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/*
 * Copyright 2003-2013 the original author or authors.
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

package org.codehaus.groovy.control;

import org.codehaus.groovy.control.customizers.CompilationCustomizer;
import org.codehaus.groovy.control.io.NullWriter;
import org.codehaus.groovy.control.messages.WarningMessage;

import java.io.File;
import java.io.PrintWriter;
import java.util.*;

/**
 * Compilation control flags and coordination stuff.
 *
 * @author Chris Poirier
 * @author Jochen Theodorou
 * @author Jim White
 * @author Cedric Champeau
 */

public class CompilerConfiguration {

    private static final String JDK5_CLASSNAME_CHECK = "java.lang.annotation.Annotation";

    /** This ("1.4") is the value for targetBytecode to compile for a JDK 1.4. **/
    public static final String JDK4 = "1.4";
    /** This ("1.5") is the value for targetBytecode to compile for a JDK 1.5. **/
    public static final String JDK5 = "1.5";
    /** This ("1.6") is the value for targetBytecode to compile for a JDK 1.6. **/
    public static final String JDK6 = "1.6";
    /** This ("1.7") is the value for targetBytecode to compile for a JDK 1.7. **/
    public static final String JDK7 = "1.7";
    /** This ("1.8") is the value for targetBytecode to compile for a JDK 1.8. **/
    public static final String JDK8 = "1.8";

    /** This ("1.5") is the value for targetBytecode to compile for a JDK 1.5 or later JVM. **/
    public static final String POST_JDK5 = JDK5; // for backwards compatibility

    /** This ("1.4") is the value for targetBytecode to compile for a JDK 1.4 JVM. **/
    public static final String PRE_JDK5 = JDK4;

    private static final String[] ALLOWED_JDKS = { JDK4, JDK5, JDK6, JDK7 };

    // Just call getVMVersion() once.
    public static final String currentJVMVersion = getVMVersion();

    // Static initializers are executed in text order,
    // therefore we must do this one last!
    /**
     *  A convenience for getting a default configuration.  Do not modify it!
     *  See {@link #CompilerConfiguration(Properties)} for an example on how to
     *  make a suitable copy to modify.  But if you're really starting from a
     *  default context, then you probably just want new CompilerConfiguration(). 
     */
    public static final CompilerConfiguration DEFAULT = new CompilerConfiguration();
    
    /**
     * See {@link WarningMessage} for levels.
     */
    private int warningLevel;

    /**
     * Encoding for source files
     */

    private String sourceEncoding;
    /**
     * A PrintWriter for communicating with the user
     */

    private PrintWriter output;

    /**
     * Directory into which to write classes
     */
    private File targetDirectory;

    /**
     * Classpath for use during compilation
     */
    private LinkedList classpath;

    /**
     * If true, the compiler should produce action information
     */
    private boolean verbose;

    /**
     * If true, debugging code should be activated
     */
    private boolean debug;

    /**
     * The number of non-fatal errors to allow before bailing
     */
    private int tolerance;

    /**
     * Base class name for scripts (must derive from Script)
     */
    private String scriptBaseClass;

    private ParserPluginFactory pluginFactory;

    /**
     * extension used to find a groovy file
     */
    private String defaultScriptExtension;
    
    /**
     * extensions used to find a groovy files
     */
    private Set scriptExtensions = new LinkedHashSet();
    
    /**
     * if set to true recompilation is enabled
     */
    private boolean recompileGroovySource;
    
    /**
     * sets the minimum of time after a script can be recompiled.
     */
    private int minimumRecompilationInterval;

    /**
     * sets the bytecode version target
     */
    private String targetBytecode;

    /**
     * options for joint compilation (null by default == no joint compilation)
     */
    private Map jointCompilationOptions;
    
    /**
     * options for optimizations (empty map by default)
     */
    private Map optimizationOptions;

    private List compilationCustomizers = new LinkedList();

    /**
     * Sets a list of global AST transformations which should not be loaded even if they are
     * defined in META-INF/org.codehaus.groovy.transform.ASTTransformation files. By default,
     * none is disabled.
     */
    private Set disabledGlobalASTTransformations;

