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eclipse / aspectj / org.aspectj.shadows / 09a8185326286aecc767a878cbcee9d750654c51 / . / org.eclipse.jdt.core / model / org / eclipse / jdt / internal / core / util / Util.java
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/*******************************************************************************
* Copyright (c) 2000, 2005 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.core.util;
import java.io.*;
import java.util.*;
import java.util.zip.ZipEntry;
import java.util.zip.ZipFile;
import org.eclipse.core.resources.*;
import org.eclipse.core.runtime.*;
import org.eclipse.core.runtime.content.IContentType;
import org.eclipse.core.runtime.preferences.IScopeContext;
import org.eclipse.core.runtime.preferences.InstanceScope;
import org.eclipse.jdt.core.*;
import org.eclipse.jdt.core.compiler.CharOperation;
import org.eclipse.jdt.core.dom.ASTNode;
import org.eclipse.jdt.core.dom.ArrayType;
import org.eclipse.jdt.core.dom.ParameterizedType;
import org.eclipse.jdt.core.dom.PrimitiveType;
import org.eclipse.jdt.core.dom.QualifiedType;
import org.eclipse.jdt.core.dom.SimpleType;
import org.eclipse.jdt.core.dom.Type;
import org.eclipse.jdt.core.dom.WildcardType;
import org.eclipse.jdt.core.util.IClassFileAttribute;
import org.eclipse.jdt.core.util.IClassFileReader;
import org.eclipse.jdt.core.util.ICodeAttribute;
import org.eclipse.jdt.core.util.IFieldInfo;
import org.eclipse.jdt.core.util.IMethodInfo;
import org.eclipse.jdt.internal.compiler.ast.AbstractMethodDeclaration;
import org.eclipse.jdt.internal.compiler.ast.Argument;
import org.eclipse.jdt.internal.compiler.ast.TypeReference;
import org.eclipse.jdt.internal.compiler.classfmt.ClassFileReader;
import org.eclipse.jdt.internal.compiler.classfmt.ClassFormatException;
import org.eclipse.jdt.internal.compiler.util.SuffixConstants;
import org.eclipse.jdt.internal.core.Assert;
import org.eclipse.jdt.internal.core.JavaModelManager;
import org.eclipse.jdt.internal.core.PackageFragmentRoot;
import org.eclipse.jface.text.BadLocationException;
import org.eclipse.text.edits.MalformedTreeException;
import org.eclipse.text.edits.TextEdit;
/**
* Provides convenient utility methods to other types in this package.
*/
public class Util {
public interface Comparable {
/**
* Returns 0 if this and c are equal, >0 if this is greater than c,
* or <0 if this is less than c.
*/
int compareTo(Comparable c);
}
public interface Comparer {
/**
* Returns 0 if a and b are equal, >0 if a is greater than b,
* or <0 if a is less than b.
*/
int compare(Object a, Object b);
}
private static final String ARGUMENTS_DELIMITER = "#"; //$NON-NLS-1$
private static final String EMPTY_ARGUMENT = " "; //$NON-NLS-1$
private static char[][] JAVA_LIKE_EXTENSIONS;
private static final char[] BOOLEAN = "boolean".toCharArray(); //$NON-NLS-1$
private static final char[] BYTE = "byte".toCharArray(); //$NON-NLS-1$
private static final char[] CHAR = "char".toCharArray(); //$NON-NLS-1$
private static final char[] DOUBLE = "double".toCharArray(); //$NON-NLS-1$
private static final char[] FLOAT = "float".toCharArray(); //$NON-NLS-1$
private static final char[] INT = "int".toCharArray(); //$NON-NLS-1$
private static final char[] LONG = "long".toCharArray(); //$NON-NLS-1$
private static final char[] SHORT = "short".toCharArray(); //$NON-NLS-1$
private static final char[] VOID = "void".toCharArray(); //$NON-NLS-1$
private static final char[] INIT = "<init>".toCharArray(); //$NON-NLS-1$
private Util() {
// cannot be instantiated
}
/**
* Returns a new array adding the second array at the end of first array.
* It answers null if the first and second are null.
* If the first array is null or if it is empty, then a new array is created with second.
* If the second array is null, then the first array is returned.
* <br>
* <br>
* For example:
* <ol>
* <li><pre>
* first = null
* second = "a"
* => result = {"a"}
* </pre>
* <li><pre>
* first = {"a"}
* second = null
* => result = {"a"}
* </pre>
* </li>
* <li><pre>
* first = {"a"}
* second = {"b"}
* => result = {"a", "b"}
* </pre>
* </li>
* </ol>
*
* @param first the first array to concatenate
* @param second the array to add at the end of the first array
* @return a new array adding the second array at the end of first array, or null if the two arrays are null.
*/
public static final String[] arrayConcat(String[] first, String second) {
if (second == null)
return first;
if (first == null)
return new String[] {second};
int length = first.length;
if (first.length == 0) {
return new String[] {second};
}
String[] result = new String[length + 1];
System.arraycopy(first, 0, result, 0, length);
result[length] = second;
return result;
}
/**
* Checks the type signature in String sig,
* starting at start and ending before end (end is not included).
* Returns the index of the character immediately after the signature if valid,
* or -1 if not valid.
*/
private static int checkTypeSignature(String sig, int start, int end, boolean allowVoid) {
if (start >= end) return -1;
int i = start;
char c = sig.charAt(i++);
int nestingDepth = 0;
while (c == '[') {
++nestingDepth;
if (i >= end) return -1;
c = sig.charAt(i++);
}
switch (c) {
case 'B':
case 'C':
case 'D':
case 'F':
case 'I':
case 'J':
case 'S':
case 'Z':
break;
case 'V':
if (!allowVoid) return -1;
// array of void is not allowed
if (nestingDepth != 0) return -1;
break;
case 'L':
int semicolon = sig.indexOf(';', i);
// Must have at least one character between L and ;
if (semicolon <= i || semicolon >= end) return -1;
i = semicolon + 1;
break;
default:
return -1;
}
return i;
}
/**
* Combines two hash codes to make a new one.
*/
public static int combineHashCodes(int hashCode1, int hashCode2) {
return hashCode1 * 17 + hashCode2;
}
/**
* Compares two byte arrays.
* Returns <0 if a byte in a is less than the corresponding byte in b, or if a is shorter, or if a is null.
* Returns >0 if a byte in a is greater than the corresponding byte in b, or if a is longer, or if b is null.
* Returns 0 if they are equal or both null.
*/
public static int compare(byte[] a, byte[] b) {
if (a == b)
return 0;
if (a == null)
return -1;
if (b == null)
return 1;
int len = Math.min(a.length, b.length);
for (int i = 0; i < len; ++i) {
int diff = a[i] - b[i];
if (diff != 0)
return diff;
}
if (a.length > len)
return 1;
if (b.length > len)
return -1;
return 0;
}
/**
* Compares two strings lexicographically.
* The comparison is based on the Unicode value of each character in
* the strings.
*
* @return the value <code>0</code> if the str1 is equal to str2;
* a value less than <code>0</code> if str1
* is lexicographically less than str2;
* and a value greater than <code>0</code> if str1 is
* lexicographically greater than str2.
*/
public static int compare(char[] str1, char[] str2) {
int len1= str1.length;
int len2= str2.length;
int n= Math.min(len1, len2);
int i= 0;
while (n-- != 0) {
char c1= str1[i];
char c2= str2[i++];
if (c1 != c2) {
return c1 - c2;
}
}
return len1 - len2;
}
/**
* Concatenate two strings with a char in between.
* @see #concat(String, String)
*/
public static String concat(String s1, char c, String s2) {
if (s1 == null) s1 = "null"; //$NON-NLS-1$
if (s2 == null) s2 = "null"; //$NON-NLS-1$
int l1 = s1.length();
int l2 = s2.length();
char[] buf = new char[l1 + 1 + l2];
s1.getChars(0, l1, buf, 0);
buf[l1] = c;
s2.getChars(0, l2, buf, l1 + 1);
return new String(buf);
}
/**
* Concatenate two strings.
* Much faster than using +, which:
* - creates a StringBuffer,
* - which is synchronized,
* - of default size, so the resulting char array is
* often larger than needed.
* This implementation creates an extra char array, since the
* String constructor copies its argument, but there's no way around this.
*/
public static String concat(String s1, String s2) {
if (s1 == null) s1 = "null"; //$NON-NLS-1$
if (s2 == null) s2 = "null"; //$NON-NLS-1$
int l1 = s1.length();
int l2 = s2.length();
char[] buf = new char[l1 + l2];
s1.getChars(0, l1, buf, 0);
s2.getChars(0, l2, buf, l1);
return new String(buf);
}
/**
* Returns the concatenation of the given array parts using the given separator between each part.
* <br>
* <br>
* For example:<br>
* <ol>
* <li><pre>
* array = {"a", "b"}
* separator = '.'
* => result = "a.b"
* </pre>
* </li>
* <li><pre>
* array = {}
* separator = '.'
* => result = ""
* </pre></li>
* </ol>
*
* @param array the given array
* @param separator the given separator
* @return the concatenation of the given array parts using the given separator between each part
*/
public static final String concatWith(String[] array, char separator) {
StringBuffer buffer = new StringBuffer();
for (int i = 0, length = array.length; i < length; i++) {
buffer.append(array[i]);
if (i < length - 1)
buffer.append(separator);
}
return buffer.toString();
}
/**
* Returns the concatenation of the given array parts using the given separator between each
* part and appending the given name at the end.
* <br>
* <br>
* For example:<br>
* <ol>
* <li><pre>
* name = "c"
* array = { "a", "b" }
* separator = '.'
* => result = "a.b.c"
* </pre>
* </li>
* <li><pre>
* name = null
* array = { "a", "b" }
* separator = '.'
* => result = "a.b"
* </pre></li>
* <li><pre>
* name = " c"
* array = null
* separator = '.'
* => result = "c"
* </pre></li>
* </ol>
*
* @param array the given array
* @param name the given name
* @param separator the given separator
* @return the concatenation of the given array parts using the given separator between each
* part and appending the given name at the end
*/
public static final String concatWith(
String[] array,
String name,
char separator) {
if (array == null || array.length == 0) return name;
if (name == null || name.length() == 0) return concatWith(array, separator);
StringBuffer buffer = new StringBuffer();
for (int i = 0, length = array.length; i < length; i++) {
buffer.append(array[i]);
buffer.append(separator);
}
buffer.append(name);
return buffer.toString();
}
/**
* Concatenate three strings.
