protected void evaluateCompareExpression(
MethodCaller compareMethod, BinaryExpression expression) {
Expression leftExp = expression.getLeftExpression();
TypeChooser typeChooser = controller.getTypeChooser();
ClassNode cn = controller.getClassNode();
ClassNode leftType = typeChooser.resolveType(leftExp, cn);
Expression rightExp = expression.getRightExpression();
ClassNode rightType = typeChooser.resolveType(rightExp, cn);
boolean done = false;
if (ClassHelper.isPrimitiveType(leftType) && ClassHelper.isPrimitiveType(rightType)) {
BinaryExpressionMultiTypeDispatcher helper =
new BinaryExpressionMultiTypeDispatcher(getController());
done = helper.doPrimitiveCompare(leftType, rightType, expression);
}
if (!done) {
AsmClassGenerator acg = controller.getAcg();
OperandStack operandStack = controller.getOperandStack();
leftExp.visit(acg);
operandStack.box();
rightExp.visit(acg);
operandStack.box();
compareMethod.call(controller.getMethodVisitor());
ClassNode resType = ClassHelper.boolean_TYPE;
if (compareMethod == findRegexMethod) {
resType = ClassHelper.OBJECT_TYPE;
}
operandStack.replace(resType, 2);
}
}
@Override
public void makeSingleArgumentCall(
final Expression receiver, final String message, final Expression arguments) {
TypeChooser typeChooser = controller.getTypeChooser();
ClassNode classNode = controller.getClassNode();
ClassNode rType = typeChooser.resolveType(receiver, classNode);
ClassNode aType = typeChooser.resolveType(arguments, classNode);
if (trySubscript(receiver, message, arguments, rType, aType)) {
return;
}
// new try with flow type instead of declaration type
rType = receiver.getNodeMetaData(StaticTypesMarker.INFERRED_TYPE);
if (rType != null && trySubscript(receiver, message, arguments, rType, aType)) {
return;
}
// todo: more cases
throw new GroovyBugError(
"At line "
+ receiver.getLineNumber()
+ " column "
+ receiver.getColumnNumber()
+ "\n"
+ "On receiver: "
+ receiver.getText()
+ " with message: "
+ message
+ " and arguments: "
+ arguments.getText()
+ "\n"
+ "This method should not have been called. Please try to create a simple example reproducing this error and file"
+ "a bug report at http://jira.codehaus.org/browse/GROOVY");
}
public void loadOrStoreVariable(BytecodeVariable variable, boolean useReferenceDirectly) {
CompileStack compileStack = controller.getCompileStack();
if (compileStack.isLHS()) {
storeVar(variable);
} else {
MethodVisitor mv = controller.getMethodVisitor();
int idx = variable.getIndex();
ClassNode type = variable.getType();
if (variable.isHolder()) {
mv.visitVarInsn(ALOAD, idx);
if (!useReferenceDirectly) {
mv.visitMethodInsn(
INVOKEVIRTUAL, "groovy/lang/Reference", "get", "()Ljava/lang/Object;", false);
BytecodeHelper.doCast(mv, type);
push(type);
} else {
push(ClassHelper.REFERENCE_TYPE);
}
} else {
load(type, idx);
}
}
}
private VariableSlotLoader loadWithSubscript(Expression expression) {
final OperandStack operandStack = controller.getOperandStack();
// if we have a BinaryExpression, let us check if it is with
// subscription
if (expression instanceof BinaryExpression) {
BinaryExpression be = (BinaryExpression) expression;
if (be.getOperation().getType() == Types.LEFT_SQUARE_BRACKET) {
// right expression is the subscript expression
// we store the result of the subscription on the stack
