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|
/*
* Copyright (C) 2009-2012 The Project Lombok Authors.
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
package lombok.eclipse.handlers;
import static lombok.eclipse.Eclipse.*;
import java.lang.reflect.Constructor;
import java.lang.reflect.Field;
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.lang.reflect.Modifier;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.WeakHashMap;
import lombok.AccessLevel;
import lombok.Data;
import lombok.Getter;
import lombok.Lombok;
import lombok.core.AST.Kind;
import lombok.core.AnnotationValues;
import lombok.core.AnnotationValues.AnnotationValue;
import lombok.core.TransformationsUtil;
import lombok.core.TypeResolver;
import lombok.eclipse.EclipseAST;
import lombok.eclipse.EclipseNode;
import lombok.experimental.Accessors;
import org.eclipse.core.runtime.ILog;
import org.eclipse.core.runtime.IStatus;
import org.eclipse.core.runtime.Platform;
import org.eclipse.core.runtime.Status;
import org.eclipse.jdt.internal.compiler.ast.ASTNode;
import org.eclipse.jdt.internal.compiler.ast.AbstractMethodDeclaration;
import org.eclipse.jdt.internal.compiler.ast.AbstractVariableDeclaration;
import org.eclipse.jdt.internal.compiler.ast.AllocationExpression;
import org.eclipse.jdt.internal.compiler.ast.Annotation;
import org.eclipse.jdt.internal.compiler.ast.ArrayInitializer;
import org.eclipse.jdt.internal.compiler.ast.ArrayQualifiedTypeReference;
import org.eclipse.jdt.internal.compiler.ast.ArrayTypeReference;
import org.eclipse.jdt.internal.compiler.ast.CastExpression;
import org.eclipse.jdt.internal.compiler.ast.CompilationUnitDeclaration;
import org.eclipse.jdt.internal.compiler.ast.ConstructorDeclaration;
import org.eclipse.jdt.internal.compiler.ast.EqualExpression;
import org.eclipse.jdt.internal.compiler.ast.Expression;
import org.eclipse.jdt.internal.compiler.ast.FieldDeclaration;
import org.eclipse.jdt.internal.compiler.ast.FieldReference;
import org.eclipse.jdt.internal.compiler.ast.IfStatement;
import org.eclipse.jdt.internal.compiler.ast.IntLiteral;
import org.eclipse.jdt.internal.compiler.ast.MarkerAnnotation;
import org.eclipse.jdt.internal.compiler.ast.MemberValuePair;
import org.eclipse.jdt.internal.compiler.ast.MessageSend;
import org.eclipse.jdt.internal.compiler.ast.MethodDeclaration;
import org.eclipse.jdt.internal.compiler.ast.NameReference;
import org.eclipse.jdt.internal.compiler.ast.NormalAnnotation;
import org.eclipse.jdt.internal.compiler.ast.NullLiteral;
import org.eclipse.jdt.internal.compiler.ast.OperatorIds;
import org.eclipse.jdt.internal.compiler.ast.ParameterizedQualifiedTypeReference;
import org.eclipse.jdt.internal.compiler.ast.ParameterizedSingleTypeReference;
import org.eclipse.jdt.internal.compiler.ast.QualifiedNameReference;
import org.eclipse.jdt.internal.compiler.ast.QualifiedTypeReference;
import org.eclipse.jdt.internal.compiler.ast.SingleMemberAnnotation;
import org.eclipse.jdt.internal.compiler.ast.SingleNameReference;
import org.eclipse.jdt.internal.compiler.ast.SingleTypeReference;
import org.eclipse.jdt.internal.compiler.ast.Statement;
import org.eclipse.jdt.internal.compiler.ast.StringLiteral;
import org.eclipse.jdt.internal.compiler.ast.ThisReference;
import org.eclipse.jdt.internal.compiler.ast.ThrowStatement;
import org.eclipse.jdt.internal.compiler.ast.TypeDeclaration;
import org.eclipse.jdt.internal.compiler.ast.TypeParameter;
import org.eclipse.jdt.internal.compiler.ast.TypeReference;
import org.eclipse.jdt.internal.compiler.ast.Wildcard;
import org.eclipse.jdt.internal.compiler.classfmt.ClassFileConstants;
import org.eclipse.jdt.internal.compiler.lookup.Binding;
import org.eclipse.jdt.internal.compiler.lookup.CaptureBinding;
import org.eclipse.jdt.internal.compiler.lookup.ParameterizedTypeBinding;
import org.eclipse.jdt.internal.compiler.lookup.ReferenceBinding;
import org.eclipse.jdt.internal.compiler.lookup.TypeBinding;
import org.eclipse.jdt.internal.compiler.lookup.TypeConstants;
import org.eclipse.jdt.internal.compiler.lookup.TypeIds;
import org.eclipse.jdt.internal.compiler.lookup.WildcardBinding;
import org.osgi.framework.Bundle;
/**
* Container for static utility methods useful to handlers written for eclipse.
*/
public class EclipseHandlerUtil {
private EclipseHandlerUtil() {
//Prevent instantiation
}
private static final String DEFAULT_BUNDLE = "org.eclipse.jdt.core";
/**
* Generates an error in the Eclipse error log. Note that most people never look at it!
*
* @param cud The {@code CompilationUnitDeclaration} where the error occurred.
* An error will be generated on line 0 linking to the error log entry. Can be {@code null}.
* @param message Human readable description of the problem.
* @param error The associated exception. Can be {@code null}.
*/
public static void error(CompilationUnitDeclaration cud, String message, Throwable error) {
error(cud, message, null, error);
}
/**
* Generates an error in the Eclipse error log. Note that most people never look at it!
*
* @param cud The {@code CompilationUnitDeclaration} where the error occurred.
* An error will be generated on line 0 linking to the error log entry. Can be {@code null}.
* @param message Human readable description of the problem.
* @param bundleName Can be {@code null} to default to {@code org.eclipse.jdt.core} which is usually right.
* @param error The associated exception. Can be {@code null}.
*/
public static void error(CompilationUnitDeclaration cud, String message, String bundleName, Throwable error) {
if (bundleName == null) bundleName = DEFAULT_BUNDLE;
try {
new EclipseWorkspaceLogger().error(message, bundleName, error);
} catch (NoClassDefFoundError e) { //standalone ecj does not jave Platform, ILog, IStatus, and friends.
new TerminalLogger().error(message, bundleName, error);
}
if (cud != null) EclipseAST.addProblemToCompilationResult(cud, false, message + " - See error log.", 0, 0);
}
/**
* Generates a warning in the Eclipse error log. Note that most people never look at it!
*
* @param message Human readable description of the problem.
* @param error The associated exception. Can be {@code null}.
*/
public static void warning(String message, Throwable error) {
warning(message, null, error);
}
/**
* Generates a warning in the Eclipse error log. Note that most people never look at it!
*
* @param message Human readable description of the problem.
* @param bundleName Can be {@code null} to default to {@code org.eclipse.jdt.core} which is usually right.
* @param error The associated exception. Can be {@code null}.
