com.google.gwt.dev.javac.JsniReferenceResolver Maven / Gradle / Ivy
/*
* Copyright 2008 Google Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not
* use this file except in compliance with the License. You may obtain a copy of
* the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
* License for the specific language governing permissions and limitations under
* the License.
*/
package com.google.gwt.dev.javac;
import com.google.gwt.core.client.UnsafeNativeLong;
import com.google.gwt.dev.jdt.SafeASTVisitor;
import com.google.gwt.dev.jjs.SourceInfo;
import com.google.gwt.dev.js.ast.JsBinaryOperation;
import com.google.gwt.dev.js.ast.JsContext;
import com.google.gwt.dev.js.ast.JsFunction;
import com.google.gwt.dev.js.ast.JsModVisitor;
import com.google.gwt.dev.js.ast.JsNameRef;
import com.google.gwt.dev.util.InstalledHelpInfo;
import com.google.gwt.dev.util.JsniRef;
import com.google.gwt.dev.util.collect.Stack;
import com.google.gwt.thirdparty.guava.common.collect.ImmutableSet;
import com.google.gwt.thirdparty.guava.common.collect.Lists;
import org.eclipse.jdt.core.compiler.CharOperation;
import org.eclipse.jdt.internal.compiler.ast.ASTNode;
import org.eclipse.jdt.internal.compiler.ast.Annotation;
import org.eclipse.jdt.internal.compiler.ast.Argument;
import org.eclipse.jdt.internal.compiler.ast.ArrayInitializer;
import org.eclipse.jdt.internal.compiler.ast.CompilationUnitDeclaration;
import org.eclipse.jdt.internal.compiler.ast.Expression;
import org.eclipse.jdt.internal.compiler.ast.ImportReference;
import org.eclipse.jdt.internal.compiler.ast.MemberValuePair;
import org.eclipse.jdt.internal.compiler.ast.MethodDeclaration;
import org.eclipse.jdt.internal.compiler.ast.StringLiteral;
import org.eclipse.jdt.internal.compiler.ast.TypeDeclaration;
import org.eclipse.jdt.internal.compiler.ast.TypeReference;
import org.eclipse.jdt.internal.compiler.classfmt.ClassFileConstants;
import org.eclipse.jdt.internal.compiler.impl.Constant;
import org.eclipse.jdt.internal.compiler.lookup.ArrayBinding;
import org.eclipse.jdt.internal.compiler.lookup.BaseTypeBinding;
import org.eclipse.jdt.internal.compiler.lookup.Binding;
import org.eclipse.jdt.internal.compiler.lookup.BlockScope;
import org.eclipse.jdt.internal.compiler.lookup.ClassScope;
import org.eclipse.jdt.internal.compiler.lookup.CompilationUnitScope;
import org.eclipse.jdt.internal.compiler.lookup.FieldBinding;
import org.eclipse.jdt.internal.compiler.lookup.MethodBinding;
import org.eclipse.jdt.internal.compiler.lookup.NestedTypeBinding;
import org.eclipse.jdt.internal.compiler.lookup.ProblemReferenceBinding;
import org.eclipse.jdt.internal.compiler.lookup.ReferenceBinding;
import org.eclipse.jdt.internal.compiler.lookup.SyntheticArgumentBinding;
import org.eclipse.jdt.internal.compiler.lookup.TypeBinding;
import org.eclipse.jdt.internal.compiler.lookup.TypeIds;
import org.eclipse.jdt.internal.compiler.lookup.UnresolvedReferenceBinding;
import org.eclipse.jdt.internal.compiler.problem.ProblemSeverities;
import java.util.Arrays;
import java.util.List;
import java.util.Locale;
import java.util.Map;
import java.util.Queue;
import java.util.Set;
/**
* Resolves JSNI references to fields and methods and gives a informative errors if the references
* cannot be resolved.
*
* * JSNI references consist of two parts @ClassDescriptor::memberDescriptor. Class descriptors
* are source names and memberDescriptors are either a field name or a method name with a signature
* specification. Signature specification a full signature or a wildcard (*).
*
* * The result of resolution will be a modified JSNI AST where all the resolved references will
* carry the fully qualified class name and the full member reference, along with a mapping from
* jsni references to JDT binding.
*
* In addition in the following instances involving longs warning will be emitted to remind uses
* that GWT longs are not JavaScript numbers:
*
* - JSNI methods with a parameter or return type of long or an array whose base type is long.