Expression subscript = be.getRightExpression();
subscript.visit(controller.getAcg());
ClassNode subscriptType = operandStack.getTopOperand();
int id =
controller.getCompileStack().defineTemporaryVariable("$subscript", subscriptType, true);
VariableSlotLoader subscriptExpression =
new VariableSlotLoader(subscriptType, id, operandStack);
// do modified visit
BinaryExpression newBe =
new BinaryExpression(be.getLeftExpression(), be.getOperation(), subscriptExpression);
newBe.copyNodeMetaData(be);
newBe.setSourcePosition(be);
newBe.visit(controller.getAcg());
return subscriptExpression;
}
}
// normal loading of expression
expression.visit(controller.getAcg());
return null;
}
private void throwExceptionForNoStackElement(int size, ClassNode targetType, boolean coerce) {
if (size > 0) return;
StringBuilder sb = new StringBuilder();
sb.append("Internal compiler error while compiling ")
.append(controller.getSourceUnit().getName())
.append("\n");
MethodNode methodNode = controller.getMethodNode();
if (methodNode != null) {
sb.append("Method: ");
sb.append(methodNode);
sb.append("\n");
}
ConstructorNode constructorNode = controller.getConstructorNode();
if (constructorNode != null) {
sb.append("Constructor: ");
sb.append(methodNode);
sb.append("\n");
}
sb.append("Line ").append(controller.getLineNumber()).append(",");
sb.append(" expecting ")
.append(coerce ? "coercion" : "casting")
.append(" to ")
.append(targetType.toString(false));
sb.append(" but operand stack is empty");
throw new ArrayIndexOutOfBoundsException(sb.toString());
}
private void writeMapDotProperty(
final Expression receiver,
final String methodName,
final MethodVisitor mv,
final boolean safe) {
receiver.visit(controller.getAcg()); // load receiver
Label exit = new Label();
if (safe) {
Label doGet = new Label();
mv.visitJumpInsn(IFNONNULL, doGet);
controller.getOperandStack().remove(1);
mv.visitInsn(ACONST_NULL);
mv.visitJumpInsn(GOTO, exit);
mv.visitLabel(doGet);
receiver.visit(controller.getAcg());
}
mv.visitLdcInsn(methodName); // load property name
mv.visitMethodInsn(
INVOKEINTERFACE, "java/util/Map", "get", "(Ljava/lang/Object;)Ljava/lang/Object;", true);
if (safe) {
mv.visitLabel(exit);
}
controller.getOperandStack().replace(OBJECT_TYPE);
}
/**
* ensure last marked parameter on the stack is a primitive boolean if mark==stack size, we assume
* an empty expression or statement. was used and we will use the value given in emptyDefault as
* boolean if mark==stack.size()-1 the top element will be cast to boolean using Groovy truth. In
* other cases we throw a GroovyBugError
*/
public void castToBool(int mark, boolean emptyDefault) {
int size = stack.size();
MethodVisitor mv = controller.getMethodVisitor();
if (mark == size) {
// no element, so use emptyDefault
if (emptyDefault) {
mv.visitIntInsn(BIPUSH, 1);
} else {
mv.visitIntInsn(BIPUSH, 0);
}
stack.add(null);
} else if (mark == stack.size() - 1) {
ClassNode last = stack.get(size - 1);
// nothing to do in that case
if (last == ClassHelper.boolean_TYPE) return;
// not a primitive type, so call booleanUnbox
if (!ClassHelper.isPrimitiveType(last)) {
controller.getInvocationWriter().castNonPrimitiveToBool(last);
} else {
primitive2b(mv, last);
}
} else {
throw new GroovyBugError(