*/
public static void warning(String message, String bundleName, Throwable error) {
if (bundleName == null) bundleName = DEFAULT_BUNDLE;
try {
new EclipseWorkspaceLogger().warning(message, bundleName, error);
} catch (NoClassDefFoundError e) { //standalone ecj does not jave Platform, ILog, IStatus, and friends.
new TerminalLogger().warning(message, bundleName, error);
}
}
private static class TerminalLogger {
void error(String message, String bundleName, Throwable error) {
System.err.println(message);
if (error != null) error.printStackTrace();
}
void warning(String message, String bundleName, Throwable error) {
System.err.println(message);
if (error != null) error.printStackTrace();
}
}
private static class EclipseWorkspaceLogger {
void error(String message, String bundleName, Throwable error) {
msg(IStatus.ERROR, message, bundleName, error);
}
void warning(String message, String bundleName, Throwable error) {
msg(IStatus.WARNING, message, bundleName, error);
}
private void msg(int msgType, String message, String bundleName, Throwable error) {
Bundle bundle = Platform.getBundle(bundleName);
if (bundle == null) {
System.err.printf("Can't find bundle %s while trying to report error:\n%s\n", bundleName, message);
return;
}
ILog log = Platform.getLog(bundle);
log.log(new Status(msgType, bundleName, message, error));
}
}
private static Field generatedByField;
static {
try {
generatedByField = ASTNode.class.getDeclaredField("$generatedBy");
} catch (Throwable t) {
//ignore - no $generatedBy exists when running in ecj.
}
}
private static Map<ASTNode, ASTNode> generatedNodes = new WeakHashMap<ASTNode, ASTNode>();
public static ASTNode getGeneratedBy(ASTNode node) {
if (generatedByField != null) {
try {
return (ASTNode) generatedByField.get(node);
} catch (Exception e) {}
}
synchronized (generatedNodes) {
return generatedNodes.get(node);
}
}
public static boolean isGenerated(ASTNode node) {
return getGeneratedBy(node) != null;
}
public static ASTNode setGeneratedBy(ASTNode node, ASTNode source) {
if (generatedByField != null) {
try {
generatedByField.set(node, source);
return node;
} catch (Exception e) {}
}
synchronized (generatedNodes) {
generatedNodes.put(node, source);
}
return node;
}
public static MarkerAnnotation generateDeprecatedAnnotation(ASTNode source) {
QualifiedTypeReference qtr = new QualifiedTypeReference(new char[][] {
{'j', 'a', 'v', 'a'}, {'l', 'a', 'n', 'g'}, {'D', 'e', 'p', 'r', 'e', 'c', 'a', 't', 'e', 'd'}}, poss(source, 3));
setGeneratedBy(qtr, source);
return new MarkerAnnotation(qtr, source.sourceStart);
}
public static boolean isFieldDeprecated(EclipseNode fieldNode) {
FieldDeclaration field = (FieldDeclaration) fieldNode.get();
if ((field.modifiers & ClassFileConstants.AccDeprecated) != 0) {
return true;
}
if (field.annotations == null) return false;
for (Annotation annotation : field.annotations) {
if (typeMatches(Deprecated.class, fieldNode, annotation.type)) {
return true;
}
}
return false;
}
/**
* Checks if the given TypeReference node is likely to be a reference to the provided class.
*
* @param type An actual type. This method checks if {@code typeNode} is likely to be a reference to this type.
* @param node A Lombok AST node. Any node in the appropriate compilation unit will do (used to get access to import statements).
* @param typeRef A type reference to check.
*/
public static boolean typeMatches(Class<?> type, EclipseNode node, TypeReference typeRef) {
if (typeRef == null || typeRef.getTypeName() == null || typeRef.getTypeName().length == 0) return false;
String lastPartA = new String(typeRef.getTypeName()[typeRef.getTypeName().length -1]);
String lastPartB = type.getSimpleName();
if (!lastPartA.equals(lastPartB)) return false;
String typeName = toQualifiedName(typeRef.getTypeName());
TypeResolver resolver = new TypeResolver(node.getPackageDeclaration(), node.getImportStatements());
return resolver.typeMatches(node, type.getName(), typeName);
}
public static Annotation copyAnnotation(Annotation annotation, ASTNode source) {
int pS = source.sourceStart, pE = source.sourceEnd;
if (annotation instanceof MarkerAnnotation) {
MarkerAnnotation ann = new MarkerAnnotation(copyType(annotation.type, source), pS);
setGeneratedBy(ann, source);
ann.declarationSourceEnd = ann.sourceEnd = ann.statementEnd = pE;
return ann;
}
if (annotation instanceof SingleMemberAnnotation) {
SingleMemberAnnotation ann = new SingleMemberAnnotation(copyType(annotation.type, source), pS);
setGeneratedBy(ann, source);
ann.declarationSourceEnd = ann.sourceEnd = ann.statementEnd = pE;
//TODO memberValue(s) need to be copied as well (same for copying a NormalAnnotation as below).
ann.memberValue = ((SingleMemberAnnotation)annotation).memberValue;
return ann;
}
if (annotation instanceof NormalAnnotation) {
NormalAnnotation ann = new NormalAnnotation(copyType(annotation.type, source), pS);
setGeneratedBy(ann, source);
ann.declarationSourceEnd = ann.statementEnd = ann.sourceEnd = pE;
ann.memberValuePairs = ((NormalAnnotation)annotation).memberValuePairs;
return ann;
}
return annotation;
}
/**
* You can't share TypeParameter objects or bad things happen; for example, one 'T' resolves differently
* from another 'T', even for the same T in a single class file. Unfortunately the TypeParameter type hierarchy
* is complicated and there's no clone method on TypeParameter itself. This method can clone them.
*/
public static TypeParameter[] copyTypeParams(TypeParameter[] params, ASTNode source) {
if (params == null) return null;
TypeParameter[] out = new TypeParameter[params.length];
int idx = 0;
for (TypeParameter param : params) {
TypeParameter o = new TypeParameter();
setGeneratedBy(o, source);
o.annotations = param.annotations;
o.bits = param.bits;
o.modifiers = param.modifiers;
o.name = param.name;
o.type = copyType(param.type, source);
o.sourceStart = param.sourceStart;
o.sourceEnd = param.sourceEnd;
o.declarationEnd = param.declarationEnd;
o.declarationSourceStart = param.declarationSourceStart;
o.declarationSourceEnd = param.declarationSourceEnd;
if (param.bounds != null) {
TypeReference[] b = new TypeReference[param.bounds.length];
int idx2 = 0;
for (TypeReference ref : param.bounds) b[idx2++] = copyType(ref, source);
o.bounds = b;
}
out[idx++] = o;
}
return out;
}
/**
* Convenience method that creates a new array and copies each TypeReference in the source array via
* {@link #copyType(TypeReference, ASTNode)}.
*/
public static TypeReference[] copyTypes(TypeReference[] refs, ASTNode source) {
if (refs == null) return null;
TypeReference[] outs = new TypeReference[refs.length];
int idx = 0;
for (TypeReference ref : refs) {
outs[idx++] = copyType(ref, source);
}
return outs;
}
/**
* You can't share TypeReference objects or subtle errors start happening.
* Unfortunately the TypeReference type hierarchy is complicated and there's no clone
* method on TypeReference itself. This method can clone them.
