langtools/src/jdk.jshell/share/classes/jdk/jshell/TaskFactory.java - platform/libcore - Git at Google

 /*
  * Copyright (c) 2014, 2016, Oracle and/or its affiliates. All rights reserved.
  * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
  *
  * This code is free software; you can redistribute it and/or modify it
  * under the terms of the GNU General Public License version 2 only, as
  * published by the Free Software Foundation.  Oracle designates this
  * particular file as subject to the "Classpath" exception as provided
  * by Oracle in the LICENSE file that accompanied this code.
  *
  * This code is distributed in the hope that it will be useful, but WITHOUT
  * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
  * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
  * version 2 for more details (a copy is included in the LICENSE file that
  * accompanied this code).
  *
  * You should have received a copy of the GNU General Public License version
  * 2 along with this work; if not, write to the Free Software Foundation,
  * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
  *
  * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
  * or visit www.oracle.com if you need additional information or have any
  * questions.
  */

 package jdk.jshell;

 import com.sun.source.tree.CompilationUnitTree;
 import com.sun.source.tree.Tree;
 import com.sun.source.util.Trees;
 import com.sun.tools.javac.api.JavacTaskImpl;
 import com.sun.tools.javac.api.JavacTool;
 import com.sun.tools.javac.util.Context;
 import java.util.ArrayList;
 import java.util.Arrays;
 import java.util.List;
 import javax.tools.Diagnostic;
 import javax.tools.DiagnosticCollector;
 import javax.tools.JavaCompiler;
 import javax.tools.JavaFileManager;
 import javax.tools.JavaFileObject;
 import javax.tools.ToolProvider;
 import static jdk.jshell.Util.*;
 import com.sun.source.tree.ImportTree;
 import com.sun.tools.javac.code.Types;
 import com.sun.tools.javac.util.JavacMessages;
 import jdk.jshell.MemoryFileManager.OutputMemoryJavaFileObject;
 import java.util.Collections;
 import java.util.Locale;
 import static javax.tools.StandardLocation.CLASS_OUTPUT;
 import static jdk.internal.jshell.debug.InternalDebugControl.DBG_GEN;
 import java.io.File;
 import java.util.Collection;
 import java.util.HashMap;
 import java.util.LinkedHashMap;
 import java.util.Map;
 import java.util.stream.Collectors;
 import static java.util.stream.Collectors.toList;
 import java.util.stream.Stream;
 import javax.lang.model.util.Elements;
 import javax.tools.FileObject;
 import jdk.jshell.MemoryFileManager.SourceMemoryJavaFileObject;
 import java.lang.Runtime.Version;

 /**
  * The primary interface to the compiler API.  Parsing, analysis, and
  * compilation to class files (in memory).
  * @author Robert Field
  */
 class TaskFactory {

     private final JavaCompiler compiler;
     private final MemoryFileManager fileManager;
     private final JShell state;
     private String classpath = System.getProperty("java.class.path");
     private final static Version INITIAL_SUPPORTED_VER = Version.parse("9");

     TaskFactory(JShell state) {
         this.state = state;
         this.compiler = ToolProvider.getSystemJavaCompiler();
         if (compiler == null) {
             throw new UnsupportedOperationException("Compiler not available, must be run with full JDK 9.");
         }
         Version current = Version.parse(System.getProperty("java.specification.version"));
         if (INITIAL_SUPPORTED_VER.compareToIgnoreOpt(current) > 0)  {
             throw new UnsupportedOperationException("Wrong compiler, must be run with full JDK 9.");
         }
         this.fileManager = new MemoryFileManager(
                 compiler.getStandardFileManager(null, null, null), state);
     }

     void addToClasspath(String path) {
         classpath = classpath + File.pathSeparator + path;
         List<String> args = new ArrayList<>();
         args.add(classpath);
         fileManager().handleOption("-classpath", args.iterator());
     }

     MemoryFileManager fileManager() {
         return fileManager;
     }

     private interface SourceHandler<T> {

         JavaFileObject sourceToFileObject(MemoryFileManager fm, T t);

         Diag diag(Diagnostic<? extends JavaFileObject> d);
     }

     private class StringSourceHandler implements SourceHandler<String> {

         @Override
         public JavaFileObject sourceToFileObject(MemoryFileManager fm, String src) {
             return fm.createSourceFileObject(src, "$NeverUsedName$", src);
         }