"operand stack contains " + stack.size() + " elements, but we expected only " + mark);
}
stack.set(mark, ClassHelper.boolean_TYPE);
}
public boolean addGeneratedClosureConstructorCall(ConstructorCallExpression call) {
ClassNode classNode = controller.getClassNode();
if (!classNode.declaresInterface(ClassHelper.GENERATED_CLOSURE_Type)) return false;
AsmClassGenerator acg = controller.getAcg();
OperandStack operandStack = controller.getOperandStack();
MethodVisitor mv = controller.getMethodVisitor();
mv.visitVarInsn(ALOAD, 0);
ClassNode callNode = classNode.getSuperClass();
TupleExpression arguments = (TupleExpression) call.getArguments();
if (arguments.getExpressions().size() != 2)
throw new GroovyBugError(
"expected 2 arguments for closure constructor super call, but got"
+ arguments.getExpressions().size());
arguments.getExpression(0).visit(acg);
operandStack.box();
arguments.getExpression(1).visit(acg);
operandStack.box();
// TODO: replace with normal String, p not needed
Parameter p = new Parameter(ClassHelper.OBJECT_TYPE, "_p");
String descriptor =
BytecodeHelper.getMethodDescriptor(ClassHelper.VOID_TYPE, new Parameter[] {p, p});
mv.visitMethodInsn(
INVOKESPECIAL, BytecodeHelper.getClassInternalName(callNode), "<init>", descriptor, false);
operandStack.remove(2);
return true;
}
private void loadInitValue(ClassNode type) {
MethodVisitor mv = controller.getMethodVisitor();
if (ClassHelper.isPrimitiveType(type)) {
mv.visitLdcInsn(0);
} else {
mv.visitInsn(ACONST_NULL);
}
controller.getOperandStack().push(type);
}
protected void evaluateBinaryExpression(String message, BinaryExpression binExp) {
CompileStack compileStack = controller.getCompileStack();
Expression receiver = binExp.getLeftExpression();
Expression arguments = binExp.getRightExpression();
// ensure VariableArguments are read, not stored
compileStack.pushLHS(false);
controller.getInvocationWriter().makeSingleArgumentCall(receiver, message, arguments);
compileStack.popLHS();
}
private void loadThis() {
MethodVisitor mv = controller.getMethodVisitor();
mv.visitVarInsn(ALOAD, 0);
if (controller.isInClosure()) {
mv.visitMethodInsn(
INVOKEVIRTUAL, "groovy/lang/Closure", "getThisObject", "()Ljava/lang/Object;", false);
controller.getOperandStack().push(ClassHelper.OBJECT_TYPE);
} else {
controller.getOperandStack().push(controller.getClassNode());
}
}
private void evaluateElvisOperatorExpression(ElvisOperatorExpression expression) {
MethodVisitor mv = controller.getMethodVisitor();
CompileStack compileStack = controller.getCompileStack();
OperandStack operandStack = controller.getOperandStack();
TypeChooser typeChooser = controller.getTypeChooser();
Expression boolPart = expression.getBooleanExpression().getExpression();
Expression falsePart = expression.getFalseExpression();
ClassNode truePartType = typeChooser.resolveType(boolPart, controller.getClassNode());
ClassNode falsePartType = typeChooser.resolveType(falsePart, controller.getClassNode());
ClassNode common = WideningCategories.lowestUpperBound(truePartType, falsePartType);
// x?:y is equal to x?x:y, which evals to
// var t=x; boolean(t)?t:y
// first we load x, dup it, convert the dupped to boolean, then
// jump depending on the value. For true we are done, for false we
// have to load y, thus we first remove x and then load y.
