/******************************************************************************* * Copyright (c) 2000, 2004 IBM Corporation and others. * All rights reserved. This program and the accompanying materials * are made available under the terms of the Common Public License v1.0 * which accompanies this distribution, and is available at * http://www.eclipse.org/legal/cpl-v10.html * * Contributors: * IBM Corporation - initial API and implementation *******************************************************************************/ package org.eclipse.jdt.internal.compiler.ast; import org.eclipse.jdt.internal.compiler.ASTVisitor; import org.eclipse.jdt.internal.compiler.impl.*; import org.eclipse.jdt.internal.compiler.classfmt.ClassFileConstants; import org.eclipse.jdt.internal.compiler.codegen.*; import org.eclipse.jdt.internal.compiler.flow.*; import org.eclipse.jdt.internal.compiler.lookup.*; import org.eclipse.jdt.internal.compiler.problem.ProblemSeverities; public class QualifiedNameReference extends NameReference { public char[][] tokens; public long[] sourcePositions; public FieldBinding[] otherBindings, otherCodegenBindings; int[] otherDepths; public int indexOfFirstFieldBinding;//points (into tokens) for the first token that corresponds to first FieldBinding SyntheticMethodBinding syntheticWriteAccessor; SyntheticMethodBinding[] syntheticReadAccessors; public TypeBinding genericCast; public TypeBinding[] otherGenericCasts; public QualifiedNameReference( char[][] sources, long[] positions, int sourceStart, int sourceEnd) { super(); this.tokens = sources; this.sourcePositions = positions; this.sourceStart = sourceStart; this.sourceEnd = sourceEnd; } public FlowInfo analyseAssignment( BlockScope currentScope, FlowContext flowContext, FlowInfo flowInfo, Assignment assignment, boolean isCompound) { // determine the rank until which we now we do not need any actual value for the field access int otherBindingsCount = otherBindings == null ? 0 : otherBindings.length; boolean needValue = otherBindingsCount == 0 || !this.otherBindings[0].isStatic(); FieldBinding lastFieldBinding = null; switch (bits & RestrictiveFlagMASK) { case Binding.FIELD : // reading a field lastFieldBinding = (FieldBinding) binding; if (needValue) { manageSyntheticAccessIfNecessary(currentScope, lastFieldBinding, this.actualReceiverType, 0, flowInfo); } // check if final blank field if (lastFieldBinding.isBlankFinal() && this.otherBindings != null // the last field binding is only assigned && currentScope.allowBlankFinalFieldAssignment(lastFieldBinding)) { if (!flowInfo.isDefinitelyAssigned(lastFieldBinding)) { currentScope.problemReporter().uninitializedBlankFinalField( lastFieldBinding, this); } } break; case Binding.LOCAL : // first binding is a local variable LocalVariableBinding localBinding; if (!flowInfo .isDefinitelyAssigned(localBinding = (LocalVariableBinding) binding)) { currentScope.problemReporter().uninitializedLocalVariable(localBinding, this); } if (flowInfo.isReachable()) { localBinding.useFlag = LocalVariableBinding.USED; } else if (localBinding.useFlag == LocalVariableBinding.UNUSED) { localBinding.useFlag = LocalVariableBinding.FAKE_USED; } this.checkNullStatus(currentScope, flowContext, flowInfo, FlowInfo.NON_NULL); } if (needValue) { manageEnclosingInstanceAccessIfNecessary(currentScope, flowInfo); // only for first binding } // all intermediate field accesses are read accesses if (otherBindings != null) { for (int i = 0; i < otherBindingsCount-1; i++) { lastFieldBinding = otherBindings[i]; needValue = !otherBindings[i+1].isStatic(); if (needValue) { manageSyntheticAccessIfNecessary( currentScope, lastFieldBinding, i == 0 ? ((VariableBinding)binding).type : otherBindings[i-1].type, i + 1, flowInfo); } } lastFieldBinding = otherBindings[otherBindingsCount-1]; } if (isCompound) { if (binding == lastFieldBinding && lastFieldBinding.isBlankFinal() && currentScope.allowBlankFinalFieldAssignment(lastFieldBinding) && (!flowInfo.isDefinitelyAssigned(lastFieldBinding))) { currentScope.problemReporter().uninitializedBlankFinalField( lastFieldBinding, this); } TypeBinding lastReceiverType; if (lastFieldBinding == binding){ lastReceiverType = this.actualReceiverType; } else if (otherBindingsCount == 1){ lastReceiverType = ((VariableBinding)this.binding).type; } else { lastReceiverType = this.otherBindings[otherBindingsCount-2].type; } manageSyntheticAccessIfNecessary( currentScope, lastFieldBinding, lastReceiverType, lastFieldBinding == binding ? 