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 * Copyright (c) 1999, 2013, Oracle and/or its affiliates. All rights reserved.
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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 * 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).
 *
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 * 2 along with this work; if not, write to the Free Software Foundation,
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package org.openjdk.tools.javac.util;

import java.util.ArrayList;
import java.util.Collection;
import java.util.Properties;

/** 

This is NOT part of any supported API. * If you write code that depends on this, you do so at your own risk. * This code and its internal interfaces are subject to change or * deletion without notice. */ public class GraphUtils { /** * Basic interface for defining various dependency kinds. */ public interface DependencyKind { } /** * Common superinterfaces to all graph nodes. */ public interface Node> { /** * visitor method. */ void accept(NodeVisitor visitor, A arg); } /** * Visitor for graph nodes. */ static abstract class NodeVisitor, A> { /** * Visitor action for nodes. */ public abstract void visitNode(N node, A arg); /** * Visitor action for a dependency between 'from' and 'to' with given kind. */ public abstract void visitDependency(DependencyKind dk, N from, N to, A arg); /** * Visitor entry point. */ public void visit(Collection nodes, A arg) { for (N n : new ArrayList<>(nodes)) { n.accept(this, arg); } } } /** * Optional interface for nodes supporting dot-based representation. */ public interface DottableNode> extends Node { /** * Retrieves the set of dot attributes associated with the node. */ Properties nodeAttributes(); /** * Retrieves the set of dot attributes associated with a given dependency. */ Properties dependencyAttributes(N to, DependencyKind dk); } /** * This class is a basic abstract class for representing a node. * A node is associated with a given data. */ public static abstract class AbstractNode> implements Node { public final D data; public AbstractNode(D data) { this.data = data; } /** * Get an array of the dependency kinds supported by this node. */ public abstract DependencyKind[] getSupportedDependencyKinds(); /** * Get all dependencies of a given kind */ public abstract Collection getDependenciesByKind(DependencyKind dk); @Override public String toString() { return data.toString(); } @SuppressWarnings("unchecked") public void accept(NodeVisitor visitor, A arg) { visitor.visitNode((N)this, arg); for (DependencyKind dk : getSupportedDependencyKinds()) { for (N dep : new ArrayList<>(getDependenciesByKind(dk))) { visitor.visitDependency(dk, (N)this, dep, arg); } } } } /** * This class specialized Node, by adding elements that are required in order * to perform Tarjan computation of strongly connected components. */ public static abstract class TarjanNode> extends AbstractNode implements Comparable { int index = -1; int lowlink; boolean active; public TarjanNode(D data) { super(data); } public abstract Iterable getAllDependencies(); public int compareTo(N o) { return (index < o.index) ? -1 : (index == o.index) ? 0 : 1; } } /** * Tarjan's algorithm to determine strongly connected components of a * directed graph in linear time. Works on TarjanNode. */ public static > List> tarjan(Iterable nodes) { Tarjan tarjan = new Tarjan<>(); return tarjan.findSCC(nodes); } //where private static class Tarjan> { /** Unique node identifier. */ int index = 0; /** List of SCCs found fso far. */ ListBuffer> sccs = new ListBuffer<>(); /** Stack of all reacheable nodes from given root. */ ListBuffer stack = new ListBuffer<>(); private List> findSCC(Iterable nodes) { for (N node : nodes) { if (node.index == -1) { findSCC(node); } } return sccs.toList(); } private void findSCC(N v) { visitNode(v); for (N n: v.getAllDependencies()) { if (n.index == -1) { //it's the first time we see this node findSCC(n); v.lowlink = Math.min(v.lowlink, n.lowlink); } else if (stack.contains(n)) { //this node is already reachable from current root v.lowlink = Math.min(v.lowlink, n.index); } } if (v.lowlink == v.index) { //v is the root of a SCC addSCC(v); } } private void visitNode(N n) { n.index = index; n.lowlink = index; index++; stack.prepend(n); n.active = true; } private void addSCC(N v) { N n; ListBuffer cycle = new ListBuffer<>(); do { n = stack.remove(); n.active = false; cycle.add(n); } while (n != v); sccs.add(cycle.toList()); } } /** * Debugging: dot representation of a set of connected nodes. The resulting * dot representation will use {@code Node.toString} to display node labels * and {@code Node.printDependency} to display edge labels. The resulting * representation is also customizable with a graph name and a header. */ public static > String toDot(Collection nodes, String name, String header) { StringBuilder buf = new StringBuilder(); buf.append(String.format("digraph %s {\n", name)); buf.append(String.format("label = %s;\n", DotVisitor.wrap(header))); DotVisitor dotVisitor = new DotVisitor<>(); dotVisitor.visit(nodes, buf); buf.append("}\n"); return buf.toString(); } /** * This visitor is used to dump the contents of a set of nodes of type {@link DottableNode} * onto a string builder. */ public static class DotVisitor> extends NodeVisitor { @Override public void visitDependency(DependencyKind dk, N from, N to, StringBuilder buf) { buf.append(String.format("%s -> %s", from.hashCode(), to.hashCode())); buf.append(formatProperties(from.dependencyAttributes(to, dk))); buf.append('\n'); } @Override public void visitNode(N node, StringBuilder buf) { buf.append(String.format("%s ", node.hashCode())); buf.append(formatProperties(node.nodeAttributes())); buf.append('\n'); } protected String formatProperties(Properties p) { return p.toString().replaceAll(",", " ") .replaceAll("\\{", "[") .replaceAll("\\}", "]"); } protected static String wrap(String s) { String res = "\"" + s + "\""; return res.replaceAll("\n", ""); } } }





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