// But since x and y may have different stack lengths, this cannot work
// Thus we have to have to do the following:
// Be X the type of x, Y the type of y and S the common supertype of
// X and Y, then we have to see x?:y as
// var t=x;boolean(t)?S(t):S(y)
// so we load x, dup it, store the value in a local variable (t), then
// do boolean conversion. In the true part load t and cast it to S,
// in the false part load y and cast y to S
// load x, dup it, store one in $t and cast the remaining one to boolean
int mark = operandStack.getStackLength();
boolPart.visit(controller.getAcg());
operandStack.dup();
if (ClassHelper.isPrimitiveType(truePartType)
&& !ClassHelper.isPrimitiveType(operandStack.getTopOperand())) {
truePartType = ClassHelper.getWrapper(truePartType);
}
int retValueId = compileStack.defineTemporaryVariable("$t", truePartType, true);
operandStack.castToBool(mark, true);
Label l0 = operandStack.jump(IFEQ);
// true part: load $t and cast to S
operandStack.load(truePartType, retValueId);
operandStack.doGroovyCast(common);
Label l1 = new Label();
mv.visitJumpInsn(GOTO, l1);
// false part: load false expression and cast to S
mv.visitLabel(l0);
falsePart.visit(controller.getAcg());
operandStack.doGroovyCast(common);
// finish and cleanup
mv.visitLabel(l1);
compileStack.removeVar(retValueId);
controller.getOperandStack().replace(common, 2);
}
private void writePowerCall(
Expression receiver, Expression arguments, final ClassNode rType, ClassNode aType) {
OperandStack operandStack = controller.getOperandStack();
int m1 = operandStack.getStackLength();
// slow Path
prepareSiteAndReceiver(receiver, "power", false, controller.getCompileStack().isLHS());
operandStack.doGroovyCast(getWrapper(rType));
visitBoxedArgument(arguments);
operandStack.doGroovyCast(getWrapper(aType));
int m2 = operandStack.getStackLength();
MethodVisitor mv = controller.getMethodVisitor();
if (BigDecimal_TYPE.equals(rType) && Integer_TYPE.equals(getWrapper(aType))) {
mv.visitMethodInsn(
INVOKESTATIC,
"org/codehaus/groovy/runtime/DefaultGroovyMethods",
"power",
"(Ljava/math/BigDecimal;Ljava/lang/Integer;)Ljava/lang/Number;",
false);
} else if (BigInteger_TYPE.equals(rType) && Integer_TYPE.equals(getWrapper(aType))) {
mv.visitMethodInsn(
INVOKESTATIC,
"org/codehaus/groovy/runtime/DefaultGroovyMethods",
"power",
"(Ljava/math/BigInteger;Ljava/lang/Integer;)Ljava/lang/Number;",
false);
} else if (Long_TYPE.equals(getWrapper(rType)) && Integer_TYPE.equals(getWrapper(aType))) {
mv.visitMethodInsn(
INVOKESTATIC,
"org/codehaus/groovy/runtime/DefaultGroovyMethods",
"power",
"(Ljava/lang/Long;Ljava/lang/Integer;)Ljava/lang/Number;",
false);
} else if (Integer_TYPE.equals(getWrapper(rType)) && Integer_TYPE.equals(getWrapper(aType))) {
mv.visitMethodInsn(
INVOKESTATIC,
"org/codehaus/groovy/runtime/DefaultGroovyMethods",
"power",
"(Ljava/lang/Integer;Ljava/lang/Integer;)Ljava/lang/Number;",
false);
} else {
mv.visitMethodInsn(
INVOKESTATIC,
"org/codehaus/groovy/runtime/DefaultGroovyMethods",
"power",
"(Ljava/lang/Number;Ljava/lang/Number;)Ljava/lang/Number;",
false);
}
controller.getOperandStack().replace(Number_TYPE, m2 - m1);
}
private void writeModCall(
Expression receiver, Expression arguments, ClassNode rType, ClassNode aType) {
prepareSiteAndReceiver(receiver, "mod", false, controller.getCompileStack().isLHS());
controller.getOperandStack().doGroovyCast(Number_TYPE);
visitBoxedArgument(arguments);
controller.getOperandStack().doGroovyCast(Number_TYPE);
MethodVisitor mv = controller.getMethodVisitor();
mv.visitMethodInsn(
INVOKESTATIC,
"org/codehaus/groovy/runtime/typehandling/NumberMath",
"mod",
"(Ljava/lang/Number;Ljava/lang/Number;)Ljava/lang/Number;",
false);
controller.getOperandStack().replace(Number_TYPE, 2);
}
private void doConvertAndCast(ClassNode targetType, boolean coerce) {
int size = stack.size();
throwExceptionForNoStackElement(size, targetType, coerce);
ClassNode top = stack.get(size - 1);
targetType = targetType.redirect();
if (targetType == top) return;
if (coerce) {
controller.getInvocationWriter().coerce(top, targetType);
