idx1 + idx0;
for (i = 2; i < ido; i += 2) {
ic = ido - i;
int idx5 = i - 1 + iw1;
int idx6 = out_off + i;
int idx7 = in_off + i;
int idx8 = in_off + ic;
w1r = wtable_r[idx5 - 1];
w1i = wtable_r[idx5];
int iidx1 = idx7 + idx2;
int iidx2 = idx8 + idx3;
int oidx1 = idx6 + idx1;
int oidx2 = idx6 + idx4;
t1r = in[iidx1 - 1] - in[iidx2 - 1];
t1i = in[iidx1] + in[iidx2];
double i1i = in[iidx1];
double i1r = in[iidx1 - 1];
double i2i = in[iidx2];
double i2r = in[iidx2 - 1];
out[oidx1 - 1] = i1r + i2r;
out[oidx1] = i1i - i2i;
out[oidx2 - 1] = w1r * t1r - w1i * t1i;
out[oidx2] = w1r * t1i + w1i * t1r;
}
}
if (ido % 2 == 1)
return;
}
for (int k = 0; k < l1; k++) {
int idx1 = k * ido;
int idx2 = 2 * idx1;
int oidx1 = out_off + ido - 1 + idx1;
int iidx1 = in_off + idx2 + ido;
out[oidx1] = 2 * in[iidx1 - 1];
out[oidx1 + idx0] = -2 * in[iidx1];
}
} | class class_name[name] begin[{]
method[radb2, return_type[void], modifier[default], parameter[ido, l1, in, in_off, out, out_off, offset]] begin[{]
local_variable[type[int], i]
local_variable[type[double], t1i]
local_variable[type[int], iw1]
local_variable[type[int], idx0]
ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=k, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=ido, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=*), name=idx1)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2), operandr=MemberReference(member=idx1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=*), name=idx2)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=idx2, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=ido, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), name=idx3)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=out_off, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=idx1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), name=oidx1)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=in_off, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=idx2, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), name=iidx1)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=in_off, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=ido, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=-), operandr=MemberReference(member=idx3, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), name=iidx2)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=in, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=iidx1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), name=i1r)], modifiers=set(), type=BasicType(dimensions=[], name=double)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=in, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=iidx2, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), name=i2r)], modifiers=set(), type=BasicType(dimensions=[], name=double)), StatementExpression(expression=Assignment(expressionl=MemberReference(member=out, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=oidx1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), type==, value=BinaryOperation(operandl=MemberReference(member=i1r, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=i2r, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=out, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=BinaryOperation(operandl=MemberReference(member=oidx1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=idx0, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+))]), type==, value=BinaryOperation(operandl=MemberReference(member=i1r, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=i2r, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=-)), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=k, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=l1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=<), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), name=k)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=k, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None)
if[binary_operation[member[.ido], <, literal[2]]] begin[{]
return[None]
else begin[{]
None
end[}]
if[binary_operation[member[.ido], !=, literal[2]]] begin[{]
ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=k, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=ido, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=*), name=idx1)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2), operandr=MemberReference(member=idx1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=*), name=idx2)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=idx2, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=ido, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), name=idx3)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=idx1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=idx0, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), name=idx4)], modifiers=set(), type=BasicType(dimensions=[], name=int)), ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=ic, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=BinaryOperation(operandl=MemberReference(member=ido, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=-)), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=-), operandr=MemberReference(member=iw1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), name=idx5)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=out_off, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), name=idx6)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=in_off, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), name=idx7)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=in_off, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=ic, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), name=idx8)], modifiers=set(), type=BasicType(dimensions=[], name=int)), StatementExpression(expression=Assignment(expressionl=MemberReference(member=w1r, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MemberReference(member=wtable_r, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=BinaryOperation(operandl=MemberReference(member=idx5, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=-))])), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=w1i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MemberReference(member=wtable_r, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=idx5, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))])), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=idx7, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=idx2, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), name=iidx1)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=idx8, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=idx3, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), name=iidx2)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=idx6, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=idx1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), name=oidx1)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=idx6, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=idx4, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), name=oidx2)], modifiers=set(), type=BasicType(dimensions=[], name=int)), StatementExpression(expression=Assignment(expressionl=MemberReference(member=t1r, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=BinaryOperation(operandl=MemberReference(member=in, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=BinaryOperation(operandl=MemberReference(member=iidx1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=-))]), operandr=MemberReference(member=in, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=BinaryOperation(operandl=MemberReference(member=iidx2, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=-))]), operator=-)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=t1i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=BinaryOperation(operandl=MemberReference(member=in, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=iidx1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), operandr=MemberReference(member=in, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=iidx2, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), operator=+)), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=in, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=iidx1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), name=i1i)], modifiers=set(), type=BasicType(dimensions=[], name=double)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=in, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=BinaryOperation(operandl=MemberReference(member=iidx1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=-))]), name=i1r)], modifiers=set(), type=BasicType(dimensions=[], name=double)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=in, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=iidx2, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), name=i2i)], modifiers=set(), type=BasicType(dimensions=[], name=double)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=in, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=BinaryOperation(operandl=MemberReference(member=iidx2, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=-))]), name=i2r)], modifiers=set(), type=BasicType(dimensions=[], name=double)), StatementExpression(expression=Assignment(expressionl=MemberReference(member=out, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=BinaryOperation(operandl=MemberReference(member=oidx1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=-))]), type==, value=BinaryOperation(operandl=MemberReference(member=i1r, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=i2r, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=out, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=oidx1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), type==, value=BinaryOperation(operandl=MemberReference(member=i1i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=i2i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=-)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=out, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=BinaryOperation(operandl=MemberReference(member=oidx2, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=-))]), type==, value=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=w1r, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=t1r, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=*), operandr=BinaryOperation(operandl=MemberReference(member=w1i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=t1i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=*), operator=-)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=out, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=oidx2, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), type==, value=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=w1r, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=t1i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=*), operandr=BinaryOperation(operandl=MemberReference(member=w1i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=t1r, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=*), operator=+)), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=ido, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=<), init=[Assignment(expressionl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2))], update=[Assignment(expressionl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=+=, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2))]), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=k, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=l1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=<), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), name=k)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=k, postfix_operators=[], prefix_operators=['++'], qualifier=, selectors=[])]), label=None)
if[binary_operation[binary_operation[member[.ido], %, literal[2]], ==, literal[1]]] begin[{]
return[None]
else begin[{]
None
end[}]
else begin[{]
None
end[}]
ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=MemberReference(member=k, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=ido, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=*), name=idx1)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2), operandr=MemberReference(member=idx1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=*), name=idx2)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=out_off, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=ido, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=-), operandr=MemberReference(member=idx1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), name=oidx1)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=in_off, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=idx2, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), operandr=MemberReference(member=ido, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), name=iidx1)], modifiers=set(), type=BasicType(dimensions=[], name=int)), StatementExpression(expression=Assignment(expressionl=MemberReference(member=out, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=oidx1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), type==, value=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2), operandr=MemberReference(member=in, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=BinaryOperation(operandl=MemberReference(member=iidx1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=-))]), operator=*)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=out, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=BinaryOperation(operandl=MemberReference(member=oidx1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=idx0, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+))]), type==, value=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=['-'], qualifier=None, selectors=[], value=2), operandr=MemberReference(member=in, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=iidx1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), operator=*)), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=k, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=l1, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=<), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), name=k)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=k, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None)
end[}]
END[}] | Keyword[void] identifier[radb2] operator[SEP] Keyword[final] Keyword[int] identifier[ido] , Keyword[final] Keyword[int] identifier[l1] , Keyword[final] Keyword[double] identifier[in] operator[SEP] operator[SEP] , Keyword[final] Keyword[int] identifier[in_off] , Keyword[final] Keyword[double] identifier[out] operator[SEP] operator[SEP] , Keyword[final] Keyword[int] identifier[out_off] , Keyword[final] Keyword[int] identifier[offset] operator[SEP] {
Keyword[int] identifier[i] , identifier[ic] operator[SEP] Keyword[double] identifier[t1i] , identifier[t1r] , identifier[w1r] , identifier[w1i] operator[SEP] Keyword[int] identifier[iw1] operator[=] identifier[offset] operator[SEP] Keyword[int] identifier[idx0] operator[=] identifier[l1] operator[*] identifier[ido] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[k] operator[=] Other[0] operator[SEP] identifier[k] operator[<] identifier[l1] operator[SEP] identifier[k] operator[++] operator[SEP] {
Keyword[int] identifier[idx1] operator[=] identifier[k] operator[*] identifier[ido] operator[SEP] Keyword[int] identifier[idx2] operator[=] Other[2] operator[*] identifier[idx1] operator[SEP] Keyword[int] identifier[idx3] operator[=] identifier[idx2] operator[+] identifier[ido] operator[SEP] Keyword[int] identifier[oidx1] operator[=] identifier[out_off] operator[+] identifier[idx1] operator[SEP] Keyword[int] identifier[iidx1] operator[=] identifier[in_off] operator[+] identifier[idx2] operator[SEP] Keyword[int] identifier[iidx2] operator[=] identifier[in_off] operator[+] identifier[ido] operator[-] Other[1] operator[+] identifier[idx3] operator[SEP] Keyword[double] identifier[i1r] operator[=] identifier[in] operator[SEP] identifier[iidx1] operator[SEP] operator[SEP] Keyword[double] identifier[i2r] operator[=] identifier[in] operator[SEP] identifier[iidx2] operator[SEP] operator[SEP] identifier[out] operator[SEP] identifier[oidx1] operator[SEP] operator[=] identifier[i1r] operator[+] identifier[i2r] operator[SEP] identifier[out] operator[SEP] identifier[oidx1] operator[+] identifier[idx0] operator[SEP] operator[=] identifier[i1r] operator[-] identifier[i2r] operator[SEP]
}
Keyword[if] operator[SEP] identifier[ido] operator[<] Other[2] operator[SEP] Keyword[return] operator[SEP] Keyword[if] operator[SEP] identifier[ido] operator[!=] Other[2] operator[SEP] {
Keyword[for] operator[SEP] Keyword[int] identifier[k] operator[=] Other[0] operator[SEP] identifier[k] operator[<] identifier[l1] operator[SEP] operator[++] identifier[k] operator[SEP] {
Keyword[int] identifier[idx1] operator[=] identifier[k] operator[*] identifier[ido] operator[SEP] Keyword[int] identifier[idx2] operator[=] Other[2] operator[*] identifier[idx1] operator[SEP] Keyword[int] identifier[idx3] operator[=] identifier[idx2] operator[+] identifier[ido] operator[SEP] Keyword[int] identifier[idx4] operator[=] identifier[idx1] operator[+] identifier[idx0] operator[SEP] Keyword[for] operator[SEP] identifier[i] operator[=] Other[2] operator[SEP] identifier[i] operator[<] identifier[ido] operator[SEP] identifier[i] operator[+=] Other[2] operator[SEP] {
identifier[ic] operator[=] identifier[ido] operator[-] identifier[i] operator[SEP] Keyword[int] identifier[idx5] operator[=] identifier[i] operator[-] Other[1] operator[+] identifier[iw1] operator[SEP] Keyword[int] identifier[idx6] operator[=] identifier[out_off] operator[+] identifier[i] operator[SEP] Keyword[int] identifier[idx7] operator[=] identifier[in_off] operator[+] identifier[i] operator[SEP] Keyword[int] identifier[idx8] operator[=] identifier[in_off] operator[+] identifier[ic] operator[SEP] identifier[w1r] operator[=] identifier[wtable_r] operator[SEP] identifier[idx5] operator[-] Other[1] operator[SEP] operator[SEP] identifier[w1i] operator[=] identifier[wtable_r] operator[SEP] identifier[idx5] operator[SEP] operator[SEP] Keyword[int] identifier[iidx1] operator[=] identifier[idx7] operator[+] identifier[idx2] operator[SEP] Keyword[int] identifier[iidx2] operator[=] identifier[idx8] operator[+] identifier[idx3] operator[SEP] Keyword[int] identifier[oidx1] operator[=] identifier[idx6] operator[+] identifier[idx1] operator[SEP] Keyword[int] identifier[oidx2] operator[=] identifier[idx6] operator[+] identifier[idx4] operator[SEP] identifier[t1r] operator[=] identifier[in] operator[SEP] identifier[iidx1] operator[-] Other[1] operator[SEP] operator[-] identifier[in] operator[SEP] identifier[iidx2] operator[-] Other[1] operator[SEP] operator[SEP] identifier[t1i] operator[=] identifier[in] operator[SEP] identifier[iidx1] operator[SEP] operator[+] identifier[in] operator[SEP] identifier[iidx2] operator[SEP] operator[SEP] Keyword[double] identifier[i1i] operator[=] identifier[in] operator[SEP] identifier[iidx1] operator[SEP] operator[SEP] Keyword[double] identifier[i1r] operator[=] identifier[in] operator[SEP] identifier[iidx1] operator[-] Other[1] operator[SEP] operator[SEP] Keyword[double] identifier[i2i] operator[=] identifier[in] operator[SEP] identifier[iidx2] operator[SEP] operator[SEP] Keyword[double] identifier[i2r] operator[=] identifier[in] operator[SEP] identifier[iidx2] operator[-] Other[1] operator[SEP] operator[SEP] identifier[out] operator[SEP] identifier[oidx1] operator[-] Other[1] operator[SEP] operator[=] identifier[i1r] operator[+] identifier[i2r] operator[SEP] identifier[out] operator[SEP] identifier[oidx1] operator[SEP] operator[=] identifier[i1i] operator[-] identifier[i2i] operator[SEP] identifier[out] operator[SEP] identifier[oidx2] operator[-] Other[1] operator[SEP] operator[=] identifier[w1r] operator[*] identifier[t1r] operator[-] identifier[w1i] operator[*] identifier[t1i] operator[SEP] identifier[out] operator[SEP] identifier[oidx2] operator[SEP] operator[=] identifier[w1r] operator[*] identifier[t1i] operator[+] identifier[w1i] operator[*] identifier[t1r] operator[SEP]
}
}
Keyword[if] operator[SEP] identifier[ido] operator[%] Other[2] operator[==] Other[1] operator[SEP] Keyword[return] operator[SEP]
}
Keyword[for] operator[SEP] Keyword[int] identifier[k] operator[=] Other[0] operator[SEP] identifier[k] operator[<] identifier[l1] operator[SEP] identifier[k] operator[++] operator[SEP] {
Keyword[int] identifier[idx1] operator[=] identifier[k] operator[*] identifier[ido] operator[SEP] Keyword[int] identifier[idx2] operator[=] Other[2] operator[*] identifier[idx1] operator[SEP] Keyword[int] identifier[oidx1] operator[=] identifier[out_off] operator[+] identifier[ido] operator[-] Other[1] operator[+] identifier[idx1] operator[SEP] Keyword[int] identifier[iidx1] operator[=] identifier[in_off] operator[+] identifier[idx2] operator[+] identifier[ido] operator[SEP] identifier[out] operator[SEP] identifier[oidx1] operator[SEP] operator[=] Other[2] operator[*] identifier[in] operator[SEP] identifier[iidx1] operator[-] Other[1] operator[SEP] operator[SEP] identifier[out] operator[SEP] identifier[oidx1] operator[+] identifier[idx0] operator[SEP] operator[=] operator[-] Other[2] operator[*] identifier[in] operator[SEP] identifier[iidx1] operator[SEP] operator[SEP]
}
}
|
public ChronoLocalDate dateYearDay(Era era, int yearOfEra, int dayOfYear) {
return dateYearDay(prolepticYear(era, yearOfEra), dayOfYear);
} | class class_name[name] begin[{]
method[dateYearDay, return_type[type[ChronoLocalDate]], modifier[public], parameter[era, yearOfEra, dayOfYear]] begin[{]
return[call[.dateYearDay, parameter[call[.prolepticYear, parameter[member[.era], member[.yearOfEra]]], member[.dayOfYear]]]]
end[}]
END[}] | Keyword[public] identifier[ChronoLocalDate] identifier[dateYearDay] operator[SEP] identifier[Era] identifier[era] , Keyword[int] identifier[yearOfEra] , Keyword[int] identifier[dayOfYear] operator[SEP] {
Keyword[return] identifier[dateYearDay] operator[SEP] identifier[prolepticYear] operator[SEP] identifier[era] , identifier[yearOfEra] operator[SEP] , identifier[dayOfYear] operator[SEP] operator[SEP]
}
|
@Override
public ServiceCache<T> build()
{
if (executorService != null)
{
return new ServiceCacheImplExt<>(discovery, name, executorService);
}
else
{
return new ServiceCacheImplExt<>(discovery, name, threadFactory);
}
} | class class_name[name] begin[{]
method[build, return_type[type[ServiceCache]], modifier[public], parameter[]] begin[{]
if[binary_operation[member[.executorService], !=, literal[null]]] begin[{]
return[ClassCreator(arguments=[MemberReference(member=discovery, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=executorService, 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=ServiceCacheImplExt, sub_type=None))]
else begin[{]
return[ClassCreator(arguments=[MemberReference(member=discovery, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=threadFactory, 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=ServiceCacheImplExt, sub_type=None))]
end[}]
end[}]
END[}] | annotation[@] identifier[Override] Keyword[public] identifier[ServiceCache] operator[<] identifier[T] operator[>] identifier[build] operator[SEP] operator[SEP] {
Keyword[if] operator[SEP] identifier[executorService] operator[!=] Other[null] operator[SEP] {
Keyword[return] Keyword[new] identifier[ServiceCacheImplExt] operator[<] operator[>] operator[SEP] identifier[discovery] , identifier[name] , identifier[executorService] operator[SEP] operator[SEP]
}
Keyword[else] {
Keyword[return] Keyword[new] identifier[ServiceCacheImplExt] operator[<] operator[>] operator[SEP] identifier[discovery] , identifier[name] , identifier[threadFactory] operator[SEP] operator[SEP]
}
}
|
@SuppressWarnings("deprecation")
@SuppressLint("NewApi")
public SwipeBack setSwipeBackContainerBackgroundDrawable(Drawable d) {
if (Build.VERSION.SDK_INT < Build.VERSION_CODES.JELLY_BEAN) {
mSwipeBackContainer.setBackgroundDrawable(d);
} else {
mSwipeBackContainer.setBackground(d);
}
return this;
} | class class_name[name] begin[{]
method[setSwipeBackContainerBackgroundDrawable, return_type[type[SwipeBack]], modifier[public], parameter[d]] begin[{]
if[binary_operation[member[Build.VERSION.SDK_INT], <, member[Build.VERSION_CODES.JELLY_BEAN]]] begin[{]
call[mSwipeBackContainer.setBackgroundDrawable, parameter[member[.d]]]
else begin[{]
call[mSwipeBackContainer.setBackground, parameter[member[.d]]]
end[}]
return[THIS[]]
end[}]
END[}] | annotation[@] identifier[SuppressWarnings] operator[SEP] literal[String] operator[SEP] annotation[@] identifier[SuppressLint] operator[SEP] literal[String] operator[SEP] Keyword[public] identifier[SwipeBack] identifier[setSwipeBackContainerBackgroundDrawable] operator[SEP] identifier[Drawable] identifier[d] operator[SEP] {
Keyword[if] operator[SEP] identifier[Build] operator[SEP] identifier[VERSION] operator[SEP] identifier[SDK_INT] operator[<] identifier[Build] operator[SEP] identifier[VERSION_CODES] operator[SEP] identifier[JELLY_BEAN] operator[SEP] {
identifier[mSwipeBackContainer] operator[SEP] identifier[setBackgroundDrawable] operator[SEP] identifier[d] operator[SEP] operator[SEP]
}
Keyword[else] {
identifier[mSwipeBackContainer] operator[SEP] identifier[setBackground] operator[SEP] identifier[d] operator[SEP] operator[SEP]
}
Keyword[return] Keyword[this] operator[SEP]
}
|
public long getSpanCalls(ILexNameToken name)
{
// The assumption is that the first executable location in
// the span for the name is hit as many time as the span is called.
ILexLocation span = null;
synchronized (nameSpans)
{
span = nameSpans.get(name);
}
synchronized (allLocations)
{
for (ILexLocation l : allLocations)
{
if (l.getExecutable() && l.within(span))
{
return l.getHits();
}
}
}
return 0;
} | class class_name[name] begin[{]
method[getSpanCalls, return_type[type[long]], modifier[public], parameter[name]] begin[{]
local_variable[type[ILexLocation], span]
SYNCHRONIZED[member[.nameSpans]] BEGIN[{]
assign[member[.span], call[nameSpans.get, parameter[member[.name]]]]
END[}]
SYNCHRONIZED[member[.allLocations]] BEGIN[{]
ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=MethodInvocation(arguments=[], member=getExecutable, postfix_operators=[], prefix_operators=[], qualifier=l, selectors=[], type_arguments=None), operandr=MethodInvocation(arguments=[MemberReference(member=span, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=within, postfix_operators=[], prefix_operators=[], qualifier=l, selectors=[], type_arguments=None), operator=&&), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[ReturnStatement(expression=MethodInvocation(arguments=[], member=getHits, postfix_operators=[], prefix_operators=[], qualifier=l, selectors=[], type_arguments=None), label=None)]))]), control=EnhancedForControl(iterable=MemberReference(member=allLocations, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=l)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=ILexLocation, sub_type=None))), label=None)
END[}]
return[literal[0]]
end[}]
END[}] | Keyword[public] Keyword[long] identifier[getSpanCalls] operator[SEP] identifier[ILexNameToken] identifier[name] operator[SEP] {
identifier[ILexLocation] identifier[span] operator[=] Other[null] operator[SEP] Keyword[synchronized] operator[SEP] identifier[nameSpans] operator[SEP] {
identifier[span] operator[=] identifier[nameSpans] operator[SEP] identifier[get] operator[SEP] identifier[name] operator[SEP] operator[SEP]
}
Keyword[synchronized] operator[SEP] identifier[allLocations] operator[SEP] {
Keyword[for] operator[SEP] identifier[ILexLocation] identifier[l] operator[:] identifier[allLocations] operator[SEP] {
Keyword[if] operator[SEP] identifier[l] operator[SEP] identifier[getExecutable] operator[SEP] operator[SEP] operator[&&] identifier[l] operator[SEP] identifier[within] operator[SEP] identifier[span] operator[SEP] operator[SEP] {
Keyword[return] identifier[l] operator[SEP] identifier[getHits] operator[SEP] operator[SEP] operator[SEP]
}
}
}
Keyword[return] Other[0] operator[SEP]
}
|
private RESTResponse sendAndReceive(String header, byte[] body) throws IOException {
// Fail before trying if socket has been closed.
if (isClosed()) {
throw new IOException("Socket has been closed");
}
Exception lastException = null;
for (int attempt = 0; attempt < MAX_SOCKET_RETRIES; attempt++) {
try {
sendRequest(header, body);
return readResponse();
} catch (IOException e) {
// Attempt to reconnect; if this fails, the server's probably down and we
// let reconnect's IOException pass through.
lastException = e;
m_logger.warn("Socket error occurred -- reconnecting", e);
reconnect();
}
}
// Here, all reconnects succeeded but retries failed; something else is wrong with
// the server or the request.
throw new IOException("Socket error; all retries failed", lastException);
} | class class_name[name] begin[{]
method[sendAndReceive, return_type[type[RESTResponse]], modifier[private], parameter[header, body]] begin[{]
if[call[.isClosed, parameter[]]] begin[{]
ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Socket has been closed")], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=IOException, sub_type=None)), label=None)
else begin[{]
None
end[}]
local_variable[type[Exception], lastException]
ForStatement(body=BlockStatement(label=None, statements=[TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=header, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=body, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=sendRequest, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None), ReturnStatement(expression=MethodInvocation(arguments=[], member=readResponse, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=lastException, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), label=None), StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Socket error occurred -- reconnecting"), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=warn, postfix_operators=[], prefix_operators=[], qualifier=m_logger, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[], member=reconnect, postfix_operators=[], prefix_operators=[], qualifier=, 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)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=attempt, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=MAX_SOCKET_RETRIES, 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=attempt)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=attempt, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None)
ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Socket error; all retries failed"), MemberReference(member=lastException, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=IOException, sub_type=None)), label=None)
end[}]
END[}] | Keyword[private] identifier[RESTResponse] identifier[sendAndReceive] operator[SEP] identifier[String] identifier[header] , Keyword[byte] operator[SEP] operator[SEP] identifier[body] operator[SEP] Keyword[throws] identifier[IOException] {
Keyword[if] operator[SEP] identifier[isClosed] operator[SEP] operator[SEP] operator[SEP] {
Keyword[throw] Keyword[new] identifier[IOException] operator[SEP] literal[String] operator[SEP] operator[SEP]
}
identifier[Exception] identifier[lastException] operator[=] Other[null] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[attempt] operator[=] Other[0] operator[SEP] identifier[attempt] operator[<] identifier[MAX_SOCKET_RETRIES] operator[SEP] identifier[attempt] operator[++] operator[SEP] {
Keyword[try] {
identifier[sendRequest] operator[SEP] identifier[header] , identifier[body] operator[SEP] operator[SEP] Keyword[return] identifier[readResponse] operator[SEP] operator[SEP] operator[SEP]
}
Keyword[catch] operator[SEP] identifier[IOException] identifier[e] operator[SEP] {
identifier[lastException] operator[=] identifier[e] operator[SEP] identifier[m_logger] operator[SEP] identifier[warn] operator[SEP] literal[String] , identifier[e] operator[SEP] operator[SEP] identifier[reconnect] operator[SEP] operator[SEP] operator[SEP]
}
}
Keyword[throw] Keyword[new] identifier[IOException] operator[SEP] literal[String] , identifier[lastException] operator[SEP] operator[SEP]
}
|
public static int getColor(Resources resources, int id) {
if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.M) {
return resources.getColor(id, null);
} else {
return resources.getColor(id);
}
} | class class_name[name] begin[{]
method[getColor, return_type[type[int]], modifier[public static], parameter[resources, id]] begin[{]
if[binary_operation[member[Build.VERSION.SDK_INT], >=, member[Build.VERSION_CODES.M]]] begin[{]
return[call[resources.getColor, parameter[member[.id], literal[null]]]]
else begin[{]
return[call[resources.getColor, parameter[member[.id]]]]
end[}]
end[}]
END[}] | Keyword[public] Keyword[static] Keyword[int] identifier[getColor] operator[SEP] identifier[Resources] identifier[resources] , Keyword[int] identifier[id] operator[SEP] {
Keyword[if] operator[SEP] identifier[Build] operator[SEP] identifier[VERSION] operator[SEP] identifier[SDK_INT] operator[>=] identifier[Build] operator[SEP] identifier[VERSION_CODES] operator[SEP] identifier[M] operator[SEP] {
Keyword[return] identifier[resources] operator[SEP] identifier[getColor] operator[SEP] identifier[id] , Other[null] operator[SEP] operator[SEP]
}
Keyword[else] {
Keyword[return] identifier[resources] operator[SEP] identifier[getColor] operator[SEP] identifier[id] operator[SEP] operator[SEP]
}
}
|
public void marshall(GetDocumentationPartsRequest getDocumentationPartsRequest, ProtocolMarshaller protocolMarshaller) {
if (getDocumentationPartsRequest == null) {
throw new SdkClientException("Invalid argument passed to marshall(...)");
}
try {
protocolMarshaller.marshall(getDocumentationPartsRequest.getRestApiId(), RESTAPIID_BINDING);
protocolMarshaller.marshall(getDocumentationPartsRequest.getType(), TYPE_BINDING);
protocolMarshaller.marshall(getDocumentationPartsRequest.getNameQuery(), NAMEQUERY_BINDING);
protocolMarshaller.marshall(getDocumentationPartsRequest.getPath(), PATH_BINDING);
protocolMarshaller.marshall(getDocumentationPartsRequest.getPosition(), POSITION_BINDING);
protocolMarshaller.marshall(getDocumentationPartsRequest.getLimit(), LIMIT_BINDING);
protocolMarshaller.marshall(getDocumentationPartsRequest.getLocationStatus(), LOCATIONSTATUS_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[getDocumentationPartsRequest, protocolMarshaller]] begin[{]
if[binary_operation[member[.getDocumentationPartsRequest], ==, 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=getDocumentationPartsRequest, 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=getType, postfix_operators=[], prefix_operators=[], qualifier=getDocumentationPartsRequest, selectors=[], type_arguments=None), MemberReference(member=TYPE_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=getNameQuery, postfix_operators=[], prefix_operators=[], qualifier=getDocumentationPartsRequest, selectors=[], type_arguments=None), MemberReference(member=NAMEQUERY_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=getPath, postfix_operators=[], prefix_operators=[], qualifier=getDocumentationPartsRequest, selectors=[], type_arguments=None), MemberReference(member=PATH_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=getPosition, postfix_operators=[], prefix_operators=[], qualifier=getDocumentationPartsRequest, selectors=[], type_arguments=None), MemberReference(member=POSITION_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=getLimit, postfix_operators=[], prefix_operators=[], qualifier=getDocumentationPartsRequest, selectors=[], type_arguments=None), MemberReference(member=LIMIT_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=getLocationStatus, postfix_operators=[], prefix_operators=[], qualifier=getDocumentationPartsRequest, selectors=[], type_arguments=None), MemberReference(member=LOCATIONSTATUS_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[GetDocumentationPartsRequest] identifier[getDocumentationPartsRequest] , identifier[ProtocolMarshaller] identifier[protocolMarshaller] operator[SEP] {
Keyword[if] operator[SEP] identifier[getDocumentationPartsRequest] 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[getDocumentationPartsRequest] operator[SEP] identifier[getRestApiId] operator[SEP] operator[SEP] , identifier[RESTAPIID_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[getDocumentationPartsRequest] operator[SEP] identifier[getType] operator[SEP] operator[SEP] , identifier[TYPE_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[getDocumentationPartsRequest] operator[SEP] identifier[getNameQuery] operator[SEP] operator[SEP] , identifier[NAMEQUERY_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[getDocumentationPartsRequest] operator[SEP] identifier[getPath] operator[SEP] operator[SEP] , identifier[PATH_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[getDocumentationPartsRequest] operator[SEP] identifier[getPosition] operator[SEP] operator[SEP] , identifier[POSITION_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[getDocumentationPartsRequest] operator[SEP] identifier[getLimit] operator[SEP] operator[SEP] , identifier[LIMIT_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[getDocumentationPartsRequest] operator[SEP] identifier[getLocationStatus] operator[SEP] operator[SEP] , identifier[LOCATIONSTATUS_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]
}
}
|
static boolean mayHaveConditionalCode(Node n) {
for (Node c = n.getFirstChild(); c != null; c = c.getNext()) {
switch (c.getToken()) {
case FUNCTION:
case AND:
case OR:
case HOOK:
return true;
default:
break;
}
if (mayHaveConditionalCode(c)) {
return true;
}
}
return false;
} | class class_name[name] begin[{]
method[mayHaveConditionalCode, return_type[type[boolean]], modifier[static], parameter[n]] begin[{]
ForStatement(body=BlockStatement(label=None, statements=[SwitchStatement(cases=[SwitchStatementCase(case=['FUNCTION', 'AND', 'OR', 'HOOK'], statements=[ReturnStatement(expression=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true), label=None)]), SwitchStatementCase(case=[], statements=[BreakStatement(goto=None, label=None)])], expression=MethodInvocation(arguments=[], member=getToken, postfix_operators=[], prefix_operators=[], qualifier=c, selectors=[], type_arguments=None), label=None), IfStatement(condition=MethodInvocation(arguments=[MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=mayHaveConditionalCode, postfix_operators=[], prefix_operators=[], qualifier=, 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=ForControl(condition=BinaryOperation(operandl=MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator=!=), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=MethodInvocation(arguments=[], member=getFirstChild, postfix_operators=[], prefix_operators=[], qualifier=n, selectors=[], type_arguments=None), name=c)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Node, sub_type=None)), update=[Assignment(expressionl=MemberReference(member=c, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=getNext, postfix_operators=[], prefix_operators=[], qualifier=c, selectors=[], type_arguments=None))]), label=None)
return[literal[false]]
end[}]
END[}] | Keyword[static] Keyword[boolean] identifier[mayHaveConditionalCode] operator[SEP] identifier[Node] identifier[n] operator[SEP] {
Keyword[for] operator[SEP] identifier[Node] identifier[c] operator[=] identifier[n] operator[SEP] identifier[getFirstChild] operator[SEP] operator[SEP] operator[SEP] identifier[c] operator[!=] Other[null] operator[SEP] identifier[c] operator[=] identifier[c] operator[SEP] identifier[getNext] operator[SEP] operator[SEP] operator[SEP] {
Keyword[switch] operator[SEP] identifier[c] operator[SEP] identifier[getToken] operator[SEP] operator[SEP] operator[SEP] {
Keyword[case] identifier[FUNCTION] operator[:] Keyword[case] identifier[AND] operator[:] Keyword[case] identifier[OR] operator[:] Keyword[case] identifier[HOOK] operator[:] Keyword[return] literal[boolean] operator[SEP] Keyword[default] operator[:] Keyword[break] operator[SEP]
}
Keyword[if] operator[SEP] identifier[mayHaveConditionalCode] operator[SEP] identifier[c] operator[SEP] operator[SEP] {
Keyword[return] literal[boolean] operator[SEP]
}
}
Keyword[return] literal[boolean] operator[SEP]
}
|
public ApiResponse<ApiSuccessResponse> consultByQueueWithHttpInfo(String id, ConsultData1 consultData) throws ApiException {
com.squareup.okhttp.Call call = consultByQueueValidateBeforeCall(id, consultData, null, null);
Type localVarReturnType = new TypeToken<ApiSuccessResponse>(){}.getType();
return apiClient.execute(call, localVarReturnType);
} | class class_name[name] begin[{]
method[consultByQueueWithHttpInfo, return_type[type[ApiResponse]], modifier[public], parameter[id, consultData]] begin[{]
local_variable[type[com], call]
local_variable[type[Type], localVarReturnType]
return[call[apiClient.execute, parameter[member[.call], member[.localVarReturnType]]]]
end[}]
END[}] | Keyword[public] identifier[ApiResponse] operator[<] identifier[ApiSuccessResponse] operator[>] identifier[consultByQueueWithHttpInfo] operator[SEP] identifier[String] identifier[id] , identifier[ConsultData1] identifier[consultData] operator[SEP] Keyword[throws] identifier[ApiException] {
identifier[com] operator[SEP] identifier[squareup] operator[SEP] identifier[okhttp] operator[SEP] identifier[Call] identifier[call] operator[=] identifier[consultByQueueValidateBeforeCall] operator[SEP] identifier[id] , identifier[consultData] , Other[null] , Other[null] operator[SEP] operator[SEP] identifier[Type] identifier[localVarReturnType] operator[=] Keyword[new] identifier[TypeToken] operator[<] identifier[ApiSuccessResponse] operator[>] operator[SEP] operator[SEP] {
} operator[SEP] identifier[getType] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[apiClient] operator[SEP] identifier[execute] operator[SEP] identifier[call] , identifier[localVarReturnType] operator[SEP] operator[SEP]
}
|
protected static Class<?> checkTarget(GVRHybridObject target,
Class<?>... supported) {
for (Class<?> type : supported) {
if (type.isInstance(target)) {
return type;
}
}
// else
throw new IllegalArgumentException();
} | class class_name[name] begin[{]
method[checkTarget, return_type[type[Class]], modifier[static protected], parameter[target, supported]] begin[{]
ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=MethodInvocation(arguments=[MemberReference(member=target, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=isInstance, postfix_operators=[], prefix_operators=[], qualifier=type, selectors=[], type_arguments=None), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[ReturnStatement(expression=MemberReference(member=type, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), label=None)]))]), control=EnhancedForControl(iterable=MemberReference(member=supported, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=type)], modifiers=set(), type=ReferenceType(arguments=[TypeArgument(pattern_type=?, type=None)], dimensions=[], name=Class, sub_type=None))), label=None)
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)
end[}]
END[}] | Keyword[protected] Keyword[static] identifier[Class] operator[<] operator[?] operator[>] identifier[checkTarget] operator[SEP] identifier[GVRHybridObject] identifier[target] , identifier[Class] operator[<] operator[?] operator[>] operator[...] identifier[supported] operator[SEP] {
Keyword[for] operator[SEP] identifier[Class] operator[<] operator[?] operator[>] identifier[type] operator[:] identifier[supported] operator[SEP] {
Keyword[if] operator[SEP] identifier[type] operator[SEP] identifier[isInstance] operator[SEP] identifier[target] operator[SEP] operator[SEP] {
Keyword[return] identifier[type] operator[SEP]
}
}
Keyword[throw] Keyword[new] identifier[IllegalArgumentException] operator[SEP] operator[SEP] operator[SEP]
}
|
@NonNull
@Override
public MutableArray setArray(int index, Array value) {
return setValue(index, value);
} | class class_name[name] begin[{]
method[setArray, return_type[type[MutableArray]], modifier[public], parameter[index, value]] begin[{]
return[call[.setValue, parameter[member[.index], member[.value]]]]
end[}]
END[}] | annotation[@] identifier[NonNull] annotation[@] identifier[Override] Keyword[public] identifier[MutableArray] identifier[setArray] operator[SEP] Keyword[int] identifier[index] , identifier[Array] identifier[value] operator[SEP] {
Keyword[return] identifier[setValue] operator[SEP] identifier[index] , identifier[value] operator[SEP] operator[SEP]