*
* - Access from JSNI to a field whose type is long or an array whose base type is long.
* - Access from JSNI to a method with a parameter or return type of long or an array whose base
* type is long.
* - JSNI references to anonymous classes.
*
*/
public class JsniReferenceResolver {
/**
* A call-back interface to resolve types.
*/
public interface TypeResolver {
/**
* @param sourceOrBinaryName Either source or binary names are allowed in JSNI.
*/
ReferenceBinding resolveType(String sourceOrBinaryName);
}
private class JsniDeclChecker extends SafeASTVisitor implements
ClassFileConstants {
@Override
public void endVisit(MethodDeclaration method, ClassScope scope) {
if (method.isNative()) {
boolean hasUnsafeLongsAnnotation = hasUnsafeLongsAnnotation(method, scope);
if (!hasUnsafeLongsAnnotation) {
checkDecl(method, scope);
}
JsniMethod jsniMethod = jsniMethods.get(method);
if (jsniMethod != null) {
new JsniReferenceResolverVisitor(method, hasUnsafeLongsAnnotation).resolve(
jsniMethod.function());
}
}
suppressWarningsStack.pop();
}
@Override
public void endVisit(TypeDeclaration typeDeclaration, ClassScope scope) {
suppressWarningsStack.pop();
}
@Override
public void endVisit(TypeDeclaration typeDeclaration,
CompilationUnitScope scope) {
suppressWarningsStack.pop();
}
@Override
public void endVisitValid(TypeDeclaration typeDeclaration, BlockScope scope) {
suppressWarningsStack.pop();
}
@Override
public boolean visit(MethodDeclaration meth, ClassScope scope) {
suppressWarningsStack.push(getSuppressedWarnings(meth.annotations));
return true;
}
@Override
public boolean visit(TypeDeclaration typeDeclaration, ClassScope scope) {
suppressWarningsStack.push(getSuppressedWarnings(typeDeclaration.annotations));
return true;
}
@Override
public boolean visit(TypeDeclaration typeDeclaration,
CompilationUnitScope scope) {
suppressWarningsStack.push(getSuppressedWarnings(typeDeclaration.annotations));
return true;
}
@Override
public boolean visitValid(TypeDeclaration typeDeclaration, BlockScope scope) {
suppressWarningsStack.push(getSuppressedWarnings(typeDeclaration.annotations));
return true;
}
private void checkDecl(MethodDeclaration meth, ClassScope scope) {
TypeReference returnType = meth.returnType;
if (containsLong(returnType, scope)) {
longAccessError(meth, "Type '" + typeString(returnType)
+ "' may not be returned from a JSNI method");
}
if (meth.arguments == null) {
return;
}
for (Argument arg : meth.arguments) {
if (containsLong(arg.type, scope)) {
longAccessError(arg, "Parameter '" + String.valueOf(arg.name)
+ "': type '" + typeString(arg.type)
+ "' is not safe to access in JSNI code");
}
}
}
private boolean containsLong(final TypeReference type, ClassScope scope) {
return type != null
&& JsniReferenceResolver.this.containsLong(type.resolveType(scope));
}
private String typeString(TypeReference type) {
return type.toString();
}
}
private class JsniReferenceResolverVisitor extends JsModVisitor {
private final boolean hasUnsafeLongsAnnotation;
private final MethodDeclaration method;
public JsniReferenceResolverVisitor(MethodDeclaration method,
boolean hasUnsafeLongsAnnotation) {
this.method = method;
this.hasUnsafeLongsAnnotation = hasUnsafeLongsAnnotation;
}
public void resolve(JsFunction function) {
this.accept(function);
}
@Override
public void endVisit(JsBinaryOperation x, JsContext ctx) {
// Look for the patern a.f = o.@C::m();
if (!x.getOperator().isAssignment()) {
return;
}
if (!(x.getArg1() instanceof JsNameRef) || !(x.getArg2() instanceof JsNameRef)) {
return;
}
JsNameRef lhs = (JsNameRef) x.getArg1();
JsNameRef rhs = (JsNameRef) x.getArg2();
if (!rhs.isJsniReference() || !(jsniRefs.get(rhs.getIdent()) instanceof MethodBinding)) {
// Not a reference to a JSNI method.
return;
}
if (rhs.getQualifier() == null) {
// Unqualified JSNI reference is OK.
return;
}
if (lhs.getQualifier() == null) {
// Assignment to unqualified variable is OK.
return;
}
// Here we have a qualified JSNI method reference assigned to a field.
