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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.batch;

import java.io.File;
import java.io.IOException;
import java.util.ArrayList;
import java.util.HashSet;
import java.util.Iterator;
import java.util.List;
import java.util.Set;

import org.eclipse.jdt.core.compiler.CharOperation;
import org.eclipse.jdt.internal.compiler.env.AccessRuleSet;
import org.eclipse.jdt.internal.compiler.env.INameEnvironment;
import org.eclipse.jdt.internal.compiler.env.NameEnvironmentAnswer;
import org.eclipse.jdt.internal.compiler.util.SuffixConstants;
import org.eclipse.jdt.internal.compiler.util.Util;

public class FileSystem implements INameEnvironment, SuffixConstants {
	public interface Classpath {
		char[][][] findTypeNames(String qualifiedPackageName);
		NameEnvironmentAnswer findClass(char[] typeName, String qualifiedPackageName, String qualifiedBinaryFileName);
		NameEnvironmentAnswer findClass(char[] typeName, String qualifiedPackageName, String qualifiedBinaryFileName, boolean asBinaryOnly);
		boolean isPackage(String qualifiedPackageName);
		/**
		 * Return a list of the jar file names defined in the Class-Path section
		 * of the jar file manifest if any, null else. Only ClasspathJar (and
		 * extending classes) instances may return a non-null result.
		 * @param  problemReporter problem reporter with which potential
		 *         misconfiguration issues are raised
		 * @return a list of the jar file names defined in the Class-Path
		 *         section of the jar file manifest if any
		 */
		List fetchLinkedJars(ClasspathSectionProblemReporter problemReporter);
		/**
		 * This method resets the environment. The resulting state is equivalent to
		 * a new name environment without creating a new object.
		 */
		void reset();
		/**
		 * Return a normalized path for file based classpath entries. This is an
		 * absolute path in which file separators are transformed to the
		 * platform-agnostic '/', ending with a '/' for directories. This is an
		 * absolute path in which file separators are transformed to the
		 * platform-agnostic '/', deprived from the '.jar' (resp. '.zip')
		 * extension for jar (resp. zip) files.
		 * @return a normalized path for file based classpath entries
		 */
		char[] normalizedPath();
		/**
		 * Return the path for file based classpath entries. This is an absolute path
		 * ending with a file separator for directories, an absolute path including the '.jar'
		 * (resp. '.zip') extension for jar (resp. zip) files.
		 * @return the path for file based classpath entries
		 */
		String getPath();
		/**
		 * Initialize the entry
		 */
		void initialize() throws IOException;
	}
	public interface ClasspathSectionProblemReporter {
		void invalidClasspathSection(String jarFilePath);
		void multipleClasspathSections(String jarFilePath);
	}

	/**
	 * This class is defined how to normalize the classpath entries.
	 * It removes duplicate entries.
	 */
	public static class ClasspathNormalizer {
		/**
		 * Returns the normalized classpath entries (no duplicate).
		 * 

The given classpath entries are FileSystem.Classpath. We check the getPath() in order to find * duplicate entries.

