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/*******************************************************************************
* Copyright (c) 2000, 2014 IBM Corporation and others.
* All rights reserved. This program and the accompanying materials
* are made available under the terms of the Eclipse Public License v1.0
* which accompanies this distribution, and is available at
* http://www.eclipse.org/legal/epl-v10.html
*
* Contributors:
* IBM Corporation - initial API and implementation
* Andy Clement (GoPivotal, Inc) [email protected] - Contributions for
* Bug 409245 - [1.8][compiler] Type annotations dropped when call is routed through a synthetic bridge method
* Bug 409250 - [1.8][compiler] Various loose ends in 308 code generation
* Stephan Herrmann - Contribution for
* Bug 400874 - [1.8][compiler] Inference infrastructure should evolve to meet JLS8 18.x (Part G of JSR335 spec)
* Bug 424415 - [1.8][compiler] Eventual resolution of ReferenceExpression is not seen to be happening.
* Bug 427438 - [1.8][compiler] NPE at org.eclipse.jdt.internal.compiler.ast.ConditionalExpression.generateCode(ConditionalExpression.java:280)
*******************************************************************************/
package org.eclipse.jdt.internal.eval;
import static org.eclipse.jdt.internal.compiler.ast.ExpressionContext.INVOCATION_CONTEXT;
import org.eclipse.jdt.core.compiler.CharOperation;
import org.eclipse.jdt.internal.compiler.ast.ASTNode;
import org.eclipse.jdt.internal.compiler.ast.CastExpression;
import org.eclipse.jdt.internal.compiler.ast.Expression;
import org.eclipse.jdt.internal.compiler.ast.InnerInferenceHelper;
import org.eclipse.jdt.internal.compiler.ast.MessageSend;
import org.eclipse.jdt.internal.compiler.ast.NameReference;
import org.eclipse.jdt.internal.compiler.classfmt.ClassFileConstants;
import org.eclipse.jdt.internal.compiler.codegen.CodeStream;
import org.eclipse.jdt.internal.compiler.codegen.Opcodes;
import org.eclipse.jdt.internal.compiler.flow.FlowInfo;
import org.eclipse.jdt.internal.compiler.impl.Constant;
import org.eclipse.jdt.internal.compiler.lookup.Binding;
import org.eclipse.jdt.internal.compiler.lookup.BlockScope;
import org.eclipse.jdt.internal.compiler.lookup.FieldBinding;
import org.eclipse.jdt.internal.compiler.lookup.MethodBinding;
import org.eclipse.jdt.internal.compiler.lookup.ProblemMethodBinding;
import org.eclipse.jdt.internal.compiler.lookup.ProblemReasons;
import org.eclipse.jdt.internal.compiler.lookup.ReferenceBinding;
import org.eclipse.jdt.internal.compiler.lookup.TypeBinding;
import org.eclipse.jdt.internal.compiler.lookup.TypeConstants;
import org.eclipse.jdt.internal.compiler.lookup.TypeIds;
import org.eclipse.jdt.internal.compiler.lookup.TypeVariableBinding;
public class CodeSnippetMessageSend extends MessageSend {
EvaluationContext evaluationContext;
FieldBinding delegateThis;
/**
* CodeSnippetMessageSend constructor comment.
*/
public CodeSnippetMessageSend(EvaluationContext evaluationContext) {
this.evaluationContext = evaluationContext;
}
/**
* MessageSend code generation
*
* @param currentScope org.eclipse.jdt.internal.compiler.lookup.BlockScope
* @param codeStream org.eclipse.jdt.internal.compiler.codegen.CodeStream
* @param valueRequired boolean
*/
public void generateCode(BlockScope currentScope, CodeStream codeStream, boolean valueRequired) {
int pc = codeStream.position;
MethodBinding codegenBinding = this.binding.original();
if (codegenBinding.canBeSeenBy(this.actualReceiverType, this, currentScope)) {
// generate receiver/enclosing instance access
boolean isStatic = codegenBinding.isStatic();
// outer access ?
