private MethodDeclaration createCanEqual(EclipseNode type, ASTNode source) {
/* public boolean canEqual(final java.lang.Object other) {
* return other instanceof MyType;
* }
*/
int pS = source.sourceStart;
int pE = source.sourceEnd;
long p = (long) pS << 32 | pE;
char[] otherName = "other".toCharArray();
MethodDeclaration method =
new MethodDeclaration(((CompilationUnitDeclaration) type.top().get()).compilationResult);
Eclipse.setGeneratedBy(method, source);
method.modifiers = EclipseHandlerUtil.toEclipseModifier(AccessLevel.PUBLIC);
method.returnType = TypeReference.baseTypeReference(TypeIds.T_boolean, 0);
method.returnType.sourceStart = pS;
method.returnType.sourceEnd = pE;
Eclipse.setGeneratedBy(method.returnType, source);
method.selector = "canEqual".toCharArray();
method.thrownExceptions = null;
method.typeParameters = null;
method.bits |= Eclipse.ECLIPSE_DO_NOT_TOUCH_FLAG;
method.bodyStart = method.declarationSourceStart = method.sourceStart = source.sourceStart;
method.bodyEnd = method.declarationSourceEnd = method.sourceEnd = source.sourceEnd;
TypeReference objectRef =
new QualifiedTypeReference(TypeConstants.JAVA_LANG_OBJECT, new long[] {p, p, p});
Eclipse.setGeneratedBy(objectRef, source);
method.arguments = new Argument[] {new Argument(otherName, 0, objectRef, Modifier.FINAL)};
method.arguments[0].sourceStart = pS;
method.arguments[0].sourceEnd = pE;
Eclipse.setGeneratedBy(method.arguments[0], source);
SingleNameReference otherRef = new SingleNameReference(otherName, p);
Eclipse.setGeneratedBy(otherRef, source);
SingleTypeReference typeReference =
new SingleTypeReference(((TypeDeclaration) type.get()).name, p);
Eclipse.setGeneratedBy(typeReference, source);
InstanceOfExpression instanceOf = new InstanceOfExpression(otherRef, typeReference);
instanceOf.sourceStart = pS;
instanceOf.sourceEnd = pE;
Eclipse.setGeneratedBy(instanceOf, source);
ReturnStatement returnStatement = new ReturnStatement(instanceOf, pS, pE);
Eclipse.setGeneratedBy(returnStatement, source);
method.statements = new Statement[] {returnStatement};
return method;
}
/**
* In case emulating local variables, wrap the (recovered) statements inside a try statement so as
* to achieve local state commiting (copy local vars back to fields). The CSToCuMapper could not
* be used, since it could have interfered with the syntax recovery specific to code snippets.
*/
protected void consumeMethodDeclaration(boolean isNotAbstract) {
// MethodDeclaration ::= MethodHeader MethodBody
// AbstractMethodDeclaration ::= MethodHeader ';'
super.consumeMethodDeclaration(isNotAbstract);
// now we know that we have a method declaration at the top of the ast stack
MethodDeclaration methodDecl = (MethodDeclaration) this.astStack[this.astPtr];
// automatically wrap the last statement inside a return statement, if it is an expression
// support have to be defined at toplevel only
if (this.isTopLevelType()) {
int last = methodDecl.statements == null ? -1 : methodDecl.statements.length - 1;
if (last >= 0 && methodDecl.statements[last] instanceof Expression) {
Expression lastExpression = (Expression) methodDecl.statements[last];
methodDecl.statements[last] =
new CodeSnippetReturnStatement(
lastExpression, lastExpression.sourceStart, lastExpression.sourceEnd);
}
}
int start = methodDecl.bodyStart - 1, end = start;
long position = ((long) start << 32) + end;
long[] positions = new long[] {position};
if (this.evaluationContext.localVariableNames != null) {
int varCount =
this.evaluationContext.localVariableNames.length; // n local decls+ try statement
// generate n local variable declarations: [type] [name] = val$[name];
Statement[] newStatements = new Statement[varCount + 1];
for (int i = 0; i < varCount; i++) {
char[] trimmedTypeName = this.evaluationContext.localVariableTypeNames[i];
int nameEnd = CharOperation.indexOf('[', trimmedTypeName);
if (nameEnd >= 0) {
trimmedTypeName = CharOperation.subarray(trimmedTypeName, 0, nameEnd);
}
nameEnd = CharOperation.indexOf(' ', trimmedTypeName);
if (nameEnd >= 0) {
trimmedTypeName = CharOperation.subarray(trimmedTypeName, 0, nameEnd);
}
TypeReference typeReference =
new QualifiedTypeReference(CharOperation.splitOn('.', trimmedTypeName), positions);
int dimCount =
CharOperation.occurencesOf('[', this.evaluationContext.localVariableTypeNames[i]);
if (dimCount > 0) {
typeReference = this.copyDims(typeReference, dimCount);
}
NameReference init =
new SingleNameReference(
CharOperation.concat(
LOCAL_VAR_PREFIX, this.evaluationContext.localVariableNames[i]),
position);
LocalDeclaration declaration =
new LocalDeclaration(this.evaluationContext.localVariableNames[i], start, end);
declaration.initialization = init;
declaration.type = typeReference;
declaration.modifiers = this.evaluationContext.localVariableModifiers[i];
newStatements[i] = declaration;
}
// generate try { [snippet] } finally { [save locals to fields] }
// try block
TryStatement tryStatement = new TryStatement();
Block tryBlock = new Block(methodDecl.explicitDeclarations);
tryBlock.sourceStart = start;
tryBlock.sourceEnd = end;
tryBlock.statements = methodDecl.statements; // snippet statements