0 : otherBindingsCount, flowInfo); } if (assignment.expression != null) { flowInfo = assignment .expression .analyseCode(currentScope, flowContext, flowInfo) .unconditionalInits(); } // the last field access is a write access if (lastFieldBinding.isFinal()) { // in a context where it can be assigned? if (lastFieldBinding.isBlankFinal() && !isCompound && currentScope.allowBlankFinalFieldAssignment(lastFieldBinding) && indexOfFirstFieldBinding == 1) { if (flowInfo.isPotentiallyAssigned(lastFieldBinding)) { currentScope.problemReporter().duplicateInitializationOfBlankFinalField(lastFieldBinding, this); } else { flowContext.recordSettingFinal(lastFieldBinding, this, flowInfo); } flowInfo.markAsDefinitelyAssigned(lastFieldBinding); } else { currentScope.problemReporter().cannotAssignToFinalField(lastFieldBinding, this); if (currentScope.allowBlankFinalFieldAssignment(lastFieldBinding)) { // pretend it got assigned flowInfo.markAsDefinitelyAssigned(lastFieldBinding); } } } // equivalent to valuesRequired[maxOtherBindings] TypeBinding lastReceiverType; if (lastFieldBinding == binding){ lastReceiverType = this.actualReceiverType; } else if (otherBindingsCount == 1){ lastReceiverType = ((VariableBinding)this.binding).type; } else { lastReceiverType = this.otherBindings[otherBindingsCount-2].type; } manageSyntheticAccessIfNecessary(currentScope, lastFieldBinding, lastReceiverType, -1 /*write-access*/, flowInfo); return flowInfo; } public FlowInfo analyseCode( BlockScope currentScope, FlowContext flowContext, FlowInfo flowInfo) { return analyseCode(currentScope, flowContext, flowInfo, true); } public FlowInfo analyseCode( BlockScope currentScope, FlowContext flowContext, FlowInfo flowInfo, boolean valueRequired) { // determine the rank until which we now we do not need any actual value for the field access int otherBindingsCount = otherBindings == null ? 0 : otherBindings.length; boolean needValue = otherBindingsCount == 0 ? valueRequired : !this.otherBindings[0].isStatic(); switch (bits & RestrictiveFlagMASK) { case Binding.FIELD : // reading a field if (needValue) { manageSyntheticAccessIfNecessary(currentScope, (FieldBinding) binding, this.actualReceiverType, 0, flowInfo); } // check if reading a final blank field FieldBinding fieldBinding; if ((fieldBinding = (FieldBinding) binding).isBlankFinal() && (indexOfFirstFieldBinding == 1) // was an implicit reference to the first field binding && currentScope.allowBlankFinalFieldAssignment(fieldBinding) && (!flowInfo.isDefinitelyAssigned(fieldBinding))) { currentScope.problemReporter().uninitializedBlankFinalField(fieldBinding, this); } break; case Binding.LOCAL : // reading a local variable LocalVariableBinding localBinding; if (!flowInfo .isDefinitelyAssigned(localBinding = (LocalVariableBinding) binding)) { currentScope.problemReporter().uninitializedLocalVariable(localBinding, this); } if (flowInfo.isReachable()) { localBinding.useFlag = LocalVariableBinding.USED; } else if (localBinding.useFlag == LocalVariableBinding.UNUSED) { localBinding.useFlag = LocalVariableBinding.FAKE_USED; } this.checkNullStatus(currentScope, flowContext, flowInfo, FlowInfo.NON_NULL); } if (needValue) { manageEnclosingInstanceAccessIfNecessary(currentScope, flowInfo); // only for first binding } if (otherBindings != null) { for (int i = 0; i < otherBindingsCount; i++) { needValue = i < otherBindingsCount-1 ? !otherBindings[i+1].isStatic() : valueRequired; if (needValue) { manageSyntheticAccessIfNecessary( currentScope, otherBindings[i], i == 0 ? ((VariableBinding)binding).type : otherBindings[i-1].type, i + 1, flowInfo); } } } return flowInfo; } /** * Check and/or redirect the field access to the delegate receiver if any */ public TypeBinding checkFieldAccess(BlockScope scope) { // check for forward references FieldBinding fieldBinding = (FieldBinding) binding; MethodScope methodScope = scope.methodScope(); if (methodScope.enclosingSourceType() == fieldBinding.declaringClass && methodScope.lastVisibleFieldID >= 0 && fieldBinding.id >= methodScope.lastVisibleFieldID) { if ((!fieldBinding.isStatic() || methodScope.isStatic) && this.indexOfFirstFieldBinding == 1) scope.problemReporter().forwardReference(this, 0, scope.enclosingSourceType()); } bits &= ~RestrictiveFlagMASK; // clear bits bits |= Binding.FIELD; return getOtherFieldBindings(scope); } /** * @see org.eclipse.jdt.internal.compiler.ast.Expression#computeConversion(org.eclipse.jdt.internal.compiler.lookup.Scope, org.eclipse.jdt.internal.compiler.lookup.TypeBinding, org.eclipse.jdt.internal.compiler.lookup.TypeBinding) */ public void computeConversion(Scope scope, TypeBinding runtimeTimeType, TypeBinding compileTimeType) { if (runtimeTimeType == null || compileTimeType == null) return; // set the generic cast after the fact, once the type expectation is fully known (no need for strict cast) FieldBinding field = null; int length = this.otherBindings == null ? 0 : this.otherBindings.length; if (length == 0) { if ((this.bits & Binding.FIELD) != 0 && this.binding != null && this.binding.isValidBinding()) { field = (FieldBinding) this.binding; } } else { field = this.otherBindings[length-1]; } if (field != null) { FieldBinding originalBinding = field.original(); if (originalBinding != field) { // extra cast needed if method return type has type variable if ((originalBinding.type.tagBits & TagBits.HasTypeVariable) != 0 && runtimeTimeType.id != T_JavaLangObject) { setGenericCast(length,originalBinding.type.genericCast(scope.boxing(runtimeTimeType))); // runtimeType could be base type in boxing case } } } super.computeConversion(scope, runtimeTimeType, compileTimeType); } public void generateAssignment( BlockScope currentScope, CodeStream codeStream, Assignment assignment, boolean valueRequired) { FieldBinding lastFieldBinding = generateReadSequence(currentScope, codeStream); assignment.expression.generateCode(currentScope, codeStream, true); fieldStore(codeStream, lastFieldBinding, syntheticWriteAccessor, valueRequired); // equivalent to valuesRequired[maxOtherBindings] if (valueRequired) { codeStream.generateImplicitConversion(assignment.implicitConversion); } } public void generateCode( BlockScope currentScope, CodeStream codeStream, boolean valueRequired) { int pc = codeStream.position; if (constant != NotAConstant) { if (valueRequired) { codeStream.generateConstant(constant, implicitConversion); } } else { FieldBinding lastFieldBinding = generateReadSequence(currentScope, codeStream); if (valueRequired) { if (lastFieldBinding.declaringClass == null) { // array length codeStream.arraylength(); codeStream.generateImplicitConversion(implicitConversion); } else { if (lastFieldBinding.isConstantValue()) { if (!lastFieldBinding.isStatic()){ codeStream.invokeObjectGetClass(); codeStream.pop(); } // inline the last field constant codeStream.generateConstant(lastFieldBinding.constant(), implicitConversion); } else { SyntheticMethodBinding accessor = syntheticReadAccessors == null ? null : syntheticReadAccessors[syntheticReadAccessors.length - 1]; if (accessor == null) { if (lastFieldBinding.isStatic()) { codeStream.getstatic(lastFieldBinding); } else { codeStream.getfield(lastFieldBinding); } } else { codeStream.invokestatic(accessor); } TypeBinding requiredGenericCast = getGenericCast(this.otherCodegenBindings == null ? 