JsniRef jsniRef = JsniRef.parse(rhs.getIdent());
emitWarning("unsafe", WARN_NOT_CAPTURING_QUALIFIER, x.getSourceInfo(), jsniRef,
rhs.getQualifier().toSource());
}
@Override
public void endVisit(JsNameRef x, JsContext ctx) {
String ident = x.getIdent();
if (!x.isJsniReference()) {
// Not a jsni reference.
return;
}
JsniRef jsniRef = JsniRef.parse(ident);
if (jsniRef == null) {
emitError(ERR_MALFORMED_JSNI_IDENTIFIER, x.getSourceInfo(), null, ident);
return;
}
Binding binding = resolveReference(x.getSourceInfo(), jsniRef, x.getQualifier() != null,
ctx.isLvalue());
assert !x.isResolved();
if (!ident.equals(jsniRef.getResolvedReference())) {
// Replace by the resolved reference (consisting of the fully qualified classname and the
// method description including actual signature) so that dispatch everywhere is consistent
// with the one resolved here.
ident = jsniRef.getResolvedReference();
JsNameRef newRef = new JsNameRef(x.getSourceInfo(), ident);
newRef.setQualifier(x.getQualifier());
ctx.replaceMe(newRef);
}
if (binding != null) {
jsniRefs.put(ident, binding);
}
}
private void resolveClassReference(JsniRef jsniRef) {
// Precedence rules as of JLS 6.4.1.
// 1. Enclosing type.
// 2. Visible type in same compilation unit.
// 3. Named import.
// 4. Same package.
// 5. Import on demand.
String originalName = jsniRef.className();
String importedClassName = originalName;
if (importedClassName.contains(".")) {
// Only retain up the first dot to support innerclasses. E.g. import c.g.A and reference
// @A.I::f.
importedClassName = importedClassName.substring(0,importedClassName.indexOf("."));
}
// 1 & 2. Check to see if this name refers to the enclosing class or is directly accessible
// from it.
ReferenceBinding declaringClass = method.binding.declaringClass;
while (declaringClass != null) {
String declaringClassName = JdtUtil.getSourceName(declaringClass);
if (declaringClassName.equals(importedClassName) ||
declaringClassName.endsWith("." + importedClassName)) {
// Referring to declaring class name using unqualified name.
jsniRef.setResolvedClassName(declaringClassName +
originalName.substring(importedClassName.length()));
return;
}
String fullClassName = declaringClassName + "." + originalName;
if (typeResolver.resolveType(fullClassName) != null) {
jsniRef.setResolvedClassName(fullClassName);
return;
}
declaringClass = declaringClass.enclosingTypeAt(1);
}
// 3. Check to see if this name is one of the named imports.
for (ImportReference importReference : cudImports) {
String nameFromImport = JdtUtil.asDottedString(importReference.getImportName());
if (!importReference.isStatic() && importReference.trailingStarPosition == 0 &&
nameFromImport.endsWith("." + importedClassName)) {
jsniRef.setResolvedClassName(
nameFromImport + originalName.substring(importedClassName.length()));
return;
}
}
// 4. Check to see if this name is resolvable from the current package.
String currentPackageClassName =
String.valueOf(method.binding.declaringClass.qualifiedPackageName());
currentPackageClassName += (currentPackageClassName.isEmpty() ? "" : ".") + originalName;
if (typeResolver.resolveType(currentPackageClassName) != null) {
jsniRef.setResolvedClassName(currentPackageClassName);
return;
}
// 5. Check to see if this name is resolvable as an import on demand.
List importPackages = Lists.newArrayList("java.lang");
for (ImportReference importReference : cudImports) {
if (importReference.isStatic() || importReference.trailingStarPosition == 0) {
continue;
}
importPackages.add(JdtUtil.asDottedString(importReference.getImportName()));
}
for (String importPackage : importPackages) {
String fullClassName = importPackage + "." + originalName;
if (typeResolver.resolveType(fullClassName) != null) {
jsniRef.setResolvedClassName(fullClassName);
return;
}
}
// Otherwise leave it as it is.