* @see #concat(String, String)
*/
public static String concat(String s1, String s2, String s3) {
if (s1 == null) s1 = "null"; //$NON-NLS-1$
if (s2 == null) s2 = "null"; //$NON-NLS-1$
if (s3 == null) s3 = "null"; //$NON-NLS-1$
int l1 = s1.length();
int l2 = s2.length();
int l3 = s3.length();
char[] buf = new char[l1 + l2 + l3];
s1.getChars(0, l1, buf, 0);
s2.getChars(0, l2, buf, l1);
s3.getChars(0, l3, buf, l1 + l2);
return new String(buf);
}
/**
* Converts a type signature from the IBinaryType representation to the DC representation.
*/
public static String convertTypeSignature(char[] sig, int start, int length) {
return new String(sig, start, length).replace('/', '.');
}
/*
* Returns the default java extension (".java").
* To be used when the extension is not known.
*/
public static String defaultJavaExtension() {
return SuffixConstants.SUFFIX_STRING_java;
}
/**
* Apply the given edit on the given string and return the updated string.
* Return the given string if anything wrong happen while applying the edit.
*
* @param original the given string
* @param edit the given edit
*
* @return the updated string
*/
public final static String editedString(String original, TextEdit edit) {
if (edit == null) {
return original;
}
SimpleDocument document = new SimpleDocument(original);
try {
edit.apply(document, TextEdit.NONE);
return document.get();
} catch (MalformedTreeException e) {
e.printStackTrace();
} catch (BadLocationException e) {
e.printStackTrace();
}
return original;
}
/**
* Returns true iff str.toLowerCase().endsWith(end.toLowerCase())
* implementation is not creating extra strings.
*/
public final static boolean endsWithIgnoreCase(String str, String end) {
int strLength = str == null ? 0 : str.length();
int endLength = end == null ? 0 : end.length();
// return false if the string is smaller than the end.
if(endLength > strLength)
return false;
// return false if any character of the end are
// not the same in lower case.
for(int i = 1 ; i <= endLength; i++){
if(Character.toLowerCase(end.charAt(endLength - i)) != Character.toLowerCase(str.charAt(strLength - i)))
return false;
}
return true;
}
/**
* Compares two arrays using equals() on the elements.
* Neither can be null. Only the first len elements are compared.
* Return false if either array is shorter than len.
*/
public static boolean equalArrays(Object[] a, Object[] b, int len) {
if (a == b) return true;
if (a.length < len || b.length < len) return false;
for (int i = 0; i < len; ++i) {
if (a[i] == null) {
if (b[i] != null) return false;
} else {
if (!a[i].equals(b[i])) return false;
}
}
return true;
}
/**
* Compares two arrays using equals() on the elements.
* Either or both arrays may be null.
* Returns true if both are null.
* Returns false if only one is null.
* If both are arrays, returns true iff they have the same length and
* all elements are equal.
*/
public static boolean equalArraysOrNull(int[] a, int[] b) {
if (a == b)
return true;
if (a == null || b == null)
return false;
int len = a.length;
if (len != b.length)
return false;
for (int i = 0; i < len; ++i) {
if (a[i] != b[i])
return false;
}
return true;
}
/**
* Compares two arrays using equals() on the elements.
* Either or both arrays may be null.
* Returns true if both are null.
* Returns false if only one is null.
* If both are arrays, returns true iff they have the same length and
* all elements compare true with equals.
*/
public static boolean equalArraysOrNull(Object[] a, Object[] b) {
if (a == b) return true;
if (a == null || b == null) return false;
int len = a.length;
if (len != b.length) return false;
for (int i = 0; i < len; ++i) {
if (a[i] == null) {
if (b[i] != null) return false;
} else {
if (!a[i].equals(b[i])) return false;
}
}
return true;
}
/**
* Compares two arrays using equals() on the elements.
* The arrays are first sorted.
* Either or both arrays may be null.
* Returns true if both are null.
* Returns false if only one is null.
* If both are arrays, returns true iff they have the same length and
* iff, after sorting both arrays, all elements compare true with equals.
* The original arrays are left untouched.
*/
public static boolean equalArraysOrNullSortFirst(Comparable[] a, Comparable[] b) {
if (a == b) return true;
if (a == null || b == null) return false;
int len = a.length;
if (len != b.length) return false;
if (len >= 2) { // only need to sort if more than two items
a = sortCopy(a);
b = sortCopy(b);
}
for (int i = 0; i < len; ++i) {
if (!a[i].equals(b[i])) return false;
}
return true;
}
/**
* Compares two String arrays using equals() on the elements.
* The arrays are first sorted.
* Either or both arrays may be null.
* Returns true if both are null.
* Returns false if only one is null.
* If both are arrays, returns true iff they have the same length and
* iff, after sorting both arrays, all elements compare true with equals.
* The original arrays are left untouched.
*/
public static boolean equalArraysOrNullSortFirst(String[] a, String[] b) {
if (a == b) return true;
if (a == null || b == null) return false;
int len = a.length;
if (len != b.length) return false;
if (len >= 2) { // only need to sort if more than two items
a = sortCopy(a);
b = sortCopy(b);
}
for (int i = 0; i < len; ++i) {
if (!a[i].equals(b[i])) return false;
}
return true;
}
/**
* Compares two objects using equals().
* Either or both array may be null.
* Returns true if both are null.
* Returns false if only one is null.
* Otherwise, return the result of comparing with equals().
*/
public static boolean equalOrNull(Object a, Object b) {
if (a == b) {
return true;
}
if (a == null || b == null) {
return false;
}
return a.equals(b);
}
/*
* Returns whether the given file name equals to the given string ignoring the java like extension
* of the file name.
* Returns false if it is not a java like file name.
*/
public static boolean equalsIgnoreJavaLikeExtension(String fileName, String string) {
int fileNameLength = fileName.length();
int stringLength = string.length();
if (fileNameLength < stringLength) return false;
for (int i = 0; i < stringLength; i ++) {
if (fileName.charAt(i) != string.charAt(i)) {
return false;
}
}
char[][] javaLikeExtensions = getJavaLikeExtensions();
suffixes: for (int i = 0, length = javaLikeExtensions.length; i < length; i++) {
char[] suffix = javaLikeExtensions[i];
if (stringLength + suffix.length != fileNameLength) continue;
for (int j = stringLength; j < fileNameLength; j++) {
if (fileName.charAt(j) != suffix[j-stringLength])
continue suffixes;
}
return true;
}
return false;
}
/**
* Given a qualified name, extract the last component.
* If the input is not qualified, the same string is answered.
*/
public static String extractLastName(String qualifiedName) {
int i = qualifiedName.lastIndexOf('.');
if (i == -1) return qualifiedName;
return qualifiedName.substring(i+1);
}
/**
* Extracts the parameter types from a method signature.
*/
public static String[] extractParameterTypes(char[] sig) {
int count = getParameterCount(sig);
String[] result = new String[count];
if (count == 0)
return result;
int i = CharOperation.indexOf('(', sig) + 1;
count = 0;
int len = sig.length;
int start = i;
for (;;) {
if (i == len)
break;
char c = sig[i];
if (c == ')')
break;
if (c == '[') {
++i;
} else
if (c == 'L') {
i = CharOperation.indexOf(';', sig, i + 1) + 1;
Assert.isTrue(i != 0);
result[count++] = convertTypeSignature(sig, start, i - start);
start = i;
} else {
++i;
result[count++] = convertTypeSignature(sig, start, i - start);
start = i;
}
}
return result;
}
/**
* Extracts the return type from a method signature.
*/
public static String extractReturnType(String sig) {
int i = sig.lastIndexOf(')');
Assert.isTrue(i != -1);
return sig.substring(i+1);
}
private static IFile findFirstClassFile(IFolder folder) {
try {
IResource[] members = folder.members();
for (int i = 0, max = members.length; i < max; i++) {
IResource member = members[i];
if (member.getType() == IResource.FOLDER) {
return findFirstClassFile((IFolder)member);
} else if (org.eclipse.jdt.internal.compiler.util.Util.isClassFileName(member.getName())) {
return (IFile) member;
}
}
} catch (CoreException e) {
// ignore
}
return null;
}
/**
* Finds the first line separator used by the given text.
*
* @return </code>"\n"</code> or </code>"\r"</code> or </code>"\r\n"</code>,
* or <code>null</code> if none found
*/
public static String findLineSeparator(char[] text) {
// find the first line separator
int length = text.length;
if (length > 0) {
char nextChar = text[0];
for (int i = 0; i < length; i++) {
char currentChar = nextChar;
nextChar = i < length-1 ? text[i+1] : ' ';
switch (currentChar) {
case '\n': return "\n"; //$NON-NLS-1$
case '\r': return nextChar == '\n' ? "\r\n" : "\r"; //$NON-NLS-1$ //$NON-NLS-2$
}
}
}
// not found
return null;
}
public static IClassFileAttribute getAttribute(IClassFileReader classFileReader, char[] attributeName) {
IClassFileAttribute[] attributes = classFileReader.getAttributes();
for (int i = 0, max = attributes.length; i < max; i++) {
if (CharOperation.equals(attributes[i].getAttributeName(), attributeName)) {
return attributes[i];
}
}
return null;
}
public static IClassFileAttribute getAttribute(ICodeAttribute codeAttribute, char[] attributeName) {
IClassFileAttribute[] attributes = codeAttribute.getAttributes();
for (int i = 0, max = attributes.length; i < max; i++) {
if (CharOperation.equals(attributes[i].getAttributeName(), attributeName)) {
return attributes[i];
}
}
return null;
}
public static IClassFileAttribute getAttribute(IFieldInfo fieldInfo, char[] attributeName) {
IClassFileAttribute[] attributes = fieldInfo.getAttributes();
for (int i = 0, max = attributes.length; i < max; i++) {
if (CharOperation.equals(attributes[i].getAttributeName(), attributeName)) {
return attributes[i];
}
}
return null;
}
public static IClassFileAttribute getAttribute(IMethodInfo methodInfo, char[] attributeName) {
IClassFileAttribute[] attributes = methodInfo.getAttributes();
for (int i = 0, max = attributes.length; i < max; i++) {
if (CharOperation.equals(attributes[i].getAttributeName(), attributeName)) {
return attributes[i];
}
}
return null;
}
/**
* Returns the registered Java like extensions.