tryStatement.tryBlock = tryBlock;
// finally block
Block finallyBlock = new Block(0);
finallyBlock.sourceStart = start;
finallyBlock.sourceEnd = end;
finallyBlock.statements = new Statement[varCount];
for (int i = 0; i < varCount; i++) {
finallyBlock.statements[i] =
new Assignment(
new SingleNameReference(
CharOperation.concat(
LOCAL_VAR_PREFIX, this.evaluationContext.localVariableNames[i]),
position),
new SingleNameReference(this.evaluationContext.localVariableNames[i], position),
(int) position);
}
tryStatement.finallyBlock = finallyBlock;
newStatements[varCount] = tryStatement;
methodDecl.statements = newStatements;
}
}
private MethodDeclaration createStaticConstructor(
String name, EclipseNode type, Collection<EclipseNode> fields, ASTNode source) {
int pS = source.sourceStart, pE = source.sourceEnd;
long p = (long) pS << 32 | pE;
MethodDeclaration constructor =
new MethodDeclaration(((CompilationUnitDeclaration) type.top().get()).compilationResult);
Eclipse.setGeneratedBy(constructor, source);
constructor.modifiers = PKG.toModifier(AccessLevel.PUBLIC) | Modifier.STATIC;
TypeDeclaration typeDecl = (TypeDeclaration) type.get();
if (typeDecl.typeParameters != null && typeDecl.typeParameters.length > 0) {
TypeReference[] refs = new TypeReference[typeDecl.typeParameters.length];
int idx = 0;
for (TypeParameter param : typeDecl.typeParameters) {
TypeReference typeRef =
new SingleTypeReference(param.name, (long) param.sourceStart << 32 | param.sourceEnd);
Eclipse.setGeneratedBy(typeRef, source);
refs[idx++] = typeRef;
}
constructor.returnType = new ParameterizedSingleTypeReference(typeDecl.name, refs, 0, p);
} else constructor.returnType = new SingleTypeReference(((TypeDeclaration) type.get()).name, p);
Eclipse.setGeneratedBy(constructor.returnType, source);
constructor.annotations = null;
constructor.selector = name.toCharArray();
constructor.thrownExceptions = null;
constructor.typeParameters =
copyTypeParams(((TypeDeclaration) type.get()).typeParameters, source);
constructor.bits |= Eclipse.ECLIPSE_DO_NOT_TOUCH_FLAG;
constructor.bodyStart =
constructor.declarationSourceStart = constructor.sourceStart = source.sourceStart;
constructor.bodyEnd =
constructor.declarationSourceEnd = constructor.sourceEnd = source.sourceEnd;
List<Argument> args = new ArrayList<Argument>();
List<Expression> assigns = new ArrayList<Expression>();
AllocationExpression statement = new AllocationExpression();
statement.sourceStart = pS;
statement.sourceEnd = pE;
Eclipse.setGeneratedBy(statement, source);
statement.type = copyType(constructor.returnType, source);
for (EclipseNode fieldNode : fields) {
FieldDeclaration field = (FieldDeclaration) fieldNode.get();
long fieldPos = (((long) field.sourceStart) << 32) | field.sourceEnd;
SingleNameReference nameRef = new SingleNameReference(field.name, fieldPos);
Eclipse.setGeneratedBy(nameRef, source);
assigns.add(nameRef);
Argument argument = new Argument(field.name, fieldPos, copyType(field.type, source), 0);
Eclipse.setGeneratedBy(argument, source);
Annotation[] copiedAnnotations =
copyAnnotations(
findAnnotations(field, TransformationsUtil.NON_NULL_PATTERN),
findAnnotations(field, TransformationsUtil.NULLABLE_PATTERN),
source);
if (copiedAnnotations.length != 0) argument.annotations = copiedAnnotations;
args.add(new Argument(field.name, fieldPos, copyType(field.type, source), Modifier.FINAL));
}
statement.arguments =
assigns.isEmpty() ? null : assigns.toArray(new Expression[assigns.size()]);
constructor.arguments = args.isEmpty() ? null : args.toArray(new Argument[args.size()]);
constructor.statements =
new Statement[] {new ReturnStatement(statement, (int) (p >> 32), (int) p)};
Eclipse.setGeneratedBy(constructor.statements[0], source);
return constructor;
}
@Override
public boolean handle(
AnnotationValues<Synchronized> annotation, Annotation source, EclipseNode annotationNode) {
int p1 = source.sourceStart - 1;
int p2 = source.sourceStart - 2;
long pos = (((long) p1) << 32) | p2;
EclipseNode methodNode = annotationNode.up();
if (methodNode == null
|| methodNode.getKind() != Kind.METHOD
|| !(methodNode.get() instanceof MethodDeclaration)) {
annotationNode.addError("@Synchronized is legal only on methods.");
return true;
}
MethodDeclaration method = (MethodDeclaration) methodNode.get();
if (method.isAbstract()) {
annotationNode.addError("@Synchronized is legal only on concrete methods.");
return true;
}
char[] lockName = annotation.getInstance().value().toCharArray();
boolean autoMake = false;
if (lockName.length == 0) {
autoMake = true;
lockName = method.isStatic() ? STATIC_LOCK_NAME : INSTANCE_LOCK_NAME;
}
if (fieldExists(new String(lockName), methodNode) == MemberExistsResult.NOT_EXISTS) {
if (!autoMake) {
annotationNode.addError("The field " + new String(lockName) + " does not exist.");
return true;
}
FieldDeclaration fieldDecl = new FieldDeclaration(lockName, 0, -1);
Eclipse.setGeneratedBy(fieldDecl, source);
fieldDecl.declarationSourceEnd = -1;
fieldDecl.modifiers =
(method.isStatic() ? Modifier.STATIC : 0) | Modifier.FINAL | Modifier.PRIVATE;
// We use 'new Object[0];' because quite unlike 'new Object();', empty arrays *ARE*
// serializable!