if (!isStatic && ((this.bits & DepthMASK) != 0)) {
// outer method can be reached through emulation
ReferenceBinding targetType = currentScope.enclosingSourceType().enclosingTypeAt((this.bits & DepthMASK) >> DepthSHIFT);
Object[] path = currentScope.getEmulationPath(targetType, true /*only exact match*/, false/*consider enclosing arg*/);
if (path == null) {
// emulation was not possible (should not happen per construction)
currentScope.problemReporter().needImplementation(this);
} else {
codeStream.generateOuterAccess(path, this, targetType, currentScope);
}
} else {
this.receiver.generateCode(currentScope, codeStream, !isStatic);
if ((this.bits & NeedReceiverGenericCast) != 0) {
codeStream.checkcast(this.actualReceiverType);
}
codeStream.recordPositionsFrom(pc, this.sourceStart);
}
// generate arguments
generateArguments(this.binding, this.arguments, currentScope, codeStream);
// actual message invocation
TypeBinding constantPoolDeclaringClass = CodeStream.getConstantPoolDeclaringClass(currentScope, codegenBinding, this.actualReceiverType, this.receiver.isImplicitThis());
if (isStatic) {
codeStream.invoke(Opcodes.OPC_invokestatic, codegenBinding, constantPoolDeclaringClass, this.typeArguments);
} else if( (this.receiver.isSuper()) || codegenBinding.isPrivate()){
codeStream.invoke(Opcodes.OPC_invokespecial, codegenBinding, constantPoolDeclaringClass, this.typeArguments);
} else {
if (constantPoolDeclaringClass.isInterface()) { // interface or annotation type
codeStream.invoke(Opcodes.OPC_invokeinterface, codegenBinding, constantPoolDeclaringClass, this.typeArguments);
} else {
codeStream.invoke(Opcodes.OPC_invokevirtual, codegenBinding, constantPoolDeclaringClass, this.typeArguments);
}
}
} else {
codeStream.generateEmulationForMethod(currentScope, codegenBinding);
// generate receiver/enclosing instance access
boolean isStatic = codegenBinding.isStatic();
// outer access ?
if (!isStatic && ((this.bits & DepthMASK) != 0)) {
// not supported yet
currentScope.problemReporter().needImplementation(this);
} else {
this.receiver.generateCode(currentScope, codeStream, !isStatic);
if ((this.bits & NeedReceiverGenericCast) != 0) {
codeStream.checkcast(this.actualReceiverType);
}
codeStream.recordPositionsFrom(pc, this.sourceStart);
}
if (isStatic) {
// we need an object on the stack which is ignored for the method invocation
codeStream.aconst_null();
}
// generate arguments
if (this.arguments != null) {
int argsLength = this.arguments.length;
codeStream.generateInlinedValue(argsLength);
codeStream.newArray(currentScope.createArrayType(currentScope.getType(TypeConstants.JAVA_LANG_OBJECT, 3), 1));
codeStream.dup();
for (int i = 0; i < argsLength; i++) {
codeStream.generateInlinedValue(i);
this.arguments[i].generateCode(currentScope, codeStream, true);
TypeBinding parameterBinding = codegenBinding.parameters[i];
if (parameterBinding.isBaseType() && parameterBinding != TypeBinding.NULL) {
codeStream.generateBoxingConversion(codegenBinding.parameters[i].id);
}
codeStream.aastore();
if (i < argsLength - 1) {
codeStream.dup();
}
}
} else {
codeStream.generateInlinedValue(0);
codeStream.newArray(currentScope.createArrayType(currentScope.getType(TypeConstants.JAVA_LANG_OBJECT, 3), 1));
}
codeStream.invokeJavaLangReflectMethodInvoke();
// convert the return value to the appropriate type for primitive types
if (codegenBinding.returnType.isBaseType()) {
int typeID = codegenBinding.returnType.id;
if (typeID == T_void) {
// remove the null from the stack
codeStream.pop();
}
codeStream.checkcast(typeID);
codeStream.getBaseTypeValue(typeID);
} else {
codeStream.checkcast(codegenBinding.returnType);
}
}
// required cast must occur even if no value is required
if (this.valueCast != null) codeStream.checkcast(this.valueCast);
if (valueRequired){
// implicit conversion if necessary
codeStream.generateImplicitConversion(this.implicitConversion);
} else {
boolean isUnboxing = (this.implicitConversion & TypeIds.UNBOXING) != 0;
// conversion only generated if unboxing
if (isUnboxing) codeStream.generateImplicitConversion(this.implicitConversion);
switch (isUnboxing ? postConversionType(currentScope).id : codegenBinding.returnType.id) {
case T_long :
case T_double :
codeStream.pop2();
break;
case T_void :
break;
default :
codeStream.pop();
}
}
codeStream.recordPositionsFrom(pc, (int)(this.nameSourcePosition >>> 32)); // highlight selector
}
public void manageSyntheticAccessIfNecessary(BlockScope currentScope, FlowInfo flowInfo) {
if ((flowInfo.tagBits & FlowInfo.UNREACHABLE_OR_DEAD) == 0) {