// TODO(rluble): Maybe we should leave it null here.
jsniRef.setResolvedClassName(jsniRef.className());
}
private boolean isEnclosingClass(TypeBinding clazz, TypeBinding maybeEnclosingClass) {
for (TypeBinding currentClass = clazz; currentClass != null;
currentClass = currentClass.enclosingType()) {
if (currentClass == maybeEnclosingClass) {
return true;
}
}
return false;
}
private FieldBinding checkAndResolveFieldRef(SourceInfo errorInfo, ReferenceBinding clazz,
JsniRef jsniRef, boolean hasQualifier, boolean isLvalue) {
assert jsniRef.isField();
FieldBinding target = getField(clazz, jsniRef);
if (target == null) {
emitError(ERR_UNABLE_TO_RESOLVE_FIELD, errorInfo, jsniRef);
return null;
}
resolveJsniRef(jsniRef, target);
if (target.isDeprecated() &&
!isEnclosingClass(method.binding.declaringClass, target.declaringClass)) {
emitWarning("deprecation", WARN_DEPRECATED_FIELD, errorInfo, jsniRef);
}
if (isLvalue && target.constant() != Constant.NotAConstant) {
emitError(ERR_ILLEGAL_ASSIGNMENT_TO_COMPILE_TIME_CONSTANT, errorInfo, jsniRef);
}
if (target.isStatic() && hasQualifier) {
emitError(ERR_UNNECESSARY_QUALIFIER_STATIC_FIELD, errorInfo, jsniRef);
} else if (!target.isStatic() && !hasQualifier) {
emitError(ERR_MISSING_QUALIFIER_INSTANCE_FIELD, errorInfo, jsniRef);
}
if (hasUnsafeLongsAnnotation) {
return target;
}
if (containsLong(target.type)) {
emitError(ERR_UNSAFE_FIELD_ACCESS, errorInfo, jsniRef, typeString(target.type));
}
return target;
}
private MethodBinding checkAndResolveMethodRef(SourceInfo errorInfo, ReferenceBinding clazz,
JsniRef jsniRef, boolean hasQualifier, boolean isLvalue) {
assert jsniRef.isMethod();
List targets = getMatchingMethods(clazz, jsniRef);
if (targets.size() > 1) {
emitError(ERR_AMBIGUOUS_WILDCARD_MATCH, errorInfo, jsniRef,
JdtUtil.formatBinding(targets.get(0)),
JdtUtil.formatBinding(targets.get(1)));
return null;
} else if (targets.isEmpty()) {
emitError(ERR_UNABLE_TO_RESOLVE_METHOD, errorInfo, jsniRef);
return null;
}
MethodBinding target = targets.get(0);
resolveJsniRef(jsniRef, target);
if (target.isDeprecated() &&
!isEnclosingClass(method.binding.declaringClass, target.declaringClass)) {
emitWarning("deprecation", WARN_DEPRECATED_METHOD, errorInfo, jsniRef);
}
if (isLvalue) {
emitError(ERR_ILLEGAL_ASSIGNMENT_TO_METHOD, errorInfo, jsniRef);
}
boolean needsQualifer = !target.isStatic() && !target.isConstructor();
if (!needsQualifer && hasQualifier) {
emitError(ERR_UNNECESSARY_QUALIFIER_STATIC_METHOD, errorInfo, jsniRef);
} else if (needsQualifer && !hasQualifier) {
emitError(ERR_MISSING_QUALIFIER_INSTANCE_METHOD, errorInfo, jsniRef);
}
if (hasUnsafeLongsAnnotation) {
return target;
}
if (containsLong(target.returnType)) {
emitError(ERR_ILLEGAL_RETURN_TYPE, errorInfo, jsniRef, typeString(target.returnType));
}
if (target.parameters != null) {
int i = 0;
for (TypeBinding paramType : target.parameters) {
++i;
if (containsLong(paramType)) {
// It would be nice to print the parameter name, but how to find it?
emitError(ERR_ILLEGAL_PARAMETER, errorInfo, jsniRef, i, typeString(paramType));
}
}
}
return target;
}
private Binding resolveReference(SourceInfo errorInfo, JsniRef jsniRef, boolean hasQualifier,
boolean isLvalue) {
resolveClassReference(jsniRef);
String className = jsniRef.getResolvedClassName();
boolean isPrimitive;
ReferenceBinding clazz;
TypeBinding binding = method.scope.getBaseType(className.toCharArray());
if (binding != null) {
isPrimitive = true;
clazz = null;
} else {
isPrimitive = false;
binding = clazz = findClass(className);
}
if (binding != null && binding.isAnonymousType()) {
// There seems that there is no way to write a JSNI reference to an anonymous class as
// it will require to accept a source name of the form A.1 where one of the identifier parts
// consists only of digits and therefore is not a valid identifier.