ArrayAllocationExpression arrayAlloc = new ArrayAllocationExpression();
Eclipse.setGeneratedBy(arrayAlloc, source);
arrayAlloc.dimensions = new Expression[] {new IntLiteral(new char[] {'0'}, 0, 0)};
Eclipse.setGeneratedBy(arrayAlloc.dimensions[0], source);
arrayAlloc.type =
new QualifiedTypeReference(TypeConstants.JAVA_LANG_OBJECT, new long[] {0, 0, 0});
Eclipse.setGeneratedBy(arrayAlloc.type, source);
fieldDecl.type =
new QualifiedTypeReference(TypeConstants.JAVA_LANG_OBJECT, new long[] {0, 0, 0});
Eclipse.setGeneratedBy(fieldDecl.type, source);
fieldDecl.initialization = arrayAlloc;
injectFieldSuppressWarnings(annotationNode.up().up(), fieldDecl);
}
if (method.statements == null) return false;
Block block = new Block(0);
Eclipse.setGeneratedBy(block, source);
block.statements = method.statements;
Expression lockVariable;
if (method.isStatic())
lockVariable =
new QualifiedNameReference(
new char[][] {methodNode.up().getName().toCharArray(), lockName},
new long[] {pos, pos},
p1,
p2);
else {
lockVariable = new FieldReference(lockName, pos);
ThisReference thisReference = new ThisReference(p1, p2);
Eclipse.setGeneratedBy(thisReference, source);
((FieldReference) lockVariable).receiver = thisReference;
}
Eclipse.setGeneratedBy(lockVariable, source);
method.statements = new Statement[] {new SynchronizedStatement(lockVariable, block, 0, 0)};
Eclipse.setGeneratedBy(method.statements[0], source);
methodNode.rebuild();
return true;
}
private MethodDeclaration createEquals(
EclipseNode type,
Collection<EclipseNode> fields,
boolean callSuper,
ASTNode source,
FieldAccess fieldAccess,
boolean needsCanEqual) {
int pS = source.sourceStart;
int pE = source.sourceEnd;
long p = (long) pS << 32 | pE;
TypeDeclaration typeDecl = (TypeDeclaration) type.get();
MethodDeclaration method =
new MethodDeclaration(((CompilationUnitDeclaration) type.top().get()).compilationResult);
Eclipse.setGeneratedBy(method, source);
method.modifiers = EclipseHandlerUtil.toEclipseModifier(AccessLevel.PUBLIC);
method.returnType = TypeReference.baseTypeReference(TypeIds.T_boolean, 0);
method.returnType.sourceStart = pS;
method.returnType.sourceEnd = pE;
Eclipse.setGeneratedBy(method.returnType, source);
method.annotations =
new Annotation[] {makeMarkerAnnotation(TypeConstants.JAVA_LANG_OVERRIDE, source)};
method.selector = "equals".toCharArray();
method.thrownExceptions = null;
method.typeParameters = null;
method.bits |= Eclipse.ECLIPSE_DO_NOT_TOUCH_FLAG;
method.bodyStart = method.declarationSourceStart = method.sourceStart = source.sourceStart;
method.bodyEnd = method.declarationSourceEnd = method.sourceEnd = source.sourceEnd;
TypeReference objectRef =
new QualifiedTypeReference(TypeConstants.JAVA_LANG_OBJECT, new long[] {p, p, p});
Eclipse.setGeneratedBy(objectRef, source);
method.arguments =
new Argument[] {new Argument(new char[] {'o'}, 0, objectRef, Modifier.FINAL)};
method.arguments[0].sourceStart = pS;
method.arguments[0].sourceEnd = pE;
Eclipse.setGeneratedBy(method.arguments[0], source);
List<Statement> statements = new ArrayList<Statement>();
/* if (o == this) return true; */ {
SingleNameReference oRef = new SingleNameReference(new char[] {'o'}, p);
Eclipse.setGeneratedBy(oRef, source);
ThisReference thisRef = new ThisReference(pS, pE);
Eclipse.setGeneratedBy(thisRef, source);
EqualExpression otherEqualsThis = new EqualExpression(oRef, thisRef, OperatorIds.EQUAL_EQUAL);
Eclipse.setGeneratedBy(otherEqualsThis, source);
TrueLiteral trueLiteral = new TrueLiteral(pS, pE);
Eclipse.setGeneratedBy(trueLiteral, source);
ReturnStatement returnTrue = new ReturnStatement(trueLiteral, pS, pE);
Eclipse.setGeneratedBy(returnTrue, source);
IfStatement ifOtherEqualsThis = new IfStatement(otherEqualsThis, returnTrue, pS, pE);
Eclipse.setGeneratedBy(ifOtherEqualsThis, source);
statements.add(ifOtherEqualsThis);
}
/* if (!(o instanceof MyType) return false; */ {
SingleNameReference oRef = new SingleNameReference(new char[] {'o'}, p);
Eclipse.setGeneratedBy(oRef, source);
SingleTypeReference typeReference = new SingleTypeReference(typeDecl.name, p);
Eclipse.setGeneratedBy(typeReference, source);
InstanceOfExpression instanceOf = new InstanceOfExpression(oRef, typeReference);
instanceOf.sourceStart = pS;
instanceOf.sourceEnd = pE;
Eclipse.setGeneratedBy(instanceOf, source);
Expression notInstanceOf = new UnaryExpression(instanceOf, OperatorIds.NOT);