0 : this.otherCodegenBindings.length); if (requiredGenericCast != null) codeStream.checkcast(requiredGenericCast); codeStream.generateImplicitConversion(implicitConversion); } } } else { if (lastFieldBinding != null && !lastFieldBinding.isStatic()){ codeStream.invokeObjectGetClass(); // perform null check codeStream.pop(); } } } codeStream.recordPositionsFrom(pc, this.sourceStart); } public void generateCompoundAssignment( BlockScope currentScope, CodeStream codeStream, Expression expression, int operator, int assignmentImplicitConversion, boolean valueRequired) { FieldBinding lastFieldBinding = generateReadSequence(currentScope, codeStream); SyntheticMethodBinding accessor = syntheticReadAccessors == null ? null : syntheticReadAccessors[syntheticReadAccessors.length - 1]; if (lastFieldBinding.isStatic()) { if (accessor == null) { codeStream.getstatic(lastFieldBinding); } else { codeStream.invokestatic(accessor); } } else { codeStream.dup(); if (accessor == null) { codeStream.getfield(lastFieldBinding); } else { codeStream.invokestatic(accessor); } } // the last field access is a write access // perform the actual compound operation int operationTypeID; switch(operationTypeID = (implicitConversion & IMPLICIT_CONVERSION_MASK) >> 4) { case T_JavaLangString : case T_JavaLangObject : case T_undefined : codeStream.generateStringConcatenationAppend(currentScope, null, expression); break; default : // promote the array reference to the suitable operation type codeStream.generateImplicitConversion(implicitConversion); // generate the increment value (will by itself be promoted to the operation value) if (expression == IntLiteral.One) { // prefix operation codeStream.generateConstant(expression.constant, implicitConversion); } else { expression.generateCode(currentScope, codeStream, true); } // perform the operation codeStream.sendOperator(operator, operationTypeID); // cast the value back to the array reference type codeStream.generateImplicitConversion(assignmentImplicitConversion); } // actual assignment fieldStore(codeStream, lastFieldBinding, syntheticWriteAccessor, valueRequired); // equivalent to valuesRequired[maxOtherBindings] } public void generatePostIncrement( BlockScope currentScope, CodeStream codeStream, CompoundAssignment postIncrement, boolean valueRequired) { FieldBinding lastFieldBinding = generateReadSequence(currentScope, codeStream); SyntheticMethodBinding accessor = syntheticReadAccessors == null ? null : syntheticReadAccessors[syntheticReadAccessors.length - 1]; if (lastFieldBinding.isStatic()) { if (accessor == null) { codeStream.getstatic(lastFieldBinding); } else { codeStream.invokestatic(accessor); } } else { codeStream.dup(); if (accessor == null) { codeStream.getfield(lastFieldBinding); } else { codeStream.invokestatic(accessor); } } // duplicate the old field value if (valueRequired) { if (lastFieldBinding.isStatic()) { if ((lastFieldBinding.type == LongBinding) || (lastFieldBinding.type == DoubleBinding)) { codeStream.dup2(); } else { codeStream.dup(); } } else { // Stack: [owner][old field value] ---> [old field value][owner][old field value] if ((lastFieldBinding.type == LongBinding) || (lastFieldBinding.type == DoubleBinding)) { codeStream.dup2_x1(); } else { codeStream.dup_x1(); } } } codeStream.generateImplicitConversion(implicitConversion); codeStream.generateConstant( postIncrement.expression.constant, implicitConversion); codeStream.sendOperator(postIncrement.operator, this.implicitConversion & COMPILE_TYPE_MASK); codeStream.generateImplicitConversion( postIncrement.assignmentImplicitConversion); fieldStore(codeStream, lastFieldBinding, syntheticWriteAccessor, false); } /* * Generate code for all bindings (local and fields) excluding the last one, which may then be generated code * for a read or write access. */ public FieldBinding generateReadSequence(BlockScope currentScope, CodeStream codeStream) { // determine the rank until which we now we do not need any actual value for the field access int otherBindingsCount = this.otherCodegenBindings == null ? 