*/
public static char[][] getJavaLikeExtensions() {
if (JAVA_LIKE_EXTENSIONS == null) {
// TODO (jerome) reenable once JDT UI supports other file extensions (see https://bugs.eclipse.org/bugs/show_bug.cgi?id=71460)
if (true)
JAVA_LIKE_EXTENSIONS = new char[][] {SuffixConstants.SUFFIX_java};
else {
IContentType javaContentType = Platform.getContentTypeManager().getContentType(JavaModelManager.JAVA_SOURCE_CONTENT_TYPE);
String[] fileExtensions = javaContentType == null ? null : javaContentType.getFileSpecs(IContentType.FILE_EXTENSION_SPEC);
// note that file extensions contains "java" as it is defined in JDT Core's plugin.xml
int length = fileExtensions == null ? 0 : fileExtensions.length;
char[][] extensions = new char[length][];
SimpleWordSet knownExtensions = new SimpleWordSet(length); // used to ensure no duplicate extensions
extensions[0] = SuffixConstants.SUFFIX_java; // ensure that ".java" is first
knownExtensions.add(SuffixConstants.SUFFIX_java);
int index = 1;
for (int i = 0; i < length; i++) {
String fileExtension = fileExtensions[i];
int extensionLength = fileExtension.length() + 1;
char[] extension = new char[extensionLength];
extension[0] = '.';
fileExtension.getChars(0, extensionLength-1, extension, 1);
if (!knownExtensions.includes(extension)) {
extensions[index++] = extension;
knownExtensions.add(extension);
}
}
if (index != length)
System.arraycopy(extensions, 0, extensions = new char[index][], 0, index);
JAVA_LIKE_EXTENSIONS = extensions;
}
}
return JAVA_LIKE_EXTENSIONS;
}
/**
* Get the jdk level of this root.
* The value can be:
* <ul>
* <li>major<<16 + minor : see predefined constants on ClassFileConstants </li>
* <li><code>0</null> if the root is a source package fragment root or if a Java model exception occured</li>
* </ul>
* Returns the jdk level
*/
public static long getJdkLevel(Object targetLibrary) {
try {
ClassFileReader reader = null;
if (targetLibrary instanceof IFolder) {
IFile classFile = findFirstClassFile((IFolder) targetLibrary); // only internal classfolders are allowed
if (classFile != null) {
byte[] bytes = Util.getResourceContentsAsByteArray(classFile);
IPath location = classFile.getLocation();
reader = new ClassFileReader(bytes, location == null ? null : location.toString().toCharArray());
}
} else {
// root is a jar file or a zip file
ZipFile jar = null;
try {
IPath path = null;
if (targetLibrary instanceof IResource) {
path = ((IResource)targetLibrary).getLocation();
} else if (targetLibrary instanceof File){
File f = (File) targetLibrary;
if (!f.isDirectory()) {
path = new Path(((File)targetLibrary).getPath());
}
}
if (path != null) {
jar = JavaModelManager.getJavaModelManager().getZipFile(path);
for (Enumeration e= jar.entries(); e.hasMoreElements();) {
ZipEntry member= (ZipEntry) e.nextElement();
String entryName= member.getName();
if (org.eclipse.jdt.internal.compiler.util.Util.isClassFileName(entryName)) {
reader = ClassFileReader.read(jar, entryName);
break;
}
}
}
} catch (CoreException e) {
// ignore
} finally {
JavaModelManager.getJavaModelManager().closeZipFile(jar);
}
}
if (reader != null) {
return reader.getVersion();
}
} catch(JavaModelException e) {
// ignore
} catch(ClassFormatException e) {
// ignore
} catch(IOException e) {
// ignore
}
return 0;
}
/**
* Returns the substring of the given file name, ending at the start of a Java like extension.
*/
public static String getNameWithoutJavaLikeExtension(String fileName) {
int index = indexOfJavaLikeExtension(fileName);
return fileName.substring(0, index);
}
/**
* Returns the line separator found in the given text.
* If it is null, or not found return the line delimitor for the given project.
* If the project is null, returns the line separator for the workspace.
* If still null, return the system line separator.
*/
public static String getLineSeparator(String text, IJavaProject project) {
String lineSeparator = null;
// line delimiter in given text
if (text != null) {
lineSeparator = findLineSeparator(text.toCharArray());
if (lineSeparator != null)
return lineSeparator;
}
// line delimiter in project preference
IScopeContext[] scopeContext;
if (project != null) {
scopeContext= new IScopeContext[] { new ProjectScope(project.getProject()) };
lineSeparator= Platform.getPreferencesService().getString(Platform.PI_RUNTIME, Platform.PREF_LINE_SEPARATOR, null, scopeContext);
if (lineSeparator != null)
return lineSeparator;
}
// line delimiter in workspace preference
scopeContext= new IScopeContext[] { new InstanceScope() };
lineSeparator = Platform.getPreferencesService().getString(Platform.PI_RUNTIME, Platform.PREF_LINE_SEPARATOR, null, scopeContext);
if (lineSeparator != null)
return lineSeparator;
// system line delimiter
return org.eclipse.jdt.internal.compiler.util.Util.LINE_SEPARATOR;
}
/**
* Returns the line separator used by the given buffer.
* Uses the given text if none found.
*
* @return </code>"\n"</code> or </code>"\r"</code> or </code>"\r\n"</code>
*/
private static String getLineSeparator(char[] text, char[] buffer) {
// search in this buffer's contents first
String lineSeparator = findLineSeparator(buffer);
if (lineSeparator == null) {
// search in the given text
lineSeparator = findLineSeparator(text);
if (lineSeparator == null) {
// default to system line separator
return getLineSeparator((String) null, (IJavaProject) null);
}
}
return lineSeparator;
}
/**
* Returns the number of parameter types in a method signature.
*/
public static int getParameterCount(char[] sig) {
int i = CharOperation.indexOf('(', sig) + 1;
Assert.isTrue(i != 0);
int count = 0;
int len = sig.length;
for (;;) {
if (i == len)
break;
char c = sig[i];
if (c == ')')
break;
if (c == '[') {
++i;
} else
if (c == 'L') {
++count;
i = CharOperation.indexOf(';', sig, i + 1) + 1;
Assert.isTrue(i != 0);
} else {
++count;
++i;
}
}
return count;
}
/**
* Put all the arguments in one String.
*/
public static String getProblemArgumentsForMarker(String[] arguments){
StringBuffer args = new StringBuffer(10);
args.append(arguments.length);
args.append(':');
for (int j = 0; j < arguments.length; j++) {
if(j != 0)
args.append(ARGUMENTS_DELIMITER);
if(arguments[j].length() == 0) {
args.append(EMPTY_ARGUMENT);
} else {
args.append(arguments[j]);
}
}
return args.toString();
}
/**
* Separate all the arguments of a String made by getProblemArgumentsForMarker
*/
public static String[] getProblemArgumentsFromMarker(String argumentsString){
if (argumentsString == null) return null;
int index = argumentsString.indexOf(':');
if(index == -1)
return null;
int length = argumentsString.length();
int numberOfArg;
try{
numberOfArg = Integer.parseInt(argumentsString.substring(0 , index));
} catch (NumberFormatException e) {
return null;
}
argumentsString = argumentsString.substring(index + 1, length);
String[] args = new String[length];
int count = 0;
StringTokenizer tokenizer = new StringTokenizer(argumentsString, ARGUMENTS_DELIMITER);
while(tokenizer.hasMoreTokens()) {
String argument = tokenizer.nextToken();
if(argument.equals(EMPTY_ARGUMENT))
argument = ""; //$NON-NLS-1$
args[count++] = argument;
}
if(count != numberOfArg)
return null;
System.arraycopy(args, 0, args = new String[count], 0, count);
return args;
}
/**
* Returns the given file's contents as a byte array.
*/
public static byte[] getResourceContentsAsByteArray(IFile file) throws JavaModelException {
InputStream stream= null;
try {
stream = new BufferedInputStream(file.getContents(true));
} catch (CoreException e) {
throw new JavaModelException(e);
}
try {
return org.eclipse.jdt.internal.compiler.util.Util.getInputStreamAsByteArray(stream, -1);
} catch (IOException e) {
throw new JavaModelException(e, IJavaModelStatusConstants.IO_EXCEPTION);
} finally {
try {
stream.close();
} catch (IOException e) {
// ignore
}
}
}
/**
* Returns the given file's contents as a character array.
*/
public static char[] getResourceContentsAsCharArray(IFile file) throws JavaModelException {
// Get encoding from file
String encoding = null;
try {
encoding = file.getCharset();
}
catch(CoreException ce) {
// do not use any encoding
}
return getResourceContentsAsCharArray(file, encoding);
}
public static char[] getResourceContentsAsCharArray(IFile file, String encoding) throws JavaModelException {
// Get resource contents
InputStream stream= null;
try {
stream = new BufferedInputStream(file.getContents(true));
} catch (CoreException e) {
throw new JavaModelException(e, IJavaModelStatusConstants.ELEMENT_DOES_NOT_EXIST);
}
try {
return org.eclipse.jdt.internal.compiler.util.Util.getInputStreamAsCharArray(stream, -1, encoding);
} catch (IOException e) {
throw new JavaModelException(e, IJavaModelStatusConstants.IO_EXCEPTION);
} finally {
try {
stream.close();
} catch (IOException e) {
// ignore
}
}
}
/*
* Returns the signature of the given type.
*/
public static String getSignature(Type type) {
StringBuffer buffer = new StringBuffer();
getFullyQualifiedName(type, buffer);
return Signature.createTypeSignature(buffer.toString(), false/*not resolved in source*/);
}
/*
* Returns the declaring type signature of the element represented by the given binding key.
* Returns the signature of the element if it is a type.