}
|
private static boolean polygonTouchesPoint_(Polygon polygon_a,
Point point_b, double tolerance, ProgressTracker progress_tracker) {
Point2D pt_b = point_b.getXY();
return polygonTouchesPointImpl_(polygon_a, pt_b, tolerance, null);
} | class class_name[name] begin[{]
method[polygonTouchesPoint_, return_type[type[boolean]], modifier[private static], parameter[polygon_a, point_b, tolerance, progress_tracker]] begin[{]
local_variable[type[Point2D], pt_b]
return[call[.polygonTouchesPointImpl_, parameter[member[.polygon_a], member[.pt_b], member[.tolerance], literal[null]]]]
end[}]
END[}] | Keyword[private] Keyword[static] Keyword[boolean] identifier[polygonTouchesPoint_] operator[SEP] identifier[Polygon] identifier[polygon_a] , identifier[Point] identifier[point_b] , Keyword[double] identifier[tolerance] , identifier[ProgressTracker] identifier[progress_tracker] operator[SEP] {
identifier[Point2D] identifier[pt_b] operator[=] identifier[point_b] operator[SEP] identifier[getXY] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[polygonTouchesPointImpl_] operator[SEP] identifier[polygon_a] , identifier[pt_b] , identifier[tolerance] , Other[null] operator[SEP] operator[SEP]
}
|
public java.rmi.Remote getPort(Class serviceEndpointInterface) throws javax.xml.rpc.ServiceException {
try {
if (com.google.api.ads.admanager.axis.v201902.CustomTargetingServiceInterface.class.isAssignableFrom(serviceEndpointInterface)) {
com.google.api.ads.admanager.axis.v201902.CustomTargetingServiceSoapBindingStub _stub = new com.google.api.ads.admanager.axis.v201902.CustomTargetingServiceSoapBindingStub(new java.net.URL(CustomTargetingServiceInterfacePort_address), this);
_stub.setPortName(getCustomTargetingServiceInterfacePortWSDDServiceName());
return _stub;
}
}
catch (java.lang.Throwable t) {
throw new javax.xml.rpc.ServiceException(t);
}
throw new javax.xml.rpc.ServiceException("There is no stub implementation for the interface: " + (serviceEndpointInterface == null ? "null" : serviceEndpointInterface.getName()));
} | class class_name[name] begin[{]
method[getPort, return_type[type[java]], modifier[public], parameter[serviceEndpointInterface]] begin[{]
TryStatement(block=[IfStatement(condition=ClassReference(postfix_operators=[], prefix_operators=[], qualifier=com.google.api.ads.admanager.axis.v201902, selectors=[MethodInvocation(arguments=[MemberReference(member=serviceEndpointInterface, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=isAssignableFrom, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type=ReferenceType(arguments=None, dimensions=None, name=CustomTargetingServiceInterface, sub_type=None)), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[ClassCreator(arguments=[MemberReference(member=CustomTargetingServiceInterfacePort_address, 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=net, sub_type=ReferenceType(arguments=None, dimensions=None, name=URL, sub_type=None)))), This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=com, sub_type=ReferenceType(arguments=None, dimensions=None, name=google, sub_type=ReferenceType(arguments=None, dimensions=None, name=api, sub_type=ReferenceType(arguments=None, dimensions=None, name=ads, sub_type=ReferenceType(arguments=None, dimensions=None, name=admanager, sub_type=ReferenceType(arguments=None, dimensions=None, name=axis, sub_type=ReferenceType(arguments=None, dimensions=None, name=v201902, sub_type=ReferenceType(arguments=None, dimensions=None, name=CustomTargetingServiceSoapBindingStub, sub_type=None))))))))), name=_stub)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=com, sub_type=ReferenceType(arguments=None, dimensions=None, name=google, sub_type=ReferenceType(arguments=None, dimensions=None, name=api, sub_type=ReferenceType(arguments=None, dimensions=None, name=ads, sub_type=ReferenceType(arguments=None, dimensions=None, name=admanager, sub_type=ReferenceType(arguments=None, dimensions=None, name=axis, sub_type=ReferenceType(arguments=None, dimensions=None, name=v201902, sub_type=ReferenceType(arguments=None, dimensions=None, name=CustomTargetingServiceSoapBindingStub, sub_type=None))))))))), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getCustomTargetingServiceInterfacePortWSDDServiceName, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)], member=setPortName, postfix_operators=[], prefix_operators=[], qualifier=_stub, selectors=[], type_arguments=None), label=None), ReturnStatement(expression=MemberReference(member=_stub, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), label=None)]))], catches=[CatchClause(block=[ThrowStatement(expression=ClassCreator(arguments=[MemberReference(member=t, 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=javax, sub_type=ReferenceType(arguments=None, dimensions=None, name=xml, sub_type=ReferenceType(arguments=None, dimensions=None, name=rpc, sub_type=ReferenceType(arguments=None, dimensions=None, name=ServiceException, sub_type=None))))), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=t, types=['java.lang.Throwable']))], finally_block=None, label=None, resources=None)
ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="There is no stub implementation for the interface: "), operandr=TernaryExpression(condition=BinaryOperation(operandl=MemberReference(member=serviceEndpointInterface, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator===), if_false=MethodInvocation(arguments=[], member=getName, postfix_operators=[], prefix_operators=[], qualifier=serviceEndpointInterface, selectors=[], type_arguments=None), if_true=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="null")), operator=+)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=javax, sub_type=ReferenceType(arguments=None, dimensions=None, name=xml, sub_type=ReferenceType(arguments=None, dimensions=None, name=rpc, sub_type=ReferenceType(arguments=None, dimensions=None, name=ServiceException, sub_type=None))))), label=None)
end[}]
END[}] | Keyword[public] identifier[java] operator[SEP] identifier[rmi] operator[SEP] identifier[Remote] identifier[getPort] operator[SEP] identifier[Class] identifier[serviceEndpointInterface] operator[SEP] Keyword[throws] identifier[javax] operator[SEP] identifier[xml] operator[SEP] identifier[rpc] operator[SEP] identifier[ServiceException] {
Keyword[try] {
Keyword[if] operator[SEP] identifier[com] operator[SEP] identifier[google] operator[SEP] identifier[api] operator[SEP] identifier[ads] operator[SEP] identifier[admanager] operator[SEP] identifier[axis] operator[SEP] identifier[v201902] operator[SEP] identifier[CustomTargetingServiceInterface] operator[SEP] Keyword[class] operator[SEP] identifier[isAssignableFrom] operator[SEP] identifier[serviceEndpointInterface] operator[SEP] operator[SEP] {
identifier[com] operator[SEP] identifier[google] operator[SEP] identifier[api] operator[SEP] identifier[ads] operator[SEP] identifier[admanager] operator[SEP] identifier[axis] operator[SEP] identifier[v201902] operator[SEP] identifier[CustomTargetingServiceSoapBindingStub] identifier[_stub] operator[=] Keyword[new] identifier[com] operator[SEP] identifier[google] operator[SEP] identifier[api] operator[SEP] identifier[ads] operator[SEP] identifier[admanager] operator[SEP] identifier[axis] operator[SEP] identifier[v201902] operator[SEP] identifier[CustomTargetingServiceSoapBindingStub] operator[SEP] Keyword[new] identifier[java] operator[SEP] identifier[net] operator[SEP] identifier[URL] operator[SEP] identifier[CustomTargetingServiceInterfacePort_address] operator[SEP] , Keyword[this] operator[SEP] operator[SEP] identifier[_stub] operator[SEP] identifier[setPortName] operator[SEP] identifier[getCustomTargetingServiceInterfacePortWSDDServiceName] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[_stub] operator[SEP]
}
}
Keyword[catch] operator[SEP] identifier[java] operator[SEP] identifier[lang] operator[SEP] identifier[Throwable] identifier[t] operator[SEP] {
Keyword[throw] Keyword[new] identifier[javax] operator[SEP] identifier[xml] operator[SEP] identifier[rpc] operator[SEP] identifier[ServiceException] operator[SEP] identifier[t] operator[SEP] operator[SEP]
}
Keyword[throw] Keyword[new] identifier[javax] operator[SEP] identifier[xml] operator[SEP] identifier[rpc] operator[SEP] identifier[ServiceException] operator[SEP] literal[String] operator[+] operator[SEP] identifier[serviceEndpointInterface] operator[==] Other[null] operator[?] literal[String] operator[:] identifier[serviceEndpointInterface] operator[SEP] identifier[getName] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP]
}
|
public final synchronized void onHttpCallback(final byte[] message) {
final long endTime = System.currentTimeMillis() + WAIT_TIMEOUT;
while (cmdOutput != null) {
final long waitTime = endTime - System.currentTimeMillis();
if (waitTime <= 0) {
break;
}
try {
wait(WAIT_TIME);
} catch (final InterruptedException e) {
LOG.log(Level.WARNING, "HttpServeShellCmdHandler onHttpCallback InterruptedException: {0}", e);
}
}
LOG.log(Level.INFO, "HttpServeShellCmdHandler OnCallback: {0}", HttpShellJobDriver.CODEC.decode(message));
cmdOutput = HttpShellJobDriver.CODEC.decode(message);
notify();
} | class class_name[name] begin[{]
method[onHttpCallback, return_type[void], modifier[synchronized final public], parameter[message]] begin[{]
local_variable[type[long], endTime]
while[binary_operation[member[.cmdOutput], !=, literal[null]]] begin[{]
local_variable[type[long], waitTime]
if[binary_operation[member[.waitTime], <=, literal[0]]] begin[{]
BreakStatement(goto=None, label=None)
else begin[{]
None
end[}]
TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=WAIT_TIME, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=wait, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=WARNING, postfix_operators=[], prefix_operators=[], qualifier=Level, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="HttpServeShellCmdHandler onHttpCallback InterruptedException: {0}"), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=log, postfix_operators=[], prefix_operators=[], qualifier=LOG, selectors=[], type_arguments=None), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['InterruptedException']))], finally_block=None, label=None, resources=None)
end[}]
call[LOG.log, parameter[member[Level.INFO], literal["HttpServeShellCmdHandler OnCallback: {0}"], call[HttpShellJobDriver.CODEC.decode, parameter[member[.message]]]]]
assign[member[.cmdOutput], call[HttpShellJobDriver.CODEC.decode, parameter[member[.message]]]]
call[.notify, parameter[]]
end[}]
END[}] | Keyword[public] Keyword[final] Keyword[synchronized] Keyword[void] identifier[onHttpCallback] operator[SEP] Keyword[final] Keyword[byte] operator[SEP] operator[SEP] identifier[message] operator[SEP] {
Keyword[final] Keyword[long] identifier[endTime] operator[=] identifier[System] operator[SEP] identifier[currentTimeMillis] operator[SEP] operator[SEP] operator[+] identifier[WAIT_TIMEOUT] operator[SEP] Keyword[while] operator[SEP] identifier[cmdOutput] operator[!=] Other[null] operator[SEP] {
Keyword[final] Keyword[long] identifier[waitTime] operator[=] identifier[endTime] operator[-] identifier[System] operator[SEP] identifier[currentTimeMillis] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[waitTime] operator[<=] Other[0] operator[SEP] {
Keyword[break] operator[SEP]
}
Keyword[try] {
identifier[wait] operator[SEP] identifier[WAIT_TIME] operator[SEP] operator[SEP]
}
Keyword[catch] operator[SEP] Keyword[final] identifier[InterruptedException] identifier[e] operator[SEP] {
identifier[LOG] operator[SEP] identifier[log] operator[SEP] identifier[Level] operator[SEP] identifier[WARNING] , literal[String] , identifier[e] operator[SEP] operator[SEP]
}
}
identifier[LOG] operator[SEP] identifier[log] operator[SEP] identifier[Level] operator[SEP] identifier[INFO] , literal[String] , identifier[HttpShellJobDriver] operator[SEP] identifier[CODEC] operator[SEP] identifier[decode] operator[SEP] identifier[message] operator[SEP] operator[SEP] operator[SEP] identifier[cmdOutput] operator[=] identifier[HttpShellJobDriver] operator[SEP] identifier[CODEC] operator[SEP] identifier[decode] operator[SEP] identifier[message] operator[SEP] operator[SEP] identifier[notify] operator[SEP] operator[SEP] operator[SEP]
}
|
private void debugTraceTable(String comment)
{
StringBuffer sb = new StringBuffer();
sb.append("table:\n");
Iterator keyIterator = table.keySet().iterator();
if (!keyIterator.hasNext()) sb.append(" <empty>\n");
else while(keyIterator.hasNext())
{
Object key = keyIterator.next();
Object value = table.get(key);
sb.append(" [key: "+key+"] -> [value: "+value+"]\n");
}
SibTr.debug(this, tc, sb.toString());
} | class class_name[name] begin[{]
method[debugTraceTable, return_type[void], modifier[private], parameter[comment]] begin[{]
local_variable[type[StringBuffer], sb]
call[sb.append, parameter[literal["table:\n"]]]
local_variable[type[Iterator], keyIterator]
if[call[keyIterator.hasNext, parameter[]]] begin[{]
call[sb.append, parameter[literal[" <empty>\n"]]]
else begin[{]
while[call[keyIterator.hasNext, parameter[]]] begin[{]
local_variable[type[Object], key]
local_variable[type[Object], value]
call[sb.append, parameter[binary_operation[binary_operation[binary_operation[binary_operation[literal[" [key: "], +, member[.key]], +, literal["] -> [value: "]], +, member[.value]], +, literal["]\n"]]]]
end[}]
end[}]
call[SibTr.debug, parameter[THIS[], member[.tc], call[sb.toString, parameter[]]]]
end[}]
END[}] | Keyword[private] Keyword[void] identifier[debugTraceTable] operator[SEP] identifier[String] identifier[comment] operator[SEP] {
identifier[StringBuffer] identifier[sb] operator[=] Keyword[new] identifier[StringBuffer] operator[SEP] operator[SEP] operator[SEP] identifier[sb] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[Iterator] identifier[keyIterator] operator[=] identifier[table] operator[SEP] identifier[keySet] operator[SEP] operator[SEP] operator[SEP] identifier[iterator] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[keyIterator] operator[SEP] identifier[hasNext] operator[SEP] operator[SEP] operator[SEP] identifier[sb] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP] Keyword[else] Keyword[while] operator[SEP] identifier[keyIterator] operator[SEP] identifier[hasNext] operator[SEP] operator[SEP] operator[SEP] {
identifier[Object] identifier[key] operator[=] identifier[keyIterator] operator[SEP] identifier[next] operator[SEP] operator[SEP] operator[SEP] identifier[Object] identifier[value] operator[=] identifier[table] operator[SEP] identifier[get] operator[SEP] identifier[key] operator[SEP] operator[SEP] identifier[sb] operator[SEP] identifier[append] operator[SEP] literal[String] operator[+] identifier[key] operator[+] literal[String] operator[+] identifier[value] operator[+] literal[String] operator[SEP] operator[SEP]
}
identifier[SibTr] operator[SEP] identifier[debug] operator[SEP] Keyword[this] , identifier[tc] , identifier[sb] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] operator[SEP]
}
|
@Override
public void _closeSubclause() {
_currentClauseDepth--;
List<QueryToken> tokens = getCurrentWhereTokens();
tokens.add(CloseSubclauseToken.INSTANCE);
} | class class_name[name] begin[{]
method[_closeSubclause, return_type[void], modifier[public], parameter[]] begin[{]
member[._currentClauseDepth]
local_variable[type[List], tokens]
call[tokens.add, parameter[member[CloseSubclauseToken.INSTANCE]]]
end[}]
END[}] | annotation[@] identifier[Override] Keyword[public] Keyword[void] identifier[_closeSubclause] operator[SEP] operator[SEP] {
identifier[_currentClauseDepth] operator[--] operator[SEP] identifier[List] operator[<] identifier[QueryToken] operator[>] identifier[tokens] operator[=] identifier[getCurrentWhereTokens] operator[SEP] operator[SEP] operator[SEP] identifier[tokens] operator[SEP] identifier[add] operator[SEP] identifier[CloseSubclauseToken] operator[SEP] identifier[INSTANCE] operator[SEP] operator[SEP]
}
|
public EventMention getMentions(int i) {
if (Event_Type.featOkTst && ((Event_Type)jcasType).casFeat_mentions == null)
jcasType.jcas.throwFeatMissing("mentions", "de.julielab.jules.types.ace.Event");
jcasType.jcas.checkArrayBounds(jcasType.ll_cas.ll_getRefValue(addr, ((Event_Type)jcasType).casFeatCode_mentions), i);
return (EventMention)(jcasType.ll_cas.ll_getFSForRef(jcasType.ll_cas.ll_getRefArrayValue(jcasType.ll_cas.ll_getRefValue(addr, ((Event_Type)jcasType).casFeatCode_mentions), i)));} | class class_name[name] begin[{]
method[getMentions, return_type[type[EventMention]], modifier[public], parameter[i]] begin[{]
if[binary_operation[member[Event_Type.featOkTst], &&, binary_operation[Cast(expression=MemberReference(member=jcasType, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=Event_Type, sub_type=None)), ==, literal[null]]]] begin[{]
call[jcasType.jcas.throwFeatMissing, parameter[literal["mentions"], literal["de.julielab.jules.types.ace.Event"]]]
else begin[{]
None
end[}]
call[jcasType.jcas.checkArrayBounds, parameter[call[jcasType.ll_cas.ll_getRefValue, parameter[member[.addr], Cast(expression=MemberReference(member=jcasType, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=Event_Type, sub_type=None))]], member[.i]]]
return[Cast(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[MethodInvocation(arguments=[MemberReference(member=addr, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Cast(expression=MemberReference(member=jcasType, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=Event_Type, sub_type=None))], member=ll_getRefValue, postfix_operators=[], prefix_operators=[], qualifier=jcasType.ll_cas, selectors=[], type_arguments=None), MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=ll_getRefArrayValue, postfix_operators=[], prefix_operators=[], qualifier=jcasType.ll_cas, selectors=[], type_arguments=None)], member=ll_getFSForRef, postfix_operators=[], prefix_operators=[], qualifier=jcasType.ll_cas, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=EventMention, sub_type=None))]
end[}]
END[}] | Keyword[public] identifier[EventMention] identifier[getMentions] operator[SEP] Keyword[int] identifier[i] operator[SEP] {
Keyword[if] operator[SEP] identifier[Event_Type] operator[SEP] identifier[featOkTst] operator[&&] operator[SEP] operator[SEP] identifier[Event_Type] operator[SEP] identifier[jcasType] operator[SEP] operator[SEP] identifier[casFeat_mentions] 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[jcas] operator[SEP] identifier[checkArrayBounds] operator[SEP] identifier[jcasType] operator[SEP] identifier[ll_cas] operator[SEP] identifier[ll_getRefValue] operator[SEP] identifier[addr] , operator[SEP] operator[SEP] identifier[Event_Type] operator[SEP] identifier[jcasType] operator[SEP] operator[SEP] identifier[casFeatCode_mentions] operator[SEP] , identifier[i] operator[SEP] operator[SEP] Keyword[return] operator[SEP] identifier[EventMention] operator[SEP] operator[SEP] identifier[jcasType] operator[SEP] identifier[ll_cas] operator[SEP] identifier[ll_getFSForRef] operator[SEP] identifier[jcasType] operator[SEP] identifier[ll_cas] operator[SEP] identifier[ll_getRefArrayValue] operator[SEP] identifier[jcasType] operator[SEP] identifier[ll_cas] operator[SEP] identifier[ll_getRefValue] operator[SEP] identifier[addr] , operator[SEP] operator[SEP] identifier[Event_Type] operator[SEP] identifier[jcasType] operator[SEP] operator[SEP] identifier[casFeatCode_mentions] operator[SEP] , identifier[i] operator[SEP] operator[SEP] operator[SEP] operator[SEP]
}
|
public void forEach(final RecordHandler handler)
{
int offset = endOfPositionField;
final int position = position();
while (offset < position)
{
if (statusVolatile(offset) == COMMITTED)
{
final int key = key(offset);
handler.onRecord(key, offset + SIZE_OF_RECORD_FRAME);
}
offset += slotSize;
}
} | class class_name[name] begin[{]
method[forEach, return_type[void], modifier[public], parameter[handler]] begin[{]
local_variable[type[int], offset]
local_variable[type[int], position]
while[binary_operation[member[.offset], <, member[.position]]] begin[{]
if[binary_operation[call[.statusVolatile, parameter[member[.offset]]], ==, member[.COMMITTED]]] begin[{]
local_variable[type[int], key]
call[handler.onRecord, parameter[member[.key], binary_operation[member[.offset], +, member[.SIZE_OF_RECORD_FRAME]]]]
else begin[{]
None
end[}]
assign[member[.offset], member[.slotSize]]
end[}]
end[}]
END[}] | Keyword[public] Keyword[void] identifier[forEach] operator[SEP] Keyword[final] identifier[RecordHandler] identifier[handler] operator[SEP] {
Keyword[int] identifier[offset] operator[=] identifier[endOfPositionField] operator[SEP] Keyword[final] Keyword[int] identifier[position] operator[=] identifier[position] operator[SEP] operator[SEP] operator[SEP] Keyword[while] operator[SEP] identifier[offset] operator[<] identifier[position] operator[SEP] {
Keyword[if] operator[SEP] identifier[statusVolatile] operator[SEP] identifier[offset] operator[SEP] operator[==] identifier[COMMITTED] operator[SEP] {
Keyword[final] Keyword[int] identifier[key] operator[=] identifier[key] operator[SEP] identifier[offset] operator[SEP] operator[SEP] identifier[handler] operator[SEP] identifier[onRecord] operator[SEP] identifier[key] , identifier[offset] operator[+] identifier[SIZE_OF_RECORD_FRAME] operator[SEP] operator[SEP]
}
identifier[offset] operator[+=] identifier[slotSize] operator[SEP]
}
}
|
public static boolean equalsIgnoreCase(String s1, String s2) {
Preconditions.checkNotNull(s1);
// don't check non-null against s2 to make the semantics same as
// s1.equals(s2)
return s1.equalsIgnoreCase(s2);
} | class class_name[name] begin[{]
method[equalsIgnoreCase, return_type[type[boolean]], modifier[public static], parameter[s1, s2]] begin[{]
call[Preconditions.checkNotNull, parameter[member[.s1]]]
return[call[s1.equalsIgnoreCase, parameter[member[.s2]]]]
end[}]
END[}] | Keyword[public] Keyword[static] Keyword[boolean] identifier[equalsIgnoreCase] operator[SEP] identifier[String] identifier[s1] , identifier[String] identifier[s2] operator[SEP] {
identifier[Preconditions] operator[SEP] identifier[checkNotNull] operator[SEP] identifier[s1] operator[SEP] operator[SEP] Keyword[return] identifier[s1] operator[SEP] identifier[equalsIgnoreCase] operator[SEP] identifier[s2] operator[SEP] operator[SEP]
}
|
public static <I extends ImageGray<I>, D extends ImageGray<D>>
PointTrackerTwoPass<I> klt(PkltConfig config, ConfigGeneralDetector configExtract,
Class<I> imageType, Class<D> derivType) {
GeneralFeatureDetector<I, D> detector = createShiTomasi(configExtract, derivType);
InterpolateRectangle<I> interpInput = FactoryInterpolation.<I>bilinearRectangle(imageType);
InterpolateRectangle<D> interpDeriv = FactoryInterpolation.<D>bilinearRectangle(derivType);
ImageGradient<I,D> gradient = FactoryDerivative.sobel(imageType, derivType);
PyramidDiscrete<I> pyramid = FactoryPyramid.discreteGaussian(
config.pyramidScaling,-1,2,true, ImageType.single(imageType));
return new PointTrackerTwoPassKltPyramid<>(config.config, config.templateRadius, pyramid, detector,
gradient, interpInput, interpDeriv);
} | class class_name[name] begin[{]
method[klt, return_type[type[PointTrackerTwoPass]], modifier[public static], parameter[config, configExtract, imageType, derivType]] begin[{]
local_variable[type[GeneralFeatureDetector], detector]
local_variable[type[InterpolateRectangle], interpInput]
local_variable[type[InterpolateRectangle], interpDeriv]
local_variable[type[ImageGradient], gradient]
local_variable[type[PyramidDiscrete], pyramid]
return[ClassCreator(arguments=[MemberReference(member=config, postfix_operators=[], prefix_operators=[], qualifier=config, selectors=[]), MemberReference(member=templateRadius, postfix_operators=[], prefix_operators=[], qualifier=config, selectors=[]), MemberReference(member=pyramid, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=detector, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=gradient, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=interpInput, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=interpDeriv, 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=PointTrackerTwoPassKltPyramid, sub_type=None))]
end[}]
END[}] | Keyword[public] Keyword[static] operator[<] identifier[I] Keyword[extends] identifier[ImageGray] operator[<] identifier[I] operator[>] , identifier[D] Keyword[extends] identifier[ImageGray] operator[<] identifier[D] operator[>] operator[>] identifier[PointTrackerTwoPass] operator[<] identifier[I] operator[>] identifier[klt] operator[SEP] identifier[PkltConfig] identifier[config] , identifier[ConfigGeneralDetector] identifier[configExtract] , identifier[Class] operator[<] identifier[I] operator[>] identifier[imageType] , identifier[Class] operator[<] identifier[D] operator[>] identifier[derivType] operator[SEP] {
identifier[GeneralFeatureDetector] operator[<] identifier[I] , identifier[D] operator[>] identifier[detector] operator[=] identifier[createShiTomasi] operator[SEP] identifier[configExtract] , identifier[derivType] operator[SEP] operator[SEP] identifier[InterpolateRectangle] operator[<] identifier[I] operator[>] identifier[interpInput] operator[=] identifier[FactoryInterpolation] operator[SEP] operator[<] identifier[I] operator[>] identifier[bilinearRectangle] operator[SEP] identifier[imageType] operator[SEP] operator[SEP] identifier[InterpolateRectangle] operator[<] identifier[D] operator[>] identifier[interpDeriv] operator[=] identifier[FactoryInterpolation] operator[SEP] operator[<] identifier[D] operator[>] identifier[bilinearRectangle] operator[SEP] identifier[derivType] operator[SEP] operator[SEP] identifier[ImageGradient] operator[<] identifier[I] , identifier[D] operator[>] identifier[gradient] operator[=] identifier[FactoryDerivative] operator[SEP] identifier[sobel] operator[SEP] identifier[imageType] , identifier[derivType] operator[SEP] operator[SEP] identifier[PyramidDiscrete] operator[<] identifier[I] operator[>] identifier[pyramid] operator[=] identifier[FactoryPyramid] operator[SEP] identifier[discreteGaussian] operator[SEP] identifier[config] operator[SEP] identifier[pyramidScaling] , operator[-] Other[1] , Other[2] , literal[boolean] , identifier[ImageType] operator[SEP] identifier[single] operator[SEP] identifier[imageType] operator[SEP] operator[SEP] operator[SEP] Keyword[return] Keyword[new] identifier[PointTrackerTwoPassKltPyramid] operator[<] operator[>] operator[SEP] identifier[config] operator[SEP] identifier[config] , identifier[config] operator[SEP] identifier[templateRadius] , identifier[pyramid] , identifier[detector] , identifier[gradient] , identifier[interpInput] , identifier[interpDeriv] operator[SEP] operator[SEP]
}
|
public static Recipient[] toRecipient(PhoneNumber[] to) {
Recipient[] addresses = new Recipient[to.length];
int i = 0;
for (PhoneNumber t : to) {
addresses[i++] = new Recipient(t);
}
return addresses;
} | class class_name[name] begin[{]
method[toRecipient, return_type[type[Recipient]], modifier[public static], parameter[to]] begin[{]
local_variable[type[Recipient], addresses]
local_variable[type[int], i]
ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=addresses, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[]))]), type==, value=ClassCreator(arguments=[MemberReference(member=t, 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=Recipient, sub_type=None))), label=None)]), control=EnhancedForControl(iterable=MemberReference(member=to, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=t)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=PhoneNumber, sub_type=None))), label=None)
return[member[.addresses]]
end[}]
END[}] | Keyword[public] Keyword[static] identifier[Recipient] operator[SEP] operator[SEP] identifier[toRecipient] operator[SEP] identifier[PhoneNumber] operator[SEP] operator[SEP] identifier[to] operator[SEP] {
identifier[Recipient] operator[SEP] operator[SEP] identifier[addresses] operator[=] Keyword[new] identifier[Recipient] operator[SEP] identifier[to] operator[SEP] identifier[length] operator[SEP] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] Keyword[for] operator[SEP] identifier[PhoneNumber] identifier[t] operator[:] identifier[to] operator[SEP] {
identifier[addresses] operator[SEP] identifier[i] operator[++] operator[SEP] operator[=] Keyword[new] identifier[Recipient] operator[SEP] identifier[t] operator[SEP] operator[SEP]
}
Keyword[return] identifier[addresses] operator[SEP]
}
|
public synchronized void onRequestFailed(String reason) {
allRequestsTracker.onRequestFailed(reason);
recentRequestsTracker.onRequestFailed(reason);
meter.mark();
} | class class_name[name] begin[{]
method[onRequestFailed, return_type[void], modifier[synchronized public], parameter[reason]] begin[{]
call[allRequestsTracker.onRequestFailed, parameter[member[.reason]]]
call[recentRequestsTracker.onRequestFailed, parameter[member[.reason]]]
call[meter.mark, parameter[]]
end[}]
END[}] | Keyword[public] Keyword[synchronized] Keyword[void] identifier[onRequestFailed] operator[SEP] identifier[String] identifier[reason] operator[SEP] {
identifier[allRequestsTracker] operator[SEP] identifier[onRequestFailed] operator[SEP] identifier[reason] operator[SEP] operator[SEP] identifier[recentRequestsTracker] operator[SEP] identifier[onRequestFailed] operator[SEP] identifier[reason] operator[SEP] operator[SEP] identifier[meter] operator[SEP] identifier[mark] operator[SEP] operator[SEP] operator[SEP]
}
|
public void setAcePermissionsDenied(String acePermissionsDenied) {
try {
m_acePermissionsDenied = Integer.parseInt(acePermissionsDenied);
} catch (Throwable e) {
m_throwable = e;
}
} | class class_name[name] begin[{]
method[setAcePermissionsDenied, return_type[void], modifier[public], parameter[acePermissionsDenied]] begin[{]
TryStatement(block=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=m_acePermissionsDenied, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[MemberReference(member=acePermissionsDenied, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=parseInt, postfix_operators=[], prefix_operators=[], qualifier=Integer, selectors=[], type_arguments=None)), label=None)], catches=[CatchClause(block=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=m_throwable, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['Throwable']))], finally_block=None, label=None, resources=None)
end[}]
END[}] | Keyword[public] Keyword[void] identifier[setAcePermissionsDenied] operator[SEP] identifier[String] identifier[acePermissionsDenied] operator[SEP] {
Keyword[try] {
identifier[m_acePermissionsDenied] operator[=] identifier[Integer] operator[SEP] identifier[parseInt] operator[SEP] identifier[acePermissionsDenied] operator[SEP] operator[SEP]
}
Keyword[catch] operator[SEP] identifier[Throwable] identifier[e] operator[SEP] {
identifier[m_throwable] operator[=] identifier[e] operator[SEP]
}
}
|
private static Set<String> getPackages(List<CodeDependent> cds) {
Set<String> ret = new HashSet<String>();
if (cds == null) {
return ret;
}
for (CodeDependent cd : cds) {
ret.add(cd.pkg);
}
return ret;
} | class class_name[name] begin[{]
method[getPackages, return_type[type[Set]], modifier[private static], parameter[cds]] begin[{]
local_variable[type[Set], ret]
if[binary_operation[member[.cds], ==, literal[null]]] begin[{]
return[member[.ret]]
else begin[{]
None
end[}]
ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=pkg, postfix_operators=[], prefix_operators=[], qualifier=cd, selectors=[])], member=add, postfix_operators=[], prefix_operators=[], qualifier=ret, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MemberReference(member=cds, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=cd)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=CodeDependent, sub_type=None))), label=None)
return[member[.ret]]
end[}]
END[}] | Keyword[private] Keyword[static] identifier[Set] operator[<] identifier[String] operator[>] identifier[getPackages] operator[SEP] identifier[List] operator[<] identifier[CodeDependent] operator[>] identifier[cds] operator[SEP] {
identifier[Set] operator[<] identifier[String] operator[>] identifier[ret] operator[=] Keyword[new] identifier[HashSet] operator[<] identifier[String] operator[>] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[cds] operator[==] Other[null] operator[SEP] {
Keyword[return] identifier[ret] operator[SEP]
}
Keyword[for] operator[SEP] identifier[CodeDependent] identifier[cd] operator[:] identifier[cds] operator[SEP] {
identifier[ret] operator[SEP] identifier[add] operator[SEP] identifier[cd] operator[SEP] identifier[pkg] operator[SEP] operator[SEP]
}
Keyword[return] identifier[ret] operator[SEP]
}
|
public java.util.List<String> getAWSAccountIds() {
if (aWSAccountIds == null) {
aWSAccountIds = new com.amazonaws.internal.SdkInternalList<String>();
}
return aWSAccountIds;
} | class class_name[name] begin[{]
method[getAWSAccountIds, return_type[type[java]], modifier[public], parameter[]] begin[{]
if[binary_operation[member[.aWSAccountIds], ==, literal[null]]] begin[{]
assign[member[.aWSAccountIds], 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=String, sub_type=None))], dimensions=None, name=SdkInternalList, sub_type=None)))))]
else begin[{]
None
end[}]
return[member[.aWSAccountIds]]
end[}]
END[}] | Keyword[public] identifier[java] operator[SEP] identifier[util] operator[SEP] identifier[List] operator[<] identifier[String] operator[>] identifier[getAWSAccountIds] operator[SEP] operator[SEP] {
Keyword[if] operator[SEP] identifier[aWSAccountIds] operator[==] Other[null] operator[SEP] {
identifier[aWSAccountIds] operator[=] Keyword[new] identifier[com] operator[SEP] identifier[amazonaws] operator[SEP] identifier[internal] operator[SEP] identifier[SdkInternalList] operator[<] identifier[String] operator[>] operator[SEP] operator[SEP] operator[SEP]
}
Keyword[return] identifier[aWSAccountIds] operator[SEP]
}
|
public ProgressStyle setMax(int value){
if(mProgressStyle == HORIZONTAL) {
if (mProgress.isIndeterminate())
mProgress.setIndeterminate(false);
mProgress.setMax(value);
if (!mIsPercentageMode)
mProgressMax.setText(String.format("%d %s", value, mSuffix));
}
return this;
} | class class_name[name] begin[{]
method[setMax, return_type[type[ProgressStyle]], modifier[public], parameter[value]] begin[{]
if[binary_operation[member[.mProgressStyle], ==, member[.HORIZONTAL]]] begin[{]
if[call[mProgress.isIndeterminate, parameter[]]] begin[{]
call[mProgress.setIndeterminate, parameter[literal[false]]]
else begin[{]
None
end[}]
call[mProgress.setMax, parameter[member[.value]]]
if[member[.mIsPercentageMode]] begin[{]
call[mProgressMax.setText, parameter[call[String.format, parameter[literal["%d %s"], member[.value], member[.mSuffix]]]]]
else begin[{]
None
end[}]
else begin[{]
None
end[}]
return[THIS[]]
end[}]
END[}] | Keyword[public] identifier[ProgressStyle] identifier[setMax] operator[SEP] Keyword[int] identifier[value] operator[SEP] {
Keyword[if] operator[SEP] identifier[mProgressStyle] operator[==] identifier[HORIZONTAL] operator[SEP] {
Keyword[if] operator[SEP] identifier[mProgress] operator[SEP] identifier[isIndeterminate] operator[SEP] operator[SEP] operator[SEP] identifier[mProgress] operator[SEP] identifier[setIndeterminate] operator[SEP] literal[boolean] operator[SEP] operator[SEP] identifier[mProgress] operator[SEP] identifier[setMax] operator[SEP] identifier[value] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[mIsPercentageMode] operator[SEP] identifier[mProgressMax] operator[SEP] identifier[setText] operator[SEP] identifier[String] operator[SEP] identifier[format] operator[SEP] literal[String] , identifier[value] , identifier[mSuffix] operator[SEP] operator[SEP] operator[SEP]
}
Keyword[return] Keyword[this] operator[SEP]
}
|
public static CTFileQueryBond ofType(IBond bond, int type) {
CTFileQueryBond queryBond = new CTFileQueryBond(bond.getBuilder());
queryBond.setOrder(Order.UNSET);
queryBond.setAtoms(new IAtom[]{bond.getBegin(), bond.getEnd()});
switch (type) {
case 1:
queryBond.setType(Type.SINGLE);
break;
case 2:
queryBond.setType(Type.DOUBLE);
break;
case 3:
queryBond.setType(Type.TRIPLE);
break;
case 4:
queryBond.setType(Type.AROMATIC);
break;
case 5:
queryBond.setType(Type.SINGLE_OR_DOUBLE);
break;
case 6:
queryBond.setType(Type.SINGLE_OR_AROMATIC);
break;
case 7:
queryBond.setType(Type.DOUBLE_OR_AROMATIC);
break;
case 8:
queryBond.setType(Type.ANY);
break;
default:
throw new IllegalArgumentException("Unknown bond type: " + type);
}
return queryBond;
} | class class_name[name] begin[{]
method[ofType, return_type[type[CTFileQueryBond]], modifier[public static], parameter[bond, type]] begin[{]
local_variable[type[CTFileQueryBond], queryBond]
call[queryBond.setOrder, parameter[member[Order.UNSET]]]
call[queryBond.setAtoms, parameter[ArrayCreator(dimensions=[None], initializer=ArrayInitializer(initializers=[MethodInvocation(arguments=[], member=getBegin, postfix_operators=[], prefix_operators=[], qualifier=bond, selectors=[], type_arguments=None), MethodInvocation(arguments=[], member=getEnd, postfix_operators=[], prefix_operators=[], qualifier=bond, selectors=[], type_arguments=None)]), postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=IAtom, sub_type=None))]]
SwitchStatement(cases=[SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1)], statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=SINGLE, postfix_operators=[], prefix_operators=[], qualifier=Type, selectors=[])], member=setType, postfix_operators=[], prefix_operators=[], qualifier=queryBond, selectors=[], type_arguments=None), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2)], statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=DOUBLE, postfix_operators=[], prefix_operators=[], qualifier=Type, selectors=[])], member=setType, postfix_operators=[], prefix_operators=[], qualifier=queryBond, selectors=[], type_arguments=None), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=3)], statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=TRIPLE, postfix_operators=[], prefix_operators=[], qualifier=Type, selectors=[])], member=setType, postfix_operators=[], prefix_operators=[], qualifier=queryBond, selectors=[], type_arguments=None), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=4)], statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=AROMATIC, postfix_operators=[], prefix_operators=[], qualifier=Type, selectors=[])], member=setType, postfix_operators=[], prefix_operators=[], qualifier=queryBond, selectors=[], type_arguments=None), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=5)], statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=SINGLE_OR_DOUBLE, postfix_operators=[], prefix_operators=[], qualifier=Type, selectors=[])], member=setType, postfix_operators=[], prefix_operators=[], qualifier=queryBond, selectors=[], type_arguments=None), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=6)], statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=SINGLE_OR_AROMATIC, postfix_operators=[], prefix_operators=[], qualifier=Type, selectors=[])], member=setType, postfix_operators=[], prefix_operators=[], qualifier=queryBond, selectors=[], type_arguments=None), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=7)], statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=DOUBLE_OR_AROMATIC, postfix_operators=[], prefix_operators=[], qualifier=Type, selectors=[])], member=setType, postfix_operators=[], prefix_operators=[], qualifier=queryBond, selectors=[], type_arguments=None), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=8)], statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=ANY, postfix_operators=[], prefix_operators=[], qualifier=Type, selectors=[])], member=setType, postfix_operators=[], prefix_operators=[], qualifier=queryBond, selectors=[], type_arguments=None), label=None), BreakStatement(goto=None, label=None)]), SwitchStatementCase(case=[], statements=[ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Unknown bond type: "), operandr=MemberReference(member=type, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=IllegalArgumentException, sub_type=None)), label=None)])], expression=MemberReference(member=type, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), label=None)
return[member[.queryBond]]
end[}]
END[}] | Keyword[public] Keyword[static] identifier[CTFileQueryBond] identifier[ofType] operator[SEP] identifier[IBond] identifier[bond] , Keyword[int] identifier[type] operator[SEP] {
identifier[CTFileQueryBond] identifier[queryBond] operator[=] Keyword[new] identifier[CTFileQueryBond] operator[SEP] identifier[bond] operator[SEP] identifier[getBuilder] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[queryBond] operator[SEP] identifier[setOrder] operator[SEP] identifier[Order] operator[SEP] identifier[UNSET] operator[SEP] operator[SEP] identifier[queryBond] operator[SEP] identifier[setAtoms] operator[SEP] Keyword[new] identifier[IAtom] operator[SEP] operator[SEP] {
identifier[bond] operator[SEP] identifier[getBegin] operator[SEP] operator[SEP] , identifier[bond] operator[SEP] identifier[getEnd] operator[SEP] operator[SEP]
} operator[SEP] operator[SEP] Keyword[switch] operator[SEP] identifier[type] operator[SEP] {
Keyword[case] Other[1] operator[:] identifier[queryBond] operator[SEP] identifier[setType] operator[SEP] identifier[Type] operator[SEP] identifier[SINGLE] operator[SEP] operator[SEP] Keyword[break] operator[SEP] Keyword[case] Other[2] operator[:] identifier[queryBond] operator[SEP] identifier[setType] operator[SEP] identifier[Type] operator[SEP] identifier[DOUBLE] operator[SEP] operator[SEP] Keyword[break] operator[SEP] Keyword[case] Other[3] operator[:] identifier[queryBond] operator[SEP] identifier[setType] operator[SEP] identifier[Type] operator[SEP] identifier[TRIPLE] operator[SEP] operator[SEP] Keyword[break] operator[SEP] Keyword[case] Other[4] operator[:] identifier[queryBond] operator[SEP] identifier[setType] operator[SEP] identifier[Type] operator[SEP] identifier[AROMATIC] operator[SEP] operator[SEP] Keyword[break] operator[SEP] Keyword[case] Other[5] operator[:] identifier[queryBond] operator[SEP] identifier[setType] operator[SEP] identifier[Type] operator[SEP] identifier[SINGLE_OR_DOUBLE] operator[SEP] operator[SEP] Keyword[break] operator[SEP] Keyword[case] Other[6] operator[:] identifier[queryBond] operator[SEP] identifier[setType] operator[SEP] identifier[Type] operator[SEP] identifier[SINGLE_OR_AROMATIC] operator[SEP] operator[SEP] Keyword[break] operator[SEP] Keyword[case] Other[7] operator[:] identifier[queryBond] operator[SEP] identifier[setType] operator[SEP] identifier[Type] operator[SEP] identifier[DOUBLE_OR_AROMATIC] operator[SEP] operator[SEP] Keyword[break] operator[SEP] Keyword[case] Other[8] operator[:] identifier[queryBond] operator[SEP] identifier[setType] operator[SEP] identifier[Type] operator[SEP] identifier[ANY] operator[SEP] operator[SEP] Keyword[break] operator[SEP] Keyword[default] operator[:] Keyword[throw] Keyword[new] identifier[IllegalArgumentException] operator[SEP] literal[String] operator[+] identifier[type] operator[SEP] operator[SEP]
}
Keyword[return] identifier[queryBond] operator[SEP]
}
|
protected final PrcSettingsAddSave<RS> lazyGetPrcSettingsAddSave(final Map<String, Object> pAddParam) throws Exception {
String beanName = PrcSettingsAddSave.class.getSimpleName();
@SuppressWarnings("unchecked")
PrcSettingsAddSave<RS> proc = (PrcSettingsAddSave<RS>) this.processorsMap.get(beanName);
if (proc == null) {
proc = new PrcSettingsAddSave<RS>();
proc.setSrvSettingsAdd(getSrvSettingsAdd());
//assigning fully initialized object:
this.processorsMap.put(beanName, proc);
this.logger.info(null, FctBnTradeEntitiesProcessors.class, beanName + " has been created.");
}
return proc;
} | class class_name[name] begin[{]
method[lazyGetPrcSettingsAddSave, return_type[type[PrcSettingsAddSave]], modifier[final protected], parameter[pAddParam]] begin[{]
local_variable[type[String], beanName]
local_variable[type[PrcSettingsAddSave], proc]
if[binary_operation[member[.proc], ==, literal[null]]] begin[{]
assign[member[.proc], 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=RS, sub_type=None))], dimensions=None, name=PrcSettingsAddSave, sub_type=None))]
call[proc.setSrvSettingsAdd, parameter[call[.getSrvSettingsAdd, parameter[]]]]
THIS[member[None.processorsMap]call[None.put, parameter[member[.beanName], member[.proc]]]]
THIS[member[None.logger]call[None.info, parameter[literal[null], ClassReference(postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=FctBnTradeEntitiesProcessors, sub_type=None)), binary_operation[member[.beanName], +, literal[" has been created."]]]]]
