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package lombok.eclipse;
import static lombok.Lombok.sneakyThrow;
import java.lang.reflect.Field;
import java.lang.reflect.Modifier;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.HashMap;
import java.util.IdentityHashMap;
import java.util.List;
import java.util.Map;
import org.eclipse.jdt.core.compiler.CategorizedProblem;
import org.eclipse.jdt.internal.compiler.CompilationResult;
import org.eclipse.jdt.internal.compiler.apt.dispatch.AptProblem;
import org.eclipse.jdt.internal.compiler.ast.ASTNode;
import org.eclipse.jdt.internal.compiler.ast.AbstractMethodDeclaration;
import org.eclipse.jdt.internal.compiler.ast.Argument;
import org.eclipse.jdt.internal.compiler.ast.Clinit;
import org.eclipse.jdt.internal.compiler.ast.CompilationUnitDeclaration;
import org.eclipse.jdt.internal.compiler.ast.FieldDeclaration;
import org.eclipse.jdt.internal.compiler.ast.Initializer;
import org.eclipse.jdt.internal.compiler.ast.LocalDeclaration;
import org.eclipse.jdt.internal.compiler.ast.Statement;
import org.eclipse.jdt.internal.compiler.ast.TypeDeclaration;
import org.eclipse.jdt.internal.compiler.impl.ReferenceContext;
import org.eclipse.jdt.internal.compiler.problem.ProblemSeverities;
import org.eclipse.jdt.internal.compiler.util.Util;
public class EclipseAST {
public void traverse(EclipseASTVisitor visitor) {
Node current = top();
visitor.visitCompilationUnit(current, (CompilationUnitDeclaration)current.node);
traverseChildren(visitor, current);
visitor.endVisitCompilationUnit(current, (CompilationUnitDeclaration)current.node);
}
private void traverseChildren(EclipseASTVisitor visitor, Node node) {
for ( Node child : node.children ) {
ASTNode n = child.node;
if ( n instanceof TypeDeclaration ) {
visitor.visitType(child, (TypeDeclaration)n);
traverseChildren(visitor, child);
visitor.endVisitType(child, (TypeDeclaration)n);
} else if ( n instanceof Initializer ) {
visitor.visitInitializer(child, (Initializer)n);
traverseChildren(visitor, child);
visitor.endVisitInitializer(child, (Initializer)n);
} else if ( n instanceof FieldDeclaration ) {
visitor.visitField(child, (FieldDeclaration)n);
traverseChildren(visitor, child);
visitor.endVisitField(child, (FieldDeclaration)n);
} else if ( n instanceof AbstractMethodDeclaration ) {
if ( n instanceof Clinit ) continue;
visitor.visitMethod(child, (AbstractMethodDeclaration)n);
traverseChildren(visitor, child);
visitor.endVisitMethod(child, (AbstractMethodDeclaration)n);
} else if ( n instanceof LocalDeclaration ) {
visitor.visitLocal(child, (LocalDeclaration)n);
traverseChildren(visitor, child);
visitor.endVisitLocal(child, (LocalDeclaration)n);
} else throw new AssertionError("Can't be reached");
}
}
public boolean isCompleteParse() {
return completeParse;
}
public String getFileName() {
return fileName;
}
public Node top() {
return top;
}
public Node get(ASTNode node) {
return nodeMap.get(node);
}
private static class ParseProblem {
final boolean isWarning;
final String message;
final Node node;
final int sourceStart;
final int sourceEnd;
public ParseProblem(boolean isWarning, String message, Node node, int sourceStart, int sourceEnd) {
this.isWarning = isWarning;
this.message = message;
this.node = node;
this.sourceStart = sourceStart;
this.sourceEnd = sourceEnd;
}
}
public void propagateProblems() {
if ( queuedProblems.isEmpty() ) return;
CompilationUnitDeclaration cud = (CompilationUnitDeclaration) top().getEclipseNode();
if ( cud.compilationResult == null ) return;
for ( ParseProblem problem : queuedProblems ) addProblemToCompilationResult(problem);
queuedProblems.clear();
}
private final List<ParseProblem> queuedProblems = new ArrayList<ParseProblem>();
private void addProblem(ParseProblem problem) {
queuedProblems.add(problem);
propagateProblems();
}
private void addProblemToCompilationResult(ParseProblem problem) {
Node referenceContextNode = problem.node;
while ( !(referenceContextNode.getEclipseNode() instanceof ReferenceContext) ) {
referenceContextNode = referenceContextNode.up();
}
ReferenceContext referenceContext = (ReferenceContext)referenceContextNode.getEclipseNode();
char[] fileName = getFileName().toCharArray();
String message = problem.message;
int lineNumber = 0;
int columnNumber = 1;
int startPosition = problem.sourceStart;
int endPosition = problem.sourceEnd;
if (referenceContext != null) {
CompilationResult result = referenceContext.compilationResult();
int[] lineEnds = null;
lineNumber = startPosition >= 0
? Util.getLineNumber(startPosition, lineEnds = result.getLineSeparatorPositions(), 0, lineEnds.length-1)
: 0;
columnNumber = startPosition >= 0
? Util.searchColumnNumber(result.getLineSeparatorPositions(), lineNumber,startPosition)
: 0;
}
CategorizedProblem ecProblem = new AptProblem(referenceContext,
fileName, message, 0, new String[0],
problem.isWarning ? ProblemSeverities.Warning : ProblemSeverities.Error,
startPosition, endPosition, lineNumber, columnNumber);