// This error case is left here in case names of that form start appearing from the JSNI
// parser.
emitError(ERR_ILLEGAL_ANONYMOUS_INNER_CLASS, errorInfo, jsniRef);
return null;
} else if (binding == null) {
emitError(ERR_UNABLE_TO_RESOLVE_CLASS, errorInfo, jsniRef);
return null;
}
if (clazz != null && clazz.isDeprecated() &&
!isEnclosingClass(method.binding.declaringClass, clazz)) {
emitWarning("deprecation", WARN_DEPRECATED_CLASS, errorInfo, jsniRef);
}
if (jsniRef.isField() && "class".equals(jsniRef.memberName())) {
if (isLvalue) {
emitError(ERR_ILLEGAL_ASSIGNMENT_TO_CLASS_LITERAL, errorInfo, jsniRef);
return null;
}
// Reference to the class itself.
jsniRef.setResolvedClassName(JdtUtil.getSourceName(binding));
jsniRef.setResolvedMemberWithSignature(jsniRef.memberSignature());
if (jsniRef.isArray()) {
ArrayBinding arrayBinding =
method.scope.createArrayType(binding, jsniRef.getDimensions());
return arrayBinding;
} else {
return binding;
}
}
if (jsniRef.isArray() || isPrimitive) {
emitError(ERR_ILLEGAL_ARRAY_OR_PRIMITIVE_REFERENCE, errorInfo, jsniRef);
return null;
}
assert clazz != null;
if (jsniRef.isMethod()) {
return checkAndResolveMethodRef(errorInfo, clazz, jsniRef, hasQualifier, isLvalue);
} else {
return checkAndResolveFieldRef(errorInfo, clazz, jsniRef, hasQualifier, isLvalue);
}
}
private static final String WARN_NOT_CAPTURING_QUALIFIER =
"Instance method reference '%2$s.%3$s' loses its instance ('%8$s') when assigned; "
+ "to remove this warning either assign to a local variable or construct "
+ "the proper closure using an anonymous function or by calling "
+ "Function.prototype.bind";
private static final String ERR_ILLEGAL_ARRAY_OR_PRIMITIVE_REFERENCE =
"Referencing member '%2$s.%4$s': 'class' is " +
"the only legal reference for arrays and primitive types";
private static final String ERR_ILLEGAL_ASSIGNMENT_TO_CLASS_LITERAL =
"Illegal assignment to class literal '%2$s.%3$s'";
private static final String ERR_UNABLE_TO_RESOLVE_CLASS =
"Referencing class '%2$s': unable to resolve class";
private static final String ERR_ILLEGAL_ANONYMOUS_INNER_CLASS =
"Referencing class '%2$s': JSNI references to anonymous classes are illegal";
private static final String ERR_ILLEGAL_PARAMETER =
"Parameter %8$d of method '%2$s.%3$s': type '%9$s' may not be passed out of JSNI code";
private static final String ERR_ILLEGAL_RETURN_TYPE =
"Referencing method '%2$s.%3$s': return type '%8$s' is not safe to access in JSNI code";
private static final String ERR_MISSING_QUALIFIER_INSTANCE_METHOD =
"Missing qualifier on instance method '%2$s.%3$s'";
private static final String ERR_UNNECESSARY_QUALIFIER_STATIC_METHOD =
"Unnecessary qualifier on static method '%2$s.%3$s'";
private static final String ERR_MISSING_QUALIFIER_INSTANCE_FIELD =
"Missing qualifier on instance field '%2$s.%3$s'";
private static final String ERR_UNNECESSARY_QUALIFIER_STATIC_FIELD =
"Unnecessary qualifier on static field '%2$s.%3$s'";
private static final String ERR_ILLEGAL_ASSIGNMENT_TO_METHOD =
"Illegal assignment to method '%2$s.%3$s'";
private static final String ERR_UNABLE_TO_RESOLVE_METHOD =
"Referencing method '%2$s.%4$s': unable to resolve method in class '%6$s'";
private static final String ERR_UNABLE_TO_RESOLVE_FIELD =
"Referencing field '%2$s.%4$s': unable to resolve field in class '%6$s'";
private static final String ERR_AMBIGUOUS_WILDCARD_MATCH =
"Referencing method '%2$s.%4$s': ambiguous wildcard match; "
+ "both '%8$s' and '%9$s' match";
private static final String ERR_UNSAFE_FIELD_ACCESS =
"Referencing field '%2$s.%3$s': type '%8$s' is not safe to access in JSNI code";