*
* @return the declaring type signature
*/
public static String getDeclaringTypeSignature(String key) {
KeyToSignature keyToSignature = new KeyToSignature(key, KeyToSignature.DECLARING_TYPE);
keyToSignature.parse();
return keyToSignature.signature.toString();
}
/*
* Appends to the given buffer the fully qualified name (as it appears in the source) of the given type
*/
private static void getFullyQualifiedName(Type type, StringBuffer buffer) {
switch (type.getNodeType()) {
case ASTNode.ARRAY_TYPE:
ArrayType arrayType = (ArrayType) type;
getFullyQualifiedName(arrayType.getElementType(), buffer);
for (int i = 0, length = arrayType.getDimensions(); i < length; i++) {
buffer.append('[');
buffer.append(']');
}
break;
case ASTNode.PARAMETERIZED_TYPE:
ParameterizedType parameterizedType = (ParameterizedType) type;
getFullyQualifiedName(parameterizedType.getType(), buffer);
buffer.append('<');
Iterator iterator = parameterizedType.typeArguments().iterator();
boolean isFirst = true;
while (iterator.hasNext()) {
if (!isFirst)
buffer.append(',');
else
isFirst = false;
Type typeArgument = (Type) iterator.next();
getFullyQualifiedName(typeArgument, buffer);
}
buffer.append('>');
break;
case ASTNode.PRIMITIVE_TYPE:
buffer.append(((PrimitiveType) type).getPrimitiveTypeCode().toString());
break;
case ASTNode.QUALIFIED_TYPE:
buffer.append(((QualifiedType) type).getName().getFullyQualifiedName());
break;
case ASTNode.SIMPLE_TYPE:
buffer.append(((SimpleType) type).getName().getFullyQualifiedName());
break;
case ASTNode.WILDCARD_TYPE:
buffer.append('?');
WildcardType wildcardType = (WildcardType) type;
Type bound = wildcardType.getBound();
if (bound == null) return;
if (wildcardType.isUpperBound()) {
buffer.append(" extends "); //$NON-NLS-1$
} else {
buffer.append(" super "); //$NON-NLS-1$
}
getFullyQualifiedName(bound, buffer);
break;
}
}
/**
* Returns a trimmed version the simples names returned by Signature.
*/
public static String[] getTrimmedSimpleNames(String name) {
String[] result = Signature.getSimpleNames(name);
for (int i = 0, length = result.length; i < length; i++) {
result[i] = result[i].trim();
}
return result;
}
/*
* Returns the index of the most specific argument paths which is strictly enclosing the path to check
*/
public static int indexOfEnclosingPath(IPath checkedPath, IPath[] paths, int pathCount) {
int bestMatch = -1, bestLength = -1;
for (int i = 0; i < pathCount; i++){
if (paths[i].equals(checkedPath)) continue;
if (paths[i].isPrefixOf(checkedPath)) {
int currentLength = paths[i].segmentCount();
if (currentLength > bestLength) {
bestLength = currentLength;
bestMatch = i;
}
}
}
return bestMatch;
}
/*
* Returns the index of the Java like extension of the given file name
* or -1 if it doesn't end with a known Java like extension.
*/
public static int indexOfJavaLikeExtension(String fileName) {
int fileNameLength = fileName.length();
char[][] javaLikeExtensions = getJavaLikeExtensions();
extensions: for (int i = 0, length = javaLikeExtensions.length; i < length; i++) {
char[] extension = javaLikeExtensions[i];
int extensionLength = extension.length;
int extensionStart = fileNameLength - extensionLength;
if (extensionStart < 0) continue;
for (int j = 0; j < extensionLength; j++) {
if (fileName.charAt(extensionStart + j) != extension[j])
continue extensions;
}
return extensionStart;
}
return -1;
}
/*
* Returns the index of the first argument paths which is equal to the path to check
*/
public static int indexOfMatchingPath(IPath checkedPath, IPath[] paths, int pathCount) {
for (int i = 0; i < pathCount; i++){
if (paths[i].equals(checkedPath)) return i;
}
return -1;
}
/*
* Returns the index of the first argument paths which is strictly nested inside the path to check
*/
public static int indexOfNestedPath(IPath checkedPath, IPath[] paths, int pathCount) {
for (int i = 0; i < pathCount; i++){
if (checkedPath.equals(paths[i])) continue;
if (checkedPath.isPrefixOf(paths[i])) return i;
}
return -1;
}
/*
* Returns whether the given java element is exluded from its root's classpath.
* It doesn't check whether the root itself is on the classpath or not
*/
public static final boolean isExcluded(IJavaElement element) {
int elementType = element.getElementType();
switch (elementType) {
case IJavaElement.JAVA_MODEL:
case IJavaElement.JAVA_PROJECT:
case IJavaElement.PACKAGE_FRAGMENT_ROOT:
return false;
case IJavaElement.PACKAGE_FRAGMENT:
PackageFragmentRoot root = (PackageFragmentRoot)element.getAncestor(IJavaElement.PACKAGE_FRAGMENT_ROOT);
IResource resource = element.getResource();
return resource != null && isExcluded(resource, root.fullInclusionPatternChars(), root.fullExclusionPatternChars());
case IJavaElement.COMPILATION_UNIT:
root = (PackageFragmentRoot)element.getAncestor(IJavaElement.PACKAGE_FRAGMENT_ROOT);
resource = element.getResource();
if (resource != null && isExcluded(resource, root.fullInclusionPatternChars(), root.fullExclusionPatternChars()))
return true;
return isExcluded(element.getParent());
default:
IJavaElement cu = element.getAncestor(IJavaElement.COMPILATION_UNIT);
return cu != null && isExcluded(cu);
}
}
/*
* Returns whether the given resource path matches one of the inclusion/exclusion
* patterns.
* NOTE: should not be asked directly using pkg root pathes
* @see IClasspathEntry#getInclusionPatterns
* @see IClasspathEntry#getExclusionPatterns
*/
public final static boolean isExcluded(IPath resourcePath, char[][] inclusionPatterns, char[][] exclusionPatterns, boolean isFolderPath) {
if (inclusionPatterns == null && exclusionPatterns == null) return false;
return org.eclipse.jdt.internal.compiler.util.Util.isExcluded(resourcePath.toString().toCharArray(), inclusionPatterns, exclusionPatterns, isFolderPath);
}
/*
* Returns whether the given resource matches one of the exclusion patterns.
* NOTE: should not be asked directly using pkg root pathes
* @see IClasspathEntry#getExclusionPatterns
*/
public final static boolean isExcluded(IResource resource, char[][] inclusionPatterns, char[][] exclusionPatterns) {
IPath path = resource.getFullPath();
// ensure that folders are only excluded if all of their children are excluded
return isExcluded(path, inclusionPatterns, exclusionPatterns, resource.getType() == IResource.FOLDER);
}
/**
* Validate the given .class file name.
* A .class file name must obey the following rules:
* <ul>
* <li> it must not be null
* <li> it must include the <code>".class"</code> suffix
* <li> its prefix must be a valid identifier
* </ul>
* </p>
* @param name the name of a .class file
* @return a status object with code <code>IStatus.OK</code> if
* the given name is valid as a .class file name, otherwise a status
* object indicating what is wrong with the name
*/
public static boolean isValidClassFileName(String name) {
return JavaConventions.validateClassFileName(name).getSeverity() != IStatus.ERROR;
}
/**
* Validate the given compilation unit name.
* A compilation unit name must obey the following rules:
* <ul>
* <li> it must not be null
* <li> it must include the <code>".java"</code> suffix
* <li> its prefix must be a valid identifier
* </ul>
* </p>
* @param name the name of a compilation unit
* @return a status object with code <code>IStatus.OK</code> if
* the given name is valid as a compilation unit name, otherwise a status
* object indicating what is wrong with the name
*/
public static boolean isValidCompilationUnitName(String name) {
return JavaConventions.validateCompilationUnitName(name).getSeverity() != IStatus.ERROR;
}
/**
* Returns true if the given folder name is valid for a package,
* false if it is not.
*/
public static boolean isValidFolderNameForPackage(String folderName) {
return JavaConventions.validateIdentifier(folderName).getSeverity() != IStatus.ERROR;
}
/**
* Returns true if the given method signature is valid,
* false if it is not.
*/
public static boolean isValidMethodSignature(String sig) {
int len = sig.length();
if (len == 0) return false;
int i = 0;
char c = sig.charAt(i++);
if (c != '(') return false;
if (i >= len) return false;
while (sig.charAt(i) != ')') {
// Void is not allowed as a parameter type.
i = checkTypeSignature(sig, i, len, false);
if (i == -1) return false;
if (i >= len) return false;
}
++i;
i = checkTypeSignature(sig, i, len, true);
return i == len;
}
/**
* Returns true if the given type signature is valid,
* false if it is not.
*/
public static boolean isValidTypeSignature(String sig, boolean allowVoid) {
int len = sig.length();
return checkTypeSignature(sig, 0, len, allowVoid) == len;
}
/*
* Returns the simple name of a local type from the given binary type name.
* The last '$' is at lastDollar. The ;last character of the type name is at end-1.
*/
public static String localTypeName(String binaryTypeName, int lastDollar, int end) {
int nameStart = lastDollar+1;
while (nameStart < end && Character.isDigit(binaryTypeName.charAt(nameStart)))
nameStart++;
return binaryTypeName.substring(nameStart, end);
}
/*
* Add a log entry
*/
public static void log(Throwable e, String message) {
Throwable nestedException;
if (e instanceof JavaModelException
&& (nestedException = ((JavaModelException)e).getException()) != null) {
e = nestedException;
}
IStatus status= new Status(
IStatus.ERROR,
JavaCore.PLUGIN_ID,
IStatus.ERROR,
message,
e);
JavaCore.getPlugin().getLog().log(status);
}
/**
* Normalizes the cariage returns in the given text.
* They are all changed to use the given buffer's line separator.