else begin[{]
None
end[}]
return[member[.proc]]
end[}]
END[}] | Keyword[protected] Keyword[final] identifier[PrcSettingsAddSave] operator[<] identifier[RS] operator[>] identifier[lazyGetPrcSettingsAddSave] operator[SEP] Keyword[final] identifier[Map] operator[<] identifier[String] , identifier[Object] operator[>] identifier[pAddParam] operator[SEP] Keyword[throws] identifier[Exception] {
identifier[String] identifier[beanName] operator[=] identifier[PrcSettingsAddSave] operator[SEP] Keyword[class] operator[SEP] identifier[getSimpleName] operator[SEP] operator[SEP] operator[SEP] annotation[@] identifier[SuppressWarnings] operator[SEP] literal[String] operator[SEP] identifier[PrcSettingsAddSave] operator[<] identifier[RS] operator[>] identifier[proc] operator[=] operator[SEP] identifier[PrcSettingsAddSave] operator[<] identifier[RS] operator[>] operator[SEP] Keyword[this] operator[SEP] identifier[processorsMap] operator[SEP] identifier[get] operator[SEP] identifier[beanName] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[proc] operator[==] Other[null] operator[SEP] {
identifier[proc] operator[=] Keyword[new] identifier[PrcSettingsAddSave] operator[<] identifier[RS] operator[>] operator[SEP] operator[SEP] operator[SEP] identifier[proc] operator[SEP] identifier[setSrvSettingsAdd] operator[SEP] identifier[getSrvSettingsAdd] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[this] operator[SEP] identifier[processorsMap] operator[SEP] identifier[put] operator[SEP] identifier[beanName] , identifier[proc] operator[SEP] operator[SEP] Keyword[this] operator[SEP] identifier[logger] operator[SEP] identifier[info] operator[SEP] Other[null] , identifier[FctBnTradeEntitiesProcessors] operator[SEP] Keyword[class] , identifier[beanName] operator[+] literal[String] operator[SEP] operator[SEP]
}
Keyword[return] identifier[proc] operator[SEP]
}
|
protected static String fetchList(String key) {
List valuesArray = (List) fetchObject(key);
//TODO: Make this dynamic - assumes 3 lists
List<String> stringList1 = (List<String>) valuesArray.get(0);
List<String> stringList2 = (List<String>) valuesArray.get(1);
List<String> stringList3 = (List<String>) valuesArray.get(2);
return stringList1.get(RandomUtils.nextInt(stringList1.size())) + " " + stringList2.get(RandomUtils.nextInt(stringList2.size())) + " " + stringList3.get(RandomUtils.nextInt(stringList3.size()));
} | class class_name[name] begin[{]
method[fetchList, return_type[type[String]], modifier[static protected], parameter[key]] begin[{]
local_variable[type[List], valuesArray]
local_variable[type[List], stringList1]
local_variable[type[List], stringList2]
local_variable[type[List], stringList3]
return[binary_operation[binary_operation[binary_operation[binary_operation[call[stringList1.get, parameter[call[RandomUtils.nextInt, parameter[call[stringList1.size, parameter[]]]]]], +, literal[" "]], +, call[stringList2.get, parameter[call[RandomUtils.nextInt, parameter[call[stringList2.size, parameter[]]]]]]], +, literal[" "]], +, call[stringList3.get, parameter[call[RandomUtils.nextInt, parameter[call[stringList3.size, parameter[]]]]]]]]
end[}]
END[}] | Keyword[protected] Keyword[static] identifier[String] identifier[fetchList] operator[SEP] identifier[String] identifier[key] operator[SEP] {
identifier[List] identifier[valuesArray] operator[=] operator[SEP] identifier[List] operator[SEP] identifier[fetchObject] operator[SEP] identifier[key] operator[SEP] operator[SEP] identifier[List] operator[<] identifier[String] operator[>] identifier[stringList1] operator[=] operator[SEP] identifier[List] operator[<] identifier[String] operator[>] operator[SEP] identifier[valuesArray] operator[SEP] identifier[get] operator[SEP] Other[0] operator[SEP] operator[SEP] identifier[List] operator[<] identifier[String] operator[>] identifier[stringList2] operator[=] operator[SEP] identifier[List] operator[<] identifier[String] operator[>] operator[SEP] identifier[valuesArray] operator[SEP] identifier[get] operator[SEP] Other[1] operator[SEP] operator[SEP] identifier[List] operator[<] identifier[String] operator[>] identifier[stringList3] operator[=] operator[SEP] identifier[List] operator[<] identifier[String] operator[>] operator[SEP] identifier[valuesArray] operator[SEP] identifier[get] operator[SEP] Other[2] operator[SEP] operator[SEP] Keyword[return] identifier[stringList1] operator[SEP] identifier[get] operator[SEP] identifier[RandomUtils] operator[SEP] identifier[nextInt] operator[SEP] identifier[stringList1] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[+] literal[String] operator[+] identifier[stringList2] operator[SEP] identifier[get] operator[SEP] identifier[RandomUtils] operator[SEP] identifier[nextInt] operator[SEP] identifier[stringList2] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[+] literal[String] operator[+] identifier[stringList3] operator[SEP] identifier[get] operator[SEP] identifier[RandomUtils] operator[SEP] identifier[nextInt] operator[SEP] identifier[stringList3] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP]
}
|
public Iterator<List<IN>> getIterator(Reader r) {
Tokenizer<IN> tokenizer = tokenizerFactory.getTokenizer(r);
// PTBTokenizer.newPTBTokenizer(r, false, true);
List<IN> words = new ArrayList<IN>();
IN previous = tokenFactory.makeToken();
StringBuilder prepend = new StringBuilder();
/*
* This changes SGML tags into whitespace -- it should maybe be moved
* elsewhere
*/
while (tokenizer.hasNext()) {
IN w = tokenizer.next();
String word = w.get(CoreAnnotations.TextAnnotation.class);
Matcher m = sgml.matcher(word);
if (m.matches()) {
String before = StringUtils.getNotNullString(w.get(CoreAnnotations.BeforeAnnotation.class));
String after = StringUtils.getNotNullString(w.get(CoreAnnotations.AfterAnnotation.class));
prepend.append(before).append(word);
String previousTokenAfter = StringUtils.getNotNullString(previous.get(CoreAnnotations.AfterAnnotation.class));
previous.set(AfterAnnotation.class, previousTokenAfter + word + after);
// previous.appendAfter(w.word() + w.after());
} else {
String before = StringUtils.getNotNullString(w.get(CoreAnnotations.BeforeAnnotation.class));
if (prepend.length() > 0) {
w.set(BeforeAnnotation.class, prepend.toString() + before);
// w.prependBefore(prepend.toString());
prepend = new StringBuilder();
}
words.add(w);
previous = w;
}
}
List<List<IN>> sentences = wts.process(words);
String after = "";
IN last = null;
for (List<IN> sentence : sentences) {
int pos = 0;
for (IN w : sentence) {
w.set(PositionAnnotation.class, Integer.toString(pos));
after = StringUtils.getNotNullString(w.get(CoreAnnotations.AfterAnnotation.class));
w.remove(AfterAnnotation.class);
last = w;
}
}
if (last != null) {
last.set(AfterAnnotation.class, after);
}
return sentences.iterator();
} | class class_name[name] begin[{]
method[getIterator, return_type[type[Iterator]], modifier[public], parameter[r]] begin[{]
local_variable[type[Tokenizer], tokenizer]
local_variable[type[List], words]
local_variable[type[IN], previous]
local_variable[type[StringBuilder], prepend]
while[call[tokenizer.hasNext, parameter[]]] begin[{]
local_variable[type[IN], w]
local_variable[type[String], word]
local_variable[type[Matcher], m]
if[call[m.matches, parameter[]]] begin[{]
local_variable[type[String], before]
local_variable[type[String], after]
call[prepend.append, parameter[member[.before]]]
local_variable[type[String], previousTokenAfter]
call[previous.set, parameter[ClassReference(postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=AfterAnnotation, sub_type=None)), binary_operation[binary_operation[member[.previousTokenAfter], +, member[.word]], +, member[.after]]]]
else begin[{]
local_variable[type[String], before]
if[binary_operation[call[prepend.length, parameter[]], >, literal[0]]] begin[{]
call[w.set, parameter[ClassReference(postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=BeforeAnnotation, sub_type=None)), binary_operation[call[prepend.toString, parameter[]], +, member[.before]]]]
assign[member[.prepend], 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))]
else begin[{]
None
end[}]
call[words.add, parameter[member[.w]]]
assign[member[.previous], member[.w]]
end[}]
end[}]
local_variable[type[List], sentences]
local_variable[type[String], after]
local_variable[type[IN], last]
ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), name=pos)], modifiers=set(), type=BasicType(dimensions=[], name=int)), ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[ClassReference(postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=PositionAnnotation, sub_type=None)), MethodInvocation(arguments=[MemberReference(member=pos, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=toString, postfix_operators=[], prefix_operators=[], qualifier=Integer, selectors=[], type_arguments=None)], member=set, postfix_operators=[], prefix_operators=[], qualifier=w, selectors=[], type_arguments=None), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=after, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[MethodInvocation(arguments=[ClassReference(postfix_operators=[], prefix_operators=[], qualifier=CoreAnnotations, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=AfterAnnotation, sub_type=None))], member=get, postfix_operators=[], prefix_operators=[], qualifier=w, selectors=[], type_arguments=None)], member=getNotNullString, postfix_operators=[], prefix_operators=[], qualifier=StringUtils, selectors=[], type_arguments=None)), label=None), StatementExpression(expression=MethodInvocation(arguments=[ClassReference(postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=AfterAnnotation, sub_type=None))], member=remove, postfix_operators=[], prefix_operators=[], qualifier=w, selectors=[], type_arguments=None), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=last, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MemberReference(member=w, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), label=None)]), control=EnhancedForControl(iterable=MemberReference(member=sentence, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=w)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=IN, sub_type=None))), label=None)]), control=EnhancedForControl(iterable=MemberReference(member=sentences, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=sentence)], modifiers=set(), type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=IN, sub_type=None))], dimensions=[], name=List, sub_type=None))), label=None)
if[binary_operation[member[.last], !=, literal[null]]] begin[{]
call[last.set, parameter[ClassReference(postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=AfterAnnotation, sub_type=None)), member[.after]]]
else begin[{]
None
end[}]
return[call[sentences.iterator, parameter[]]]
end[}]
END[}] | Keyword[public] identifier[Iterator] operator[<] identifier[List] operator[<] identifier[IN] operator[>] operator[>] identifier[getIterator] operator[SEP] identifier[Reader] identifier[r] operator[SEP] {
identifier[Tokenizer] operator[<] identifier[IN] operator[>] identifier[tokenizer] operator[=] identifier[tokenizerFactory] operator[SEP] identifier[getTokenizer] operator[SEP] identifier[r] operator[SEP] operator[SEP] identifier[List] operator[<] identifier[IN] operator[>] identifier[words] operator[=] Keyword[new] identifier[ArrayList] operator[<] identifier[IN] operator[>] operator[SEP] operator[SEP] operator[SEP] identifier[IN] identifier[previous] operator[=] identifier[tokenFactory] operator[SEP] identifier[makeToken] operator[SEP] operator[SEP] operator[SEP] identifier[StringBuilder] identifier[prepend] operator[=] Keyword[new] identifier[StringBuilder] operator[SEP] operator[SEP] operator[SEP] Keyword[while] operator[SEP] identifier[tokenizer] operator[SEP] identifier[hasNext] operator[SEP] operator[SEP] operator[SEP] {
identifier[IN] identifier[w] operator[=] identifier[tokenizer] operator[SEP] identifier[next] operator[SEP] operator[SEP] operator[SEP] identifier[String] identifier[word] operator[=] identifier[w] operator[SEP] identifier[get] operator[SEP] identifier[CoreAnnotations] operator[SEP] identifier[TextAnnotation] operator[SEP] Keyword[class] operator[SEP] operator[SEP] identifier[Matcher] identifier[m] operator[=] identifier[sgml] operator[SEP] identifier[matcher] operator[SEP] identifier[word] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[m] operator[SEP] identifier[matches] operator[SEP] operator[SEP] operator[SEP] {
identifier[String] identifier[before] operator[=] identifier[StringUtils] operator[SEP] identifier[getNotNullString] operator[SEP] identifier[w] operator[SEP] identifier[get] operator[SEP] identifier[CoreAnnotations] operator[SEP] identifier[BeforeAnnotation] operator[SEP] Keyword[class] operator[SEP] operator[SEP] operator[SEP] identifier[String] identifier[after] operator[=] identifier[StringUtils] operator[SEP] identifier[getNotNullString] operator[SEP] identifier[w] operator[SEP] identifier[get] operator[SEP] identifier[CoreAnnotations] operator[SEP] identifier[AfterAnnotation] operator[SEP] Keyword[class] operator[SEP] operator[SEP] operator[SEP] identifier[prepend] operator[SEP] identifier[append] operator[SEP] identifier[before] operator[SEP] operator[SEP] identifier[append] operator[SEP] identifier[word] operator[SEP] operator[SEP] identifier[String] identifier[previousTokenAfter] operator[=] identifier[StringUtils] operator[SEP] identifier[getNotNullString] operator[SEP] identifier[previous] operator[SEP] identifier[get] operator[SEP] identifier[CoreAnnotations] operator[SEP] identifier[AfterAnnotation] operator[SEP] Keyword[class] operator[SEP] operator[SEP] operator[SEP] identifier[previous] operator[SEP] identifier[set] operator[SEP] identifier[AfterAnnotation] operator[SEP] Keyword[class] , identifier[previousTokenAfter] operator[+] identifier[word] operator[+] identifier[after] operator[SEP] operator[SEP]
}
Keyword[else] {
identifier[String] identifier[before] operator[=] identifier[StringUtils] operator[SEP] identifier[getNotNullString] operator[SEP] identifier[w] operator[SEP] identifier[get] operator[SEP] identifier[CoreAnnotations] operator[SEP] identifier[BeforeAnnotation] operator[SEP] Keyword[class] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[prepend] operator[SEP] identifier[length] operator[SEP] operator[SEP] operator[>] Other[0] operator[SEP] {
identifier[w] operator[SEP] identifier[set] operator[SEP] identifier[BeforeAnnotation] operator[SEP] Keyword[class] , identifier[prepend] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[+] identifier[before] operator[SEP] operator[SEP] identifier[prepend] operator[=] Keyword[new] identifier[StringBuilder] operator[SEP] operator[SEP] operator[SEP]
}
identifier[words] operator[SEP] identifier[add] operator[SEP] identifier[w] operator[SEP] operator[SEP] identifier[previous] operator[=] identifier[w] operator[SEP]
}
}
identifier[List] operator[<] identifier[List] operator[<] identifier[IN] operator[>] operator[>] identifier[sentences] operator[=] identifier[wts] operator[SEP] identifier[process] operator[SEP] identifier[words] operator[SEP] operator[SEP] identifier[String] identifier[after] operator[=] literal[String] operator[SEP] identifier[IN] identifier[last] operator[=] Other[null] operator[SEP] Keyword[for] operator[SEP] identifier[List] operator[<] identifier[IN] operator[>] identifier[sentence] operator[:] identifier[sentences] operator[SEP] {
Keyword[int] identifier[pos] operator[=] Other[0] operator[SEP] Keyword[for] operator[SEP] identifier[IN] identifier[w] operator[:] identifier[sentence] operator[SEP] {
identifier[w] operator[SEP] identifier[set] operator[SEP] identifier[PositionAnnotation] operator[SEP] Keyword[class] , identifier[Integer] operator[SEP] identifier[toString] operator[SEP] identifier[pos] operator[SEP] operator[SEP] operator[SEP] identifier[after] operator[=] identifier[StringUtils] operator[SEP] identifier[getNotNullString] operator[SEP] identifier[w] operator[SEP] identifier[get] operator[SEP] identifier[CoreAnnotations] operator[SEP] identifier[AfterAnnotation] operator[SEP] Keyword[class] operator[SEP] operator[SEP] operator[SEP] identifier[w] operator[SEP] identifier[remove] operator[SEP] identifier[AfterAnnotation] operator[SEP] Keyword[class] operator[SEP] operator[SEP] identifier[last] operator[=] identifier[w] operator[SEP]
}
}
Keyword[if] operator[SEP] identifier[last] operator[!=] Other[null] operator[SEP] {
identifier[last] operator[SEP] identifier[set] operator[SEP] identifier[AfterAnnotation] operator[SEP] Keyword[class] , identifier[after] operator[SEP] operator[SEP]
}
Keyword[return] identifier[sentences] operator[SEP] identifier[iterator] operator[SEP] operator[SEP] operator[SEP]
}
|
protected void processObjectTag(ObjectTag tag) {
CmsRelationType type = CmsRelationType.valueOf(tag.getTagName());
for (int i = 0; i < OBJECT_TAG_LINKED_ATTRIBS.length; i++) {
String attr = OBJECT_TAG_LINKED_ATTRIBS[i];
processLink(tag, attr, type);
if ((i == 0) && (tag.getAttribute(attr) != null)) {
// if code base is available, the other attributes are relative to it, so do not process them
break;
}
}
SimpleNodeIterator itChildren = tag.children();
while (itChildren.hasMoreNodes()) {
Node node = itChildren.nextNode();
if (node instanceof Tag) {
Tag childTag = (Tag)node;
if (TAG_PARAM.equals(childTag.getTagName())) {
processLink(childTag, ATTRIBUTE_VALUE, type);
}
}
}
} | class class_name[name] begin[{]
method[processObjectTag, return_type[void], modifier[protected], parameter[tag]] begin[{]
local_variable[type[CmsRelationType], type]
ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=OBJECT_TAG_LINKED_ATTRIBS, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), name=attr)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=tag, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=attr, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=type, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=processLink, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None), IfStatement(condition=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), operator===), operandr=BinaryOperation(operandl=MethodInvocation(arguments=[MemberReference(member=attr, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getAttribute, postfix_operators=[], prefix_operators=[], qualifier=tag, selectors=[], type_arguments=None), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator=!=), operator=&&), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[BreakStatement(goto=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=OBJECT_TAG_LINKED_ATTRIBS, 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[SimpleNodeIterator], itChildren]
while[call[itChildren.hasMoreNodes, parameter[]]] begin[{]
local_variable[type[Node], node]
if[binary_operation[member[.node], instanceof, type[Tag]]] begin[{]
local_variable[type[Tag], childTag]
if[call[TAG_PARAM.equals, parameter[call[childTag.getTagName, parameter[]]]]] begin[{]
call[.processLink, parameter[member[.childTag], member[.ATTRIBUTE_VALUE], member[.type]]]
else begin[{]
None
end[}]
else begin[{]
None
end[}]
end[}]
end[}]
END[}] | Keyword[protected] Keyword[void] identifier[processObjectTag] operator[SEP] identifier[ObjectTag] identifier[tag] operator[SEP] {
identifier[CmsRelationType] identifier[type] operator[=] identifier[CmsRelationType] operator[SEP] identifier[valueOf] operator[SEP] identifier[tag] operator[SEP] identifier[getTagName] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[OBJECT_TAG_LINKED_ATTRIBS] operator[SEP] identifier[length] operator[SEP] identifier[i] operator[++] operator[SEP] {
identifier[String] identifier[attr] operator[=] identifier[OBJECT_TAG_LINKED_ATTRIBS] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[processLink] operator[SEP] identifier[tag] , identifier[attr] , identifier[type] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[SEP] identifier[i] operator[==] Other[0] operator[SEP] operator[&&] operator[SEP] identifier[tag] operator[SEP] identifier[getAttribute] operator[SEP] identifier[attr] operator[SEP] operator[!=] Other[null] operator[SEP] operator[SEP] {
Keyword[break] operator[SEP]
}
}
identifier[SimpleNodeIterator] identifier[itChildren] operator[=] identifier[tag] operator[SEP] identifier[children] operator[SEP] operator[SEP] operator[SEP] Keyword[while] operator[SEP] identifier[itChildren] operator[SEP] identifier[hasMoreNodes] operator[SEP] operator[SEP] operator[SEP] {
identifier[Node] identifier[node] operator[=] identifier[itChildren] operator[SEP] identifier[nextNode] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[node] Keyword[instanceof] identifier[Tag] operator[SEP] {
identifier[Tag] identifier[childTag] operator[=] operator[SEP] identifier[Tag] operator[SEP] identifier[node] operator[SEP] Keyword[if] operator[SEP] identifier[TAG_PARAM] operator[SEP] identifier[equals] operator[SEP] identifier[childTag] operator[SEP] identifier[getTagName] operator[SEP] operator[SEP] operator[SEP] operator[SEP] {
identifier[processLink] operator[SEP] identifier[childTag] , identifier[ATTRIBUTE_VALUE] , identifier[type] operator[SEP] operator[SEP]
}
}
}
}
|
public boolean sameState(final MinMax<C> other) {
return this == other ||
Objects.equals(_min, other._min) &&
Objects.equals(_max, other._max);
} | class class_name[name] begin[{]
method[sameState, return_type[type[boolean]], modifier[public], parameter[other]] begin[{]
return[binary_operation[binary_operation[THIS[], ==, member[.other]], ||, binary_operation[call[Objects.equals, parameter[member[._min], member[other._min]]], &&, call[Objects.equals, parameter[member[._max], member[other._max]]]]]]
end[}]
END[}] | Keyword[public] Keyword[boolean] identifier[sameState] operator[SEP] Keyword[final] identifier[MinMax] operator[<] identifier[C] operator[>] identifier[other] operator[SEP] {
Keyword[return] Keyword[this] operator[==] identifier[other] operator[||] identifier[Objects] operator[SEP] identifier[equals] operator[SEP] identifier[_min] , identifier[other] operator[SEP] identifier[_min] operator[SEP] operator[&&] identifier[Objects] operator[SEP] identifier[equals] operator[SEP] identifier[_max] , identifier[other] operator[SEP] identifier[_max] operator[SEP] operator[SEP]
}
|
public void exec(INDArrayIndex... indexes) {
val shape = arr.shape();
if (arr.isSparse()) {
resolveFixedDimensionsCOO(indexes);
}
// Check that given point indexes are not out of bounds
for (int i = 0; i < indexes.length; i++) {
INDArrayIndex idx = indexes[i];
// On vectors, the first dimension can be ignored when indexing them with a single point index
if (idx instanceof PointIndex && (arr.isVector() && indexes.length == 1 ? idx.current() >= shape[i + 1]
: idx.current() >= shape[i])) {
throw new IllegalArgumentException(
"INDArrayIndex[" + i + "] is out of bounds (value: " + idx.current() + ")");
}
}
indexes = NDArrayIndex.resolve(arr.shapeInfoDataBuffer(), indexes);
if (tryShortCircuit(indexes)) {
return;
}
int numIntervals = 0;
//number of new axes dimensions to prepend to the beginning
int newAxesPrepend = 0;
//whether we have encountered an all so far
boolean encounteredAll = false;
int lastPrependIndex = -1;
List<Integer> oneDimensionWithAllEncountered = new ArrayList<>();
//accumulate the results
List<Long> accumShape = new ArrayList<>();
List<Long> accumStrides = new ArrayList<>();
List<Long> accumOffsets = new ArrayList<>();
List<Long> intervalStrides = new ArrayList<>();
//collect the indexes of the points that get removed
//for point purposes
//this will be used to compute the offset
//for the new array
List<Long> pointStrides = new ArrayList<>();
List<Long> pointOffsets = new ArrayList<>();
int numPointIndexes = 0;
//bump number to read from the shape
int shapeIndex = 0;
//stride index to read strides from the array
int strideIndex = 0;
//list of indexes to prepend to for new axes
//if all is encountered
List<Integer> prependNewAxes = new ArrayList<>();
for (int i = 0; i < indexes.length; i++) {
INDArrayIndex idx = indexes[i];
if (idx instanceof NDArrayIndexAll) {
encounteredAll = true;
if (i < arr.rank() && arr.size(i) == 1)
oneDimensionWithAllEncountered.add(i);
//different dimension from new axis (look for new axis dimensions
//at at the beginning. track when the last new axis is encountered.
if (newAxesPrepend > 0 && lastPrependIndex < 0) {
lastPrependIndex = i - 1;
}
}
//point: do nothing but move the shape counter
//also move the stride counter
if (idx instanceof PointIndex) {
pointOffsets.add(idx.offset());
pointStrides.add((long) arr.stride(strideIndex));
numPointIndexes++;
shapeIndex++;
strideIndex++;
//different dimension from new axis (look for new axis dimensions
//at at the beginning. track when the last new axis is encountered.
if (newAxesPrepend > 0 && lastPrependIndex < 0) {
lastPrependIndex = i - 1;
}
continue;
}
//new axes encountered, need to track whether to prepend or
//to set the new axis in the middle
else if (idx instanceof NewAxis) {
//prepend the new axes at different indexes
accumShape.add(1L);
accumOffsets.add(0L);
accumStrides.add(0L);
prependNewAxes.add(i);
continue;
}
//points and intervals both have a direct desired length
else if (idx instanceof IntervalIndex && !(idx instanceof NDArrayIndexAll)
|| idx instanceof SpecifiedIndex) {
if (idx instanceof IntervalIndex) {
accumStrides.add(arr.stride(strideIndex) * idx.stride());
//used in computing an adjusted offset for the augmented strides
intervalStrides.add(idx.stride());
numIntervals++;
}
else
accumStrides.add((long) arr.stride(strideIndex));
accumShape.add(idx.length());
//the stride stays the same
//add the offset for the index
if (idx instanceof IntervalIndex) {
accumOffsets.add(idx.offset());
} else
accumOffsets.add(idx.offset());
shapeIndex++;
strideIndex++;
//different dimension from new axis (look for new axis dimensions
//at at the beginning. track when the last new axis is encountered.
if (newAxesPrepend > 0 && lastPrependIndex < 0) {
lastPrependIndex = i - 1;
}
continue;
}
//add the shape and stride
//based on the original stride/shape
accumShape.add((long) shape[shapeIndex++]);
//account for erroneous strides from dimensions of size 1
//move the stride index if its one and fill it in at the bottom
accumStrides.add((long) arr.stride(strideIndex++));
//default offsets are zero
accumOffsets.add(idx.offset());
}
//fill in missing strides and shapes
while (shapeIndex < shape.length) {
//scalar, should be 1 x 1 rather than the number of columns in the vector
if (Shape.isVector(shape)) {
accumShape.add(1L);
shapeIndex++;
} else
accumShape.add((long) shape[shapeIndex++]);
}
//fill in the rest of the offsets with zero
int delta = (shape.length <= 2 ? shape.length : shape.length - numPointIndexes);
boolean needsFilledIn = accumShape.size() != accumStrides.size() && accumOffsets.size() != accumShape.size();
while (accumOffsets.size() < delta && needsFilledIn)
accumOffsets.add(0L);
while (accumShape.size() < 2) {
if (Shape.isRowVectorShape(arr.shape()))
accumShape.add(0, 1L);
else
accumShape.add(1L);
}
while (strideIndex < accumShape.size()) {
accumStrides.add((long) arr.stride(strideIndex++));
}
/**
* For each dimension
* where we want to prepend a dimension
* we need to add it at the index such that
* we account for the offset of the number of indexes
* added up to that point.
*
* We do this by doing an offset
* for each item added "so far"
*
* Note that we also have an offset of - 1
* because we want to prepend to the given index.
*
* When prepend new axes for in the middle is triggered
* i is already > 0
*/
/* int numAdded = 0;
for (int i = 0; i < prependNewAxes.size(); i++) {
accumShape.add(prependNewAxes.get(i) - numAdded, 1L);
//stride for the new axis is zero
accumStrides.add(prependNewAxes.get(i) - numAdded, 0L);
numAdded++;
}
for (int i = 0; i < newAxesPrepend; i++) {
prependNewAxes.add(0, i);
}
prependAxis = Ints.toArray(prependNewAxes);
*/
/**
* Need to post process strides and offsets
* for trailing ones here
*/
//prune off extra zeros for trailing and leading ones
int trailingZeroRemove = accumOffsets.size() - 1;
while (accumOffsets.size() > accumShape.size()) {
if (accumOffsets.get(trailingZeroRemove) == 0)
accumOffsets.remove(accumOffsets.size() - 1);
trailingZeroRemove--;
}
if (accumStrides.size() < accumOffsets.size())
accumStrides.addAll(pointStrides);
while (accumOffsets.size() < accumShape.size()) {
if (Shape.isRowVectorShape(arr.shape()))
accumOffsets.add(0, 0L);
else
accumOffsets.add(0L);
}
if (Shape.isMatrix(shape) && indexes[0] instanceof PointIndex && indexes[1] instanceof NDArrayIndexAll) {
Collections.reverse(accumShape);
}
if (arr.isMatrix() && indexes[0] instanceof PointIndex && indexes[1] instanceof IntervalIndex) {
this.shapes = new long[2];
shapes[0] = 1;
IntervalIndex idx = (IntervalIndex) indexes[1];
shapes[1] = idx.length();
} else
this.shapes = Longs.toArray(accumShape);
boolean isColumnVector = Shape.isColumnVectorShape(this.shapes);
//finally fill in teh rest of the strides if any are left over
while (accumStrides.size() < accumOffsets.size()) {
if (!isColumnVector)
accumStrides.add(0, (long) arr.elementStride());
else
accumStrides.add((long) arr.elementStride());
}
this.strides = Longs.toArray(accumStrides);
this.offsets = Longs.toArray(accumOffsets);
//compute point offsets differently
/**
* We need to prepend the strides for the point indexes
* such that the point index offsets are counted.
* Note here that we only use point strides
* when points strides isn't empty.
* When point strides is empty, this is
* because a point index was encountered
* but it was the lead index and therefore should
* not be counted with the offset.
*
*
* Another thing of note here is that the strides
* and offsets should line up such that the point
* and stride match up.