* * @param classpaths the given classpath entries * @return the normalized classpath entries */ public static ArrayList normalize(ArrayList classpaths) { ArrayList normalizedClasspath = new ArrayList(); HashSet cache = new HashSet(); for (Iterator iterator = classpaths.iterator(); iterator.hasNext(); ) { FileSystem.Classpath classpath = (FileSystem.Classpath) iterator.next(); String path = classpath.getPath(); if (!cache.contains(path)) { normalizedClasspath.add(classpath); cache.add(path); } } return normalizedClasspath; } } Classpath[] classpaths; Set knownFileNames; /* classPathNames is a collection is Strings representing the full path of each class path initialFileNames is a collection is Strings, the trailing '.java' will be removed if its not already. */ public FileSystem(String[] classpathNames, String[] initialFileNames, String encoding) { final int classpathSize = classpathNames.length; this.classpaths = new Classpath[classpathSize]; int counter = 0; for (int i = 0; i < classpathSize; i++) { Classpath classpath = getClasspath(classpathNames[i], encoding, null); try { classpath.initialize(); this.classpaths[counter++] = classpath; } catch (IOException e) { // ignore } } if (counter != classpathSize) { System.arraycopy(this.classpaths, 0, (this.classpaths = new Classpath[counter]), 0, counter); } initializeKnownFileNames(initialFileNames); } FileSystem(Classpath[] paths, String[] initialFileNames) { final int length = paths.length; int counter = 0; this.classpaths = new FileSystem.Classpath[length]; for (int i = 0; i < length; i++) { final Classpath classpath = paths[i]; try { classpath.initialize(); this.classpaths[counter++] = classpath; } catch(IOException exception) { // ignore } } if (counter != length) { // should not happen System.arraycopy(this.classpaths, 0, (this.classpaths = new FileSystem.Classpath[counter]), 0, counter); } initializeKnownFileNames(initialFileNames); } public static Classpath getClasspath(String classpathName, String encoding, AccessRuleSet accessRuleSet) { return getClasspath(classpathName, encoding, false, accessRuleSet, null); } public static Classpath getClasspath(String classpathName, String encoding, boolean isSourceOnly, AccessRuleSet accessRuleSet, String destinationPath) { Classpath result = null; File file = new File(convertPathSeparators(classpathName)); if (file.isDirectory()) { if (file.exists()) { result = new ClasspathDirectory(file, encoding, isSourceOnly ? ClasspathLocation.SOURCE : ClasspathLocation.SOURCE | ClasspathLocation.BINARY, accessRuleSet, destinationPath == null || destinationPath == Main.NONE ? destinationPath : // keep == comparison valid convertPathSeparators(destinationPath)); } } else { if (Util.isPotentialZipArchive(classpathName)) { if (isSourceOnly) { // source only mode result = new ClasspathSourceJar(file, true, accessRuleSet, encoding, destinationPath == null || destinationPath == Main.NONE ? destinationPath : // keep == comparison valid convertPathSeparators(destinationPath)); } else if (destinationPath == null) { // class file only mode result = new ClasspathJar(file, true, accessRuleSet, null); } } } return result; } private void initializeKnownFileNames(String[] initialFileNames) { if (initialFileNames == null) { this.knownFileNames = new HashSet(0); return; } this.knownFileNames = new HashSet(initialFileNames.length * 2); for (int i = initialFileNames.length; --i >= 0;) { File compilationUnitFile = new File(initialFileNames[i]); char[] fileName = null; try { fileName = compilationUnitFile.getCanonicalPath().toCharArray(); } catch (IOException e) { // this should not happen as the file exists continue; } char[] matchingPathName = null; final int lastIndexOf = CharOperation.lastIndexOf('.', fileName); if (lastIndexOf != -1) { fileName = CharOperation.subarray(fileName, 0, lastIndexOf); } CharOperation.replace(fileName, '\\', '/'); for (int j = 0, max = this.classpaths.length; j < max; j++) { char[] matchCandidate = this.classpaths[j].normalizedPath(); if (this.classpaths[j] instanceof ClasspathDirectory && CharOperation.prefixEquals(matchCandidate, fileName) && (matchingPathName == null || matchCandidate.length < matchingPathName.length)) { matchingPathName = matchCandidate; } } if (matchingPathName == null) { this.knownFileNames.add(new String(fileName)); // leave as is... } else { this.knownFileNames.add(new String(CharOperation.subarray(fileName, matchingPathName.length, fileName.length))); } matchingPathName = null; } } public void cleanup() { for (int i = 0, max = this.classpaths.length; i < max; i++) this.classpaths[i].reset(); } private static String convertPathSeparators(String path) { return File.separatorChar == '/' ? path.replace('\\', '/') : path.replace('/', '\\'); } private