*/
public static char[] normalizeCRs(char[] text, char[] buffer) {
CharArrayBuffer result = new CharArrayBuffer();
int lineStart = 0;
int length = text.length;
if (length == 0) return text;
String lineSeparator = getLineSeparator(text, buffer);
char nextChar = text[0];
for (int i = 0; i < length; i++) {
char currentChar = nextChar;
nextChar = i < length-1 ? text[i+1] : ' ';
switch (currentChar) {
case '\n':
int lineLength = i-lineStart;
char[] line = new char[lineLength];
System.arraycopy(text, lineStart, line, 0, lineLength);
result.append(line);
result.append(lineSeparator);
lineStart = i+1;
break;
case '\r':
lineLength = i-lineStart;
if (lineLength >= 0) {
line = new char[lineLength];
System.arraycopy(text, lineStart, line, 0, lineLength);
result.append(line);
result.append(lineSeparator);
if (nextChar == '\n') {
nextChar = ' ';
lineStart = i+2;
} else {
// when line separator are mixed in the same file
// \r might not be followed by a \n. If not, we should increment
// lineStart by one and not by two.
lineStart = i+1;
}
} else {
// when line separator are mixed in the same file
// we need to prevent NegativeArraySizeException
lineStart = i+1;
}
break;
}
}
char[] lastLine;
if (lineStart > 0) {
int lastLineLength = length-lineStart;
if (lastLineLength > 0) {
lastLine = new char[lastLineLength];
System.arraycopy(text, lineStart, lastLine, 0, lastLineLength);
result.append(lastLine);
}
return result.getContents();
}
return text;
}
/**
* Normalizes the cariage returns in the given text.
* They are all changed to use given buffer's line sepatator.
*/
public static String normalizeCRs(String text, String buffer) {
return new String(normalizeCRs(text.toCharArray(), buffer.toCharArray()));
}
/**
* Converts the given relative path into a package name.
* Returns null if the path is not a valid package name.
*/
public static String packageName(IPath pkgPath) {
StringBuffer pkgName = new StringBuffer(IPackageFragment.DEFAULT_PACKAGE_NAME);
for (int j = 0, max = pkgPath.segmentCount(); j < max; j++) {
String segment = pkgPath.segment(j);
if (!isValidFolderNameForPackage(segment)) {
return null;
}
pkgName.append(segment);
if (j < pkgPath.segmentCount() - 1) {
pkgName.append("." ); //$NON-NLS-1$
}
}
return pkgName.toString();
}
/**
* Returns the length of the common prefix between s1 and s2.
*/
public static int prefixLength(char[] s1, char[] s2) {
int len= 0;
int max= Math.min(s1.length, s2.length);
for (int i= 0; i < max && s1[i] == s2[i]; ++i)
++len;
return len;
}
/**
* Returns the length of the common prefix between s1 and s2.
*/
public static int prefixLength(String s1, String s2) {
int len= 0;
int max= Math.min(s1.length(), s2.length());
for (int i= 0; i < max && s1.charAt(i) == s2.charAt(i); ++i)
++len;
return len;
}
private static void quickSort(char[][] list, int left, int right) {
int original_left= left;
int original_right= right;
char[] mid= list[(left + right) / 2];
do {
while (compare(list[left], mid) < 0) {
left++;
}
while (compare(mid, list[right]) < 0) {
right--;
}
if (left <= right) {
char[] tmp= list[left];
list[left]= list[right];
list[right]= tmp;
left++;
right--;
}
} while (left <= right);
if (original_left < right) {
quickSort(list, original_left, right);
}
if (left < original_right) {
quickSort(list, left, original_right);
}
}
/**
* Sort the comparable objects in the given collection.
*/
private static void quickSort(Comparable[] sortedCollection, int left, int right) {
int original_left = left;
int original_right = right;
Comparable mid = sortedCollection[ (left + right) / 2];
do {
while (sortedCollection[left].compareTo(mid) < 0) {
left++;
}
while (mid.compareTo(sortedCollection[right]) < 0) {
right--;
}
if (left <= right) {
Comparable tmp = sortedCollection[left];
sortedCollection[left] = sortedCollection[right];
sortedCollection[right] = tmp;
left++;
right--;
}
} while (left <= right);
if (original_left < right) {
quickSort(sortedCollection, original_left, right);
}
if (left < original_right) {
quickSort(sortedCollection, left, original_right);
}
}
private static void quickSort(int[] list, int left, int right) {
int original_left= left;
int original_right= right;
int mid= list[(left + right) / 2];
do {
while (list[left] < mid) {
left++;
}
while (mid < list[right]) {
right--;
}
if (left <= right) {
int tmp= list[left];
list[left]= list[right];
list[right]= tmp;
left++;
right--;
}
} while (left <= right);
if (original_left < right) {
quickSort(list, original_left, right);
}
if (left < original_right) {
quickSort(list, left, original_right);
}
}
/**
* Sort the objects in the given collection using the given comparer.
*/
private static void quickSort(Object[] sortedCollection, int left, int right, Comparer comparer) {
int original_left = left;
int original_right = right;
Object mid = sortedCollection[ (left + right) / 2];
do {
while (comparer.compare(sortedCollection[left], mid) < 0) {
left++;
}
while (comparer.compare(mid, sortedCollection[right]) < 0) {
right--;
}
if (left <= right) {
Object tmp = sortedCollection[left];
sortedCollection[left] = sortedCollection[right];
sortedCollection[right] = tmp;
left++;
right--;
}
} while (left <= right);
if (original_left < right) {
quickSort(sortedCollection, original_left, right, comparer);
}
if (left < original_right) {
quickSort(sortedCollection, left, original_right, comparer);
}
}
/**
* Sort the objects in the given collection using the given sort order.
*/
private static void quickSort(Object[] sortedCollection, int left, int right, int[] sortOrder) {
int original_left = left;
int original_right = right;
int mid = sortOrder[ (left + right) / 2];
do {
while (sortOrder[left] < mid) {
left++;
}
while (mid < sortOrder[right]) {
right--;
}
if (left <= right) {
Object tmp = sortedCollection[left];
sortedCollection[left] = sortedCollection[right];
sortedCollection[right] = tmp;
int tmp2 = sortOrder[left];
sortOrder[left] = sortOrder[right];
sortOrder[right] = tmp2;
left++;
right--;
}
} while (left <= right);
if (original_left < right) {
quickSort(sortedCollection, original_left, right, sortOrder);
}
if (left < original_right) {
quickSort(sortedCollection, left, original_right, sortOrder);
}
}
/**
* Sort the strings in the given collection.
*/
private static void quickSort(String[] sortedCollection, int left, int right) {
int original_left = left;
int original_right = right;
String mid = sortedCollection[ (left + right) / 2];
do {
while (sortedCollection[left].compareTo(mid) < 0) {
left++;
}
while (mid.compareTo(sortedCollection[right]) < 0) {
right--;
}
if (left <= right) {
String tmp = sortedCollection[left];
sortedCollection[left] = sortedCollection[right];
sortedCollection[right] = tmp;
left++;
right--;
}
} while (left <= right);
if (original_left < right) {
quickSort(sortedCollection, original_left, right);
}
if (left < original_right) {
quickSort(sortedCollection, left, original_right);
}
}
/**
* Sort the strings in the given collection in reverse alphabetical order.
*/
private static void quickSortReverse(String[] sortedCollection, int left, int right) {
int original_left = left;
int original_right = right;
String mid = sortedCollection[ (left + right) / 2];
do {
while (sortedCollection[left].compareTo(mid) > 0) {
left++;
}
while (mid.compareTo(sortedCollection[right]) > 0) {
right--;
}
if (left <= right) {
String tmp = sortedCollection[left];
sortedCollection[left] = sortedCollection[right];
sortedCollection[right] = tmp;
left++;
right--;
}
} while (left <= right);
if (original_left < right) {
quickSortReverse(sortedCollection, original_left, right);
}
if (left < original_right) {
quickSortReverse(sortedCollection, left, original_right);
}
}
/**
* Reads in a string from the specified data input stream. The
* string has been encoded using a modified UTF-8 format.
* <p>
* The first two bytes are read as if by
* <code>readUnsignedShort</code>. This value gives the number of
* following bytes that are in the encoded string, not
* the length of the resulting string. The following bytes are then
* interpreted as bytes encoding characters in the UTF-8 format
* and are converted into characters.
* <p>
* This method blocks until all the bytes are read, the end of the
* stream is detected, or an exception is thrown.
*
* @param in a data input stream.
* @return a Unicode string.
* @exception EOFException if the input stream reaches the end
* before all the bytes.
* @exception IOException if an I/O error occurs.
* @exception UTFDataFormatException if the bytes do not represent a
* valid UTF-8 encoding of a Unicode string.
* @see java.io.DataInputStream#readUnsignedShort()
*/
public final static char[] readUTF(DataInput in) throws IOException {
int utflen= in.readUnsignedShort();
char str[]= new char[utflen];
int count= 0;
int strlen= 0;
while (count < utflen) {
int c= in.readUnsignedByte();
int char2, char3;
switch (c >> 4) {
case 0 :
case 1 :
case 2 :
case 3 :
case 4 :
case 5 :
case 6 :
case 7 :
// 0xxxxxxx
count++;
str[strlen++]= (char) c;
break;
case 12 :
case 13 :
// 110x xxxx 10xx xxxx
count += 2;
if (count > utflen)
throw new UTFDataFormatException();
char2= in.readUnsignedByte();
if ((char2 & 0xC0) != 0x80)
throw new UTFDataFormatException();
str[strlen++]= (char) (((c & 0x1F) << 6) | (char2 & 0x3F));
break;
case 14 :
// 1110 xxxx 10xx xxxx 10xx xxxx
count += 3;
if (count > utflen)
throw new UTFDataFormatException();
char2= in.readUnsignedByte();
char3= in.readUnsignedByte();
if (((char2 & 0xC0) != 0x80) || ((char3 & 0xC0) != 0x80))
throw new UTFDataFormatException();
str[strlen++]= (char) (((c & 0x0F) << 12) | ((char2 & 0x3F) << 6) | ((char3 & 0x3F) << 0));
break;
default :
// 10xx xxxx, 1111 xxxx
throw new UTFDataFormatException();
}
}
if (strlen < utflen) {
System.arraycopy(str, 0, str= new char[strlen], 0, strlen);
}
return str;
}
/**
* Returns the toString() of the given full path minus the first given number of segments.