private static final String ERR_ILLEGAL_ASSIGNMENT_TO_COMPILE_TIME_CONSTANT =
"Illegal assignment to compile-time constant '%2$s.%3$s'";
private static final String ERR_MALFORMED_JSNI_IDENTIFIER =
"Malformed JSNI identifier '%8$s'";
private static final String WARN_DEPRECATED_CLASS =
"Referencing deprecated class '%2$s'";
private static final String WARN_DEPRECATED_METHOD =
"Referencing method '%2$s.%3$s': method '%6$s.%7$s' is deprecated";
private static final String WARN_DEPRECATED_FIELD =
"Referencing field '%2$s.%3$s': field '%6$s.%7$s' is deprecated";
/**
* Formats messages for {@link #emitError} and {@link #emitWarning}, substituting as follows:
*
* - %1$s -> full original jsni string
* - %2$s -> full original jsni classname
* - %3$s -> full original jsni membername
* - %4$s -> full original jsni memberspec
* - %5$s -> full resolved jsni string
* - %6$s -> full resolved jsni classname
* - %7$s -> full resolved jsni member with signature
*
*/
private String formatMessage(String msg, JsniRef jsniRef, Object... extraPars) {
Object[] formatParameters = new Object[extraPars.length + 7];
if (jsniRef != null) {
formatParameters[0] = jsniRef.toString();
formatParameters[1] = jsniRef.fullClassName();
formatParameters[2] = jsniRef.memberName();
formatParameters[3] = jsniRef.memberSignature();
formatParameters[4] = jsniRef.getResolvedReference();
formatParameters[5] = jsniRef.getFullResolvedClassName();
formatParameters[6] = jsniRef.getResolvedMemberSignature();
}
for (int i = 0; i < extraPars.length; i++) {
formatParameters[i + 7] = extraPars[i];
}
return String.format(msg, formatParameters);
}
private void emitError(String msg, SourceInfo errorInfo, JsniRef jsniRef, Object... extraPars) {
JsniMethodCollector.reportJsniError(errorInfo, method, formatMessage(msg, jsniRef, extraPars));
}
private void emitWarning(String category, String msg, SourceInfo errorInfo, JsniRef jsniRef,
Object... extraPars) {
for (Set suppressWarnings : suppressWarningsStack) {
if (suppressWarnings.contains(category)
|| suppressWarnings.contains("all")) {
return;
}
}
JsniMethodCollector
.reportJsniWarning(errorInfo, method, formatMessage(msg, jsniRef, extraPars));
}
private ReferenceBinding findClass(String className) {
ReferenceBinding binding = typeResolver.resolveType(className);
assert !(binding instanceof ProblemReferenceBinding);
assert !(binding instanceof UnresolvedReferenceBinding);
return binding;
}
private FieldBinding getField(ReferenceBinding clazz, JsniRef jsniRef) {
assert jsniRef.isField();
return clazz.getField(jsniRef.memberName().toCharArray(), false);
}
private MethodBinding getMatchingConstructor(ReferenceBinding clazz, JsniRef jsniRef) {
for (MethodBinding constructorBinding : clazz.getMethods(INIT_CTOR_CHARS)) {
StringBuilder methodSig = new StringBuilder();
if (clazz instanceof NestedTypeBinding) {
// Match synthetic args for enclosing instances.
NestedTypeBinding nestedBinding = (NestedTypeBinding) clazz;
if (nestedBinding.enclosingInstances != null) {
for (int i = 0; i < nestedBinding.enclosingInstances.length; ++i) {
SyntheticArgumentBinding arg = nestedBinding.enclosingInstances[i];
methodSig.append(arg.type.signature());
}
}
}
if (constructorBinding.parameters != null) {
for (TypeBinding binding : constructorBinding.parameters) {
methodSig.append(binding.signature());
}
}
if (methodSig.toString().equals(jsniRef.paramTypesString())) {
return constructorBinding;
}
}
return null;
}
/**
* Returns true if {@code method}, is a method in {@code jsniClassQualifier} (to support current
* private method access} or is a visible method in the super class per Java import rules.