*/
if (numPointIndexes > 0 && !pointStrides.isEmpty()) {
//append to the end for tensors
if (newAxesPrepend >= 1) {
while (pointStrides.size() < accumOffsets.size()) {
pointStrides.add(1L);
}
//identify in the original accumulate strides
//where zero was set and emulate the
//same structure in the point strides
for (int i = 0; i < accumStrides.size(); i++) {
if (accumStrides.get(i) == 0 && !(indexes[i] instanceof NewAxis) && lastPrependIndex <= 0)
pointStrides.set(i, 0L);
}
}
//prepend any missing offsets where relevant for the dot product
//note here we are using the point offsets and strides
//for computing the offset
//the point of a point index is to drop a dimension
//and index in to a particular offset
while (pointOffsets.size() < pointStrides.size()) {
pointOffsets.add(0L);
}
//special case where offsets aren't caught
if (arr.isRowVector() && !intervalStrides.isEmpty() && pointOffsets.get(0) == 0
&& !(indexes[1] instanceof IntervalIndex))
this.offset = indexes[1].offset();
else
this.offset = ArrayUtil.dotProductLong2(pointOffsets, pointStrides);
} else {
this.offset = 0;
}
if (numIntervals > 0 && arr.rank() > 2) {
if (encounteredAll && arr.size(0) != 1 || indexes[0] instanceof PointIndex)
// FIXME: LONG
this.offset += ArrayUtil.dotProductLong2(accumOffsets, accumStrides);
else
// FIXME: LONG
this.offset += ArrayUtil.dotProductLong2(accumOffsets, accumStrides);
} else if (numIntervals > 0 && anyHaveStrideOne(indexes))
this.offset += ArrayUtil.calcOffsetLong2(accumShape, accumOffsets, accumStrides);
else
this.offset += ArrayUtil.calcOffsetLong2(accumShape, accumOffsets, accumStrides)
/ Math.max(1, numIntervals);
//collapse singular dimensions with specified index
List<Integer> removeShape = new ArrayList<>();
for (int i = 0; i < Math.min(this.shapes.length, indexes.length); i++) {
if (this.shapes[i] == 1 && indexes[i] instanceof SpecifiedIndex) {
removeShape.add(i);
}
}
if (!removeShape.isEmpty()) {
List<Long> newShape = new ArrayList<>();
List<Long> newStrides = new ArrayList<>();
for (int i = 0; i < this.shapes.length; i++) {
if (!removeShape.contains(i)) {
newShape.add(this.shapes[i]);
newStrides.add(this.strides[i]);
}
}
this.shapes = Longs.toArray(newShape);
this.strides = Longs.toArray(newStrides);
}
} | class class_name[name] begin[{]
method[exec, return_type[void], modifier[public], parameter[indexes]] begin[{]
local_variable[type[val], shape]
if[call[arr.isSparse, parameter[]]] begin[{]
call[.resolveFixedDimensionsCOO, parameter[member[.indexes]]]
else begin[{]
None
end[}]
ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=indexes, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), name=idx)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=INDArrayIndex, sub_type=None)), IfStatement(condition=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=idx, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=PointIndex, sub_type=None), operator=instanceof), operandr=TernaryExpression(condition=BinaryOperation(operandl=MethodInvocation(arguments=[], member=isVector, postfix_operators=[], prefix_operators=[], qualifier=arr, selectors=[], type_arguments=None), operandr=BinaryOperation(operandl=MemberReference(member=length, postfix_operators=[], prefix_operators=[], qualifier=indexes, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator===), operator=&&), if_false=BinaryOperation(operandl=MethodInvocation(arguments=[], member=current, postfix_operators=[], prefix_operators=[], qualifier=idx, selectors=[], type_arguments=None), operandr=MemberReference(member=shape, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), operator=>=), if_true=BinaryOperation(operandl=MethodInvocation(arguments=[], member=current, postfix_operators=[], prefix_operators=[], qualifier=idx, selectors=[], type_arguments=None), operandr=MemberReference(member=shape, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=+))]), operator=>=)), operator=&&), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="INDArrayIndex["), operandr=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="] is out of bounds (value: "), operator=+), operandr=MethodInvocation(arguments=[], member=current, postfix_operators=[], prefix_operators=[], qualifier=idx, selectors=[], type_arguments=None), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=")"), operator=+)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=IllegalArgumentException, sub_type=None)), label=None)]))]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=length, postfix_operators=[], prefix_operators=[], qualifier=indexes, 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[.indexes], call[NDArrayIndex.resolve, parameter[call[arr.shapeInfoDataBuffer, parameter[]], member[.indexes]]]]
if[call[.tryShortCircuit, parameter[member[.indexes]]]] begin[{]
return[None]
else begin[{]
None
end[}]
local_variable[type[int], numIntervals]
local_variable[type[int], newAxesPrepend]
local_variable[type[boolean], encounteredAll]
local_variable[type[int], lastPrependIndex]
local_variable[type[List], oneDimensionWithAllEncountered]
local_variable[type[List], accumShape]
local_variable[type[List], accumStrides]
local_variable[type[List], accumOffsets]
local_variable[type[List], intervalStrides]
local_variable[type[List], pointStrides]
local_variable[type[List], pointOffsets]
local_variable[type[int], numPointIndexes]
local_variable[type[int], shapeIndex]
local_variable[type[int], strideIndex]
local_variable[type[List], prependNewAxes]
ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=indexes, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), name=idx)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=INDArrayIndex, sub_type=None)), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=idx, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=NDArrayIndexAll, sub_type=None), operator=instanceof), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=encounteredAll, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)), label=None), IfStatement(condition=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MethodInvocation(arguments=[], member=rank, postfix_operators=[], prefix_operators=[], qualifier=arr, selectors=[], type_arguments=None), operator=<), operandr=BinaryOperation(operandl=MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=size, postfix_operators=[], prefix_operators=[], qualifier=arr, selectors=[], type_arguments=None), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator===), operator=&&), else_statement=None, label=None, then_statement=StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=add, postfix_operators=[], prefix_operators=[], qualifier=oneDimensionWithAllEncountered, selectors=[], type_arguments=None), label=None)), IfStatement(condition=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=newAxesPrepend, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), operator=>), operandr=BinaryOperation(operandl=MemberReference(member=lastPrependIndex, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), operator=<), operator=&&), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=lastPrependIndex, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=-)), label=None)]))])), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=idx, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=PointIndex, sub_type=None), operator=instanceof), else_statement=IfStatement(condition=BinaryOperation(operandl=MemberReference(member=idx, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=NewAxis, sub_type=None), operator=instanceof), else_statement=IfStatement(condition=BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=idx, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=IntervalIndex, sub_type=None), operator=instanceof), operandr=BinaryOperation(operandl=MemberReference(member=idx, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=NDArrayIndexAll, sub_type=None), operator=instanceof), operator=&&), operandr=BinaryOperation(operandl=MemberReference(member=idx, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=SpecifiedIndex, sub_type=None), operator=instanceof), operator=||), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=idx, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=IntervalIndex, sub_type=None), operator=instanceof), else_statement=StatementExpression(expression=MethodInvocation(arguments=[Cast(expression=MethodInvocation(arguments=[MemberReference(member=strideIndex, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=stride, postfix_operators=[], prefix_operators=[], qualifier=arr, selectors=[], type_arguments=None), type=BasicType(dimensions=[], name=long))], member=add, postfix_operators=[], prefix_operators=[], qualifier=accumStrides, selectors=[], type_arguments=None), label=None), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[BinaryOperation(operandl=MethodInvocation(arguments=[MemberReference(member=strideIndex, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=stride, postfix_operators=[], prefix_operators=[], qualifier=arr, selectors=[], type_arguments=None), operandr=MethodInvocation(arguments=[], member=stride, postfix_operators=[], prefix_operators=[], qualifier=idx, selectors=[], type_arguments=None), operator=*)], member=add, postfix_operators=[], prefix_operators=[], qualifier=accumStrides, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=stride, postfix_operators=[], prefix_operators=[], qualifier=idx, selectors=[], type_arguments=None)], member=add, postfix_operators=[], prefix_operators=[], qualifier=intervalStrides, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MemberReference(member=numIntervals, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[]), label=None)])), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=length, postfix_operators=[], prefix_operators=[], qualifier=idx, selectors=[], type_arguments=None)], member=add, postfix_operators=[], prefix_operators=[], qualifier=accumShape, selectors=[], type_arguments=None), label=None), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=idx, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=ReferenceType(arguments=None, dimensions=[], name=IntervalIndex, sub_type=None), operator=instanceof), else_statement=StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=offset, postfix_operators=[], prefix_operators=[], qualifier=idx, selectors=[], type_arguments=None)], member=add, postfix_operators=[], prefix_operators=[], qualifier=accumOffsets, selectors=[], type_arguments=None), label=None), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=offset, postfix_operators=[], prefix_operators=[], qualifier=idx, selectors=[], type_arguments=None)], member=add, postfix_operators=[], prefix_operators=[], qualifier=accumOffsets, selectors=[], type_arguments=None), label=None)])), StatementExpression(expression=MemberReference(member=shapeIndex, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[]), label=None), StatementExpression(expression=MemberReference(member=strideIndex, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[]), label=None), IfStatement(condition=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=newAxesPrepend, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), operator=>), operandr=BinaryOperation(operandl=MemberReference(member=lastPrependIndex, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), operator=<), operator=&&), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=lastPrependIndex, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=-)), label=None)])), ContinueStatement(goto=None, label=None)])), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1L)], member=add, postfix_operators=[], prefix_operators=[], qualifier=accumShape, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0L)], member=add, postfix_operators=[], prefix_operators=[], qualifier=accumOffsets, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0L)], member=add, postfix_operators=[], prefix_operators=[], qualifier=accumStrides, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=add, postfix_operators=[], prefix_operators=[], qualifier=prependNewAxes, selectors=[], type_arguments=None), label=None), ContinueStatement(goto=None, label=None)])), label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=offset, postfix_operators=[], prefix_operators=[], qualifier=idx, selectors=[], type_arguments=None)], member=add, postfix_operators=[], prefix_operators=[], qualifier=pointOffsets, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[Cast(expression=MethodInvocation(arguments=[MemberReference(member=strideIndex, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=stride, postfix_operators=[], prefix_operators=[], qualifier=arr, selectors=[], type_arguments=None), type=BasicType(dimensions=[], name=long))], member=add, postfix_operators=[], prefix_operators=[], qualifier=pointStrides, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MemberReference(member=numPointIndexes, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[]), label=None), StatementExpression(expression=MemberReference(member=shapeIndex, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[]), label=None), StatementExpression(expression=MemberReference(member=strideIndex, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[]), label=None), IfStatement(condition=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=newAxesPrepend, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), operator=>), operandr=BinaryOperation(operandl=MemberReference(member=lastPrependIndex, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), operator=<), operator=&&), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=lastPrependIndex, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=-)), label=None)])), ContinueStatement(goto=None, label=None)])), StatementExpression(expression=MethodInvocation(arguments=[Cast(expression=MemberReference(member=shape, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=shapeIndex, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[]))]), type=BasicType(dimensions=[], name=long))], member=add, postfix_operators=[], prefix_operators=[], qualifier=accumShape, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[Cast(expression=MethodInvocation(arguments=[MemberReference(member=strideIndex, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])], member=stride, postfix_operators=[], prefix_operators=[], qualifier=arr, selectors=[], type_arguments=None), type=BasicType(dimensions=[], name=long))], member=add, postfix_operators=[], prefix_operators=[], qualifier=accumStrides, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=offset, postfix_operators=[], prefix_operators=[], qualifier=idx, selectors=[], type_arguments=None)], member=add, postfix_operators=[], prefix_operators=[], qualifier=accumOffsets, 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=indexes, 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)
while[binary_operation[member[.shapeIndex], <, member[shape.length]]] begin[{]
if[call[Shape.isVector, parameter[member[.shape]]]] begin[{]
call[accumShape.add, parameter[literal[1L]]]
member[.shapeIndex]
else begin[{]
call[accumShape.add, parameter[Cast(expression=MemberReference(member=shape, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=shapeIndex, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[]))]), type=BasicType(dimensions=[], name=long))]]
end[}]
end[}]
local_variable[type[int], delta]
local_variable[type[boolean], needsFilledIn]
while[binary_operation[binary_operation[call[accumOffsets.size, parameter[]], <, member[.delta]], &&, member[.needsFilledIn]]] begin[{]
call[accumOffsets.add, parameter[literal[0L]]]
end[}]
while[binary_operation[call[accumShape.size, parameter[]], <, literal[2]]] begin[{]
if[call[Shape.isRowVectorShape, parameter[call[arr.shape, parameter[]]]]] begin[{]
call[accumShape.add, parameter[literal[0], literal[1L]]]
else begin[{]
call[accumShape.add, parameter[literal[1L]]]
end[}]
end[}]
while[binary_operation[member[.strideIndex], <, call[accumShape.size, parameter[]]]] begin[{]
call[accumStrides.add, parameter[Cast(expression=MethodInvocation(arguments=[MemberReference(member=strideIndex, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])], member=stride, postfix_operators=[], prefix_operators=[], qualifier=arr, selectors=[], type_arguments=None), type=BasicType(dimensions=[], name=long))]]
end[}]
local_variable[type[int], trailingZeroRemove]
while[binary_operation[call[accumOffsets.size, parameter[]], >, call[accumShape.size, parameter[]]]] begin[{]
if[binary_operation[call[accumOffsets.get, parameter[member[.trailingZeroRemove]]], ==, literal[0]]] begin[{]
call[accumOffsets.remove, parameter[binary_operation[call[accumOffsets.size, parameter[]], -, literal[1]]]]
else begin[{]
None
end[}]
member[.trailingZeroRemove]
end[}]
if[binary_operation[call[accumStrides.size, parameter[]], <, call[accumOffsets.size, parameter[]]]] begin[{]
call[accumStrides.addAll, parameter[member[.pointStrides]]]
else begin[{]
None
end[}]
while[binary_operation[call[accumOffsets.size, parameter[]], <, call[accumShape.size, parameter[]]]] begin[{]
if[call[Shape.isRowVectorShape, parameter[call[arr.shape, parameter[]]]]] begin[{]
call[accumOffsets.add, parameter[literal[0], literal[0L]]]
else begin[{]
call[accumOffsets.add, parameter[literal[0L]]]
end[}]
end[}]
if[binary_operation[binary_operation[call[Shape.isMatrix, parameter[member[.shape]]], &&, binary_operation[member[.indexes], instanceof, type[PointIndex]]], &&, binary_operation[member[.indexes], instanceof, type[NDArrayIndexAll]]]] begin[{]
call[Collections.reverse, parameter[member[.accumShape]]]
else begin[{]
None
end[}]
if[binary_operation[binary_operation[call[arr.isMatrix, parameter[]], &&, binary_operation[member[.indexes], instanceof, type[PointIndex]]], &&, binary_operation[member[.indexes], instanceof, type[IntervalIndex]]]] begin[{]
assign[THIS[member[None.shapes]], ArrayCreator(dimensions=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2)], initializer=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=BasicType(dimensions=None, name=long))]
assign[member[.shapes], literal[1]]
local_variable[type[IntervalIndex], idx]
assign[member[.shapes], call[idx.length, parameter[]]]
else begin[{]
assign[THIS[member[None.shapes]], call[Longs.toArray, parameter[member[.accumShape]]]]
end[}]
local_variable[type[boolean], isColumnVector]
while[binary_operation[call[accumStrides.size, parameter[]], <, call[accumOffsets.size, parameter[]]]] begin[{]
if[member[.isColumnVector]] begin[{]
call[accumStrides.add, parameter[literal[0], Cast(expression=MethodInvocation(arguments=[], member=elementStride, postfix_operators=[], prefix_operators=[], qualifier=arr, selectors=[], type_arguments=None), type=BasicType(dimensions=[], name=long))]]
else begin[{]
call[accumStrides.add, parameter[Cast(expression=MethodInvocation(arguments=[], member=elementStride, postfix_operators=[], prefix_operators=[], qualifier=arr, selectors=[], type_arguments=None), type=BasicType(dimensions=[], name=long))]]
end[}]
end[}]
assign[THIS[member[None.strides]], call[Longs.toArray, parameter[member[.accumStrides]]]]
assign[THIS[member[None.offsets]], call[Longs.toArray, parameter[member[.accumOffsets]]]]
if[binary_operation[binary_operation[member[.numPointIndexes], >, literal[0]], &&, call[pointStrides.isEmpty, parameter[]]]] begin[{]
if[binary_operation[member[.newAxesPrepend], >=, literal[1]]] begin[{]
while[binary_operation[call[pointStrides.size, parameter[]], <, call[accumOffsets.size, parameter[]]]] begin[{]
call[pointStrides.add, parameter[literal[1L]]]
end[}]
ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=get, postfix_operators=[], prefix_operators=[], qualifier=accumStrides, selectors=[], type_arguments=None), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), operator===), operandr=BinaryOperation(operandl=MemberReference(member=indexes, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), operandr=ReferenceType(arguments=None, dimensions=[], name=NewAxis, sub_type=None), operator=instanceof), operator=&&), operandr=BinaryOperation(operandl=MemberReference(member=lastPrependIndex, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), operator=<=), operator=&&), else_statement=None, label=None, then_statement=StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0L)], member=set, postfix_operators=[], prefix_operators=[], qualifier=pointStrides, selectors=[], type_arguments=None), label=None))]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MethodInvocation(arguments=[], member=size, postfix_operators=[], prefix_operators=[], qualifier=accumStrides, 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)
else begin[{]
None
end[}]
while[binary_operation[call[pointOffsets.size, parameter[]], <, call[pointStrides.size, parameter[]]]] begin[{]
call[pointOffsets.add, parameter[literal[0L]]]
end[}]
if[binary_operation[binary_operation[binary_operation[call[arr.isRowVector, parameter[]], &&, call[intervalStrides.isEmpty, parameter[]]], &&, binary_operation[call[pointOffsets.get, parameter[literal[0]]], ==, literal[0]]], &&, binary_operation[member[.indexes], instanceof, type[IntervalIndex]]]] begin[{]
assign[THIS[member[None.offset]], member[.indexes]]
else begin[{]
assign[THIS[member[None.offset]], call[ArrayUtil.dotProductLong2, parameter[member[.pointOffsets], member[.pointStrides]]]]
end[}]
else begin[{]
assign[THIS[member[None.offset]], literal[0]]
end[}]
if[binary_operation[binary_operation[member[.numIntervals], >, literal[0]], &&, binary_operation[call[arr.rank, parameter[]], >, literal[2]]]] begin[{]
if[binary_operation[binary_operation[member[.encounteredAll], &&, binary_operation[call[arr.size, parameter[literal[0]]], !=, literal[1]]], ||, binary_operation[member[.indexes], instanceof, type[PointIndex]]]] begin[{]
assign[THIS[member[None.offset]], call[ArrayUtil.dotProductLong2, parameter[member[.accumOffsets], member[.accumStrides]]]]
else begin[{]
assign[THIS[member[None.offset]], call[ArrayUtil.dotProductLong2, parameter[member[.accumOffsets], member[.accumStrides]]]]
end[}]
else begin[{]
if[binary_operation[binary_operation[member[.numIntervals], >, literal[0]], &&, call[.anyHaveStrideOne, parameter[member[.indexes]]]]] begin[{]
assign[THIS[member[None.offset]], call[ArrayUtil.calcOffsetLong2, parameter[member[.accumShape], member[.accumOffsets], member[.accumStrides]]]]
else begin[{]
assign[THIS[member[None.offset]], binary_operation[call[ArrayUtil.calcOffsetLong2, parameter[member[.accumShape], member[.accumOffsets], member[.accumStrides]]], /, call[Math.max, parameter[literal[1], member[.numIntervals]]]]]
end[}]
end[}]
local_variable[type[List], removeShape]
ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=BinaryOperation(operandl=This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MemberReference(member=shapes, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None), ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator===), operandr=BinaryOperation(operandl=MemberReference(member=indexes, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), operandr=ReferenceType(arguments=None, dimensions=[], name=SpecifiedIndex, sub_type=None), operator=instanceof), operator=&&), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=add, postfix_operators=[], prefix_operators=[], qualifier=removeShape, selectors=[], type_arguments=None), label=None)]))]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MethodInvocation(arguments=[This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MemberReference(member=shapes, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None), MemberReference(member=length, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None)]), MemberReference(member=length, postfix_operators=[], prefix_operators=[], qualifier=indexes, selectors=[])], member=min, postfix_operators=[], prefix_operators=[], qualifier=Math, selectors=[], type_arguments=None), operator=<), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), name=i)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=i, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None)
if[call[removeShape.isEmpty, parameter[]]] begin[{]
local_variable[type[List], newShape]
local_variable[type[List], newStrides]
ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=contains, postfix_operators=[], prefix_operators=['!'], qualifier=removeShape, selectors=[], type_arguments=None), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MemberReference(member=shapes, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None), ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))])], member=add, postfix_operators=[], prefix_operators=[], qualifier=newShape, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MemberReference(member=strides, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None), ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))])], member=add, postfix_operators=[], prefix_operators=[], qualifier=newStrides, selectors=[], type_arguments=None), label=None)]))]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MemberReference(member=shapes, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None), MemberReference(member=length, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=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[THIS[member[None.shapes]], call[Longs.toArray, parameter[member[.newShape]]]]
assign[THIS[member[None.strides]], call[Longs.toArray, parameter[member[.newStrides]]]]
else begin[{]
None
end[}]
end[}]
END[}] | Keyword[public] Keyword[void] identifier[exec] operator[SEP] identifier[INDArrayIndex] operator[...] identifier[indexes] operator[SEP] {
identifier[val] identifier[shape] operator[=] identifier[arr] operator[SEP] identifier[shape] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[arr] operator[SEP] identifier[isSparse] operator[SEP] operator[SEP] operator[SEP] {
identifier[resolveFixedDimensionsCOO] operator[SEP] identifier[indexes] operator[SEP] operator[SEP]
}
Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[indexes] operator[SEP] identifier[length] operator[SEP] identifier[i] operator[++] operator[SEP] {
identifier[INDArrayIndex] identifier[idx] operator[=] identifier[indexes] operator[SEP] identifier[i] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[idx] Keyword[instanceof] identifier[PointIndex] operator[&&] operator[SEP] identifier[arr] operator[SEP] identifier[isVector] operator[SEP] operator[SEP] operator[&&] identifier[indexes] operator[SEP] identifier[length] operator[==] Other[1] operator[?] identifier[idx] operator[SEP] identifier[current] operator[SEP] operator[SEP] operator[>=] identifier[shape] operator[SEP] identifier[i] operator[+] Other[1] operator[SEP] operator[:] identifier[idx] operator[SEP] identifier[current] operator[SEP] operator[SEP] operator[>=] identifier[shape] operator[SEP] identifier[i] operator[SEP] operator[SEP] operator[SEP] {
Keyword[throw] Keyword[new] identifier[IllegalArgumentException] operator[SEP] literal[String] operator[+] identifier[i] operator[+] literal[String] operator[+] identifier[idx] operator[SEP] identifier[current] operator[SEP] operator[SEP] operator[+] literal[String] operator[SEP] operator[SEP]
}
}
identifier[indexes] operator[=] identifier[NDArrayIndex] operator[SEP] identifier[resolve] operator[SEP] identifier[arr] operator[SEP] identifier[shapeInfoDataBuffer] operator[SEP] operator[SEP] , identifier[indexes] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[tryShortCircuit] operator[SEP] identifier[indexes] operator[SEP] operator[SEP] {
Keyword[return] operator[SEP]
}
Keyword[int] identifier[numIntervals] operator[=] Other[0] operator[SEP] Keyword[int] identifier[newAxesPrepend] operator[=] Other[0] operator[SEP] Keyword[boolean] identifier[encounteredAll] operator[=] literal[boolean] operator[SEP] Keyword[int] identifier[lastPrependIndex] operator[=] operator[-] Other[1] operator[SEP] identifier[List] operator[<] identifier[Integer] operator[>] identifier[oneDimensionWithAllEncountered] operator[=] Keyword[new] identifier[ArrayList] operator[<] operator[>] operator[SEP] operator[SEP] operator[SEP] identifier[List] operator[<] identifier[Long] operator[>] identifier[accumShape] operator[=] Keyword[new] identifier[ArrayList] operator[<] operator[>] operator[SEP] operator[SEP] operator[SEP] identifier[List] operator[<] identifier[Long] operator[>] identifier[accumStrides] operator[=] Keyword[new] identifier[ArrayList] operator[<] operator[>] operator[SEP] operator[SEP] operator[SEP] identifier[List] operator[<] identifier[Long] operator[>] identifier[accumOffsets] operator[=] Keyword[new] identifier[ArrayList] operator[<] operator[>] operator[SEP] operator[SEP] operator[SEP] identifier[List] operator[<] identifier[Long] operator[>] identifier[intervalStrides] operator[=] Keyword[new] identifier[ArrayList] operator[<] operator[>] operator[SEP] operator[SEP] operator[SEP] identifier[List] operator[<] identifier[Long] operator[>] identifier[pointStrides] operator[=] Keyword[new] identifier[ArrayList] operator[<] operator[>] operator[SEP] operator[SEP] operator[SEP] identifier[List] operator[<] identifier[Long] operator[>] identifier[pointOffsets] operator[=] Keyword[new] identifier[ArrayList] operator[<] operator[>] operator[SEP] operator[SEP] operator[SEP] Keyword[int] identifier[numPointIndexes] operator[=] Other[0] operator[SEP] Keyword[int] identifier[shapeIndex] operator[=] Other[0] operator[SEP] Keyword[int] identifier[strideIndex] operator[=] Other[0] operator[SEP] identifier[List] operator[<] identifier[Integer] operator[>] identifier[prependNewAxes] operator[=] Keyword[new] identifier[ArrayList] operator[<] operator[>] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[indexes] operator[SEP] identifier[length] operator[SEP] identifier[i] operator[++] operator[SEP] {
identifier[INDArrayIndex] identifier[idx] operator[=] identifier[indexes] operator[SEP] identifier[i] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[idx] Keyword[instanceof] identifier[NDArrayIndexAll] operator[SEP] {
identifier[encounteredAll] operator[=] literal[boolean] operator[SEP] Keyword[if] operator[SEP] identifier[i] operator[<] identifier[arr] operator[SEP] identifier[rank] operator[SEP] operator[SEP] operator[&&] identifier[arr] operator[SEP] identifier[size] operator[SEP] identifier[i] operator[SEP] operator[==] Other[1] operator[SEP] identifier[oneDimensionWithAllEncountered] operator[SEP] identifier[add] operator[SEP] identifier[i] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[newAxesPrepend] operator[>] Other[0] operator[&&] identifier[lastPrependIndex] operator[<] Other[0] operator[SEP] {
identifier[lastPrependIndex] operator[=] identifier[i] operator[-] Other[1] operator[SEP]
}
}
Keyword[if] operator[SEP] identifier[idx] Keyword[instanceof] identifier[PointIndex] operator[SEP] {
identifier[pointOffsets] operator[SEP] identifier[add] operator[SEP] identifier[idx] operator[SEP] identifier[offset] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[pointStrides] operator[SEP] identifier[add] operator[SEP] operator[SEP] Keyword[long] operator[SEP] identifier[arr] operator[SEP] identifier[stride] operator[SEP] identifier[strideIndex] operator[SEP] operator[SEP] operator[SEP] identifier[numPointIndexes] operator[++] operator[SEP] identifier[shapeIndex] operator[++] operator[SEP] identifier[strideIndex] operator[++] operator[SEP] Keyword[if] operator[SEP] identifier[newAxesPrepend] operator[>] Other[0] operator[&&] identifier[lastPrependIndex] operator[<] Other[0] operator[SEP] {
identifier[lastPrependIndex] operator[=] identifier[i] operator[-] Other[1] operator[SEP]
}
Keyword[continue] operator[SEP]
}
Keyword[else] Keyword[if] operator[SEP] identifier[idx] Keyword[instanceof] identifier[NewAxis] operator[SEP] {
identifier[accumShape] operator[SEP] identifier[add] operator[SEP] Other[1L] operator[SEP] operator[SEP] identifier[accumOffsets] operator[SEP] identifier[add] operator[SEP] Other[0L] operator[SEP] operator[SEP] identifier[accumStrides] operator[SEP] identifier[add] operator[SEP] Other[0L] operator[SEP] operator[SEP] identifier[prependNewAxes] operator[SEP] identifier[add] operator[SEP] identifier[i] operator[SEP] operator[SEP] Keyword[continue] operator[SEP]
}
Keyword[else] Keyword[if] operator[SEP] identifier[idx] Keyword[instanceof] identifier[IntervalIndex] operator[&&] operator[!] operator[SEP] identifier[idx] Keyword[instanceof] identifier[NDArrayIndexAll] operator[SEP] operator[||] identifier[idx] Keyword[instanceof] identifier[SpecifiedIndex] operator[SEP] {
Keyword[if] operator[SEP] identifier[idx] Keyword[instanceof] identifier[IntervalIndex] operator[SEP] {
identifier[accumStrides] operator[SEP] identifier[add] operator[SEP] identifier[arr] operator[SEP] identifier[stride] operator[SEP] identifier[strideIndex] operator[SEP] operator[*] identifier[idx] operator[SEP] identifier[stride] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[intervalStrides] operator[SEP] identifier[add] operator[SEP] identifier[idx] operator[SEP] identifier[stride] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[numIntervals] operator[++] operator[SEP]
}
Keyword[else] identifier[accumStrides] operator[SEP] identifier[add] operator[SEP] operator[SEP] Keyword[long] operator[SEP] identifier[arr] operator[SEP] identifier[stride] operator[SEP] identifier[strideIndex] operator[SEP] operator[SEP] operator[SEP] identifier[accumShape] operator[SEP] identifier[add] operator[SEP] identifier[idx] operator[SEP] identifier[length] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[idx] Keyword[instanceof] identifier[IntervalIndex] operator[SEP] {
identifier[accumOffsets] operator[SEP] identifier[add] operator[SEP] identifier[idx] operator[SEP] identifier[offset] operator[SEP] operator[SEP] operator[SEP] operator[SEP]
}
Keyword[else] identifier[accumOffsets] operator[SEP] identifier[add] operator[SEP] identifier[idx] operator[SEP] identifier[offset] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[shapeIndex] operator[++] operator[SEP] identifier[strideIndex] operator[++] operator[SEP] Keyword[if] operator[SEP] identifier[newAxesPrepend] operator[>] Other[0] operator[&&] identifier[lastPrependIndex] operator[<] Other[0] operator[SEP] {
identifier[lastPrependIndex] operator[=] identifier[i] operator[-] Other[1] operator[SEP]
}
Keyword[continue] operator[SEP]
}
identifier[accumShape] operator[SEP] identifier[add] operator[SEP] operator[SEP] Keyword[long] operator[SEP] identifier[shape] operator[SEP] identifier[shapeIndex] operator[++] operator[SEP] operator[SEP] operator[SEP] identifier[accumStrides] operator[SEP] identifier[add] operator[SEP] operator[SEP] Keyword[long] operator[SEP] identifier[arr] operator[SEP] identifier[stride] operator[SEP] identifier[strideIndex] operator[++] operator[SEP] operator[SEP] operator[SEP] identifier[accumOffsets] operator[SEP] identifier[add] operator[SEP] identifier[idx] operator[SEP] identifier[offset] operator[SEP] operator[SEP] operator[SEP] operator[SEP]
}
Keyword[while] operator[SEP] identifier[shapeIndex] operator[<] identifier[shape] operator[SEP] identifier[length] operator[SEP] {
Keyword[if] operator[SEP] identifier[Shape] operator[SEP] identifier[isVector] operator[SEP] identifier[shape] operator[SEP] operator[SEP] {
identifier[accumShape] operator[SEP] identifier[add] operator[SEP] Other[1L] operator[SEP] operator[SEP] identifier[shapeIndex] operator[++] operator[SEP]
}
Keyword[else] identifier[accumShape] operator[SEP] identifier[add] operator[SEP] operator[SEP] Keyword[long] operator[SEP] identifier[shape] operator[SEP] identifier[shapeIndex] operator[++] operator[SEP] operator[SEP] operator[SEP]
}
Keyword[int] identifier[delta] operator[=] operator[SEP] identifier[shape] operator[SEP] identifier[length] operator[<=] Other[2] operator[?] identifier[shape] operator[SEP] identifier[length] operator[:] identifier[shape] operator[SEP] identifier[length] operator[-] identifier[numPointIndexes] operator[SEP] operator[SEP] Keyword[boolean] identifier[needsFilledIn] operator[=] identifier[accumShape] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[!=] identifier[accumStrides] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[&&] identifier[accumOffsets] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[!=] identifier[accumShape] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] Keyword[while] operator[SEP] identifier[accumOffsets] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[<] identifier[delta] operator[&&] identifier[needsFilledIn] operator[SEP] identifier[accumOffsets] operator[SEP] identifier[add] operator[SEP] Other[0L] operator[SEP] operator[SEP] Keyword[while] operator[SEP] identifier[accumShape] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[<] Other[2] operator[SEP] {
Keyword[if] operator[SEP] identifier[Shape] operator[SEP] identifier[isRowVectorShape] operator[SEP] identifier[arr] operator[SEP] identifier[shape] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[accumShape] operator[SEP] identifier[add] operator[SEP] Other[0] , Other[1L] operator[SEP] operator[SEP] Keyword[else] identifier[accumShape] operator[SEP] identifier[add] operator[SEP] Other[1L] operator[SEP] operator[SEP]
}
Keyword[while] operator[SEP] identifier[strideIndex] operator[<] identifier[accumShape] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] {
identifier[accumStrides] operator[SEP] identifier[add] operator[SEP] operator[SEP] Keyword[long] operator[SEP] identifier[arr] operator[SEP] identifier[stride] operator[SEP] identifier[strideIndex] operator[++] operator[SEP] operator[SEP] operator[SEP]
}
Keyword[int] identifier[trailingZeroRemove] operator[=] identifier[accumOffsets] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[-] Other[1] operator[SEP] Keyword[while] operator[SEP] identifier[accumOffsets] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[>] identifier[accumShape] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] {
Keyword[if] operator[SEP] identifier[accumOffsets] operator[SEP] identifier[get] operator[SEP] identifier[trailingZeroRemove] operator[SEP] operator[==] Other[0] operator[SEP] identifier[accumOffsets] operator[SEP] identifier[remove] operator[SEP] identifier[accumOffsets] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[-] Other[1] operator[SEP] operator[SEP] identifier[trailingZeroRemove] operator[--] operator[SEP]
}
Keyword[if] operator[SEP] identifier[accumStrides] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[<] identifier[accumOffsets] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] identifier[accumStrides] operator[SEP] identifier[addAll] operator[SEP] identifier[pointStrides] operator[SEP] operator[SEP] Keyword[while] operator[SEP] identifier[accumOffsets] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[<] identifier[accumShape] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] {
Keyword[if] operator[SEP] identifier[Shape] operator[SEP] identifier[isRowVectorShape] operator[SEP] identifier[arr] operator[SEP] identifier[shape] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[accumOffsets] operator[SEP] identifier[add] operator[SEP] Other[0] , Other[0L] operator[SEP] operator[SEP] Keyword[else] identifier[accumOffsets] operator[SEP] identifier[add] operator[SEP] Other[0L] operator[SEP] operator[SEP]
}
Keyword[if] operator[SEP] identifier[Shape] operator[SEP] identifier[isMatrix] operator[SEP] identifier[shape] operator[SEP] operator[&&] identifier[indexes] operator[SEP] Other[0] operator[SEP] Keyword[instanceof] identifier[PointIndex] operator[&&] identifier[indexes] operator[SEP] Other[1] operator[SEP] Keyword[instanceof] identifier[NDArrayIndexAll] operator[SEP] {
identifier[Collections] operator[SEP] identifier[reverse] operator[SEP] identifier[accumShape] operator[SEP] operator[SEP]
}
Keyword[if] operator[SEP] identifier[arr] operator[SEP] identifier[isMatrix] operator[SEP] operator[SEP] operator[&&] identifier[indexes] operator[SEP] Other[0] operator[SEP] Keyword[instanceof] identifier[PointIndex] operator[&&] identifier[indexes] operator[SEP] Other[1] operator[SEP] Keyword[instanceof] identifier[IntervalIndex] operator[SEP] {
Keyword[this] operator[SEP] identifier[shapes] operator[=] Keyword[new] Keyword[long] operator[SEP] Other[2] operator[SEP] operator[SEP] identifier[shapes] operator[SEP] Other[0] operator[SEP] operator[=] Other[1] operator[SEP] identifier[IntervalIndex] identifier[idx] operator[=] operator[SEP] identifier[IntervalIndex] operator[SEP] identifier[indexes] operator[SEP] Other[1] operator[SEP] operator[SEP] identifier[shapes] operator[SEP] Other[1] operator[SEP] operator[=] identifier[idx] operator[SEP] identifier[length] operator[SEP] operator[SEP] operator[SEP]
}
Keyword[else] Keyword[this] operator[SEP] identifier[shapes] operator[=] identifier[Longs] operator[SEP] identifier[toArray] operator[SEP] identifier[accumShape] operator[SEP] operator[SEP] Keyword[boolean] identifier[isColumnVector] operator[=] identifier[Shape] operator[SEP] identifier[isColumnVectorShape] operator[SEP] Keyword[this] operator[SEP] identifier[shapes] operator[SEP] operator[SEP] Keyword[while] operator[SEP] identifier[accumStrides] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[<] identifier[accumOffsets] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] {
Keyword[if] operator[SEP] operator[!] identifier[isColumnVector] operator[SEP] identifier[accumStrides] operator[SEP] identifier[add] operator[SEP] Other[0] , operator[SEP] Keyword[long] operator[SEP] identifier[arr] operator[SEP] identifier[elementStride] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[else] identifier[accumStrides] operator[SEP] identifier[add] operator[SEP] operator[SEP] Keyword[long] operator[SEP] identifier[arr] operator[SEP] identifier[elementStride] operator[SEP] operator[SEP] operator[SEP] operator[SEP]
}
Keyword[this] operator[SEP] identifier[strides] operator[=] identifier[Longs] operator[SEP] identifier[toArray] operator[SEP] identifier[accumStrides] operator[SEP] operator[SEP] Keyword[this] operator[SEP] identifier[offsets] operator[=] identifier[Longs] operator[SEP] identifier[toArray] operator[SEP] identifier[accumOffsets] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[numPointIndexes] operator[>] Other[0] operator[&&] operator[!] identifier[pointStrides] operator[SEP] identifier[isEmpty] operator[SEP] operator[SEP] operator[SEP] {
Keyword[if] operator[SEP] identifier[newAxesPrepend] operator[>=] Other[1] operator[SEP] {
Keyword[while] operator[SEP] identifier[pointStrides] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[<] identifier[accumOffsets] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] {
identifier[pointStrides] operator[SEP] identifier[add] operator[SEP] Other[1L] operator[SEP] operator[SEP]
}
Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[accumStrides] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] identifier[i] operator[++] operator[SEP] {
Keyword[if] operator[SEP] identifier[accumStrides] operator[SEP] identifier[get] operator[SEP] identifier[i] operator[SEP] operator[==] Other[0] operator[&&] operator[!] operator[SEP] identifier[indexes] operator[SEP] identifier[i] operator[SEP] Keyword[instanceof] identifier[NewAxis] operator[SEP] operator[&&] identifier[lastPrependIndex] operator[<=] Other[0] operator[SEP] identifier[pointStrides] operator[SEP] identifier[set] operator[SEP] identifier[i] , Other[0L] operator[SEP] operator[SEP]
}
}
Keyword[while] operator[SEP] identifier[pointOffsets] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[<] identifier[pointStrides] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[SEP] {
identifier[pointOffsets] operator[SEP] identifier[add] operator[SEP] Other[0L] operator[SEP] operator[SEP]
}
Keyword[if] operator[SEP] identifier[arr] operator[SEP] identifier[isRowVector] operator[SEP] operator[SEP] operator[&&] operator[!] identifier[intervalStrides] operator[SEP] identifier[isEmpty] operator[SEP] operator[SEP] operator[&&] identifier[pointOffsets] operator[SEP] identifier[get] operator[SEP] Other[0] operator[SEP] operator[==] Other[0] operator[&&] operator[!] operator[SEP] identifier[indexes] operator[SEP] Other[1] operator[SEP] Keyword[instanceof] identifier[IntervalIndex] operator[SEP] operator[SEP] Keyword[this] operator[SEP] identifier[offset] operator[=] identifier[indexes] operator[SEP] Other[1] operator[SEP] operator[SEP] identifier[offset] operator[SEP] operator[SEP] operator[SEP] Keyword[else] Keyword[this] operator[SEP] identifier[offset] operator[=] identifier[ArrayUtil] operator[SEP] identifier[dotProductLong2] operator[SEP] identifier[pointOffsets] , identifier[pointStrides] operator[SEP] operator[SEP]
}
Keyword[else] {
Keyword[this] operator[SEP] identifier[offset] operator[=] Other[0] operator[SEP]
}
Keyword[if] operator[SEP] identifier[numIntervals] operator[>] Other[0] operator[&&] identifier[arr] operator[SEP] identifier[rank] operator[SEP] operator[SEP] operator[>] Other[2] operator[SEP] {
Keyword[if] operator[SEP] identifier[encounteredAll] operator[&&] identifier[arr] operator[SEP] identifier[size] operator[SEP] Other[0] operator[SEP] operator[!=] Other[1] operator[||] identifier[indexes] operator[SEP] Other[0] operator[SEP] Keyword[instanceof] identifier[PointIndex] operator[SEP] Keyword[this] operator[SEP] identifier[offset] operator[+=] identifier[ArrayUtil] operator[SEP] identifier[dotProductLong2] operator[SEP] identifier[accumOffsets] , identifier[accumStrides] operator[SEP] operator[SEP] Keyword[else] Keyword[this] operator[SEP] identifier[offset] operator[+=] identifier[ArrayUtil] operator[SEP] identifier[dotProductLong2] operator[SEP] identifier[accumOffsets] , identifier[accumStrides] operator[SEP] operator[SEP]
}
Keyword[else] Keyword[if] operator[SEP] identifier[numIntervals] operator[>] Other[0] operator[&&] identifier[anyHaveStrideOne] operator[SEP] identifier[indexes] operator[SEP] operator[SEP] Keyword[this] operator[SEP] identifier[offset] operator[+=] identifier[ArrayUtil] operator[SEP] identifier[calcOffsetLong2] operator[SEP] identifier[accumShape] , identifier[accumOffsets] , identifier[accumStrides] operator[SEP] operator[SEP] Keyword[else] Keyword[this] operator[SEP] identifier[offset] operator[+=] identifier[ArrayUtil] operator[SEP] identifier[calcOffsetLong2] operator[SEP] identifier[accumShape] , identifier[accumOffsets] , identifier[accumStrides] operator[SEP] operator[/] identifier[Math] operator[SEP] identifier[max] operator[SEP] Other[1] , identifier[numIntervals] operator[SEP] operator[SEP] identifier[List] operator[<] identifier[Integer] operator[>] identifier[removeShape] operator[=] Keyword[new] identifier[ArrayList] operator[<] operator[>] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[Math] operator[SEP] identifier[min] operator[SEP] Keyword[this] operator[SEP] identifier[shapes] operator[SEP] identifier[length] , identifier[indexes] operator[SEP] identifier[length] operator[SEP] operator[SEP] identifier[i] operator[++] operator[SEP] {
