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package lombok.eclipse;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.List;
import java.util.Map;
import lombok.core.AST;
import org.eclipse.jdt.core.compiler.CategorizedProblem;
import org.eclipse.jdt.internal.compiler.CompilationResult;
import org.eclipse.jdt.internal.compiler.ast.ASTNode;
import org.eclipse.jdt.internal.compiler.ast.AbstractMethodDeclaration;
import org.eclipse.jdt.internal.compiler.ast.Annotation;
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.ImportReference;
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.problem.DefaultProblem;
import org.eclipse.jdt.internal.compiler.problem.ProblemSeverities;
import org.eclipse.jdt.internal.compiler.util.Util;
public class EclipseAST extends AST<ASTNode> {
@Override public String getPackageDeclaration() {
CompilationUnitDeclaration cud = (CompilationUnitDeclaration) top().get();
ImportReference pkg = cud.currentPackage;
return pkg == null ? null : Eclipse.toQualifiedName(pkg.getImportName());
}
@Override public Collection<String> getImportStatements() {
List<String> imports = new ArrayList<String>();
CompilationUnitDeclaration cud = (CompilationUnitDeclaration) top().get();
if ( cud.imports == null ) return imports;
for ( ImportReference imp : cud.imports ) {
if ( imp == null ) continue;
imports.add(Eclipse.toQualifiedName(imp.getImportName()));
}
return imports;
}
public void traverse(EclipseASTVisitor visitor) {
top().traverse(visitor);
}
private void traverseChildren(EclipseASTVisitor visitor, Node node) {
for ( Node child : node.down() ) {
child.traverse(visitor);
}
}
public boolean isCompleteParse() {
return completeParse;
}
@Override public Node top() {
return (Node) super.top();
}
public Node get(ASTNode node) {
return (Node) super.get(node);
}
private class ParseProblem {
final boolean isWarning;
final String message;
final int sourceStart;
final int sourceEnd;
public ParseProblem(boolean isWarning, String message, int sourceStart, int sourceEnd) {
this.isWarning = isWarning;
this.message = message;
this.sourceStart = sourceStart;
this.sourceEnd = sourceEnd;
}
void addToCompilationResult() {
addProblemToCompilationResult((CompilationUnitDeclaration) top().get(),
isWarning, message, sourceStart, sourceEnd);
}
}
private void propagateProblems() {
if ( queuedProblems.isEmpty() ) return;
CompilationUnitDeclaration cud = (CompilationUnitDeclaration) top().get();
if ( cud.compilationResult == null ) return;
for ( ParseProblem problem : queuedProblems ) problem.addToCompilationResult();
queuedProblems.clear();
}
private final List<ParseProblem> queuedProblems = new ArrayList<ParseProblem>();
private void addProblem(ParseProblem problem) {
queuedProblems.add(problem);
propagateProblems();
}
static void addProblemToCompilationResult(CompilationUnitDeclaration ast,
boolean isWarning, String message, int sourceStart, int sourceEnd) {
if ( ast.compilationResult == null ) return;
char[] fileNameArray = ast.getFileName();
if ( fileNameArray == null ) fileNameArray = "(unknown).java".toCharArray();
int lineNumber = 0;
int columnNumber = 1;
CompilationResult result = ast.compilationResult;
int[] lineEnds = null;
lineNumber = sourceStart >= 0
? Util.getLineNumber(sourceStart, lineEnds = result.getLineSeparatorPositions(), 0, lineEnds.length-1)
: 0;
columnNumber = sourceStart >= 0
? Util.searchColumnNumber(result.getLineSeparatorPositions(), lineNumber,sourceStart)
: 0;
CategorizedProblem ecProblem = new LombokProblem(
fileNameArray, message, 0, new String[0],
isWarning ? ProblemSeverities.Warning : ProblemSeverities.Error,
sourceStart, sourceEnd, lineNumber, columnNumber);
ast.compilationResult.record(ecProblem, null);
}
private static class LombokProblem extends DefaultProblem {
private static final String MARKER_ID = "org.eclipse.jdt.apt.pluggable.core.compileProblem"; //$NON-NLS-1$