*/
public static TypeReference copyType(TypeReference ref, ASTNode source) {
if (ref instanceof ParameterizedQualifiedTypeReference) {
ParameterizedQualifiedTypeReference iRef = (ParameterizedQualifiedTypeReference) ref;
TypeReference[][] args = null;
if (iRef.typeArguments != null) {
args = new TypeReference[iRef.typeArguments.length][];
int idx = 0;
for (TypeReference[] inRefArray : iRef.typeArguments) {
if (inRefArray == null) args[idx++] = null;
else {
TypeReference[] outRefArray = new TypeReference[inRefArray.length];
int idx2 = 0;
for (TypeReference inRef : inRefArray) {
outRefArray[idx2++] = copyType(inRef, source);
}
args[idx++] = outRefArray;
}
}
}
TypeReference typeRef = new ParameterizedQualifiedTypeReference(iRef.tokens, args, iRef.dimensions(), iRef.sourcePositions);
setGeneratedBy(typeRef, source);
return typeRef;
}
if (ref instanceof ArrayQualifiedTypeReference) {
ArrayQualifiedTypeReference iRef = (ArrayQualifiedTypeReference) ref;
TypeReference typeRef = new ArrayQualifiedTypeReference(iRef.tokens, iRef.dimensions(), iRef.sourcePositions);
setGeneratedBy(typeRef, source);
return typeRef;
}
if (ref instanceof QualifiedTypeReference) {
QualifiedTypeReference iRef = (QualifiedTypeReference) ref;
TypeReference typeRef = new QualifiedTypeReference(iRef.tokens, iRef.sourcePositions);
setGeneratedBy(typeRef, source);
return typeRef;
}
if (ref instanceof ParameterizedSingleTypeReference) {
ParameterizedSingleTypeReference iRef = (ParameterizedSingleTypeReference) ref;
TypeReference[] args = null;
if (iRef.typeArguments != null) {
args = new TypeReference[iRef.typeArguments.length];
int idx = 0;
for (TypeReference inRef : iRef.typeArguments) {
if (inRef == null) args[idx++] = null;
else args[idx++] = copyType(inRef, source);
}
}
TypeReference typeRef = new ParameterizedSingleTypeReference(iRef.token, args, iRef.dimensions(), (long)iRef.sourceStart << 32 | iRef.sourceEnd);
setGeneratedBy(typeRef, source);
return typeRef;
}
if (ref instanceof ArrayTypeReference) {
ArrayTypeReference iRef = (ArrayTypeReference) ref;
TypeReference typeRef = new ArrayTypeReference(iRef.token, iRef.dimensions(), (long)iRef.sourceStart << 32 | iRef.sourceEnd);
setGeneratedBy(typeRef, source);
return typeRef;
}
if (ref instanceof Wildcard) {
Wildcard original = (Wildcard)ref;
Wildcard wildcard = new Wildcard(original.kind);
wildcard.sourceStart = original.sourceStart;
wildcard.sourceEnd = original.sourceEnd;
if (original.bound != null) wildcard.bound = copyType(original.bound, source);
setGeneratedBy(wildcard, source);
return wildcard;
}
if (ref instanceof SingleTypeReference) {
SingleTypeReference iRef = (SingleTypeReference) ref;
TypeReference typeRef = new SingleTypeReference(iRef.token, (long)iRef.sourceStart << 32 | iRef.sourceEnd);
setGeneratedBy(typeRef, source);
return typeRef;
}
return ref;
}
public static Annotation[] copyAnnotations(ASTNode source, Annotation[]... allAnnotations) {
boolean allNull = true;
List<Annotation> result = new ArrayList<Annotation>();
for (Annotation[] annotations : allAnnotations) {
if (annotations != null) {
allNull = false;
for (Annotation annotation : annotations) {
result.add(copyAnnotation(annotation, source));
}
}
}
if (allNull) return null;
return result.toArray(EMPTY_ANNOTATION_ARRAY);
}
public static boolean hasAnnotation(Class<? extends java.lang.annotation.Annotation> type, EclipseNode node) {
if (node == null) return false;
if (type == null) return false;
switch (node.getKind()) {
case ARGUMENT:
case FIELD:
case LOCAL:
case TYPE:
case METHOD:
for (EclipseNode child : node.down()) {
if (annotationTypeMatches(type, child)) return true;
}
// intentional fallthrough
default:
return false;
}
}
/**
* Checks if the provided annotation type is likely to be the intended type for the given annotation node.
*
* This is a guess, but a decent one.
*/
public static boolean annotationTypeMatches(Class<? extends java.lang.annotation.Annotation> type, EclipseNode node) {
if (node.getKind() != Kind.ANNOTATION) return false;
return typeMatches(type, node, ((Annotation)node.get()).type);
}
public static TypeReference cloneSelfType(EclipseNode context, ASTNode source) {
int pS = source.sourceStart, pE = source.sourceEnd;
long p = (long)pS << 32 | pE;
EclipseNode type = context;
TypeReference result = null;
while (type != null && type.getKind() != Kind.TYPE) type = type.up();
if (type != null && type.get() instanceof TypeDeclaration) {
TypeDeclaration typeDecl = (TypeDeclaration) type.get();
if (typeDecl.typeParameters != null && typeDecl.typeParameters.length > 0) {
TypeReference[] refs = new TypeReference[typeDecl.typeParameters.length];
int idx = 0;
for (TypeParameter param : typeDecl.typeParameters) {
TypeReference typeRef = new SingleTypeReference(param.name, (long)param.sourceStart << 32 | param.sourceEnd);
setGeneratedBy(typeRef, source);
refs[idx++] = typeRef;
}
result = new ParameterizedSingleTypeReference(typeDecl.name, refs, 0, p);
} else {
result = new SingleTypeReference(((TypeDeclaration)type.get()).name, p);
}
}
if (result != null) setGeneratedBy(result, source);
return result;
}
public static TypeReference makeType(TypeBinding binding, ASTNode pos, boolean allowCompound) {
int dims = binding.dimensions();
binding = binding.leafComponentType();
// Primitives
char[] base = null;
switch (binding.id) {
case TypeIds.T_int:
base = TypeConstants.INT;
break;
case TypeIds.T_long:
base = TypeConstants.LONG;
break;
case TypeIds.T_short:
base = TypeConstants.SHORT;
break;
case TypeIds.T_byte:
base = TypeConstants.BYTE;
break;
case TypeIds.T_double:
base = TypeConstants.DOUBLE;
break;
case TypeIds.T_float:
base = TypeConstants.FLOAT;
break;
case TypeIds.T_boolean:
base = TypeConstants.BOOLEAN;
break;
case TypeIds.T_char:
base = TypeConstants.CHAR;
break;
case TypeIds.T_void:
base = TypeConstants.VOID;
break;
case TypeIds.T_null:
return null;
}
if (base != null) {
if (dims > 0) {
TypeReference result = new ArrayTypeReference(base, dims, pos(pos));
setGeneratedBy(result, pos);
return result;
}
TypeReference result = new SingleTypeReference(base, pos(pos));
setGeneratedBy(result, pos);
return result;
}
if (binding.isAnonymousType()) {
ReferenceBinding ref = (ReferenceBinding)binding;
ReferenceBinding[] supers = ref.superInterfaces();
if (supers == null || supers.length == 0) supers = new ReferenceBinding[] {ref.superclass()};
if (supers[0] == null) {
TypeReference result = new QualifiedTypeReference(TypeConstants.JAVA_LANG_OBJECT, poss(pos, 3));
setGeneratedBy(result, pos);
return result;
}
return makeType(supers[0], pos, false);
}
if (binding instanceof CaptureBinding) {
return makeType(((CaptureBinding)binding).wildcard, pos, allowCompound);
}
if (binding.isUnboundWildcard()) {
if (!allowCompound) {
TypeReference result = new QualifiedTypeReference(TypeConstants.JAVA_LANG_OBJECT, poss(pos, 3));
setGeneratedBy(result, pos);
return result;
} else {
Wildcard out = new Wildcard(Wildcard.UNBOUND);
setGeneratedBy(out, pos);
out.sourceStart = pos.sourceStart;
out.sourceEnd = pos.sourceEnd;
return out;
}
}
if (binding.isWildcard()) {
WildcardBinding wildcard = (WildcardBinding) binding;
if (wildcard.boundKind == Wildcard.EXTENDS) {
if (!allowCompound) {
return makeType(wildcard.bound, pos, false);
} else {
Wildcard out = new Wildcard(Wildcard.EXTENDS);
setGeneratedBy(out, pos);
out.bound = makeType(wildcard.bound, pos, false);
out.sourceStart = pos.sourceStart;
out.sourceEnd = pos.sourceEnd;
return out;
}
} else if (allowCompound && wildcard.boundKind == Wildcard.SUPER) {
Wildcard out = new Wildcard(Wildcard.SUPER);
setGeneratedBy(out, pos);
out.bound = makeType(wildcard.bound, pos, false);
out.sourceStart = pos.sourceStart;
out.sourceEnd = pos.sourceEnd;
return out;
} else {
TypeReference result = new QualifiedTypeReference(TypeConstants.JAVA_LANG_OBJECT, poss(pos, 3));
setGeneratedBy(result, pos);
return result;
}
}
// Keep moving up via 'binding.enclosingType()' and gather generics from each binding. We stop after a local type, or a static type, or a top-level type.