return;
}
boolean primTarget = ClassHelper.isPrimitiveType(targetType);
boolean primTop = ClassHelper.isPrimitiveType(top);
if (primTop && primTarget) {
// here we box and unbox to get the goal type
if (convertPrimitive(top, targetType)) {
replace(targetType);
return;
}
box();
} else if (primTop) {
// top is primitive, target is not
// so box and do groovy cast
controller.getInvocationWriter().castToNonPrimitiveIfNecessary(top, targetType);
} else if (primTarget) {
// top is not primitive so unbox
// leave that BH#doCast later
} else {
controller.getInvocationWriter().castToNonPrimitiveIfNecessary(top, targetType);
}
MethodVisitor mv = controller.getMethodVisitor();
if (primTarget
&& !ClassHelper.boolean_TYPE.equals(targetType)
&& !primTop
&& ClassHelper.getWrapper(targetType).equals(top)) {
BytecodeHelper.doCastToPrimitive(mv, top, targetType);
} else {
top = stack.get(size - 1);
if (!WideningCategories.implementsInterfaceOrSubclassOf(top, targetType)) {
BytecodeHelper.doCast(mv, targetType);
}
}
replace(targetType);
}
/** swap two top level operands */
public void swap() {
MethodVisitor mv = controller.getMethodVisitor();
int size = stack.size();
ClassNode b = stack.get(size - 1);
ClassNode a = stack.get(size - 2);
// dup_x1: ---
// dup_x2: aab -> baab
// dup2_x1: abb -> bbabb
// dup2_x2: aabb -> bbaabb
// b = top element, a = element under b
// top element at right
if (isTwoSlotType(a)) { // aa
if (isTwoSlotType(b)) { // aabb
// aabb -> bbaa
mv.visitInsn(DUP2_X2); // bbaabb
mv.visitInsn(POP2); // bbaa
} else {
// aab -> baa
mv.visitInsn(DUP_X2); // baab
mv.visitInsn(POP); // baa
}
} else { // a
if (isTwoSlotType(b)) { // abb
// abb -> bba
mv.visitInsn(DUP2_X1); // bbabb
mv.visitInsn(POP2); // bba
} else {
// ab -> ba
mv.visitInsn(SWAP);
}
}
stack.set(size - 1, a);
stack.set(size - 2, b);
}
private void evaluateCompareTo(BinaryExpression expression) {
Expression leftExpression = expression.getLeftExpression();
AsmClassGenerator acg = controller.getAcg();
OperandStack operandStack = controller.getOperandStack();
leftExpression.visit(acg);
operandStack.box();
// if the right hand side is a boolean expression, we need to autobox
Expression rightExpression = expression.getRightExpression();
rightExpression.visit(acg);
operandStack.box();
compareToMethod.call(controller.getMethodVisitor());
operandStack.replace(ClassHelper.Integer_TYPE, 2);
}
private ClassNode popWithMessage(int last) {
try {
return stack.remove(last);
} catch (ArrayIndexOutOfBoundsException ai) {
String method =
controller.getMethodNode() == null
? controller.getConstructorNode().getTypeDescriptor()
: controller.getMethodNode().getTypeDescriptor();
throw new GroovyBugError(
"Error while popping argument from operand stack tracker in class "
+ controller.getClassName()
+ " method "
+ method
+ ".");
}
}
public void storeVar(BytecodeVariable variable) {
MethodVisitor mv = controller.getMethodVisitor();
int idx = variable.getIndex();
ClassNode type = variable.getType();
// value is on stack
if (variable.isHolder()) {
doGroovyCast(type);
box();
mv.visitVarInsn(ALOAD, idx);
mv.visitTypeInsn(CHECKCAST, "groovy/lang/Reference");
mv.visitInsn(SWAP);
mv.visitMethodInsn(
INVOKEVIRTUAL, "groovy/lang/Reference", "set", "(Ljava/lang/Object;)V", false);
} else {
doGroovyCast(type);
if (type == ClassHelper.double_TYPE) {
mv.visitVarInsn(DSTORE, idx);
} else if (type == ClassHelper.float_TYPE) {
mv.visitVarInsn(FSTORE, idx);
} else if (type == ClassHelper.long_TYPE) {
mv.visitVarInsn(LSTORE, idx);
} else if (type == ClassHelper.boolean_TYPE
|| type == ClassHelper.char_TYPE
|| type == ClassHelper.byte_TYPE
|| type == ClassHelper.int_TYPE
|| type == ClassHelper.short_TYPE) {
mv.visitVarInsn(ISTORE, idx);
} else {
mv.visitVarInsn(ASTORE, idx);
}
}
// remove RHS value from operand stack
remove(1);
}
protected void writePostOrPrefixMethod(
int op, String method, Expression expression, Expression orig) {
final OperandStack operandStack = controller.getOperandStack();
// at this point the receiver will be already on the stack.