         @Override
         public Diag diag(final Diagnostic<? extends JavaFileObject> d) {
             return new Diag() {

                 @Override
                 public boolean isError() {
                     return d.getKind() == Diagnostic.Kind.ERROR;
                 }

                 @Override
                 public long getPosition() {
                     return d.getPosition();
                 }

                 @Override
                 public long getStartPosition() {
                     return d.getStartPosition();
                 }

                 @Override
                 public long getEndPosition() {
                     return d.getEndPosition();
                 }

                 @Override
                 public String getCode() {
                     return d.getCode();
                 }

                 @Override
                 public String getMessage(Locale locale) {
                     return expunge(d.getMessage(locale));
                 }
             };
         }
     }

     private class WrapSourceHandler implements SourceHandler<OuterWrap> {

         @Override
         public JavaFileObject sourceToFileObject(MemoryFileManager fm, OuterWrap w) {
             return fm.createSourceFileObject(w, w.classFullName(), w.wrapped());
         }

         @Override
         public Diag diag(Diagnostic<? extends JavaFileObject> d) {
             SourceMemoryJavaFileObject smjfo = (SourceMemoryJavaFileObject) d.getSource();
             OuterWrap w = (OuterWrap) smjfo.getOrigin();
             return w.wrapDiag(d);
         }
     }

     /**
      * Parse a snippet of code (as a String) using the parser subclass.  Return
      * the parse tree (and errors).
      */
     class ParseTask extends BaseTask {

         private final Iterable<? extends CompilationUnitTree> cuts;
         private final List<? extends Tree> units;

         ParseTask(final String source) {
             super(Stream.of(source),
                     new StringSourceHandler(),
                     "-XDallowStringFolding=false", "-proc:none");
             ReplParserFactory.instance(getContext());
             cuts = parse();
             units = Util.stream(cuts)
                     .flatMap(cut -> {
                         List<? extends ImportTree> imps = cut.getImports();
                         return (!imps.isEmpty() ? imps : cut.getTypeDecls()).stream();
                     })
                     .collect(toList());
         }

         private Iterable<? extends CompilationUnitTree> parse() {
             try {
                 return task.parse();
             } catch (Exception ex) {
                 throw new InternalError("Exception during parse - " + ex.getMessage(), ex);
             }
         }

         List<? extends Tree> units() {
             return units;
         }

         @Override
         Iterable<? extends CompilationUnitTree> cuTrees() {
             return cuts;
         }
     }

     /**
      * Run the normal "analyze()" pass of the compiler over the wrapped snippet.
      */
     class AnalyzeTask extends BaseTask {

         private final Iterable<? extends CompilationUnitTree> cuts;

         AnalyzeTask(final OuterWrap wrap, String... extraArgs) {
             this(Collections.singletonList(wrap), extraArgs);
         }

         AnalyzeTask(final Collection<OuterWrap> wraps, String... extraArgs) {
             this(wraps.stream(),
                     new WrapSourceHandler(),
                     Util.join(new String[] {
                         "-Xshouldstop:at=FLOW", "-Xlint:unchecked",
                         "-XaddExports:jdk.jshell/jdk.internal.jshell.remote=ALL-UNNAMED",
                         "-proc:none"
                     }, extraArgs));
         }

         private <T>AnalyzeTask(final Stream<T> stream, SourceHandler<T> sourceHandler,
                 String... extraOptions) {
             super(stream, sourceHandler, extraOptions);
             cuts = analyze();
         }

         private Iterable<? extends CompilationUnitTree> analyze() {
             try {
                 Iterable<? extends CompilationUnitTree> cuts = task.parse();
                 task.analyze();
                 return cuts;
             } catch (Exception ex) {
                 throw new InternalError("Exception during analyze - " + ex.getMessage(), ex);
             }
         }

         @Override
         Iterable<? extends CompilationUnitTree> cuTrees() {
             return cuts;
         }

         Elements getElements() {
             return task.getElements();
         }

         javax.lang.model.util.Types getTypes() {
             return task.getTypes();
         }
     }