// Finally, add however many nullTypeArgument[] arrays as that are missing, inverse the list, toArray it, and use that as PTR's typeArgument argument.
List<TypeReference[]> params = new ArrayList<TypeReference[]>();
/* Calculate generics */ {
TypeBinding b = binding;
while (true) {
boolean isFinalStop = b.isLocalType() || !b.isMemberType() || b.enclosingType() == null;
TypeReference[] tyParams = null;
if (b instanceof ParameterizedTypeBinding) {
ParameterizedTypeBinding paramized = (ParameterizedTypeBinding) b;
if (paramized.arguments != null) {
tyParams = new TypeReference[paramized.arguments.length];
for (int i = 0; i < tyParams.length; i++) {
tyParams[i] = makeType(paramized.arguments[i], pos, true);
}
}
}
params.add(tyParams);
if (isFinalStop) break;
b = b.enclosingType();
}
}
char[][] parts;
if (binding.isTypeVariable()) {
parts = new char[][] { binding.shortReadableName() };
} else if (binding.isLocalType()) {
parts = new char[][] { binding.sourceName() };
} else {
String[] pkg = new String(binding.qualifiedPackageName()).split("\\.");
String[] name = new String(binding.qualifiedSourceName()).split("\\.");
if (pkg.length == 1 && pkg[0].isEmpty()) pkg = new String[0];
parts = new char[pkg.length + name.length][];
int ptr;
for (ptr = 0; ptr < pkg.length; ptr++) parts[ptr] = pkg[ptr].toCharArray();
for (; ptr < pkg.length + name.length; ptr++) parts[ptr] = name[ptr - pkg.length].toCharArray();
}
while (params.size() < parts.length) params.add(null);
Collections.reverse(params);
boolean isParamized = false;
for (TypeReference[] tyParams : params) {
if (tyParams != null) {
isParamized = true;
break;
}
}
if (isParamized) {
if (parts.length > 1) {
TypeReference[][] typeArguments = params.toArray(new TypeReference[0][]);
TypeReference result = new ParameterizedQualifiedTypeReference(parts, typeArguments, dims, poss(pos, parts.length));
setGeneratedBy(result, pos);
return result;
}
TypeReference result = new ParameterizedSingleTypeReference(parts[0], params.get(0), dims, pos(pos));
setGeneratedBy(result, pos);
return result;
}
if (dims > 0) {
if (parts.length > 1) {
TypeReference result = new ArrayQualifiedTypeReference(parts, dims, poss(pos, parts.length));
setGeneratedBy(result, pos);
return result;
}
TypeReference result = new ArrayTypeReference(parts[0], dims, pos(pos));
setGeneratedBy(result, pos);
return result;
}
if (parts.length > 1) {
TypeReference result = new QualifiedTypeReference(parts, poss(pos, parts.length));
setGeneratedBy(result, pos);
return result;
}
TypeReference result = new SingleTypeReference(parts[0], pos(pos));
setGeneratedBy(result, pos);
return result;
}
/**
* Provides AnnotationValues with the data it needs to do its thing.
*/
public static <A extends java.lang.annotation.Annotation> AnnotationValues<A>
createAnnotation(Class<A> type, final EclipseNode annotationNode) {
final Annotation annotation = (Annotation) annotationNode.get();
Map<String, AnnotationValue> values = new HashMap<String, AnnotationValue>();
final MemberValuePair[] pairs = annotation.memberValuePairs();
for (Method m : type.getDeclaredMethods()) {
if (!Modifier.isPublic(m.getModifiers())) continue;
String name = m.getName();
List<String> raws = new ArrayList<String>();
List<Object> expressionValues = new ArrayList<Object>();
List<Object> guesses = new ArrayList<Object>();
Expression fullExpression = null;
Expression[] expressions = null;
if (pairs != null) for (MemberValuePair pair : pairs) {
char[] n = pair.name;
String mName = n == null ? "value" : new String(pair.name);
if (mName.equals(name)) fullExpression = pair.value;
}
boolean isExplicit = fullExpression != null;
if (isExplicit) {
if (fullExpression instanceof ArrayInitializer) {
expressions = ((ArrayInitializer)fullExpression).expressions;
} else expressions = new Expression[] { fullExpression };
if (expressions != null) for (Expression ex : expressions) {
StringBuffer sb = new StringBuffer();
ex.print(0, sb);
raws.add(sb.toString());
expressionValues.add(ex);
guesses.add(calculateValue(ex));
}
}
final Expression fullExpr = fullExpression;
final Expression[] exprs = expressions;
values.put(name, new AnnotationValue(annotationNode, raws, expressionValues, guesses, isExplicit) {
@Override public void setError(String message, int valueIdx) {
Expression ex;
if (valueIdx == -1) ex = fullExpr;
else ex = exprs != null ? exprs[valueIdx] : null;
if (ex == null) ex = annotation;
int sourceStart = ex.sourceStart;
int sourceEnd = ex.sourceEnd;
annotationNode.addError(message, sourceStart, sourceEnd);
}
@Override public void setWarning(String message, int valueIdx) {
Expression ex;
if (valueIdx == -1) ex = fullExpr;
else ex = exprs != null ? exprs[valueIdx] : null;
if (ex == null) ex = annotation;
int sourceStart = ex.sourceStart;
int sourceEnd = ex.sourceEnd;
annotationNode.addWarning(message, sourceStart, sourceEnd);
}
});
}
return new AnnotationValues<A>(type, values, annotationNode);
}
/**
* Turns an {@code AccessLevel} instance into the flag bit used by eclipse.
