public void handle(MethodCallExpression methodCall, TypeResolutionContext context) {
if (methodCall.getArguments().size() == 1) { // there should only be one argument
CollectionType targetType =
(CollectionType)
methodCall
.getTarget()
.getResolvedType(); // obtain target type, at this stage, preliminary examination
// should already have the conclusion that the type is of type
// Collection
Type contentType = targetType.getContentType(); // obtain content type from the collection
if (contentType == null) {
// this means the operation is performed on a collection of any, so no need for further
// actions
} else {
LiteralExpression argument =
(LiteralExpression) methodCall.getArguments().get(0); // get the argument
Type argumentType = argument.getResolvedType(); // get the type of the argument
if (contentType.getClass() == argumentType.getClass()) {
// match, no further actions
} else {
// handle type mismatch
}
}
methodCall.setResolvedType(null); // in either case, remove() does not have a return type
} else {
// handle arguments number incorrect
}
}
/**
* This method is used to add "bridge" methods for private methods of an inner/outer class, so
* that the outer class is capable of calling them. It does basically the same job as access$000
* like methods in Java.
*
* @param node an inner/outer class node for which to generate bridge methods
*/
@SuppressWarnings("unchecked")
private void addPrivateBridgeMethods(final ClassNode node) {
Set<ASTNode> accessedMethods =
(Set<ASTNode>) node.getNodeMetaData(StaticTypesMarker.PV_METHODS_ACCESS);
if (accessedMethods == null) return;
List<MethodNode> methods = new ArrayList<MethodNode>(node.getAllDeclaredMethods());
Map<MethodNode, MethodNode> privateBridgeMethods =
(Map<MethodNode, MethodNode>) node.getNodeMetaData(PRIVATE_BRIDGE_METHODS);
if (privateBridgeMethods != null) {
// private bridge methods already added
return;
}
privateBridgeMethods = new HashMap<MethodNode, MethodNode>();
int i = -1;
final int access = Opcodes.ACC_STATIC | Opcodes.ACC_PUBLIC | Opcodes.ACC_SYNTHETIC;
for (MethodNode method : methods) {
if (accessedMethods.contains(method)) {
i++;
Parameter[] methodParameters = method.getParameters();
Parameter[] newParams = new Parameter[methodParameters.length + 1];
System.arraycopy(methodParameters, 0, newParams, 1, methodParameters.length);
newParams[0] = new Parameter(node.getPlainNodeReference(), "$that");
Expression arguments;
if (method.getParameters() == null || method.getParameters().length == 0) {
arguments = ArgumentListExpression.EMPTY_ARGUMENTS;
} else {
List<Expression> args = new LinkedList<Expression>();
for (Parameter parameter : methodParameters) {
args.add(new VariableExpression(parameter));
}
arguments = new ArgumentListExpression(args);
}
Expression receiver =
method.isStatic() ? new ClassExpression(node) : new VariableExpression(newParams[0]);
MethodCallExpression mce = new MethodCallExpression(receiver, method.getName(), arguments);
mce.setMethodTarget(method);
ExpressionStatement returnStatement = new ExpressionStatement(mce);
MethodNode bridge =
node.addMethod(
"access$" + i,
access,
method.getReturnType(),
newParams,
method.getExceptions(),
returnStatement);
privateBridgeMethods.put(method, bridge);
bridge.addAnnotation(new AnnotationNode(COMPILESTATIC_CLASSNODE));
}
}
if (!privateBridgeMethods.isEmpty()) {
node.setNodeMetaData(PRIVATE_BRIDGE_METHODS, privateBridgeMethods);
}
}
@Override
void compile(CompileContext ctx, boolean push) {
SequenceExpression args = new SequenceExpression();
args.addExpression(string);
MethodCallExpression mc =
new MethodCallExpression(
null, 0, new ConstVarExpression(-1, "::Kernel"), "command", args, null, true);
mc.compile(ctx, push);
}
@Override
