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The AspectJ weaver applies aspects to Java classes. It can be used as a Java agent in order to apply load-time weaving (LTW) during class-loading and also contains the AspectJ runtime classes.

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/* *******************************************************************
 * Copyright (c) 1999-2001 Xerox Corporation,
 *               2002 Palo Alto Research Center, Incorporated (PARC).
 *               2018 Contributors
 * All rights reserved.
 * This program and the accompanying materials are made available
 * under the terms of the Eclipse Public License v 2.0
 * which accompanies this distribution and is available at
 * https://www.eclipse.org/org/documents/epl-2.0/EPL-2.0.txt
 *
 * Contributors:
 *     Xerox/PARC     initial implementation
 * ******************************************************************/
package org.aspectj.util;

import java.io.ByteArrayOutputStream;
import java.io.File;
import java.io.IOException;
import java.io.PrintWriter;
import java.io.StringWriter;
import java.lang.reflect.Array;
import java.lang.reflect.InvocationTargetException;
import java.security.PrivilegedActionException;
import java.sql.SQLException;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.BitSet;
import java.util.Collection;
import java.util.Collections;
import java.util.LinkedList;
import java.util.List;
import java.util.Map;
import java.util.StringTokenizer;

/**
 *
 */
public class LangUtil {

	public static final String EOL = System.lineSeparator();

	public static final String JRT_FS = "jrt-fs.jar";

	private static double vmVersion;

	/**
	 * @return the vm version (1.1, 1.2, 1.3, 1.4, etc)
	 */
	public static String getVmVersionString() {
		return Double.toString(vmVersion);
	}

	public static double getVmVersion() {
		return vmVersion;
	}

	static {
		// https://www.oracle.com/technetwork/java/javase/versioning-naming-139433.html
		// https://openjdk.java.net/jeps/223 "New Version-String Scheme"
		// TODO: Use java.lang.Runtime class (since Java 9, now AspectJ needs Java 11+ due to JDT Core anyway)
		final String JAVA_VERSION_NOT_FOUND = "System properties appear damaged, cannot find: java.version/java.runtime.version/java.vm.version";
		try {
			String vm = System.getProperty("java.version"); // JLS 20.18.7
			if (vm == null) {
				vm = System.getProperty("java.runtime.version");
			}
			if (vm == null) {
				vm = System.getProperty("java.vm.version");
			}
			if (vm == null) {
				new RuntimeException(JAVA_VERSION_NOT_FOUND).printStackTrace(System.err);
				vmVersion = 1.5;
			} else {
				// Care about the first set of digits and second set if first digit is 1
				try {
					List numbers = getJavaMajorMinor(vm);
					if (numbers.get(0) == 1) {
						// Old school for 1.0 > 1.8
						vmVersion = numbers.get(0)+(numbers.get(1)/10d);
					} else {
						// numbers.get(0) is the major version (9 and above)
						// Note here the number will be 9 (or 10), *not* 1.9 or 1.10
						vmVersion = numbers.get(0);
					}
				} catch (Throwable t) {
					// Give up
					vmVersion = 1.5;
				}
			}
		} catch (Throwable t) {
			new RuntimeException(JAVA_VERSION_NOT_FOUND, t).printStackTrace(System.err);
			vmVersion = 1.5;
		}
	}

	private static List getJavaMajorMinor(String vm) {
		List result = new ArrayList<>();
		// Can be something like '1.5', '11.0.16.1', '19+36-2238'
		StringTokenizer st = new StringTokenizer(vm.replaceFirst("[+].*", ""), ".-_");
		try {
			result.add(Integer.parseInt(st.nextToken()));
			result.add(Integer.parseInt(st.nextToken()));
		} catch (Exception e) {
			// NoSuchElementException if no more tokens
			// NumberFormatException if not a number
		}
		// Always add a default minor, just in case a caller expects it
		if (result.size() == 1)
			result.add(0);
		return result;
	}

	public static boolean isVMGreaterOrEqual(int javaVersion) {
		return isVMGreaterOrEqual((double) javaVersion);
	}

	public static boolean isVMGreaterOrEqual(double javaVersion) {
		return vmVersion >= javaVersion;
	}

	public static boolean isVMLessOrEqual(int javaVersion) {
		return isVMLessOrEqual((double) javaVersion);
	}

	public static boolean isVMLessOrEqual(double javaVersion) {
		return vmVersion <= javaVersion;
	}

	/**
	 * Shorthand for "if null, throw IllegalArgumentException"
	 *
	 * @throws IllegalArgumentException "null {name}" if o is null
	 */
	public static final void throwIaxIfNull(final Object o, final String name) {
		if (null == o) {
			String message = "null " + (null == name ? "input" : name);
			throw new IllegalArgumentException(message);
		}
	}

	/**
	 * Shorthand for "if not null or not assignable, throw IllegalArgumentException"
	 *
	 * @param c the Class to check - use null to ignore type check
	 * @throws IllegalArgumentException "null {name}" if o is null
	 */
	public static final void throwIaxIfNotAssignable(final Object ra[], final Class c, final String name) {
		throwIaxIfNull(ra, name);
		String label = (null == name ? "input" : name);
		for (int i = 0; i < ra.length; i++) {
			if (null == ra[i]) {
				String m = " null " + label + "[" + i + "]";
				throw new IllegalArgumentException(m);
			} else if (null != c) {
				Class actualClass = ra[i].getClass();
				if (!c.isAssignableFrom(actualClass)) {
					String message = label + " not assignable to " + c.getName();
					throw new IllegalArgumentException(message);
				}
			}
		}
	}