public LombokProblem(char[] originatingFileName, String message, int id,
String[] stringArguments, int severity,
int startPosition, int endPosition, int line, int column) {
super(originatingFileName, message, id, stringArguments, severity, startPosition, endPosition, line, column);
}
@Override public int getCategoryID() {
return CAT_UNSPECIFIED;
}
@Override public String getMarkerType() {
return MARKER_ID;
}
}
public final class Node extends AST<ASTNode>.Node {
Node(ASTNode node, List<Node> children, Kind kind) {
super(node, children, kind);
}
public void traverse(EclipseASTVisitor visitor) {
switch ( getKind() ) {
case COMPILATION_UNIT:
visitor.visitCompilationUnit(this, (CompilationUnitDeclaration)get());
traverseChildren(visitor, this);
visitor.endVisitCompilationUnit(this, (CompilationUnitDeclaration)get());
break;
case TYPE:
visitor.visitType(this, (TypeDeclaration)get());
traverseChildren(visitor, this);
visitor.endVisitType(this, (TypeDeclaration)get());
break;
case FIELD:
visitor.visitField(this, (FieldDeclaration)get());
traverseChildren(visitor, this);
visitor.endVisitField(this, (FieldDeclaration)get());
break;
case INITIALIZER:
visitor.visitInitializer(this, (Initializer)get());
traverseChildren(visitor, this);
visitor.endVisitInitializer(this, (Initializer)get());
break;
case METHOD:
if ( get() instanceof Clinit ) return;
visitor.visitMethod(this, (AbstractMethodDeclaration)get());
traverseChildren(visitor, this);
visitor.endVisitMethod(this, (AbstractMethodDeclaration)get());
break;
case ARGUMENT:
AbstractMethodDeclaration method = (AbstractMethodDeclaration)up().get();
visitor.visitMethodArgument(this, (Argument)get(), method);
traverseChildren(visitor, this);
visitor.endVisitMethodArgument(this, (Argument)get(), method);
break;
case LOCAL:
visitor.visitLocal(this, (LocalDeclaration)get());
traverseChildren(visitor, this);
visitor.endVisitLocal(this, (LocalDeclaration)get());
break;
case ANNOTATION:
switch ( up().getKind() ) {
case TYPE:
visitor.visitAnnotationOnType((TypeDeclaration)up().get(), this, (Annotation)get());
break;
case FIELD:
visitor.visitAnnotationOnField((FieldDeclaration)up().get(), this, (Annotation)get());
break;
case METHOD:
visitor.visitAnnotationOnMethod((AbstractMethodDeclaration)up().get(), this, (Annotation)get());
break;
case ARGUMENT:
visitor.visitAnnotationOnMethodArgument(
(Argument)parent.get(),
(AbstractMethodDeclaration)parent.directUp().get(),
this, (Annotation)get());
break;
case LOCAL:
visitor.visitAnnotationOnLocal((LocalDeclaration)parent.get(), this, (Annotation)get());
break;
default:
throw new AssertionError("Annotion not expected as child of a " + up().getKind());
}
break;
case STATEMENT:
visitor.visitStatement(this, (Statement)get());
traverseChildren(visitor, this);
visitor.endVisitStatement(this, (Statement)get());
break;
default:
throw new AssertionError("Unexpected kind during node traversal: " + getKind());
}
}
@Override public String getName() {
final char[] n;
if ( node instanceof TypeDeclaration ) n = ((TypeDeclaration)node).name;
else if ( node instanceof FieldDeclaration ) n = ((FieldDeclaration)node).name;
else if ( node instanceof AbstractMethodDeclaration ) n = ((AbstractMethodDeclaration)node).selector;
else if ( node instanceof LocalDeclaration ) n = ((LocalDeclaration)node).name;
else n = null;
return n == null ? null : new String(n);
}
@Override public void addError(String message) {
this.addError(message, this.get().sourceStart, this.get().sourceEnd);
}
public void addError(String message, int sourceStart, int sourceEnd) {
addProblem(new ParseProblem(false, message, sourceStart, sourceEnd));
}
@Override public void addWarning(String message) {
this.addWarning(message, this.get().sourceStart, this.get().sourceEnd);
}
public void addWarning(String message, int sourceStart, int sourceEnd) {
addProblem(new ParseProblem(true, message, sourceStart, sourceEnd));