public void visitMethodCallExpression(final MethodCallExpression call) {
super.visitMethodCallExpression(call);
MethodNode target = (MethodNode) call.getNodeMetaData(DIRECT_METHOD_CALL_TARGET);
if (target != null) {
call.setMethodTarget(target);
memorizeInitialExpressions(target);
}
if (call.getMethodTarget() == null && call.getLineNumber() > 0) {
addError("Target method for method call expression hasn't been set", call);
}
}
public static BytecodeExpr transformLogicalExpression(
Expression exp, CompilerTransformer compiler, Label label, boolean onTrue) {
if (exp instanceof StaticMethodCallExpression) {
StaticMethodCallExpression smce = (StaticMethodCallExpression) exp;
MethodCallExpression mce =
new MethodCallExpression(
new ClassExpression(smce.getOwnerType()), smce.getMethod(), smce.getArguments());
mce.setSourcePosition(smce);
return transformLogicalExpression(mce, compiler, label, onTrue);
}
ExprTransformer t = transformers.get(exp.getClass());
return t.transformLogical(exp, compiler, label, onTrue);
}
public void visitMethodCallExpression(MethodCallExpression call) {
if (call.isImplicitThis() && call.getMethod() instanceof ConstantExpression) {
ConstantExpression methodNameConstant = (ConstantExpression) call.getMethod();
Object value = methodNameConstant.getText();
if (!(value instanceof String)) {
throw new GroovyBugError(
"tried to make a method call with a non-String constant method name.");
}
String methodName = (String) value;
Variable v = checkVariableNameForDeclaration(methodName, call);
if (v != null && !(v instanceof DynamicVariable)) {
checkVariableContextAccess(v, call);
}
if (v instanceof VariableExpression || v instanceof Parameter) {
VariableExpression object = new VariableExpression(v);
object.setSourcePosition(methodNameConstant);
call.setObjectExpression(object);
ConstantExpression method = new ConstantExpression("call");
method.setSourcePosition(methodNameConstant); // important for GROOVY-4344
call.setImplicitThis(false);
call.setMethod(method);
}
}
super.visitMethodCallExpression(call);
}
@SuppressWarnings("unchecked")
private boolean makeGetPrivateFieldWithBridgeMethod(
final Expression receiver,
final ClassNode receiverType,
final String fieldName,
final boolean safe,
final boolean implicitThis) {
FieldNode field = receiverType.getField(fieldName);
ClassNode classNode = controller.getClassNode();
if (field != null
&& Modifier.isPrivate(field.getModifiers())
&& (StaticInvocationWriter.isPrivateBridgeMethodsCallAllowed(receiverType, classNode)
|| StaticInvocationWriter.isPrivateBridgeMethodsCallAllowed(classNode, receiverType))
&& !receiverType.equals(classNode)) {
Map<String, MethodNode> accessors =
(Map<String, MethodNode>)
receiverType
.redirect()
.getNodeMetaData(StaticCompilationMetadataKeys.PRIVATE_FIELDS_ACCESSORS);
if (accessors != null) {
MethodNode methodNode = accessors.get(fieldName);
if (methodNode != null) {
MethodCallExpression mce =
new MethodCallExpression(
receiver,
methodNode.getName(),
new ArgumentListExpression(
field.isStatic() ? new ConstantExpression(null) : receiver));
mce.setMethodTarget(methodNode);
mce.setSafe(safe);
mce.setImplicitThis(implicitThis);
mce.visit(controller.getAcg());
return true;
}
}
}
return false;
}
/**
* Add a new Violation to the list of violations found by this visitor. Only add the violation if
* the node lineNumber >= 0.
*
* @param node - the Groovy AST Node
* @param message - the message for the violation; defaults to null
*/
protected void addViolation(MethodCallExpression node, String message) {
if (node.getLineNumber() >= 0) {
int lineNumber = AstUtil.findFirstNonAnnotationLine(node, sourceCode);
String sourceLine = sourceCode.line(AstUtil.findFirstNonAnnotationLine(node, sourceCode) - 1);