* The returned string is always a relative path (it has no leading slash)
*/
public static String relativePath(IPath fullPath, int skipSegmentCount) {
boolean hasTrailingSeparator = fullPath.hasTrailingSeparator();
String[] segments = fullPath.segments();
// compute length
int length = 0;
int max = segments.length;
if (max > skipSegmentCount) {
for (int i1 = skipSegmentCount; i1 < max; i1++) {
length += segments[i1].length();
}
//add the separator lengths
length += max - skipSegmentCount - 1;
}
if (hasTrailingSeparator)
length++;
char[] result = new char[length];
int offset = 0;
int len = segments.length - 1;
if (len >= skipSegmentCount) {
//append all but the last segment, with separators
for (int i = skipSegmentCount; i < len; i++) {
int size = segments[i].length();
segments[i].getChars(0, size, result, offset);
offset += size;
result[offset++] = '/';
}
//append the last segment
int size = segments[len].length();
segments[len].getChars(0, size, result, offset);
offset += size;
}
if (hasTrailingSeparator)
result[offset++] = '/';
return new String(result);
}
/**
* Return a new array which is the split of the given string using the given divider. The given end
* is exclusive and the given start is inclusive.
* <br>
* <br>
* For example:
* <ol>
* <li><pre>
* divider = 'b'
* string = "abbaba"
* start = 2
* end = 5
* result => { "", "a", "" }
* </pre>
* </li>
* </ol>
*
* @param divider the given divider
* @param string the given string
* @param start the given starting index
* @param end the given ending index
* @return a new array which is the split of the given string using the given divider
* @throws ArrayIndexOutOfBoundsException if start is lower than 0 or end is greater than the array length
*/
public static final String[] splitOn(
char divider,
String string,
int start,
int end) {
int length = string == null ? 0 : string.length();
if (length == 0 || start > end)
return CharOperation.NO_STRINGS;
int wordCount = 1;
for (int i = start; i < end; i++)
if (string.charAt(i) == divider)
wordCount++;
String[] split = new String[wordCount];
int last = start, currentWord = 0;
for (int i = start; i < end; i++) {
if (string.charAt(i) == divider) {
split[currentWord++] = string.substring(last, i);
last = i + 1;
}
}
split[currentWord] = string.substring(last, end);
return split;
}
public static boolean isReadOnly(IResource resource) {
ResourceAttributes resourceAttributes = resource.getResourceAttributes();
if (resourceAttributes == null) return false; // not supported on this platform for this resource
return resourceAttributes.isReadOnly();
}
public static void setReadOnly(IResource resource, boolean readOnly) {
ResourceAttributes resourceAttributes = resource.getResourceAttributes();
if (resourceAttributes == null) return; // not supported on this platform for this resource
resourceAttributes.setReadOnly(readOnly);
try {
resource.setResourceAttributes(resourceAttributes);
} catch (CoreException e) {
// ignore
}
}
public static void sort(char[][] list) {
if (list.length > 1)
quickSort(list, 0, list.length - 1);
}
/**
* Sorts an array of Comparable objects in place.
*/
public static void sort(Comparable[] objects) {
if (objects.length > 1)
quickSort(objects, 0, objects.length - 1);
}
public static void sort(int[] list) {
if (list.length > 1)
quickSort(list, 0, list.length - 1);
}
/**
* Sorts an array of objects in place.
* The given comparer compares pairs of items.
*/
public static void sort(Object[] objects, Comparer comparer) {
if (objects.length > 1)
quickSort(objects, 0, objects.length - 1, comparer);
}
/**
* Sorts an array of objects in place, using the sort order given for each item.
*/
public static void sort(Object[] objects, int[] sortOrder) {
if (objects.length > 1)
quickSort(objects, 0, objects.length - 1, sortOrder);
}
/**
* Sorts an array of strings in place using quicksort.
*/
public static void sort(String[] strings) {
if (strings.length > 1)
quickSort(strings, 0, strings.length - 1);
}
/**
* Sorts an array of Comparable objects, returning a new array
* with the sorted items. The original array is left untouched.
*/
public static Comparable[] sortCopy(Comparable[] objects) {
int len = objects.length;
Comparable[] copy = new Comparable[len];
System.arraycopy(objects, 0, copy, 0, len);
sort(copy);
return copy;
}
/**
* Sorts an array of Strings, returning a new array
* with the sorted items. The original array is left untouched.
*/
public static Object[] sortCopy(Object[] objects, Comparer comparer) {
int len = objects.length;
Object[] copy = new Object[len];
System.arraycopy(objects, 0, copy, 0, len);
sort(copy, comparer);
return copy;
}
/**
* Sorts an array of Strings, returning a new array
* with the sorted items. The original array is left untouched.
*/
public static String[] sortCopy(String[] objects) {
int len = objects.length;
String[] copy = new String[len];
System.arraycopy(objects, 0, copy, 0, len);
sort(copy);
return copy;
}
/**
* Sorts an array of strings in place using quicksort
* in reverse alphabetical order.
*/
public static void sortReverseOrder(String[] strings) {
if (strings.length > 1)
quickSortReverse(strings, 0, strings.length - 1);
}
/*
* Returns whether the given compound name starts with the given prefix.
* Returns true if the n first elements of the prefix are equals and the last element of the
* prefix is a prefix of the corresponding element in the compound name.
*/
public static boolean startsWithIgnoreCase(String[] compoundName, String[] prefix) {
int prefixLength = prefix.length;
int nameLength = compoundName.length;
if (prefixLength > nameLength) return false;
for (int i = 0; i < prefixLength - 1; i++) {
if (!compoundName[i].equalsIgnoreCase(prefix[i]))
return false;
}
return compoundName[prefixLength-1].toLowerCase().startsWith(prefix[prefixLength-1].toLowerCase());
}
/**
* Converts a String[] to char[][].
*/
public static char[][] toCharArrays(String[] a) {
int len = a.length;
char[][] result = new char[len][];
for (int i = 0; i < len; ++i) {
result[i] = a[i].toCharArray();
}
return result;
}
/**
* Converts a String to char[][], where segments are separate by '.'.
*/
public static char[][] toCompoundChars(String s) {
int len = s.length();
if (len == 0) {
return CharOperation.NO_CHAR_CHAR;
}
int segCount = 1;
for (int off = s.indexOf('.'); off != -1; off = s.indexOf('.', off + 1)) {
++segCount;
}
char[][] segs = new char[segCount][];
int start = 0;
for (int i = 0; i < segCount; ++i) {
int dot = s.indexOf('.', start);
int end = (dot == -1 ? s.length() : dot);
segs[i] = new char[end - start];
s.getChars(start, end, segs[i], 0);
start = end + 1;
}
return segs;
}
/**
* Converts a char[][] to String, where segments are separated by '.'.
*/
public static String toString(char[][] c) {
StringBuffer sb = new StringBuffer();
for (int i = 0, max = c.length; i < max; ++i) {
if (i != 0) sb.append('.');
sb.append(c[i]);
}
return sb.toString();
}
/**
* Converts a char[][] and a char[] to String, where segments are separated by '.'.
*/
public static String toString(char[][] c, char[] d) {
if (c == null) return new String(d);
StringBuffer sb = new StringBuffer();
for (int i = 0, max = c.length; i < max; ++i) {
sb.append(c[i]);
sb.append('.');
}
sb.append(d);
return sb.toString();
}
/*
* Converts a char[][] to String[].
*/
public static String[] toStrings(char[][] a) {
int len = a.length;
String[] result = new String[len];
for (int i = 0; i < len; ++i) {
result[i] = new String(a[i]);
}
return result;
}
private static void appendArrayTypeSignature(char[] string, int start, StringBuffer buffer, boolean compact) {
int length = string.length;
// need a minimum 2 char
if (start >= length - 1) {
throw new IllegalArgumentException();
}
char c = string[start];
if (c != Signature.C_ARRAY) { //$NON-NLS-1$
throw new IllegalArgumentException();
}
int index = start;
c = string[++index];
while(c == Signature.C_ARRAY) {
// need a minimum 2 char
if (index >= length - 1) {
throw new IllegalArgumentException();
}
c = string[++index];
}
appendTypeSignature(string, index, buffer, compact);
for(int i = 0, dims = index - start; i < dims; i++) {
buffer.append('[').append(']');
}
}
private static void appendClassTypeSignature(char[] string, int start, StringBuffer buffer, boolean compact) {
char c = string[start];
if (c != Signature.C_RESOLVED) {
return;
}
int p = start + 1;
int checkpoint = buffer.length();
while (true) {
c = string[p];
switch(c) {
case Signature.C_SEMICOLON :
// all done
return;
case Signature.C_DOT :
case '/' :
// erase package prefix
if (compact) {
buffer.setLength(checkpoint);
} else {
buffer.append('.');
}
break;
case Signature.C_DOLLAR :
/**
* Convert '$' in resolved type signatures into '.'.
* NOTE: This assumes that the type signature is an inner type
* signature. This is true in most cases, but someone can define a
* non-inner type name containing a '$'.