Keyword[if] operator[SEP] Keyword[this] operator[SEP] identifier[shapes] operator[SEP] identifier[i] operator[SEP] operator[==] Other[1] operator[&&] identifier[indexes] operator[SEP] identifier[i] operator[SEP] Keyword[instanceof] identifier[SpecifiedIndex] operator[SEP] {
identifier[removeShape] operator[SEP] identifier[add] operator[SEP] identifier[i] operator[SEP] operator[SEP]
}
}
Keyword[if] operator[SEP] operator[!] identifier[removeShape] operator[SEP] identifier[isEmpty] operator[SEP] operator[SEP] operator[SEP] {
identifier[List] operator[<] identifier[Long] operator[>] identifier[newShape] operator[=] Keyword[new] identifier[ArrayList] operator[<] operator[>] operator[SEP] operator[SEP] operator[SEP] identifier[List] operator[<] identifier[Long] operator[>] identifier[newStrides] operator[=] Keyword[new] identifier[ArrayList] operator[<] operator[>] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] Keyword[this] operator[SEP] identifier[shapes] operator[SEP] identifier[length] operator[SEP] identifier[i] operator[++] operator[SEP] {
Keyword[if] operator[SEP] operator[!] identifier[removeShape] operator[SEP] identifier[contains] operator[SEP] identifier[i] operator[SEP] operator[SEP] {
identifier[newShape] operator[SEP] identifier[add] operator[SEP] Keyword[this] operator[SEP] identifier[shapes] operator[SEP] identifier[i] operator[SEP] operator[SEP] operator[SEP] identifier[newStrides] operator[SEP] identifier[add] operator[SEP] Keyword[this] operator[SEP] identifier[strides] operator[SEP] identifier[i] operator[SEP] operator[SEP] operator[SEP]
}
}
Keyword[this] operator[SEP] identifier[shapes] operator[=] identifier[Longs] operator[SEP] identifier[toArray] operator[SEP] identifier[newShape] operator[SEP] operator[SEP] Keyword[this] operator[SEP] identifier[strides] operator[=] identifier[Longs] operator[SEP] identifier[toArray] operator[SEP] identifier[newStrides] operator[SEP] operator[SEP]
}
}
|
protected IPromise<JsonObject> getDistributions(String module) {
Promise res = new Promise();
// http://registry.npmjs.org/-/package/react/dist-tags
http.getContent(config.getRepo()+"/-/package/"+module+"/dist-tags").then( (cont,err) -> {
if ( cont != null ) {
JsonObject parse = Json.parse(cont).asObject();
res.resolve(parse);
} else {
res.reject(err);
}
});
return res;
} | class class_name[name] begin[{]
method[getDistributions, return_type[type[IPromise]], modifier[protected], parameter[module]] begin[{]
local_variable[type[Promise], res]
call[http.getContent, parameter[binary_operation[binary_operation[binary_operation[call[config.getRepo, parameter[]], +, literal["/-/package/"]], +, member[.module]], +, literal["/dist-tags"]]]]
return[member[.res]]
end[}]
END[}] | Keyword[protected] identifier[IPromise] operator[<] identifier[JsonObject] operator[>] identifier[getDistributions] operator[SEP] identifier[String] identifier[module] operator[SEP] {
identifier[Promise] identifier[res] operator[=] Keyword[new] identifier[Promise] operator[SEP] operator[SEP] operator[SEP] identifier[http] operator[SEP] identifier[getContent] operator[SEP] identifier[config] operator[SEP] identifier[getRepo] operator[SEP] operator[SEP] operator[+] literal[String] operator[+] identifier[module] operator[+] literal[String] operator[SEP] operator[SEP] identifier[then] operator[SEP] operator[SEP] identifier[cont] , identifier[err] operator[SEP] operator[->] {
Keyword[if] operator[SEP] identifier[cont] operator[!=] Other[null] operator[SEP] {
identifier[JsonObject] identifier[parse] operator[=] identifier[Json] operator[SEP] identifier[parse] operator[SEP] identifier[cont] operator[SEP] operator[SEP] identifier[asObject] operator[SEP] operator[SEP] operator[SEP] identifier[res] operator[SEP] identifier[resolve] operator[SEP] identifier[parse] operator[SEP] operator[SEP]
}
Keyword[else] {
identifier[res] operator[SEP] identifier[reject] operator[SEP] identifier[err] operator[SEP] operator[SEP]
}
} operator[SEP] operator[SEP] Keyword[return] identifier[res] operator[SEP]
}
|
public Object visit(ASTExplicitHighAndBond node, Object data) {
return node.jjtGetChild(0).jjtAccept(this, data);
} | class class_name[name] begin[{]
method[visit, return_type[type[Object]], modifier[public], parameter[node, data]] begin[{]
return[call[node.jjtGetChild, parameter[literal[0]]]]
end[}]
END[}] | Keyword[public] identifier[Object] identifier[visit] operator[SEP] identifier[ASTExplicitHighAndBond] identifier[node] , identifier[Object] identifier[data] operator[SEP] {
Keyword[return] identifier[node] operator[SEP] identifier[jjtGetChild] operator[SEP] Other[0] operator[SEP] operator[SEP] identifier[jjtAccept] operator[SEP] Keyword[this] , identifier[data] operator[SEP] operator[SEP]
}
|
private Map<String,String> getBasicSystemConfig() {
Map<String,String> map = new HashMap<String,String>();
// Job & Task
if (this.isLocalMode)
map.put(JOB_FACTORY_CLASS_KEY, LocalJobFactory.class.getName());
else {
map.put(JOB_FACTORY_CLASS_KEY, YarnJobFactory.class.getName());
// yarn
map.put(YARN_PACKAGE_KEY,jarPath);
map.put(CONTAINER_MEMORY_KEY, Integer.toString(this.containerMemory));
map.put(AM_MEMORY_KEY, Integer.toString(this.amMemory));
map.put(CONTAINER_COUNT_KEY, "1");
map.put(YARN_CONF_HOME_KEY, SystemsUtils.getHadoopConfigHome());
// Task opts (Heap size = 0.75 container memory)
int heapSize = (int)(0.75*this.containerMemory);
map.put("task.opts", "-Xmx"+Integer.toString(heapSize)+"M -XX:+PrintGCDateStamps");
}
map.put(JOB_NAME_KEY, "");
map.put(TASK_CLASS_KEY, "");
map.put(TASK_INPUTS_KEY, "");
// register serializer
map.put("serializers.registry.kryo.class",SamzaKryoSerdeFactory.class.getName());
// Serde registration
setKryoRegistration(map, this.kryoRegisterFile);
return map;
} | class class_name[name] begin[{]
method[getBasicSystemConfig, return_type[type[Map]], modifier[private], parameter[]] begin[{]
local_variable[type[Map], map]
if[THIS[member[None.isLocalMode]]] begin[{]
call[map.put, parameter[member[.JOB_FACTORY_CLASS_KEY], ClassReference(postfix_operators=[], prefix_operators=[], qualifier=, selectors=[MethodInvocation(arguments=[], member=getName, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type=ReferenceType(arguments=None, dimensions=None, name=LocalJobFactory, sub_type=None))]]
else begin[{]
call[map.put, parameter[member[.JOB_FACTORY_CLASS_KEY], ClassReference(postfix_operators=[], prefix_operators=[], qualifier=, selectors=[MethodInvocation(arguments=[], member=getName, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type=ReferenceType(arguments=None, dimensions=None, name=YarnJobFactory, sub_type=None))]]
call[map.put, parameter[member[.YARN_PACKAGE_KEY], member[.jarPath]]]
call[map.put, parameter[member[.CONTAINER_MEMORY_KEY], call[Integer.toString, parameter[THIS[member[None.containerMemory]]]]]]
call[map.put, parameter[member[.AM_MEMORY_KEY], call[Integer.toString, parameter[THIS[member[None.amMemory]]]]]]
call[map.put, parameter[member[.CONTAINER_COUNT_KEY], literal["1"]]]
call[map.put, parameter[member[.YARN_CONF_HOME_KEY], call[SystemsUtils.getHadoopConfigHome, parameter[]]]]
local_variable[type[int], heapSize]
call[map.put, parameter[literal["task.opts"], binary_operation[binary_operation[literal["-Xmx"], +, call[Integer.toString, parameter[member[.heapSize]]]], +, literal["M -XX:+PrintGCDateStamps"]]]]
end[}]
call[map.put, parameter[member[.JOB_NAME_KEY], literal[""]]]
call[map.put, parameter[member[.TASK_CLASS_KEY], literal[""]]]
call[map.put, parameter[member[.TASK_INPUTS_KEY], literal[""]]]
call[map.put, parameter[literal["serializers.registry.kryo.class"], ClassReference(postfix_operators=[], prefix_operators=[], qualifier=, selectors=[MethodInvocation(arguments=[], member=getName, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type=ReferenceType(arguments=None, dimensions=None, name=SamzaKryoSerdeFactory, sub_type=None))]]
call[.setKryoRegistration, parameter[member[.map], THIS[member[None.kryoRegisterFile]]]]
return[member[.map]]
end[}]
END[}] | Keyword[private] identifier[Map] operator[<] identifier[String] , identifier[String] operator[>] identifier[getBasicSystemConfig] operator[SEP] operator[SEP] {
identifier[Map] operator[<] identifier[String] , identifier[String] operator[>] identifier[map] operator[=] Keyword[new] identifier[HashMap] operator[<] identifier[String] , identifier[String] operator[>] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] Keyword[this] operator[SEP] identifier[isLocalMode] operator[SEP] identifier[map] operator[SEP] identifier[put] operator[SEP] identifier[JOB_FACTORY_CLASS_KEY] , identifier[LocalJobFactory] operator[SEP] Keyword[class] operator[SEP] identifier[getName] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[else] {
identifier[map] operator[SEP] identifier[put] operator[SEP] identifier[JOB_FACTORY_CLASS_KEY] , identifier[YarnJobFactory] operator[SEP] Keyword[class] operator[SEP] identifier[getName] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[map] operator[SEP] identifier[put] operator[SEP] identifier[YARN_PACKAGE_KEY] , identifier[jarPath] operator[SEP] operator[SEP] identifier[map] operator[SEP] identifier[put] operator[SEP] identifier[CONTAINER_MEMORY_KEY] , identifier[Integer] operator[SEP] identifier[toString] operator[SEP] Keyword[this] operator[SEP] identifier[containerMemory] operator[SEP] operator[SEP] operator[SEP] identifier[map] operator[SEP] identifier[put] operator[SEP] identifier[AM_MEMORY_KEY] , identifier[Integer] operator[SEP] identifier[toString] operator[SEP] Keyword[this] operator[SEP] identifier[amMemory] operator[SEP] operator[SEP] operator[SEP] identifier[map] operator[SEP] identifier[put] operator[SEP] identifier[CONTAINER_COUNT_KEY] , literal[String] operator[SEP] operator[SEP] identifier[map] operator[SEP] identifier[put] operator[SEP] identifier[YARN_CONF_HOME_KEY] , identifier[SystemsUtils] operator[SEP] identifier[getHadoopConfigHome] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[int] identifier[heapSize] operator[=] operator[SEP] Keyword[int] operator[SEP] operator[SEP] literal[Float] operator[*] Keyword[this] operator[SEP] identifier[containerMemory] operator[SEP] operator[SEP] identifier[map] operator[SEP] identifier[put] operator[SEP] literal[String] , literal[String] operator[+] identifier[Integer] operator[SEP] identifier[toString] operator[SEP] identifier[heapSize] operator[SEP] operator[+] literal[String] operator[SEP] operator[SEP]
}
identifier[map] operator[SEP] identifier[put] operator[SEP] identifier[JOB_NAME_KEY] , literal[String] operator[SEP] operator[SEP] identifier[map] operator[SEP] identifier[put] operator[SEP] identifier[TASK_CLASS_KEY] , literal[String] operator[SEP] operator[SEP] identifier[map] operator[SEP] identifier[put] operator[SEP] identifier[TASK_INPUTS_KEY] , literal[String] operator[SEP] operator[SEP] identifier[map] operator[SEP] identifier[put] operator[SEP] literal[String] , identifier[SamzaKryoSerdeFactory] operator[SEP] Keyword[class] operator[SEP] identifier[getName] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[setKryoRegistration] operator[SEP] identifier[map] , Keyword[this] operator[SEP] identifier[kryoRegisterFile] operator[SEP] operator[SEP] Keyword[return] identifier[map] operator[SEP]
}
|
@Nonnull
protected JSONSignatureValidator getJsonSignatureValidator(@CheckForNull String name) {
if (name == null) {
name = signatureValidatorPrefix + " '" + id + "'";
}
return new JSONSignatureValidator(name);
} | class class_name[name] begin[{]
method[getJsonSignatureValidator, return_type[type[JSONSignatureValidator]], modifier[protected], parameter[name]] begin[{]
if[binary_operation[member[.name], ==, literal[null]]] begin[{]
assign[member[.name], binary_operation[binary_operation[binary_operation[member[.signatureValidatorPrefix], +, literal[" '"]], +, member[.id]], +, literal["'"]]]
else begin[{]
None
end[}]
return[ClassCreator(arguments=[MemberReference(member=name, 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=JSONSignatureValidator, sub_type=None))]
end[}]
END[}] | annotation[@] identifier[Nonnull] Keyword[protected] identifier[JSONSignatureValidator] identifier[getJsonSignatureValidator] operator[SEP] annotation[@] identifier[CheckForNull] identifier[String] identifier[name] operator[SEP] {
Keyword[if] operator[SEP] identifier[name] operator[==] Other[null] operator[SEP] {
identifier[name] operator[=] identifier[signatureValidatorPrefix] operator[+] literal[String] operator[+] identifier[id] operator[+] literal[String] operator[SEP]
}
Keyword[return] Keyword[new] identifier[JSONSignatureValidator] operator[SEP] identifier[name] operator[SEP] operator[SEP]
}
|
public void setAttributes(Map<String, Object> attr) {
pendingAttributes.clear();
pendingAttributes.putAll(attr);
} | class class_name[name] begin[{]
method[setAttributes, return_type[void], modifier[public], parameter[attr]] begin[{]
call[pendingAttributes.clear, parameter[]]
call[pendingAttributes.putAll, parameter[member[.attr]]]
end[}]
END[}] | Keyword[public] Keyword[void] identifier[setAttributes] operator[SEP] identifier[Map] operator[<] identifier[String] , identifier[Object] operator[>] identifier[attr] operator[SEP] {
identifier[pendingAttributes] operator[SEP] identifier[clear] operator[SEP] operator[SEP] operator[SEP] identifier[pendingAttributes] operator[SEP] identifier[putAll] operator[SEP] identifier[attr] operator[SEP] operator[SEP]
}
|
public static CPOption removeByG_K(long groupId, String key)
throws com.liferay.commerce.product.exception.NoSuchCPOptionException {
return getPersistence().removeByG_K(groupId, key);
} | class class_name[name] begin[{]
method[removeByG_K, return_type[type[CPOption]], modifier[public static], parameter[groupId, key]] begin[{]
return[call[.getPersistence, parameter[]]]
end[}]
END[}] | Keyword[public] Keyword[static] identifier[CPOption] identifier[removeByG_K] operator[SEP] Keyword[long] identifier[groupId] , identifier[String] identifier[key] operator[SEP] Keyword[throws] identifier[com] operator[SEP] identifier[liferay] operator[SEP] identifier[commerce] operator[SEP] identifier[product] operator[SEP] identifier[exception] operator[SEP] identifier[NoSuchCPOptionException] {
Keyword[return] identifier[getPersistence] operator[SEP] operator[SEP] operator[SEP] identifier[removeByG_K] operator[SEP] identifier[groupId] , identifier[key] operator[SEP] operator[SEP]
}
|
public <V> V convertFrom(final JsonReader reader) {
if (reader == null) return null;
return (V) new AnyDecoder(factory).convertFrom(reader);
} | class class_name[name] begin[{]
method[convertFrom, return_type[type[V]], modifier[public], parameter[reader]] begin[{]
if[binary_operation[member[.reader], ==, literal[null]]] begin[{]
return[literal[null]]
else begin[{]
None
end[}]
return[Cast(expression=ClassCreator(arguments=[MemberReference(member=factory, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MethodInvocation(arguments=[MemberReference(member=reader, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=convertFrom, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type=ReferenceType(arguments=None, dimensions=None, name=AnyDecoder, sub_type=None)), type=ReferenceType(arguments=None, dimensions=[], name=V, sub_type=None))]
end[}]
END[}] | Keyword[public] operator[<] identifier[V] operator[>] identifier[V] identifier[convertFrom] operator[SEP] Keyword[final] identifier[JsonReader] identifier[reader] operator[SEP] {
Keyword[if] operator[SEP] identifier[reader] operator[==] Other[null] operator[SEP] Keyword[return] Other[null] operator[SEP] Keyword[return] operator[SEP] identifier[V] operator[SEP] Keyword[new] identifier[AnyDecoder] operator[SEP] identifier[factory] operator[SEP] operator[SEP] identifier[convertFrom] operator[SEP] identifier[reader] operator[SEP] operator[SEP]
}
|
public final List findByRowKeys(Class entityClass, List<String> relationNames, boolean isWrapReq,
EntityMetadata metadata, Object... rowIds) {
List entities = null;
MetamodelImpl metaModel =
(MetamodelImpl) kunderaMetadata.getApplicationMetadata().getMetamodel(metadata.getPersistenceUnit());
EntityType entityType = metaModel.entity(metadata.getEntityClazz());
List<AbstractManagedType> subManagedType = ((AbstractManagedType) entityType).getSubManagedType();
try {
if (!subManagedType.isEmpty()) {
for (AbstractManagedType subEntity : subManagedType) {
EntityMetadata subEntityMetadata =
KunderaMetadataManager.getEntityMetadata(kunderaMetadata, subEntity.getJavaType());
entities = getDataHandler().fromThriftRow(entityClass, subEntityMetadata,
subEntityMetadata.getRelationNames(), isWrapReq, getConsistencyLevel(), rowIds);
if (entities != null && !entities.isEmpty()) {
break;
}
}
} else {
entities = getDataHandler().fromThriftRow(entityClass, metadata, relationNames, isWrapReq,
getConsistencyLevel(), rowIds);
}
} catch (Exception e) {
log.error("Error while retrieving records for entity {}, row keys {}", entityClass, rowIds);
throw new KunderaException(e);
}
return entities;
} | class class_name[name] begin[{]
method[findByRowKeys, return_type[type[List]], modifier[final public], parameter[entityClass, relationNames, isWrapReq, metadata, rowIds]] begin[{]
local_variable[type[List], entities]
local_variable[type[MetamodelImpl], metaModel]
local_variable[type[EntityType], entityType]
local_variable[type[List], subManagedType]
TryStatement(block=[IfStatement(condition=MethodInvocation(arguments=[], member=isEmpty, postfix_operators=[], prefix_operators=['!'], qualifier=subManagedType, selectors=[], type_arguments=None), else_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=entities, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=getDataHandler, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[MethodInvocation(arguments=[MemberReference(member=entityClass, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=metadata, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=relationNames, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=isWrapReq, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MethodInvocation(arguments=[], member=getConsistencyLevel, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), MemberReference(member=rowIds, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=fromThriftRow, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None)), label=None)]), label=None, then_statement=BlockStatement(label=None, statements=[ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=kunderaMetadata, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MethodInvocation(arguments=[], member=getJavaType, postfix_operators=[], prefix_operators=[], qualifier=subEntity, selectors=[], type_arguments=None)], member=getEntityMetadata, postfix_operators=[], prefix_operators=[], qualifier=KunderaMetadataManager, selectors=[], type_arguments=None), name=subEntityMetadata)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=EntityMetadata, sub_type=None)), StatementExpression(expression=Assignment(expressionl=MemberReference(member=entities, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MethodInvocation(arguments=[], member=getDataHandler, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[MethodInvocation(arguments=[MemberReference(member=entityClass, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=subEntityMetadata, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MethodInvocation(arguments=[], member=getRelationNames, postfix_operators=[], prefix_operators=[], qualifier=subEntityMetadata, selectors=[], type_arguments=None), MemberReference(member=isWrapReq, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MethodInvocation(arguments=[], member=getConsistencyLevel, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), MemberReference(member=rowIds, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=fromThriftRow, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None)), label=None), IfStatement(condition=BinaryOperation(operandl=BinaryOperation(operandl=MemberReference(member=entities, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), operator=!=), operandr=MethodInvocation(arguments=[], member=isEmpty, postfix_operators=[], prefix_operators=['!'], qualifier=entities, selectors=[], type_arguments=None), operator=&&), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[BreakStatement(goto=None, label=None)]))]), control=EnhancedForControl(iterable=MemberReference(member=subManagedType, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=subEntity)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=AbstractManagedType, sub_type=None))), label=None)]))], catches=[CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Error while retrieving records for entity {}, row keys {}"), MemberReference(member=entityClass, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=rowIds, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=error, postfix_operators=[], prefix_operators=[], qualifier=log, selectors=[], type_arguments=None), label=None), ThrowStatement(expression=ClassCreator(arguments=[MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=KunderaException, sub_type=None)), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['Exception']))], finally_block=None, label=None, resources=None)
return[member[.entities]]
end[}]
END[}] | Keyword[public] Keyword[final] identifier[List] identifier[findByRowKeys] operator[SEP] identifier[Class] identifier[entityClass] , identifier[List] operator[<] identifier[String] operator[>] identifier[relationNames] , Keyword[boolean] identifier[isWrapReq] , identifier[EntityMetadata] identifier[metadata] , identifier[Object] operator[...] identifier[rowIds] operator[SEP] {
identifier[List] identifier[entities] operator[=] Other[null] operator[SEP] identifier[MetamodelImpl] identifier[metaModel] operator[=] operator[SEP] identifier[MetamodelImpl] operator[SEP] identifier[kunderaMetadata] operator[SEP] identifier[getApplicationMetadata] operator[SEP] operator[SEP] operator[SEP] identifier[getMetamodel] operator[SEP] identifier[metadata] operator[SEP] identifier[getPersistenceUnit] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[EntityType] identifier[entityType] operator[=] identifier[metaModel] operator[SEP] identifier[entity] operator[SEP] identifier[metadata] operator[SEP] identifier[getEntityClazz] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[List] operator[<] identifier[AbstractManagedType] operator[>] identifier[subManagedType] operator[=] operator[SEP] operator[SEP] identifier[AbstractManagedType] operator[SEP] identifier[entityType] operator[SEP] operator[SEP] identifier[getSubManagedType] operator[SEP] operator[SEP] operator[SEP] Keyword[try] {
Keyword[if] operator[SEP] operator[!] identifier[subManagedType] operator[SEP] identifier[isEmpty] operator[SEP] operator[SEP] operator[SEP] {
Keyword[for] operator[SEP] identifier[AbstractManagedType] identifier[subEntity] operator[:] identifier[subManagedType] operator[SEP] {
identifier[EntityMetadata] identifier[subEntityMetadata] operator[=] identifier[KunderaMetadataManager] operator[SEP] identifier[getEntityMetadata] operator[SEP] identifier[kunderaMetadata] , identifier[subEntity] operator[SEP] identifier[getJavaType] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[entities] operator[=] identifier[getDataHandler] operator[SEP] operator[SEP] operator[SEP] identifier[fromThriftRow] operator[SEP] identifier[entityClass] , identifier[subEntityMetadata] , identifier[subEntityMetadata] operator[SEP] identifier[getRelationNames] operator[SEP] operator[SEP] , identifier[isWrapReq] , identifier[getConsistencyLevel] operator[SEP] operator[SEP] , identifier[rowIds] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[entities] operator[!=] Other[null] operator[&&] operator[!] identifier[entities] operator[SEP] identifier[isEmpty] operator[SEP] operator[SEP] operator[SEP] {
Keyword[break] operator[SEP]
}
}
}
Keyword[else] {
identifier[entities] operator[=] identifier[getDataHandler] operator[SEP] operator[SEP] operator[SEP] identifier[fromThriftRow] operator[SEP] identifier[entityClass] , identifier[metadata] , identifier[relationNames] , identifier[isWrapReq] , identifier[getConsistencyLevel] operator[SEP] operator[SEP] , identifier[rowIds] operator[SEP] operator[SEP]
}
}
Keyword[catch] operator[SEP] identifier[Exception] identifier[e] operator[SEP] {
identifier[log] operator[SEP] identifier[error] operator[SEP] literal[String] , identifier[entityClass] , identifier[rowIds] operator[SEP] operator[SEP] Keyword[throw] Keyword[new] identifier[KunderaException] operator[SEP] identifier[e] operator[SEP] operator[SEP]
}
Keyword[return] identifier[entities] operator[SEP]
}
|
public String getRemoteUrl(String defaultRemoteUrl) {
if (StringUtils.isBlank(defaultRemoteUrl)) {
RemoteConfig remoteConfig = getJenkinsScm().getRepositories().get(0);
URIish uri = remoteConfig.getURIs().get(0);
return uri.toPrivateString();
}
return defaultRemoteUrl;
} | class class_name[name] begin[{]
method[getRemoteUrl, return_type[type[String]], modifier[public], parameter[defaultRemoteUrl]] begin[{]
if[call[StringUtils.isBlank, parameter[member[.defaultRemoteUrl]]]] begin[{]
local_variable[type[RemoteConfig], remoteConfig]
local_variable[type[URIish], uri]
return[call[uri.toPrivateString, parameter[]]]
else begin[{]
None
end[}]
return[member[.defaultRemoteUrl]]
end[}]
END[}] | Keyword[public] identifier[String] identifier[getRemoteUrl] operator[SEP] identifier[String] identifier[defaultRemoteUrl] operator[SEP] {
Keyword[if] operator[SEP] identifier[StringUtils] operator[SEP] identifier[isBlank] operator[SEP] identifier[defaultRemoteUrl] operator[SEP] operator[SEP] {
identifier[RemoteConfig] identifier[remoteConfig] operator[=] identifier[getJenkinsScm] operator[SEP] operator[SEP] operator[SEP] identifier[getRepositories] operator[SEP] operator[SEP] operator[SEP] identifier[get] operator[SEP] Other[0] operator[SEP] operator[SEP] identifier[URIish] identifier[uri] operator[=] identifier[remoteConfig] operator[SEP] identifier[getURIs] operator[SEP] operator[SEP] operator[SEP] identifier[get] operator[SEP] Other[0] operator[SEP] operator[SEP] Keyword[return] identifier[uri] operator[SEP] identifier[toPrivateString] operator[SEP] operator[SEP] operator[SEP]
}
Keyword[return] identifier[defaultRemoteUrl] operator[SEP]
}
|
@SuppressWarnings("unchecked")
public EList<IfcGrid> getPartOfV() {
return (EList<IfcGrid>) eGet(Ifc2x3tc1Package.Literals.IFC_GRID_AXIS__PART_OF_V, true);
} | class class_name[name] begin[{]
method[getPartOfV, return_type[type[EList]], modifier[public], parameter[]] begin[{]
return[Cast(expression=MethodInvocation(arguments=[MemberReference(member=IFC_GRID_AXIS__PART_OF_V, postfix_operators=[], prefix_operators=[], qualifier=Ifc2x3tc1Package.Literals, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true)], member=eGet, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=IfcGrid, sub_type=None))], dimensions=[], name=EList, sub_type=None))]
end[}]
END[}] | annotation[@] identifier[SuppressWarnings] operator[SEP] literal[String] operator[SEP] Keyword[public] identifier[EList] operator[<] identifier[IfcGrid] operator[>] identifier[getPartOfV] operator[SEP] operator[SEP] {
Keyword[return] operator[SEP] identifier[EList] operator[<] identifier[IfcGrid] operator[>] operator[SEP] identifier[eGet] operator[SEP] identifier[Ifc2x3tc1Package] operator[SEP] identifier[Literals] operator[SEP] identifier[IFC_GRID_AXIS__PART_OF_V] , literal[boolean] operator[SEP] operator[SEP]
}
|
public void marshall(OutputDataConfig outputDataConfig, ProtocolMarshaller protocolMarshaller) {
if (outputDataConfig == null) {
throw new SdkClientException("Invalid argument passed to marshall(...)");
}
try {
protocolMarshaller.marshall(outputDataConfig.getKmsKeyId(), KMSKEYID_BINDING);
protocolMarshaller.marshall(outputDataConfig.getS3OutputPath(), S3OUTPUTPATH_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[outputDataConfig, protocolMarshaller]] begin[{]
if[binary_operation[member[.outputDataConfig], ==, 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=getKmsKeyId, postfix_operators=[], prefix_operators=[], qualifier=outputDataConfig, selectors=[], type_arguments=None), MemberReference(member=KMSKEYID_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=getS3OutputPath, postfix_operators=[], prefix_operators=[], qualifier=outputDataConfig, selectors=[], type_arguments=None), MemberReference(member=S3OUTPUTPATH_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[OutputDataConfig] identifier[outputDataConfig] , identifier[ProtocolMarshaller] identifier[protocolMarshaller] operator[SEP] {
Keyword[if] operator[SEP] identifier[outputDataConfig] 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[outputDataConfig] operator[SEP] identifier[getKmsKeyId] operator[SEP] operator[SEP] , identifier[KMSKEYID_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[outputDataConfig] operator[SEP] identifier[getS3OutputPath] operator[SEP] operator[SEP] , identifier[S3OUTPUTPATH_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]
}
}
|
@Deprecated
public static void write(StringBuffer data, OutputStream output)
throws IOException {
write(data, output, (String) null);
} | class class_name[name] begin[{]
method[write, return_type[void], modifier[public static], parameter[data, output]] begin[{]
call[.write, parameter[member[.data], member[.output], Cast(expression=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None))]]
end[}]
END[}] | annotation[@] identifier[Deprecated] Keyword[public] Keyword[static] Keyword[void] identifier[write] operator[SEP] identifier[StringBuffer] identifier[data] , identifier[OutputStream] identifier[output] operator[SEP] Keyword[throws] identifier[IOException] {
identifier[write] operator[SEP] identifier[data] , identifier[output] , operator[SEP] identifier[String] operator[SEP] Other[null] operator[SEP] operator[SEP]
}
|
private static HttpURLConnection setup(HttpsFileUploaderConfig config) throws MalformedURLException, IOException {
HttpURLConnection httpUrlConnection;
boolean isHttps = false;
URL url = config.getURL();
if (url.getProtocol().equalsIgnoreCase("https")) {
isHttps = true;
}
if (config.usesProxy()) {
Proxy proxy = new Proxy(Proxy.Type.HTTP, new InetSocketAddress(config.getProxyAddress(), config.getProxyPort()));
httpUrlConnection = (HttpURLConnection) url.openConnection(proxy);
} else {
httpUrlConnection = (HttpURLConnection) url.openConnection();
}
if (!config.isValidateCertificates() && isHttps) {
SSLUtils.setNoValidate(((HttpsURLConnection) httpUrlConnection), config.getAcceptedIssuers());
}
httpUrlConnection.setUseCaches(false); // do not use connection caches
httpUrlConnection.setDoOutput(true);
// Set timeouts
httpUrlConnection.setConnectTimeout(config.getConnectTimeoutMs());
httpUrlConnection.setReadTimeout(config.getReadTimeoutMs());
httpUrlConnection.setRequestMethod("POST");
httpUrlConnection.setRequestProperty("Connection", "Keep-Alive");
httpUrlConnection.setRequestProperty("Cache-Control", "no-cache");
httpUrlConnection.setRequestProperty("Content-Type", "multipart/form-data;boundary=" + MULTIPART_BOUNDARY);
// Sets additional headers
if (config.getAdditionalHeaders() != null) {
for(Entry<String,String> e : config.getAdditionalHeaders().entrySet()) {
// We use the 'set' method here and not the 'add' method because
// it should be allowed for example for the user to override Java's default
// User-Agent value.
httpUrlConnection.setRequestProperty(e.getKey(), e.getValue());
}
}
if (config.endpointRequiresAuthentication()) {
String authString = config.getEndpointUsername() + ":" + config.getEndpointPassword();
// The only public Base64 encoder that exist in Java 7 and before is from the
// JAXB package so we will (mis)use that here for Base64 encoding.
// Note: Java 8 will finally have a Base64 class in the Util package.
String authStringEnc = javax.xml.bind.DatatypeConverter.printBase64Binary(authString.getBytes());
httpUrlConnection.setRequestProperty("Authorization", "Basic " + authStringEnc);
}
return httpUrlConnection;
} | class class_name[name] begin[{]
method[setup, return_type[type[HttpURLConnection]], modifier[private static], parameter[config]] begin[{]
local_variable[type[HttpURLConnection], httpUrlConnection]
local_variable[type[boolean], isHttps]
local_variable[type[URL], url]
if[call[url.getProtocol, parameter[]]] begin[{]
assign[member[.isHttps], literal[true]]
else begin[{]
None
end[}]
if[call[config.usesProxy, parameter[]]] begin[{]
local_variable[type[Proxy], proxy]
assign[member[.httpUrlConnection], Cast(expression=MethodInvocation(arguments=[MemberReference(member=proxy, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=openConnection, postfix_operators=[], prefix_operators=[], qualifier=url, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=HttpURLConnection, sub_type=None))]
else begin[{]
assign[member[.httpUrlConnection], Cast(expression=MethodInvocation(arguments=[], member=openConnection, postfix_operators=[], prefix_operators=[], qualifier=url, selectors=[], type_arguments=None), type=ReferenceType(arguments=None, dimensions=[], name=HttpURLConnection, sub_type=None))]
end[}]
if[binary_operation[call[config.isValidateCertificates, parameter[]], &&, member[.isHttps]]] begin[{]
call[SSLUtils.setNoValidate, parameter[Cast(expression=MemberReference(member=httpUrlConnection, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=ReferenceType(arguments=None, dimensions=[], name=HttpsURLConnection, sub_type=None)), call[config.getAcceptedIssuers, parameter[]]]]
else begin[{]
None
end[}]
call[httpUrlConnection.setUseCaches, parameter[literal[false]]]
call[httpUrlConnection.setDoOutput, parameter[literal[true]]]
call[httpUrlConnection.setConnectTimeout, parameter[call[config.getConnectTimeoutMs, parameter[]]]]
call[httpUrlConnection.setReadTimeout, parameter[call[config.getReadTimeoutMs, parameter[]]]]
call[httpUrlConnection.setRequestMethod, parameter[literal["POST"]]]
call[httpUrlConnection.setRequestProperty, parameter[literal["Connection"], literal["Keep-Alive"]]]
call[httpUrlConnection.setRequestProperty, parameter[literal["Cache-Control"], literal["no-cache"]]]
call[httpUrlConnection.setRequestProperty, parameter[literal["Content-Type"], binary_operation[literal["multipart/form-data;boundary="], +, member[.MULTIPART_BOUNDARY]]]]
if[binary_operation[call[config.getAdditionalHeaders, parameter[]], !=, literal[null]]] begin[{]
ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getKey, postfix_operators=[], prefix_operators=[], qualifier=e, selectors=[], type_arguments=None), MethodInvocation(arguments=[], member=getValue, postfix_operators=[], prefix_operators=[], qualifier=e, selectors=[], type_arguments=None)], member=setRequestProperty, postfix_operators=[], prefix_operators=[], qualifier=httpUrlConnection, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MethodInvocation(arguments=[], member=getAdditionalHeaders, postfix_operators=[], prefix_operators=[], qualifier=config, selectors=[MethodInvocation(arguments=[], member=entrySet, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=e)], 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[}]
if[call[config.endpointRequiresAuthentication, parameter[]]] begin[{]
local_variable[type[String], authString]
local_variable[type[String], authStringEnc]
call[httpUrlConnection.setRequestProperty, parameter[literal["Authorization"], binary_operation[literal["Basic "], +, member[.authStringEnc]]]]
else begin[{]
None
end[}]
return[member[.httpUrlConnection]]
end[}]
END[}] | Keyword[private] Keyword[static] identifier[HttpURLConnection] identifier[setup] operator[SEP] identifier[HttpsFileUploaderConfig] identifier[config] operator[SEP] Keyword[throws] identifier[MalformedURLException] , identifier[IOException] {
identifier[HttpURLConnection] identifier[httpUrlConnection] operator[SEP] Keyword[boolean] identifier[isHttps] operator[=] literal[boolean] operator[SEP] identifier[URL] identifier[url] operator[=] identifier[config] operator[SEP] identifier[getURL] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[url] operator[SEP] identifier[getProtocol] operator[SEP] operator[SEP] operator[SEP] identifier[equalsIgnoreCase] operator[SEP] literal[String] operator[SEP] operator[SEP] {
identifier[isHttps] operator[=] literal[boolean] operator[SEP]
}
Keyword[if] operator[SEP] identifier[config] operator[SEP] identifier[usesProxy] operator[SEP] operator[SEP] operator[SEP] {
identifier[Proxy] identifier[proxy] operator[=] Keyword[new] identifier[Proxy] operator[SEP] identifier[Proxy] operator[SEP] identifier[Type] operator[SEP] identifier[HTTP] , Keyword[new] identifier[InetSocketAddress] operator[SEP] identifier[config] operator[SEP] identifier[getProxyAddress] operator[SEP] operator[SEP] , identifier[config] operator[SEP] identifier[getProxyPort] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[httpUrlConnection] operator[=] operator[SEP] identifier[HttpURLConnection] operator[SEP] identifier[url] operator[SEP] identifier[openConnection] operator[SEP] identifier[proxy] operator[SEP] operator[SEP]
}
Keyword[else] {
identifier[httpUrlConnection] operator[=] operator[SEP] identifier[HttpURLConnection] operator[SEP] identifier[url] operator[SEP] identifier[openConnection] operator[SEP] operator[SEP] operator[SEP]
}
Keyword[if] operator[SEP] operator[!] identifier[config] operator[SEP] identifier[isValidateCertificates] operator[SEP] operator[SEP] operator[&&] identifier[isHttps] operator[SEP] {
identifier[SSLUtils] operator[SEP] identifier[setNoValidate] operator[SEP] operator[SEP] operator[SEP] identifier[HttpsURLConnection] operator[SEP] identifier[httpUrlConnection] operator[SEP] , identifier[config] operator[SEP] identifier[getAcceptedIssuers] operator[SEP] operator[SEP] operator[SEP] operator[SEP]
}
identifier[httpUrlConnection] operator[SEP] identifier[setUseCaches] operator[SEP] literal[boolean] operator[SEP] operator[SEP] identifier[httpUrlConnection] operator[SEP] identifier[setDoOutput] operator[SEP] literal[boolean] operator[SEP] operator[SEP] identifier[httpUrlConnection] operator[SEP] identifier[setConnectTimeout] operator[SEP] identifier[config] operator[SEP] identifier[getConnectTimeoutMs] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[httpUrlConnection] operator[SEP] identifier[setReadTimeout] operator[SEP] identifier[config] operator[SEP] identifier[getReadTimeoutMs] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[httpUrlConnection] operator[SEP] identifier[setRequestMethod] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[httpUrlConnection] operator[SEP] identifier[setRequestProperty] operator[SEP] literal[String] , literal[String] operator[SEP] operator[SEP] identifier[httpUrlConnection] operator[SEP] identifier[setRequestProperty] operator[SEP] literal[String] , literal[String] operator[SEP] operator[SEP] identifier[httpUrlConnection] operator[SEP] identifier[setRequestProperty] operator[SEP] literal[String] , literal[String] operator[+] identifier[MULTIPART_BOUNDARY] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[config] operator[SEP] identifier[getAdditionalHeaders] operator[SEP] operator[SEP] operator[!=] Other[null] operator[SEP] {
Keyword[for] operator[SEP] identifier[Entry] operator[<] identifier[String] , identifier[String] operator[>] identifier[e] operator[:] identifier[config] operator[SEP] identifier[getAdditionalHeaders] operator[SEP] operator[SEP] operator[SEP] identifier[entrySet] operator[SEP] operator[SEP] operator[SEP] {
identifier[httpUrlConnection] operator[SEP] identifier[setRequestProperty] operator[SEP] identifier[e] operator[SEP] identifier[getKey] operator[SEP] operator[SEP] , identifier[e] operator[SEP] identifier[getValue] operator[SEP] operator[SEP] operator[SEP] operator[SEP]
}
}
Keyword[if] operator[SEP] identifier[config] operator[SEP] identifier[endpointRequiresAuthentication] operator[SEP] operator[SEP] operator[SEP] {
identifier[String] identifier[authString] operator[=] identifier[config] operator[SEP] identifier[getEndpointUsername] operator[SEP] operator[SEP] operator[+] literal[String] operator[+] identifier[config] operator[SEP] identifier[getEndpointPassword] operator[SEP] operator[SEP] operator[SEP] identifier[String] identifier[authStringEnc] operator[=] identifier[javax] operator[SEP] identifier[xml] operator[SEP] identifier[bind] operator[SEP] identifier[DatatypeConverter] operator[SEP] identifier[printBase64Binary] operator[SEP] identifier[authString] operator[SEP] identifier[getBytes] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[httpUrlConnection] operator[SEP] identifier[setRequestProperty] operator[SEP] literal[String] , literal[String] operator[+] identifier[authStringEnc] operator[SEP] operator[SEP]
}
Keyword[return] identifier[httpUrlConnection] operator[SEP]
}
|
public final void removeValue(@NonNull final String value) {
Condition.INSTANCE.ensureNotNull(value, "The value may not be null");
if (this.values != null) {
if (this.values.remove(value)) {
if (persistSet(this.values)) {
notifyChanged();
}
}
}
} | class class_name[name] begin[{]
method[removeValue, return_type[void], modifier[final public], parameter[value]] begin[{]
call[Condition.INSTANCE.ensureNotNull, parameter[member[.value], literal["The value may not be null"]]]
if[binary_operation[THIS[member[None.values]], !=, literal[null]]] begin[{]
if[THIS[member[None.values]call[None.remove, parameter[member[.value]]]]] begin[{]
if[call[.persistSet, parameter[THIS[member[None.values]]]]] begin[{]
call[.notifyChanged, parameter[]]
else begin[{]
None
end[}]
else begin[{]
None
end[}]
else begin[{]
None
end[}]
end[}]
END[}] | Keyword[public] Keyword[final] Keyword[void] identifier[removeValue] operator[SEP] annotation[@] identifier[NonNull] Keyword[final] identifier[String] identifier[value] operator[SEP] {
identifier[Condition] operator[SEP] identifier[INSTANCE] operator[SEP] identifier[ensureNotNull] operator[SEP] identifier[value] , literal[String] operator[SEP] operator[SEP] Keyword[if] operator[SEP] Keyword[this] operator[SEP] identifier[values] operator[!=] Other[null] operator[SEP] {
Keyword[if] operator[SEP] Keyword[this] operator[SEP] identifier[values] operator[SEP] identifier[remove] operator[SEP] identifier[value] operator[SEP] operator[SEP] {
Keyword[if] operator[SEP] identifier[persistSet] operator[SEP] Keyword[this] operator[SEP] identifier[values] operator[SEP] operator[SEP] {
identifier[notifyChanged] operator[SEP] operator[SEP] operator[SEP]
}
}
}
}
|
public void setShowTabNames(boolean showTabNames) {
for (int i = 0; i < getTabCount(); i++) {
String title = showTabNames ? getComponentAt(i).getName() : "";
setTitleAt(i, title);
}
} | class class_name[name] begin[{]
method[setShowTabNames, return_type[void], modifier[public], parameter[showTabNames]] begin[{]
ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=TernaryExpression(condition=MemberReference(member=showTabNames, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), if_false=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=""), if_true=MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getComponentAt, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[MethodInvocation(arguments=[], member=getName, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None)), name=title)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=title, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=setTitleAt, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MethodInvocation(arguments=[], member=getTabCount, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), operator=<), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), name=i)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=i, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None)
end[}]
END[}] | Keyword[public] Keyword[void] identifier[setShowTabNames] operator[SEP] Keyword[boolean] identifier[showTabNames] operator[SEP] {
Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[getTabCount] operator[SEP] operator[SEP] operator[SEP] identifier[i] operator[++] operator[SEP] {
identifier[String] identifier[title] operator[=] identifier[showTabNames] operator[?] identifier[getComponentAt] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[getName] operator[SEP] operator[SEP] operator[:] literal[String] operator[SEP] identifier[setTitleAt] operator[SEP] identifier[i] , identifier[title] operator[SEP] operator[SEP]
}
}
|
private int getPort() {
String port = getGangliaConfig(args.getPort(), ganglia, "port",
DEFAULT_PORT);
return Integer.parseInt(port);
} | class class_name[name] begin[{]
method[getPort, return_type[type[int]], modifier[private], parameter[]] begin[{]
local_variable[type[String], port]
return[call[Integer.parseInt, parameter[member[.port]]]]
end[}]
END[}] | Keyword[private] Keyword[int] identifier[getPort] operator[SEP] operator[SEP] {
identifier[String] identifier[port] operator[=] identifier[getGangliaConfig] operator[SEP] identifier[args] operator[SEP] identifier[getPort] operator[SEP] operator[SEP] , identifier[ganglia] , literal[String] , identifier[DEFAULT_PORT] operator[SEP] operator[SEP] Keyword[return] identifier[Integer] operator[SEP] identifier[parseInt] operator[SEP] identifier[port] operator[SEP] operator[SEP]
}
|
public FecthFuture fetchToDir(final URL baseUrl, final @Nullable String queryParam, final List<String> ids,
final @Nullable String prefix, final @Nullable String suffix, final File outdir) throws IOException {
// check mandatory parameters
requireNonNull(baseUrl, "A valid URL expected");
final FecthFuture toBeCompleted = new FecthFuture(requireNonNull(ids, "A valid list of identifiers expected").stream()
.map(StringUtils::trimToNull).filter(Objects::nonNull).distinct().collect(Collectors.toList()));
requireNonNull(outdir, "A valid output directory expected");
checkArgument((outdir.isDirectory() && outdir.canWrite()) || outdir.mkdirs(), new StringBuilder("Cannot write to the output directory: ")
.append(outdir.getAbsolutePath()).toString());
// get optional parameters
final Optional<String> queryParam2 = ofNullable(trimToNull(queryParam));
final String prefix2 = ofNullable(prefix).orElse("");
final String suffix2 = ofNullable(suffix).orElse("");
try (final CloseableHttpAsyncClient asyncHttpClient = createFiberCloseableHttpAsyncClient()) {
asyncHttpClient.start();
final UrlBuilder urlBuilder = getUrlBuilder(baseUrl);
// an explanation is needed since this code is instrumented by Quasar and Comsat: requests are created during the first part of
// this lambda expression (map), but they are not executed until the get() method is called in the second part of the expression
// (forEach). Here that parallel stream is used to block and wait for the requests to complete. In case that a single stream is
// used, each request will be created and executed sequentially. Therefore, the alternative to parallel stream is to separate
// the lambda expression in two loops, creating the requests in the first loop and calling get() in the second one.