Violation violation = new Violation();
violation.setRule(rule);
violation.setLineNumber(lineNumber);
violation.setSourceLine(sourceLine);
if (currentClassNode != null) {
violation.setMessage(
String.format("Violation in class %s. %s", currentClassNode.getName(), message));
} else {
violation.setMessage(message);
}
violations.add(violation);
}
}
private boolean trySubscript(
final Expression receiver,
final String message,
final Expression arguments,
ClassNode rType,
final ClassNode aType) {
if (getWrapper(rType).isDerivedFrom(Number_TYPE)
&& getWrapper(aType).isDerivedFrom(Number_TYPE)) {
if ("plus".equals(message)
|| "minus".equals(message)
|| "multiply".equals(message)
|| "div".equals(message)) {
writeNumberNumberCall(receiver, message, arguments);
return true;
} else if ("power".equals(message)) {
writePowerCall(receiver, arguments, rType, aType);
return true;
} else if ("mod".equals(message)) {
writeModCall(receiver, arguments, rType, aType);
return true;
}
} else if (STRING_TYPE.equals(rType) && "plus".equals(message)) {
writeStringPlusCall(receiver, message, arguments);
return true;
} else if ("getAt".equals(message)) {
if (rType.isArray() && getWrapper(aType).isDerivedFrom(Number_TYPE)) {
writeArrayGet(receiver, arguments, rType, aType);
return true;
} else {
// check if a getAt method can be found on the receiver
ClassNode current = rType;
MethodNode getAtNode = null;
while (current != null && getAtNode == null) {
getAtNode = current.getMethod("getAt", new Parameter[] {new Parameter(aType, "index")});
if (getAtNode == null && isPrimitiveType(aType)) {
getAtNode =
current.getMethod(
"getAt", new Parameter[] {new Parameter(getWrapper(aType), "index")});
} else if (getAtNode == null && aType.isDerivedFrom(Number_TYPE)) {
getAtNode =
current.getMethod(
"getAt", new Parameter[] {new Parameter(getUnwrapper(aType), "index")});
}
current = current.getSuperClass();
}
if (getAtNode != null) {
MethodCallExpression call = new MethodCallExpression(receiver, "getAt", arguments);
call.setSourcePosition(arguments);
call.setImplicitThis(false);
call.setMethodTarget(getAtNode);
call.visit(controller.getAcg());
return true;
}
// make sure Map#getAt() and List#getAt handled with the bracket syntax are properly
// compiled
ClassNode[] args = {aType};
boolean acceptAnyMethod =
MAP_TYPE.equals(rType)
|| rType.implementsInterface(MAP_TYPE)
|| LIST_TYPE.equals(rType)
|| rType.implementsInterface(LIST_TYPE);
List<MethodNode> nodes =
StaticTypeCheckingSupport.findDGMMethodsByNameAndArguments(
controller.getSourceUnit().getClassLoader(), rType, message, args);
if (nodes.isEmpty()) {
// retry with raw types
rType = rType.getPlainNodeReference();
nodes =
StaticTypeCheckingSupport.findDGMMethodsByNameAndArguments(
controller.getSourceUnit().getClassLoader(), rType, message, args);
}
nodes = StaticTypeCheckingSupport.chooseBestMethod(rType, nodes, args);
if (nodes.size() == 1 || nodes.size() > 1 && acceptAnyMethod) {
MethodNode methodNode = nodes.get(0);
MethodCallExpression call = new MethodCallExpression(receiver, message, arguments);
call.setSourcePosition(arguments);
call.setImplicitThis(false);
call.setMethodTarget(methodNode);
call.visit(controller.getAcg());
return true;
}
if (implementsInterfaceOrIsSubclassOf(rType, MAP_TYPE)) {
// fallback to Map#get
MethodCallExpression call = new MethodCallExpression(receiver, "get", arguments);
call.setMethodTarget(MAP_GET_METHOD);
call.setSourcePosition(arguments);
call.setImplicitThis(false);
call.visit(controller.getAcg());
return true;
}
}
}
return false;
}
private boolean makeGetPropertyWithGetter(
final Expression receiver,
final ClassNode receiverType,
final String methodName,
final boolean safe,
final boolean implicitThis) {
// does a getter exists ?