*/
public static int toEclipseModifier(AccessLevel value) {
switch (value) {
case MODULE:
case PACKAGE:
return 0;
default:
case PUBLIC:
return ClassFileConstants.AccPublic;
case PROTECTED:
return ClassFileConstants.AccProtected;
case NONE:
case PRIVATE:
return ClassFileConstants.AccPrivate;
}
}
private static class GetterMethod {
private final char[] name;
private final TypeReference type;
GetterMethod(char[] name, TypeReference type) {
this.name = name;
this.type = type;
}
}
private static final Map<FieldDeclaration, Object> generatedLazyGettersWithPrimitiveBoolean = new WeakHashMap<FieldDeclaration, Object>();
private static final Object MARKER = new Object();
static void registerCreatedLazyGetter(FieldDeclaration field, char[] methodName, TypeReference returnType) {
if (!nameEquals(returnType.getTypeName(), "boolean") || returnType.dimensions() > 0) return;
generatedLazyGettersWithPrimitiveBoolean.put(field, MARKER);
}
private static GetterMethod findGetter(EclipseNode field) {
FieldDeclaration fieldDeclaration = (FieldDeclaration) field.get();
boolean forceBool = generatedLazyGettersWithPrimitiveBoolean.containsKey(fieldDeclaration);
TypeReference fieldType = fieldDeclaration.type;
boolean isBoolean = forceBool || (nameEquals(fieldType.getTypeName(), "boolean") && fieldType.dimensions() == 0);
EclipseNode typeNode = field.up();
for (String potentialGetterName : toAllGetterNames(field, isBoolean)) {
for (EclipseNode potentialGetter : typeNode.down()) {
if (potentialGetter.getKind() != Kind.METHOD) continue;
if (!(potentialGetter.get() instanceof MethodDeclaration)) continue;
MethodDeclaration method = (MethodDeclaration) potentialGetter.get();
if (!potentialGetterName.equalsIgnoreCase(new String(method.selector))) continue;
/** static getX() methods don't count. */
if ((method.modifiers & ClassFileConstants.AccStatic) != 0) continue;
/** Nor do getters with a non-empty parameter list. */
if (method.arguments != null && method.arguments.length > 0) continue;
return new GetterMethod(method.selector, method.returnType);
}
}
// Check if the field has a @Getter annotation.
boolean hasGetterAnnotation = false;
for (EclipseNode child : field.down()) {
if (child.getKind() == Kind.ANNOTATION && annotationTypeMatches(Getter.class, child)) {
AnnotationValues<Getter> ann = createAnnotation(Getter.class, child);
if (ann.getInstance().value() == AccessLevel.NONE) return null; //Definitely WONT have a getter.
hasGetterAnnotation = true;
}
}
// Check if the class has a @Getter annotation.
if (!hasGetterAnnotation && new HandleGetter().fieldQualifiesForGetterGeneration(field)) {
//Check if the class has @Getter or @Data annotation.
EclipseNode containingType = field.up();
if (containingType != null) for (EclipseNode child : containingType.down()) {
if (child.getKind() == Kind.ANNOTATION && annotationTypeMatches(Data.class, child)) hasGetterAnnotation = true;
if (child.getKind() == Kind.ANNOTATION && annotationTypeMatches(Getter.class, child)) {
AnnotationValues<Getter> ann = createAnnotation(Getter.class, child);
if (ann.getInstance().value() == AccessLevel.NONE) return null; //Definitely WONT have a getter.
hasGetterAnnotation = true;
}
}
}
if (hasGetterAnnotation) {
String getterName = toGetterName(field, isBoolean);
if (getterName == null) return null;
return new GetterMethod(getterName.toCharArray(), fieldType);
}
return null;
}
public enum FieldAccess {
GETTER, PREFER_FIELD, ALWAYS_FIELD;
}
static boolean lookForGetter(EclipseNode field, FieldAccess fieldAccess) {
if (fieldAccess == FieldAccess.GETTER) return true;
if (fieldAccess == FieldAccess.ALWAYS_FIELD) return false;
// If @Getter(lazy = true) is used, then using it is mandatory.
for (EclipseNode child : field.down()) {
if (child.getKind() != Kind.ANNOTATION) continue;
if (annotationTypeMatches(Getter.class, child)) {
AnnotationValues<Getter> ann = createAnnotation(Getter.class, child);
if (ann.getInstance().lazy()) return true;
}
}
return false;
}
static TypeReference getFieldType(EclipseNode field, FieldAccess fieldAccess) {
boolean lookForGetter = lookForGetter(field, fieldAccess);
GetterMethod getter = lookForGetter ? findGetter(field) : null;
if (getter == null) {
return ((FieldDeclaration)field.get()).type;
}
return getter.type;
}
static Expression createFieldAccessor(EclipseNode field, FieldAccess fieldAccess, ASTNode source) {
int pS = source.sourceStart, pE = source.sourceEnd;
long p = (long)pS << 32 | pE;
boolean lookForGetter = lookForGetter(field, fieldAccess);
GetterMethod getter = lookForGetter ? findGetter(field) : null;
if (getter == null) {
FieldDeclaration fieldDecl = (FieldDeclaration)field.get();
FieldReference ref = new FieldReference(fieldDecl.name, p);
if ((fieldDecl.modifiers & ClassFileConstants.AccStatic) != 0) {
EclipseNode containerNode = field.up();
if (containerNode != null && containerNode.get() instanceof TypeDeclaration) {
ref.receiver = new SingleNameReference(((TypeDeclaration)containerNode.get()).name, p);
} else {
Expression smallRef = new FieldReference(field.getName().toCharArray(), p);
setGeneratedBy(smallRef, source);
return smallRef;
}
} else {
ref.receiver = new ThisReference(pS, pE);
}
setGeneratedBy(ref, source);
setGeneratedBy(ref.receiver, source);
return ref;
}
MessageSend call = new MessageSend();
setGeneratedBy(call, source);
call.sourceStart = pS; call.statementEnd = call.sourceEnd = pE;
call.receiver = new ThisReference(pS, pE);
setGeneratedBy(call.receiver, source);
call.selector = getter.name;
return call;
}
static Expression createFieldAccessor(EclipseNode field, FieldAccess fieldAccess, ASTNode source, char[] receiver) {
int pS = source.sourceStart, pE = source.sourceEnd;
long p = (long)pS << 32 | pE;
boolean lookForGetter = lookForGetter(field, fieldAccess);
GetterMethod getter = lookForGetter ? findGetter(field) : null;
if (getter == null) {
NameReference ref;
char[][] tokens = new char[2][];
tokens[0] = receiver;
tokens[1] = field.getName().toCharArray();
long[] poss = {p, p};
ref = new QualifiedNameReference(tokens, poss, pS, pE);
setGeneratedBy(ref, source);
return ref;
}
MessageSend call = new MessageSend();
setGeneratedBy(call, source);
call.sourceStart = pS; call.statementEnd = call.sourceEnd = pE;
call.receiver = new SingleNameReference(receiver, p);
setGeneratedBy(call.receiver, source);
call.selector = getter.name;
return call;
}
/** Serves as return value for the methods that check for the existence of fields and methods. */
public enum MemberExistsResult {
NOT_EXISTS, EXISTS_BY_LOMBOK, EXISTS_BY_USER;
}
/**
* Translates the given field into all possible getter names.
* Convenient wrapper around {@link TransformationsUtil#toAllGetterNames(lombok.core.AnnotationValues, CharSequence, boolean)}.
*/
public static List<String> toAllGetterNames(EclipseNode field, boolean isBoolean) {
return TransformationsUtil.toAllGetterNames(getAccessorsForField(field), field.getName(), isBoolean);
}
/**
* @return the likely getter name for the stated field. (e.g. private boolean foo; to isFoo).