// in a[1]++ the method will be "++" aka "next" and the receiver a[1]
ClassNode BEType =
controller.getTypeChooser().resolveType(expression, controller.getClassNode());
Expression callSiteReceiverSwap =
new BytecodeExpression(BEType) {
@Override
public void visit(MethodVisitor mv) {
// CallSite is normally not showing up on the
// operandStack, so we place a dummy here with same
// slot length.
operandStack.push(ClassHelper.OBJECT_TYPE);
// change (receiver,callsite) to (callsite,receiver)
operandStack.swap();
setType(operandStack.getTopOperand());
// no need to keep any of those on the operand stack
// after this expression is processed, the operand stack
// will contain callSiteReceiverSwap.getType()
operandStack.remove(2);
}
};
// execute method
// this will load the callsite and the receiver normally in the wrong
// order since the receiver is already present, but before the callsite
// Therefore we use callSiteReceiverSwap to correct the order.
// After this call the JVM operand stack will contain the the result of
// the method call... usually simply Object in operandStack
controller
.getCallSiteWriter()
.makeCallSite(
callSiteReceiverSwap,
method,
MethodCallExpression.NO_ARGUMENTS,
false,
false,
false,
false);
// now rhs is completely done and we need only to store. In a[1]++ this
// would be a.getAt(1).next() for the rhs, "lhs" code is a.putAt(1, rhs)
}
private void writeArrayGet(
final Expression receiver,
final Expression arguments,
final ClassNode rType,
final ClassNode aType) {
OperandStack operandStack = controller.getOperandStack();
int m1 = operandStack.getStackLength();
// visit receiver
receiver.visit(controller.getAcg());
// visit arguments as array index
arguments.visit(controller.getAcg());
operandStack.doGroovyCast(int_TYPE);
int m2 = operandStack.getStackLength();
// array access
controller.getMethodVisitor().visitInsn(AALOAD);
operandStack.replace(rType.getComponentType(), m2 - m1);
}
public static void loadReference(String name, WriterController controller) {
CompileStack compileStack = controller.getCompileStack();
MethodVisitor mv = controller.getMethodVisitor();
ClassNode classNode = controller.getClassNode();
AsmClassGenerator acg = controller.getAcg();
// compileStack.containsVariable(name) means to ask if the variable is already declared
// compileStack.getScope().isReferencedClassVariable(name) means to ask if the variable is a
// field
// If it is no field and is not yet declared, then it is either a closure shared variable or
// an already declared variable.