0 : otherCodegenBindings.length; boolean needValue = otherBindingsCount == 0 || !this.otherBindings[0].isStatic(); FieldBinding lastFieldBinding = null; TypeBinding lastGenericCast = null; switch (bits & RestrictiveFlagMASK) { case Binding.FIELD : lastFieldBinding = (FieldBinding) this.codegenBinding; lastGenericCast = this.genericCast; // if first field is actually constant, we can inline it if (lastFieldBinding.isConstantValue()) { break; } if (needValue && !lastFieldBinding.isStatic()) { if ((bits & DepthMASK) != 0) { ReferenceBinding targetType = currentScope.enclosingSourceType().enclosingTypeAt((bits & DepthMASK) >> DepthSHIFT); Object[] emulationPath = currentScope.getEmulationPath(targetType, true /*only exact match*/, false/*consider enclosing arg*/); codeStream.generateOuterAccess(emulationPath, this, targetType, currentScope); } else { generateReceiver(codeStream); } } break; case Binding.LOCAL : // reading the first local variable if (!needValue) break; // no value needed LocalVariableBinding localBinding = (LocalVariableBinding) this.codegenBinding; // regular local variable read if (localBinding.isConstantValue()) { codeStream.generateConstant(localBinding.constant(), 0); // no implicit conversion } else { // outer local? if ((bits & DepthMASK) != 0) { // outer local can be reached either through a synthetic arg or a synthetic field VariableBinding[] path = currentScope.getEmulationPath(localBinding); codeStream.generateOuterAccess(path, this, localBinding, currentScope); } else { codeStream.load(localBinding); } } } // all intermediate field accesses are read accesses // only the last field binding is a write access if (this.otherCodegenBindings != null) { for (int i = 0; i < otherBindingsCount; i++) { FieldBinding nextField = this.otherCodegenBindings[i]; TypeBinding nextGenericCast = this.otherGenericCasts == null ? null : this.otherGenericCasts[i]; if (lastFieldBinding != null) { needValue = !nextField.isStatic(); if (needValue) { MethodBinding accessor = syntheticReadAccessors == null ? null : syntheticReadAccessors[i]; if (accessor == null) { if (lastFieldBinding.isConstantValue()) { if (lastFieldBinding != this.codegenBinding && !lastFieldBinding.isStatic()) { codeStream.invokeObjectGetClass(); // perform null check codeStream.pop(); } codeStream.generateConstant(lastFieldBinding.constant(), 0); } else if (lastFieldBinding.isStatic()) { codeStream.getstatic(lastFieldBinding); } else { codeStream.getfield(lastFieldBinding); } } else { codeStream.invokestatic(accessor); } if (lastGenericCast != null) codeStream.checkcast(lastGenericCast); } else { if (this.codegenBinding != lastFieldBinding && !lastFieldBinding.isStatic()){ codeStream.invokeObjectGetClass(); // perform null check codeStream.pop(); } } } lastFieldBinding = nextField; lastGenericCast = nextGenericCast; } } return lastFieldBinding; } public void generateReceiver(CodeStream codeStream) { codeStream.aload_0(); } /** * @see org.eclipse.jdt.internal.compiler.lookup.InvocationSite#genericTypeArguments() */ public TypeBinding[] genericTypeArguments() { return null; } // get the matching codegenBinding protected FieldBinding getCodegenBinding(int index) { if (index == 0){ return (FieldBinding)this.codegenBinding; } else { return this.otherCodegenBindings[index-1]; } } // get the matching generic cast protected TypeBinding getGenericCast(int index) { if (index == 0){ return this.genericCast; } else { if (this.otherGenericCasts == null) return null; return this.otherGenericCasts[index-1]; } } public TypeBinding getOtherFieldBindings(BlockScope scope) { // At this point restrictiveFlag may ONLY have two potential value : FIELD LOCAL (i.e cast <<(VariableBinding) binding>> is valid) int length = tokens.length; FieldBinding field; if ((bits & Binding.FIELD) != 0) { field = (FieldBinding) this.binding; if (!field.isStatic()) { //must check for the static status.... if (indexOfFirstFieldBinding > 1 //accessing to a field using a type as "receiver" is allowed only with static field || scope.methodScope().isStatic) { // the field is the first token of the qualified reference.... scope.problemReporter().staticFieldAccessToNonStaticVariable(this, field); return null; } } else { // indirect static reference ? if (indexOfFirstFieldBinding > 1 && field.declaringClass != actualReceiverType) { scope.problemReporter().indirectAccessToStaticField(this, field); } } // only last field is actually a write access if any if (isFieldUseDeprecated(field, scope, (this.bits & IsStrictlyAssignedMASK) !=0 && indexOfFirstFieldBinding == length)) scope.problemReporter().deprecatedField(field, this); } else { field = null; } TypeBinding type = ((VariableBinding) binding).type; int index = indexOfFirstFieldBinding; if (index == length) { // restrictiveFlag == FIELD this.constant = FieldReference.getConstantFor((FieldBinding) binding, this, false, scope); return type; } // allocation of the fieldBindings array and its respective constants int otherBindingsLength = length - index; otherCodegenBindings = otherBindings = new FieldBinding[otherBindingsLength]; otherDepths = new int[otherBindingsLength]; // fill the first constant (the one of the binding) this.constant = field != null ? FieldReference.getConstantFor((FieldBinding) binding, this, false, scope) : ((VariableBinding) binding).constant(); // save first depth, since will be updated by visibility checks of other bindings int firstDepth = (bits & DepthMASK) >> DepthSHIFT; // iteration on each field while (index < length) { char[] token = tokens[index]; if (type == null) return null; // could not resolve type prior to this point // set generic cast of for previous field (if any) if (field != null) { FieldBinding originalBinding = field.original(); if (originalBinding != field) { // extra cast needed if method return type has type variable if ((originalBinding.type.tagBits & TagBits.HasTypeVariable) != 0 && type.id != T_JavaLangObject) { setGenericCast(index-1,originalBinding.type.genericCast(type)); // type cannot be base-type even in boxing case } } } bits &= ~DepthMASK; // flush previous depth if any field = scope.getField(type, token, this); int place = index - indexOfFirstFieldBinding; otherBindings[place] = field; otherDepths[place] = (bits & DepthMASK) >> DepthSHIFT; if (field.isValidBinding()) { // only last field is actually a write access if any if (isFieldUseDeprecated(field, scope, (this.bits & IsStrictlyAssignedMASK) !=0 && index+1 == length)) { scope.problemReporter().deprecatedField(field, this); } Constant someConstant = FieldReference.getConstantFor(field, this, false, scope); // constant propagation can only be performed as long as the previous one is a constant too. if (this.constant != NotAConstant) { this.constant = someConstant; } if (field.isStatic()) { // static field accessed through receiver? legal but unoptimal (optional warning) scope.problemReporter().nonStaticAccessToStaticField(this, field); // indirect static reference ? if (field.declaringClass != type) { scope.problemReporter().indirectAccessToStaticField(this, field); } } type = field.type; index++; } else { constant = NotAConstant; //don't fill other constants slots... scope.problemReporter().invalidField(this, field, index, type); setDepth(firstDepth); return null; } } setDepth(firstDepth); return (otherBindings[otherBindingsLength - 1]).type; } public void manageEnclosingInstanceAccessIfNecessary(BlockScope currentScope, FlowInfo flowInfo) { if (!flowInfo.isReachable()) return; //If inlinable field, forget the access emulation, the code gen will directly target it if (((bits & DepthMASK) == 0) || (constant != NotAConstant)) { return; } if ((bits & RestrictiveFlagMASK) == Binding.LOCAL) { currentScope.emulateOuterAccess((LocalVariableBinding) binding); } } /** * index is <0 to denote write access emulation */ public void manageSyntheticAccessIfNecessary( BlockScope currentScope, FieldBinding fieldBinding, TypeBinding lastReceiverType, int index, FlowInfo flowInfo) { if (!flowInfo.isReachable()) return; // index == 0 denotes the first fieldBinding, index > 0 denotes one of the 'otherBindings', index < 0 denotes a write access (to last binding) if (fieldBinding.isConstantValue()) return; // if field from parameterized type got found, use the original field at codegen time FieldBinding originalField = fieldBinding.original(); if (originalField != fieldBinding) { setCodegenBinding(index < 0 ? (this.otherBindings == null ? 0 : this.otherBindings.length) : index, originalField); } if (fieldBinding.isPrivate()) { // private access FieldBinding someCodegenBinding = getCodegenBinding(index < 0 ? (this.otherBindings == null ? 0 : this.otherBindings.length) : index); if (someCodegenBinding.declaringClass != currentScope.enclosingSourceType()) { setSyntheticAccessor(fieldBinding, index, ((SourceTypeBinding) someCodegenBinding.declaringClass).addSyntheticMethod(someCodegenBinding, index >= 0 /*read-access?*/)); currentScope.problemReporter().needToEmulateFieldAccess(someCodegenBinding, this, index >= 0 /*read-access?*/); return; } } else if (fieldBinding.isProtected()){ int depth = fieldBinding == binding ? (bits & DepthMASK) >> DepthSHIFT : otherDepths[index < 0 ? otherDepths.length-1 : index-1]; // implicit protected access if (depth > 0 && (fieldBinding.declaringClass.getPackage() != currentScope.enclosingSourceType().getPackage())) { FieldBinding someCodegenBinding = getCodegenBinding(index < 0 ? (this.otherBindings == null ? 0 : this.otherBindings.length) : index); setSyntheticAccessor(fieldBinding, index, ((SourceTypeBinding) currentScope.enclosingSourceType().enclosingTypeAt(depth)).addSyntheticMethod(someCodegenBinding, index >= 0 /*read-access?*/)); currentScope.problemReporter().needToEmulateFieldAccess(someCodegenBinding, this, index >= 0 /*read-access?*/); return; } } // if the binding declaring class is not visible, need special action // for runtime compatibility on 1.2 VMs : change the declaring class of the binding // NOTE: from target 1.2 on, field's declaring class is touched if any different from receiver type if (fieldBinding.declaringClass != lastReceiverType && !lastReceiverType.isArrayType() && fieldBinding.declaringClass != null && !fieldBinding.isConstantValue() && ((currentScope.environment().options.targetJDK >= ClassFileConstants.JDK1_2 && (fieldBinding != binding || indexOfFirstFieldBinding > 1 || !fieldBinding.isStatic()) && fieldBinding.declaringClass.id != T_JavaLangObject) || !fieldBinding.declaringClass.canBeSeenBy(currentScope))){ setCodegenBinding( index < 0 ? (this.otherBindings == null ? 0 : this.otherBindings.length) : index, currentScope.enclosingSourceType().getUpdatedFieldBinding( getCodegenBinding(index < 0 ? (this.otherBindings == null ? 0 : this.otherBindings.length) : index), (ReferenceBinding)lastReceiverType.erasure())); } } public StringBuffer printExpression(int indent, StringBuffer output) { for (int i = 0; i < tokens.length; i++) { if (i > 0) output.append('.'); output.append(tokens[i]); } return output; } /** * Normal field binding did not work, try to bind to a field of the delegate receiver. */ public TypeBinding reportError(BlockScope scope) { if (binding instanceof ProblemFieldBinding) { scope.problemReporter().invalidField(this, (FieldBinding) binding); } else if (binding instanceof ProblemReferenceBinding) { scope.problemReporter().invalidType(this, (TypeBinding) binding); } else { scope.problemReporter().unresolvableReference(this, binding); } return null; } public TypeBinding resolveType(BlockScope scope) { // field and/or local are done before type lookups // the only available value for the restrictiveFlag BEFORE // the TC is Flag_Type Flag_LocalField and Flag_TypeLocalField this.actualReceiverType = scope.enclosingSourceType(); constant = Constant.NotAConstant; if ((this.codegenBinding = this.binding = scope.getBinding(tokens, bits & RestrictiveFlagMASK, this, true /*resolve*/)).isValidBinding()) { switch (bits & RestrictiveFlagMASK) { case Binding.VARIABLE : //============only variable=========== case Binding.TYPE | Binding.VARIABLE : if (binding instanceof LocalVariableBinding) { if (!