String getterName = "get" + MetaClassHelper.capitalize(methodName);
MethodNode getterNode = receiverType.getGetterMethod(getterName);
if (getterNode == null) {
getterName = "is" + MetaClassHelper.capitalize(methodName);
getterNode = receiverType.getGetterMethod(getterName);
}
if (getterNode != null
&& receiver instanceof ClassExpression
&& !CLASS_Type.equals(receiverType)
&& !getterNode.isStatic()) {
return false;
}
// GROOVY-5561: if two files are compiled in the same source unit
// and that one references the other, the getters for properties have not been
// generated by the compiler yet (generated by the Verifier)
PropertyNode propertyNode = receiverType.getProperty(methodName);
if (propertyNode != null) {
// it is possible to use a getter
String prefix = "get";
if (boolean_TYPE.equals(propertyNode.getOriginType())) {
prefix = "is";
}
getterName = prefix + MetaClassHelper.capitalize(methodName);
getterNode =
new MethodNode(
getterName,
ACC_PUBLIC,
propertyNode.getOriginType(),
Parameter.EMPTY_ARRAY,
ClassNode.EMPTY_ARRAY,
EmptyStatement.INSTANCE);
getterNode.setDeclaringClass(receiverType);
if (propertyNode.isStatic()) getterNode.setModifiers(ACC_PUBLIC + ACC_STATIC);
}
if (getterNode != null) {
MethodCallExpression call =
new MethodCallExpression(receiver, getterName, ArgumentListExpression.EMPTY_ARGUMENTS);
call.setSourcePosition(receiver);
call.setMethodTarget(getterNode);
call.setImplicitThis(implicitThis);
call.setSafe(safe);
call.visit(controller.getAcg());
return true;
}
if (receiverType instanceof InnerClassNode && !receiverType.isStaticClass()) {
if (makeGetPropertyWithGetter(
receiver, receiverType.getOuterClass(), methodName, safe, implicitThis)) {
return true;
}
}
// go upper level
ClassNode superClass = receiverType.getSuperClass();
if (superClass != null) {
return makeGetPropertyWithGetter(receiver, superClass, methodName, safe, implicitThis);
}
return false;
}
@Override
public void makeGroovyObjectGetPropertySite(
final Expression receiver,
final String methodName,
final boolean safe,
final boolean implicitThis) {
TypeChooser typeChooser = controller.getTypeChooser();
ClassNode classNode = controller.getClassNode();
ClassNode receiverType = typeChooser.resolveType(receiver, classNode);
if (receiver instanceof VariableExpression
&& ((VariableExpression) receiver).isThisExpression()
&& !controller.isInClosure()) {
receiverType = classNode;
}
String property = methodName;
if (implicitThis) {
if (controller.getInvocationWriter() instanceof StaticInvocationWriter) {
MethodCallExpression currentCall =
((StaticInvocationWriter) controller.getInvocationWriter()).getCurrentCall();
if (currentCall != null
&& currentCall.getNodeMetaData(StaticTypesMarker.IMPLICIT_RECEIVER) != null) {
property = (String) currentCall.getNodeMetaData(StaticTypesMarker.IMPLICIT_RECEIVER);
String[] props = property.split("\\.");
BytecodeExpression thisLoader =
new BytecodeExpression() {
@Override
public void visit(final MethodVisitor mv) {
mv.visitVarInsn(ALOAD, 0); // load this
}
};
thisLoader.setType(CLOSURE_TYPE);
Expression pexp =
new PropertyExpression(thisLoader, new ConstantExpression(props[0]), safe);
for (int i = 1, propsLength = props.length; i < propsLength; i++) {
final String prop = props[i];
pexp.putNodeMetaData(StaticTypesMarker.INFERRED_TYPE, CLOSURE_TYPE);
pexp = new PropertyExpression(pexp, prop);
}
pexp.visit(controller.getAcg());
return;
}
}
}
if (makeGetPropertyWithGetter(receiver, receiverType, property, safe, implicitThis)) return;
if (makeGetField(
receiver,
receiverType,
property,
implicitThis,
samePackages(receiverType.getPackageName(), classNode.getPackageName()))) return;
MethodCallExpression call =
new MethodCallExpression(
receiver, "getProperty", new ArgumentListExpression(new ConstantExpression(property)));
call.setImplicitThis(implicitThis);
call.setSafe(safe);
call.setMethodTarget(GROOVYOBJECT_GETPROPERTY_METHOD);
call.visit(controller.getAcg());
return;
}
public void visitMethodCallExpression(MethodCallExpression call) {
call.getObjectExpression().visit(this);