	/**
	 * Shorthand for "if not null or not assignable, throw IllegalArgumentException"
	 *
	 * @throws IllegalArgumentException "null {name}" if o is null
	 */
	public static final void throwIaxIfNotAssignable(final Object o, final Class c, final String name) {
		throwIaxIfNull(o, name);
		if (null != c) {
			Class actualClass = o.getClass();
			if (!c.isAssignableFrom(actualClass)) {
				String message = name + " not assignable to " + c.getName();
				throw new IllegalArgumentException(message);
			}
		}
	}

	// /**
	// * Shorthand for
	// "if any not null or not assignable, throw IllegalArgumentException"
	// * @throws IllegalArgumentException "{name} is not assignable to {c}"
	// */
	// public static final void throwIaxIfNotAllAssignable(final Collection
	// collection,
	// final Class c, final String name) {
	// throwIaxIfNull(collection, name);
	// if (null != c) {
	// for (Iterator iter = collection.iterator(); iter.hasNext();) {
	// throwIaxIfNotAssignable(iter.next(), c, name);
	//
	// }
	// }
	// }
	/**
	 * Shorthand for "if false, throw IllegalArgumentException"
	 *
	 * @throws IllegalArgumentException "{message}" if test is false
	 */
	public static final void throwIaxIfFalse(final boolean test, final String message) {
		if (!test) {
			throw new IllegalArgumentException(message);
		}
	}

	// /** @return ((null == s) || (0 == s.trim().length())); */
	// public static boolean isEmptyTrimmed(String s) {
	// return ((null == s) || (0 == s.length())
	// || (0 == s.trim().length()));
	// }

	/** @return ((null == s) || (0 == s.length())); */
	public static boolean isEmpty(String s) {
		return ((null == s) || (0 == s.length()));
	}

	/** @return ((null == ra) || (0 == ra.length)) */
	public static boolean isEmpty(Object[] ra) {
		return ((null == ra) || (0 == ra.length));
	}

	/** @return ((null == ra) || (0 == ra.length)) */
	public static boolean isEmpty(byte[] ra) {
		return ((null == ra) || (0 == ra.length));
	}

	/** @return ((null == collection) || (0 == collection.size())) */
	public static boolean isEmpty(Collection collection) {
		return ((null == collection) || (0 == collection.size()));
	}

	/** @return ((null == map) || (0 == map.size())) */
	public static boolean isEmpty(Map map) {
		return ((null == map) || (0 == map.size()));
	}

	/**
	 * Splits text at whitespace.
	 *
	 * @param text String to split.
	 */
	public static String[] split(String text) {
		return strings(text).toArray(new String[0]);
	}

	/**
	 * Splits input at commas, trimming any white space.
	 *
	 * @param input String to split.
	 * @return List of String of elements.
	 */
	public static List commaSplit(String input) {
		return anySplit(input, ",");
	}

	/**
	 * Split string as classpath, delimited at File.pathSeparator. Entries are not trimmed, but empty entries are ignored.
	 *
	 * @param classpath the String to split - may be null or empty
	 * @return String[] of classpath entries
	 */
	public static String[] splitClasspath(String classpath) {
		if (LangUtil.isEmpty(classpath)) {
			return new String[0];
		}
		StringTokenizer st = new StringTokenizer(classpath, File.pathSeparator);
		ArrayList result = new ArrayList<>(st.countTokens());
		while (st.hasMoreTokens()) {
			String entry = st.nextToken();
			if (!LangUtil.isEmpty(entry)) {
				result.add(entry);
			}
		}
		return result.toArray(new String[0]);
	}

	/**
	 * Get System property as boolean, but use default value where the system property is not set.
	 *
	 * @return true if value is set to true, false otherwise
	 */
	public static boolean getBoolean(String propertyName, boolean defaultValue) {
		if (null != propertyName) {
			try {
				String value = System.getProperty(propertyName);
				if (null != value) {
					return Boolean.parseBoolean(value);
				}
			} catch (Throwable t) {
				// default below
			}
		}
		return defaultValue;
	}

	/**
	 * Splits input, removing delimiter and trimming any white space. Returns an empty collection if the input is null.
	 * If delimiter is null or empty or if the input contains no delimiters, the input itself is returned after trimming white
	 * space.
	 *
	 * @param input String to split.
	 * @param delim String separators for input.
	 * @return List of String of elements.
	 */
	public static List anySplit(String input, String delim) {
		if (null == input) {
			return Collections.emptyList();
		}
		List result = new ArrayList<>();

		if (LangUtil.isEmpty(delim) || (!input.contains(delim))) {
			result.add(input.trim());
		} else {
			StringTokenizer st = new StringTokenizer(input, delim);
			while (st.hasMoreTokens()) {
				result.add(st.nextToken().trim());
			}
		}
		return result;
	}