Eclipse.setGeneratedBy(notInstanceOf, source);
FalseLiteral falseLiteral = new FalseLiteral(pS, pE);
Eclipse.setGeneratedBy(falseLiteral, source);
ReturnStatement returnFalse = new ReturnStatement(falseLiteral, pS, pE);
Eclipse.setGeneratedBy(returnFalse, source);
IfStatement ifNotInstanceOf = new IfStatement(notInstanceOf, returnFalse, pS, pE);
Eclipse.setGeneratedBy(ifNotInstanceOf, source);
statements.add(ifNotInstanceOf);
}
char[] otherName = "other".toCharArray();
/* MyType<?> other = (MyType<?>) o; */ {
if (!fields.isEmpty() || needsCanEqual) {
LocalDeclaration other = new LocalDeclaration(otherName, pS, pE);
other.modifiers |= ClassFileConstants.AccFinal;
Eclipse.setGeneratedBy(other, source);
char[] typeName = typeDecl.name;
Expression targetType;
if (typeDecl.typeParameters == null || typeDecl.typeParameters.length == 0) {
targetType = new SingleNameReference(((TypeDeclaration) type.get()).name, p);
Eclipse.setGeneratedBy(targetType, source);
other.type = new SingleTypeReference(typeName, p);
Eclipse.setGeneratedBy(other.type, source);
} else {
TypeReference[] typeArgs = new TypeReference[typeDecl.typeParameters.length];
for (int i = 0; i < typeArgs.length; i++) {
typeArgs[i] = new Wildcard(Wildcard.UNBOUND);
typeArgs[i].sourceStart = pS;
typeArgs[i].sourceEnd = pE;
Eclipse.setGeneratedBy(typeArgs[i], source);
}
targetType = new ParameterizedSingleTypeReference(typeName, typeArgs, 0, p);
Eclipse.setGeneratedBy(targetType, source);
other.type =
new ParameterizedSingleTypeReference(typeName, copyTypes(typeArgs, source), 0, p);
Eclipse.setGeneratedBy(other.type, source);
}
NameReference oRef = new SingleNameReference(new char[] {'o'}, p);
Eclipse.setGeneratedBy(oRef, source);
other.initialization = new CastExpression(oRef, targetType);
Eclipse.setGeneratedBy(other.initialization, source);
statements.add(other);
}
}
/* if (!other.canEqual((java.lang.Object) this)) return false; */ {
if (needsCanEqual) {
MessageSend otherCanEqual = new MessageSend();
otherCanEqual.sourceStart = pS;
otherCanEqual.sourceEnd = pE;
Eclipse.setGeneratedBy(otherCanEqual, source);
otherCanEqual.receiver = new SingleNameReference(otherName, p);
Eclipse.setGeneratedBy(otherCanEqual.receiver, source);
otherCanEqual.selector = "canEqual".toCharArray();
ThisReference thisReference = new ThisReference(pS, pE);
Eclipse.setGeneratedBy(thisReference, source);
CastExpression castThisRef =
new CastExpression(
thisReference, generateQualifiedNameRef(source, TypeConstants.JAVA_LANG_OBJECT));
Eclipse.setGeneratedBy(castThisRef, source);
castThisRef.sourceStart = pS;
castThisRef.sourceEnd = pE;
otherCanEqual.arguments = new Expression[] {castThisRef};
Expression notOtherCanEqual = new UnaryExpression(otherCanEqual, OperatorIds.NOT);
Eclipse.setGeneratedBy(notOtherCanEqual, source);
FalseLiteral falseLiteral = new FalseLiteral(pS, pE);
Eclipse.setGeneratedBy(falseLiteral, source);
ReturnStatement returnFalse = new ReturnStatement(falseLiteral, pS, pE);
Eclipse.setGeneratedBy(returnFalse, source);
IfStatement ifNotCanEqual = new IfStatement(notOtherCanEqual, returnFalse, pS, pE);
Eclipse.setGeneratedBy(ifNotCanEqual, source);
statements.add(ifNotCanEqual);
}
}
/* if (!super.equals(o)) return false; */
if (callSuper) {
MessageSend callToSuper = new MessageSend();
callToSuper.sourceStart = pS;
callToSuper.sourceEnd = pE;
Eclipse.setGeneratedBy(callToSuper, source);
callToSuper.receiver = new SuperReference(pS, pE);
Eclipse.setGeneratedBy(callToSuper.receiver, source);
callToSuper.selector = "equals".toCharArray();
SingleNameReference oRef = new SingleNameReference(new char[] {'o'}, p);
Eclipse.setGeneratedBy(oRef, source);
callToSuper.arguments = new Expression[] {oRef};
Expression superNotEqual = new UnaryExpression(callToSuper, OperatorIds.NOT);
Eclipse.setGeneratedBy(superNotEqual, source);
FalseLiteral falseLiteral = new FalseLiteral(pS, pE);
Eclipse.setGeneratedBy(falseLiteral, source);
ReturnStatement returnFalse = new ReturnStatement(falseLiteral, pS, pE);
Eclipse.setGeneratedBy(returnFalse, source);
IfStatement ifSuperEquals = new IfStatement(superNotEqual, returnFalse, pS, pE);
Eclipse.setGeneratedBy(ifSuperEquals, source);
statements.add(ifSuperEquals);
}
for (EclipseNode field : fields) {
TypeReference fType = getFieldType(field, fieldAccess);