     /**
      * Unit the wrapped snippet to class files.
      */
     class CompileTask extends BaseTask {

         private final Map<OuterWrap, List<OutputMemoryJavaFileObject>> classObjs = new HashMap<>();

         CompileTask(final Collection<OuterWrap> wraps) {
             super(wraps.stream(), new WrapSourceHandler(),
                     "-Xlint:unchecked", "-XaddExports:jdk.jshell/jdk.internal.jshell.remote=ALL-UNNAMED", "-proc:none", "-parameters");
         }

         boolean compile() {
             fileManager.registerClassFileCreationListener(this::listenForNewClassFile);
             boolean result = task.call();
             fileManager.registerClassFileCreationListener(null);
             return result;
         }

         // Returns the list of classes generated during this compile.
         // Stores the mapping between class name and current compiled bytes.
         List<String> classList(OuterWrap w) {
             List<OutputMemoryJavaFileObject> l = classObjs.get(w);
             if (l == null) {
                 return Collections.emptyList();
             }
             List<String> list = new ArrayList<>();
             for (OutputMemoryJavaFileObject fo : l) {
                 state.setClassnameToBytes(fo.getName(), fo.getBytes());
                 list.add(fo.getName());
             }
             return list;
         }

         private void listenForNewClassFile(OutputMemoryJavaFileObject jfo, JavaFileManager.Location location,
                 String className, JavaFileObject.Kind kind, FileObject sibling) {
             //debug("listenForNewClassFile %s loc=%s kind=%s\n", className, location, kind);
             if (location == CLASS_OUTPUT) {
                 state.debug(DBG_GEN, "Compiler generating class %s\n", className);
                 OuterWrap w = ((sibling instanceof SourceMemoryJavaFileObject)
                         && (((SourceMemoryJavaFileObject) sibling).getOrigin() instanceof OuterWrap))
                         ? (OuterWrap) ((SourceMemoryJavaFileObject) sibling).getOrigin()
                         : null;
                 classObjs.compute(w, (k, v) -> (v == null)? new ArrayList<>() : v)
                         .add(jfo);
             }
         }

         @Override
         Iterable<? extends CompilationUnitTree> cuTrees() {
             throw new UnsupportedOperationException("Not supported.");
         }
     }

     abstract class BaseTask {

         final DiagnosticCollector<JavaFileObject> diagnostics = new DiagnosticCollector<>();
         final JavacTaskImpl task;
         private DiagList diags = null;
         private final SourceHandler<?> sourceHandler;
         private final Context context = new Context();
         private Types types;
         private JavacMessages messages;
         private Trees trees;

         private <T>BaseTask(Stream<T> inputs,
                 //BiFunction<MemoryFileManager, T, JavaFileObject> sfoCreator,
                 SourceHandler<T> sh,
                 String... extraOptions) {
             this.sourceHandler = sh;
             List<String> options = new ArrayList<>(extraOptions.length + state.extraCompilerOptions.size());
             options.addAll(Arrays.asList(extraOptions));
             options.addAll(state.extraCompilerOptions);
             Iterable<? extends JavaFileObject> compilationUnits = inputs
                             .map(in -> sh.sourceToFileObject(fileManager, in))
                             .collect(Collectors.toList());
             this.task = (JavacTaskImpl) ((JavacTool) compiler).getTask(null,
                     fileManager, diagnostics, options, null,
                     compilationUnits, context);
         }

         abstract Iterable<? extends CompilationUnitTree> cuTrees();

         CompilationUnitTree firstCuTree() {
             return cuTrees().iterator().next();
         }

         Diag diag(Diagnostic<? extends JavaFileObject> diag) {
             return sourceHandler.diag(diag);
         }

         Context getContext() {
             return context;
         }

         Types types() {
             if (types == null) {
                 types = Types.instance(context);
             }
             return types;
         }

         JavacMessages messages() {
             if (messages == null) {
                 messages = JavacMessages.instance(context);
             }
             return messages;
         }

         Trees trees() {
             if (trees == null) {
                 trees = Trees.instance(task);
             }
             return trees;
         }