	/**
	 * Splits strings into a List using a StringTokenizer.
	 *
	 * @param text String to split.
	 */
	public static List strings(String text) {
		if (LangUtil.isEmpty(text)) {
			return Collections.emptyList();
		}
		List strings = new ArrayList<>();
		StringTokenizer tok = new StringTokenizer(text);
		while (tok.hasMoreTokens()) {
			strings.add(tok.nextToken());
		}
		return strings;
	}

	/** @return a non-null unmodifiable List */
	public static  List safeList(List list) {
		return (null == list ? Collections.emptyList() : Collections.unmodifiableList(list));
	}

	// /**
	// * Select from input String[] based on suffix-matching
	// * @param inputs String[] of input - null ignored
	// * @param suffixes String[] of suffix selectors - null ignored
	// * @param ignoreCase if true, ignore case
	// * @return String[] of input that end with any input
	// */
	// public static String[] endsWith(String[] inputs, String[] suffixes,
	// boolean ignoreCase) {
	// if (LangUtil.isEmpty(inputs) || LangUtil.isEmpty(suffixes)) {
	// return new String[0];
	// }
	// if (ignoreCase) {
	// String[] temp = new String[suffixes.length];
	// for (int i = 0; i < temp.length; i++) {
	// String suff = suffixes[i];
	// temp[i] = (null == suff ? null : suff.toLowerCase());
	// }
	// suffixes = temp;
	// }
	// ArrayList result = new ArrayList();
	// for (int i = 0; i < inputs.length; i++) {
	// String input = inputs[i];
	// if (null == input) {
	// continue;
	// }
	// if (!ignoreCase) {
	// input = input.toLowerCase();
	// }
	// for (int j = 0; j < suffixes.length; j++) {
	// String suffix = suffixes[j];
	// if (null == suffix) {
	// continue;
	// }
	// if (input.endsWith(suffix)) {
	// result.add(input);
	// break;
	// }
	// }
	// }
	// return (String[]) result.toArray(new String[0]);
	// }
	//
	// /**
	// * Select from input String[] if readable directories
	// * @param inputs String[] of input - null ignored
	// * @param baseDir the base directory of the input
	// * @return String[] of input that end with any input
	// */
	// public static String[] selectDirectories(String[] inputs, File baseDir) {
	// if (LangUtil.isEmpty(inputs)) {
	// return new String[0];
	// }
	// ArrayList result = new ArrayList();
	// for (int i = 0; i < inputs.length; i++) {
	// String input = inputs[i];
	// if (null == input) {
	// continue;
	// }
	// File inputFile = new File(baseDir, input);
	// if (inputFile.canRead() && inputFile.isDirectory()) {
	// result.add(input);
	// }
	// }
	// return (String[]) result.toArray(new String[0]);
	// }

	/**
	 * copy non-null two-dimensional String[][]
	 *
	 * @see extractOptions(String[], String[][])
	 */
	public static String[][] copyStrings(String[][] in) {
		String[][] out = new String[in.length][];
		for (int i = 0; i < out.length; i++) {
			out[i] = new String[in[i].length];
			System.arraycopy(in[i], 0, out[i], 0, out[i].length);
		}
		return out;
	}