    /**
     * Sets the Flags to defaults.
     */
    public CompilerConfiguration() {
        //
        // Set in safe defaults

        setWarningLevel(WarningMessage.LIKELY_ERRORS);
        setOutput(null);
        setTargetDirectory((File) null);
        setClasspath("");
        setVerbose(false);
        setDebug(false);
        setTolerance(10);
        setScriptBaseClass(null);
        setRecompileGroovySource(false);
        setMinimumRecompilationInterval(100);
        // Target bytecode
        String targetByteCode = null;
        try {
            targetByteCode = System.getProperty("groovy.target.bytecode", targetByteCode);
        } catch (Exception e) {
            // IGNORE
        }
        if(targetByteCode != null) {
            setTargetBytecode(targetByteCode);
        } else {
            setTargetBytecode(getVMVersion());
        }
        String tmpDefaultScriptExtension = null;
        try {
            tmpDefaultScriptExtension = System.getProperty("groovy.default.scriptExtension");
        } catch (Exception e) {
            // IGNORE
        }
        if(tmpDefaultScriptExtension != null) {
            setDefaultScriptExtension(tmpDefaultScriptExtension);
        } else {
            setDefaultScriptExtension(".groovy");
        }

        //
        // Source file encoding
        String encoding = null;
        try {
            encoding = System.getProperty("file.encoding", "US-ASCII");
        } catch (Exception e) {
            // IGNORE
        }
        try {
            encoding = System.getProperty("groovy.source.encoding", encoding);
        } catch (Exception e) {
            // IGNORE
        }
        setSourceEncoding(encoding);

        try {
            setOutput(new PrintWriter(System.err));
        } catch (Exception e) {
            // IGNORE
        }

        try {
            String target = System.getProperty("groovy.target.directory");
            if (target != null) {
                setTargetDirectory(target);
            }
        } catch (Exception e) {
            // IGNORE
        }

        boolean indy = false;
        try {
            indy = Boolean.getBoolean("groovy.target.indy");
        } catch (Exception e) {
            // IGNORE
        }
        if (DEFAULT!=null && Boolean.TRUE.equals(DEFAULT.getOptimizationOptions().get("indy"))) {
            indy = true;
        }
        Map options = new HashMap(3);
        if (indy) {
            options.put("indy", Boolean.TRUE);
        }
        setOptimizationOptions(options);
    }

    /**
     * Copy constructor.  Use this if you have a mostly correct configuration
     * for your compilation but you want to make a some changes programatically.
     * An important reason to prefer this approach is that your code will most
     * likely be forward compatible with future changes to this configuration API.
     * 

* An example of this copy constructor at work: *

     *    // In all likelihood there is already a configuration in your code's context
     *    // for you to copy, but for the sake of this example we'll use the global default.
     *    CompilerConfiguration myConfiguration = new CompilerConfiguration(CompilerConfiguration.DEFAULT);
     *    myConfiguration.setDebug(true);
     *
* * @param configuration The configuration to copy. */ public CompilerConfiguration(CompilerConfiguration configuration) { setWarningLevel(configuration.getWarningLevel()); setOutput(configuration.getOutput()); setTargetDirectory(configuration.getTargetDirectory()); setClasspathList(new LinkedList(configuration.getClasspath())); setVerbose(configuration.getVerbose()); setDebug(configuration.getDebug()); setTolerance(configuration.getTolerance()); setScriptBaseClass(configuration.getScriptBaseClass()); setRecompileGroovySource(configuration.getRecompileGroovySource()); setMinimumRecompilationInterval(configuration.getMinimumRecompilationInterval()); setTargetBytecode(configuration.getTargetBytecode()); setDefaultScriptExtension(configuration.getDefaultScriptExtension()); setSourceEncoding(configuration.getSourceEncoding()); setOutput(configuration.getOutput()); setTargetDirectory(configuration.getTargetDirectory()); Map jointCompilationOptions = configuration.getJointCompilationOptions(); if (jointCompilationOptions != null) { jointCompilationOptions = new HashMap(jointCompilationOptions); } setJointCompilationOptions(jointCompilationOptions); setPluginFactory(configuration.getPluginFactory()); setScriptExtensions(configuration.getScriptExtensions()); setOptimizationOptions(new HashMap(configuration.getOptimizationOptions())); } /** * Sets the Flags to the specified configuration, with defaults * for those not supplied. * Note that those "defaults" here do not include checking the * settings in {@link System#getProperties()} in general, only file.encoding, * groovy.target.directory and groovy.source.encoding are. *

* If you want to set a few flags but keep Groovy's default * configuration behavior then be sure to make your settings in * a Properties that is backed by System.getProperties() (which * is done using this constructor). That might be done like this: *