char[] token = fType.getLastToken();
Expression thisFieldAccessor = createFieldAccessor(field, fieldAccess, source);
Expression otherFieldAccessor = createFieldAccessor(field, fieldAccess, source, otherName);
if (fType.dimensions() == 0 && token != null) {
if (Arrays.equals(TypeConstants.FLOAT, token)) {
statements.add(
generateCompareFloatOrDouble(
thisFieldAccessor, otherFieldAccessor, "Float".toCharArray(), source));
} else if (Arrays.equals(TypeConstants.DOUBLE, token)) {
statements.add(
generateCompareFloatOrDouble(
thisFieldAccessor, otherFieldAccessor, "Double".toCharArray(), source));
} else if (BUILT_IN_TYPES.contains(new String(token))) {
EqualExpression fieldsNotEqual =
new EqualExpression(thisFieldAccessor, otherFieldAccessor, OperatorIds.NOT_EQUAL);
Eclipse.setGeneratedBy(fieldsNotEqual, source);
FalseLiteral falseLiteral = new FalseLiteral(pS, pE);
Eclipse.setGeneratedBy(falseLiteral, source);
ReturnStatement returnStatement = new ReturnStatement(falseLiteral, pS, pE);
Eclipse.setGeneratedBy(returnStatement, source);
IfStatement ifStatement = new IfStatement(fieldsNotEqual, returnStatement, pS, pE);
Eclipse.setGeneratedBy(ifStatement, source);
statements.add(ifStatement);
} else /* objects */ {
NullLiteral nullLiteral = new NullLiteral(pS, pE);
Eclipse.setGeneratedBy(nullLiteral, source);
EqualExpression fieldIsNull =
new EqualExpression(thisFieldAccessor, nullLiteral, OperatorIds.EQUAL_EQUAL);
nullLiteral = new NullLiteral(pS, pE);
Eclipse.setGeneratedBy(nullLiteral, source);
EqualExpression otherFieldIsntNull =
new EqualExpression(otherFieldAccessor, nullLiteral, OperatorIds.NOT_EQUAL);
MessageSend equalsCall = new MessageSend();
equalsCall.sourceStart = pS;
equalsCall.sourceEnd = pE;
Eclipse.setGeneratedBy(equalsCall, source);
equalsCall.receiver = createFieldAccessor(field, fieldAccess, source);
equalsCall.selector = "equals".toCharArray();
Expression equalsArg = createFieldAccessor(field, fieldAccess, source, otherName);
CastExpression castEqualsArg =
new CastExpression(
equalsArg, generateQualifiedNameRef(source, TypeConstants.JAVA_LANG_OBJECT));
Eclipse.setGeneratedBy(castEqualsArg, source);
castEqualsArg.sourceStart = pS;
castEqualsArg.sourceEnd = pE;
equalsCall.arguments = new Expression[] {castEqualsArg};
UnaryExpression fieldsNotEqual = new UnaryExpression(equalsCall, OperatorIds.NOT);
fieldsNotEqual.sourceStart = pS;
fieldsNotEqual.sourceEnd = pE;
Eclipse.setGeneratedBy(fieldsNotEqual, source);
ConditionalExpression fullEquals =
new ConditionalExpression(fieldIsNull, otherFieldIsntNull, fieldsNotEqual);
fullEquals.sourceStart = pS;
fullEquals.sourceEnd = pE;
Eclipse.setGeneratedBy(fullEquals, source);
FalseLiteral falseLiteral = new FalseLiteral(pS, pE);
Eclipse.setGeneratedBy(falseLiteral, source);
ReturnStatement returnStatement = new ReturnStatement(falseLiteral, pS, pE);
Eclipse.setGeneratedBy(returnStatement, source);
IfStatement ifStatement = new IfStatement(fullEquals, returnStatement, pS, pE);
Eclipse.setGeneratedBy(ifStatement, source);
statements.add(ifStatement);
}
} else if (fType.dimensions() > 0 && token != null) {
MessageSend arraysEqualCall = new MessageSend();
arraysEqualCall.sourceStart = pS;
arraysEqualCall.sourceEnd = pE;
Eclipse.setGeneratedBy(arraysEqualCall, source);
arraysEqualCall.receiver =
generateQualifiedNameRef(
source, TypeConstants.JAVA, TypeConstants.UTIL, "Arrays".toCharArray());
if (fType.dimensions() > 1 || !BUILT_IN_TYPES.contains(new String(token))) {
arraysEqualCall.selector = "deepEquals".toCharArray();
} else {
arraysEqualCall.selector = "equals".toCharArray();
}
arraysEqualCall.arguments = new Expression[] {thisFieldAccessor, otherFieldAccessor};
UnaryExpression arraysNotEqual = new UnaryExpression(arraysEqualCall, OperatorIds.NOT);
arraysNotEqual.sourceStart = pS;
arraysNotEqual.sourceEnd = pE;
Eclipse.setGeneratedBy(arraysNotEqual, source);
FalseLiteral falseLiteral = new FalseLiteral(pS, pE);
Eclipse.setGeneratedBy(falseLiteral, source);
ReturnStatement returnStatement = new ReturnStatement(falseLiteral, pS, pE);
Eclipse.setGeneratedBy(returnStatement, source);
IfStatement ifStatement = new IfStatement(arraysNotEqual, returnStatement, pS, pE);
Eclipse.setGeneratedBy(ifStatement, source);
statements.add(ifStatement);
}
}
/* return true; */ {
TrueLiteral trueLiteral = new TrueLiteral(pS, pE);