*/
buffer.append('.');
break;
default :
buffer.append(c);
}
p++;
}
}
static void appendTypeSignature(char[] string, int start, StringBuffer buffer, boolean compact) {
char c = string[start];
switch (c) {
case Signature.C_ARRAY :
appendArrayTypeSignature(string, start, buffer, compact);
break;
case Signature.C_RESOLVED :
appendClassTypeSignature(string, start, buffer, compact);
break;
case Signature.C_TYPE_VARIABLE :
int e = Util.scanTypeVariableSignature(string, start);
buffer.append(string, start + 1, e - start - 1);
break;
case Signature.C_BOOLEAN :
buffer.append(BOOLEAN);
break;
case Signature.C_BYTE :
buffer.append(BYTE);
break;
case Signature.C_CHAR :
buffer.append(CHAR);
break;
case Signature.C_DOUBLE :
buffer.append(DOUBLE);
break;
case Signature.C_FLOAT :
buffer.append(FLOAT);
break;
case Signature.C_INT :
buffer.append(INT);
break;
case Signature.C_LONG :
buffer.append(LONG);
break;
case Signature.C_SHORT :
buffer.append(SHORT);
break;
case Signature.C_VOID :
buffer.append(VOID);
break;
}
}
public static String toString(char[] declaringClass, char[] methodName, char[] methodSignature, boolean includeReturnType, boolean compact) {
final boolean isConstructor = CharOperation.equals(methodName, INIT);
int firstParen = CharOperation.indexOf(Signature.C_PARAM_START, methodSignature);
if (firstParen == -1) {
return ""; //$NON-NLS-1$
}
StringBuffer buffer = new StringBuffer(methodSignature.length + 10);
// decode declaring class name
// it can be either an array signature or a type signature
if (declaringClass.length > 0) {
char[] declaringClassSignature = null;
if (declaringClass[0] == Signature.C_ARRAY) {
CharOperation.replace(declaringClass, '/', '.');
declaringClassSignature = Signature.toCharArray(declaringClass);
} else {
CharOperation.replace(declaringClass, '/', '.');
declaringClassSignature = declaringClass;
}
int lastIndexOfSlash = CharOperation.lastIndexOf('.', declaringClassSignature);
if (compact && lastIndexOfSlash != -1) {
buffer.append(declaringClassSignature, lastIndexOfSlash + 1, declaringClassSignature.length - lastIndexOfSlash - 1);
} else {
buffer.append(declaringClassSignature);
}
}
// selector
if (!isConstructor) {
buffer.append('.');
if (methodName != null) {
buffer.append(methodName);
}
}
// parameters
buffer.append('(');
char[][] pts = Signature.getParameterTypes(methodSignature);
for (int i = 0, max = pts.length; i < max; i++) {
appendTypeSignature(pts[i], 0 , buffer, compact);
if (i != pts.length - 1) {
buffer.append(',');
buffer.append(' ');
}
}
buffer.append(')');
if (!isConstructor) {
buffer.append(" : "); //$NON-NLS-1$
// return type
if (includeReturnType) {
char[] rts = Signature.getReturnType(methodSignature);
appendTypeSignature(rts, 0 , buffer, compact);
buffer.append(' ');
}
}
return String.valueOf(buffer);
}
/*
* Returns the unresolved type parameter signatures of the given method
* e.g. {"QString;", "[int", "[[Qjava.util.Vector;"}
*/
public static String[] typeParameterSignatures(AbstractMethodDeclaration method) {
Argument[] args = method.arguments;
if (args != null) {
int length = args.length;
String[] signatures = new String[length];
for (int i = 0; i < args.length; i++) {
Argument arg = args[i];
signatures[i] = typeSignature(arg.type);
}
return signatures;
}
return new String[0];
}
/*
* Returns the unresolved type signature of the given type reference,
* e.g. "QString;", "[int", "[[Qjava.util.Vector;"
*/
public static String typeSignature(TypeReference type) {
char[][] compoundName = type.getParameterizedTypeName();
char[] typeName =CharOperation.concatWith(compoundName, '.');
String signature = Signature.createTypeSignature(typeName, false/*don't resolve*/);
return signature;
}
/**
* Asserts that the given method signature is valid.
*/
public static void validateMethodSignature(String sig) {
Assert.isTrue(isValidMethodSignature(sig));
}
/**
* Asserts that the given type signature is valid.
*/
public static void validateTypeSignature(String sig, boolean allowVoid) {
Assert.isTrue(isValidTypeSignature(sig, allowVoid));
}
public static void verbose(String log) {
verbose(log, System.out);
}
public static synchronized void verbose(String log, PrintStream printStream) {
int start = 0;
do {
int end = log.indexOf('\n', start);
printStream.print(Thread.currentThread());
printStream.print(" "); //$NON-NLS-1$
printStream.print(log.substring(start, end == -1 ? log.length() : end+1));
start = end+1;
} while (start != 0);
printStream.println();
}
/**
* Writes a string to the given output stream using UTF-8
* encoding in a machine-independent manner.
* <p>
* First, two bytes are written to the output stream as if by the
* <code>writeShort</code> method giving the number of bytes to
* follow. This value is the number of bytes actually written out,
* not the length of the string. Following the length, each character
* of the string is output, in sequence, using the UTF-8 encoding
* for the character.
*
* @param str a string to be written.
* @return the number of bytes written to the stream.
* @exception IOException if an I/O error occurs.
* @since JDK1.0
*/
public static int writeUTF(OutputStream out, char[] str) throws IOException {
int strlen= str.length;
int utflen= 0;
for (int i= 0; i < strlen; i++) {
int c= str[i];
if ((c >= 0x0001) && (c <= 0x007F)) {
utflen++;
} else if (c > 0x07FF) {
utflen += 3;
} else {
utflen += 2;
}
}
if (utflen > 65535)
throw new UTFDataFormatException();
out.write((utflen >>> 8) & 0xFF);
out.write((utflen >>> 0) & 0xFF);
if (strlen == utflen) {
for (int i= 0; i < strlen; i++)
out.write(str[i]);
} else {
for (int i= 0; i < strlen; i++) {
int c= str[i];
if ((c >= 0x0001) && (c <= 0x007F)) {
out.write(c);
} else if (c > 0x07FF) {
out.write(0xE0 | ((c >> 12) & 0x0F));
out.write(0x80 | ((c >> 6) & 0x3F));
out.write(0x80 | ((c >> 0) & 0x3F));
} else {
out.write(0xC0 | ((c >> 6) & 0x1F));
out.write(0x80 | ((c >> 0) & 0x3F));
}
}
}
return utflen + 2; // the number of bytes written to the stream
}
/**
* Returns true if the given name ends with one of the known java like extension.
* (implementation is not creating extra strings)
*/
public final static boolean isJavaLikeFileName(String name) {
if (name == null) return false;
return indexOfJavaLikeExtension(name) != -1;
}
/**
* Returns true if the given name ends with one of the known java like extension.
* (implementation is not creating extra strings)
*/
public final static boolean isJavaLikeFileName(char[] fileName) {
if (fileName == null) return false;
int fileNameLength = fileName.length;
char[][] javaLikeExtensions = getJavaLikeExtensions();
extensions: for (int i = 0, length = javaLikeExtensions.length; i < length; i++) {
char[] extension = javaLikeExtensions[i];
int extensionLength = extension.length;
int extensionStart = fileNameLength - extensionLength;
if (extensionStart < 0) continue;
for (int j = 0; j < extensionLength; j++) {
if (fileName[extensionStart + j] != extension[j])
continue extensions;
}
return true;
}
return false;
}
/**
* Scans the given string for a type signature starting at the given index
* and returns the index of the last character.
* <pre>
* TypeSignature:
* | BaseTypeSignature
* | ArrayTypeSignature
* | ClassTypeSignature
* | TypeVariableSignature
* </pre>
*
* @param string the signature string
* @param start the 0-based character index of the first character
* @return the 0-based character index of the last character
* @exception IllegalArgumentException if this is not a type signature
*/
public static int scanTypeSignature(char[] string, int start) {
// need a minimum 1 char
if (start >= string.length) {
throw new IllegalArgumentException();
}
char c = string[start];
switch (c) {
case Signature.C_ARRAY :
return scanArrayTypeSignature(string, start);
case Signature.C_RESOLVED :
case Signature.C_UNRESOLVED :
return scanClassTypeSignature(string, start);
case Signature.C_TYPE_VARIABLE :
return scanTypeVariableSignature(string, start);
case Signature.C_BOOLEAN :
case Signature.C_BYTE :
case Signature.C_CHAR :
case Signature.C_DOUBLE :
case Signature.C_FLOAT :
case Signature.C_INT :
case Signature.C_LONG :
case Signature.C_SHORT :
case Signature.C_VOID :
return scanBaseTypeSignature(string, start);
case Signature.C_CAPTURE :
return scanCaptureTypeSignature(string, start);
case Signature.C_EXTENDS:
case Signature.C_SUPER:
case Signature.C_STAR:
return scanTypeBoundSignature(string, start);
default :
throw new IllegalArgumentException();
}
}
/**
* Scans the given string for a base type signature starting at the given index
* and returns the index of the last character.
* <pre>
* BaseTypeSignature:
* <b>B</b> | <b>C</b> | <b>D</b> | <b>F</b> | <b>I</b>
* | <b>J</b> | <b>S</b> | <b>V</b> | <b>Z</b>
* </pre>
* Note that although the base type "V" is only allowed in method return types,
* there is no syntactic ambiguity. This method will accept them anywhere
* without complaint.
*
* @param string the signature string
* @param start the 0-based character index of the first character
* @return the 0-based character index of the last character
* @exception IllegalArgumentException if this is not a base type signature
*/
public static int scanBaseTypeSignature(char[] string, int start) {
// need a minimum 1 char
if (start >= string.length) {
throw new IllegalArgumentException();
}
char c = string[start];
if ("BCDFIJSVZ".indexOf(c) >= 0) { //$NON-NLS-1$
return start;
} else {
throw new IllegalArgumentException();
}
}
/**
* Scans the given string for an array type signature starting at the given
* index and returns the index of the last character.
* <pre>
* ArrayTypeSignature:
* <b>[</b> TypeSignature
* </pre>
*
* @param string the signature string
* @param start the 0-based character index of the first character
* @return the 0-based character index of the last character
* @exception IllegalArgumentException if this is not an array type signature
*/
public static int scanArrayTypeSignature(char[] string, int start) {
int length = string.length;
// need a minimum 2 char
if (start >= length - 1) {
throw new IllegalArgumentException();
}
char c = string[start];
if (c != Signature.C_ARRAY) { //$NON-NLS-1$
throw new IllegalArgumentException();
}
c = string[++start];
while(c == Signature.C_ARRAY) {
// need a minimum 2 char
if (start >= length - 1) {
throw new IllegalArgumentException();
}
c = string[++start];
}
return scanTypeSignature(string, start);
}
/**
* Scans the given string for a capture of a wildcard type signature starting at the given
* index and returns the index of the last character.
* <pre>
* CaptureTypeSignature:
* <b>!</b> TypeBoundSignature
* </pre>
*
* @param string the signature string
* @param start the 0-based character index of the first character
* @return the 0-based character index of the last character
* @exception IllegalArgumentException if this is not a capture type signature
*/
public static int scanCaptureTypeSignature(char[] string, int start) {
// need a minimum 2 char
if (start >= string.length - 1) {
throw new IllegalArgumentException();
}
char c = string[start];
if (c != Signature.C_CAPTURE) { //$NON-NLS-1$
throw new IllegalArgumentException();
}
return scanTypeBoundSignature(string, start + 1);
}
/**
* Scans the given string for a type variable signature starting at the given
* index and returns the index of the last character.