*/
private boolean isMethodVisibleToJsniRef(ReferenceBinding jsniClassQualifier,
MethodBinding targetMethod) {
return
// All methods are visible (regardless of access) as long as the JSNI class reference is
// explicit.
jsniClassQualifier == targetMethod.declaringClass ||
// All public superclass methods are visible.
targetMethod.isPublic()
// Protected and package private are visible from the same package.
|| !targetMethod.isPrivate() && method.binding.declaringClass.getPackage() ==
targetMethod.declaringClass.getPackage()
// Protected super class methods are visible from any subclass.
|| targetMethod.isProtected() &&
targetMethod.declaringClass.isSuperclassOf(method.binding.declaringClass);
}
private List getMatchingMethods(ReferenceBinding clazz, JsniRef jsniRef) {
assert jsniRef.isMethod();
List foundMethods = Lists.newArrayList();
String methodName = jsniRef.memberName();
if ("new".equals(methodName)) {
MethodBinding constructorBinding = getMatchingConstructor(clazz, jsniRef);
if (constructorBinding != null) {
foundMethods.add(constructorBinding);
}
} else {
Queue work = Lists.newLinkedList();
work.add(clazz);
while (!work.isEmpty()) {
ReferenceBinding currentClass = work.remove();
NEXT_METHOD:
for (MethodBinding findMethod : currentClass.getMethods(methodName.toCharArray())) {
if (!isMethodVisibleToJsniRef(clazz, findMethod)) {
continue;
}
if (!paramTypesMatch(findMethod, jsniRef)) {
continue;
}
for (MethodBinding alreadyFound : foundMethods) {
// Only collect methods with different signatures (same signatures are overloads
// hence they are ok.
if (paramTypesMatch(alreadyFound, findMethod)) {
break NEXT_METHOD;
}
}
foundMethods.add(findMethod);
}
ReferenceBinding[] superInterfaces = currentClass.superInterfaces();
if (superInterfaces != null) {
work.addAll(Arrays.asList(superInterfaces));
}
ReferenceBinding superclass = currentClass.superclass();
if (superclass != null) {
work.add(superclass);
}
}
}
return foundMethods;
}
private boolean paramTypesMatch(MethodBinding method, JsniRef jsniRef) {
if (jsniRef.matchesAnyOverload()) {
return true;
}
StringBuilder methodSig = new StringBuilder();
if (method.parameters != null) {
for (TypeBinding binding : method.parameters) {
methodSig.append(binding.signature());
}
}
return methodSig.toString().equals(jsniRef.paramTypesString());
}
private boolean paramTypesMatch(MethodBinding thisMethod, MethodBinding thatMethod) {
int thisParameterCount = thisMethod.parameters == null ? 0 : thisMethod.parameters.length;
int thatParameterCount = thatMethod.parameters == null ? 0 : thatMethod.parameters.length;
if (thisParameterCount != thatParameterCount) {
return false;
}
for (int i = 0; i < thisParameterCount; i++) {
TypeBinding thisBinding = thisMethod.parameters[i];
TypeBinding thatBinding = thatMethod.parameters[i];
if (!new String(thisBinding.signature()).equals(new String(thatBinding.signature()))) {
return false;
}
}
return true;
}
private String typeString(TypeBinding type) {
return String.valueOf(type.shortReadableName());
}
}
private static final char[] INIT_CTOR_CHARS = "".toCharArray();
private static final char[][] UNSAFE_LONG_ANNOTATION_CHARS = CharOperation.splitOn(
'.', UnsafeNativeLong.class.getName().toCharArray());
/**
* Resolve JSNI references in an entire
* {@link org.eclipse.jdt.internal.compiler.ast.CompilationUnitDeclaration}.