*
* Convenient wrapper around {@link TransformationsUtil#toGetterName(lombok.core.AnnotationValues, CharSequence, boolean)}.
*/
public static String toGetterName(EclipseNode field, boolean isBoolean) {
return TransformationsUtil.toGetterName(getAccessorsForField(field), field.getName(), isBoolean);
}
/**
* Translates the given field into all possible setter names.
* Convenient wrapper around {@link TransformationsUtil#toAllSetterNames(lombok.core.AnnotationValues, CharSequence, boolean)}.
*/
public static java.util.List<String> toAllSetterNames(EclipseNode field, boolean isBoolean) {
return TransformationsUtil.toAllSetterNames(getAccessorsForField(field), field.getName(), isBoolean);
}
/**
* @return the likely setter name for the stated field. (e.g. private boolean foo; to setFoo).
*
* Convenient wrapper around {@link TransformationsUtil#toSetterName(lombok.core.AnnotationValues, CharSequence, boolean)}.
*/
public static String toSetterName(EclipseNode field, boolean isBoolean) {
return TransformationsUtil.toSetterName(getAccessorsForField(field), field.getName(), isBoolean);
}
/**
* Translates the given field into all possible wither names.
* Convenient wrapper around {@link TransformationsUtil#toAllWitherNames(lombok.core.AnnotationValues, CharSequence, boolean)}.
*/
public static java.util.List<String> toAllWitherNames(EclipseNode field, boolean isBoolean) {
return TransformationsUtil.toAllWitherNames(getAccessorsForField(field), field.getName(), isBoolean);
}
/**
* @return the likely wither name for the stated field. (e.g. private boolean foo; to withFoo).
*
* Convenient wrapper around {@link TransformationsUtil#toWitherName(lombok.core.AnnotationValues, CharSequence, boolean)}.
*/
public static String toWitherName(EclipseNode field, boolean isBoolean) {
return TransformationsUtil.toWitherName(getAccessorsForField(field), field.getName(), isBoolean);
}
/**
* When generating a setter, the setter either returns void (beanspec) or Self (fluent).
* This method scans for the {@code Accessors} annotation to figure that out.
*/
public static boolean shouldReturnThis(EclipseNode field) {
if ((((FieldDeclaration) field.get()).modifiers & ClassFileConstants.AccStatic) != 0) return false;
AnnotationValues<Accessors> accessors = EclipseHandlerUtil.getAccessorsForField(field);
boolean forced = (accessors.getActualExpression("chain") != null);
Accessors instance = accessors.getInstance();
return instance.chain() || (instance.fluent() && !forced);
}
/**
* Checks if the field should be included in operations that work on 'all' fields:
* If the field is static, or starts with a '$', or is actually an enum constant, 'false' is returned, indicating you should skip it.
*/
public static boolean filterField(FieldDeclaration declaration) {
return filterField(declaration, true);
}
public static boolean filterField(FieldDeclaration declaration, boolean skipStatic) {
// Skip the fake fields that represent enum constants.
if (declaration.initialization instanceof AllocationExpression &&
((AllocationExpression)declaration.initialization).enumConstant != null) return false;
if (declaration.type == null) return false;
// Skip fields that start with $
if (declaration.name.length > 0 && declaration.name[0] == '$') return false;
// Skip static fields.
if (skipStatic && (declaration.modifiers & ClassFileConstants.AccStatic) != 0) return false;
return true;
}
public static AnnotationValues<Accessors> getAccessorsForField(EclipseNode field) {
for (EclipseNode node : field.down()) {
if (annotationTypeMatches(Accessors.class, node)) {
return createAnnotation(Accessors.class, node);
}
}
EclipseNode current = field.up();
while (current != null) {
for (EclipseNode node : current.down()) {
if (annotationTypeMatches(Accessors.class, node)) {
return createAnnotation(Accessors.class, node);
}
}
current = current.up();
}
return AnnotationValues.of(Accessors.class, field);
}
/**
* Checks if there is a field with the provided name.
*
* @param fieldName the field name to check for.
* @param node Any node that represents the Type (TypeDeclaration) to look in, or any child node thereof.
*/
public static MemberExistsResult fieldExists(String fieldName, EclipseNode node) {
while (node != null && !(node.get() instanceof TypeDeclaration)) {
node = node.up();
}
if (node != null && node.get() instanceof TypeDeclaration) {
TypeDeclaration typeDecl = (TypeDeclaration)node.get();
if (typeDecl.fields != null) for (FieldDeclaration def : typeDecl.fields) {
char[] fName = def.name;
if (fName == null) continue;
if (fieldName.equals(new String(fName))) {
return getGeneratedBy(def) == null ? MemberExistsResult.EXISTS_BY_USER : MemberExistsResult.EXISTS_BY_LOMBOK;
}
}
}
return MemberExistsResult.NOT_EXISTS;
}
/**
* Wrapper for {@link #methodExists(String, EclipseNode, boolean, int)} with {@code caseSensitive} = {@code true}.
*/
public static MemberExistsResult methodExists(String methodName, EclipseNode node, int params) {
return methodExists(methodName, node, true, params);
}
/**
* Checks if there is a method with the provided name. In case of multiple methods (overloading), only
* the first method decides if EXISTS_BY_USER or EXISTS_BY_LOMBOK is returned.
*
* @param methodName the method name to check for.
* @param node Any node that represents the Type (TypeDeclaration) to look in, or any child node thereof.
* @param caseSensitive If the search should be case sensitive.
* @param params The number of parameters the method should have; varargs count as 0-*. Set to -1 to find any method with the appropriate name regardless of parameter count.
*/
public static MemberExistsResult methodExists(String methodName, EclipseNode node, boolean caseSensitive, int params) {
while (node != null && !(node.get() instanceof TypeDeclaration)) {
node = node.up();
}
if (node != null && node.get() instanceof TypeDeclaration) {
TypeDeclaration typeDecl = (TypeDeclaration)node.get();
if (typeDecl.methods != null) for (AbstractMethodDeclaration def : typeDecl.methods) {
if (def instanceof MethodDeclaration) {
char[] mName = def.selector;
if (mName == null) continue;
boolean nameEquals = caseSensitive ? methodName.equals(new String(mName)) : methodName.equalsIgnoreCase(new String(mName));
if (nameEquals) {
if (params > -1) {
int minArgs = 0;
int maxArgs = 0;
if (def.arguments != null && def.arguments.length > 0) {
minArgs = def.arguments.length;
if ((def.arguments[def.arguments.length - 1].type.bits & ASTNode.IsVarArgs) != 0) {
minArgs--;
maxArgs = Integer.MAX_VALUE;
} else {
maxArgs = minArgs;
}
}
if (params < minArgs || params > maxArgs) continue;
}
return getGeneratedBy(def) == null ? MemberExistsResult.EXISTS_BY_USER : MemberExistsResult.EXISTS_BY_LOMBOK;
}
}
}
}
return MemberExistsResult.NOT_EXISTS;
}
/**
* Checks if there is a (non-default) constructor. In case of multiple constructors (overloading), only
* the first constructor decides if EXISTS_BY_USER or EXISTS_BY_LOMBOK is returned.
*
* @param node Any node that represents the Type (TypeDeclaration) to look in, or any child node thereof.