	/**
	 * Extract options and arguments to input option list, returning remainder. The input options will be nullified if not found.
	 * e.g.,
	 *
	 * 
	 * String[] options = new String[][] { new String[] { "-verbose" }, new String[] { "-classpath", null } };
	 * String[] args = extractOptions(args, options);
	 * boolean verbose = null != options[0][0];
	 * boolean classpath = options[1][1];
	 * 
* * @param args the String[] input options * @param options the String[][]options to find in the input args - not null for each String[] component the first subcomponent * is the option itself, and there is one String subcomponent for each additional argument. * @return String[] of args remaining after extracting options to extracted */ public static String[] extractOptions(String[] args, String[][] options) { if (LangUtil.isEmpty(args) || LangUtil.isEmpty(options)) { return args; } BitSet foundSet = new BitSet(); String[] result = new String[args.length]; int resultIndex = 0; for (int j = 0; j < args.length; j++) { boolean found = false; for (int i = 0; !found && (i < options.length); i++) { String[] option = options[i]; LangUtil.throwIaxIfFalse(!LangUtil.isEmpty(option), "options"); String sought = option[0]; found = sought.equals(args[j]); if (found) { foundSet.set(i); int doMore = option.length - 1; if (0 < doMore) { final int MAX = j + doMore; if (MAX >= args.length) { String s = "expecting " + doMore + " args after "; throw new IllegalArgumentException(s + args[j]); } for (int k = 1; k < option.length; k++) { option[k] = args[++j]; } } } } if (!found) { result[resultIndex++] = args[j]; } } // unset any not found for (int i = 0; i < options.length; i++) { if (!foundSet.get(i)) { options[i][0] = null; } } // fixup remainder if (resultIndex < args.length) { String[] temp = new String[resultIndex]; System.arraycopy(result, 0, temp, 0, resultIndex); args = temp; } return args; } // // /** // * Extract options and arguments to input parameter list, returning // remainder. // * @param args the String[] input options // * @param validOptions the String[] options to find in the input args - // not null // * @param optionArgs the int[] number of arguments for each option in // validOptions // * (if null, then no arguments for any option) // * @param extracted the List for the matched options // * @return String[] of args remaining after extracting options to // extracted // */ // public static String[] extractOptions(String[] args, String[] // validOptions, // int[] optionArgs, List extracted) { // if (LangUtil.isEmpty(args) // || LangUtil.isEmpty(validOptions) ) { // return args; // } // if (null != optionArgs) { // if (optionArgs.length != validOptions.length) { // throw new IllegalArgumentException("args must match options"); // } // } // String[] result = new String[args.length]; // int resultIndex = 0; // for (int j = 0; j < args.length; j++) { // boolean found = false; // for (int i = 0; !found && (i < validOptions.length); i++) { // String sought = validOptions[i]; // int doMore = (null == optionArgs ? 0 : optionArgs[i]); // if (LangUtil.isEmpty(sought)) { // continue; // } // found = sought.equals(args[j]); // if (found) { // if (null != extracted) { // extracted.add(sought); // } // if (0 < doMore) { // final int MAX = j + doMore; // if (MAX >= args.length) { // String s = "expecting " + doMore + " args after "; // throw new IllegalArgumentException(s + args[j]); // } // if (null != extracted) { // while (j < MAX) { // extracted.add(args[++j]); // } // } else { // j = MAX; // } // } // break; // } // } // if (!found) { // result[resultIndex++] = args[j]; // } // } // if (resultIndex < args.length) { // String[] temp = new String[resultIndex]; // System.arraycopy(result, 0, temp, 0, resultIndex); // args = temp; // } // return args; // } // /** @return String[] of entries in validOptions found in args */ // public static String[] selectOptions(String[] args, String[] // validOptions) { // if (LangUtil.isEmpty(args) || LangUtil.isEmpty(validOptions)) { // return new String[0]; // } // ArrayList result = new ArrayList(); // for (int i = 0; i < validOptions.length; i++) { // String sought = validOptions[i]; // if (LangUtil.isEmpty(sought)) { // continue; // } // for (int j = 0; j < args.length; j++) { // if (sought.equals(args[j])) { // result.add(sought); // break; // } // } // } // return (String[]) result.toArray(new String[0]); // } // /** @return String[] of entries in validOptions found in args */ // public static String[] selectOptions(List args, String[] validOptions) { // if (LangUtil.isEmpty(args) || LangUtil.isEmpty(validOptions)) { // return new String[0]; // } // ArrayList result = new ArrayList(); // for (int i = 0; i < validOptions.length; i++) { // String sought = validOptions[i]; // if (LangUtil.isEmpty(sought)) { // continue; // } // for (Iterator iter = args.iterator(); iter.hasNext();) { // String arg = (String) iter.next(); // if (sought.equals(arg)) { // result.add(sought); // break; // } // } // } // return (String[]) result.toArray(new String[0]); // } // /** // * Generate variants of String[] options by creating