Eclipse.setGeneratedBy(trueLiteral, source);
ReturnStatement returnStatement = new ReturnStatement(trueLiteral, pS, pE);
Eclipse.setGeneratedBy(returnStatement, source);
statements.add(returnStatement);
}
method.statements = statements.toArray(new Statement[statements.size()]);
return method;
}
private MethodDeclaration createHashCode(
EclipseNode type,
Collection<EclipseNode> fields,
boolean callSuper,
ASTNode source,
FieldAccess fieldAccess) {
int pS = source.sourceStart, pE = source.sourceEnd;
long p = (long) pS << 32 | pE;
MethodDeclaration method =
new MethodDeclaration(((CompilationUnitDeclaration) type.top().get()).compilationResult);
Eclipse.setGeneratedBy(method, source);
method.modifiers = EclipseHandlerUtil.toEclipseModifier(AccessLevel.PUBLIC);
method.returnType = TypeReference.baseTypeReference(TypeIds.T_int, 0);
Eclipse.setGeneratedBy(method.returnType, source);
method.annotations =
new Annotation[] {makeMarkerAnnotation(TypeConstants.JAVA_LANG_OVERRIDE, source)};
method.selector = "hashCode".toCharArray();
method.thrownExceptions = null;
method.typeParameters = null;
method.bits |= Eclipse.ECLIPSE_DO_NOT_TOUCH_FLAG;
method.bodyStart = method.declarationSourceStart = method.sourceStart = source.sourceStart;
method.bodyEnd = method.declarationSourceEnd = method.sourceEnd = source.sourceEnd;
method.arguments = null;
List<Statement> statements = new ArrayList<Statement>();
List<Expression> intoResult = new ArrayList<Expression>();
final char[] PRIME = "PRIME".toCharArray();
final char[] RESULT = "result".toCharArray();
final boolean isEmpty = fields.isEmpty();
/* final int PRIME = 31; */ {
/* Without fields, PRIME isn't used, and that would trigger a 'local variable not used' warning. */
if (!isEmpty || callSuper) {
LocalDeclaration primeDecl = new LocalDeclaration(PRIME, pS, pE);
Eclipse.setGeneratedBy(primeDecl, source);
primeDecl.modifiers |= Modifier.FINAL;
primeDecl.type = TypeReference.baseTypeReference(TypeIds.T_int, 0);
primeDecl.type.sourceStart = pS;
primeDecl.type.sourceEnd = pE;
Eclipse.setGeneratedBy(primeDecl.type, source);
primeDecl.initialization = new IntLiteral("31".toCharArray(), pS, pE);
Eclipse.setGeneratedBy(primeDecl.initialization, source);
statements.add(primeDecl);
}
}
/* int result = 1; */ {
LocalDeclaration resultDecl = new LocalDeclaration(RESULT, pS, pE);
Eclipse.setGeneratedBy(resultDecl, source);
resultDecl.initialization = new IntLiteral("1".toCharArray(), pS, pE);
Eclipse.setGeneratedBy(resultDecl.initialization, source);
resultDecl.type = TypeReference.baseTypeReference(TypeIds.T_int, 0);
resultDecl.type.sourceStart = pS;
resultDecl.type.sourceEnd = pE;
Eclipse.setGeneratedBy(resultDecl.type, source);
statements.add(resultDecl);
}
if (callSuper) {
MessageSend callToSuper = new MessageSend();
Eclipse.setGeneratedBy(callToSuper, source);
callToSuper.sourceStart = pS;
callToSuper.sourceEnd = pE;
callToSuper.receiver = new SuperReference(pS, pE);
Eclipse.setGeneratedBy(callToSuper.receiver, source);
callToSuper.selector = "hashCode".toCharArray();
intoResult.add(callToSuper);
}
int tempCounter = 0;
for (EclipseNode field : fields) {
TypeReference fType = getFieldType(field, fieldAccess);
char[] token = fType.getLastToken();
Expression fieldAccessor = createFieldAccessor(field, fieldAccess, source);
if (fType.dimensions() == 0 && token != null) {
if (Arrays.equals(TypeConstants.FLOAT, token)) {
/* Float.floatToIntBits(fieldName) */
MessageSend floatToIntBits = new MessageSend();
floatToIntBits.sourceStart = pS;
floatToIntBits.sourceEnd = pE;
Eclipse.setGeneratedBy(floatToIntBits, source);
floatToIntBits.receiver = generateQualifiedNameRef(source, TypeConstants.JAVA_LANG_FLOAT);
floatToIntBits.selector = "floatToIntBits".toCharArray();
floatToIntBits.arguments = new Expression[] {fieldAccessor};
intoResult.add(floatToIntBits);
} else if (Arrays.equals(TypeConstants.DOUBLE, token)) {
/* longToIntForHashCode(Double.doubleToLongBits(fieldName)) */
MessageSend doubleToLongBits = new MessageSend();
doubleToLongBits.sourceStart = pS;
doubleToLongBits.sourceEnd = pE;
Eclipse.setGeneratedBy(doubleToLongBits, source);
doubleToLongBits.receiver =
generateQualifiedNameRef(source, TypeConstants.JAVA_LANG_DOUBLE);
doubleToLongBits.selector = "doubleToLongBits".toCharArray();
doubleToLongBits.arguments = new Expression[] {fieldAccessor};
