/******************************************************************************* * 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.classfmt.ClassFileConstants; 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 SwitchStatement extends Statement { public Expression expression; public Statement[] statements; public BlockScope scope; public int explicitDeclarations; public Label breakLabel; public CaseStatement[] cases; public CaseStatement defaultCase; public int blockStart; public int caseCount; int[] constants; // for local variables table attributes int preSwitchInitStateIndex = -1; int mergedInitStateIndex = -1; public FlowInfo analyseCode( BlockScope currentScope, FlowContext flowContext, FlowInfo flowInfo) { try { flowInfo = expression.analyseCode(currentScope, flowContext, flowInfo); SwitchFlowContext switchContext = new SwitchFlowContext(flowContext, this, (breakLabel = new Label())); // analyse the block by considering specially the case/default statements (need to bind them // to the entry point) FlowInfo caseInits = FlowInfo.DEAD_END; // in case of statements before the first case preSwitchInitStateIndex = currentScope.methodScope().recordInitializationStates(flowInfo); int caseIndex = 0; if (statements != null) { boolean didAlreadyComplain = false; for (int i = 0, max = statements.length; i < max; i++) { Statement statement = statements[i]; if ((caseIndex < caseCount) && (statement == cases[caseIndex])) { // statement is a case this.scope.switchCase = cases[caseIndex]; // record entering in a switch case block caseIndex++; caseInits = caseInits.mergedWith(flowInfo.copy().unconditionalInits()); didAlreadyComplain = false; // reset complaint } else if (statement == defaultCase) { // statement is the default case this.scope.switchCase = defaultCase; // record entering in a switch case block caseInits = caseInits.mergedWith(flowInfo.copy().unconditionalInits()); didAlreadyComplain = false; // reset complaint } if (!statement.complainIfUnreachable(caseInits, scope, didAlreadyComplain)) { caseInits = statement.analyseCode(scope, switchContext, caseInits); } else { didAlreadyComplain = true; } } } // if no default case, then record it may jump over the block directly to the end if (defaultCase == null) { // only retain the potential initializations flowInfo.addPotentialInitializationsFrom( caseInits.mergedWith(switchContext.initsOnBreak)); mergedInitStateIndex = currentScope.methodScope().recordInitializationStates(flowInfo); return flowInfo; } // merge all branches inits FlowInfo mergedInfo = caseInits.mergedWith(switchContext.initsOnBreak); mergedInitStateIndex = currentScope.methodScope().recordInitializationStates(mergedInfo); return mergedInfo; } finally { if (this.scope != null) this.scope.switchCase = null; // no longer inside switch case block } } /** * Switch code generation * * @param currentScope org.eclipse.jdt.internal.compiler.lookup.BlockScope * @param codeStream org.eclipse.jdt.internal.compiler.codegen.CodeStream */ public void generateCode(BlockScope currentScope, CodeStream codeStream) { try { if ((bits & IsReachableMASK) == 0) { return; } int pc = codeStream.position; // prepare the labels and constants this.breakLabel.initialize(codeStream); CaseLabel[] caseLabels = new CaseLabel[this.caseCount]; boolean needSwitch = this.caseCount != 0; for (int i = 0; i < caseCount; i++) { cases[i].targetLabel = (caseLabels[i] = new CaseLabel(codeStream)); } CaseLabel defaultLabel = new CaseLabel(codeStream); if (defaultCase != null) { defaultCase.targetLabel = defaultLabel; } // generate expression testes expression.generateCode(currentScope, codeStream, needSwitch); // generate the appropriate switch table/lookup bytecode if (needSwitch) { int[] sortedIndexes = new int[this.caseCount]; // we sort the keys to be able to generate the code for tableswitch or lookupswitch for (int i = 0; i < caseCount; i++) { sortedIndexes[i] = i; } int[] localKeysCopy; System.arraycopy(this.constants, 0, (localKeysCopy = new int[this.caseCount]), 0, this.caseCount); CodeStream.sort(localKeysCopy, 0, this.caseCount - 1, sortedIndexes); // for enum constants, actually switch on constant ordinal() if (this.expression.resolvedType.isEnum()) { codeStream.invokeEnumOrdinal(this.expression.resolvedType.constantPoolName()); } int max = localKeysCopy[this.caseCount - 1]; int min = localKeysCopy[0]; if ((long) (caseCount * 2.5) > ((long) max - (long) min)) { // work-around 1.3 VM bug, if max>0x7FFF0000, must use lookup bytecode // see http://dev.eclipse.org/bugs/show_bug.cgi?id=21557 if (max > 0x7FFF0000 && currentScope.environment().options.complianceLevel < ClassFileConstants.JDK1_4) { codeStream.lookupswitch(defaultLabel, this.constants, sortedIndexes, caseLabels); } else { codeStream.tableswitch( defaultLabel, min, max, this.constants, sortedIndexes, caseLabels); } } else { codeStream.lookupswitch(defaultLabel, this.constants, sortedIndexes, caseLabels); } codeStream.updateLastRecordedEndPC(codeStream.position); } // generate the switch block statements int caseIndex = 0; if (this.statements != null) { for (int i = 0, maxCases = this.statements.length; i < maxCases; i++) { Statement statement = this.statements[i]; if ((caseIndex < this.caseCount) && (statement == this.cases[caseIndex])) { // statements[i] is a case this.scope.switchCase = this.cases[caseIndex]; // record entering in a switch case block if (preSwitchInitStateIndex != -1) { codeStream.removeNotDefinitelyAssignedVariables(currentScope, preSwitchInitStateIndex); } caseIndex++; } else { if (statement == this.defaultCase) { // statements[i] is a case or a default case this.scope.switchCase = this.defaultCase; // record entering in a switch case block if (preSwitchInitStateIndex != -1) { codeStream.removeNotDefinitelyAssignedVariables(currentScope, preSwitchInitStateIndex); } } } statement.generateCode(scope, codeStream); } } // place the trailing labels (for break and default case) this.breakLabel.place(); if (defaultCase == null) { defaultLabel.place(); } // May loose some local variable initializations : affecting the local variable attributes if (mergedInitStateIndex != -1) { codeStream.removeNotDefinitelyAssignedVariables(currentScope, mergedInitStateIndex); codeStream.addDefinitelyAssignedVariables(currentScope, mergedInitStateIndex); } if (scope != currentScope) { codeStream.exitUserScope(this.scope); } codeStream.recordPositionsFrom(pc, this.sourceStart); } finally { if (this.scope != null) this.scope.switchCase = null; // no longer inside switch case block } } public StringBuffer printStatement(int indent, StringBuffer output) { printIndent(indent, output).append("switch ("); //$NON-NLS-1$ expression.printExpression(0, output).append(") {"); //$NON-NLS-1$ if (statements != null) { for (int i = 0; i < statements.length; i++) { output.append('\n'); if (statements[i] instanceof CaseStatement) { statements[i].printStatement(indent, output); } else { statements[i].printStatement(indent+2, output); } } } output.append("\n"); //$NON-NLS-1$ return printIndent(indent, output).append('}'); } public void resolve(BlockScope upperScope) { try { TypeBinding expressionType = expression.resolveType(upperScope); if (expressionType == null) return; expression.computeConversion(upperScope, expressionType, expressionType); checkType: { if (expressionType.isBaseType()) { if (expression.isConstantValueOfTypeAssignableToType(expressionType, IntBinding)) break checkType; if (expressionType.isCompatibleWith(IntBinding)) break checkType; } else if (expressionType.isEnum()) { break checkType; } else if (upperScope.isBoxingCompatibleWith(expressionType, IntBinding)) { expression.computeConversion(upperScope, IntBinding, expressionType); break checkType; } upperScope.problemReporter().incorrectSwitchType(expression, expressionType); // TODO (philippe) could keep analyzing switch statements in case of error return; } if (statements != null) { scope = explicitDeclarations == 0 ? upperScope : new BlockScope(upperScope); int length; // collection of cases is too big but we will only iterate until caseCount cases = new CaseStatement[length = statements.length]; this.constants = new int[length]; CaseStatement[] duplicateCaseStatements = null; int duplicateCaseStatementsCounter = 0; int counter = 0; for (int i = 0; i < length; i++) { Constant constant; final Statement statement = statements[i]; if ((constant = statement.resolveCase(scope, expressionType, this)) != Constant.NotAConstant) { int key = constant.intValue(); //----check for duplicate case statement------------ for (int j = 0; j < counter; j++) { if (this.constants[j] == key) { final CaseStatement currentCaseStatement = (CaseStatement) statement; if (duplicateCaseStatements == null) { scope.problemReporter().duplicateCase(cases[j]); scope.problemReporter().duplicateCase(currentCaseStatement); duplicateCaseStatements = new CaseStatement[length]; duplicateCaseStatements[duplicateCaseStatementsCounter++] = cases[j]; duplicateCaseStatements[duplicateCaseStatementsCounter++] = currentCaseStatement; } else { boolean found = false; searchReportedDuplicate: for (int k = 2; k < duplicateCaseStatementsCounter; k++) { if (duplicateCaseStatements[k] == statement) { found = true; break searchReportedDuplicate; } } if (!found) { scope.problemReporter().duplicateCase(currentCaseStatement); duplicateCaseStatements[duplicateCaseStatementsCounter++] = currentCaseStatement; } } } } this.constants[counter++] = key; } } if (length != counter) { // resize constants array System.arraycopy(this.constants, 0, this.constants = new int[counter], 0, counter); } } else { if ((this.bits & UndocumentedEmptyBlockMASK) != 0) { upperScope.problemReporter().undocumentedEmptyBlock(this.blockStart, this.sourceEnd); } } } finally { if (this.scope != null) this.scope.switchCase = null; // no longer inside switch case block } } public void traverse( ASTVisitor visitor, BlockScope blockScope) { if (visitor.visit(this, blockScope)) { expression.traverse(visitor, scope); if (statements != null) { int statementsLength = statements.length; for (int i = 0; i < statementsLength; i++) statements[i].traverse(visitor, scope); } } visitor.endVisit(this, blockScope); } /** * Dispatch the call on its last statement. */ public void branchChainTo(Label label) { // in order to improve debug attributes for stepping (11431) // we want to inline the jumps to #breakLabel which already got // generated (if any), and have them directly branch to a better // location (the argument label). // we know at this point that the breakLabel already got placed if (this.breakLabel.hasForwardReferences()) { label.appendForwardReferencesFrom(this.breakLabel); } } }