*/
public static void resolve(CompilationUnitDeclaration cud,
List cudOriginalImports,
Map jsniMethods,
Map jsniRefs, TypeResolver typeResolver) {
new JsniReferenceResolver(cud, cudOriginalImports, typeResolver, jsniMethods, jsniRefs)
.resolve();
}
Set getSuppressedWarnings(Annotation[] annotations) {
if (annotations == null) {
return ImmutableSet.of();
}
for (Annotation a : annotations) {
if (!SuppressWarnings.class.getName().equals(
CharOperation.toString(((ReferenceBinding) a.resolvedType).compoundName))) {
continue;
}
for (MemberValuePair pair : a.memberValuePairs()) {
if (!String.valueOf(pair.name).equals("value")) {
continue;
}
Expression valueExpr = pair.value;
if (valueExpr instanceof StringLiteral) {
// @SuppressWarnings("Foo")
return ImmutableSet.of(((StringLiteral) valueExpr).constant.stringValue().toLowerCase(
Locale.ENGLISH));
} else if (valueExpr instanceof ArrayInitializer) {
// @SuppressWarnings({ "Foo", "Bar"})
ArrayInitializer ai = (ArrayInitializer) valueExpr;
ImmutableSet.Builder valuesSetBuilder = ImmutableSet.builder();
for (int i = 0, j = ai.expressions.length; i < j; i++) {
if ((ai.expressions[i]) instanceof StringLiteral) {
StringLiteral expression = (StringLiteral) ai.expressions[i];
valuesSetBuilder.add(expression.constant.stringValue().toLowerCase(Locale.ENGLISH));
} else {
suppressionAnnotationWarning(a,
"Unable to analyze SuppressWarnings annotation, " +
ai.expressions[i].toString() + " not a string constant.");
}
}
return valuesSetBuilder.build();
} else {
suppressionAnnotationWarning(a, "Unable to analyze SuppressWarnings annotation, " +
valueExpr.toString() + " not a string constant.");
}
}
}
return ImmutableSet.of();
}
private final CompilationUnitDeclaration cud;
private final List cudImports;
private final Map jsniMethods;
private final Map jsniRefs;
private final Stack> suppressWarningsStack = new Stack>();
private final TypeResolver typeResolver;
private JsniReferenceResolver(CompilationUnitDeclaration cud, List cudImports,
TypeResolver typeResolver, Map jsniMethods,
Map jsniRefs) {
this.cud = cud;
this.cudImports = cudImports;
this.typeResolver = typeResolver;
this.jsniMethods = jsniMethods;
this.jsniRefs = jsniRefs;
}
private void resolve() {
// First resolve the declarations.
cud.traverse(new JsniDeclChecker(), cud.scope);
}
/**
* Check whether the argument type is the long
primitive type. If
* the argument is null
, returns false
.
*/
private boolean containsLong(TypeBinding type) {
if (!(type instanceof BaseTypeBinding)) {
return false;
}
BaseTypeBinding btb = (BaseTypeBinding) type;
if (btb.id == TypeIds.T_long) {
return true;
}
return false;
}
private boolean hasUnsafeLongsAnnotation(MethodDeclaration meth,
ClassScope scope) {
if (meth.annotations == null) {
return false;
}
for (Annotation annot : meth.annotations) {
if (isUnsafeLongAnnotation(annot, scope)) {
return true;
}
}
return false;
}
private boolean isUnsafeLongAnnotation(Annotation annot, ClassScope scope) {
if (annot.type == null) {
return false;
}
TypeBinding resolved = annot.type.resolveType(scope);
if (resolved == null || !(resolved instanceof ReferenceBinding)) {
return false;
}
ReferenceBinding rb = (ReferenceBinding) resolved;
if (CharOperation.equals(rb.compoundName, UNSAFE_LONG_ANNOTATION_CHARS)) {
return true;
}
return false;
}
private void longAccessError(ASTNode node, String message) {
GWTProblem.recordError(node, cud, message, new InstalledHelpInfo(
"longJsniRestriction.html"));
}
private void suppressionAnnotationWarning(ASTNode node, String message) {
GWTProblem.recordProblem(node, cud.compilationResult(), message, null,
ProblemSeverities.Warning);
}
private static void resolveJsniRef(JsniRef jsniRef, FieldBinding fieldBinding) {
if (fieldBinding == null) {
return;
}
jsniRef.setResolvedClassName(JdtUtil.getSourceName(fieldBinding.declaringClass));
jsniRef.setResolvedMemberWithSignature(new String(fieldBinding.name));
}
private static void resolveJsniRef(JsniRef jsniRef, MethodBinding methodBinding) {
if (methodBinding == null) {
return;
}
ReferenceBinding declaringClassBinding = methodBinding.declaringClass;
jsniRef.setResolvedClassName(JdtUtil.getSourceName(declaringClassBinding));
jsniRef.setResolvedMemberWithSignature(JdtUtil.formatMethodSignature(methodBinding));
}
}