// if method from parameterized type got found, use the original method at codegen time
MethodBinding codegenBinding = this.binding.original();
if (codegenBinding != this.binding) {
// extra cast needed if method return type was type variable
if (codegenBinding.returnType.isTypeVariable()) {
TypeVariableBinding variableReturnType = (TypeVariableBinding) codegenBinding.returnType;
if (TypeBinding.notEquals(variableReturnType.firstBound, this.binding.returnType)) { // no need for extra cast if same as first bound anyway
this.valueCast = this.binding.returnType;
}
}
}
}
}
public TypeBinding resolveType(BlockScope scope) {
// Answer the signature return type
// Base type promotion
this.constant = Constant.NotAConstant;
boolean receiverCast = false, argsContainCast = false;
if (this.receiver instanceof CastExpression) {
this.receiver.bits |= DisableUnnecessaryCastCheck; // will check later on
receiverCast = true;
}
this.actualReceiverType = this.receiver.resolveType(scope);
if (receiverCast && this.actualReceiverType != null) {
// due to change of declaring class with receiver type, only identity cast should be notified
if (TypeBinding.equalsEquals(((CastExpression)this.receiver).expression.resolvedType, this.actualReceiverType)) {
scope.problemReporter().unnecessaryCast((CastExpression)this.receiver);
}
}
// resolve type arguments (for generic constructor call)
if (this.typeArguments != null) {
int length = this.typeArguments.length;
boolean argHasError = false; // typeChecks all arguments
this.genericTypeArguments = new TypeBinding[length];
for (int i = 0; i < length; i++) {
if ((this.genericTypeArguments[i] = this.typeArguments[i].resolveType(scope, true /* check bounds*/)) == null) {
argHasError = true;
}
}
if (argHasError) {
return null;
}
}
// will check for null after args are resolved
TypeBinding[] argumentTypes = Binding.NO_PARAMETERS;
if (this.arguments != null) {
boolean argHasError = false; // typeChecks all arguments
int length = this.arguments.length;
argumentTypes = new TypeBinding[length];
TypeBinding argumentType;
for (int i = 0; i < length; i++) {
Expression argument = this.arguments[i];
if (argument instanceof CastExpression) {
argument.bits |= DisableUnnecessaryCastCheck; // will check later on
argsContainCast = true;
}
argument.setExpressionContext(INVOCATION_CONTEXT);
if ((argumentType = argumentTypes[i] = this.arguments[i].resolveType(scope)) == null)
argHasError = true;
if (argumentType != null && argumentType.kind() == Binding.POLY_TYPE) {
if (this.innerInferenceHelper == null)
this.innerInferenceHelper = new InnerInferenceHelper();
}
}
if (argHasError) {
if(this.actualReceiverType instanceof ReferenceBinding) {
// record any selector match, for clients who may still need hint about possible method match
this.binding = scope.findMethod((ReferenceBinding)this.actualReceiverType, this.selector, new TypeBinding[]{}, this, false);
}
return null;
}
}
if (this.actualReceiverType == null) {
return null;
}
// base type cannot receive any message
if (this.actualReceiverType.isBaseType()) {
scope.problemReporter().errorNoMethodFor(this, this.actualReceiverType, argumentTypes);
return null;
}
findMethodBinding(scope, argumentTypes);
if (!this.binding.isValidBinding()) {
if (this.binding instanceof ProblemMethodBinding
&& ((ProblemMethodBinding) this.binding).problemId() == ProblemReasons.NotVisible) {
if (this.evaluationContext.declaringTypeName != null) {
this.delegateThis = scope.getField(scope.enclosingSourceType(), EvaluationConstants.DELEGATE_THIS, this);
if (this.delegateThis == null){ // if not found then internal error, field should have been found
this.constant = Constant.NotAConstant;
scope.problemReporter().invalidMethod(this, this.binding);
return null;
}
} else {
this.constant = Constant.NotAConstant;
scope.problemReporter().invalidMethod(this, this.binding);
return null;
}
CodeSnippetScope localScope = new CodeSnippetScope(scope);
MethodBinding privateBinding =
this.receiver instanceof CodeSnippetThisReference && ((CodeSnippetThisReference) this.receiver).isImplicit
? localScope.getImplicitMethod((ReferenceBinding)this.delegateThis.type, this.selector, argumentTypes, this)
: localScope.getMethod(this.delegateThis.type, this.selector, argumentTypes, this);
if (!privateBinding.isValidBinding()) {
if (this.binding.declaringClass == null) {
if (this.actualReceiverType instanceof ReferenceBinding) {
this.binding.declaringClass = (ReferenceBinding) this.actualReceiverType;
} else { // really bad error ....