call.getMethod().visit(this);
call.getArguments().visit(this);
}
protected Expression transformMethodCallExpression(MethodCallExpression mce) {
Expression args = transform(mce.getArguments());
Expression method = transform(mce.getMethod());
Expression object = transform(mce.getObjectExpression());
boolean isExplicitThisOrSuper = false;
if (object instanceof VariableExpression) {
VariableExpression ve = (VariableExpression) object;
isExplicitThisOrSuper =
!mce.isImplicitThis() && (ve.getName().equals("this") || ve.getName().equals("super"));
}
if (mce.isImplicitThis() || isExplicitThisOrSuper) {
if (mce.isImplicitThis()) {
Expression ret = findStaticMethodImportFromModule(method, args);
if (ret != null) {
// GRECLIPSE add
if (!((StaticMethodCallExpression) ret).getMethod().equals(method.getText())) {
// store the identifier to facilitate organizing static imports
ret.setNodeMetaData("static.import.alias", method.getText());
}
// GRECLIPSE end
setSourcePosition(ret, mce);
return ret;
}
if (method instanceof ConstantExpression && !inLeftExpression) {
// could be a closure field
String methodName = (String) ((ConstantExpression) method).getValue();
ret = findStaticFieldOrPropAccessorImportFromModule(methodName);
if (ret != null) {
ret = new MethodCallExpression(ret, "call", args);
setSourcePosition(ret, mce);
return ret;
}
}
}
if (method instanceof ConstantExpression) {
ConstantExpression ce = (ConstantExpression) method;
Object value = ce.getValue();
if (value instanceof String) {
String methodName = (String) value;
boolean lookForPossibleStaticMethod = !methodName.equals("call");
if (currentMethod != null && !currentMethod.isStatic()) {
if (currentClass.hasPossibleMethod(methodName, args)) {
lookForPossibleStaticMethod = false;
}
}
if (inSpecialConstructorCall
|| (lookForPossibleStaticMethod
&& currentClass.hasPossibleStaticMethod(methodName, args))) {
StaticMethodCallExpression smce =
new StaticMethodCallExpression(currentClass, methodName, args);
setSourcePosition(smce, mce);
return smce;
}
}
}
}
MethodCallExpression result = new MethodCallExpression(object, method, args);
result.setSafe(mce.isSafe());
result.setImplicitThis(mce.isImplicitThis());
result.setSpreadSafe(mce.isSpreadSafe());
result.setMethodTarget(mce.getMethodTarget());
// GROOVY-6757
result.setGenericsTypes(mce.getGenericsTypes());
setSourcePosition(result, mce);
return result;
}
@Override
public void makeGetPropertySite(
Expression receiver,
final String methodName,
final boolean safe,
final boolean implicitThis) {
Object dynamic =
receiver.getNodeMetaData(StaticCompilationMetadataKeys.RECEIVER_OF_DYNAMIC_PROPERTY);
if (dynamic != null) {
MethodNode target =
safe ? INVOKERHELPER_GETPROPERTYSAFE_METHOD : INVOKERHELPER_GETPROPERTY_METHOD;
MethodCallExpression mce =
new MethodCallExpression(
new ClassExpression(INVOKERHELPER_TYPE),
target.getName(),
new ArgumentListExpression(receiver, new ConstantExpression(methodName)));
mce.setSafe(false);
mce.setImplicitThis(false);
mce.setMethodTarget(target);
mce.visit(controller.getAcg());
return;
}
TypeChooser typeChooser = controller.getTypeChooser();
ClassNode classNode = controller.getClassNode();
ClassNode receiverType =
(ClassNode) receiver.getNodeMetaData(StaticCompilationMetadataKeys.PROPERTY_OWNER);
if (receiverType == null) {
receiverType = typeChooser.resolveType(receiver, classNode);
}
Object type = receiver.getNodeMetaData(StaticTypesMarker.INFERRED_TYPE);
if (type == null && receiver instanceof VariableExpression) {
Variable variable = ((VariableExpression) receiver).getAccessedVariable();
if (variable instanceof Expression) {
type = ((Expression) variable).getNodeMetaData(StaticTypesMarker.INFERRED_TYPE);
}
}
if (type != null) {
// in case a "flow type" is found, it is preferred to use it instead of
// the declaration type
receiverType = (ClassNode) type;
}
boolean isClassReceiver = false;
if (isClassClassNodeWrappingConcreteType(receiverType)) {
isClassReceiver = true;
receiverType = receiverType.getGenericsTypes()[0].getType();