an extra set for // * each option that ends with "-". If none end with "-", then an // * array equal to new String[][] { options } is returned; // * if one ends with "-", then two sets are returned, // * three causes eight sets, etc. // * @return String[][] with each option set. // * @throws IllegalArgumentException if any option is null or empty. // */ // public static String[][] optionVariants(String[] options) { // if ((null == options) || (0 == options.length)) { // return new String[][] { new String[0]}; // } // // be nice, don't stomp input // String[] temp = new String[options.length]; // System.arraycopy(options, 0, temp, 0, temp.length); // options = temp; // boolean[] dup = new boolean[options.length]; // int numDups = 0; // // for (int i = 0; i < options.length; i++) { // String option = options[i]; // if (LangUtil.isEmpty(option)) { // throw new IllegalArgumentException("empty option at " + i); // } // if (option.endsWith("-")) { // options[i] = option.substring(0, option.length()-1); // dup[i] = true; // numDups++; // } // } // final String[] NONE = new String[0]; // final int variants = exp(2, numDups); // final String[][] result = new String[variants][]; // // variant is a bitmap wrt doing extra value when dup[k]=true // for (int variant = 0; variant < variants; variant++) { // ArrayList next = new ArrayList(); // int nextOption = 0; // for (int k = 0; k < options.length; k++) { // if (!dup[k] || (0 != (variant & (1 << (nextOption++))))) { // next.add(options[k]); // } // } // result[variant] = (String[]) next.toArray(NONE); // } // return result; // } // // private static int exp(int base, int power) { // not in Math? // if (0 > power) { // throw new IllegalArgumentException("negative power: " + power); // } // int result = 1; // while (0 < power--) { // result *= base; // } // return result; // } // /** // * Make a copy of the array. // * @return an array with the same component type as source // * containing same elements, even if null. // * @throws IllegalArgumentException if source is null // */ // public static final Object[] copy(Object[] source) { // LangUtil.throwIaxIfNull(source, "source"); // final Class c = source.getClass().getComponentType(); // Object[] result = (Object[]) Array.newInstance(c, source.length); // System.arraycopy(source, 0, result, 0, result.length); // return result; // } /** * Convert arrays safely. The number of elements in the result will be 1 smaller for each element that is null or not * assignable. This will use sink if it has exactly the right size. The result will always have the same component type as sink. * * @return an array with the same component type as sink containing any assignable elements in source (in the same order). * @throws IllegalArgumentException if either is null */ public static Object[] safeCopy(Object[] source, Object[] sink) { final Class sinkType = (null == sink ? Object.class : sink.getClass().getComponentType()); final int sourceLength = (null == source ? 0 : source.length); final int sinkLength = (null == sink ? 0 : sink.length); final int resultSize; List result = null; if (0 == sourceLength) { resultSize = 0; } else { result = new ArrayList<>(sourceLength); for (int i = 0; i < sourceLength; i++) { if ((null != source[i]) && (sinkType.isAssignableFrom(source[i].getClass()))) { result.add(source[i]); } } resultSize = result.size(); } if (resultSize != sinkLength) { sink = (Object[]) Array.newInstance(sinkType, result.size()); } if (0 < resultSize) { sink = result.toArray(sink); } return sink; } /** * @return a String with the unqualified class name of the class (or "null") */ public static String unqualifiedClassName(Class c) { if (null == c) { return "null"; } String name = c.getName(); int loc = name.lastIndexOf("."); if (-1 != loc) { name = name.substring(1 + loc); } return name; } /** * @return a String with the unqualified class name of the object (or "null") */ public static String unqualifiedClassName(Object o) { return LangUtil.unqualifiedClassName(null == o ? null : o.getClass()); } /** inefficient way to replace all instances of sought with replace */ public static String replace(String in, String sought, String replace) { if (LangUtil.isEmpty(in) || LangUtil.isEmpty(sought)) { return in; } StringBuilder result = new StringBuilder(); final int len = sought.length(); int start = 0; int loc; while (-1 != (loc = in.indexOf(sought, start))) { result.append(in.substring(start, loc)); if (!LangUtil.isEmpty(replace)) { result.append(replace); } start = loc + len; } result.append(in.substring(start)); return result.toString(); } /** render i right-justified with a given width less than about 40 */ public static String toSizedString(long i, int width) { String result = "" + i; int size = result.length(); if (width > size) { final String pad = " "; final int padLength = pad.length(); if (width > padLength) { width = padLength; } int topad = width - size; result = pad.substring(0, topad) + result; } return result; } // /** clip StringBuffer to maximum number of lines */ // static String clipBuffer(StringBuffer buffer, int maxLines) { // if ((null == buffer) || (1 > buffer.length())) return ""; // StringBuffer result = new StringBuffer(); // int j = 0; // final int MAX = maxLines; // final int N = buffer.length(); // for (int i = 0, srcBegin = 0; i < MAX; srcBegin += j) { // // todo: replace with String variant if/since getting char? // char[] chars = new char[128]; // int srcEnd = srcBegin+chars.length; // if (srcEnd >= N) { // srcEnd = N-1; // } // if (srcBegin == srcEnd) break; // //log("srcBegin:" + srcBegin + ":srcEnd:" + srcEnd); // buffer.getChars(srcBegin, srcEnd, chars, 0); // for (j = 0; j < srcEnd-srcBegin/*chars.length*/; j++) { // char c = chars[j]; // if (c == '\n') { // i++; // j++; // break; // } // } // try { result.append(chars, 0, j); } // catch (Throwable t) { } // } // return result.toString(); // } /** * @return "({UnqualifiedExceptionClass}) {message}" */ public static String renderExceptionShort(Throwable e) { if (null == e) { return "(Throwable) null"; } return "(" + LangUtil.unqualifiedClassName(e) + ") " + e.getMessage(); } /** * Renders exception t after unwrapping and eliding any test packages. * * @param t Throwable to print. * @see StringChecker#TEST_PACKAGES */ public static String renderException(Throwable t) { return renderException(t, true); } /** * Renders exception t, unwrapping, optionally eliding and limiting total number of lines. * * @param t Throwable to print. * @param elide true to limit to 100 lines and elide test packages * @see StringChecker#TEST_PACKAGES */ public static String renderException(Throwable t, boolean elide) { if (null == t) { return "null throwable"; } t = unwrapException(t); StringBuffer stack = stackToString(t, false); if (elide) { elideEndingLines(StringChecker.TEST_PACKAGES, stack, 100); } return stack.toString(); } /** * Trim ending lines from a StringBuffer, clipping to maxLines and further removing any number of trailing lines accepted by * checker. * * @param checker returns true if trailing line should be elided. * @param stack StringBuffer with lines to elide * @param maxLines int for maximum number of resulting lines */ static void elideEndingLines(StringChecker checker, StringBuffer stack, int maxLines) { if (null == checker || (null == stack) || (0 == stack.length())) { return; } final LinkedList lines = new LinkedList<>(); StringTokenizer st = new StringTokenizer(stack.toString(), "\n\r"); while (st.hasMoreTokens() && (0 < --maxLines)) { lines.add(st.nextToken()); } st = null; String line; int elided = 0; while (!lines.isEmpty()) { line = lines.getLast(); if (!checker.acceptString(line)) { break; } else { elided++; lines.removeLast(); } } if ((elided > 0) || (maxLines < 1)) { final int EOL_LEN = EOL.length(); int totalLength = 0; while (!lines.isEmpty()) { totalLength += EOL_LEN + lines.getFirst().length(); lines.removeFirst(); } if (stack.length() > totalLength) { stack.setLength(totalLength); if (elided > 0) { stack.append(" (... " + elided + " lines...)"); } } } } /** Dump message and stack to StringBuffer. */ public static StringBuffer stackToString(Throwable throwable, boolean skipMessage) { if (null == throwable) { return new StringBuffer(); } StringWriter buf = new StringWriter(); PrintWriter writer = new PrintWriter(buf); if (!skipMessage) { writer.println(throwable.getMessage()); } throwable.printStackTrace(writer); try { buf.close(); } catch (IOException ioe) { } // ignored return buf.getBuffer(); } /** @return Throwable input or tail of any wrapped exception chain */ public static Throwable unwrapException(Throwable t) { Throwable current = t; Throwable next = null; while (current != null) { // Java 1.2 exceptions that carry exceptions if (current instanceof InvocationTargetException) { next = ((InvocationTargetException) current).getTargetException(); } else if (current instanceof ClassNotFoundException) { next = ((ClassNotFoundException) current).getException(); } else if (current instanceof ExceptionInInitializerError) { next = ((ExceptionInInitializerError) current).getException(); } else if (current instanceof PrivilegedActionException) { next = ((PrivilegedActionException) current).getException(); } else if (current instanceof SQLException) { next = ((SQLException) current).getNextException(); } // ...getException(): // javax.naming.event.NamingExceptionEvent // javax.naming.ldap.UnsolicitedNotification // javax.xml.parsers.FactoryConfigurationError // javax.xml.transform.TransformerFactoryConfigurationError // javax.xml.transform.TransformerException // org.xml.sax.SAXException // 1.4: Throwable.getCause // java.util.logging.LogRecord.getThrown() if (null == next) { break; } else { current = next; next = null; } } return current; } /** * Replacement for Arrays.asList(..) which gacks on null and returns a List in which remove is an unsupported operation. * * @param array the Object[] to convert (may be null) * @return the List corresponding to array (never null) */ public static List arrayAsList(T[] array) { if ((null == array) || (1 > array.length)) { return Collections.emptyList(); } List list = new ArrayList<>(Arrays.asList(array)); return list; } /** check if input contains any