         // ------------------ diags functionality

         DiagList getDiagnostics() {
             if (diags == null) {
                 LinkedHashMap<String, Diag> diagMap = new LinkedHashMap<>();
                 for (Diagnostic<? extends JavaFileObject> in : diagnostics.getDiagnostics()) {
                     Diag d = diag(in);
                     String uniqueKey = d.getCode() + ":" + d.getPosition() + ":" + d.getMessage(PARSED_LOCALE);
                     diagMap.put(uniqueKey, d);
                 }
                 diags = new DiagList(diagMap.values());
             }
             return diags;
         }

         boolean hasErrors() {
             return getDiagnostics().hasErrors();
         }

         String shortErrorMessage() {
             StringBuilder sb = new StringBuilder();
             for (Diag diag : getDiagnostics()) {
                 for (String line : diag.getMessage(PARSED_LOCALE).split("\\r?\\n")) {
                     if (!line.trim().startsWith("location:")) {
                         sb.append(line);
                     }
                 }
             }
             return sb.toString();
         }

         void debugPrintDiagnostics(String src) {
             for (Diag diag : getDiagnostics()) {
                 state.debug(DBG_GEN, "ERROR --\n");
                 for (String line : diag.getMessage(PARSED_LOCALE).split("\\r?\\n")) {
                     if (!line.trim().startsWith("location:")) {
                         state.debug(DBG_GEN, "%s\n", line);
                     }
                 }
                 int start = (int) diag.getStartPosition();
                 int end = (int) diag.getEndPosition();
                 if (src != null) {
                     String[] srcLines = src.split("\\r?\\n");
                     for (String line : srcLines) {
                         state.debug(DBG_GEN, "%s\n", line);
                     }

                     StringBuilder sb = new StringBuilder();
                     for (int i = 0; i < start; ++i) {
                         sb.append(' ');
                     }
                     sb.append('^');
                     if (end > start) {
                         for (int i = start + 1; i < end; ++i) {
                             sb.append('-');
                         }
                         sb.append('^');
                     }
                     state.debug(DBG_GEN, "%s\n", sb.toString());
                 }
                 state.debug(DBG_GEN, "printDiagnostics start-pos = %d ==> %d -- wrap = %s\n",
                         diag.getStartPosition(), start, this);
                 state.debug(DBG_GEN, "Code: %s\n", diag.getCode());
                 state.debug(DBG_GEN, "Pos: %d (%d - %d) -- %s\n", diag.getPosition(),
                         diag.getStartPosition(), diag.getEndPosition(), diag.getMessage(null));
             }
         }
     }

 }
	/*
	* Copyright (c) 2014, 2016, Oracle and/or its affiliates. All rights reserved.
	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
	*
	* This code is free software; you can redistribute it and/or modify it
	* under the terms of the GNU General Public License version 2 only, as
	* published by the Free Software Foundation. Oracle designates this
	* particular file as subject to the "Classpath" exception as provided
	* by Oracle in the LICENSE file that accompanied this code.
	*
	* This code is distributed in the hope that it will be useful, but WITHOUT
	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
	* version 2 for more details (a copy is included in the LICENSE file that
	* accompanied this code).
	*
	* You should have received a copy of the GNU General Public License version
	* 2 along with this work; if not, write to the Free Software Foundation,
	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
	*
	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
	* or visit www.oracle.com if you need additional information or have any
	* questions.
	*/

	package jdk.jshell;

	import com.sun.source.tree.CompilationUnitTree;
	import com.sun.source.tree.Tree;
	import com.sun.source.util.Trees;
	import com.sun.tools.javac.api.JavacTaskImpl;
	import com.sun.tools.javac.api.JavacTool;
	import com.sun.tools.javac.util.Context;
	import java.util.ArrayList;
	import java.util.Arrays;
	import java.util.List;
	import javax.tools.Diagnostic;
	import javax.tools.DiagnosticCollector;
	import javax.tools.JavaCompiler;
	import javax.tools.JavaFileManager;
	import javax.tools.JavaFileObject;
	import javax.tools.ToolProvider;
	import static jdk.jshell.Util.*;
	import com.sun.source.tree.ImportTree;
	import com.sun.tools.javac.code.Types;
	import com.sun.tools.javac.util.JavacMessages;
	import jdk.jshell.MemoryFileManager.OutputMemoryJavaFileObject;
	import java.util.Collections;
	import java.util.Locale;
	import static javax.tools.StandardLocation.CLASS_OUTPUT;
	import static jdk.internal.jshell.debug.InternalDebugControl.DBG_GEN;
	import java.io.File;
	import java.util.Collection;
	import java.util.HashMap;
	import java.util.LinkedHashMap;
	import java.util.Map;
	import java.util.stream.Collectors;
	import static java.util.stream.Collectors.toList;
	import java.util.stream.Stream;
	import javax.lang.model.util.Elements;
	import javax.tools.FileObject;
	import jdk.jshell.MemoryFileManager.SourceMemoryJavaFileObject;
	import java.lang.Runtime.Version;