     * Properties myProperties = new Properties(System.getProperties());
     * myProperties.setProperty("groovy.output.debug", "true");
     * myConfiguration = new CompilerConfiguration(myProperties);
     * 
* And you also have to contend with a possible SecurityException when * getting the system properties (See {@link java.lang.System#getProperties()}). * A safer approach would be to copy a default * CompilerConfiguration and make your changes there using the setter: *
     * // In all likelihood there is already a configuration for you to copy,
     * // but for the sake of this example we'll use the global default.
     * CompilerConfiguration myConfiguration = new CompilerConfiguration(CompilerConfiguration.DEFAULT);
     * myConfiguration.setDebug(true);
     * 
* Another reason to use the copy constructor rather than this one is that you * must call {@link #setOutput}. Calling setOutput(null) is valid and will * set up a PrintWriter to a bit bucket. The copy constructor will of course set * the same one as the original. *

*

* * * * * * * * * * * * * * * * * *
Property KeyGet/Set Property Name
"groovy.warnings"{@link #getWarningLevel}
"groovy.source.encoding"{@link #getSourceEncoding}
"groovy.target.directory"{@link #getTargetDirectory}
"groovy.target.bytecode"{@link #getTargetBytecode}
"groovy.classpath"{@link #getClasspath}
"groovy.output.verbose"{@link #getVerbose}
"groovy.output.debug"{@link #getDebug}
"groovy.errors.tolerance"{@link #getTolerance}
"groovy.script.extension"{@link #getDefaultScriptExtension}
"groovy.script.base"{@link #getScriptBaseClass}
"groovy.recompile"{@link #getRecompileGroovySource}
"groovy.recompile.minimumInterval"{@link #getMinimumRecompilationInterval}
*
* * @param configuration The properties to get flag values from. */ public CompilerConfiguration(Properties configuration) throws ConfigurationException { this(); configure(configuration); } /** * Checks if the specified bytecode version string represents a JDK 1.5+ compatible * bytecode version. * @param bytecodeVersion the bytecode version string (1.4, 1.5, 1.6, 1.7 or 1.8) * @return true if the bytecode version is JDK 1.5+ */ public static boolean isPostJDK5(String bytecodeVersion) { return JDK5.equals(bytecodeVersion) || JDK6.equals(bytecodeVersion) || JDK7.equals(bytecodeVersion) || JDK8.equals(bytecodeVersion); } /** * Checks if the specified bytecode version string represents a JDK 1.7+ compatible * bytecode version. * @param bytecodeVersion the bytecode version string (1.4, 1.5, 1.6, 1.7 or 1.8) * @return true if the bytecode version is JDK 1.7+ */ public static boolean isPostJDK7(String bytecodeVersion) { return JDK7.equals(bytecodeVersion) || JDK8.equals(bytecodeVersion); } /** * Method to configure a this CompilerConfiguration by using Properties. * For a list of available properties look at {link {@link #CompilerConfiguration(Properties)}. * @param configuration The properties to get flag values from. */ public void configure(Properties configuration) throws ConfigurationException { String text = null; int numeric = 0; // // Warning level numeric = getWarningLevel(); try { text = configuration.getProperty("groovy.warnings", "likely errors"); numeric = Integer.parseInt(text); } catch (NumberFormatException e) { text = text.toLowerCase(); if (text.equals("none")) { numeric = WarningMessage.NONE; } else if (text.startsWith("likely")) { numeric = WarningMessage.LIKELY_ERRORS; } else if (text.startsWith("possible")) { numeric = WarningMessage.POSSIBLE_ERRORS; } else if (text.startsWith("paranoia")) { numeric = WarningMessage.PARANOIA; } else { throw new ConfigurationException("unrecognized groovy.warnings: " + text); } } setWarningLevel(numeric); // // Source file encoding // text = configuration.getProperty("groovy.source.encoding"); if (text == null) { text = configuration.getProperty("file.encoding", "US-ASCII"); } setSourceEncoding(text); // // Target directory for classes // text = configuration.getProperty("groovy.target.directory"); if (text != null) setTargetDirectory(text); text = configuration.getProperty("groovy.target.bytecode"); if (text != null) setTargetBytecode(text); // // Classpath // text = configuration.getProperty("groovy.classpath"); if (text != null) setClasspath(text); // // Verbosity // text = configuration.getProperty("groovy.output.verbose"); if (text != null && text.equalsIgnoreCase("true")) setVerbose(true); // // Debugging // text = configuration.getProperty("groovy.output.debug"); if (text != null && text.equalsIgnoreCase("true")) setDebug(true); // // Tolerance // numeric = 10; try { text = configuration.getProperty("groovy.errors.tolerance", "10"); numeric = Integer.parseInt(text); } catch (NumberFormatException e) { throw new ConfigurationException(e); } setTolerance(numeric); // // Script Base Class // text = configuration.getProperty("groovy.script.base"); if (text!