*/
public static MemberExistsResult constructorExists(EclipseNode node) {
while (node != null && !(node.get() instanceof TypeDeclaration)) {
node = node.up();
}
if (node != null && node.get() instanceof TypeDeclaration) {
TypeDeclaration typeDecl = (TypeDeclaration)node.get();
if (typeDecl.methods != null) for (AbstractMethodDeclaration def : typeDecl.methods) {
if (def instanceof ConstructorDeclaration) {
if ((def.bits & ASTNode.IsDefaultConstructor) != 0) continue;
return getGeneratedBy(def) == null ? MemberExistsResult.EXISTS_BY_USER : MemberExistsResult.EXISTS_BY_LOMBOK;
}
}
}
return MemberExistsResult.NOT_EXISTS;
}
/**
* Inserts a field into an existing type. The type must represent a {@code TypeDeclaration}.
* The field carries the @{@link SuppressWarnings}("all") annotation.
*/
public static void injectFieldSuppressWarnings(EclipseNode type, FieldDeclaration field) {
field.annotations = createSuppressWarningsAll(field, field.annotations);
injectField(type, field);
}
/**
* Inserts a field into an existing type. The type must represent a {@code TypeDeclaration}.
*/
public static void injectField(EclipseNode type, FieldDeclaration field) {
TypeDeclaration parent = (TypeDeclaration) type.get();
if (parent.fields == null) {
parent.fields = new FieldDeclaration[1];
parent.fields[0] = field;
} else {
int size = parent.fields.length;
FieldDeclaration[] newArray = new FieldDeclaration[size + 1];
System.arraycopy(parent.fields, 0, newArray, 0, size);
int index = 0;
for (; index < size; index++) {
FieldDeclaration f = newArray[index];
if (isEnumConstant(f) || isGenerated(f)) continue;
break;
}
System.arraycopy(newArray, index, newArray, index + 1, size - index);
newArray[index] = field;
parent.fields = newArray;
}
if (isEnumConstant(field) || (field.modifiers & Modifier.STATIC) != 0) {
if (!hasClinit(parent)) {
parent.addClinit();
}
}
type.add(field, Kind.FIELD);
}
private static boolean isEnumConstant(final FieldDeclaration field) {
return ((field.initialization instanceof AllocationExpression) && (((AllocationExpression) field.initialization).enumConstant == field));
}
/**
* Inserts a method into an existing type. The type must represent a {@code TypeDeclaration}.
*/
public static void injectMethod(EclipseNode type, AbstractMethodDeclaration method) {
method.annotations = createSuppressWarningsAll(method, method.annotations);
TypeDeclaration parent = (TypeDeclaration) type.get();
if (parent.methods == null) {
parent.methods = new AbstractMethodDeclaration[1];
parent.methods[0] = method;
} else {
if (method instanceof ConstructorDeclaration) {
for (int i = 0 ; i < parent.methods.length ; i++) {
if (parent.methods[i] instanceof ConstructorDeclaration &&
(parent.methods[i].bits & ASTNode.IsDefaultConstructor) != 0) {
EclipseNode tossMe = type.getNodeFor(parent.methods[i]);
AbstractMethodDeclaration[] withoutGeneratedConstructor = new AbstractMethodDeclaration[parent.methods.length - 1];
System.arraycopy(parent.methods, 0, withoutGeneratedConstructor, 0, i);
System.arraycopy(parent.methods, i + 1, withoutGeneratedConstructor, i, parent.methods.length - i - 1);
parent.methods = withoutGeneratedConstructor;
if (tossMe != null) tossMe.up().removeChild(tossMe);
break;
}
}
}
//We insert the method in the last position of the methods registered to the type
//When changing this behavior, this may trigger issue #155 and #377
AbstractMethodDeclaration[] newArray = new AbstractMethodDeclaration[parent.methods.length + 1];
System.arraycopy(parent.methods, 0, newArray, 0, parent.methods.length);
newArray[parent.methods.length] = method;
parent.methods = newArray;
}
type.add(method, Kind.METHOD);
}
private static final char[] ALL = "all".toCharArray();
public static Annotation[] createSuppressWarningsAll(ASTNode source, Annotation[] originalAnnotationArray) {
int pS = source.sourceStart, pE = source.sourceEnd;
long p = (long)pS << 32 | pE;
long[] poss = new long[3];
Arrays.fill(poss, p);
QualifiedTypeReference suppressWarningsType = new QualifiedTypeReference(TypeConstants.JAVA_LANG_SUPPRESSWARNINGS, poss);
setGeneratedBy(suppressWarningsType, source);
SingleMemberAnnotation ann = new SingleMemberAnnotation(suppressWarningsType, pS);
ann.declarationSourceEnd = pE;
ann.memberValue = new StringLiteral(ALL, pS, pE, 0);
setGeneratedBy(ann, source);
setGeneratedBy(ann.memberValue, source);
if (originalAnnotationArray == null) return new Annotation[] { ann };
Annotation[] newAnnotationArray = new Annotation[originalAnnotationArray.length + 1];
System.arraycopy(originalAnnotationArray, 0, newAnnotationArray, 0, originalAnnotationArray.length);
newAnnotationArray[originalAnnotationArray.length] = ann;
return newAnnotationArray;
}
/**
* Generates a new statement that checks if the given variable is null, and if so, throws a {@code NullPointerException} with the
* variable name as message.
*/
public static Statement generateNullCheck(AbstractVariableDeclaration variable, ASTNode source) {
int pS = source.sourceStart, pE = source.sourceEnd;
long p = (long)pS << 32 | pE;
if (isPrimitive(variable.type)) return null;
AllocationExpression exception = new AllocationExpression();
setGeneratedBy(exception, source);
exception.type = new QualifiedTypeReference(fromQualifiedName("java.lang.NullPointerException"), new long[]{p, p, p});
setGeneratedBy(exception.type, source);
exception.arguments = new Expression[] { new StringLiteral(variable.name, pS, pE, 0)};
setGeneratedBy(exception.arguments[0], source);
ThrowStatement throwStatement = new ThrowStatement(exception, pS, pE);
setGeneratedBy(throwStatement, source);
SingleNameReference varName = new SingleNameReference(variable.name, p);
setGeneratedBy(varName, source);
NullLiteral nullLiteral = new NullLiteral(pS, pE);
setGeneratedBy(nullLiteral, source);
EqualExpression equalExpression = new EqualExpression(varName, nullLiteral, OperatorIds.EQUAL_EQUAL);
equalExpression.sourceStart = pS; equalExpression.statementEnd = equalExpression.sourceEnd = pE;
setGeneratedBy(equalExpression, source);
IfStatement ifStatement = new IfStatement(equalExpression, throwStatement, 0, 0);
setGeneratedBy(ifStatement, source);
return ifStatement;
}
/**
* Create an annotation of the given name, and is marked as being generated by the given source.
*/
public static MarkerAnnotation makeMarkerAnnotation(char[][] name, ASTNode source) {
long pos = (long)source.sourceStart << 32 | source.sourceEnd;
TypeReference typeRef = new QualifiedTypeReference(name, new long[] {pos, pos, pos});
setGeneratedBy(typeRef, source);
MarkerAnnotation ann = new MarkerAnnotation(typeRef, (int)(pos >> 32));
ann.declarationSourceEnd = ann.sourceEnd = ann.statementEnd = (int)pos;
setGeneratedBy(ann, source);
return ann;
}
/**
* Given a list of field names and a node referring to a type, finds each name in the list that does not match a field within the type.