toBeCompleted.monList.parallelStream().map(m -> {
try {
// create output file
final File outfile = new File(outdir, new StringBuilder(prefix2).append(m.id).append(suffix2).append(".partial").toString());
checkState(outfile.createNewFile(), new StringBuilder("Cannot create the output file: ")
.append(outfile.getAbsolutePath()).toString());
// create the HTTP request
final HttpHost target = URIUtils.extractHost(baseUrl.toURI());
final HttpRequest request = new BasicHttpRequest("GET", urlBuilder.buildRelativeUrl(queryParam2.isPresent() ? null : m.id,
queryParam2.isPresent() ? of(queryParam2.get(), m.id) : null));
final HttpAsyncRequestProducer producer = new BasicAsyncRequestProducer(target, request);
// create the consumer
final ZeroCopyConsumer<File> consumer = new ZeroCopyConsumer<File>(outfile) {
@Override
protected File process(final HttpResponse response, final File file, final ContentType contentType) throws Exception {
final StatusLine status = response.getStatusLine();
if (LOGGER.isDebugEnabled())
LOGGER.debug(new StringBuilder("Got file: statusCode=").append(status.getStatusCode())
.append(", file=").append(file.getAbsolutePath()).toString());
if (status.getStatusCode() != HttpStatus.SC_OK)
throw new ClientProtocolException(new StringBuilder("Object fetch failed: ").append(status).toString());
return file;
}
};
// prepare request
m.future = asyncHttpClient.execute(producer, consumer, new FutureCallback<File>() {
@Override
public void cancelled() {
toBeCompleted.update(m.id, FetchStatus.CANCELLED);
LOGGER.info("Task cancelled");
}
@Override
public void completed(final File result) {
try {
final Path path = result.toPath();
Files.move(path, path.resolveSibling(removeEnd(result.getName(), ".partial")), REPLACE_EXISTING);
toBeCompleted.update(m.id, FetchStatus.COMPLETED);
} catch (IOException ex) {
toBeCompleted.update(m.id, FetchStatus.FAILED);
LOGGER.error("Fecth failed to move file to its final destination with error", ex);
}
}
@Override
public void failed(final Exception ex) {
toBeCompleted.update(m.id, FetchStatus.FAILED);
LOGGER.error("Fecth failed with error", ex);
}
});
} catch (Exception e) {
LOGGER.error(new StringBuilder("Failed to fetch object with id: ").append(m.id).toString(), e);
}
return m;
}).forEach(m -> {
try {
// submit requests and wait for completion
m.future.get();
} catch (Exception ignore) { /* exceptions are handled in the callback functions */ }
});
}
return toBeCompleted;
} | class class_name[name] begin[{]
method[fetchToDir, return_type[type[FecthFuture]], modifier[public], parameter[baseUrl, queryParam, ids, prefix, suffix, outdir]] begin[{]
call[.requireNonNull, parameter[member[.baseUrl], literal["A valid URL expected"]]]
local_variable[type[FecthFuture], toBeCompleted]
call[.requireNonNull, parameter[member[.outdir], literal["A valid output directory expected"]]]
call[.checkArgument, parameter[binary_operation[binary_operation[call[outdir.isDirectory, parameter[]], &&, call[outdir.canWrite, parameter[]]], ||, call[outdir.mkdirs, parameter[]]], ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Cannot write to the output directory: ")], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getAbsolutePath, postfix_operators=[], prefix_operators=[], qualifier=outdir, selectors=[], type_arguments=None)], member=append, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[], member=toString, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type=ReferenceType(arguments=None, dimensions=None, name=StringBuilder, sub_type=None))]]
local_variable[type[Optional], queryParam2]
local_variable[type[String], prefix2]
local_variable[type[String], suffix2]
TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[], member=start, postfix_operators=[], prefix_operators=[], qualifier=asyncHttpClient, selectors=[], type_arguments=None), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=baseUrl, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getUrlBuilder, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), name=urlBuilder)], modifiers={'final'}, type=ReferenceType(arguments=None, dimensions=[], name=UrlBuilder, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[], member=parallelStream, postfix_operators=[], prefix_operators=[], qualifier=toBeCompleted.monList, selectors=[MethodInvocation(arguments=[LambdaExpression(body=[TryStatement(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[MemberReference(member=outdir, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), ClassCreator(arguments=[MemberReference(member=prefix2, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MethodInvocation(arguments=[MemberReference(member=id, postfix_operators=[], prefix_operators=[], qualifier=m, selectors=[])], member=append, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[MemberReference(member=suffix2, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=append, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=".partial")], member=append, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[], member=toString, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type=ReferenceType(arguments=None, dimensions=None, name=StringBuilder, sub_type=None))], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=File, sub_type=None)), name=outfile)], modifiers={'final'}, type=ReferenceType(arguments=None, dimensions=[], name=File, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=createNewFile, postfix_operators=[], prefix_operators=[], qualifier=outfile, selectors=[], type_arguments=None), ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Cannot create the output file: ")], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getAbsolutePath, postfix_operators=[], prefix_operators=[], qualifier=outfile, selectors=[], type_arguments=None)], member=append, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[], member=toString, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type=ReferenceType(arguments=None, dimensions=None, name=StringBuilder, sub_type=None))], member=checkState, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=toURI, postfix_operators=[], prefix_operators=[], qualifier=baseUrl, selectors=[], type_arguments=None)], member=extractHost, postfix_operators=[], prefix_operators=[], qualifier=URIUtils, selectors=[], type_arguments=None), name=target)], modifiers={'final'}, type=ReferenceType(arguments=None, dimensions=[], name=HttpHost, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="GET"), MethodInvocation(arguments=[TernaryExpression(condition=MethodInvocation(arguments=[], member=isPresent, postfix_operators=[], prefix_operators=[], qualifier=queryParam2, selectors=[], type_arguments=None), if_false=MemberReference(member=id, postfix_operators=[], prefix_operators=[], qualifier=m, selectors=[]), if_true=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null)), TernaryExpression(condition=MethodInvocation(arguments=[], member=isPresent, postfix_operators=[], prefix_operators=[], qualifier=queryParam2, selectors=[], type_arguments=None), if_false=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), if_true=MethodInvocation(arguments=[MethodInvocation(arguments=[], member=get, postfix_operators=[], prefix_operators=[], qualifier=queryParam2, selectors=[], type_arguments=None), MemberReference(member=id, postfix_operators=[], prefix_operators=[], qualifier=m, selectors=[])], member=of, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None))], member=buildRelativeUrl, postfix_operators=[], prefix_operators=[], qualifier=urlBuilder, selectors=[], type_arguments=None)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=BasicHttpRequest, sub_type=None)), name=request)], modifiers={'final'}, type=ReferenceType(arguments=None, dimensions=[], name=HttpRequest, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[MemberReference(member=target, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=request, 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=BasicAsyncRequestProducer, sub_type=None)), name=producer)], modifiers={'final'}, type=ReferenceType(arguments=None, dimensions=[], name=HttpAsyncRequestProducer, sub_type=None)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=ClassCreator(arguments=[MemberReference(member=outfile, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=[MethodDeclaration(annotations=[Annotation(element=None, name=Override)], body=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=getStatusLine, postfix_operators=[], prefix_operators=[], qualifier=response, selectors=[], type_arguments=None), name=status)], modifiers={'final'}, type=ReferenceType(arguments=None, dimensions=[], name=StatusLine, sub_type=None)), IfStatement(condition=MethodInvocation(arguments=[], member=isDebugEnabled, postfix_operators=[], prefix_operators=[], qualifier=LOGGER, selectors=[], type_arguments=None), else_statement=None, label=None, then_statement=StatementExpression(expression=MethodInvocation(arguments=[ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Got file: statusCode=")], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getStatusCode, postfix_operators=[], prefix_operators=[], qualifier=status, selectors=[], type_arguments=None)], member=append, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=", file=")], member=append, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getAbsolutePath, postfix_operators=[], prefix_operators=[], qualifier=file, selectors=[], type_arguments=None)], member=append, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[], member=toString, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type=ReferenceType(arguments=None, dimensions=None, name=StringBuilder, sub_type=None))], member=debug, postfix_operators=[], prefix_operators=[], qualifier=LOGGER, selectors=[], type_arguments=None), label=None)), IfStatement(condition=BinaryOperation(operandl=MethodInvocation(arguments=[], member=getStatusCode, postfix_operators=[], prefix_operators=[], qualifier=status, selectors=[], type_arguments=None), operandr=MemberReference(member=SC_OK, postfix_operators=[], prefix_operators=[], qualifier=HttpStatus, selectors=[]), operator=!=), else_statement=None, label=None, then_statement=ThrowStatement(expression=ClassCreator(arguments=[ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Object fetch failed: ")], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MethodInvocation(arguments=[MemberReference(member=status, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=append, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[], member=toString, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type=ReferenceType(arguments=None, dimensions=None, name=StringBuilder, sub_type=None))], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=ClientProtocolException, sub_type=None)), label=None)), ReturnStatement(expression=MemberReference(member=file, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), label=None)], documentation=None, modifiers={'protected'}, name=process, parameters=[FormalParameter(annotations=[], modifiers={'final'}, name=response, type=ReferenceType(arguments=None, dimensions=[], name=HttpResponse, sub_type=None), varargs=False), FormalParameter(annotations=[], modifiers={'final'}, name=file, type=ReferenceType(arguments=None, dimensions=[], name=File, sub_type=None), varargs=False), FormalParameter(annotations=[], modifiers={'final'}, name=contentType, type=ReferenceType(arguments=None, dimensions=[], name=ContentType, sub_type=None), varargs=False)], return_type=ReferenceType(arguments=None, dimensions=[], name=File, sub_type=None), throws=['Exception'], type_parameters=None)], constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=File, sub_type=None))], dimensions=None, name=ZeroCopyConsumer, sub_type=None)), name=consumer)], modifiers={'final'}, type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=File, sub_type=None))], dimensions=[], name=ZeroCopyConsumer, sub_type=None)), StatementExpression(expression=Assignment(expressionl=MemberReference(member=future, postfix_operators=[], prefix_operators=[], qualifier=m, selectors=[]), type==, value=MethodInvocation(arguments=[MemberReference(member=producer, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=consumer, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), ClassCreator(arguments=[], body=[MethodDeclaration(annotations=[Annotation(element=None, name=Override)], body=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=id, postfix_operators=[], prefix_operators=[], qualifier=m, selectors=[]), MemberReference(member=CANCELLED, postfix_operators=[], prefix_operators=[], qualifier=FetchStatus, selectors=[])], member=update, postfix_operators=[], prefix_operators=[], qualifier=toBeCompleted, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Task cancelled")], member=info, postfix_operators=[], prefix_operators=[], qualifier=LOGGER, selectors=[], type_arguments=None), label=None)], documentation=None, modifiers={'public'}, name=cancelled, parameters=[], return_type=None, throws=None, type_parameters=None), MethodDeclaration(annotations=[Annotation(element=None, name=Override)], body=[TryStatement(block=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[], member=toPath, postfix_operators=[], prefix_operators=[], qualifier=result, selectors=[], type_arguments=None), name=path)], modifiers={'final'}, type=ReferenceType(arguments=None, dimensions=[], name=Path, sub_type=None)), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=path, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MethodInvocation(arguments=[MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getName, postfix_operators=[], prefix_operators=[], qualifier=result, selectors=[], type_arguments=None), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=".partial")], member=removeEnd, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)], member=resolveSibling, postfix_operators=[], prefix_operators=[], qualifier=path, selectors=[], type_arguments=None), MemberReference(member=REPLACE_EXISTING, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=move, postfix_operators=[], prefix_operators=[], qualifier=Files, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=id, postfix_operators=[], prefix_operators=[], qualifier=m, selectors=[]), MemberReference(member=COMPLETED, postfix_operators=[], prefix_operators=[], qualifier=FetchStatus, selectors=[])], member=update, postfix_operators=[], prefix_operators=[], qualifier=toBeCompleted, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=id, postfix_operators=[], prefix_operators=[], qualifier=m, selectors=[]), MemberReference(member=FAILED, postfix_operators=[], prefix_operators=[], qualifier=FetchStatus, selectors=[])], member=update, postfix_operators=[], prefix_operators=[], qualifier=toBeCompleted, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Fecth failed to move file to its final destination with error"), MemberReference(member=ex, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=error, postfix_operators=[], prefix_operators=[], qualifier=LOGGER, selectors=[], type_arguments=None), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=ex, types=['IOException']))], finally_block=None, label=None, resources=None)], documentation=None, modifiers={'public'}, name=completed, parameters=[FormalParameter(annotations=[], modifiers={'final'}, name=result, type=ReferenceType(arguments=None, dimensions=[], name=File, sub_type=None), varargs=False)], return_type=None, throws=None, type_parameters=None), MethodDeclaration(annotations=[Annotation(element=None, name=Override)], body=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=id, postfix_operators=[], prefix_operators=[], qualifier=m, selectors=[]), MemberReference(member=FAILED, postfix_operators=[], prefix_operators=[], qualifier=FetchStatus, selectors=[])], member=update, postfix_operators=[], prefix_operators=[], qualifier=toBeCompleted, selectors=[], type_arguments=None), label=None), StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Fecth failed with error"), MemberReference(member=ex, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=error, postfix_operators=[], prefix_operators=[], qualifier=LOGGER, selectors=[], type_arguments=None), label=None)], documentation=None, modifiers={'public'}, name=failed, parameters=[FormalParameter(annotations=[], modifiers={'final'}, name=ex, type=ReferenceType(arguments=None, dimensions=[], name=Exception, sub_type=None), varargs=False)], return_type=None, throws=None, type_parameters=None)], constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=File, sub_type=None))], dimensions=None, name=FutureCallback, sub_type=None))], member=execute, postfix_operators=[], prefix_operators=[], qualifier=asyncHttpClient, selectors=[], type_arguments=None)), label=None)], catches=[CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Failed to fetch object with id: ")], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MethodInvocation(arguments=[MemberReference(member=id, postfix_operators=[], prefix_operators=[], qualifier=m, selectors=[])], member=append, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[], member=toString, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type=ReferenceType(arguments=None, dimensions=None, name=StringBuilder, sub_type=None)), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=error, postfix_operators=[], prefix_operators=[], qualifier=LOGGER, selectors=[], type_arguments=None), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['Exception']))], finally_block=None, label=None, resources=None), ReturnStatement(expression=MemberReference(member=m, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), label=None)], parameters=[MemberReference(member=m, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])])], member=map, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[LambdaExpression(body=[TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[], member=get, postfix_operators=[], prefix_operators=[], qualifier=m.future, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=ignore, types=['Exception']))], finally_block=None, label=None, resources=None)], parameters=[MemberReference(member=m, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])])], member=forEach, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), label=None)], catches=None, finally_block=None, label=None, resources=[TryResource(annotations=[], modifiers={'final'}, name=asyncHttpClient, type=ReferenceType(arguments=None, dimensions=[], name=CloseableHttpAsyncClient, sub_type=None), value=MethodInvocation(arguments=[], member=createFiberCloseableHttpAsyncClient, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None))])
return[member[.toBeCompleted]]
end[}]
END[}] | Keyword[public] identifier[FecthFuture] identifier[fetchToDir] operator[SEP] Keyword[final] identifier[URL] identifier[baseUrl] , Keyword[final] annotation[@] identifier[Nullable] identifier[String] identifier[queryParam] , Keyword[final] identifier[List] operator[<] identifier[String] operator[>] identifier[ids] , Keyword[final] annotation[@] identifier[Nullable] identifier[String] identifier[prefix] , Keyword[final] annotation[@] identifier[Nullable] identifier[String] identifier[suffix] , Keyword[final] identifier[File] identifier[outdir] operator[SEP] Keyword[throws] identifier[IOException] {
identifier[requireNonNull] operator[SEP] identifier[baseUrl] , literal[String] operator[SEP] operator[SEP] Keyword[final] identifier[FecthFuture] identifier[toBeCompleted] operator[=] Keyword[new] identifier[FecthFuture] operator[SEP] identifier[requireNonNull] operator[SEP] identifier[ids] , literal[String] operator[SEP] operator[SEP] identifier[stream] operator[SEP] operator[SEP] operator[SEP] identifier[map] operator[SEP] identifier[StringUtils] operator[::] identifier[trimToNull] operator[SEP] operator[SEP] identifier[filter] operator[SEP] identifier[Objects] operator[::] identifier[nonNull] operator[SEP] operator[SEP] identifier[distinct] operator[SEP] operator[SEP] operator[SEP] identifier[collect] operator[SEP] identifier[Collectors] operator[SEP] identifier[toList] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[requireNonNull] operator[SEP] identifier[outdir] , literal[String] operator[SEP] operator[SEP] identifier[checkArgument] operator[SEP] operator[SEP] identifier[outdir] operator[SEP] identifier[isDirectory] operator[SEP] operator[SEP] operator[&&] identifier[outdir] operator[SEP] identifier[canWrite] operator[SEP] operator[SEP] operator[SEP] operator[||] identifier[outdir] operator[SEP] identifier[mkdirs] operator[SEP] operator[SEP] , Keyword[new] identifier[StringBuilder] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[append] operator[SEP] identifier[outdir] operator[SEP] identifier[getAbsolutePath] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[final] identifier[Optional] operator[<] identifier[String] operator[>] identifier[queryParam2] operator[=] identifier[ofNullable] operator[SEP] identifier[trimToNull] operator[SEP] identifier[queryParam] operator[SEP] operator[SEP] operator[SEP] Keyword[final] identifier[String] identifier[prefix2] operator[=] identifier[ofNullable] operator[SEP] identifier[prefix] operator[SEP] operator[SEP] identifier[orElse] operator[SEP] literal[String] operator[SEP] operator[SEP] Keyword[final] identifier[String] identifier[suffix2] operator[=] identifier[ofNullable] operator[SEP] identifier[suffix] operator[SEP] operator[SEP] identifier[orElse] operator[SEP] literal[String] operator[SEP] operator[SEP] Keyword[try] operator[SEP] Keyword[final] identifier[CloseableHttpAsyncClient] identifier[asyncHttpClient] operator[=] identifier[createFiberCloseableHttpAsyncClient] operator[SEP] operator[SEP] operator[SEP] {
identifier[asyncHttpClient] operator[SEP] identifier[start] operator[SEP] operator[SEP] operator[SEP] Keyword[final] identifier[UrlBuilder] identifier[urlBuilder] operator[=] identifier[getUrlBuilder] operator[SEP] identifier[baseUrl] operator[SEP] operator[SEP] identifier[toBeCompleted] operator[SEP] identifier[monList] operator[SEP] identifier[parallelStream] operator[SEP] operator[SEP] operator[SEP] identifier[map] operator[SEP] identifier[m] operator[->] {
Keyword[try] {
Keyword[final] identifier[File] identifier[outfile] operator[=] Keyword[new] identifier[File] operator[SEP] identifier[outdir] , Keyword[new] identifier[StringBuilder] operator[SEP] identifier[prefix2] operator[SEP] operator[SEP] identifier[append] operator[SEP] identifier[m] operator[SEP] identifier[id] operator[SEP] operator[SEP] identifier[append] operator[SEP] identifier[suffix2] operator[SEP] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[checkState] operator[SEP] identifier[outfile] operator[SEP] identifier[createNewFile] operator[SEP] operator[SEP] , Keyword[new] identifier[StringBuilder] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[append] operator[SEP] identifier[outfile] operator[SEP] identifier[getAbsolutePath] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[final] identifier[HttpHost] identifier[target] operator[=] identifier[URIUtils] operator[SEP] identifier[extractHost] operator[SEP] identifier[baseUrl] operator[SEP] identifier[toURI] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[final] identifier[HttpRequest] identifier[request] operator[=] Keyword[new] identifier[BasicHttpRequest] operator[SEP] literal[String] , identifier[urlBuilder] operator[SEP] identifier[buildRelativeUrl] operator[SEP] identifier[queryParam2] operator[SEP] identifier[isPresent] operator[SEP] operator[SEP] operator[?] Other[null] operator[:] identifier[m] operator[SEP] identifier[id] , identifier[queryParam2] operator[SEP] identifier[isPresent] operator[SEP] operator[SEP] operator[?] identifier[of] operator[SEP] identifier[queryParam2] operator[SEP] identifier[get] operator[SEP] operator[SEP] , identifier[m] operator[SEP] identifier[id] operator[SEP] operator[:] Other[null] operator[SEP] operator[SEP] operator[SEP] Keyword[final] identifier[HttpAsyncRequestProducer] identifier[producer] operator[=] Keyword[new] identifier[BasicAsyncRequestProducer] operator[SEP] identifier[target] , identifier[request] operator[SEP] operator[SEP] Keyword[final] identifier[ZeroCopyConsumer] operator[<] identifier[File] operator[>] identifier[consumer] operator[=] Keyword[new] identifier[ZeroCopyConsumer] operator[<] identifier[File] operator[>] operator[SEP] identifier[outfile] operator[SEP] {
annotation[@] identifier[Override] Keyword[protected] identifier[File] identifier[process] operator[SEP] Keyword[final] identifier[HttpResponse] identifier[response] , Keyword[final] identifier[File] identifier[file] , Keyword[final] identifier[ContentType] identifier[contentType] operator[SEP] Keyword[throws] identifier[Exception] {
Keyword[final] identifier[StatusLine] identifier[status] operator[=] identifier[response] operator[SEP] identifier[getStatusLine] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[LOGGER] operator[SEP] identifier[isDebugEnabled] operator[SEP] operator[SEP] operator[SEP] identifier[LOGGER] operator[SEP] identifier[debug] operator[SEP] Keyword[new] identifier[StringBuilder] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[append] operator[SEP] identifier[status] operator[SEP] identifier[getStatusCode] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[append] operator[SEP] identifier[file] operator[SEP] identifier[getAbsolutePath] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[status] operator[SEP] identifier[getStatusCode] operator[SEP] operator[SEP] operator[!=] identifier[HttpStatus] operator[SEP] identifier[SC_OK] operator[SEP] Keyword[throw] Keyword[new] identifier[ClientProtocolException] operator[SEP] Keyword[new] identifier[StringBuilder] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[append] operator[SEP] identifier[status] operator[SEP] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[file] operator[SEP]
}
} operator[SEP] identifier[m] operator[SEP] identifier[future] operator[=] identifier[asyncHttpClient] operator[SEP] identifier[execute] operator[SEP] identifier[producer] , identifier[consumer] , Keyword[new] identifier[FutureCallback] operator[<] identifier[File] operator[>] operator[SEP] operator[SEP] {
annotation[@] identifier[Override] Keyword[public] Keyword[void] identifier[cancelled] operator[SEP] operator[SEP] {
identifier[toBeCompleted] operator[SEP] identifier[update] operator[SEP] identifier[m] operator[SEP] identifier[id] , identifier[FetchStatus] operator[SEP] identifier[CANCELLED] operator[SEP] operator[SEP] identifier[LOGGER] operator[SEP] identifier[info] operator[SEP] literal[String] operator[SEP] operator[SEP]
} annotation[@] identifier[Override] Keyword[public] Keyword[void] identifier[completed] operator[SEP] Keyword[final] identifier[File] identifier[result] operator[SEP] {
Keyword[try] {
Keyword[final] identifier[Path] identifier[path] operator[=] identifier[result] operator[SEP] identifier[toPath] operator[SEP] operator[SEP] operator[SEP] identifier[Files] operator[SEP] identifier[move] operator[SEP] identifier[path] , identifier[path] operator[SEP] identifier[resolveSibling] operator[SEP] identifier[removeEnd] operator[SEP] identifier[result] operator[SEP] identifier[getName] operator[SEP] operator[SEP] , literal[String] operator[SEP] operator[SEP] , identifier[REPLACE_EXISTING] operator[SEP] operator[SEP] identifier[toBeCompleted] operator[SEP] identifier[update] operator[SEP] identifier[m] operator[SEP] identifier[id] , identifier[FetchStatus] operator[SEP] identifier[COMPLETED] operator[SEP] operator[SEP]
}
Keyword[catch] operator[SEP] identifier[IOException] identifier[ex] operator[SEP] {
identifier[toBeCompleted] operator[SEP] identifier[update] operator[SEP] identifier[m] operator[SEP] identifier[id] , identifier[FetchStatus] operator[SEP] identifier[FAILED] operator[SEP] operator[SEP] identifier[LOGGER] operator[SEP] identifier[error] operator[SEP] literal[String] , identifier[ex] operator[SEP] operator[SEP]
}
} annotation[@] identifier[Override] Keyword[public] Keyword[void] identifier[failed] operator[SEP] Keyword[final] identifier[Exception] identifier[ex] operator[SEP] {
identifier[toBeCompleted] operator[SEP] identifier[update] operator[SEP] identifier[m] operator[SEP] identifier[id] , identifier[FetchStatus] operator[SEP] identifier[FAILED] operator[SEP] operator[SEP] identifier[LOGGER] operator[SEP] identifier[error] operator[SEP] literal[String] , identifier[ex] operator[SEP] operator[SEP]
}
} operator[SEP] operator[SEP]
}
Keyword[catch] operator[SEP] identifier[Exception] identifier[e] operator[SEP] {
identifier[LOGGER] operator[SEP] identifier[error] operator[SEP] Keyword[new] identifier[StringBuilder] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[append] operator[SEP] identifier[m] operator[SEP] identifier[id] operator[SEP] operator[SEP] identifier[toString] operator[SEP] operator[SEP] , identifier[e] operator[SEP] operator[SEP]
}
Keyword[return] identifier[m] operator[SEP]
} operator[SEP] operator[SEP] identifier[forEach] operator[SEP] identifier[m] operator[->] {
Keyword[try] {
identifier[m] operator[SEP] identifier[future] operator[SEP] identifier[get] operator[SEP] operator[SEP] operator[SEP]
}
Keyword[catch] operator[SEP] identifier[Exception] identifier[ignore] operator[SEP] {
}
} operator[SEP] operator[SEP]
}
Keyword[return] identifier[toBeCompleted] operator[SEP]
}
|
protected double computeWeighted( double tl_x, double tl_y,
double samplePeriod ,
SparseImageGradient<T,G> g )
{
// add 0.5 to c_x and c_y to have it round
tl_x += 0.5;
tl_y += 0.5;
double Dx=0,Dy=0;
int i = 0;
for(int y = 0; y < sampleWidth; y++ ) {
int pixelsY = (int)(tl_y + y * samplePeriod);
for(int x = 0; x < sampleWidth; x++ , i++ ) {
int pixelsX = (int)(tl_x + x * samplePeriod);
double w = weights.data[i];
GradientValue v = g.compute(pixelsX,pixelsY);
Dx += w*v.getX();
Dy += w*v.getY();
}
}
return Math.atan2(Dy,Dx);
} | class class_name[name] begin[{]
method[computeWeighted, return_type[type[double]], modifier[protected], parameter[tl_x, tl_y, samplePeriod, g]] begin[{]
assign[member[.tl_x], literal[0.5]]
assign[member[.tl_y], literal[0.5]]
local_variable[type[double], Dx]
local_variable[type[int], i]
ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Cast(expression=BinaryOperation(operandl=MemberReference(member=tl_y, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=BinaryOperation(operandl=MemberReference(member=y, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=samplePeriod, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=*), operator=+), type=BasicType(dimensions=[], name=int)), name=pixelsY)], modifiers=set(), type=BasicType(dimensions=[], name=int)), ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=Cast(expression=BinaryOperation(operandl=MemberReference(member=tl_x, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=BinaryOperation(operandl=MemberReference(member=x, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=samplePeriod, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=*), operator=+), type=BasicType(dimensions=[], name=int)), name=pixelsX)], modifiers=set(), type=BasicType(dimensions=[], name=int)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=data, postfix_operators=[], prefix_operators=[], qualifier=weights, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), name=w)], modifiers=set(), type=BasicType(dimensions=[], name=double)), LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MethodInvocation(arguments=[MemberReference(member=pixelsX, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=pixelsY, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=compute, postfix_operators=[], prefix_operators=[], qualifier=g, selectors=[], type_arguments=None), name=v)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=GradientValue, sub_type=None)), StatementExpression(expression=Assignment(expressionl=MemberReference(member=Dx, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=+=, value=BinaryOperation(operandl=MemberReference(member=w, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MethodInvocation(arguments=[], member=getX, postfix_operators=[], prefix_operators=[], qualifier=v, selectors=[], type_arguments=None), operator=*)), label=None), StatementExpression(expression=Assignment(expressionl=MemberReference(member=Dy, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type=+=, value=BinaryOperation(operandl=MemberReference(member=w, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MethodInvocation(arguments=[], member=getY, postfix_operators=[], prefix_operators=[], qualifier=v, selectors=[], type_arguments=None), operator=*)), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=x, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=sampleWidth, 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=x)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=x, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=i, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None)]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=y, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=sampleWidth, 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=y)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=y, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None)
return[call[Math.atan2, parameter[member[.Dy], member[.Dx]]]]
end[}]
END[}] | Keyword[protected] Keyword[double] identifier[computeWeighted] operator[SEP] Keyword[double] identifier[tl_x] , Keyword[double] identifier[tl_y] , Keyword[double] identifier[samplePeriod] , identifier[SparseImageGradient] operator[<] identifier[T] , identifier[G] operator[>] identifier[g] operator[SEP] {
identifier[tl_x] operator[+=] literal[Float] operator[SEP] identifier[tl_y] operator[+=] literal[Float] operator[SEP] Keyword[double] identifier[Dx] operator[=] Other[0] , identifier[Dy] operator[=] Other[0] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[y] operator[=] Other[0] operator[SEP] identifier[y] operator[<] identifier[sampleWidth] operator[SEP] identifier[y] operator[++] operator[SEP] {
Keyword[int] identifier[pixelsY] operator[=] operator[SEP] Keyword[int] operator[SEP] operator[SEP] identifier[tl_y] operator[+] identifier[y] operator[*] identifier[samplePeriod] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[x] operator[=] Other[0] operator[SEP] identifier[x] operator[<] identifier[sampleWidth] operator[SEP] identifier[x] operator[++] , identifier[i] operator[++] operator[SEP] {
Keyword[int] identifier[pixelsX] operator[=] operator[SEP] Keyword[int] operator[SEP] operator[SEP] identifier[tl_x] operator[+] identifier[x] operator[*] identifier[samplePeriod] operator[SEP] operator[SEP] Keyword[double] identifier[w] operator[=] identifier[weights] operator[SEP] identifier[data] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[GradientValue] identifier[v] operator[=] identifier[g] operator[SEP] identifier[compute] operator[SEP] identifier[pixelsX] , identifier[pixelsY] operator[SEP] operator[SEP] identifier[Dx] operator[+=] identifier[w] operator[*] identifier[v] operator[SEP] identifier[getX] operator[SEP] operator[SEP] operator[SEP] identifier[Dy] operator[+=] identifier[w] operator[*] identifier[v] operator[SEP] identifier[getY] operator[SEP] operator[SEP] operator[SEP]
}
}
Keyword[return] identifier[Math] operator[SEP] identifier[atan2] operator[SEP] identifier[Dy] , identifier[Dx] operator[SEP] operator[SEP]
}
|
public static Strand detectStrand(List<Location> subLocations) {
Strand strand = subLocations.get(0).getStrand();
for (Location sub : subLocations) {
if (strand != sub.getStrand()) {
strand = Strand.UNDEFINED;
break;
}
}
return strand;
} | class class_name[name] begin[{]
method[detectStrand, return_type[type[Strand]], modifier[public static], parameter[subLocations]] begin[{]
local_variable[type[Strand], strand]
ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=BinaryOperation(operandl=MemberReference(member=strand, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MethodInvocation(arguments=[], member=getStrand, postfix_operators=[], prefix_operators=[], qualifier=sub, selectors=[], type_arguments=None), operator=!=), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[StatementExpression(expression=Assignment(expressionl=MemberReference(member=strand, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), type==, value=MemberReference(member=UNDEFINED, postfix_operators=[], prefix_operators=[], qualifier=Strand, selectors=[])), label=None), BreakStatement(goto=None, label=None)]))]), control=EnhancedForControl(iterable=MemberReference(member=subLocations, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=sub)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=Location, sub_type=None))), label=None)
return[member[.strand]]
end[}]
END[}] | Keyword[public] Keyword[static] identifier[Strand] identifier[detectStrand] operator[SEP] identifier[List] operator[<] identifier[Location] operator[>] identifier[subLocations] operator[SEP] {
identifier[Strand] identifier[strand] operator[=] identifier[subLocations] operator[SEP] identifier[get] operator[SEP] Other[0] operator[SEP] operator[SEP] identifier[getStrand] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] identifier[Location] identifier[sub] operator[:] identifier[subLocations] operator[SEP] {
Keyword[if] operator[SEP] identifier[strand] operator[!=] identifier[sub] operator[SEP] identifier[getStrand] operator[SEP] operator[SEP] operator[SEP] {
identifier[strand] operator[=] identifier[Strand] operator[SEP] identifier[UNDEFINED] operator[SEP] Keyword[break] operator[SEP]
}
}
Keyword[return] identifier[strand] operator[SEP]
}
|
public static <T extends GraphNode<T>> String printTree(T node, Formatter<T> formatter) {
checkArgNotNull(formatter, "formatter");
return printTree(node, formatter, Predicates.<T>alwaysTrue(), Predicates.<T>alwaysTrue());
} | class class_name[name] begin[{]
method[printTree, return_type[type[String]], modifier[public static], parameter[node, formatter]] begin[{]