=null) setScriptBaseClass(text); // // recompilation options // text = configuration.getProperty("groovy.recompile"); if (text != null) { setRecompileGroovySource(text.equalsIgnoreCase("true")); } numeric = 100; try { text = configuration.getProperty("groovy.recompile.minimumIntervall"); if (text==null) text = configuration.getProperty("groovy.recompile.minimumInterval"); if (text!=null) { numeric = Integer.parseInt(text); } else { numeric = 100; } } catch (NumberFormatException e) { throw new ConfigurationException(e); } setMinimumRecompilationInterval(numeric); // disabled global AST transformations text = configuration.getProperty("groovy.disabled.global.ast.transformations"); if (text!=null) { String[] classNames = text.split(",\\s*}"); Set blacklist = new HashSet(Arrays.asList(classNames)); setDisabledGlobalASTTransformations(blacklist); } } /** * Gets the currently configured warning level. See WarningMessage * for level details. */ public int getWarningLevel() { return this.warningLevel; } /** * Sets the warning level. See WarningMessage for level details. */ public void setWarningLevel(int level) { if (level < WarningMessage.NONE || level > WarningMessage.PARANOIA) { this.warningLevel = WarningMessage.LIKELY_ERRORS; } else { this.warningLevel = level; } } /** * Gets the currently configured source file encoding. */ public String getSourceEncoding() { return this.sourceEncoding; } /** * Sets the encoding to be used when reading source files. */ public void setSourceEncoding(String encoding) { if (encoding == null) encoding = "US-ASCII"; this.sourceEncoding = encoding; } /** * Gets the currently configured output writer. */ public PrintWriter getOutput() { return this.output; } /** * Sets the output writer. */ public void setOutput(PrintWriter output) { if (output == null) { this.output = new PrintWriter(NullWriter.DEFAULT); } else { this.output = output; } } /** * Gets the target directory for writing classes. */ public File getTargetDirectory() { return this.targetDirectory; } /** * Sets the target directory. */ public void setTargetDirectory(String directory) { if (directory != null && directory.length() > 0) { this.targetDirectory = new File(directory); } else { this.targetDirectory = null; } } /** * Sets the target directory. */ public void setTargetDirectory(File directory) { this.targetDirectory = directory; } /** * @return the classpath */ public List getClasspath() { return this.classpath; } /** * Sets the classpath. */ public void setClasspath(String classpath) { this.classpath = new LinkedList(); StringTokenizer tokenizer = new StringTokenizer(classpath, File.pathSeparator); while (tokenizer.hasMoreTokens()) { this.classpath.add(tokenizer.nextToken()); } } /** * sets the classpath using a list of Strings * @param parts list of strings containing the classpath parts */ public void setClasspathList(List parts) { this.classpath = new LinkedList(parts); } /** * Returns true if verbose operation has been requested. */ public boolean getVerbose() { return this.verbose; } /** * Turns verbose operation on or off. */ public void setVerbose(boolean verbose) { this.verbose = verbose; } /** * Returns true if debugging operation has been requested. */ public boolean getDebug() { return this.debug; } /** * Turns debugging operation on or off. */ public void setDebug(boolean debug) { this.debug = debug; } /** * Returns the requested error tolerance. */ public int getTolerance() { return this.tolerance; } /** * Sets the error tolerance, which is the number of * non-fatal errors (per unit) that should be tolerated before * compilation is aborted. */ public void setTolerance(int tolerance) { this.tolerance = tolerance; } /** * Gets the name of the base class for scripts. It must be a subclass * of Script. */ public String getScriptBaseClass() { return this.scriptBaseClass; } /** * Sets the name of the base class for scripts. It must be a subclass * of Script. */ public void setScriptBaseClass(String scriptBaseClass) { this.scriptBaseClass = scriptBaseClass; } public ParserPluginFactory getPluginFactory() { if (pluginFactory == null) { pluginFactory = ParserPluginFactory.newInstance(true); } return pluginFactory; } public void setPluginFactory(ParserPluginFactory pluginFactory) { this.pluginFactory = pluginFactory; } public void setScriptExtensions(Set scriptExtensions) { if(scriptExtensions == null) scriptExtensions = new LinkedHashSet(); this.scriptExtensions = scriptExtensions; } public Set getScriptExtensions() { if(scriptExtensions == null || scriptExtensions.isEmpty()) { /* * this happens * * when