final char[] tempName = ("temp" + ++tempCounter).toCharArray();
LocalDeclaration tempVar = new LocalDeclaration(tempName, pS, pE);
Eclipse.setGeneratedBy(tempVar, source);
tempVar.initialization = doubleToLongBits;
tempVar.type = TypeReference.baseTypeReference(TypeIds.T_long, 0);
tempVar.type.sourceStart = pS;
tempVar.type.sourceEnd = pE;
Eclipse.setGeneratedBy(tempVar.type, source);
tempVar.modifiers = Modifier.FINAL;
statements.add(tempVar);
SingleNameReference copy1 = new SingleNameReference(tempName, p);
Eclipse.setGeneratedBy(copy1, source);
SingleNameReference copy2 = new SingleNameReference(tempName, p);
Eclipse.setGeneratedBy(copy2, source);
intoResult.add(longToIntForHashCode(copy1, copy2, source));
} else if (Arrays.equals(TypeConstants.BOOLEAN, token)) {
/* booleanField ? 1231 : 1237 */
IntLiteral int1231 = new IntLiteral("1231".toCharArray(), pS, pE);
Eclipse.setGeneratedBy(int1231, source);
IntLiteral int1237 = new IntLiteral("1237".toCharArray(), pS, pE);
Eclipse.setGeneratedBy(int1237, source);
ConditionalExpression int1231or1237 =
new ConditionalExpression(fieldAccessor, int1231, int1237);
Eclipse.setGeneratedBy(int1231or1237, source);
intoResult.add(int1231or1237);
} else if (Arrays.equals(TypeConstants.LONG, token)) {
intoResult.add(
longToIntForHashCode(
fieldAccessor, createFieldAccessor(field, fieldAccess, source), source));
} else if (BUILT_IN_TYPES.contains(new String(token))) {
intoResult.add(fieldAccessor);
} else /* objects */ {
/* this.fieldName == null ? 0 : this.fieldName.hashCode() */
MessageSend hashCodeCall = new MessageSend();
hashCodeCall.sourceStart = pS;
hashCodeCall.sourceEnd = pE;
Eclipse.setGeneratedBy(hashCodeCall, source);
hashCodeCall.receiver = createFieldAccessor(field, fieldAccess, source);
hashCodeCall.selector = "hashCode".toCharArray();
NullLiteral nullLiteral = new NullLiteral(pS, pE);
Eclipse.setGeneratedBy(nullLiteral, source);
EqualExpression objIsNull =
new EqualExpression(fieldAccessor, nullLiteral, OperatorIds.EQUAL_EQUAL);
Eclipse.setGeneratedBy(objIsNull, source);
IntLiteral int0 = new IntLiteral("0".toCharArray(), pS, pE);
Eclipse.setGeneratedBy(int0, source);
ConditionalExpression nullOrHashCode =
new ConditionalExpression(objIsNull, int0, hashCodeCall);
nullOrHashCode.sourceStart = pS;
nullOrHashCode.sourceEnd = pE;
Eclipse.setGeneratedBy(nullOrHashCode, source);
intoResult.add(nullOrHashCode);
}
} else if (fType.dimensions() > 0 && token != null) {
/* Arrays.deepHashCode(array) //just hashCode for simple arrays */
MessageSend arraysHashCodeCall = new MessageSend();
arraysHashCodeCall.sourceStart = pS;
arraysHashCodeCall.sourceEnd = pE;
Eclipse.setGeneratedBy(arraysHashCodeCall, source);
arraysHashCodeCall.receiver =
generateQualifiedNameRef(
source, TypeConstants.JAVA, TypeConstants.UTIL, "Arrays".toCharArray());
if (fType.dimensions() > 1 || !BUILT_IN_TYPES.contains(new String(token))) {
arraysHashCodeCall.selector = "deepHashCode".toCharArray();
} else {
arraysHashCodeCall.selector = "hashCode".toCharArray();
}
arraysHashCodeCall.arguments = new Expression[] {fieldAccessor};
intoResult.add(arraysHashCodeCall);
}
}
/* fold each intoResult entry into:
result = result * PRIME + (item); */ {
for (Expression ex : intoResult) {
SingleNameReference resultRef = new SingleNameReference(RESULT, p);
Eclipse.setGeneratedBy(resultRef, source);
SingleNameReference primeRef = new SingleNameReference(PRIME, p);
Eclipse.setGeneratedBy(primeRef, source);
BinaryExpression multiplyByPrime =
new BinaryExpression(resultRef, primeRef, OperatorIds.MULTIPLY);
multiplyByPrime.sourceStart = pS;
multiplyByPrime.sourceEnd = pE;
Eclipse.setGeneratedBy(multiplyByPrime, source);
BinaryExpression addItem = new BinaryExpression(multiplyByPrime, ex, OperatorIds.PLUS);
addItem.sourceStart = pS;
addItem.sourceEnd = pE;
Eclipse.setGeneratedBy(addItem, source);
resultRef = new SingleNameReference(RESULT, p);
Eclipse.setGeneratedBy(resultRef, source);
Assignment assignment = new Assignment(resultRef, addItem, pE);
assignment.sourceStart = pS;
assignment.sourceEnd = pE;
Eclipse.setGeneratedBy(assignment, source);
statements.add(assignment);
}
}
/* return result; */ {
SingleNameReference resultRef = new SingleNameReference(RESULT, p);
Eclipse.setGeneratedBy(resultRef, source);
ReturnStatement returnStatement = new ReturnStatement(resultRef, pS, pE);
