use of org.eclipse.jdt.internal.compiler.ast.CaseStatement in project lombok by rzwitserloot.
the class EclipseJavaUtilSingularizer method createJavaUtilSetMapInitialCapacitySwitchStatements.
protected List<Statement> createJavaUtilSetMapInitialCapacitySwitchStatements(SingularData data, EclipseNode builderType, boolean mapMode, String emptyCollectionMethod, String singletonCollectionMethod, String targetType) {
List<Statement> switchContents = new ArrayList<Statement>();
char[] keyName = mapMode ? (new String(data.getPluralName()) + "$key").toCharArray() : data.getPluralName();
if (emptyCollectionMethod != null) {
// case 0: (empty); break;
switchContents.add(new CaseStatement(makeIntLiteral(new char[] { '0' }, null), 0, 0));
/* pluralName = java.util.Collections.emptyCollectionMethod(); */
{
MessageSend invoke = new MessageSend();
invoke.receiver = new QualifiedNameReference(JAVA_UTIL_COLLECTIONS, NULL_POSS, 0, 0);
invoke.selector = emptyCollectionMethod.toCharArray();
switchContents.add(new Assignment(new SingleNameReference(data.getPluralName(), 0), invoke, 0));
}
switchContents.add(new BreakStatement(null, 0, 0));
}
if (singletonCollectionMethod != null) {
// case 1: (singleton); break;
switchContents.add(new CaseStatement(makeIntLiteral(new char[] { '1' }, null), 0, 0));
/* !mapMode: pluralName = java.util.Collections.singletonCollectionMethod(this.pluralName.get(0));
mapMode: pluralName = java.util.Collections.singletonCollectionMethod(this.pluralName$key.get(0), this.pluralName$value.get(0)); */
{
FieldReference thisDotKey = new FieldReference(keyName, 0L);
thisDotKey.receiver = new ThisReference(0, 0);
MessageSend thisDotKeyGet0 = new MessageSend();
thisDotKeyGet0.receiver = thisDotKey;
thisDotKeyGet0.selector = new char[] { 'g', 'e', 't' };
thisDotKeyGet0.arguments = new Expression[] { makeIntLiteral(new char[] { '0' }, null) };
Expression[] args;
if (mapMode) {
char[] valueName = (new String(data.getPluralName()) + "$value").toCharArray();
FieldReference thisDotValue = new FieldReference(valueName, 0L);
thisDotValue.receiver = new ThisReference(0, 0);
MessageSend thisDotValueGet0 = new MessageSend();
thisDotValueGet0.receiver = thisDotValue;
thisDotValueGet0.selector = new char[] { 'g', 'e', 't' };
thisDotValueGet0.arguments = new Expression[] { makeIntLiteral(new char[] { '0' }, null) };
args = new Expression[] { thisDotKeyGet0, thisDotValueGet0 };
} else {
args = new Expression[] { thisDotKeyGet0 };
}
MessageSend invoke = new MessageSend();
invoke.receiver = new QualifiedNameReference(JAVA_UTIL_COLLECTIONS, NULL_POSS, 0, 0);
invoke.selector = singletonCollectionMethod.toCharArray();
invoke.arguments = args;
switchContents.add(new Assignment(new SingleNameReference(data.getPluralName(), 0), invoke, 0));
}
switchContents.add(new BreakStatement(null, 0, 0));
}
{
// default:
switchContents.add(new CaseStatement(null, 0, 0));
switchContents.addAll(createJavaUtilSimpleCreationAndFillStatements(data, builderType, mapMode, false, true, emptyCollectionMethod == null, targetType));
}
SwitchStatement switchStat = new SwitchStatement();
switchStat.statements = switchContents.toArray(new Statement[switchContents.size()]);
switchStat.expression = getSize(builderType, keyName, true);
TypeReference localShadowerType = new QualifiedTypeReference(fromQualifiedName(data.getTargetFqn()), NULL_POSS);
localShadowerType = addTypeArgs(mapMode ? 2 : 1, false, builderType, localShadowerType, data.getTypeArgs());
LocalDeclaration varDefStat = new LocalDeclaration(data.getPluralName(), 0, 0);
varDefStat.type = localShadowerType;
return Arrays.asList(varDefStat, switchStat);
}
use of org.eclipse.jdt.internal.compiler.ast.CaseStatement in project lombok by rzwitserloot.