groovyc calls FileSystemCompiler in forked mode, or * * when FileSystemCompiler is run from the command line directly, or * * when groovy was not started using groovyc or FileSystemCompiler either */ scriptExtensions = SourceExtensionHandler.getRegisteredExtensions( this.getClass().getClassLoader()); } return scriptExtensions; } public String getDefaultScriptExtension() { return defaultScriptExtension; } public void setDefaultScriptExtension(String defaultScriptExtension) { this.defaultScriptExtension = defaultScriptExtension; } public void setRecompileGroovySource(boolean recompile) { recompileGroovySource = recompile; } public boolean getRecompileGroovySource(){ return recompileGroovySource; } public void setMinimumRecompilationInterval(int time) { minimumRecompilationInterval = Math.max(0,time); } public int getMinimumRecompilationInterval() { return minimumRecompilationInterval; } /** * Allow setting the bytecode compatibility. The parameter can take * one of the values 1.7, 1.6, 1.5 or 1.4. * If wrong parameter then the value will default to VM determined version. * * @param version the bytecode compatibility mode */ public void setTargetBytecode(String version) { for (String allowedJdk : ALLOWED_JDKS) { if (allowedJdk.equals(version)) { this.targetBytecode = version; } } } /** * Retrieves the compiler bytecode compatibility mode. * * @return bytecode compatibility mode. Can be either 1.5 or 1.4. */ public String getTargetBytecode() { return this.targetBytecode; } private static String getVMVersion() { try { Class.forName(JDK5_CLASSNAME_CHECK); return POST_JDK5; } catch(Exception ex) { // IGNORE } return PRE_JDK5; } /** * Gets the joint compilation options for this configuration. * @return the options */ public Map getJointCompilationOptions() { return jointCompilationOptions; } /** * Sets the joint compilation options for this configuration. * Using null will disable joint compilation. * @param options the options */ public void setJointCompilationOptions(Map options) { jointCompilationOptions = options; } /** * Gets the optimization options for this configuration. * @return the options (always not null) */ public Map getOptimizationOptions() { return optimizationOptions; } /** * Sets the optimization options for this configuration. * No entry or a true for that entry means to enable that optimization, * a false means the optimization is disabled. * Valid keys are "all" and "int". * @param options the options. * @throws IllegalArgumentException if the options are null */ public void setOptimizationOptions(Map options) { if (options==null) throw new IllegalArgumentException("provided option map must not be null"); optimizationOptions = options; } /** * Adds compilation customizers to the compilation process. A compilation customizer is a class node * operation which performs various operations going from adding imports to access control. * @param customizers the list of customizers to be added * @return this configuration instance */ public CompilerConfiguration addCompilationCustomizers(CompilationCustomizer... customizers) { if (customizers==null) throw new IllegalArgumentException("provided customizers list must not be null"); compilationCustomizers.addAll(Arrays.asList(customizers)); return this; } /** * Returns the list of compilation customizers. * @return the customizers (always not null) */ public List getCompilationCustomizers() { return compilationCustomizers; } /** * Returns the list of disabled global AST transformation class names. * @return a list of global AST transformation fully qualified class names */ public Set getDisabledGlobalASTTransformations() { return disabledGlobalASTTransformations; } /** * Disables global AST transformations. In order to avoid classloading side effects, it is not recommended * to use MyASTTransformation.class.getName() by directly use the class name as a string. Disabled AST transformations * only apply to automatically loaded global AST transformations, that is to say transformations defined in a * META-INF/org.codehaus.groovy.transform.ASTTransformation file. If you explicitly add a global AST transformation * in your compilation process, for example using the {@link org.codehaus.groovy.control.customizers.ASTTransformationCustomizer} or * using a {@link org.codehaus.groovy.control.CompilationUnit.PrimaryClassNodeOperation}, then nothing will prevent * the transformation from being loaded. * @param disabledGlobalASTTransformations a set of fully qualified class names of global AST transformations * which should not be loaded. */ public void setDisabledGlobalASTTransformations(final Set disabledGlobalASTTransformations) { this.disabledGlobalASTTransformations = disabledGlobalASTTransformations; } }