Eclipse.setGeneratedBy(returnStatement, source);
statements.add(returnStatement);
}
method.statements = statements.toArray(new Statement[statements.size()]);
return method;
}
private MethodDeclaration createToString(
EclipseNode type,
Collection<EclipseNode> fields,
boolean includeFieldNames,
boolean callSuper,
ASTNode source,
FieldAccess fieldAccess) {
String typeName = getTypeName(type);
char[] suffix = ")".toCharArray();
String infixS = ", ";
char[] infix = infixS.toCharArray();
int pS = source.sourceStart, pE = source.sourceEnd;
long p = (long) pS << 32 | pE;
final int PLUS = OperatorIds.PLUS;
char[] prefix;
if (callSuper) {
prefix = (typeName + "(super=").toCharArray();
} else if (fields.isEmpty()) {
prefix = (typeName + "()").toCharArray();
} else if (includeFieldNames) {
prefix =
(typeName
+ "("
+ new String(((FieldDeclaration) fields.iterator().next().get()).name)
+ "=")
.toCharArray();
} else {
prefix = (typeName + "(").toCharArray();
}
boolean first = true;
Expression current = new StringLiteral(prefix, pS, pE, 0);
Eclipse.setGeneratedBy(current, source);
if (callSuper) {
MessageSend callToSuper = new MessageSend();
callToSuper.sourceStart = pS;
callToSuper.sourceEnd = pE;
Eclipse.setGeneratedBy(callToSuper, source);
callToSuper.receiver = new SuperReference(pS, pE);
Eclipse.setGeneratedBy(callToSuper, source);
callToSuper.selector = "toString".toCharArray();
current = new BinaryExpression(current, callToSuper, PLUS);
Eclipse.setGeneratedBy(current, source);
first = false;
}
for (EclipseNode field : fields) {
TypeReference fType = getFieldType(field, fieldAccess);
Expression fieldAccessor = createFieldAccessor(field, fieldAccess, source);
Expression ex;
if (fType.dimensions() > 0) {
MessageSend arrayToString = new MessageSend();
arrayToString.sourceStart = pS;
arrayToString.sourceEnd = pE;
arrayToString.receiver =
generateQualifiedNameRef(
source, TypeConstants.JAVA, TypeConstants.UTIL, "Arrays".toCharArray());
arrayToString.arguments = new Expression[] {fieldAccessor};
Eclipse.setGeneratedBy(arrayToString.arguments[0], source);
if (fType.dimensions() > 1 || !BUILT_IN_TYPES.contains(new String(fType.getLastToken()))) {
arrayToString.selector = "deepToString".toCharArray();
} else {
arrayToString.selector = "toString".toCharArray();
}
ex = arrayToString;
} else {
ex = fieldAccessor;
}
Eclipse.setGeneratedBy(ex, source);
if (first) {
current = new BinaryExpression(current, ex, PLUS);
current.sourceStart = pS;
current.sourceEnd = pE;
Eclipse.setGeneratedBy(current, source);
first = false;
continue;
}
StringLiteral fieldNameLiteral;
if (includeFieldNames) {
char[] namePlusEqualsSign = (infixS + field.getName() + "=").toCharArray();
fieldNameLiteral = new StringLiteral(namePlusEqualsSign, pS, pE, 0);
} else {
fieldNameLiteral = new StringLiteral(infix, pS, pE, 0);
}
Eclipse.setGeneratedBy(fieldNameLiteral, source);
current = new BinaryExpression(current, fieldNameLiteral, PLUS);
Eclipse.setGeneratedBy(current, source);
current = new BinaryExpression(current, ex, PLUS);
Eclipse.setGeneratedBy(current, source);
}
if (!first) {
StringLiteral suffixLiteral = new StringLiteral(suffix, pS, pE, 0);
Eclipse.setGeneratedBy(suffixLiteral, source);
current = new BinaryExpression(current, suffixLiteral, PLUS);
Eclipse.setGeneratedBy(current, source);
}
ReturnStatement returnStatement = new ReturnStatement(current, pS, pE);
Eclipse.setGeneratedBy(returnStatement, source);
MethodDeclaration method =
new MethodDeclaration(((CompilationUnitDeclaration) type.top().get()).compilationResult);
Eclipse.setGeneratedBy(method, source);
method.modifiers = toEclipseModifier(AccessLevel.PUBLIC);
method.returnType =
new QualifiedTypeReference(TypeConstants.JAVA_LANG_STRING, new long[] {p, p, p});
Eclipse.setGeneratedBy(method.returnType, source);
method.annotations =
new Annotation[] {makeMarkerAnnotation(TypeConstants.JAVA_LANG_OVERRIDE, source)};
method.arguments = null;
method.selector = "toString".toCharArray();
method.thrownExceptions = null;
method.typeParameters = null;
method.bits |= Eclipse.ECLIPSE_DO_NOT_TOUCH_FLAG;
method.bodyStart = method.declarationSourceStart = method.sourceStart = source.sourceStart;
method.bodyEnd = method.declarationSourceEnd = method.sourceEnd = source.sourceEnd;
method.statements = new Statement[] {returnStatement};
return method;
}