the class HandleCleanup method handle.
public void handle(AnnotationValues<Cleanup> annotation, Annotation ast, EclipseNode annotationNode) {
handleFlagUsage(annotationNode, ConfigurationKeys.CLEANUP_FLAG_USAGE, "@Cleanup");
String cleanupName = annotation.getInstance().value();
if (cleanupName.length() == 0) {
annotationNode.addError("cleanupName cannot be the empty string.");
return;
}
if (annotationNode.up().getKind() != Kind.LOCAL) {
annotationNode.addError("@Cleanup is legal only on local variable declarations.");
return;
}
LocalDeclaration decl = (LocalDeclaration) annotationNode.up().get();
if (decl.initialization == null) {
annotationNode.addError("@Cleanup variable declarations need to be initialized.");
return;
}
EclipseNode ancestor = annotationNode.up().directUp();
ASTNode blockNode = ancestor.get();
final boolean isSwitch;
final Statement[] statements;
if (blockNode instanceof AbstractMethodDeclaration) {
isSwitch = false;
statements = ((AbstractMethodDeclaration) blockNode).statements;
} else if (blockNode instanceof Block) {
isSwitch = false;
statements = ((Block) blockNode).statements;
} else if (blockNode instanceof SwitchStatement) {
isSwitch = true;
statements = ((SwitchStatement) blockNode).statements;
} else {
annotationNode.addError("@Cleanup is legal only on a local variable declaration inside a block.");
return;
}
if (statements == null) {
annotationNode.addError("LOMBOK BUG: Parent block does not contain any statements.");
return;
}
int start = 0;
for (; start < statements.length; start++) {
if (statements[start] == decl)
break;
}
if (start == statements.length) {
annotationNode.addError("LOMBOK BUG: Can't find this local variable declaration inside its parent.");
return;
}
// We start with try{} *AFTER* the var declaration.
start++;
int end;
if (isSwitch) {
end = start + 1;
for (; end < statements.length; end++) {
if (statements[end] instanceof CaseStatement) {
break;
}
}
} else
end = statements.length;
// At this point:
// start-1 = Local Declaration marked with @Cleanup
// start = first instruction that needs to be wrapped into a try block
// end = last instruction of the scope -OR- last instruction before the next case label in switch statements.
// hence:
// [start, end) = statements for the try block.
Statement[] tryBlock = new Statement[end - start];
System.arraycopy(statements, start, tryBlock, 0, end - start);
// Remove the stuff we just dumped into the tryBlock, and then leave room for the try node.
// Remove room for every statement moved into try block...
int newStatementsLength = statements.length - (end - start);
// But add room for the TryStatement node itself.
newStatementsLength += 1;
Statement[] newStatements = new Statement[newStatementsLength];
// copy all statements before the try block verbatim.
System.arraycopy(statements, 0, newStatements, 0, start);
// For switch statements.
System.arraycopy(statements, end, newStatements, start + 1, statements.length - end);
doAssignmentCheck(annotationNode, tryBlock, decl.name);
TryStatement tryStatement = new TryStatement();
setGeneratedBy(tryStatement, ast);
tryStatement.tryBlock = new Block(0);
tryStatement.tryBlock.statements = tryBlock;
setGeneratedBy(tryStatement.tryBlock, ast);
// Positions for in-method generated nodes are special
int ss = decl.declarationSourceEnd + 1;
int se = ss;
if (tryBlock.length > 0) {
// +1 for the closing semicolon. Yes, there could be spaces. Bummer.