*/
public static List<Integer> createListOfNonExistentFields(List<String> list, EclipseNode type, boolean excludeStandard, boolean excludeTransient) {
boolean[] matched = new boolean[list.size()];
for (EclipseNode child : type.down()) {
if (list.isEmpty()) break;
if (child.getKind() != Kind.FIELD) continue;
if (excludeStandard) {
if ((((FieldDeclaration)child.get()).modifiers & ClassFileConstants.AccStatic) != 0) continue;
if (child.getName().startsWith("$")) continue;
}
if (excludeTransient && (((FieldDeclaration)child.get()).modifiers & ClassFileConstants.AccTransient) != 0) continue;
int idx = list.indexOf(child.getName());
if (idx > -1) matched[idx] = true;
}
List<Integer> problematic = new ArrayList<Integer>();
for (int i = 0 ; i < list.size() ; i++) {
if (!matched[i]) problematic.add(i);
}
return problematic;
}
/**
* In eclipse 3.7+, the CastExpression constructor was changed from a really weird version to
* a less weird one. Unfortunately that means we need to use reflection as we want to be compatible
* with eclipse versions before 3.7 and 3.7+.
*
* @param ref The {@code foo} in {@code (String)foo}.
* @param castTo The {@code String} in {@code (String)foo}.
*/
public static CastExpression makeCastExpression(Expression ref, TypeReference castTo, ASTNode source) {
CastExpression result;
try {
if (castExpressionConstructorIsTypeRefBased) {
result = castExpressionConstructor.newInstance(ref, castTo);
} else {
Expression castToConverted = castTo;
if (castTo.getClass() == SingleTypeReference.class && !isPrimitive(castTo)) {
SingleTypeReference str = (SingleTypeReference) castTo;
//Why a SingleNameReference instead of a SingleTypeReference you ask? I don't know. It seems dumb. Ask the ecj guys.
castToConverted = new SingleNameReference(str.token, 0);
castToConverted.bits = (castToConverted.bits & ~Binding.VARIABLE) | Binding.TYPE;
castToConverted.sourceStart = str.sourceStart;
castToConverted.sourceEnd = str.sourceEnd;
setGeneratedBy(castToConverted, source);
} else if (castTo.getClass() == QualifiedTypeReference.class) {
QualifiedTypeReference qtr = (QualifiedTypeReference) castTo;
//Same here, but for the more complex types, they stay types.
castToConverted = new QualifiedNameReference(qtr.tokens, qtr.sourcePositions, qtr.sourceStart, qtr.sourceEnd);
castToConverted.bits = (castToConverted.bits & ~Binding.VARIABLE) | Binding.TYPE;
setGeneratedBy(castToConverted, source);
}
result = castExpressionConstructor.newInstance(ref, castToConverted);
}
} catch (InvocationTargetException e) {
throw Lombok.sneakyThrow(e.getCause());
} catch (IllegalAccessException e) {
throw Lombok.sneakyThrow(e);
} catch (InstantiationException e) {
throw Lombok.sneakyThrow(e);
}
result.sourceStart = source.sourceStart;
result.sourceEnd = source.sourceEnd;
result.statementEnd = source.sourceEnd;
setGeneratedBy(result, source);
return result;
}
private static final Constructor<CastExpression> castExpressionConstructor;
private static final boolean castExpressionConstructorIsTypeRefBased;
static {
Constructor<?> constructor = null;
for (Constructor<?> ctor : CastExpression.class.getConstructors()) {
if (ctor.getParameterTypes().length != 2) continue;
constructor = ctor;
}
@SuppressWarnings("unchecked")
Constructor<CastExpression> castExpressionConstructor_ = (Constructor<CastExpression>) constructor;
castExpressionConstructor = castExpressionConstructor_;
castExpressionConstructorIsTypeRefBased =
(castExpressionConstructor.getParameterTypes()[1] == TypeReference.class);
}
/**
* In eclipse 3.7+, IntLiterals are created using a factory-method
* Unfortunately that means we need to use reflection as we want to be compatible
* with eclipse versions before 3.7.
*/
public static IntLiteral makeIntLiteral(char[] token, ASTNode source) {
int pS = source.sourceStart, pE = source.sourceEnd;
IntLiteral result;
try {
if (intLiteralConstructor != null) {
result = intLiteralConstructor.newInstance(token, pS, pE);
} else {
result = (IntLiteral) intLiteralFactoryMethod.invoke(null, token, pS, pE);
}
} catch (InvocationTargetException e) {
throw Lombok.sneakyThrow(e.getCause());
} catch (IllegalAccessException e) {
throw Lombok.sneakyThrow(e);
} catch (InstantiationException e) {
throw Lombok.sneakyThrow(e);
}
setGeneratedBy(result, source);
return result;
}
private static final Constructor<IntLiteral> intLiteralConstructor;
private static final Method intLiteralFactoryMethod;
static {
Class<?>[] parameterTypes = {char[].class, int.class, int.class};
Constructor<IntLiteral> intLiteralConstructor_ = null;
Method intLiteralFactoryMethod_ = null;
try {
intLiteralConstructor_ = IntLiteral.class.getConstructor(parameterTypes);
} catch (Throwable ignore) {
// probably eclipse 3.7++
}
try {
intLiteralFactoryMethod_ = IntLiteral.class.getMethod("buildIntLiteral", parameterTypes);
} catch (Throwable ignore) {
// probably eclipse versions before 3.7
}
intLiteralConstructor = intLiteralConstructor_;
intLiteralFactoryMethod = intLiteralFactoryMethod_;
}
private static final Annotation[] EMPTY_ANNOTATION_ARRAY = new Annotation[0];
static Annotation[] getAndRemoveAnnotationParameter(Annotation annotation, String annotationName) {
List<Annotation> result = new ArrayList<Annotation>();
if (annotation instanceof NormalAnnotation) {
NormalAnnotation normalAnnotation = (NormalAnnotation)annotation;
MemberValuePair[] memberValuePairs = normalAnnotation.memberValuePairs;
List<MemberValuePair> pairs = new ArrayList<MemberValuePair>();
if (memberValuePairs != null) for (MemberValuePair memberValuePair : memberValuePairs) {
if (annotationName.equals(new String(memberValuePair.name))) {
Expression value = memberValuePair.value;
if (value instanceof ArrayInitializer) {
ArrayInitializer array = (ArrayInitializer) value;
for(Expression expression : array.expressions) {
if (expression instanceof Annotation) {
result.add((Annotation)expression);
}
}
}
else if (value instanceof Annotation) {
result.add((Annotation)value);
}
continue;
}
pairs.add(memberValuePair);
}
if (!result.isEmpty()) {
normalAnnotation.memberValuePairs = pairs.isEmpty() ? null : pairs.toArray(new MemberValuePair[0]);
return result.toArray(EMPTY_ANNOTATION_ARRAY);
}
}
return EMPTY_ANNOTATION_ARRAY;
}
static NameReference createNameReference(String name, Annotation source) {
int pS = source.sourceStart, pE = source.sourceEnd;
long p = (long)pS << 32 | pE;
char[][] nameTokens = fromQualifiedName(name);
long[] pos = new long[nameTokens.length];
Arrays.fill(pos, p);
QualifiedNameReference nameReference = new QualifiedNameReference(nameTokens, pos, pS, pE);
nameReference.statementEnd = pE;
setGeneratedBy(nameReference, source);
return nameReference;
}
}
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