if (!compileStack.containsVariable(name)
&& compileStack.getScope().isReferencedClassVariable(name)) {
acg.visitFieldExpression(new FieldExpression(classNode.getDeclaredField(name)));
} else {
BytecodeVariable v =
compileStack.getVariable(name, !classNodeUsesReferences(controller.getClassNode()));
if (v == null) {
// variable is not on stack because we are
// inside a nested Closure and this variable
// was not used before
// then load it from the Closure field
FieldNode field = classNode.getDeclaredField(name);
mv.visitVarInsn(ALOAD, 0);
mv.visitFieldInsn(
GETFIELD,
controller.getInternalClassName(),
name,
BytecodeHelper.getTypeDescription(field.getType()));
} else {
mv.visitVarInsn(ALOAD, v.getIndex());
}
controller.getOperandStack().push(ClassHelper.REFERENCE_TYPE);
}
}
private void evaluateInstanceof(BinaryExpression expression) {
OperandStack operandStack = controller.getOperandStack();
expression.getLeftExpression().visit(controller.getAcg());
operandStack.box();
Expression rightExp = expression.getRightExpression();
ClassNode classType;
if (rightExp instanceof ClassExpression) {
ClassExpression classExp = (ClassExpression) rightExp;
classType = classExp.getType();
} else {
throw new RuntimeException(
"Right hand side of the instanceof keyword must be a class name, not: " + rightExp);
}
String classInternalName = BytecodeHelper.getClassInternalName(classType);
controller.getMethodVisitor().visitTypeInsn(INSTANCEOF, classInternalName);
operandStack.replace(ClassHelper.boolean_TYPE);
}
private void writeStringPlusCall(
final Expression receiver, final String message, final Expression arguments) {
// todo: performance would be better if we created a StringBuilder
OperandStack operandStack = controller.getOperandStack();
int m1 = operandStack.getStackLength();
// slow Path
prepareSiteAndReceiver(receiver, message, false, controller.getCompileStack().isLHS());
visitBoxedArgument(arguments);
int m2 = operandStack.getStackLength();
MethodVisitor mv = controller.getMethodVisitor();
mv.visitMethodInsn(
INVOKESTATIC,
"org/codehaus/groovy/runtime/DefaultGroovyMethods",
"plus",
"(Ljava/lang/String;Ljava/lang/Object;)Ljava/lang/String;",
false);
controller.getOperandStack().replace(STRING_TYPE, m2 - m1);
}
/** duplicate top element */
public void dup() {
ClassNode type = getTopOperand();
stack.add(type);
MethodVisitor mv = controller.getMethodVisitor();
if (type == ClassHelper.double_TYPE || type == ClassHelper.long_TYPE) {
mv.visitInsn(DUP2);
} else {
mv.visitInsn(DUP);
}
}
/** replace top level element with new element of given type */
public void replace(ClassNode type) {
int size = stack.size();
try {
if (size == 0) throw new ArrayIndexOutOfBoundsException("size==0");
} catch (ArrayIndexOutOfBoundsException ai) {
System.err.println("index problem in " + controller.getSourceUnit().getName());
throw ai;
}
stack.set(size - 1, type);
}
public ClassNode getTopOperand() {
int size = stack.size();
try {
if (size == 0) throw new ArrayIndexOutOfBoundsException("size==0");
} catch (ArrayIndexOutOfBoundsException ai) {
System.err.println("index problem in " + controller.getSourceUnit().getName());
throw ai;
}
return stack.get(size - 1);
}
private void evaluatePrefixMethod(int op, String method, Expression expression, Expression orig) {
// load Expressions
VariableSlotLoader usesSubscript = loadWithSubscript(expression);
// execute Method
execMethodAndStoreForSubscriptOperator(op, method, expression, usesSubscript, orig);
// new value is already on stack, so nothing to do here
if (usesSubscript != null) controller.getCompileStack().removeVar(usesSubscript.getIndex());
}
public void pushDynamicName(Expression name) {
if (name instanceof ConstantExpression) {
ConstantExpression ce = (ConstantExpression) name;
Object value = ce.getValue();
if (value instanceof String) {
pushConstant(ce);
return;
}
}
new CastExpression(ClassHelper.STRING_TYPE, name).visit(controller.getAcg());
}
public ClassNode getOrAddClosureClass(ClosureExpression expression, int mods) {
ClassNode closureClass = closureClassMap.get(expression);
if (closureClass == null) {
closureClass = createClosureClass(expression, mods);
closureClassMap.put(expression, closureClass);
controller.getAcg().addInnerClass(closureClass);
closureClass.addInterface(ClassHelper.GENERATED_CLOSURE_Type);
closureClass.putNodeMetaData(WriterControllerFactory.class, factory);
}
return closureClass;
}