((CompilationUnitDeclaration)top().getEclipseNode()).compilationResult.record(ecProblem, referenceContext);
}
public final class Node {
final ASTNode node;
Node parent;
final Collection<Node> children;
boolean handled;
Node(ASTNode node, Collection<Node> children) {
this.node = node;
this.children = children == null ? Collections.<Node>emptyList() : children;
}
public void addError(String message) {
this.addError(message, this.getEclipseNode().sourceStart, this.getEclipseNode().sourceEnd);
}
public void addError(String message, int sourceStart, int sourceEnd) {
addProblem(new ParseProblem(false, message, this, sourceStart, sourceEnd));
}
public void addWarning(String message) {
this.addWarning(message, this.getEclipseNode().sourceStart, this.getEclipseNode().sourceEnd);
}
public void addWarning(String message, int sourceStart, int sourceEnd) {
addProblem(new ParseProblem(true, message, this, sourceStart, sourceEnd));
}
public ASTNode getEclipseNode() {
return node;
}
public Node up() {
return parent;
}
public Collection<Node> down() {
return children;
}
public boolean isHandled() {
return handled;
}
public Node setHandled() {
this.handled = true;
return this;
}
public Node top() {
return top;
}
public String getFileName() {
return fileName;
}
public boolean isCompleteParse() {
return completeParse;
}
}
private final Map<ASTNode, Void> identityDetector = new IdentityHashMap<ASTNode, Void>();
private Map<ASTNode, Node> nodeMap = new HashMap<ASTNode, Node>();
private final CompilationUnitDeclaration compilationUnitDeclaration;
private final String fileName;
private Node top;
private boolean completeParse;
public EclipseAST(CompilationUnitDeclaration ast) {
this.compilationUnitDeclaration = ast;
this.fileName = ast.compilationResult.fileName == null ? "(unknown).java" : new String(ast.compilationResult.fileName);
this.top = buildTree(ast);
this.completeParse = isComplete(ast);
}
public void reparse() {
propagateProblems();
if ( completeParse ) return;
boolean newCompleteParse = isComplete(compilationUnitDeclaration);
if ( !newCompleteParse ) return;
Map<ASTNode, Node> oldMap = nodeMap;
nodeMap = new HashMap<ASTNode, Node>();
this.top = buildTree(compilationUnitDeclaration);
//Retain 'handled' flags.
for ( Map.Entry<ASTNode, Node> e : nodeMap.entrySet() ) {
Node oldEntry = oldMap.get(e.getKey());
if ( oldEntry != null && oldEntry.handled ) e.getValue().handled = true;
}
this.completeParse = true;
}
private static boolean isComplete(CompilationUnitDeclaration unit) {
return (unit.bits & ASTNode.HasAllMethodBodies) > 0;
}
private Node putInMap(Node parent) {
for ( Node child : parent.children ) child.parent = parent;
nodeMap.put(parent.node, parent);
identityDetector.put(parent.node, null);
return parent;
}
private Node buildTree(CompilationUnitDeclaration top) {
identityDetector.clear();
Collection<Node> children = buildTree(top.types);
return putInMap(new Node(top, children));
}
private void addIfNotNull(Collection<Node> collection, Node n) {
if ( n != null ) collection.add(n);
}
private Collection<Node> buildTree(TypeDeclaration[] children) {
if ( children == null ) return Collections.emptyList();
List<Node> childNodes = new ArrayList<Node>();
for ( TypeDeclaration type : children ) addIfNotNull(childNodes, buildTree(type));
return childNodes;
}
private Node buildTree(TypeDeclaration type) {
if ( identityDetector.containsKey(type) ) return null;
List<Node> childNodes = new ArrayList<Node>();
childNodes.addAll(buildTree(type.fields));
childNodes.addAll(buildTree(type.memberTypes));
childNodes.addAll(buildTree(type.methods));
return putInMap(new Node(type, childNodes));
}
private Collection<Node> buildTree(FieldDeclaration[] children) {
if ( children == null ) return Collections.emptyList();
List<Node> childNodes = new ArrayList<Node>();
for ( FieldDeclaration child : children ) addIfNotNull(childNodes, buildTree(child));
return childNodes;
}
private Node buildTree(FieldDeclaration field) {
if ( field instanceof Initializer ) return buildTree((Initializer)field);
if ( identityDetector.containsKey(field) ) return null;
return putInMap(new Node(field, buildWithStatement(field.initialization)));
}
private Node buildTree(Initializer initializer) {
if ( identityDetector.containsKey(initializer) ) return null;
return putInMap(new Node(initializer, buildWithStatement(initializer.block)));
}
private Collection<Node> buildTree(AbstractMethodDeclaration[] children) {
if ( children == null ) return Collections.emptyList();
List<Node> childNodes = new ArrayList<Node>();
for (AbstractMethodDeclaration method : children ) addIfNotNull(childNodes, buildTree(method));
return childNodes;
}
private Node buildTree(AbstractMethodDeclaration method) {
if ( identityDetector.containsKey(method) ) return null;
List<Node> childNodes = new ArrayList<Node>();
childNodes.addAll(buildTree(method.arguments));
childNodes.addAll(buildTree(method.statements));
return putInMap(new Node(method, childNodes));
}
//Arguments are a kind of LocalDeclaration. They can definitely contain lombok annotations, so we care about them.