scope.problemReporter().errorNoMethodFor(this, this.actualReceiverType, argumentTypes);
return null;
}
}
scope.problemReporter().invalidMethod(this, this.binding);
return null;
} else {
this.binding = privateBinding;
}
} else {
if (this.binding.declaringClass == null) {
if (this.actualReceiverType instanceof ReferenceBinding) {
this.binding.declaringClass = (ReferenceBinding) this.actualReceiverType;
} else { // really bad error ....
scope.problemReporter().errorNoMethodFor(this, this.actualReceiverType, argumentTypes);
return null;
}
}
scope.problemReporter().invalidMethod(this, this.binding);
return null;
}
}
if (!this.binding.isStatic()) {
// the "receiver" must not be a type, in other words, a NameReference that the TC has bound to a Type
if (this.receiver instanceof NameReference
&& (((NameReference) this.receiver).bits & Binding.TYPE) != 0) {
scope.problemReporter().mustUseAStaticMethod(this, this.binding);
} else {
// handle indirect inheritance thru variable secondary bound
// receiver may receive generic cast, as part of implicit conversion
TypeBinding oldReceiverType = this.actualReceiverType;
this.actualReceiverType = this.actualReceiverType.getErasureCompatibleType(this.binding.declaringClass);
this.receiver.computeConversion(scope, this.actualReceiverType, this.actualReceiverType);
if (TypeBinding.notEquals(this.actualReceiverType, oldReceiverType) && TypeBinding.notEquals(this.receiver.postConversionType(scope), this.actualReceiverType)) { // record need for explicit cast at codegen since receiver could not handle it
this.bits |= NeedReceiverGenericCast;
}
}
}
if (checkInvocationArguments(scope, this.receiver, this.actualReceiverType, this.binding, this.arguments, argumentTypes, argsContainCast, this)) {
this.bits |= ASTNode.Unchecked;
}
//-------message send that are known to fail at compile time-----------
if (this.binding.isAbstract()) {
if (this.receiver.isSuper()) {
scope.problemReporter().cannotDireclyInvokeAbstractMethod(this, this.binding);
}
// abstract private methods cannot occur nor abstract static............
}
if (isMethodUseDeprecated(this.binding, scope, true))
scope.problemReporter().deprecatedMethod(this.binding, this);
// from 1.5 compliance on, array#clone() returns the array type (but binding still shows Object)
if (this.actualReceiverType.isArrayType()
&& this.binding.parameters == Binding.NO_PARAMETERS
&& scope.compilerOptions().complianceLevel >= ClassFileConstants.JDK1_5
&& CharOperation.equals(this.binding.selector, CLONE)) {
this.resolvedType = this.actualReceiverType;
} else {
TypeBinding returnType = this.binding.returnType;
if (returnType != null) {
if ((this.bits & ASTNode.Unchecked) != 0 && this.genericTypeArguments == null) {
returnType = scope.environment().convertToRawType(returnType.erasure(), true);
}
returnType = returnType.capture(scope, this.sourceEnd);
}
this.resolvedType = returnType;
}
return this.resolvedType;
}
}
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