}
/** {@inheritDoc} */
@Override public Node up() {
return (Node) super.up();
}
@Override protected boolean calculateIsStructurallySignificant() {
if ( node instanceof TypeDeclaration ) return true;
if ( node instanceof AbstractMethodDeclaration ) return true;
if ( node instanceof FieldDeclaration ) return true;
if ( node instanceof LocalDeclaration ) return true;
if ( node instanceof CompilationUnitDeclaration ) return true;
return false;
}
/** {@inheritDoc} */
@Override public Node getNodeFor(ASTNode obj) {
return (Node) super.getNodeFor(obj);
}
/** {@inheritDoc} */
public Node directUp() {
return (Node) super.directUp();
}
/** {@inheritDoc} */
@SuppressWarnings("unchecked")
@Override public Collection<Node> down() {
return (Collection<Node>) super.down();
}
/** {@inheritDoc} */
@Override public Node top() {
return (Node) super.top();
}
public boolean isCompleteParse() {
return completeParse;
}
}
private final CompilationUnitDeclaration compilationUnitDeclaration;
private boolean completeParse;
public EclipseAST(CompilationUnitDeclaration ast) {
super(toFileName(ast));
this.compilationUnitDeclaration = ast;
setTop(buildCompilationUnit(ast));
this.completeParse = isComplete(ast);
}
private static String toFileName(CompilationUnitDeclaration ast) {
return ast.compilationResult.fileName == null ? null : new String(ast.compilationResult.fileName);
}
public void reparse() {
propagateProblems();
if ( completeParse ) return;
boolean newCompleteParse = isComplete(compilationUnitDeclaration);
if ( !newCompleteParse ) return;
Map<ASTNode, AST<ASTNode>.Node> oldMap = getNodeMap();
clearState();
setTop(buildCompilationUnit(compilationUnitDeclaration));
//Retain 'handled' flags.
for ( Map.Entry<ASTNode, AST<ASTNode>.Node> e : getNodeMap().entrySet() ) {
Node oldEntry = (Node) oldMap.get(e.getKey());
if ( oldEntry != null && oldEntry.isHandled() ) e.getValue().setHandled();
}
this.completeParse = true;
}
private static boolean isComplete(CompilationUnitDeclaration unit) {
return (unit.bits & ASTNode.HasAllMethodBodies) != 0;
}
@Override protected Node buildTree(ASTNode node, Kind kind) {
switch ( kind ) {
case COMPILATION_UNIT:
return buildCompilationUnit((CompilationUnitDeclaration) node);
case TYPE:
return buildType((TypeDeclaration) node);
case FIELD:
return buildField((FieldDeclaration) node);
case INITIALIZER:
return buildInitializer((Initializer) node);
case METHOD:
return buildMethod((AbstractMethodDeclaration) node);
case ARGUMENT:
return buildLocal((Argument) node, kind);
case LOCAL:
return buildLocal((LocalDeclaration) node, kind);
case STATEMENT:
return buildStatement((Statement) node);
case ANNOTATION:
return buildAnnotation((Annotation) node);
default:
throw new AssertionError("Did not expect to arrive here: " + kind);
}
}
private Node buildCompilationUnit(CompilationUnitDeclaration top) {
List<Node> children = buildTypes(top.types);
return putInMap(new Node(top, children, Kind.COMPILATION_UNIT));
}
private void addIfNotNull(Collection<Node> collection, Node n) {
if ( n != null ) collection.add(n);
}
private List<Node> buildTypes(TypeDeclaration[] children) {
if ( children == null ) return Collections.emptyList();
List<Node> childNodes = new ArrayList<Node>();
for ( TypeDeclaration type : children ) addIfNotNull(childNodes, buildType(type));
return childNodes;
}
private Node buildType(TypeDeclaration type) {
if ( alreadyHandled(type) ) return null;
List<Node> childNodes = new ArrayList<Node>();
childNodes.addAll(buildFields(type.fields));
childNodes.addAll(buildTypes(type.memberTypes));
childNodes.addAll(buildMethods(type.methods));
childNodes.addAll(buildAnnotations(type.annotations));
return putInMap(new Node(type, childNodes, Kind.TYPE));
}
private Collection<Node> buildFields(FieldDeclaration[] children) {
if ( children == null ) return Collections.emptyList();