	/**
	* The primary interface to the compiler API. Parsing, analysis, and
	* compilation to class files (in memory).
	* @author Robert Field
	*/
	class TaskFactory {

	private final JavaCompiler compiler;
	private final MemoryFileManager fileManager;
	private final JShell state;
	private String classpath = System.getProperty("java.class.path");
	private final static Version INITIAL_SUPPORTED_VER = Version.parse("9");

	TaskFactory(JShell state) {
	this.state = state;
	this.compiler = ToolProvider.getSystemJavaCompiler();
	if (compiler == null) {
	throw new UnsupportedOperationException("Compiler not available, must be run with full JDK 9.");
	}
	Version current = Version.parse(System.getProperty("java.specification.version"));
	if (INITIAL_SUPPORTED_VER.compareToIgnoreOpt(current) > 0) {
	throw new UnsupportedOperationException("Wrong compiler, must be run with full JDK 9.");
	}
	this.fileManager = new MemoryFileManager(
	compiler.getStandardFileManager(null, null, null), state);
	}

	void addToClasspath(String path) {
	classpath = classpath + File.pathSeparator + path;
	List<String> args = new ArrayList<>();
	args.add(classpath);
	fileManager().handleOption("-classpath", args.iterator());
	}

	MemoryFileManager fileManager() {
	return fileManager;
	}

	private interface SourceHandler<T> {

	JavaFileObject sourceToFileObject(MemoryFileManager fm, T t);

	Diag diag(Diagnostic<? extends JavaFileObject> d);
	}

	private class StringSourceHandler implements SourceHandler<String> {

	@Override
	public JavaFileObject sourceToFileObject(MemoryFileManager fm, String src) {
	return fm.createSourceFileObject(src, "$NeverUsedName$", src);
	}

	@Override
	public Diag diag(final Diagnostic<? extends JavaFileObject> d) {
	return new Diag() {

	@Override
	public boolean isError() {
	return d.getKind() == Diagnostic.Kind.ERROR;
	}

	@Override
	public long getPosition() {
	return d.getPosition();
	}

	@Override
	public long getStartPosition() {
	return d.getStartPosition();
	}

	@Override
	public long getEndPosition() {
	return d.getEndPosition();
	}

	@Override
	public String getCode() {
	return d.getCode();
	}

	@Override
	public String getMessage(Locale locale) {
	return expunge(d.getMessage(locale));
	}
	};
	}
	}

	private class WrapSourceHandler implements SourceHandler<OuterWrap> {

	@Override
	public JavaFileObject sourceToFileObject(MemoryFileManager fm, OuterWrap w) {
	return fm.createSourceFileObject(w, w.classFullName(), w.wrapped());
	}

	@Override
	public Diag diag(Diagnostic<? extends JavaFileObject> d) {
	SourceMemoryJavaFileObject smjfo = (SourceMemoryJavaFileObject) d.getSource();
	OuterWrap w = (OuterWrap) smjfo.getOrigin();
	return w.wrapDiag(d);
	}
	}

	/**
	* Parse a snippet of code (as a String) using the parser subclass. Return
	* the parse tree (and errors).
	*/
	class ParseTask extends BaseTask {

	private final Iterable<? extends CompilationUnitTree> cuts;
	private final List<? extends Tree> units;

	ParseTask(final String source) {
	super(Stream.of(source),
	new StringSourceHandler(),
	"-XDallowStringFolding=false", "-proc:none");
	ReplParserFactory.instance(getContext());
	cuts = parse();
	units = Util.stream(cuts)
	.flatMap(cut -> {
	List<? extends ImportTree> imps = cut.getImports();
	return (!imps.isEmpty() ? imps : cut.getTypeDecls()).stream();
	})
	.collect(toList());
	}

	private Iterable<? extends CompilationUnitTree> parse() {
	try {
	return task.parse();
	} catch (Exception ex) {
	throw new InternalError("Exception during parse - " + ex.getMessage(), ex);
	}
	}

