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/*******************************************************************************
* Copyright (c) 2000, 2009 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
*******************************************************************************/
package org.eclipse.jdt.internal.compiler.ast;
import org.eclipse.jdt.internal.compiler.ASTVisitor;
import org.eclipse.jdt.internal.compiler.codegen.*;
import org.eclipse.jdt.internal.compiler.flow.*;
import org.eclipse.jdt.internal.compiler.impl.Constant;
import org.eclipse.jdt.internal.compiler.lookup.*;
public class ArrayInitializer extends Expression {
public Expression[] expressions;
public ArrayBinding binding; //the type of the { , , , }
/**
* ArrayInitializer constructor comment.
*/
public ArrayInitializer() {
super();
}
public FlowInfo analyseCode(BlockScope currentScope, FlowContext flowContext, FlowInfo flowInfo) {
if (this.expressions != null) {
for (int i = 0, max = this.expressions.length; i < max; i++) {
flowInfo = this.expressions[i].analyseCode(currentScope, flowContext, flowInfo).unconditionalInits();
}
}
return flowInfo;
}
/**
* Code generation for a array initializer
*/
public void generateCode(BlockScope currentScope, CodeStream codeStream, boolean valueRequired) {
// Flatten the values and compute the dimensions, by iterating in depth into nested array initializers
int pc = codeStream.position;
int expressionLength = (this.expressions == null) ? 0: this.expressions.length;
codeStream.generateInlinedValue(expressionLength);
codeStream.newArray(this.binding);
if (this.expressions != null) {
// binding is an ArrayType, so I can just deal with the dimension
int elementsTypeID = this.binding.dimensions > 1 ? -1 : this.binding.leafComponentType.id;
for (int i = 0; i < expressionLength; i++) {
Expression expr;
if ((expr = this.expressions[i]).constant != Constant.NotAConstant) {
switch (elementsTypeID) { // filter out initializations to default values
case T_int :
case T_short :
case T_byte :
case T_char :
case T_long :
if (expr.constant.longValue() != 0) {
codeStream.dup();
codeStream.generateInlinedValue(i);
expr.generateCode(currentScope, codeStream, true);
codeStream.arrayAtPut(elementsTypeID, false);
}
break;
case T_float :
case T_double :
double constantValue = expr.constant.doubleValue();
if (constantValue == -0.0 || constantValue != 0) {
codeStream.dup();
codeStream.generateInlinedValue(i);
expr.generateCode(currentScope, codeStream, true);
codeStream.arrayAtPut(elementsTypeID, false);
}
break;
case T_boolean :
if (expr.constant.booleanValue() != false) {
codeStream.dup();
codeStream.generateInlinedValue(i);
expr.generateCode(currentScope, codeStream, true);
codeStream.arrayAtPut(elementsTypeID, false);
}
break;
default :
if (!(expr instanceof NullLiteral)) {
codeStream.dup();
codeStream.generateInlinedValue(i);
expr.generateCode(currentScope, codeStream, true);
codeStream.arrayAtPut(elementsTypeID, false);
}
}
} else if (!(expr instanceof NullLiteral)) {
codeStream.dup();
codeStream.generateInlinedValue(i);
expr.generateCode(currentScope, codeStream, true);
codeStream.arrayAtPut(elementsTypeID, false);
}
}
}
if (valueRequired) {
codeStream.generateImplicitConversion(this.implicitConversion);
} else {
codeStream.pop();
}
codeStream.recordPositionsFrom(pc, this.sourceStart);
}
public StringBuffer printExpression(int indent, StringBuffer output) {
output.append('{');
if (this.expressions != null) {
int j = 20 ;
for (int i = 0 ; i < this.expressions.length ; i++) {
if (i > 0) output.append(", "); //$NON-NLS-1$
this.expressions[i].printExpression(0, output);
j -- ;
if (j == 0) {
output.append('\n');
printIndent(indent+1, output);
j = 20;
}
}
}
return output.append('}');
}
public TypeBinding resolveTypeExpecting(BlockScope scope, TypeBinding expectedType) {
// Array initializers can only occur on the right hand side of an assignment
// expression, therefore the expected type contains the valid information
// concerning the type that must be enforced by the elements of the array initializer.
// this method is recursive... (the test on isArrayType is the stop case)
this.constant = Constant.NotAConstant;
if (expectedType instanceof ArrayBinding) {
// allow new List>[5]
if ((this.bits & IsAnnotationDefaultValue) == 0) { // annotation default value need only to be commensurate JLS9.7
// allow new List>[5] - only check for generic array when no initializer, since also checked inside initializer resolution
TypeBinding leafComponentType = expectedType.leafComponentType();
if (!leafComponentType.isReifiable()) {
scope.problemReporter().illegalGenericArray(leafComponentType, this);
}
}
this.resolvedType = this.binding = (ArrayBinding) expectedType;
if (this.expressions == null)
return this.binding;
TypeBinding elementType = this.binding.elementsType();
for (int i = 0, length = this.expressions.length; i < length; i++) {
Expression expression = this.expressions[i];
expression.setExpectedType(elementType);
TypeBinding expressionType = expression instanceof ArrayInitializer
? expression.resolveTypeExpecting(scope, elementType)
: expression.resolveType(scope);
if (expressionType == null)
continue;
// Compile-time conversion required?
if (elementType != expressionType) // must call before computeConversion() and typeMismatchError()
scope.compilationUnitScope().recordTypeConversion(elementType, expressionType);
if (expression.isConstantValueOfTypeAssignableToType(expressionType, elementType)
|| expressionType.isCompatibleWith(elementType)) {
expression.computeConversion(scope, elementType, expressionType);
} else if (isBoxingCompatible(expressionType, elementType, expression, scope)) {
expression.computeConversion(scope, elementType, expressionType);
} else {
scope.problemReporter().typeMismatchError(expressionType, elementType, expression, null);
}
}
return this.binding;
}
// infer initializer type for error reporting based on first element
TypeBinding leafElementType = null;
int dim = 1;
if (this.expressions == null) {
leafElementType = scope.getJavaLangObject();
} else {
Expression expression = this.expressions[0];
while(expression != null && expression instanceof ArrayInitializer) {
dim++;
Expression[] subExprs = ((ArrayInitializer) expression).expressions;
if (subExprs == null){
leafElementType = scope.getJavaLangObject();
expression = null;
break;
}
expression = ((ArrayInitializer) expression).expressions[0];
}
if (expression != null) {
leafElementType = expression.resolveType(scope);
}
// fault-tolerance - resolve other expressions as well
for (int i = 1, length = this.expressions.length; i < length; i++) {
expression = this.expressions[i];
if (expression != null) {
expression.resolveType(scope) ;
}
} }
if (leafElementType != null) {
this.resolvedType = scope.createArrayType(leafElementType, dim);
if (expectedType != null)
scope.problemReporter().typeMismatchError(this.resolvedType, expectedType, this, null);
}
return null;
}
public void traverse(ASTVisitor visitor, BlockScope scope) {
if (visitor.visit(this, scope)) {
if (this.expressions != null) {
int expressionsLength = this.expressions.length;
for (int i = 0; i < expressionsLength; i++)
this.expressions[i].traverse(visitor, scope);
}
}
visitor.endVisit(this, scope);
}
}