packages to elide. */ public static class StringChecker { static StringChecker TEST_PACKAGES = new StringChecker(new String[] { "org.aspectj.testing", "org.eclipse.jdt.internal.junit", "junit.framework.", "org.apache.tools.ant.taskdefs.optional.junit.JUnitTestRunner" }); String[] infixes; /** @param infixes adopted */ StringChecker(String[] infixes) { this.infixes = infixes; } /** @return true if input contains infixes */ public boolean acceptString(String input) { boolean result = false; if (!LangUtil.isEmpty(input)) { for (int i = 0; !result && (i < infixes.length); i++) { result = (input.contains(infixes[i])); } } return result; } } /** * Gen classpath. * * @param bootclasspath * @param classpath * @param classesDir * @param outputJar * @return String combining classpath elements */ public static String makeClasspath( // XXX dumb implementation String bootclasspath, String classpath, String classesDir, String outputJar) { StringBuffer sb = new StringBuffer(); addIfNotEmpty(bootclasspath, sb, File.pathSeparator); addIfNotEmpty(classpath, sb, File.pathSeparator); if (!addIfNotEmpty(classesDir, sb, File.pathSeparator)) { addIfNotEmpty(outputJar, sb, File.pathSeparator); } return sb.toString(); } /** * @param input ignored if null * @param sink the StringBuffer to add input to - return false if null * @param delimiter the String to append to input when added - ignored if empty * @return true if input + delimiter added to sink */ private static boolean addIfNotEmpty(String input, StringBuffer sink, String delimiter) { if (LangUtil.isEmpty(input) || (null == sink)) { return false; } sink.append(input); if (!LangUtil.isEmpty(delimiter)) { sink.append(delimiter); } return true; } /** * Create or initialize a process controller to run a process in another VM asynchronously. * * @param controller the ProcessController to initialize, if not null * @param classpath * @param mainClass * @param args * @return initialized ProcessController */ public static ProcessController makeProcess(ProcessController controller, String classpath, String mainClass, String[] args) { File java = LangUtil.getJavaExecutable(); ArrayList cmd = new ArrayList<>(); cmd.add(java.getAbsolutePath()); cmd.add("-classpath"); cmd.add(classpath); cmd.add(mainClass); if (!LangUtil.isEmpty(args)) { cmd.addAll(Arrays.asList(args)); } String[] command = cmd.toArray(new String[0]); if (null == controller) { controller = new ProcessController(); } controller.init(command, mainClass); return controller; } // /** // * Create a process to run asynchronously. // * @param controller if not null, initialize this one // * @param command the String[] command to run // * @param controller the ProcessControl for streams and results // */ // public static ProcessController makeProcess( // not needed? // ProcessController controller, // String[] command, // String label) { // if (null == controller) { // controller = new ProcessController(); // } // controller.init(command, label); // return controller; // } /** * Find java executable File path from java.home system property. * * @return File associated with the java command, or null if not found. */ public static File getJavaExecutable() { String javaHome = null; File result = null; // java.home // java.class.path // java.ext.dirs try { javaHome = System.getProperty("java.home"); } catch (Throwable t) { // ignore } if (null != javaHome) { File binDir = new File(javaHome, "bin"); if (binDir.isDirectory() && binDir.canRead()) { String[] execs = new String[] { "java", "java.exe" }; for (String exec : execs) { result = new File(binDir, exec); if (result.canRead()) { break; } } } } return result; } // /** // * Sleep for a particular period (in milliseconds). // * // * @param time the long time in milliseconds to sleep // * @return true if delay succeeded, false if interrupted 100 times // */ // public static boolean sleep(long milliseconds) { // if (milliseconds == 0) { // return true; // } else if (milliseconds < 0) { // throw new IllegalArgumentException("negative: " + milliseconds); // } // return sleepUntil(milliseconds + System.currentTimeMillis()); // } /** * Sleep until a particular time. * * @param time the long time in milliseconds to sleep until * @return true if delay succeeded, false if interrupted 100 times */ public static boolean sleepUntil(long time) { if (time == 0) { return true; } else if (time < 0) { throw new IllegalArgumentException("negative: " + time); } // final Thread thread = Thread.currentThread(); long curTime = System.currentTimeMillis(); for (int i = 0; (i < 100) && (curTime < time); i++) { try { Thread.sleep(time - curTime); } catch (InterruptedException e) { // ignore } curTime = System.currentTimeMillis(); } return (curTime >= time); } /** * Handle an external process asynchrously. start() launches a main thread to wait for the process and pipes * streams (in child threads) through to the corresponding streams (e.g., the process System.err to this System.err). This can * complete normally, by exception, or on demand by a client. Clients can implement doCompleting(..) to get notice * when the process completes. *