}
MethodVisitor mv = controller.getMethodVisitor();
if (receiverType.isArray() && methodName.equals("length")) {
receiver.visit(controller.getAcg());
ClassNode arrayGetReturnType = typeChooser.resolveType(receiver, classNode);
controller.getOperandStack().doGroovyCast(arrayGetReturnType);
mv.visitInsn(ARRAYLENGTH);
controller.getOperandStack().replace(int_TYPE);
return;
} else if ((receiverType.implementsInterface(COLLECTION_TYPE)
|| COLLECTION_TYPE.equals(receiverType))
&& ("size".equals(methodName) || "length".equals(methodName))) {
MethodCallExpression expr =
new MethodCallExpression(receiver, "size", ArgumentListExpression.EMPTY_ARGUMENTS);
expr.setMethodTarget(COLLECTION_SIZE_METHOD);
expr.setImplicitThis(implicitThis);
expr.setSafe(safe);
expr.visit(controller.getAcg());
return;
}
if (makeGetPropertyWithGetter(receiver, receiverType, methodName, safe, implicitThis)) return;
if (makeGetField(
receiver,
receiverType,
methodName,
implicitThis,
samePackages(receiverType.getPackageName(), classNode.getPackageName()))) return;
if (receiverType.isEnum()) {
mv.visitFieldInsn(
GETSTATIC,
BytecodeHelper.getClassInternalName(receiverType),
methodName,
BytecodeHelper.getTypeDescription(receiverType));
controller.getOperandStack().push(receiverType);
return;
}
if (receiver instanceof ClassExpression) {
if (makeGetField(
receiver,
receiver.getType(),
methodName,
implicitThis,
samePackages(receiver.getType().getPackageName(), classNode.getPackageName()))) return;
if (makeGetPropertyWithGetter(receiver, receiver.getType(), methodName, safe, implicitThis))
return;
if (makeGetPrivateFieldWithBridgeMethod(
receiver, receiver.getType(), methodName, safe, implicitThis)) return;
}
if (isClassReceiver) {
// we are probably looking for a property of the class
if (makeGetPropertyWithGetter(receiver, CLASS_Type, methodName, safe, implicitThis)) return;
if (makeGetField(receiver, CLASS_Type, methodName, false, true)) return;
}
if (makeGetPrivateFieldWithBridgeMethod(receiver, receiverType, methodName, safe, implicitThis))
return;
// GROOVY-5580, it is still possible that we're calling a superinterface property
String getterName = "get" + MetaClassHelper.capitalize(methodName);
if (receiverType.isInterface()) {
Set<ClassNode> allInterfaces = receiverType.getAllInterfaces();
MethodNode getterMethod = null;
for (ClassNode anInterface : allInterfaces) {
getterMethod = anInterface.getGetterMethod(getterName);
if (getterMethod != null) break;
}
// GROOVY-5585
if (getterMethod == null) {
getterMethod = OBJECT_TYPE.getGetterMethod(getterName);
}
if (getterMethod != null) {
MethodCallExpression call =
new MethodCallExpression(receiver, getterName, ArgumentListExpression.EMPTY_ARGUMENTS);
call.setMethodTarget(getterMethod);
call.setImplicitThis(false);
call.setSourcePosition(receiver);
call.visit(controller.getAcg());
return;
}
}
// GROOVY-5568, we would be facing a DGM call, but instead of foo.getText(), have foo.text
List<MethodNode> methods =
findDGMMethodsByNameAndArguments(
controller.getSourceUnit().getClassLoader(),
receiverType,
getterName,
ClassNode.EMPTY_ARRAY);
if (!methods.isEmpty()) {
List<MethodNode> methodNodes = chooseBestMethod(receiverType, methods, ClassNode.EMPTY_ARRAY);
if (methodNodes.size() == 1) {
MethodNode getter = methodNodes.get(0);
MethodCallExpression call =
new MethodCallExpression(receiver, getterName, ArgumentListExpression.EMPTY_ARGUMENTS);
call.setMethodTarget(getter);
call.setImplicitThis(false);
call.setSourcePosition(receiver);
call.visit(controller.getAcg());
return;
}
}
boolean isStaticProperty =
receiver instanceof ClassExpression
&& (receiverType.isDerivedFrom(receiver.getType())
|| receiverType.implementsInterface(receiver.getType()));
if (!isStaticProperty) {
if (receiverType.implementsInterface(MAP_TYPE) || MAP_TYPE.equals(receiverType)) {
// for maps, replace map.foo with map.get('foo')
writeMapDotProperty(receiver, methodName, mv, safe);
return;
}
if (receiverType.implementsInterface(LIST_TYPE) || LIST_TYPE.equals(receiverType)) {