List<Node> childNodes = new ArrayList<Node>();
for ( FieldDeclaration child : children ) addIfNotNull(childNodes, buildField(child));
return childNodes;
}
private static <T> List<T> singleton(T item) {
if ( item == null ) return Collections.emptyList();
else return Collections.singletonList(item);
}
private Node buildField(FieldDeclaration field) {
if ( field instanceof Initializer ) return buildInitializer((Initializer)field);
if ( alreadyHandled(field) ) return null;
List<Node> childNodes = new ArrayList<Node>();
addIfNotNull(childNodes, buildStatement(field.initialization));
childNodes.addAll(buildAnnotations(field.annotations));
return putInMap(new Node(field, childNodes, Kind.FIELD));
}
private Node buildInitializer(Initializer initializer) {
if ( alreadyHandled(initializer) ) return null;
return putInMap(new Node(initializer, singleton(buildStatement(initializer.block)), Kind.INITIALIZER));
}
private Collection<Node> buildMethods(AbstractMethodDeclaration[] children) {
if ( children == null ) return Collections.emptyList();
List<Node> childNodes = new ArrayList<Node>();
for (AbstractMethodDeclaration method : children ) addIfNotNull(childNodes, buildMethod(method));
return childNodes;
}
private Node buildMethod(AbstractMethodDeclaration method) {
if ( alreadyHandled(method) ) return null;
List<Node> childNodes = new ArrayList<Node>();
childNodes.addAll(buildArguments(method.arguments));
childNodes.addAll(buildStatements(method.statements));
childNodes.addAll(buildAnnotations(method.annotations));
return putInMap(new Node(method, childNodes, Kind.METHOD));
}
//Arguments are a kind of LocalDeclaration. They can definitely contain lombok annotations, so we care about them.
private Collection<Node> buildArguments(Argument[] children) {
if ( children == null ) return Collections.emptyList();
List<Node> childNodes = new ArrayList<Node>();
for ( LocalDeclaration local : children ) {
addIfNotNull(childNodes, buildLocal(local, Kind.ARGUMENT));
}
return childNodes;
}
private Node buildLocal(LocalDeclaration local, Kind kind) {
if ( alreadyHandled(local) ) return null;
List<Node> childNodes = new ArrayList<Node>();
addIfNotNull(childNodes, buildStatement(local.initialization));
childNodes.addAll(buildAnnotations(local.annotations));
return putInMap(new Node(local, childNodes, kind));
}
private Collection<Node> buildAnnotations(Annotation[] annotations) {
if ( annotations == null ) return Collections.emptyList();
List<Node> elements = new ArrayList<Node>();
for ( Annotation an : annotations ) addIfNotNull(elements, buildAnnotation(an));
return elements;
}
private Node buildAnnotation(Annotation annotation) {
if ( annotation == null ) return null;
if ( alreadyHandled(annotation) ) return null;
return putInMap(new Node(annotation, null, Kind.ANNOTATION));
}
private Collection<Node> buildStatements(Statement[] children) {
if ( children == null ) return Collections.emptyList();
List<Node> childNodes = new ArrayList<Node>();
for ( Statement child : children ) addIfNotNull(childNodes, buildStatement(child));
return childNodes;
}
private Node buildStatement(Statement child) {
if ( child == null || alreadyHandled(child) ) return null;
if ( child instanceof TypeDeclaration ) return buildType((TypeDeclaration)child);
if ( child instanceof LocalDeclaration ) return buildLocal((LocalDeclaration)child, Kind.LOCAL);
setAsHandled(child);
return drill(child);
}
private Node drill(Statement statement) {
List<Node> childNodes = new ArrayList<Node>();
for ( FieldAccess fa : fieldsOf(statement.getClass()) ) childNodes.addAll(buildWithField(Node.class, statement, fa));
return putInMap(new Node(statement, childNodes, Kind.STATEMENT));
}
@Override protected Collection<Class<? extends ASTNode>> getStatementTypes() {
return Collections.<Class<? extends ASTNode>>singleton(Statement.class);
}
}
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