* The following sample code creates a process with a completion callback starts it, and some time later retries the process. * *

	 * LangUtil.ProcessController controller = new LangUtil.ProcessController() {
	 * 	protected void doCompleting(LangUtil.ProcessController.Thrown thrown, int result) {
	 * 		// signal result
	 * 	}
	 * };
	 * controller.init(new String[] { "java", "-version" }, "java version");
	 * controller.start();
	 * // some time later...
	 * // retry...
	 * if (!controller.completed()) {
	 * 	controller.stop();
	 * 	controller.reinit();
	 * 	controller.start();
	 * }
	 * 
* * warning: Currently this does not close the input or output streams, since doing so prevents their use later. */ public static class ProcessController { /* * XXX not verified thread-safe, but should be. Known problems: - user stops (completed = true) then exception thrown from * destroying process (stop() expects !completed) ... */ private String[] command; private String[] envp; private String label; private boolean init; private boolean started; private boolean completed; /** if true, stopped by user when not completed */ private boolean userStopped; private Process process; private FileUtil.Pipe errStream; private FileUtil.Pipe outStream; private FileUtil.Pipe inStream; private ByteArrayOutputStream errSnoop; private ByteArrayOutputStream outSnoop; private int result; private Thrown thrown; public ProcessController() { } /** * Permit re-running using the same command if this is not started or if completed. Can also call this when done with * results to release references associated with results (e.g., stack traces). */ public final void reinit() { if (!init) { throw new IllegalStateException("must init(..) before reinit()"); } if (started && !completed) { throw new IllegalStateException("not completed - do stop()"); } // init everything but command and label started = false; completed = false; result = Integer.MIN_VALUE; thrown = null; process = null; errStream = null; outStream = null; inStream = null; } public final void init(String classpath, String mainClass, String[] args) { init(LangUtil.getJavaExecutable(), classpath, mainClass, args); } public final void init(File java, String classpath, String mainClass, String[] args) { LangUtil.throwIaxIfNull(java, "java"); LangUtil.throwIaxIfNull(mainClass, "mainClass"); LangUtil.throwIaxIfNull(args, "args"); ArrayList cmd = new ArrayList<>(); cmd.add(java.getAbsolutePath()); cmd.add("-classpath"); cmd.add(classpath); cmd.add(mainClass); if (!LangUtil.isEmpty(args)) { cmd.addAll(Arrays.asList(args)); } init(cmd.toArray(new String[0]), mainClass); } public final void init(String[] command, String label) { this.command = (String[]) LangUtil.safeCopy(command, new String[0]); if (1 > this.command.length) { throw new IllegalArgumentException("empty command"); } this.label = LangUtil.isEmpty(label) ? command[0] : label; init = true; reinit(); } public final void setEnvp(String[] envp) { this.envp = (String[]) LangUtil.safeCopy(envp, new String[0]); if (1 > this.envp.length) { throw new IllegalArgumentException("empty envp"); } } public final void setErrSnoop(ByteArrayOutputStream snoop) { errSnoop = snoop; if (null != errStream) { errStream.setSnoop(errSnoop); } } public final void setOutSnoop(ByteArrayOutputStream snoop) { outSnoop = snoop; if (null != outStream) { outStream.setSnoop(outSnoop); } } /** * Start running the process and pipes asynchronously. * * @return Thread started or null if unable to start thread (results available via getThrown(), etc.) */ public final Thread start() { if (!init) { throw new IllegalStateException("not initialized"); } synchronized (this) { if (started) { throw new IllegalStateException("already started"); } started = true; } try { process = Runtime.getRuntime().exec(command); } catch (IOException e) { stop(e, Integer.MIN_VALUE); return null; } errStream = new FileUtil.Pipe(process.getErrorStream(), System.err); if (null != errSnoop) { errStream.setSnoop(errSnoop); } outStream = new FileUtil.Pipe(process.getInputStream(), System.out); if (null != outSnoop) { outStream.setSnoop(outSnoop); } inStream = new FileUtil.Pipe(System.in, process.getOutputStream()); // start 4 threads, process & pipes for in, err, out Runnable processRunner = new Runnable() { @Override public void run() { Throwable thrown = null; int result = Integer.MIN_VALUE; try { // pipe threads are children new Thread(errStream).start(); new Thread(outStream).start(); new Thread(inStream).start(); process.waitFor(); result = process.exitValue(); } catch (Throwable e) { thrown = e; } finally { stop(thrown, result); } } }; Thread result = new Thread(processRunner, label); result.start(); return result; } /** * Destroy any process, stop any pipes. This waits for the pipes to clear (reading until no more input is available), but * does not wait for the input stream for the pipe to close (i.e., not waiting for end-of-file on input stream). */ public final synchronized void stop() { if (completed) { return; } userStopped = true; stop(null, Integer.MIN_VALUE); } public final String[] getCommand() { String[] toCopy = command; if (LangUtil.isEmpty(toCopy)) { return new String[0]; } String[] result = new String[toCopy.length]; System.arraycopy(toCopy, 0, result, 0, result.length); return result; } public final boolean completed() { return completed; } public final boolean started() { return started; } public final boolean userStopped() { return userStopped; } /** * Get any Throwable thrown. Note that the process can complete normally (with a valid return value), at the same time the * pipes throw exceptions, and that this may return some exceptions even if the process is not complete. * * @return null if not complete or Thrown containing exceptions thrown by the process and streams. */ public final Thrown getThrown() { // cache this return makeThrown(null); } public final int getResult() { return result; } /** * Subclasses implement this to get synchronous notice of completion. All pipes and processes should be complete at this * time. To get the exceptions thrown for the pipes, use getThrown(). If there is an exception, the process * completed abruptly (including side-effects of the user halting the process). If userStopped() is true, then * some client asked that the process be destroyed using stop(). Otherwise, the result code should be the * result value returned by the process. * * @param thrown same as getThrown().fromProcess. * @param result same as getResult() * @see getThrown() * @see getResult() * @see stop() */ protected void doCompleting(Thrown thrown, int result) { } /** * Handle termination (on-demand, abrupt, or normal) by destroying and/or halting process and pipes. * * @param thrown ignored if null * @param result ignored if Integer.MIN_VALUE */ private final synchronized void stop(Throwable thrown, int result) { if (completed) { throw new IllegalStateException("already completed"); } else if (null != this.thrown) { throw new IllegalStateException("already set thrown: " + thrown); } // assert null == this.thrown this.thrown = makeThrown(thrown); if (null != process) { process.destroy(); } if (null != inStream) { inStream.halt(false, true); // this will block if waiting inStream = null; } if (null != outStream) { outStream.halt(true, true); outStream = null; } if (null != errStream) { errStream.halt(true, true); errStream = null; } if (Integer.MIN_VALUE != result) { this.result = result; } completed = true; doCompleting(this.thrown, result); } /** * Create snapshot of Throwable's thrown. * * @param thrown ignored if null or if this.thrown is not null */ private final synchronized Thrown makeThrown(Throwable processThrown) { if (null != thrown) { return thrown; } return new Thrown(processThrown, (null == outStream ? null : outStream.getThrown()), (null == errStream ? null : errStream.getThrown()), (null == inStream ? null : inStream.getThrown())); } public static class Thrown { public final Throwable fromProcess; public final Throwable fromErrPipe; public final Throwable fromOutPipe; public final Throwable fromInPipe; /** true only if some Throwable is not null */ public final boolean thrown; private Thrown(Throwable fromProcess, Throwable fromOutPipe, Throwable fromErrPipe, Throwable fromInPipe) { this.fromProcess = fromProcess; this.fromErrPipe = fromErrPipe; this.fromOutPipe = fromOutPipe; this.fromInPipe = fromInPipe; thrown = ((null != fromProcess) || (null != fromInPipe) || (null != fromOutPipe) || (null != fromErrPipe)); } @Override public String toString() { StringBuilder sb = new StringBuilder(); append(sb, fromProcess, "process"); append(sb, fromOutPipe, " stdout"); append(sb, fromErrPipe, " stderr"); append(sb, fromInPipe, " stdin"); if (0 == sb.length()) { return "Thrown (none)"; } else { return sb.toString(); } } private void append(StringBuilder sb, Throwable thrown, String label) { if (null != thrown) { sb.append("from " + label + ": "); sb.append(LangUtil.renderExceptionShort(thrown)); sb.append(LangUtil.EOL); } } } // class Thrown } public static String getJrtFsFilePath() { return getJavaHome() + File.separator + "lib" + File.separator + JRT_FS; } public static String getJavaHome() { return System.getProperty("java.home"); } }