* <pre>
* TypeVariableSignature:
* <b>T</b> Identifier <b>;</b>
* </pre>
*
* @param string the signature string
* @param start the 0-based character index of the first character
* @return the 0-based character index of the last character
* @exception IllegalArgumentException if this is not a type variable signature
*/
public static int scanTypeVariableSignature(char[] string, int start) {
// need a minimum 3 chars "Tx;"
if (start >= string.length - 2) {
throw new IllegalArgumentException();
}
// must start in "T"
char c = string[start];
if (c != Signature.C_TYPE_VARIABLE) {
throw new IllegalArgumentException();
}
int id = scanIdentifier(string, start + 1);
c = string[id + 1];
if (c == Signature.C_SEMICOLON) {
return id + 1;
} else {
throw new IllegalArgumentException();
}
}
/**
* Scans the given string for an identifier starting at the given
* index and returns the index of the last character.
* Stop characters are: ";", ":", "&lt;", "&gt;", "/", ".".
*
* @param string the signature string
* @param start the 0-based character index of the first character
* @return the 0-based character index of the last character
* @exception IllegalArgumentException if this is not an identifier
*/
public static int scanIdentifier(char[] string, int start) {
// need a minimum 1 char
if (start >= string.length) {
throw new IllegalArgumentException();
}
int p = start;
while (true) {
char c = string[p];
if (c == '<' || c == '>' || c == ':' || c == ';' || c == '.' || c == '/') {
return p - 1;
}
p++;
if (p == string.length) {
return p - 1;
}
}
}
/**
* Scans the given string for a class type signature starting at the given
* index and returns the index of the last character.
* <pre>
* ClassTypeSignature:
* { <b>L</b> | <b>Q</b> } Identifier
* { { <b>/</b> | <b>.</b> Identifier [ <b>&lt;</b> TypeArgumentSignature* <b>&gt;</b> ] }
* <b>;</b>
* </pre>
* Note that although all "/"-identifiers most come before "."-identifiers,
* there is no syntactic ambiguity. This method will accept them without
* complaint.
*
* @param string the signature string
* @param start the 0-based character index of the first character
* @return the 0-based character index of the last character
* @exception IllegalArgumentException if this is not a class type signature
*/
public static int scanClassTypeSignature(char[] string, int start) {
// need a minimum 3 chars "Lx;"
if (start >= string.length - 2) {
throw new IllegalArgumentException();
}
// must start in "L" or "Q"
char c = string[start];
if (c != Signature.C_RESOLVED && c != Signature.C_UNRESOLVED) {
return -1;
}
int p = start + 1;
while (true) {
if (p >= string.length) {
throw new IllegalArgumentException();
}
c = string[p];
if (c == Signature.C_SEMICOLON) {
// all done
return p;
} else if (c == Signature.C_GENERIC_START) {
int e = scanTypeArgumentSignatures(string, p);
p = e;
} else if (c == Signature.C_DOT || c == '/') {
int id = scanIdentifier(string, p + 1);
p = id;
}
p++;
}
}
/**
* Scans the given string for a type bound signature starting at the given
* index and returns the index of the last character.
* <pre>
* TypeBoundSignature:
* <b>[-+]</b> TypeSignature <b>;</b>
* <b>*</b></b>
* </pre>
*
* @param string the signature string
* @param start the 0-based character index of the first character
* @return the 0-based character index of the last character
* @exception IllegalArgumentException if this is not a type variable signature
*/
public static int scanTypeBoundSignature(char[] string, int start) {
// need a minimum 1 char for wildcard
if (start >= string.length) {
throw new IllegalArgumentException();
}
char c = string[start];
switch (c) {
case Signature.C_STAR :
return start;
case Signature.C_SUPER :
case Signature.C_EXTENDS :
// need a minimum 4 chars "+Lx;"
if (start >= string.length - 3) {
throw new IllegalArgumentException();
}
break;
default :
// must start in "+/-"
throw new IllegalArgumentException();
}
c = string[++start];
switch (c) {
case Signature.C_CAPTURE :
return scanCaptureTypeSignature(string, start);
case Signature.C_SUPER :
case Signature.C_EXTENDS :
return scanTypeBoundSignature(string, start);
case Signature.C_RESOLVED :
case Signature.C_UNRESOLVED :
return scanClassTypeSignature(string, start);
case Signature.C_TYPE_VARIABLE :
return scanTypeVariableSignature(string, start);
case Signature.C_ARRAY :
return scanArrayTypeSignature(string, start);
case Signature.C_STAR:
return start;
default:
throw new IllegalArgumentException();
}
}
/**
* Scans the given string for a list of type argument signatures starting at
* the given index and returns the index of the last character.
* <pre>
* TypeArgumentSignatures:
* <b>&lt;</b> TypeArgumentSignature* <b>&gt;</b>
* </pre>
* Note that although there is supposed to be at least one type argument, there
* is no syntactic ambiguity if there are none. This method will accept zero
* type argument signatures without complaint.
*
* @param string the signature string
* @param start the 0-based character index of the first character
* @return the 0-based character index of the last character
* @exception IllegalArgumentException if this is not a list of type arguments
* signatures
*/
public static int scanTypeArgumentSignatures(char[] string, int start) {
// need a minimum 2 char "<>"
if (start >= string.length - 1) {
throw new IllegalArgumentException();
}
char c = string[start];
if (c != Signature.C_GENERIC_START) {
throw new IllegalArgumentException();
}
int p = start + 1;
while (true) {
if (p >= string.length) {
throw new IllegalArgumentException();
}
c = string[p];
if (c == Signature.C_GENERIC_END) {
return p;
}
int e = scanTypeArgumentSignature(string, p);
p = e + 1;
}
}
/**
* Scans the given string for a type argument signature starting at the given
* index and returns the index of the last character.
* <pre>
* TypeArgumentSignature:
* <b>&#42;</b>
* | <b>+</b> TypeSignature
* | <b>-</b> TypeSignature
* | TypeSignature
* </pre>
* Note that although base types are not allowed in type arguments, there is
* no syntactic ambiguity. This method will accept them without complaint.
*
* @param string the signature string
* @param start the 0-based character index of the first character
* @return the 0-based character index of the last character
* @exception IllegalArgumentException if this is not a type argument signature
*/
public static int scanTypeArgumentSignature(char[] string, int start) {
// need a minimum 1 char
if (start >= string.length) {
throw new IllegalArgumentException();
}
char c = string[start];
switch (c) {
case Signature.C_STAR :
return start;
case Signature.C_EXTENDS :
case Signature.C_SUPER :
return scanTypeBoundSignature(string, start);
default :
return scanTypeSignature(string, start);
}
}
/**
* Get all type arguments from an array of signatures.
*
* Example:
* For following type X<Y<Z>,V<W>,U>.A<B> signatures is:
* [
* ['L','X','<','L','Y','<','L','Z',';'>',';','L','V','<','L','W',';'>',';','L','U',';',>',';'],
* ['L','A','<','L','B',';','>',';']
* ]
* @see #splitTypeLevelsSignature(String)
* Then, this method returns:
* [
* [
* ['L','Y','<','L','Z',';'>',';'],
* ['L','V','<','L','W',';'>',';'],
* ['L','U',';']
* ],
* [
* ['L','B',';']
* ]
* ]
*
* @param typeSignatures Array of signatures (one per each type levels)
* @throws IllegalArgumentException If one of provided signature is malformed
* @return char[][][] Array of type arguments for each signature
*/
public final static char[][][] getAllTypeArguments(char[][] typeSignatures) {
if (typeSignatures == null) return null;
int length = typeSignatures.length;
char[][][] typeArguments = new char[length][][];
for (int i=0; i<length; i++){
typeArguments[i] = Signature.getTypeArguments(typeSignatures[i]);
}
return typeArguments;
}
/**
* Split signatures of all levels from a type unique key.
*
* Example:
* For following type X<Y<Z>,V<W>,U>.A<B>, unique key is:
* "LX<LY<LZ;>;LV<LW;>;LU;>.LA<LB;>;"
*
* The return splitted signatures array is:
* [
* ['L','X','<','L','Y','<','L','Z',';'>',';','L','V','<','L','W',';'>',';','L','U','>',';'],
* ['L','A','<','L','B',';','>',';']
*
* @param typeSignature ParameterizedSourceType type signature
* @return char[][] Array of signatures for each level of given unique key
*/
public final static char[][] splitTypeLevelsSignature(String typeSignature) {
// In case of IJavaElement signature, replace '$' by '.'
char[] source = Signature.removeCapture(typeSignature.toCharArray());
CharOperation.replace(source, '$', '.');
// Init counters and arrays
char[][] signatures = new char[10][];
int signaturesCount = 0;
// int[] lengthes = new int [10];
int typeArgsCount = 0;
int paramOpening = 0;
// Scan each signature character
scanUniqueKey: for (int idx=0, ln = source.length; idx < ln; idx++) {
switch (source[idx]) {
case '>':
paramOpening--;
if (paramOpening == 0) {
if (signaturesCount == signatures.length) {
System.arraycopy(signatures, 0, signatures = new char[signaturesCount+10][], 0, signaturesCount);
}
typeArgsCount = 0;
}
break;
case '<':
paramOpening++;
if (paramOpening == 1) {
typeArgsCount = 1;
}
break;
case '*':
case ';':
if (paramOpening == 1) typeArgsCount++;
break;
case '.':
if (paramOpening == 0) {
if (signaturesCount == signatures.length) {
System.arraycopy(signatures, 0, signatures = new char[signaturesCount+10][], 0, signaturesCount);
}
signatures[signaturesCount] = new char[idx+1];
System.arraycopy(source, 0, signatures[signaturesCount], 0, idx);
signatures[signaturesCount][idx] = Signature.C_SEMICOLON;
signaturesCount++;
}
break;
case '/':
source[idx] = '.';
break;
}
}
// Resize signatures array
char[][] typeSignatures = new char[signaturesCount+1][];
typeSignatures[0] = source;
for (int i=1, j=signaturesCount-1; i<=signaturesCount; i++, j--){
typeSignatures[i] = signatures[j];
}
return typeSignatures;
}
}