NameEnvironmentAnswer findClass(String qualifiedTypeName, char[] typeName, boolean asBinaryOnly){ if (this.knownFileNames.contains(qualifiedTypeName)) return null; // looking for a file which we know was provided at the beginning of the compilation String qualifiedBinaryFileName = qualifiedTypeName + SUFFIX_STRING_class; String qualifiedPackageName = qualifiedTypeName.length() == typeName.length ? Util.EMPTY_STRING : qualifiedBinaryFileName.substring(0, qualifiedTypeName.length() - typeName.length - 1); String qp2 = File.separatorChar == '/' ? qualifiedPackageName : qualifiedPackageName.replace('/', File.separatorChar); NameEnvironmentAnswer suggestedAnswer = null; if (qualifiedPackageName == qp2) { for (int i = 0, length = this.classpaths.length; i < length; i++) { NameEnvironmentAnswer answer = this.classpaths[i].findClass(typeName, qualifiedPackageName, qualifiedBinaryFileName, asBinaryOnly); if (answer != null) { if (!answer.ignoreIfBetter()) { if (answer.isBetter(suggestedAnswer)) return answer; } else if (answer.isBetter(suggestedAnswer)) // remember suggestion and keep looking suggestedAnswer = answer; } } } else { String qb2 = qualifiedBinaryFileName.replace('/', File.separatorChar); for (int i = 0, length = this.classpaths.length; i < length; i++) { Classpath p = this.classpaths[i]; NameEnvironmentAnswer answer = (p instanceof ClasspathJar) ? p.findClass(typeName, qualifiedPackageName, qualifiedBinaryFileName, asBinaryOnly) : p.findClass(typeName, qp2, qb2, asBinaryOnly); if (answer != null) { if (!answer.ignoreIfBetter()) { if (answer.isBetter(suggestedAnswer)) return answer; } else if (answer.isBetter(suggestedAnswer)) // remember suggestion and keep looking suggestedAnswer = answer; } } } if (suggestedAnswer != null) // no better answer was found return suggestedAnswer; return null; } public NameEnvironmentAnswer findType(char[][] compoundName) { if (compoundName != null) return findClass( new String(CharOperation.concatWith(compoundName, '/')), compoundName[compoundName.length - 1], false); return null; } public char[][][] findTypeNames(char[][] packageName) { char[][][] result = null; if (packageName != null) { String qualifiedPackageName = new String(CharOperation.concatWith(packageName, '/')); String qualifiedPackageName2 = File.separatorChar == '/' ? qualifiedPackageName : qualifiedPackageName.replace('/', File.separatorChar); if (qualifiedPackageName == qualifiedPackageName2) { for (int i = 0, length = this.classpaths.length; i < length; i++) { char[][][] answers = this.classpaths[i].findTypeNames(qualifiedPackageName); if (answers != null) { // concat with previous answers if (result == null) { result = answers; } else { int resultLength = result.length; int answersLength = answers.length; System.arraycopy(result, 0, (result = new char[answersLength + resultLength][][]), 0, resultLength); System.arraycopy(answers, 0, result, resultLength, answersLength); } } } } else { for (int i = 0, length = this.classpaths.length; i < length; i++) { Classpath p = this.classpaths[i]; char[][][] answers = (p instanceof ClasspathJar) ? p.findTypeNames(qualifiedPackageName) : p.findTypeNames(qualifiedPackageName2); if (answers != null) { // concat with previous answers if (result == null) { result = answers; } else { int resultLength = result.length; int answersLength = answers.length; System.arraycopy(result, 0, (result = new char[answersLength + resultLength][][]), 0, resultLength); System.arraycopy(answers, 0, result, resultLength, answersLength); } } } } } return result; } public NameEnvironmentAnswer findType(char[][] compoundName, boolean asBinaryOnly) { if (compoundName != null) return findClass( new String(CharOperation.concatWith(compoundName, '/')), compoundName[compoundName.length - 1], asBinaryOnly); return null; } public NameEnvironmentAnswer findType(char[] typeName, char[][] packageName) { if (typeName != null) return findClass( new String(CharOperation.concatWith(packageName, typeName, '/')), typeName, false); return null; } public boolean isPackage(char[][] compoundName, char[] packageName) { String qualifiedPackageName = new String(CharOperation.concatWith(compoundName, packageName, '/')); String qp2 = File.separatorChar == '/' ? qualifiedPackageName : qualifiedPackageName.replace('/', File.separatorChar); if (qualifiedPackageName == qp2) { for (int i = 0, length = this.classpaths.length; i < length; i++) if (this.classpaths[i].isPackage(qualifiedPackageName)) return true; } else { for (int i = 0, length = this.classpaths.length; i < length; i++) { Classpath p = this.classpaths[i]; if ((p instanceof ClasspathJar) ? p.isPackage(qualifiedPackageName) : p.isPackage(qp2)) return true; } } return false; } }




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