writeListDotProperty(receiver, methodName, mv, safe);
return;
}
}
controller
.getSourceUnit()
.addError(
new SyntaxException(
"Access to "
+ (receiver instanceof ClassExpression ? receiver.getType() : receiverType)
.toString(false)
+ "#"
+ methodName
+ " is forbidden",
receiver.getLineNumber(),
receiver.getColumnNumber(),
receiver.getLastLineNumber(),
receiver.getLastColumnNumber()));
controller.getMethodVisitor().visitInsn(ACONST_NULL);
controller.getOperandStack().push(OBJECT_TYPE);
}
protected Expression transformMethodCallExpression(MethodCallExpression mce) {
Expression args = transform(mce.getArguments());
Expression method = transform(mce.getMethod());
Expression object = transform(mce.getObjectExpression());
boolean isExplicitThisOrSuper = false;
boolean isExplicitSuper = false;
if (object instanceof VariableExpression) {
VariableExpression ve = (VariableExpression) object;
isExplicitThisOrSuper =
!mce.isImplicitThis() && (ve.isThisExpression() || ve.isSuperExpression());
isExplicitSuper = ve.isSuperExpression();
}
if (mce.isImplicitThis() || isExplicitThisOrSuper) {
if (mce.isImplicitThis()) {
Expression ret = findStaticMethodImportFromModule(method, args);
if (ret != null) {
setSourcePosition(ret, mce);
return ret;
}
if (method instanceof ConstantExpression && !inLeftExpression) {
// could be a closure field
String methodName = (String) ((ConstantExpression) method).getValue();
ret = findStaticFieldOrPropAccessorImportFromModule(methodName);
if (ret != null) {
ret = new MethodCallExpression(ret, "call", args);
setSourcePosition(ret, mce);
return ret;
}
}
} else if (currentMethod != null && currentMethod.isStatic() && isExplicitSuper) {
MethodCallExpression ret =
new MethodCallExpression(
new ClassExpression(currentClass.getSuperClass()), method, args);
setSourcePosition(ret, mce);
return ret;
}
if (method instanceof ConstantExpression) {
ConstantExpression ce = (ConstantExpression) method;
Object value = ce.getValue();
if (value instanceof String) {
String methodName = (String) value;
boolean lookForPossibleStaticMethod = !methodName.equals("call");
if (currentMethod != null && !currentMethod.isStatic()) {
if (currentClass.hasPossibleMethod(methodName, args)) {
lookForPossibleStaticMethod = false;
}
}
if (!inClosure
&& (inSpecialConstructorCall
|| (lookForPossibleStaticMethod
&& currentClass.hasPossibleStaticMethod(methodName, args)))) {
StaticMethodCallExpression smce =
new StaticMethodCallExpression(currentClass, methodName, args);
setSourcePosition(smce, mce);
return smce;
}
}
}
}
MethodCallExpression result = new MethodCallExpression(object, method, args);
result.setSafe(mce.isSafe());
result.setImplicitThis(mce.isImplicitThis());
result.setSpreadSafe(mce.isSpreadSafe());
result.setMethodTarget(mce.getMethodTarget());
// GROOVY-6757
result.setGenericsTypes(mce.getGenericsTypes());
setSourcePosition(result, mce);
return result;
}
Expression transformMethodCallExpression(final MethodCallExpression expr) {
Expression objectExpression = expr.getObjectExpression();
if (expr.isSafe()) {
MethodCallExpression notSafe =
new MethodCallExpression(objectExpression, expr.getMethod(), expr.getArguments());
notSafe.copyNodeMetaData(expr);
notSafe.setSpreadSafe(expr.isSpreadSafe());
notSafe.setSourcePosition(expr);
notSafe.setMethodTarget(expr.getMethodTarget());
TernaryExpression texpr =
new TernaryExpression(
new BooleanExpression(
new BinaryExpression(
objectExpression,
Token.newSymbol(
"!=",
objectExpression.getLineNumber(),
objectExpression.getColumnNumber()),
ConstantExpression.NULL)),
notSafe,
ConstantExpression.NULL);
return staticCompilationTransformer.transform(texpr);
}
ClassNode type =
staticCompilationTransformer
.getTypeChooser()
.resolveType(objectExpression, staticCompilationTransformer.getClassNode());
if (type != null && type.isArray()) {
String method = expr.getMethodAsString();
ClassNode componentType = type.getComponentType();
if ("getAt".equals(method)) {
Expression arguments = expr.getArguments();
if (arguments instanceof TupleExpression) {