((LocalVariableBinding) binding).isFinal() && ((bits & DepthMASK) != 0)) scope.problemReporter().cannotReferToNonFinalOuterLocal( (LocalVariableBinding) binding, this); bits &= ~RestrictiveFlagMASK; // clear bits bits |= Binding.LOCAL; return this.resolvedType = getOtherFieldBindings(scope); } if (binding instanceof FieldBinding) { // check for forward references FieldBinding fieldBinding = (FieldBinding) binding; MethodScope methodScope = scope.methodScope(); if (methodScope.enclosingSourceType() == fieldBinding.declaringClass && methodScope.lastVisibleFieldID >= 0 && fieldBinding.id >= methodScope.lastVisibleFieldID) { if ((!fieldBinding.isStatic() || methodScope.isStatic) && this.indexOfFirstFieldBinding == 1) { scope.problemReporter().forwardReference(this, 0, scope.enclosingSourceType()); } } if (!fieldBinding.isStatic() && this.indexOfFirstFieldBinding == 1 && scope.environment().options.getSeverity(CompilerOptions.UnqualifiedFieldAccess) != ProblemSeverities.Ignore) { scope.problemReporter().unqualifiedFieldAccess(this, fieldBinding); } bits &= ~RestrictiveFlagMASK; // clear bits bits |= Binding.FIELD; // check for deprecated receiver type // deprecation check for receiver type if not first token if (indexOfFirstFieldBinding > 1) { if (isTypeUseDeprecated(this.actualReceiverType, scope)) scope.problemReporter().deprecatedType(this.actualReceiverType, this); } return this.resolvedType = getOtherFieldBindings(scope); } // thus it was a type bits &= ~RestrictiveFlagMASK; // clear bits bits |= Binding.TYPE; case Binding.TYPE : //=============only type ============== TypeBinding type = (TypeBinding) binding; if (isTypeUseDeprecated(type, scope)) scope.problemReporter().deprecatedType(type, this); return this.resolvedType = scope.convertToRawType(type); } } //========error cases=============== return this.resolvedType = this.reportError(scope); } // set the matching codegenBinding and generic cast protected void setCodegenBinding(int index, FieldBinding someCodegenBinding) { if (index == 0){ this.codegenBinding = someCodegenBinding; } else { int length = this.otherBindings.length; if (this.otherCodegenBindings == this.otherBindings){ System.arraycopy(this.otherBindings, 0, this.otherCodegenBindings = new FieldBinding[length], 0, length); } this.otherCodegenBindings[index-1] = someCodegenBinding; } } // set the matching codegenBinding and generic cast protected void setGenericCast(int index, TypeBinding someGenericCast) { if (index == 0){ this.genericCast = someGenericCast; } else { if (this.otherGenericCasts == null) { this.otherGenericCasts = new TypeBinding[this.otherBindings.length]; } this.otherGenericCasts[index-1] = someGenericCast; } } // set the matching synthetic accessor protected void setSyntheticAccessor(FieldBinding fieldBinding, int index, SyntheticMethodBinding syntheticAccessor) { if (index < 0) { // write-access ? syntheticWriteAccessor = syntheticAccessor; } else { if (syntheticReadAccessors == null) { syntheticReadAccessors = new SyntheticMethodBinding[otherBindings == null ? 1 : otherBindings.length + 1]; } syntheticReadAccessors[index] = syntheticAccessor; } } public void setFieldIndex(int index) { this.indexOfFirstFieldBinding = index; } public void traverse(ASTVisitor visitor, BlockScope scope) { visitor.visit(this, scope); visitor.endVisit(this, scope); } public String unboundReferenceErrorName() { return new String(tokens[0]); } }