	List<? extends Tree> units() {
	return units;
	}

	@Override
	Iterable<? extends CompilationUnitTree> cuTrees() {
	return cuts;
	}
	}

	/**
	* Run the normal "analyze()" pass of the compiler over the wrapped snippet.
	*/
	class AnalyzeTask extends BaseTask {

	private final Iterable<? extends CompilationUnitTree> cuts;

	AnalyzeTask(final OuterWrap wrap, String... extraArgs) {
	this(Collections.singletonList(wrap), extraArgs);
	}

	AnalyzeTask(final Collection<OuterWrap> wraps, String... extraArgs) {
	this(wraps.stream(),
	new WrapSourceHandler(),
	Util.join(new String[] {
	"-Xshouldstop:at=FLOW", "-Xlint:unchecked",
	"-XaddExports:jdk.jshell/jdk.internal.jshell.remote=ALL-UNNAMED",
	"-proc:none"
	}, extraArgs));
	}

	private <T>AnalyzeTask(final Stream<T> stream, SourceHandler<T> sourceHandler,
	String... extraOptions) {
	super(stream, sourceHandler, extraOptions);
	cuts = analyze();
	}

	private Iterable<? extends CompilationUnitTree> analyze() {
	try {
	Iterable<? extends CompilationUnitTree> cuts = task.parse();
	task.analyze();
	return cuts;
	} catch (Exception ex) {
	throw new InternalError("Exception during analyze - " + ex.getMessage(), ex);
	}
	}

	@Override
	Iterable<? extends CompilationUnitTree> cuTrees() {
	return cuts;
	}

	Elements getElements() {
	return task.getElements();
	}

	javax.lang.model.util.Types getTypes() {
	return task.getTypes();
	}
	}

	/**
	* Unit the wrapped snippet to class files.
	*/
	class CompileTask extends BaseTask {

	private final Map<OuterWrap, List<OutputMemoryJavaFileObject>> classObjs = new HashMap<>();

	CompileTask(final Collection<OuterWrap> wraps) {
	super(wraps.stream(), new WrapSourceHandler(),
	"-Xlint:unchecked", "-XaddExports:jdk.jshell/jdk.internal.jshell.remote=ALL-UNNAMED", "-proc:none", "-parameters");
	}

	boolean compile() {
	fileManager.registerClassFileCreationListener(this::listenForNewClassFile);
	boolean result = task.call();
	fileManager.registerClassFileCreationListener(null);
	return result;
	}

	// Returns the list of classes generated during this compile.
	// Stores the mapping between class name and current compiled bytes.
	List<String> classList(OuterWrap w) {
	List<OutputMemoryJavaFileObject> l = classObjs.get(w);
	if (l == null) {
	return Collections.emptyList();
	}
	List<String> list = new ArrayList<>();
	for (OutputMemoryJavaFileObject fo : l) {
	state.setClassnameToBytes(fo.getName(), fo.getBytes());
	list.add(fo.getName());
	}
	return list;
	}

	private void listenForNewClassFile(OutputMemoryJavaFileObject jfo, JavaFileManager.Location location,
	String className, JavaFileObject.Kind kind, FileObject sibling) {
	//debug("listenForNewClassFile %s loc=%s kind=%s\n", className, location, kind);
	if (location == CLASS_OUTPUT) {
	state.debug(DBG_GEN, "Compiler generating class %s\n", className);
	OuterWrap w = ((sibling instanceof SourceMemoryJavaFileObject)
	&& (((SourceMemoryJavaFileObject) sibling).getOrigin() instanceof OuterWrap))
	? (OuterWrap) ((SourceMemoryJavaFileObject) sibling).getOrigin()
	: null;
	classObjs.compute(w, (k, v) -> (v == null)? new ArrayList<>() : v)
	.add(jfo);
	}
	}