private Collection<Node> buildTree(Argument[] children) {
if ( children == null ) return Collections.emptyList();
List<Node> childNodes = new ArrayList<Node>();
for ( LocalDeclaration local : children ) {
if ( !identityDetector.containsKey(local) ) {
addIfNotNull(childNodes, buildTree(local));
childNodes.addAll(buildWithStatement(local.initialization));
}
}
return childNodes;
}
private Node buildTree(LocalDeclaration local) {
if ( identityDetector.containsKey(local) ) return null;
return putInMap(new Node(local, null));
}
private Collection<Node> buildTree(Statement[] children) {
if ( children == null ) return Collections.emptyList();
List<Node> childNodes = new ArrayList<Node>();
for ( Statement child : children ) childNodes.addAll(buildWithStatement(child));
return childNodes;
}
//Almost anything is a statement, so this method has a different name to avoid overloading confusion
private Collection<Node> buildWithStatement(Statement child) {
if ( child == null || identityDetector.containsKey(child) ) return Collections.emptyList();
if ( child instanceof TypeDeclaration ) {
Node n = buildTree((TypeDeclaration)child);
return n == null ? Collections.<Node>emptyList() : Collections.singleton(n);
}
if ( child instanceof LocalDeclaration ) {
List<Node> childNodes = new ArrayList<Node>();
addIfNotNull(childNodes, buildTree((LocalDeclaration)child));
identityDetector.put(child, null);
childNodes.addAll(buildWithStatement(((LocalDeclaration)child).initialization));
return childNodes;
}
//We drill down because LocalDeclarations and TypeDeclarations can occur anywhere, even in, say,
//an if block, or even the expression on an assert statement!
identityDetector.put(child, null);
return drill(child);
}
private Collection<Node> drill(Statement child) {
List<Node> childNodes = new ArrayList<Node>();
for ( FieldAccess fa : fieldsOf(child.getClass()) ) childNodes.addAll(buildWithField(child, fa));
return childNodes;
}
private static class FieldAccess {
final Field field;
final int dim;
FieldAccess(Field field, int dim) {
this.field = field;
this.dim = dim;
}
}
private static Map<Class<?>, Collection<FieldAccess>> fieldsOfASTClasses = new HashMap<Class<?>, Collection<FieldAccess>>();
private Collection<FieldAccess> fieldsOf(Class<?> c) {
Collection<FieldAccess> fields = fieldsOfASTClasses.get(c);
if ( fields != null ) return fields;
fields = new ArrayList<FieldAccess>();
getFields(c, fields);
fieldsOfASTClasses.put(c, fields);
return fields;
}
private void getFields(Class<?> c, Collection<FieldAccess> fields) {
if ( c == ASTNode.class || c == null ) return;
for ( Field f : c.getDeclaredFields() ) {
Class<?> t = f.getType();
int dim = 0;
while ( t.isArray() ) {
dim++;
t = t.getComponentType();
}
if ( Statement.class.isAssignableFrom(t) ) {
f.setAccessible(true);
fields.add(new FieldAccess(f, dim));
}
}
getFields(c.getSuperclass(), fields);
}
private Collection<Node> buildWithField(Statement child, FieldAccess fa) {
if ( Modifier.isStatic(fa.field.getModifiers()) ) return Collections.emptyList();
List<Node> list = new ArrayList<Node>();
buildWithField(child, fa, list);
return list;
}
private void buildWithField(Statement child, FieldAccess fa, Collection<Node> list) {
try {
Object o = fa.field.get(child);
if ( fa.dim == 0 ) list.addAll(buildWithStatement((Statement)o));
else buildWithArray(o, list, fa.dim);
} catch ( IllegalAccessException e ) {
sneakyThrow(e);
}
}
private void buildWithArray(Object array, Collection<Node> list, int dim) {
if ( array == null ) return;
if ( dim == 1 ) for ( Object v : (Object[])array ) {
list.addAll(buildWithStatement((Statement)v));
} else for ( Object v : (Object[])array ) {
buildWithArray(v, list, dim-1);
}
}
}
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