se = tryBlock[tryBlock.length - 1].sourceEnd + 1;
tryStatement.sourceStart = ss;
tryStatement.sourceEnd = se;
tryStatement.tryBlock.sourceStart = ss;
tryStatement.tryBlock.sourceEnd = se;
}
newStatements[start] = tryStatement;
Statement[] finallyBlock = new Statement[1];
MessageSend unsafeClose = new MessageSend();
setGeneratedBy(unsafeClose, ast);
unsafeClose.sourceStart = ast.sourceStart;
unsafeClose.sourceEnd = ast.sourceEnd;
SingleNameReference receiver = new SingleNameReference(decl.name, 0);
setGeneratedBy(receiver, ast);
unsafeClose.receiver = receiver;
long nameSourcePosition = (long) ast.sourceStart << 32 | ast.sourceEnd;
if (ast.memberValuePairs() != null)
for (MemberValuePair pair : ast.memberValuePairs()) {
if (pair.name != null && new String(pair.name).equals("value")) {
nameSourcePosition = (long) pair.value.sourceStart << 32 | pair.value.sourceEnd;
break;
}
}
unsafeClose.nameSourcePosition = nameSourcePosition;
unsafeClose.selector = cleanupName.toCharArray();
int pS = ast.sourceStart, pE = ast.sourceEnd;
long p = (long) pS << 32 | pE;
SingleNameReference varName = new SingleNameReference(decl.name, p);
setGeneratedBy(varName, ast);
NullLiteral nullLiteral = new NullLiteral(pS, pE);
setGeneratedBy(nullLiteral, ast);
MessageSend preventNullAnalysis = preventNullAnalysis(ast, varName);
EqualExpression equalExpression = new EqualExpression(preventNullAnalysis, nullLiteral, OperatorIds.NOT_EQUAL);
equalExpression.sourceStart = pS;
equalExpression.sourceEnd = pE;
setGeneratedBy(equalExpression, ast);
Block closeBlock = new Block(0);
closeBlock.statements = new Statement[1];
closeBlock.statements[0] = unsafeClose;
setGeneratedBy(closeBlock, ast);
IfStatement ifStatement = new IfStatement(equalExpression, closeBlock, 0, 0);
setGeneratedBy(ifStatement, ast);
finallyBlock[0] = ifStatement;
tryStatement.finallyBlock = new Block(0);
// Positions for in-method generated nodes are special
if (!isSwitch) {
tryStatement.finallyBlock.sourceStart = blockNode.sourceEnd;
tryStatement.finallyBlock.sourceEnd = blockNode.sourceEnd;
}
setGeneratedBy(tryStatement.finallyBlock, ast);
tryStatement.finallyBlock.statements = finallyBlock;
tryStatement.catchArguments = null;
tryStatement.catchBlocks = null;
if (blockNode instanceof AbstractMethodDeclaration) {
((AbstractMethodDeclaration) blockNode).statements = newStatements;
} else if (blockNode instanceof Block) {
((Block) blockNode).statements = newStatements;
} else if (blockNode instanceof SwitchStatement) {
((SwitchStatement) blockNode).statements = newStatements;
}
ancestor.rebuild();
}
use of org.eclipse.jdt.internal.compiler.ast.CaseStatement in project spoon by INRIA.
the class ParentExiter method visitCtCase.
@Override
public <E> void visitCtCase(CtCase<E> caseStatement) {
final ASTNode node = jdtTreeBuilder.getContextBuilder().stack.peek().node;
if (node instanceof CaseStatement && ((CaseStatement) node).constantExpression != null && caseStatement.getCaseExpression() == null && child instanceof CtExpression) {
caseStatement.setCaseExpression((CtExpression<E>) child);
return;
} else if (child instanceof CtStatement) {
caseStatement.addStatement((CtStatement) child);
return;
}
super.visitCtCase(caseStatement);
}
use of org.eclipse.jdt.internal.compiler.ast.CaseStatement in project lombok by rzwitserloot.
the class EclipseJavaUtilListSingularizer method appendBuildCode.