	@Override
	Iterable<? extends CompilationUnitTree> cuTrees() {
	throw new UnsupportedOperationException("Not supported.");
	}
	}

	abstract class BaseTask {

	final DiagnosticCollector<JavaFileObject> diagnostics = new DiagnosticCollector<>();
	final JavacTaskImpl task;
	private DiagList diags = null;
	private final SourceHandler<?> sourceHandler;
	private final Context context = new Context();
	private Types types;
	private JavacMessages messages;
	private Trees trees;

	private <T>BaseTask(Stream<T> inputs,
	//BiFunction<MemoryFileManager, T, JavaFileObject> sfoCreator,
	SourceHandler<T> sh,
	String... extraOptions) {
	this.sourceHandler = sh;
	List<String> options = new ArrayList<>(extraOptions.length + state.extraCompilerOptions.size());
	options.addAll(Arrays.asList(extraOptions));
	options.addAll(state.extraCompilerOptions);
	Iterable<? extends JavaFileObject> compilationUnits = inputs
	.map(in -> sh.sourceToFileObject(fileManager, in))
	.collect(Collectors.toList());
	this.task = (JavacTaskImpl) ((JavacTool) compiler).getTask(null,
	fileManager, diagnostics, options, null,
	compilationUnits, context);
	}

	abstract Iterable<? extends CompilationUnitTree> cuTrees();

	CompilationUnitTree firstCuTree() {
	return cuTrees().iterator().next();
	}

	Diag diag(Diagnostic<? extends JavaFileObject> diag) {
	return sourceHandler.diag(diag);
	}

	Context getContext() {
	return context;
	}

	Types types() {
	if (types == null) {
	types = Types.instance(context);
	}
	return types;
	}

	JavacMessages messages() {
	if (messages == null) {
	messages = JavacMessages.instance(context);
	}
	return messages;
	}

	Trees trees() {
	if (trees == null) {
	trees = Trees.instance(task);
	}
	return trees;
	}

	// ------------------ diags functionality

	DiagList getDiagnostics() {
	if (diags == null) {
	LinkedHashMap<String, Diag> diagMap = new LinkedHashMap<>();
	for (Diagnostic<? extends JavaFileObject> in : diagnostics.getDiagnostics()) {
	Diag d = diag(in);
	String uniqueKey = d.getCode() + ":" + d.getPosition() + ":" + d.getMessage(PARSED_LOCALE);
	diagMap.put(uniqueKey, d);
	}
	diags = new DiagList(diagMap.values());
	}
	return diags;
	}

	boolean hasErrors() {
	return getDiagnostics().hasErrors();
	}

	String shortErrorMessage() {
	StringBuilder sb = new StringBuilder();
	for (Diag diag : getDiagnostics()) {
	for (String line : diag.getMessage(PARSED_LOCALE).split("\\r?\\n")) {
	if (!line.trim().startsWith("location:")) {
	sb.append(line);
	}
	}
	}
	return sb.toString();
	}

	void debugPrintDiagnostics(String src) {
	for (Diag diag : getDiagnostics()) {
	state.debug(DBG_GEN, "ERROR --\n");
	for (String line : diag.getMessage(PARSED_LOCALE).split("\\r?\\n")) {
	if (!line.trim().startsWith("location:")) {
	state.debug(DBG_GEN, "%s\n", line);
	}
	}
	int start = (int) diag.getStartPosition();
	int end = (int) diag.getEndPosition();
	if (src != null) {
	String[] srcLines = src.split("\\r?\\n");
	for (String line : srcLines) {
	state.debug(DBG_GEN, "%s\n", line);
	}

	StringBuilder sb = new StringBuilder();
	for (int i = 0; i < start; ++i) {
	sb.append(' ');
	}
	sb.append('^');
	if (end > start) {
	for (int i = start + 1; i < end; ++i) {
	sb.append('-');
	}
	sb.append('^');
	}
	state.debug(DBG_GEN, "%s\n", sb.toString());
	}
	state.debug(DBG_GEN, "printDiagnostics start-pos = %d ==> %d -- wrap = %s\n",
	diag.getStartPosition(), start, this);
	state.debug(DBG_GEN, "Code: %s\n", diag.getCode());
	state.debug(DBG_GEN, "Pos: %d (%d - %d) -- %s\n", diag.getPosition(),
	diag.getStartPosition(), diag.getEndPosition(), diag.getMessage(null));
	}
	}
	}

	}