call[.checkArgNotNull, parameter[member[.formatter], literal["formatter"]]]
return[call[.printTree, parameter[member[.node], member[.formatter], call[.Predicates, parameter[]], call[.Predicates, parameter[]]]]]
end[}]
END[}] | Keyword[public] Keyword[static] operator[<] identifier[T] Keyword[extends] identifier[GraphNode] operator[<] identifier[T] operator[>] operator[>] identifier[String] identifier[printTree] operator[SEP] identifier[T] identifier[node] , identifier[Formatter] operator[<] identifier[T] operator[>] identifier[formatter] operator[SEP] {
identifier[checkArgNotNull] operator[SEP] identifier[formatter] , literal[String] operator[SEP] operator[SEP] Keyword[return] identifier[printTree] operator[SEP] identifier[node] , identifier[formatter] , identifier[Predicates] operator[SEP] operator[<] identifier[T] operator[>] identifier[alwaysTrue] operator[SEP] operator[SEP] , identifier[Predicates] operator[SEP] operator[<] identifier[T] operator[>] identifier[alwaysTrue] operator[SEP] operator[SEP] operator[SEP] operator[SEP]
}
|
protected MongoClient buildMongoClient() {
String connectionString = getConnectionString();
if (StringUtils.isBlank(connectionString)) {
throw new IllegalStateException("MongoDB ConnectionString is not defined.");
}
MongoClient mc = MongoClients.create(connectionString);
return mc;
} | class class_name[name] begin[{]
method[buildMongoClient, return_type[type[MongoClient]], modifier[protected], parameter[]] begin[{]
local_variable[type[String], connectionString]
if[call[StringUtils.isBlank, parameter[member[.connectionString]]]] begin[{]
ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="MongoDB ConnectionString is not defined.")], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=IllegalStateException, sub_type=None)), label=None)
else begin[{]
None
end[}]
local_variable[type[MongoClient], mc]
return[member[.mc]]
end[}]
END[}] | Keyword[protected] identifier[MongoClient] identifier[buildMongoClient] operator[SEP] operator[SEP] {
identifier[String] identifier[connectionString] operator[=] identifier[getConnectionString] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[StringUtils] operator[SEP] identifier[isBlank] operator[SEP] identifier[connectionString] operator[SEP] operator[SEP] {
Keyword[throw] Keyword[new] identifier[IllegalStateException] operator[SEP] literal[String] operator[SEP] operator[SEP]
}
identifier[MongoClient] identifier[mc] operator[=] identifier[MongoClients] operator[SEP] identifier[create] operator[SEP] identifier[connectionString] operator[SEP] operator[SEP] Keyword[return] identifier[mc] operator[SEP]
}
|
@Override
protected void releaseResources() {
super.releaseResources();
PropertySpec.current.remove();
PropertySpec.currentSpec.remove();
if (this.state != State.DESTROYED) {
ParamValueLoaderService.clearParamTree();
sessionManager = null;
this.allParams = null;
this.extraParams = null;
this.requestParamCache = null;
this.router = null;
this.handler = null;
// xio impl might need this this.request = null;
// xio impl might need this this.response = null;
this.flash = null;
this.session = null;
this.controllerInstances = null;
this.result = null;
this.uploads.clear();
ActionContext.clearLocal();
}
this.state = State.DESTROYED;
} | class class_name[name] begin[{]
method[releaseResources, return_type[void], modifier[protected], parameter[]] begin[{]
SuperMethodInvocation(arguments=[], member=releaseResources, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type_arguments=None)
call[PropertySpec.current.remove, parameter[]]
call[PropertySpec.currentSpec.remove, parameter[]]
if[binary_operation[THIS[member[None.state]], !=, member[State.DESTROYED]]] begin[{]
call[ParamValueLoaderService.clearParamTree, parameter[]]
assign[member[.sessionManager], literal[null]]
assign[THIS[member[None.allParams]], literal[null]]
assign[THIS[member[None.extraParams]], literal[null]]
assign[THIS[member[None.requestParamCache]], literal[null]]
assign[THIS[member[None.router]], literal[null]]
assign[THIS[member[None.handler]], literal[null]]
assign[THIS[member[None.flash]], literal[null]]
assign[THIS[member[None.session]], literal[null]]
assign[THIS[member[None.controllerInstances]], literal[null]]
assign[THIS[member[None.result]], literal[null]]
THIS[member[None.uploads]call[None.clear, parameter[]]]
call[ActionContext.clearLocal, parameter[]]
else begin[{]
None
end[}]
assign[THIS[member[None.state]], member[State.DESTROYED]]
end[}]
END[}] | annotation[@] identifier[Override] Keyword[protected] Keyword[void] identifier[releaseResources] operator[SEP] operator[SEP] {
Keyword[super] operator[SEP] identifier[releaseResources] operator[SEP] operator[SEP] operator[SEP] identifier[PropertySpec] operator[SEP] identifier[current] operator[SEP] identifier[remove] operator[SEP] operator[SEP] operator[SEP] identifier[PropertySpec] operator[SEP] identifier[currentSpec] operator[SEP] identifier[remove] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] Keyword[this] operator[SEP] identifier[state] operator[!=] identifier[State] operator[SEP] identifier[DESTROYED] operator[SEP] {
identifier[ParamValueLoaderService] operator[SEP] identifier[clearParamTree] operator[SEP] operator[SEP] operator[SEP] identifier[sessionManager] operator[=] Other[null] operator[SEP] Keyword[this] operator[SEP] identifier[allParams] operator[=] Other[null] operator[SEP] Keyword[this] operator[SEP] identifier[extraParams] operator[=] Other[null] operator[SEP] Keyword[this] operator[SEP] identifier[requestParamCache] operator[=] Other[null] operator[SEP] Keyword[this] operator[SEP] identifier[router] operator[=] Other[null] operator[SEP] Keyword[this] operator[SEP] identifier[handler] operator[=] Other[null] operator[SEP] Keyword[this] operator[SEP] identifier[flash] operator[=] Other[null] operator[SEP] Keyword[this] operator[SEP] identifier[session] operator[=] Other[null] operator[SEP] Keyword[this] operator[SEP] identifier[controllerInstances] operator[=] Other[null] operator[SEP] Keyword[this] operator[SEP] identifier[result] operator[=] Other[null] operator[SEP] Keyword[this] operator[SEP] identifier[uploads] operator[SEP] identifier[clear] operator[SEP] operator[SEP] operator[SEP] identifier[ActionContext] operator[SEP] identifier[clearLocal] operator[SEP] operator[SEP] operator[SEP]
}
Keyword[this] operator[SEP] identifier[state] operator[=] identifier[State] operator[SEP] identifier[DESTROYED] operator[SEP]
}
|
public static ObjectName makeObjectName(JmxResource jmxResource, JmxSelfNaming selfNamingObj) {
String domainName = selfNamingObj.getJmxDomainName();
if (domainName == null) {
if (jmxResource != null) {
domainName = jmxResource.domainName();
}
if (isEmpty(domainName)) {
throw new IllegalArgumentException(
"Could not create ObjectName because domain name not specified in getJmxDomainName() nor @JmxResource");
}
}
String beanName = selfNamingObj.getJmxBeanName();
if (beanName == null) {
if (jmxResource != null) {
beanName = getBeanName(jmxResource);
}
if (isEmpty(beanName)) {
beanName = selfNamingObj.getClass().getSimpleName();
}
}
String[] jmxResourceFolders = null;
if (jmxResource != null) {
jmxResourceFolders = jmxResource.folderNames();
}
return makeObjectName(domainName, beanName, selfNamingObj.getJmxFolderNames(), jmxResourceFolders);
} | class class_name[name] begin[{]
method[makeObjectName, return_type[type[ObjectName]], modifier[public static], parameter[jmxResource, selfNamingObj]] begin[{]
local_variable[type[String], domainName]
if[binary_operation[member[.domainName], ==, literal[null]]] begin[{]
if[binary_operation[member[.jmxResource], !=, literal[null]]] begin[{]
assign[member[.domainName], call[jmxResource.domainName, parameter[]]]
else begin[{]
None
end[}]
if[call[.isEmpty, parameter[member[.domainName]]]] begin[{]
ThrowStatement(expression=ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Could not create ObjectName because domain name not specified in getJmxDomainName() nor @JmxResource")], 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[}]
else begin[{]
None
end[}]
local_variable[type[String], beanName]
if[binary_operation[member[.beanName], ==, literal[null]]] begin[{]
if[binary_operation[member[.jmxResource], !=, literal[null]]] begin[{]
assign[member[.beanName], call[.getBeanName, parameter[member[.jmxResource]]]]
else begin[{]
None
end[}]
if[call[.isEmpty, parameter[member[.beanName]]]] begin[{]
assign[member[.beanName], call[selfNamingObj.getClass, parameter[]]]
else begin[{]
None
end[}]
else begin[{]
None
end[}]
local_variable[type[String], jmxResourceFolders]
if[binary_operation[member[.jmxResource], !=, literal[null]]] begin[{]
assign[member[.jmxResourceFolders], call[jmxResource.folderNames, parameter[]]]
else begin[{]
None
end[}]
return[call[.makeObjectName, parameter[member[.domainName], member[.beanName], call[selfNamingObj.getJmxFolderNames, parameter[]], member[.jmxResourceFolders]]]]
end[}]
END[}] | Keyword[public] Keyword[static] identifier[ObjectName] identifier[makeObjectName] operator[SEP] identifier[JmxResource] identifier[jmxResource] , identifier[JmxSelfNaming] identifier[selfNamingObj] operator[SEP] {
identifier[String] identifier[domainName] operator[=] identifier[selfNamingObj] operator[SEP] identifier[getJmxDomainName] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[domainName] operator[==] Other[null] operator[SEP] {
Keyword[if] operator[SEP] identifier[jmxResource] operator[!=] Other[null] operator[SEP] {
identifier[domainName] operator[=] identifier[jmxResource] operator[SEP] identifier[domainName] operator[SEP] operator[SEP] operator[SEP]
}
Keyword[if] operator[SEP] identifier[isEmpty] operator[SEP] identifier[domainName] operator[SEP] operator[SEP] {
Keyword[throw] Keyword[new] identifier[IllegalArgumentException] operator[SEP] literal[String] operator[SEP] operator[SEP]
}
}
identifier[String] identifier[beanName] operator[=] identifier[selfNamingObj] operator[SEP] identifier[getJmxBeanName] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[beanName] operator[==] Other[null] operator[SEP] {
Keyword[if] operator[SEP] identifier[jmxResource] operator[!=] Other[null] operator[SEP] {
identifier[beanName] operator[=] identifier[getBeanName] operator[SEP] identifier[jmxResource] operator[SEP] operator[SEP]
}
Keyword[if] operator[SEP] identifier[isEmpty] operator[SEP] identifier[beanName] operator[SEP] operator[SEP] {
identifier[beanName] operator[=] identifier[selfNamingObj] operator[SEP] identifier[getClass] operator[SEP] operator[SEP] operator[SEP] identifier[getSimpleName] operator[SEP] operator[SEP] operator[SEP]
}
}
identifier[String] operator[SEP] operator[SEP] identifier[jmxResourceFolders] operator[=] Other[null] operator[SEP] Keyword[if] operator[SEP] identifier[jmxResource] operator[!=] Other[null] operator[SEP] {
identifier[jmxResourceFolders] operator[=] identifier[jmxResource] operator[SEP] identifier[folderNames] operator[SEP] operator[SEP] operator[SEP]
}
Keyword[return] identifier[makeObjectName] operator[SEP] identifier[domainName] , identifier[beanName] , identifier[selfNamingObj] operator[SEP] identifier[getJmxFolderNames] operator[SEP] operator[SEP] , identifier[jmxResourceFolders] operator[SEP] operator[SEP]
}
|
public static InterleavedU8 nv21ToInterleaved( byte[] data , int width , int height ,
InterleavedU8 output ) {
if( output == null ) {
output = new InterleavedU8(width,height,3);
} else {
output.reshape(width, height, 3);
}
if(BoofConcurrency.USE_CONCURRENT ) {
ImplConvertNV21_MT.nv21ToInterleaved_U8(data, output);
} else {
ImplConvertNV21.nv21ToInterleaved_U8(data, output);
}
return output;
} | class class_name[name] begin[{]
method[nv21ToInterleaved, return_type[type[InterleavedU8]], modifier[public static], parameter[data, width, height, output]] begin[{]
if[binary_operation[member[.output], ==, literal[null]]] begin[{]
assign[member[.output], ClassCreator(arguments=[MemberReference(member=width, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=height, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=3)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=InterleavedU8, sub_type=None))]
else begin[{]
call[output.reshape, parameter[member[.width], member[.height], literal[3]]]
end[}]
if[member[BoofConcurrency.USE_CONCURRENT]] begin[{]
call[ImplConvertNV21_MT.nv21ToInterleaved_U8, parameter[member[.data], member[.output]]]
else begin[{]
call[ImplConvertNV21.nv21ToInterleaved_U8, parameter[member[.data], member[.output]]]
end[}]
return[member[.output]]
end[}]
END[}] | Keyword[public] Keyword[static] identifier[InterleavedU8] identifier[nv21ToInterleaved] operator[SEP] Keyword[byte] operator[SEP] operator[SEP] identifier[data] , Keyword[int] identifier[width] , Keyword[int] identifier[height] , identifier[InterleavedU8] identifier[output] operator[SEP] {
Keyword[if] operator[SEP] identifier[output] operator[==] Other[null] operator[SEP] {
identifier[output] operator[=] Keyword[new] identifier[InterleavedU8] operator[SEP] identifier[width] , identifier[height] , Other[3] operator[SEP] operator[SEP]
}
Keyword[else] {
identifier[output] operator[SEP] identifier[reshape] operator[SEP] identifier[width] , identifier[height] , Other[3] operator[SEP] operator[SEP]
}
Keyword[if] operator[SEP] identifier[BoofConcurrency] operator[SEP] identifier[USE_CONCURRENT] operator[SEP] {
identifier[ImplConvertNV21_MT] operator[SEP] identifier[nv21ToInterleaved_U8] operator[SEP] identifier[data] , identifier[output] operator[SEP] operator[SEP]
}
Keyword[else] {
identifier[ImplConvertNV21] operator[SEP] identifier[nv21ToInterleaved_U8] operator[SEP] identifier[data] , identifier[output] operator[SEP] operator[SEP]
}
Keyword[return] identifier[output] operator[SEP]
}
|
private List<SecurityConstraint> createSecurityConstraints(SecurityMetadata securityMetadataFromDD, ServletSecurityElement servletSecurity, Collection<String> urlPatterns) {
List<SecurityConstraint> securityConstraints = new ArrayList<SecurityConstraint>();
securityConstraints.add(getConstraintFromHttpElement(securityMetadataFromDD, urlPatterns, servletSecurity));
securityConstraints.addAll(getConstraintsFromHttpMethodElement(securityMetadataFromDD, urlPatterns, servletSecurity));
return securityConstraints;
} | class class_name[name] begin[{]
method[createSecurityConstraints, return_type[type[List]], modifier[private], parameter[securityMetadataFromDD, servletSecurity, urlPatterns]] begin[{]
local_variable[type[List], securityConstraints]
call[securityConstraints.add, parameter[call[.getConstraintFromHttpElement, parameter[member[.securityMetadataFromDD], member[.urlPatterns], member[.servletSecurity]]]]]
call[securityConstraints.addAll, parameter[call[.getConstraintsFromHttpMethodElement, parameter[member[.securityMetadataFromDD], member[.urlPatterns], member[.servletSecurity]]]]]
return[member[.securityConstraints]]
end[}]
END[}] | Keyword[private] identifier[List] operator[<] identifier[SecurityConstraint] operator[>] identifier[createSecurityConstraints] operator[SEP] identifier[SecurityMetadata] identifier[securityMetadataFromDD] , identifier[ServletSecurityElement] identifier[servletSecurity] , identifier[Collection] operator[<] identifier[String] operator[>] identifier[urlPatterns] operator[SEP] {
identifier[List] operator[<] identifier[SecurityConstraint] operator[>] identifier[securityConstraints] operator[=] Keyword[new] identifier[ArrayList] operator[<] identifier[SecurityConstraint] operator[>] operator[SEP] operator[SEP] operator[SEP] identifier[securityConstraints] operator[SEP] identifier[add] operator[SEP] identifier[getConstraintFromHttpElement] operator[SEP] identifier[securityMetadataFromDD] , identifier[urlPatterns] , identifier[servletSecurity] operator[SEP] operator[SEP] operator[SEP] identifier[securityConstraints] operator[SEP] identifier[addAll] operator[SEP] identifier[getConstraintsFromHttpMethodElement] operator[SEP] identifier[securityMetadataFromDD] , identifier[urlPatterns] , identifier[servletSecurity] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[securityConstraints] operator[SEP]
}
|
public static boolean updatePomProperty(Properties properties, String name, Object value, boolean updated) {
if (value != null) {
Object oldValue = properties.get(name);
if (!Objects.equal(oldValue, value)) {
getLOG().debug("Updating pom.xml property: " + name + " to " + value);
properties.put(name, value);
return true;
}
}
return updated;
} | class class_name[name] begin[{]
method[updatePomProperty, return_type[type[boolean]], modifier[public static], parameter[properties, name, value, updated]] begin[{]
if[binary_operation[member[.value], !=, literal[null]]] begin[{]
local_variable[type[Object], oldValue]
if[call[Objects.equal, parameter[member[.oldValue], member[.value]]]] begin[{]
call[.getLOG, parameter[]]
call[properties.put, parameter[member[.name], member[.value]]]
return[literal[true]]
else begin[{]
None
end[}]
else begin[{]
None
end[}]
return[member[.updated]]
end[}]
END[}] | Keyword[public] Keyword[static] Keyword[boolean] identifier[updatePomProperty] operator[SEP] identifier[Properties] identifier[properties] , identifier[String] identifier[name] , identifier[Object] identifier[value] , Keyword[boolean] identifier[updated] operator[SEP] {
Keyword[if] operator[SEP] identifier[value] operator[!=] Other[null] operator[SEP] {
identifier[Object] identifier[oldValue] operator[=] identifier[properties] operator[SEP] identifier[get] operator[SEP] identifier[name] operator[SEP] operator[SEP] Keyword[if] operator[SEP] operator[!] identifier[Objects] operator[SEP] identifier[equal] operator[SEP] identifier[oldValue] , identifier[value] operator[SEP] operator[SEP] {
identifier[getLOG] operator[SEP] operator[SEP] operator[SEP] identifier[debug] operator[SEP] literal[String] operator[+] identifier[name] operator[+] literal[String] operator[+] identifier[value] operator[SEP] operator[SEP] identifier[properties] operator[SEP] identifier[put] operator[SEP] identifier[name] , identifier[value] operator[SEP] operator[SEP] Keyword[return] literal[boolean] operator[SEP]
}
}
Keyword[return] identifier[updated] operator[SEP]
}
|
public DeploymentValidateResultInner validate(String resourceGroupName, String deploymentName, DeploymentProperties properties) {
return validateWithServiceResponseAsync(resourceGroupName, deploymentName, properties).toBlocking().single().body();
} | class class_name[name] begin[{]
method[validate, return_type[type[DeploymentValidateResultInner]], modifier[public], parameter[resourceGroupName, deploymentName, properties]] begin[{]
return[call[.validateWithServiceResponseAsync, parameter[member[.resourceGroupName], member[.deploymentName], member[.properties]]]]
end[}]
END[}] | Keyword[public] identifier[DeploymentValidateResultInner] identifier[validate] operator[SEP] identifier[String] identifier[resourceGroupName] , identifier[String] identifier[deploymentName] , identifier[DeploymentProperties] identifier[properties] operator[SEP] {
Keyword[return] identifier[validateWithServiceResponseAsync] operator[SEP] identifier[resourceGroupName] , identifier[deploymentName] , identifier[properties] 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]
}
|
public void marshall(DataFormatConversionConfiguration dataFormatConversionConfiguration, ProtocolMarshaller protocolMarshaller) {
if (dataFormatConversionConfiguration == null) {
throw new SdkClientException("Invalid argument passed to marshall(...)");
}
try {
protocolMarshaller.marshall(dataFormatConversionConfiguration.getSchemaConfiguration(), SCHEMACONFIGURATION_BINDING);
protocolMarshaller.marshall(dataFormatConversionConfiguration.getInputFormatConfiguration(), INPUTFORMATCONFIGURATION_BINDING);
protocolMarshaller.marshall(dataFormatConversionConfiguration.getOutputFormatConfiguration(), OUTPUTFORMATCONFIGURATION_BINDING);
protocolMarshaller.marshall(dataFormatConversionConfiguration.getEnabled(), ENABLED_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[dataFormatConversionConfiguration, protocolMarshaller]] begin[{]
if[binary_operation[member[.dataFormatConversionConfiguration], ==, 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=getSchemaConfiguration, postfix_operators=[], prefix_operators=[], qualifier=dataFormatConversionConfiguration, selectors=[], type_arguments=None), MemberReference(member=SCHEMACONFIGURATION_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=getInputFormatConfiguration, postfix_operators=[], prefix_operators=[], qualifier=dataFormatConversionConfiguration, selectors=[], type_arguments=None), MemberReference(member=INPUTFORMATCONFIGURATION_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=getOutputFormatConfiguration, postfix_operators=[], prefix_operators=[], qualifier=dataFormatConversionConfiguration, selectors=[], type_arguments=None), MemberReference(member=OUTPUTFORMATCONFIGURATION_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=getEnabled, postfix_operators=[], prefix_operators=[], qualifier=dataFormatConversionConfiguration, selectors=[], type_arguments=None), MemberReference(member=ENABLED_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[DataFormatConversionConfiguration] identifier[dataFormatConversionConfiguration] , identifier[ProtocolMarshaller] identifier[protocolMarshaller] operator[SEP] {
Keyword[if] operator[SEP] identifier[dataFormatConversionConfiguration] 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[dataFormatConversionConfiguration] operator[SEP] identifier[getSchemaConfiguration] operator[SEP] operator[SEP] , identifier[SCHEMACONFIGURATION_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[dataFormatConversionConfiguration] operator[SEP] identifier[getInputFormatConfiguration] operator[SEP] operator[SEP] , identifier[INPUTFORMATCONFIGURATION_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[dataFormatConversionConfiguration] operator[SEP] identifier[getOutputFormatConfiguration] operator[SEP] operator[SEP] , identifier[OUTPUTFORMATCONFIGURATION_BINDING] operator[SEP] operator[SEP] identifier[protocolMarshaller] operator[SEP] identifier[marshall] operator[SEP] identifier[dataFormatConversionConfiguration] operator[SEP] identifier[getEnabled] operator[SEP] operator[SEP] , identifier[ENABLED_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]
}
}
|
public boolean matches(String pString, String pRegex) throws PatternSyntaxException {
return Pattern.matches(pRegex, pString);
} | class class_name[name] begin[{]
method[matches, return_type[type[boolean]], modifier[public], parameter[pString, pRegex]] begin[{]
return[call[Pattern.matches, parameter[member[.pRegex], member[.pString]]]]
end[}]
END[}] | Keyword[public] Keyword[boolean] identifier[matches] operator[SEP] identifier[String] identifier[pString] , identifier[String] identifier[pRegex] operator[SEP] Keyword[throws] identifier[PatternSyntaxException] {
Keyword[return] identifier[Pattern] operator[SEP] identifier[matches] operator[SEP] identifier[pRegex] , identifier[pString] operator[SEP] operator[SEP]
}
|
@CheckReturnValue
public AccountManager setName(String name, String currentPassword)
{
Checks.notBlank(name, "Name");
Checks.check(name.length() >= 2 && name.length() <= 32, "Name must be between 2-32 characters long");
this.currentPassword = currentPassword;
this.name = name;
set |= NAME;
return this;
} | class class_name[name] begin[{]
method[setName, return_type[type[AccountManager]], modifier[public], parameter[name, currentPassword]] begin[{]
call[Checks.notBlank, parameter[member[.name], literal["Name"]]]
call[Checks.check, parameter[binary_operation[binary_operation[call[name.length, parameter[]], >=, literal[2]], &&, binary_operation[call[name.length, parameter[]], <=, literal[32]]], literal["Name must be between 2-32 characters long"]]]
assign[THIS[member[None.currentPassword]], member[.currentPassword]]
assign[THIS[member[None.name]], member[.name]]
assign[member[.set], member[.NAME]]
return[THIS[]]
end[}]
END[}] | annotation[@] identifier[CheckReturnValue] Keyword[public] identifier[AccountManager] identifier[setName] operator[SEP] identifier[String] identifier[name] , identifier[String] identifier[currentPassword] operator[SEP] {
identifier[Checks] operator[SEP] identifier[notBlank] operator[SEP] identifier[name] , literal[String] operator[SEP] operator[SEP] identifier[Checks] operator[SEP] identifier[check] operator[SEP] identifier[name] operator[SEP] identifier[length] operator[SEP] operator[SEP] operator[>=] Other[2] operator[&&] identifier[name] operator[SEP] identifier[length] operator[SEP] operator[SEP] operator[<=] Other[32] , literal[String] operator[SEP] operator[SEP] Keyword[this] operator[SEP] identifier[currentPassword] operator[=] identifier[currentPassword] operator[SEP] Keyword[this] operator[SEP] identifier[name] operator[=] identifier[name] operator[SEP] identifier[set] operator[|=] identifier[NAME] operator[SEP] Keyword[return] Keyword[this] operator[SEP]
}
|
public static <E extends Enum<? extends Style.HasCssName>> E fromStyleName(final String styleName,
final Class<E> enumClass,
final E defaultValue) {
return EnumHelper.fromStyleName(styleName, enumClass, defaultValue, true);
} | class class_name[name] begin[{]
method[fromStyleName, return_type[type[E]], modifier[public static], parameter[styleName, enumClass, defaultValue]] begin[{]
return[call[EnumHelper.fromStyleName, parameter[member[.styleName], member[.enumClass], member[.defaultValue], literal[true]]]]
end[}]
END[}] | Keyword[public] Keyword[static] operator[<] identifier[E] Keyword[extends] identifier[Enum] operator[<] operator[?] Keyword[extends] identifier[Style] operator[SEP] identifier[HasCssName] operator[>] operator[>] identifier[E] identifier[fromStyleName] operator[SEP] Keyword[final] identifier[String] identifier[styleName] , Keyword[final] identifier[Class] operator[<] identifier[E] operator[>] identifier[enumClass] , Keyword[final] identifier[E] identifier[defaultValue] operator[SEP] {
Keyword[return] identifier[EnumHelper] operator[SEP] identifier[fromStyleName] operator[SEP] identifier[styleName] , identifier[enumClass] , identifier[defaultValue] , literal[boolean] operator[SEP] operator[SEP]
}
|
@Override
public void close() throws IOException {
for (InputStream stream : this) {
try {
stream.close();
} catch (IOException e) {
Scope.getCurrentScope().getLog(getClass()).severe("Error closing stream. Logging error and continuing", e);
}
}
} | class class_name[name] begin[{]
method[close, return_type[void], modifier[public], parameter[]] begin[{]
ForStatement(body=BlockStatement(label=None, statements=[TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[], member=close, postfix_operators=[], prefix_operators=[], qualifier=stream, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[], member=getCurrentScope, postfix_operators=[], prefix_operators=[], qualifier=Scope, selectors=[MethodInvocation(arguments=[MethodInvocation(arguments=[], member=getClass, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None)], member=getLog, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Error closing stream. Logging error and continuing"), MemberReference(member=e, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=severe, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=e, types=['IOException']))], finally_block=None, label=None, resources=None)]), control=EnhancedForControl(iterable=This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=stream)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=InputStream, sub_type=None))), label=None)
end[}]
END[}] | annotation[@] identifier[Override] Keyword[public] Keyword[void] identifier[close] operator[SEP] operator[SEP] Keyword[throws] identifier[IOException] {
Keyword[for] operator[SEP] identifier[InputStream] identifier[stream] operator[:] Keyword[this] operator[SEP] {
Keyword[try] {
identifier[stream] operator[SEP] identifier[close] operator[SEP] operator[SEP] operator[SEP]
}
Keyword[catch] operator[SEP] identifier[IOException] identifier[e] operator[SEP] {
identifier[Scope] operator[SEP] identifier[getCurrentScope] operator[SEP] operator[SEP] operator[SEP] identifier[getLog] operator[SEP] identifier[getClass] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[severe] operator[SEP] literal[String] , identifier[e] operator[SEP] operator[SEP]
}
}
}
|
public static String getPropertyDiff(Props oldProps, Props newProps) {
final StringBuilder builder = new StringBuilder("");
// oldProps can not be null during the below comparison process.
if (oldProps == null) {
oldProps = new Props();
}
if (newProps == null) {
newProps = new Props();
}
final MapDifference<String, String> md =
Maps.difference(toStringMap(oldProps, false), toStringMap(newProps, false));
final Map<String, String> newlyCreatedProperty = md.entriesOnlyOnRight();
if (newlyCreatedProperty != null && newlyCreatedProperty.size() > 0) {
builder.append("Newly created Properties: ");
newlyCreatedProperty.forEach((k, v) -> {
builder.append("[ " + k + ", " + v + "], ");
});
builder.append("\n");
}
final Map<String, String> deletedProperty = md.entriesOnlyOnLeft();
if (deletedProperty != null && deletedProperty.size() > 0) {
builder.append("Deleted Properties: ");
deletedProperty.forEach((k, v) -> {
builder.append("[ " + k + ", " + v + "], ");
});
builder.append("\n");
}
final Map<String, MapDifference.ValueDifference<String>> diffProperties = md.entriesDiffering();
if (diffProperties != null && diffProperties.size() > 0) {
builder.append("Modified Properties: ");
diffProperties.forEach((k, v) -> {
builder.append("[ " + k + ", " + v.leftValue() + "-->" + v.rightValue() + "], ");
});
}
return builder.toString();
} | class class_name[name] begin[{]
method[getPropertyDiff, return_type[type[String]], modifier[public static], parameter[oldProps, newProps]] begin[{]
local_variable[type[StringBuilder], builder]
if[binary_operation[member[.oldProps], ==, literal[null]]] begin[{]
assign[member[.oldProps], ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Props, sub_type=None))]
else begin[{]
None
end[}]
if[binary_operation[member[.newProps], ==, literal[null]]] begin[{]
assign[member[.newProps], ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Props, sub_type=None))]
else begin[{]
None
end[}]
local_variable[type[MapDifference], md]
local_variable[type[Map], newlyCreatedProperty]
if[binary_operation[binary_operation[member[.newlyCreatedProperty], !=, literal[null]], &&, binary_operation[call[newlyCreatedProperty.size, parameter[]], >, literal[0]]]] begin[{]
call[builder.append, parameter[literal["Newly created Properties: "]]]
call[newlyCreatedProperty.forEach, parameter[LambdaExpression(body=[StatementExpression(expression=MethodInvocation(arguments=[BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="[ "), operandr=MemberReference(member=k, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=", "), operator=+), operandr=MemberReference(member=v, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="], "), operator=+)], member=append, postfix_operators=[], prefix_operators=[], qualifier=builder, selectors=[], type_arguments=None), label=None)], parameters=[InferredFormalParameter(name=k), InferredFormalParameter(name=v)])]]
call[builder.append, parameter[literal["\n"]]]
else begin[{]
None
end[}]
local_variable[type[Map], deletedProperty]
if[binary_operation[binary_operation[member[.deletedProperty], !=, literal[null]], &&, binary_operation[call[deletedProperty.size, parameter[]], >, literal[0]]]] begin[{]
call[builder.append, parameter[literal["Deleted Properties: "]]]
call[deletedProperty.forEach, parameter[LambdaExpression(body=[StatementExpression(expression=MethodInvocation(arguments=[BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="[ "), operandr=MemberReference(member=k, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=", "), operator=+), operandr=MemberReference(member=v, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="], "), operator=+)], member=append, postfix_operators=[], prefix_operators=[], qualifier=builder, selectors=[], type_arguments=None), label=None)], parameters=[InferredFormalParameter(name=k), InferredFormalParameter(name=v)])]]
call[builder.append, parameter[literal["\n"]]]
else begin[{]
None
end[}]
local_variable[type[Map], diffProperties]
if[binary_operation[binary_operation[member[.diffProperties], !=, literal[null]], &&, binary_operation[call[diffProperties.size, parameter[]], >, literal[0]]]] begin[{]
call[builder.append, parameter[literal["Modified Properties: "]]]
call[diffProperties.forEach, parameter[LambdaExpression(body=[StatementExpression(expression=MethodInvocation(arguments=[BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="[ "), operandr=MemberReference(member=k, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=", "), operator=+), operandr=MethodInvocation(arguments=[], member=leftValue, postfix_operators=[], prefix_operators=[], qualifier=v, selectors=[], type_arguments=None), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="-->"), operator=+), operandr=MethodInvocation(arguments=[], member=rightValue, postfix_operators=[], prefix_operators=[], qualifier=v, selectors=[], type_arguments=None), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="], "), operator=+)], member=append, postfix_operators=[], prefix_operators=[], qualifier=builder, selectors=[], type_arguments=None), label=None)], parameters=[InferredFormalParameter(name=k), InferredFormalParameter(name=v)])]]
else begin[{]
None
end[}]
return[call[builder.toString, parameter[]]]
end[}]
END[}] | Keyword[public] Keyword[static] identifier[String] identifier[getPropertyDiff] operator[SEP] identifier[Props] identifier[oldProps] , identifier[Props] identifier[newProps] operator[SEP] {
Keyword[final] identifier[StringBuilder] identifier[builder] operator[=] Keyword[new] identifier[StringBuilder] operator[SEP] literal[String] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[oldProps] operator[==] Other[null] operator[SEP] {
identifier[oldProps] operator[=] Keyword[new] identifier[Props] operator[SEP] operator[SEP] operator[SEP]
}
Keyword[if] operator[SEP] identifier[newProps] operator[==] Other[null] operator[SEP] {
identifier[newProps] operator[=] Keyword[new] identifier[Props] operator[SEP] operator[SEP] operator[SEP]
}
Keyword[final] identifier[MapDifference] operator[<] identifier[String] , identifier[String] operator[>] identifier[md] operator[=] identifier[Maps] operator[SEP] identifier[difference] operator[SEP] identifier[toStringMap] operator[SEP] identifier[oldProps] , literal[boolean] operator[SEP] , identifier[toStringMap] operator[SEP] identifier[newProps] , literal[boolean] operator[SEP] operator[SEP] operator[SEP] Keyword[final] identifier[Map] operator[<] identifier[String] , identifier[String] operator[>] identifier[newlyCreatedProperty] operator[=] identifier[md] operator[SEP] identifier[entriesOnlyOnRight] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[newlyCreatedProperty] operator[!=] Other[null] operator[&&] identifier[newlyCreatedProperty] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[>] Other[0] operator[SEP] {
identifier[builder] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[newlyCreatedProperty] operator[SEP] identifier[forEach] operator[SEP] operator[SEP] identifier[k] , identifier[v] operator[SEP] operator[->] {
identifier[builder] operator[SEP] identifier[append] operator[SEP] literal[String] operator[+] identifier[k] operator[+] literal[String] operator[+] identifier[v] operator[+] literal[String] operator[SEP] operator[SEP]
} operator[SEP] operator[SEP] identifier[builder] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP]
}
Keyword[final] identifier[Map] operator[<] identifier[String] , identifier[String] operator[>] identifier[deletedProperty] operator[=] identifier[md] operator[SEP] identifier[entriesOnlyOnLeft] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[deletedProperty] operator[!=] Other[null] operator[&&] identifier[deletedProperty] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[>] Other[0] operator[SEP] {
identifier[builder] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[deletedProperty] operator[SEP] identifier[forEach] operator[SEP] operator[SEP] identifier[k] , identifier[v] operator[SEP] operator[->] {
identifier[builder] operator[SEP] identifier[append] operator[SEP] literal[String] operator[+] identifier[k] operator[+] literal[String] operator[+] identifier[v] operator[+] literal[String] operator[SEP] operator[SEP]
} operator[SEP] operator[SEP] identifier[builder] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP]
}
Keyword[final] identifier[Map] operator[<] identifier[String] , identifier[MapDifference] operator[SEP] identifier[ValueDifference] operator[<] identifier[String] operator[>] operator[>] identifier[diffProperties] operator[=] identifier[md] operator[SEP] identifier[entriesDiffering] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[diffProperties] operator[!=] Other[null] operator[&&] identifier[diffProperties] operator[SEP] identifier[size] operator[SEP] operator[SEP] operator[>] Other[0] operator[SEP] {
identifier[builder] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[diffProperties] operator[SEP] identifier[forEach] operator[SEP] operator[SEP] identifier[k] , identifier[v] operator[SEP] operator[->] {
identifier[builder] operator[SEP] identifier[append] operator[SEP] literal[String] operator[+] identifier[k] operator[+] literal[String] operator[+] identifier[v] operator[SEP] identifier[leftValue] operator[SEP] operator[SEP] operator[+] literal[String] operator[+] identifier[v] operator[SEP] identifier[rightValue] operator[SEP] operator[SEP] operator[+] literal[String] operator[SEP] operator[SEP]
} operator[SEP] operator[SEP]
}
Keyword[return] identifier[builder] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP]
}
|
@Override
public Policy getClientPolicy(ORB orb, Map<String, Object> properties) throws Exception {
// TODO: Determine if system.RMI_OUTBOUND should be created and used for outbound.