@Override
public void appendBuildCode(SingularData data, EclipseNode builderType, List<Statement> statements, char[] targetVariableName) {
if (useGuavaInstead(builderType)) {
guavaListSetSingularizer.appendBuildCode(data, builderType, statements, targetVariableName);
return;
}
List<Statement> switchContents = new ArrayList<Statement>();
/* case 0: (empty) break; */
{
switchContents.add(new CaseStatement(makeIntLiteral(new char[] { '0' }, null), 0, 0));
MessageSend invoke = new MessageSend();
invoke.receiver = new QualifiedNameReference(JAVA_UTIL_COLLECTIONS, NULL_POSS, 0, 0);
invoke.selector = "emptyList".toCharArray();
switchContents.add(new Assignment(new SingleNameReference(data.getPluralName(), 0), invoke, 0));
switchContents.add(new BreakStatement(null, 0, 0));
}
/* case 1: (singleton) break; */
{
switchContents.add(new CaseStatement(makeIntLiteral(new char[] { '1' }, null), 0, 0));
FieldReference thisDotField = new FieldReference(data.getPluralName(), 0L);
thisDotField.receiver = new ThisReference(0, 0);
MessageSend thisDotFieldGet0 = new MessageSend();
thisDotFieldGet0.receiver = thisDotField;
thisDotFieldGet0.selector = new char[] { 'g', 'e', 't' };
thisDotFieldGet0.arguments = new Expression[] { makeIntLiteral(new char[] { '0' }, null) };
Expression[] args = new Expression[] { thisDotFieldGet0 };
MessageSend invoke = new MessageSend();
invoke.receiver = new QualifiedNameReference(JAVA_UTIL_COLLECTIONS, NULL_POSS, 0, 0);
invoke.selector = "singletonList".toCharArray();
invoke.arguments = args;
switchContents.add(new Assignment(new SingleNameReference(data.getPluralName(), 0), invoke, 0));
switchContents.add(new BreakStatement(null, 0, 0));
}
/* default: Create by passing builder field to constructor. */
{
switchContents.add(new CaseStatement(null, 0, 0));
Expression argToUnmodifiable;
/* new j.u.ArrayList<Generics>(this.pluralName); */
{
FieldReference thisDotPluralName = new FieldReference(data.getPluralName(), 0L);
thisDotPluralName.receiver = new ThisReference(0, 0);
TypeReference targetTypeExpr = new QualifiedTypeReference(JAVA_UTIL_ARRAYLIST, NULL_POSS);
targetTypeExpr = addTypeArgs(1, false, builderType, targetTypeExpr, data.getTypeArgs());
AllocationExpression constructorCall = new AllocationExpression();
constructorCall.type = targetTypeExpr;
constructorCall.arguments = new Expression[] { thisDotPluralName };
argToUnmodifiable = constructorCall;
}
/* pluralname = Collections.unmodifiableList(-newlist-); */
{
MessageSend unmodInvoke = new MessageSend();
unmodInvoke.receiver = new QualifiedNameReference(JAVA_UTIL_COLLECTIONS, NULL_POSS, 0, 0);
unmodInvoke.selector = "unmodifiableList".toCharArray();
unmodInvoke.arguments = new Expression[] { argToUnmodifiable };
switchContents.add(new Assignment(new SingleNameReference(data.getPluralName(), 0), unmodInvoke, 0));
}
}
SwitchStatement switchStat = new SwitchStatement();
switchStat.statements = switchContents.toArray(new Statement[switchContents.size()]);
switchStat.expression = getSize(builderType, data.getPluralName(), true);
TypeReference localShadowerType = new QualifiedTypeReference(Eclipse.fromQualifiedName(data.getTargetFqn()), NULL_POSS);
localShadowerType = addTypeArgs(1, false, builderType, localShadowerType, data.getTypeArgs());
LocalDeclaration varDefStat = new LocalDeclaration(data.getPluralName(), 0, 0);
varDefStat.type = localShadowerType;
statements.add(varDefStat);
statements.add(switchStat);
}
Aggregations