List<Expression> argList = ((TupleExpression) arguments).getExpressions();
if (argList.size() == 1) {
Expression indexExpr = argList.get(0);
ClassNode argType =
staticCompilationTransformer
.getTypeChooser()
.resolveType(indexExpr, staticCompilationTransformer.getClassNode());
ClassNode indexType = ClassHelper.getWrapper(argType);
if (componentType.isEnum() && ClassHelper.Number_TYPE == indexType) {
// workaround for generated code in enums which use .next() returning a Number
indexType = ClassHelper.Integer_TYPE;
}
if (argType != null && ClassHelper.Integer_TYPE == indexType) {
BinaryExpression binaryExpression =
new BinaryExpression(
objectExpression,
Token.newSymbol("[", indexExpr.getLineNumber(), indexExpr.getColumnNumber()),
indexExpr);
binaryExpression.putNodeMetaData(StaticTypesMarker.INFERRED_TYPE, componentType);
return staticCompilationTransformer.transform(binaryExpression);
}
}
}
}
if ("putAt".equals(method)) {
Expression arguments = expr.getArguments();
if (arguments instanceof TupleExpression) {
List<Expression> argList = ((TupleExpression) arguments).getExpressions();
if (argList.size() == 2) {
Expression indexExpr = argList.get(0);
Expression objExpr = argList.get(1);
ClassNode argType =
staticCompilationTransformer
.getTypeChooser()
.resolveType(indexExpr, staticCompilationTransformer.getClassNode());
if (argType != null && ClassHelper.Integer_TYPE == ClassHelper.getWrapper(argType)) {
BinaryExpression arrayGet =
new BinaryExpression(
objectExpression,
Token.newSymbol("[", indexExpr.getLineNumber(), indexExpr.getColumnNumber()),
indexExpr);
arrayGet.putNodeMetaData(StaticTypesMarker.INFERRED_TYPE, componentType);
BinaryExpression assignment =
new BinaryExpression(
arrayGet,
Token.newSymbol("=", objExpr.getLineNumber(), objExpr.getColumnNumber()),
objExpr);
return staticCompilationTransformer.transform(assignment);
}
}
}
}
}
return staticCompilationTransformer.superTransform(expr);
}
public BytecodeExpr transformLogical(
T exp, CompilerTransformer compiler, final Label label, final boolean onTrue) {
final BytecodeExpr be;
be = (BytecodeExpr) transform(exp, compiler);
final ClassNode type = be.getType();
if (type == ClassHelper.VOID_TYPE) {
return be;
}
if (ClassHelper.isPrimitiveType(type)) {
return new BytecodeExpr(exp, ClassHelper.VOID_TYPE) {
protected void compile(MethodVisitor mv) {
be.visit(mv);
if (type == ClassHelper.byte_TYPE
|| type == ClassHelper.short_TYPE
|| type == ClassHelper.char_TYPE
|| type == ClassHelper.boolean_TYPE
|| type == ClassHelper.int_TYPE) {
} else if (type == ClassHelper.long_TYPE) {
mv.visitInsn(L2I);
} else if (type == ClassHelper.float_TYPE) {
mv.visitInsn(F2I);
} else if (type == ClassHelper.double_TYPE) {
mv.visitInsn(D2I);
}
mv.visitJumpInsn(onTrue ? IFNE : IFEQ, label);
}
};
} else {
MethodCallExpression safeCall =
new MethodCallExpression(
new BytecodeExpr(exp, be.getType()) {
protected void compile(MethodVisitor mv) {}
},
"asBoolean",
ArgumentListExpression.EMPTY_ARGUMENTS);
safeCall.setSourcePosition(exp);
final ResolvedMethodBytecodeExpr call =
(ResolvedMethodBytecodeExpr) compiler.transform(safeCall);
if (!call.getType().equals(ClassHelper.boolean_TYPE))
compiler.addError("asBoolean should return 'boolean'", exp);
if (call.getMethodNode().getDeclaringClass().equals(ClassHelper.OBJECT_TYPE)) {
// fast path
return new BytecodeExpr(exp, ClassHelper.VOID_TYPE) {
protected void compile(MethodVisitor mv) {
be.visit(mv);
mv.visitJumpInsn(onTrue ? IFNONNULL : IFNULL, label);
}
};
} else {
return new BytecodeExpr(exp, ClassHelper.VOID_TYPE) {
protected void compile(MethodVisitor mv) {
be.visit(mv);
mv.visitInsn(DUP);
Label nullLabel = new Label(), endLabel = new Label();
mv.visitJumpInsn(IFNULL, nullLabel);
call.visit(mv);
if (onTrue) {
mv.visitJumpInsn(IFEQ, endLabel);
mv.visitJumpInsn(GOTO, label);
mv.visitLabel(nullLabel);
mv.visitInsn(POP);
} else {
mv.visitJumpInsn(IFNE, endLabel);
mv.visitJumpInsn(GOTO, label);
mv.visitLabel(nullLabel);
mv.visitInsn(POP);
mv.visitJumpInsn(GOTO, label);
}
mv.visitLabel(endLabel);
}
};
}
}
}