CSSConfig cssConfig = new ClientContainerConfigHelper(defaultAlias).getCSSConfig(properties);
ClientPolicy clientPolicy = new ClientPolicy(cssConfig);
return clientPolicy;
} | class class_name[name] begin[{]
method[getClientPolicy, return_type[type[Policy]], modifier[public], parameter[orb, properties]] begin[{]
local_variable[type[CSSConfig], cssConfig]
local_variable[type[ClientPolicy], clientPolicy]
return[member[.clientPolicy]]
end[}]
END[}] | annotation[@] identifier[Override] Keyword[public] identifier[Policy] identifier[getClientPolicy] operator[SEP] identifier[ORB] identifier[orb] , identifier[Map] operator[<] identifier[String] , identifier[Object] operator[>] identifier[properties] operator[SEP] Keyword[throws] identifier[Exception] {
identifier[CSSConfig] identifier[cssConfig] operator[=] Keyword[new] identifier[ClientContainerConfigHelper] operator[SEP] identifier[defaultAlias] operator[SEP] operator[SEP] identifier[getCSSConfig] operator[SEP] identifier[properties] operator[SEP] operator[SEP] identifier[ClientPolicy] identifier[clientPolicy] operator[=] Keyword[new] identifier[ClientPolicy] operator[SEP] identifier[cssConfig] operator[SEP] operator[SEP] Keyword[return] identifier[clientPolicy] operator[SEP]
}
|
public void splitNode(KDTreeNode node, int numNodesCreated,
double[][] nodeRanges, double[][] universe) throws Exception {
correctlyInitialized();
int splitDim = widestDim(nodeRanges, universe);
double splitVal = m_EuclideanDistance.getMiddle(nodeRanges[splitDim]);
int rightStart = rearrangePoints(m_InstList, node.m_Start, node.m_End,
splitDim, splitVal);
if (rightStart == node.m_Start || rightStart > node.m_End) {
if (rightStart == node.m_Start)
throw new Exception("Left child is empty in node "
+ node.m_NodeNumber +
". Not possible with " +
"MidPointofWidestDim splitting method. Please " +
"check code.");
else
throw new Exception("Right child is empty in node " + node.m_NodeNumber +
". Not possible with " +
"MidPointofWidestDim splitting method. Please " +
"check code.");
}
node.m_SplitDim = splitDim;
node.m_SplitValue = splitVal;
node.m_Left = new KDTreeNode(numNodesCreated + 1, node.m_Start,
rightStart - 1, m_EuclideanDistance.initializeRanges(m_InstList,
node.m_Start, rightStart - 1));
node.m_Right = new KDTreeNode(numNodesCreated + 2, rightStart, node.m_End,
m_EuclideanDistance
.initializeRanges(m_InstList, rightStart, node.m_End));
} | class class_name[name] begin[{]
method[splitNode, return_type[void], modifier[public], parameter[node, numNodesCreated, nodeRanges, universe]] begin[{]
call[.correctlyInitialized, parameter[]]
local_variable[type[int], splitDim]
local_variable[type[double], splitVal]
local_variable[type[int], rightStart]
if[binary_operation[binary_operation[member[.rightStart], ==, member[node.m_Start]], ||, binary_operation[member[.rightStart], >, member[node.m_End]]]] begin[{]
if[binary_operation[member[.rightStart], ==, member[node.m_Start]]] begin[{]
ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Left child is empty in node "), operandr=MemberReference(member=m_NodeNumber, postfix_operators=[], prefix_operators=[], qualifier=node, selectors=[]), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=". Not possible with "), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="MidPointofWidestDim splitting method. Please "), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="check code."), operator=+)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Exception, sub_type=None)), label=None)
else begin[{]
ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Right child is empty in node "), operandr=MemberReference(member=m_NodeNumber, postfix_operators=[], prefix_operators=[], qualifier=node, selectors=[]), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=". Not possible with "), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="MidPointofWidestDim splitting method. Please "), operator=+), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="check code."), operator=+)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=Exception, sub_type=None)), label=None)
end[}]
else begin[{]
None
end[}]
assign[member[node.m_SplitDim], member[.splitDim]]
assign[member[node.m_SplitValue], member[.splitVal]]
assign[member[node.m_Left], ClassCreator(arguments=[BinaryOperation(operandl=MemberReference(member=numNodesCreated, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=+), MemberReference(member=m_Start, postfix_operators=[], prefix_operators=[], qualifier=node, selectors=[]), BinaryOperation(operandl=MemberReference(member=rightStart, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=-), MethodInvocation(arguments=[MemberReference(member=m_InstList, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=m_Start, postfix_operators=[], prefix_operators=[], qualifier=node, selectors=[]), BinaryOperation(operandl=MemberReference(member=rightStart, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), operator=-)], member=initializeRanges, postfix_operators=[], prefix_operators=[], qualifier=m_EuclideanDistance, selectors=[], type_arguments=None)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=KDTreeNode, sub_type=None))]
assign[member[node.m_Right], ClassCreator(arguments=[BinaryOperation(operandl=MemberReference(member=numNodesCreated, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=2), operator=+), MemberReference(member=rightStart, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=m_End, postfix_operators=[], prefix_operators=[], qualifier=node, selectors=[]), MethodInvocation(arguments=[MemberReference(member=m_InstList, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=rightStart, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=m_End, postfix_operators=[], prefix_operators=[], qualifier=node, selectors=[])], member=initializeRanges, postfix_operators=[], prefix_operators=[], qualifier=m_EuclideanDistance, selectors=[], type_arguments=None)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=KDTreeNode, sub_type=None))]
end[}]
END[}] | Keyword[public] Keyword[void] identifier[splitNode] operator[SEP] identifier[KDTreeNode] identifier[node] , Keyword[int] identifier[numNodesCreated] , Keyword[double] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[nodeRanges] , Keyword[double] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[universe] operator[SEP] Keyword[throws] identifier[Exception] {
identifier[correctlyInitialized] operator[SEP] operator[SEP] operator[SEP] Keyword[int] identifier[splitDim] operator[=] identifier[widestDim] operator[SEP] identifier[nodeRanges] , identifier[universe] operator[SEP] operator[SEP] Keyword[double] identifier[splitVal] operator[=] identifier[m_EuclideanDistance] operator[SEP] identifier[getMiddle] operator[SEP] identifier[nodeRanges] operator[SEP] identifier[splitDim] operator[SEP] operator[SEP] operator[SEP] Keyword[int] identifier[rightStart] operator[=] identifier[rearrangePoints] operator[SEP] identifier[m_InstList] , identifier[node] operator[SEP] identifier[m_Start] , identifier[node] operator[SEP] identifier[m_End] , identifier[splitDim] , identifier[splitVal] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[rightStart] operator[==] identifier[node] operator[SEP] identifier[m_Start] operator[||] identifier[rightStart] operator[>] identifier[node] operator[SEP] identifier[m_End] operator[SEP] {
Keyword[if] operator[SEP] identifier[rightStart] operator[==] identifier[node] operator[SEP] identifier[m_Start] operator[SEP] Keyword[throw] Keyword[new] identifier[Exception] operator[SEP] literal[String] operator[+] identifier[node] operator[SEP] identifier[m_NodeNumber] operator[+] literal[String] operator[+] literal[String] operator[+] literal[String] operator[SEP] operator[SEP] Keyword[else] Keyword[throw] Keyword[new] identifier[Exception] operator[SEP] literal[String] operator[+] identifier[node] operator[SEP] identifier[m_NodeNumber] operator[+] literal[String] operator[+] literal[String] operator[+] literal[String] operator[SEP] operator[SEP]
}
identifier[node] operator[SEP] identifier[m_SplitDim] operator[=] identifier[splitDim] operator[SEP] identifier[node] operator[SEP] identifier[m_SplitValue] operator[=] identifier[splitVal] operator[SEP] identifier[node] operator[SEP] identifier[m_Left] operator[=] Keyword[new] identifier[KDTreeNode] operator[SEP] identifier[numNodesCreated] operator[+] Other[1] , identifier[node] operator[SEP] identifier[m_Start] , identifier[rightStart] operator[-] Other[1] , identifier[m_EuclideanDistance] operator[SEP] identifier[initializeRanges] operator[SEP] identifier[m_InstList] , identifier[node] operator[SEP] identifier[m_Start] , identifier[rightStart] operator[-] Other[1] operator[SEP] operator[SEP] operator[SEP] identifier[node] operator[SEP] identifier[m_Right] operator[=] Keyword[new] identifier[KDTreeNode] operator[SEP] identifier[numNodesCreated] operator[+] Other[2] , identifier[rightStart] , identifier[node] operator[SEP] identifier[m_End] , identifier[m_EuclideanDistance] operator[SEP] identifier[initializeRanges] operator[SEP] identifier[m_InstList] , identifier[rightStart] , identifier[node] operator[SEP] identifier[m_End] operator[SEP] operator[SEP] operator[SEP]
}
|
public void revokeAccessToken(Token token) throws OAuthTokenException, JSONSerializerException, HttpClientException,
URISyntaxException, InvalidRequestException{
HttpRequest request = new HttpRequest();
request.setUri(new URI(tokenURL));
request.setMethod(HttpMethod.DELETE);
request.setHeaders(new HashMap<String, String>());
request.getHeaders().put("Authorization", "Bearer " + token.getAccessToken());
HttpResponse response = httpClient.request(request);
if(response.getStatusCode() != 200){
throw new OAuthTokenException("Token request failed with http error code: "+response.getStatusCode());
}
httpClient.releaseConnection();
} | class class_name[name] begin[{]
method[revokeAccessToken, return_type[void], modifier[public], parameter[token]] begin[{]
local_variable[type[HttpRequest], request]
call[request.setUri, parameter[ClassCreator(arguments=[MemberReference(member=tokenURL, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=URI, sub_type=None))]]
call[request.setMethod, parameter[member[HttpMethod.DELETE]]]
call[request.setHeaders, parameter[ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None)), TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=String, sub_type=None))], dimensions=None, name=HashMap, sub_type=None))]]
call[request.getHeaders, parameter[]]
local_variable[type[HttpResponse], response]
if[binary_operation[call[response.getStatusCode, parameter[]], !=, literal[200]]] begin[{]
ThrowStatement(expression=ClassCreator(arguments=[BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Token request failed with http error code: "), operandr=MethodInvocation(arguments=[], member=getStatusCode, postfix_operators=[], prefix_operators=[], qualifier=response, selectors=[], type_arguments=None), operator=+)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=OAuthTokenException, sub_type=None)), label=None)
else begin[{]
None
end[}]
call[httpClient.releaseConnection, parameter[]]
end[}]
END[}] | Keyword[public] Keyword[void] identifier[revokeAccessToken] operator[SEP] identifier[Token] identifier[token] operator[SEP] Keyword[throws] identifier[OAuthTokenException] , identifier[JSONSerializerException] , identifier[HttpClientException] , identifier[URISyntaxException] , identifier[InvalidRequestException] {
identifier[HttpRequest] identifier[request] operator[=] Keyword[new] identifier[HttpRequest] operator[SEP] operator[SEP] operator[SEP] identifier[request] operator[SEP] identifier[setUri] operator[SEP] Keyword[new] identifier[URI] operator[SEP] identifier[tokenURL] operator[SEP] operator[SEP] operator[SEP] identifier[request] operator[SEP] identifier[setMethod] operator[SEP] identifier[HttpMethod] operator[SEP] identifier[DELETE] operator[SEP] operator[SEP] identifier[request] operator[SEP] identifier[setHeaders] operator[SEP] Keyword[new] identifier[HashMap] operator[<] identifier[String] , identifier[String] operator[>] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[request] operator[SEP] identifier[getHeaders] operator[SEP] operator[SEP] operator[SEP] identifier[put] operator[SEP] literal[String] , literal[String] operator[+] identifier[token] operator[SEP] identifier[getAccessToken] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[HttpResponse] identifier[response] operator[=] identifier[httpClient] operator[SEP] identifier[request] operator[SEP] identifier[request] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[response] operator[SEP] identifier[getStatusCode] operator[SEP] operator[SEP] operator[!=] Other[200] operator[SEP] {
Keyword[throw] Keyword[new] identifier[OAuthTokenException] operator[SEP] literal[String] operator[+] identifier[response] operator[SEP] identifier[getStatusCode] operator[SEP] operator[SEP] operator[SEP] operator[SEP]
}
identifier[httpClient] operator[SEP] identifier[releaseConnection] operator[SEP] operator[SEP] operator[SEP]
}
|
static public TextAnalyzer createInstance(int type,
Map<String, ? extends Object> keywordDefinitions,
Map<Integer, ? extends Object> lengthDefinitions){
return createInstance(type, null, keywordDefinitions, lengthDefinitions);
} | class class_name[name] begin[{]
method[createInstance, return_type[type[TextAnalyzer]], modifier[public static], parameter[type, keywordDefinitions, lengthDefinitions]] begin[{]
return[call[.createInstance, parameter[member[.type], literal[null], member[.keywordDefinitions], member[.lengthDefinitions]]]]
end[}]
END[}] | Keyword[static] Keyword[public] identifier[TextAnalyzer] identifier[createInstance] operator[SEP] Keyword[int] identifier[type] , identifier[Map] operator[<] identifier[String] , operator[?] Keyword[extends] identifier[Object] operator[>] identifier[keywordDefinitions] , identifier[Map] operator[<] identifier[Integer] , operator[?] Keyword[extends] identifier[Object] operator[>] identifier[lengthDefinitions] operator[SEP] {
Keyword[return] identifier[createInstance] operator[SEP] identifier[type] , Other[null] , identifier[keywordDefinitions] , identifier[lengthDefinitions] operator[SEP] operator[SEP]
}
|
@Deprecated
public static byte[] voltLoadTable(VoltProcedure procedure,
String clusterName,
String databaseName,
String tableName,
VoltTable data,
boolean returnUniqueViolations,
boolean shouldDRStream)
throws VoltAbortException
{
return voltLoadTable(procedure, clusterName, databaseName, tableName, data, returnUniqueViolations, shouldDRStream, false);
} | class class_name[name] begin[{]
method[voltLoadTable, return_type[type[byte]], modifier[public static], parameter[procedure, clusterName, databaseName, tableName, data, returnUniqueViolations, shouldDRStream]] begin[{]
return[call[.voltLoadTable, parameter[member[.procedure], member[.clusterName], member[.databaseName], member[.tableName], member[.data], member[.returnUniqueViolations], member[.shouldDRStream], literal[false]]]]
end[}]
END[}] | annotation[@] identifier[Deprecated] Keyword[public] Keyword[static] Keyword[byte] operator[SEP] operator[SEP] identifier[voltLoadTable] operator[SEP] identifier[VoltProcedure] identifier[procedure] , identifier[String] identifier[clusterName] , identifier[String] identifier[databaseName] , identifier[String] identifier[tableName] , identifier[VoltTable] identifier[data] , Keyword[boolean] identifier[returnUniqueViolations] , Keyword[boolean] identifier[shouldDRStream] operator[SEP] Keyword[throws] identifier[VoltAbortException] {
Keyword[return] identifier[voltLoadTable] operator[SEP] identifier[procedure] , identifier[clusterName] , identifier[databaseName] , identifier[tableName] , identifier[data] , identifier[returnUniqueViolations] , identifier[shouldDRStream] , literal[boolean] operator[SEP] operator[SEP]
}
|
public boolean isWhiteSpace() {
switch (getEventType()) {
case XMLStreamConstants.CHARACTERS:
return this.characters.toString().trim().length() == 0;
case XMLStreamConstants.CDATA:
return false;
case XMLStreamConstants.COMMENT:
return false;
case XMLStreamConstants.SPACE:
return true;
default:
return false;
}
} | class class_name[name] begin[{]
method[isWhiteSpace, return_type[type[boolean]], modifier[public], parameter[]] begin[{]
SwitchStatement(cases=[SwitchStatementCase(case=[MemberReference(member=CHARACTERS, postfix_operators=[], prefix_operators=[], qualifier=XMLStreamConstants, selectors=[])], statements=[ReturnStatement(expression=BinaryOperation(operandl=This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MemberReference(member=characters, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None), MethodInvocation(arguments=[], member=toString, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[], member=trim, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[], member=length, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), operandr=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), operator===), label=None)]), SwitchStatementCase(case=[MemberReference(member=CDATA, postfix_operators=[], prefix_operators=[], qualifier=XMLStreamConstants, selectors=[])], statements=[ReturnStatement(expression=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=false), label=None)]), SwitchStatementCase(case=[MemberReference(member=COMMENT, postfix_operators=[], prefix_operators=[], qualifier=XMLStreamConstants, selectors=[])], statements=[ReturnStatement(expression=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=false), label=None)]), SwitchStatementCase(case=[MemberReference(member=SPACE, postfix_operators=[], prefix_operators=[], qualifier=XMLStreamConstants, selectors=[])], statements=[ReturnStatement(expression=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=true), label=None)]), SwitchStatementCase(case=[], statements=[ReturnStatement(expression=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=false), label=None)])], expression=MethodInvocation(arguments=[], member=getEventType, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)
end[}]
END[}] | Keyword[public] Keyword[boolean] identifier[isWhiteSpace] operator[SEP] operator[SEP] {
Keyword[switch] operator[SEP] identifier[getEventType] operator[SEP] operator[SEP] operator[SEP] {
Keyword[case] identifier[XMLStreamConstants] operator[SEP] identifier[CHARACTERS] operator[:] Keyword[return] Keyword[this] operator[SEP] identifier[characters] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] identifier[trim] operator[SEP] operator[SEP] operator[SEP] identifier[length] operator[SEP] operator[SEP] operator[==] Other[0] operator[SEP] Keyword[case] identifier[XMLStreamConstants] operator[SEP] identifier[CDATA] operator[:] Keyword[return] literal[boolean] operator[SEP] Keyword[case] identifier[XMLStreamConstants] operator[SEP] identifier[COMMENT] operator[:] Keyword[return] literal[boolean] operator[SEP] Keyword[case] identifier[XMLStreamConstants] operator[SEP] identifier[SPACE] operator[:] Keyword[return] literal[boolean] operator[SEP] Keyword[default] operator[:] Keyword[return] literal[boolean] operator[SEP]
}
}
|
public static void addTimegateHeaders(HttpServletResponse response,
CaptureSearchResults results, WaybackRequest wbr,
boolean includeOriginal) {
addVaryHeader(response);
addLinkHeader(response, results, wbr, false, includeOriginal);
} | class class_name[name] begin[{]
method[addTimegateHeaders, return_type[void], modifier[public static], parameter[response, results, wbr, includeOriginal]] begin[{]
call[.addVaryHeader, parameter[member[.response]]]
call[.addLinkHeader, parameter[member[.response], member[.results], member[.wbr], literal[false], member[.includeOriginal]]]
end[}]
END[}] | Keyword[public] Keyword[static] Keyword[void] identifier[addTimegateHeaders] operator[SEP] identifier[HttpServletResponse] identifier[response] , identifier[CaptureSearchResults] identifier[results] , identifier[WaybackRequest] identifier[wbr] , Keyword[boolean] identifier[includeOriginal] operator[SEP] {
identifier[addVaryHeader] operator[SEP] identifier[response] operator[SEP] operator[SEP] identifier[addLinkHeader] operator[SEP] identifier[response] , identifier[results] , identifier[wbr] , literal[boolean] , identifier[includeOriginal] operator[SEP] operator[SEP]
}
|
private File toJar(File root) throws IOException {
String artifactName = findArtifactName(root);
File jar = new File(tempDir, artifactName);
ZipBuilder builder = new ZipBuilder(jar);
builder.addDirectory(root, "");
builder.close();
return jar;
} | class class_name[name] begin[{]
method[toJar, return_type[type[File]], modifier[private], parameter[root]] begin[{]
local_variable[type[String], artifactName]
local_variable[type[File], jar]
local_variable[type[ZipBuilder], builder]
call[builder.addDirectory, parameter[member[.root], literal[""]]]
call[builder.close, parameter[]]
return[member[.jar]]
end[}]
END[}] | Keyword[private] identifier[File] identifier[toJar] operator[SEP] identifier[File] identifier[root] operator[SEP] Keyword[throws] identifier[IOException] {
identifier[String] identifier[artifactName] operator[=] identifier[findArtifactName] operator[SEP] identifier[root] operator[SEP] operator[SEP] identifier[File] identifier[jar] operator[=] Keyword[new] identifier[File] operator[SEP] identifier[tempDir] , identifier[artifactName] operator[SEP] operator[SEP] identifier[ZipBuilder] identifier[builder] operator[=] Keyword[new] identifier[ZipBuilder] operator[SEP] identifier[jar] operator[SEP] operator[SEP] identifier[builder] operator[SEP] identifier[addDirectory] operator[SEP] identifier[root] , literal[String] operator[SEP] operator[SEP] identifier[builder] operator[SEP] identifier[close] operator[SEP] operator[SEP] operator[SEP] Keyword[return] identifier[jar] operator[SEP]
}
|
public static String stripToEmpty(final String str) {
return N.isNullOrEmpty(str) ? N.EMPTY_STRING : strip(str, null);
} | class class_name[name] begin[{]
method[stripToEmpty, return_type[type[String]], modifier[public static], parameter[str]] begin[{]
return[TernaryExpression(condition=MethodInvocation(arguments=[MemberReference(member=str, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=isNullOrEmpty, postfix_operators=[], prefix_operators=[], qualifier=N, selectors=[], type_arguments=None), if_false=MethodInvocation(arguments=[MemberReference(member=str, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null)], member=strip, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), if_true=MemberReference(member=EMPTY_STRING, postfix_operators=[], prefix_operators=[], qualifier=N, selectors=[]))]
end[}]
END[}] | Keyword[public] Keyword[static] identifier[String] identifier[stripToEmpty] operator[SEP] Keyword[final] identifier[String] identifier[str] operator[SEP] {
Keyword[return] identifier[N] operator[SEP] identifier[isNullOrEmpty] operator[SEP] identifier[str] operator[SEP] operator[?] identifier[N] operator[SEP] identifier[EMPTY_STRING] operator[:] identifier[strip] operator[SEP] identifier[str] , Other[null] operator[SEP] operator[SEP]
}
|
@XmlElementDecl(namespace = "http://docs.oasis-open.org/ns/cmis/messaging/200908/", name = "addACEs", scope = CreateDocumentFromSource.class)
public JAXBElement<CmisAccessControlListType> createCreateDocumentFromSourceAddACEs(
CmisAccessControlListType value) {
return new JAXBElement<CmisAccessControlListType>(
_CreateDocumentAddACEs_QNAME, CmisAccessControlListType.class,
CreateDocumentFromSource.class, value);
} | class class_name[name] begin[{]
method[createCreateDocumentFromSourceAddACEs, return_type[type[JAXBElement]], modifier[public], parameter[value]] begin[{]
return[ClassCreator(arguments=[MemberReference(member=_CreateDocumentAddACEs_QNAME, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), ClassReference(postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=CmisAccessControlListType, sub_type=None)), ClassReference(postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=CreateDocumentFromSource, sub_type=None)), MemberReference(member=value, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=[TypeArgument(pattern_type=None, type=ReferenceType(arguments=None, dimensions=[], name=CmisAccessControlListType, sub_type=None))], dimensions=None, name=JAXBElement, sub_type=None))]
end[}]
END[}] | annotation[@] identifier[XmlElementDecl] operator[SEP] identifier[namespace] operator[=] literal[String] , identifier[name] operator[=] literal[String] , identifier[scope] operator[=] identifier[CreateDocumentFromSource] operator[SEP] Keyword[class] operator[SEP] Keyword[public] identifier[JAXBElement] operator[<] identifier[CmisAccessControlListType] operator[>] identifier[createCreateDocumentFromSourceAddACEs] operator[SEP] identifier[CmisAccessControlListType] identifier[value] operator[SEP] {
Keyword[return] Keyword[new] identifier[JAXBElement] operator[<] identifier[CmisAccessControlListType] operator[>] operator[SEP] identifier[_CreateDocumentAddACEs_QNAME] , identifier[CmisAccessControlListType] operator[SEP] Keyword[class] , identifier[CreateDocumentFromSource] operator[SEP] Keyword[class] , identifier[value] operator[SEP] operator[SEP]
}
|
public static RetryBuilder anyMatches(Func1<Throwable, Boolean> retryErrorPredicate) {
RetryBuilder retryBuilder = new RetryBuilder();
retryBuilder.maxAttempts = 1;
retryBuilder.retryErrorPredicate = retryErrorPredicate;
return retryBuilder;
} | class class_name[name] begin[{]
method[anyMatches, return_type[type[RetryBuilder]], modifier[public static], parameter[retryErrorPredicate]] begin[{]
local_variable[type[RetryBuilder], retryBuilder]
assign[member[retryBuilder.maxAttempts], literal[1]]
assign[member[retryBuilder.retryErrorPredicate], member[.retryErrorPredicate]]
return[member[.retryBuilder]]
end[}]
END[}] | Keyword[public] Keyword[static] identifier[RetryBuilder] identifier[anyMatches] operator[SEP] identifier[Func1] operator[<] identifier[Throwable] , identifier[Boolean] operator[>] identifier[retryErrorPredicate] operator[SEP] {
identifier[RetryBuilder] identifier[retryBuilder] operator[=] Keyword[new] identifier[RetryBuilder] operator[SEP] operator[SEP] operator[SEP] identifier[retryBuilder] operator[SEP] identifier[maxAttempts] operator[=] Other[1] operator[SEP] identifier[retryBuilder] operator[SEP] identifier[retryErrorPredicate] operator[=] identifier[retryErrorPredicate] operator[SEP] Keyword[return] identifier[retryBuilder] operator[SEP]
}
|
public void localUpdateLongRunningFree(Address logicalAddress, Long freeCount)
{
if (trace)
log.tracef("LOCAL_UPDATE_LONGRUNNING_FREE(%s, %d)", logicalAddress, freeCount);
DistributedWorkManager dwm = workManagerCoordinator.resolveDistributedWorkManager(logicalAddress);
if (dwm != null)
{
Collection<NotificationListener> copy =
new ArrayList<NotificationListener>(dwm.getNotificationListeners());
for (NotificationListener nl : copy)
{
nl.updateLongRunningFree(logicalAddress, freeCount);
}
}
else
{
WorkManagerEventQueue wmeq = WorkManagerEventQueue.getInstance();
wmeq.addEvent(new WorkManagerEvent(WorkManagerEvent.TYPE_UPDATE_LONG_RUNNING, logicalAddress, freeCount));
}
} | class class_name[name] begin[{]
method[localUpdateLongRunningFree, return_type[void], modifier[public], parameter[logicalAddress, freeCount]] begin[{]
if[member[.trace]] begin[{]
call[log.tracef, parameter[literal["LOCAL_UPDATE_LONGRUNNING_FREE(%s, %d)"], member[.logicalAddress], member[.freeCount]]]
else begin[{]
None
end[}]
local_variable[type[DistributedWorkManager], dwm]
if[binary_operation[member[.dwm], !=, literal[null]]] begin[{]
local_variable[type[Collection], copy]
ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=logicalAddress, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=freeCount, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=updateLongRunningFree, postfix_operators=[], prefix_operators=[], qualifier=nl, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MemberReference(member=copy, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=nl)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=NotificationListener, sub_type=None))), label=None)
else begin[{]
local_variable[type[WorkManagerEventQueue], wmeq]
call[wmeq.addEvent, parameter[ClassCreator(arguments=[MemberReference(member=TYPE_UPDATE_LONG_RUNNING, postfix_operators=[], prefix_operators=[], qualifier=WorkManagerEvent, selectors=[]), MemberReference(member=logicalAddress, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=freeCount, 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=WorkManagerEvent, sub_type=None))]]
end[}]
end[}]
END[}] | Keyword[public] Keyword[void] identifier[localUpdateLongRunningFree] operator[SEP] identifier[Address] identifier[logicalAddress] , identifier[Long] identifier[freeCount] operator[SEP] {
Keyword[if] operator[SEP] identifier[trace] operator[SEP] identifier[log] operator[SEP] identifier[tracef] operator[SEP] literal[String] , identifier[logicalAddress] , identifier[freeCount] operator[SEP] operator[SEP] identifier[DistributedWorkManager] identifier[dwm] operator[=] identifier[workManagerCoordinator] operator[SEP] identifier[resolveDistributedWorkManager] operator[SEP] identifier[logicalAddress] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[dwm] operator[!=] Other[null] operator[SEP] {
identifier[Collection] operator[<] identifier[NotificationListener] operator[>] identifier[copy] operator[=] Keyword[new] identifier[ArrayList] operator[<] identifier[NotificationListener] operator[>] operator[SEP] identifier[dwm] operator[SEP] identifier[getNotificationListeners] operator[SEP] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] identifier[NotificationListener] identifier[nl] operator[:] identifier[copy] operator[SEP] {
identifier[nl] operator[SEP] identifier[updateLongRunningFree] operator[SEP] identifier[logicalAddress] , identifier[freeCount] operator[SEP] operator[SEP]
}
}
Keyword[else] {
identifier[WorkManagerEventQueue] identifier[wmeq] operator[=] identifier[WorkManagerEventQueue] operator[SEP] identifier[getInstance] operator[SEP] operator[SEP] operator[SEP] identifier[wmeq] operator[SEP] identifier[addEvent] operator[SEP] Keyword[new] identifier[WorkManagerEvent] operator[SEP] identifier[WorkManagerEvent] operator[SEP] identifier[TYPE_UPDATE_LONG_RUNNING] , identifier[logicalAddress] , identifier[freeCount] operator[SEP] operator[SEP] operator[SEP]
}
}
|
public Set<String> getDeadlockedThreads() {
final long[] threadIds = threads.findDeadlockedThreads();
if (threadIds != null) {
final Set<String> threads = new HashSet<String>();
for (ThreadInfo info : this.threads.getThreadInfo(threadIds, MAX_STACK_TRACE_DEPTH)) {
final StringBuilder stackTrace = new StringBuilder();
for (StackTraceElement element : info.getStackTrace()) {
stackTrace.append("\t at ").append(element.toString()).append('\n');
}
threads.add(
String.format(
"%s locked on %s (owned by %s):\n%s",
info.getThreadName(), info.getLockName(),
info.getLockOwnerName(),
stackTrace.toString()));
}
return Collections.unmodifiableSet(threads);
}
return Collections.emptySet();
} | class class_name[name] begin[{]
method[getDeadlockedThreads, return_type[type[Set]], modifier[public], parameter[]] begin[{]
local_variable[type[long], threadIds]
if[binary_operation[member[.threadIds], !=, literal[null]]] begin[{]
local_variable[type[Set], threads]
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=stackTrace)], modifiers={'final'}, type=ReferenceType(arguments=None, dimensions=[], name=StringBuilder, sub_type=None)), ForStatement(body=BlockStatement(label=None, statements=[StatementExpression(expression=MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="\t at ")], member=append, postfix_operators=[], prefix_operators=[], qualifier=stackTrace, selectors=[MethodInvocation(arguments=[MethodInvocation(arguments=[], member=toString, postfix_operators=[], prefix_operators=[], qualifier=element, selectors=[], type_arguments=None)], member=append, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None), MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value='\n')], member=append, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=MethodInvocation(arguments=[], member=getStackTrace, postfix_operators=[], prefix_operators=[], qualifier=info, selectors=[], type_arguments=None), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=element)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=StackTraceElement, sub_type=None))), label=None), StatementExpression(expression=MethodInvocation(arguments=[MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="%s locked on %s (owned by %s):\n%s"), MethodInvocation(arguments=[], member=getThreadName, postfix_operators=[], prefix_operators=[], qualifier=info, selectors=[], type_arguments=None), MethodInvocation(arguments=[], member=getLockName, postfix_operators=[], prefix_operators=[], qualifier=info, selectors=[], type_arguments=None), MethodInvocation(arguments=[], member=getLockOwnerName, postfix_operators=[], prefix_operators=[], qualifier=info, selectors=[], type_arguments=None), MethodInvocation(arguments=[], member=toString, postfix_operators=[], prefix_operators=[], qualifier=stackTrace, selectors=[], type_arguments=None)], member=format, postfix_operators=[], prefix_operators=[], qualifier=String, selectors=[], type_arguments=None)], member=add, postfix_operators=[], prefix_operators=[], qualifier=threads, selectors=[], type_arguments=None), label=None)]), control=EnhancedForControl(iterable=This(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[MemberReference(member=threads, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None), MethodInvocation(arguments=[MemberReference(member=threadIds, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=MAX_STACK_TRACE_DEPTH, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=getThreadInfo, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), var=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=None, name=info)], modifiers=set(), type=ReferenceType(arguments=None, dimensions=[], name=ThreadInfo, sub_type=None))), label=None)
return[call[Collections.unmodifiableSet, parameter[member[.threads]]]]
else begin[{]
None
end[}]
return[call[Collections.emptySet, parameter[]]]
end[}]
END[}] | Keyword[public] identifier[Set] operator[<] identifier[String] operator[>] identifier[getDeadlockedThreads] operator[SEP] operator[SEP] {
Keyword[final] Keyword[long] operator[SEP] operator[SEP] identifier[threadIds] operator[=] identifier[threads] operator[SEP] identifier[findDeadlockedThreads] operator[SEP] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[threadIds] operator[!=] Other[null] operator[SEP] {
Keyword[final] identifier[Set] operator[<] identifier[String] operator[>] identifier[threads] operator[=] Keyword[new] identifier[HashSet] operator[<] identifier[String] operator[>] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] identifier[ThreadInfo] identifier[info] operator[:] Keyword[this] operator[SEP] identifier[threads] operator[SEP] identifier[getThreadInfo] operator[SEP] identifier[threadIds] , identifier[MAX_STACK_TRACE_DEPTH] operator[SEP] operator[SEP] {
Keyword[final] identifier[StringBuilder] identifier[stackTrace] operator[=] Keyword[new] identifier[StringBuilder] operator[SEP] operator[SEP] operator[SEP] Keyword[for] operator[SEP] identifier[StackTraceElement] identifier[element] operator[:] identifier[info] operator[SEP] identifier[getStackTrace] operator[SEP] operator[SEP] operator[SEP] {
identifier[stackTrace] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP] identifier[append] operator[SEP] identifier[element] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[append] operator[SEP] literal[String] operator[SEP] operator[SEP]
}
identifier[threads] operator[SEP] identifier[add] operator[SEP] identifier[String] operator[SEP] identifier[format] operator[SEP] literal[String] , identifier[info] operator[SEP] identifier[getThreadName] operator[SEP] operator[SEP] , identifier[info] operator[SEP] identifier[getLockName] operator[SEP] operator[SEP] , identifier[info] operator[SEP] identifier[getLockOwnerName] operator[SEP] operator[SEP] , identifier[stackTrace] operator[SEP] identifier[toString] operator[SEP] operator[SEP] operator[SEP] operator[SEP] operator[SEP]
}
Keyword[return] identifier[Collections] operator[SEP] identifier[unmodifiableSet] operator[SEP] identifier[threads] operator[SEP] operator[SEP]
}
Keyword[return] identifier[Collections] operator[SEP] identifier[emptySet] operator[SEP] operator[SEP] operator[SEP]
}
|
public Observable<SearchViewState> search(String searchString) {
// Empty String, so no search
if (searchString.isEmpty()) {
return Observable.just(new SearchViewState.SearchNotStartedYet());
}
// search for product
return searchEngine.searchFor(searchString)
.map(products -> {
if (products.isEmpty()) {
return new SearchViewState.EmptyResult(searchString);
} else {
return new SearchViewState.SearchResult(searchString, products);
}
})
.startWith(new SearchViewState.Loading())
.onErrorReturn(error -> new SearchViewState.Error(searchString, error));
} | class class_name[name] begin[{]
method[search, return_type[type[Observable]], modifier[public], parameter[searchString]] begin[{]
if[call[searchString.isEmpty, parameter[]]] begin[{]
return[call[Observable.just, parameter[ClassCreator(arguments=[], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=SearchViewState, sub_type=ReferenceType(arguments=None, dimensions=None, name=SearchNotStartedYet, sub_type=None)))]]]
else begin[{]
None
end[}]
return[call[searchEngine.searchFor, parameter[member[.searchString]]]]
end[}]
END[}] | Keyword[public] identifier[Observable] operator[<] identifier[SearchViewState] operator[>] identifier[search] operator[SEP] identifier[String] identifier[searchString] operator[SEP] {
Keyword[if] operator[SEP] identifier[searchString] operator[SEP] identifier[isEmpty] operator[SEP] operator[SEP] operator[SEP] {
Keyword[return] identifier[Observable] operator[SEP] identifier[just] operator[SEP] Keyword[new] identifier[SearchViewState] operator[SEP] identifier[SearchNotStartedYet] operator[SEP] operator[SEP] operator[SEP] operator[SEP]
}
Keyword[return] identifier[searchEngine] operator[SEP] identifier[searchFor] operator[SEP] identifier[searchString] operator[SEP] operator[SEP] identifier[map] operator[SEP] identifier[products] operator[->] {
Keyword[if] operator[SEP] identifier[products] operator[SEP] identifier[isEmpty] operator[SEP] operator[SEP] operator[SEP] {
Keyword[return] Keyword[new] identifier[SearchViewState] operator[SEP] identifier[EmptyResult] operator[SEP] identifier[searchString] operator[SEP] operator[SEP]
}
Keyword[else] {
Keyword[return] Keyword[new] identifier[SearchViewState] operator[SEP] identifier[SearchResult] operator[SEP] identifier[searchString] , identifier[products] operator[SEP] operator[SEP]
}
} operator[SEP] operator[SEP] identifier[startWith] operator[SEP] Keyword[new] identifier[SearchViewState] operator[SEP] identifier[Loading] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[onErrorReturn] operator[SEP] identifier[error] operator[->] Keyword[new] identifier[SearchViewState] operator[SEP] identifier[Error] operator[SEP] identifier[searchString] , identifier[error] operator[SEP] operator[SEP] operator[SEP]
}
|
private ESat isConsistent() {
int[][] l = new int[nbDims][nbBins];
for (int i = 0; i < bins.length; i++) {
if (bins[i].isInstantiated()) {
for (int d = 0; d < nbDims; d++) {
int v = bins[i].getValue();
l[d][v] += iSizes[d][i];
if (l[d][v] > loads[d][v].getUB()) {
return ESat.FALSE;
}
}
}
}
return ESat.TRUE;
} | class class_name[name] begin[{]
method[isConsistent, return_type[type[ESat]], modifier[private], parameter[]] begin[{]
local_variable[type[int], l]
ForStatement(body=BlockStatement(label=None, statements=[IfStatement(condition=MemberReference(member=bins, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), MethodInvocation(arguments=[], member=isInstantiated, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[ForStatement(body=BlockStatement(label=None, statements=[LocalVariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=[], initializer=MemberReference(member=bins, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), MethodInvocation(arguments=[], member=getValue, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), name=v)], modifiers=set(), type=BasicType(dimensions=[], name=int)), StatementExpression(expression=Assignment(expressionl=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=d, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), ArraySelector(index=MemberReference(member=v, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), type=+=, value=MemberReference(member=iSizes, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=d, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), ArraySelector(index=MemberReference(member=i, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))])), label=None), IfStatement(condition=BinaryOperation(operandl=MemberReference(member=l, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=d, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), ArraySelector(index=MemberReference(member=v, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]))]), operandr=MemberReference(member=loads, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[ArraySelector(index=MemberReference(member=d, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), ArraySelector(index=MemberReference(member=v, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])), MethodInvocation(arguments=[], member=getUB, postfix_operators=None, prefix_operators=None, qualifier=None, selectors=None, type_arguments=None)]), operator=>), else_statement=None, label=None, then_statement=BlockStatement(label=None, statements=[ReturnStatement(expression=MemberReference(member=FALSE, postfix_operators=[], prefix_operators=[], qualifier=ESat, selectors=[]), label=None)]))]), control=ForControl(condition=BinaryOperation(operandl=MemberReference(member=d, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), operandr=MemberReference(member=nbDims, 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=d)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=d, 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=bins, selectors=[]), operator=<), init=VariableDeclaration(annotations=[], declarators=[VariableDeclarator(dimensions=None, initializer=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), name=i)], modifiers=set(), type=BasicType(dimensions=[], name=int)), update=[MemberReference(member=i, postfix_operators=['++'], prefix_operators=[], qualifier=, selectors=[])]), label=None)
return[member[ESat.TRUE]]
end[}]
END[}] | Keyword[private] identifier[ESat] identifier[isConsistent] operator[SEP] operator[SEP] {
Keyword[int] operator[SEP] operator[SEP] operator[SEP] operator[SEP] identifier[l] operator[=] Keyword[new] Keyword[int] operator[SEP] identifier[nbDims] operator[SEP] operator[SEP] identifier[nbBins] operator[SEP] operator[SEP] Keyword[for] operator[SEP] Keyword[int] identifier[i] operator[=] Other[0] operator[SEP] identifier[i] operator[<] identifier[bins] operator[SEP] identifier[length] operator[SEP] identifier[i] operator[++] operator[SEP] {
Keyword[if] operator[SEP] identifier[bins] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[isInstantiated] operator[SEP] operator[SEP] operator[SEP] {
Keyword[for] operator[SEP] Keyword[int] identifier[d] operator[=] Other[0] operator[SEP] identifier[d] operator[<] identifier[nbDims] operator[SEP] identifier[d] operator[++] operator[SEP] {
Keyword[int] identifier[v] operator[=] identifier[bins] operator[SEP] identifier[i] operator[SEP] operator[SEP] identifier[getValue] operator[SEP] operator[SEP] operator[SEP] identifier[l] operator[SEP] identifier[d] operator[SEP] operator[SEP] identifier[v] operator[SEP] operator[+=] identifier[iSizes] operator[SEP] identifier[d] operator[SEP] operator[SEP] identifier[i] operator[SEP] operator[SEP] Keyword[if] operator[SEP] identifier[l] operator[SEP] identifier[d] operator[SEP] operator[SEP] identifier[v] operator[SEP] operator[>] identifier[loads] operator[SEP] identifier[d] operator[SEP] operator[SEP] identifier[v] operator[SEP] operator[SEP] identifier[getUB] operator[SEP] operator[SEP] operator[SEP] {
Keyword[return] identifier[ESat] operator[SEP] identifier[FALSE] operator[SEP]
}
}
}
}
Keyword[return] identifier[ESat] operator[SEP] identifier[TRUE] operator[SEP]
}
|
public static ListeningExecutorService getCachedSingleThreadExecutor(String name, long keepAlive) {
return MoreExecutors.listeningDecorator(new ThreadPoolExecutor(
0,
1,
keepAlive,
TimeUnit.MILLISECONDS,
new LinkedBlockingQueue<Runnable>(),
CoreUtils.getThreadFactory(null, name, SMALL_STACK_SIZE, false, null)));
} | class class_name[name] begin[{]
method[getCachedSingleThreadExecutor, return_type[type[ListeningExecutorService]], modifier[public static], parameter[name, keepAlive]] begin[{]
return[call[MoreExecutors.listeningDecorator, parameter[ClassCreator(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=0), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=1), MemberReference(member=keepAlive, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=MILLISECONDS, postfix_operators=[], prefix_operators=[], qualifier=TimeUnit, selectors=[]), 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=Runnable, sub_type=None))], dimensions=None, name=LinkedBlockingQueue, sub_type=None)), MethodInvocation(arguments=[Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null), MemberReference(member=name, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), MemberReference(member=SMALL_STACK_SIZE, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[]), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=false), Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value=null)], member=getThreadFactory, postfix_operators=[], prefix_operators=[], qualifier=CoreUtils, selectors=[], type_arguments=None)], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=ThreadPoolExecutor, sub_type=None))]]]
end[}]
END[}] | Keyword[public] Keyword[static] identifier[ListeningExecutorService] identifier[getCachedSingleThreadExecutor] operator[SEP] identifier[String] identifier[name] , Keyword[long] identifier[keepAlive] operator[SEP] {
Keyword[return] identifier[MoreExecutors] operator[SEP] identifier[listeningDecorator] operator[SEP] Keyword[new] identifier[ThreadPoolExecutor] operator[SEP] Other[0] , Other[1] , identifier[keepAlive] , identifier[TimeUnit] operator[SEP] identifier[MILLISECONDS] , Keyword[new] identifier[LinkedBlockingQueue] operator[<] identifier[Runnable] operator[>] operator[SEP] operator[SEP] , identifier[CoreUtils] operator[SEP] identifier[getThreadFactory] operator[SEP] Other[null] , identifier[name] , identifier[SMALL_STACK_SIZE] , literal[boolean] , Other[null] operator[SEP] operator[SEP] operator[SEP] operator[SEP]
}
|
@Override
public void add(IPermission[] perms) throws AuthorizationException {
if (perms.length > 0) {
try {
primAdd(perms);
} catch (Exception ex) {
log.error("Exception adding permissions " + Arrays.toString(perms), ex);
throw new AuthorizationException(ex);
}
}
} | class class_name[name] begin[{]
method[add, return_type[void], modifier[public], parameter[perms]] begin[{]
if[binary_operation[member[perms.length], >, literal[0]]] begin[{]
TryStatement(block=[StatementExpression(expression=MethodInvocation(arguments=[MemberReference(member=perms, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=primAdd, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[], type_arguments=None), label=None)], catches=[CatchClause(block=[StatementExpression(expression=MethodInvocation(arguments=[BinaryOperation(operandl=Literal(postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], value="Exception adding permissions "), operandr=MethodInvocation(arguments=[MemberReference(member=perms, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=toString, postfix_operators=[], prefix_operators=[], qualifier=Arrays, selectors=[], type_arguments=None), operator=+), MemberReference(member=ex, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], member=error, postfix_operators=[], prefix_operators=[], qualifier=log, selectors=[], type_arguments=None), label=None), ThrowStatement(expression=ClassCreator(arguments=[MemberReference(member=ex, postfix_operators=[], prefix_operators=[], qualifier=, selectors=[])], body=None, constructor_type_arguments=None, postfix_operators=[], prefix_operators=[], qualifier=None, selectors=[], type=ReferenceType(arguments=None, dimensions=None, name=AuthorizationException, sub_type=None)), label=None)], label=None, parameter=CatchClauseParameter(annotations=None, modifiers=None, name=ex, types=['Exception']))], finally_block=None, label=None, resources=None)
else begin[{]
None
end[}]
end[}]
END[}] | annotation[@] identifier[Override] Keyword[public] Keyword[void] identifier[add] operator[SEP] identifier[IPermission] operator[SEP] operator[SEP] identifier[perms] operator[SEP] Keyword[throws] identifier[AuthorizationException] {
Keyword[if] operator[SEP] identifier[perms] operator[SEP] identifier[length] operator[>] Other[0] operator[SEP] {
Keyword[try] {
identifier[primAdd] operator[SEP] identifier[perms] operator[SEP] operator[SEP]
}
Keyword[catch] operator[SEP] identifier[Exception] identifier[ex] operator[SEP] {
identifier[log] operator[SEP] identifier[error] operator[SEP] literal[String] operator[+] identifier[Arrays] operator[SEP] identifier[toString] operator[SEP] identifier[perms] operator[SEP] , identifier[ex] operator[SEP] operator[SEP] Keyword[throw] Keyword[new] identifier[AuthorizationException] operator[SEP] identifier[ex] operator[SEP] operator[SEP]
}
}
}
|
public void free()
{
if (m_screenFieldView != null)
{
m_screenFieldView.free();
m_screenFieldView = null;
}
if (m_screenParent != null)
{
m_screenParent.removeSField(this); // Remove this from the screen's list
}
if (m_converterField != null)
m_converterField.removeComponent(this); // Make sure field won't send any more updates
m_converterField = null;
} | class class_name[name] begin[{]
method[free, return_type[void], modifier[public], parameter[]] begin[{]
if[binary_operation[member[.m_screenFieldView], !=, literal[null]]] begin[{]
call[m_screenFieldView.free, parameter[]]
assign[member[.m_screenFieldView], literal[null]]
else begin[{]
None
end[}]
if[binary_operation[member[.m_screenParent], !=, literal[null]]] begin[{]
call[m_screenParent.removeSField, parameter[THIS[]]]
else begin[{]
None
end[}]
if[binary_operation[member[.m_converterField], !=, literal[null]]] begin[{]
call[m_converterField.removeComponent, parameter[THIS[]]]
else begin[{]
None
end[}]
assign[member[.m_converterField], literal[null]]
end[}]
END[}] | Keyword[public] Keyword[void] identifier[free] operator[SEP] operator[SEP] {
Keyword[if] operator[SEP] identifier[m_screenFieldView] operator[!=] Other[null] operator[SEP] {
identifier[m_screenFieldView] operator[SEP] identifier[free] operator[SEP] operator[SEP] operator[SEP] identifier[m_screenFieldView] operator[=] Other[null] operator[SEP]
}
Keyword[if] operator[SEP] identifier[m_screenParent] operator[!=] Other[null] operator[SEP] {
identifier[m_screenParent] operator[SEP] identifier[removeSField] operator[SEP] Keyword[this] operator[SEP] operator[SEP]
}
Keyword[if] operator[SEP] identifier[m_converterField] operator[!=] Other[null] operator[SEP] identifier[m_converterField] operator[SEP] identifier[removeComponent] operator[SEP] Keyword[this] operator[SEP] operator[SEP] identifier[m_converterField] operator[=] Other[null] operator[SEP]
}
|
public static int[] append(int[] lhs, int[] rhs) {
int[] rs = java.util.Arrays.copyOf(lhs, lhs.length + rhs.length);
System.arraycopy(rhs, 0, rs, lhs.length, rhs.length);
return rs;
} | class class_name[name] begin[{]
method[append, return_type[type[int]], modifier[public static], parameter[lhs, rhs]] begin[{]
local_variable[type[int], rs]
call[System.arraycopy, parameter[member[.rhs], literal[0], member[.rs], member[lhs.length], member[rhs.length]]]
return[member[.rs]]
end[}]
END[}] | Keyword[public] Keyword[static] Keyword[int] operator[SEP] operator[SEP] identifier[append] operator[SEP] Keyword[int] operator[SEP] operator[SEP] identifier[lhs] , Keyword[int] operator[SEP] operator[SEP] identifier[rhs] operator[SEP] {
Keyword[int] operator[SEP] operator[SEP] identifier[rs] operator[=] identifier[java] operator[SEP] identifier[util] operator[SEP] identifier[Arrays] operator[SEP] identifier[copyOf] operator[SEP] identifier[lhs] , identifier[lhs] operator[SEP] identifier[length] operator[+] identifier[rhs] operator[SEP] identifier[length] operator[SEP] operator[SEP] identifier[System] operator[SEP] identifier[arraycopy] operator[SEP] identifier[rhs] , Other[0] , identifier[rs] , identifier[lhs] operator[SEP] identifier[length] , identifier[rhs] operator[SEP] identifier[length] operator[SEP] operator[SEP] Keyword[return] identifier[rs] operator[SEP]
}
|
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