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A Symbol Solver for Java, built on top of JavaParser (core)
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/*
* Copyright (C) 2015-2016 Federico Tomassetti
* Copyright (C) 2017-2020 The JavaParser Team.
*
* This file is part of JavaParser.
*
* JavaParser can be used either under the terms of
* a) the GNU Lesser General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
* b) the terms of the Apache License
*
* You should have received a copy of both licenses in LICENCE.LGPL and
* LICENCE.APACHE. Please refer to those files for details.
*
* JavaParser is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Lesser General Public License for more details.
*/
package com.github.javaparser.symbolsolver.reflectionmodel;
import com.github.javaparser.ast.AccessSpecifier;
import com.github.javaparser.ast.Node;
import com.github.javaparser.ast.body.ClassOrInterfaceDeclaration;
import com.github.javaparser.resolution.MethodUsage;
import com.github.javaparser.resolution.declarations.*;
import com.github.javaparser.resolution.types.ResolvedReferenceType;
import com.github.javaparser.resolution.types.ResolvedType;
import com.github.javaparser.symbolsolver.core.resolution.Context;
import com.github.javaparser.symbolsolver.core.resolution.MethodUsageResolutionCapability;
import com.github.javaparser.symbolsolver.javaparsermodel.LambdaArgumentTypePlaceholder;
import com.github.javaparser.symbolsolver.logic.AbstractTypeDeclaration;
import com.github.javaparser.symbolsolver.logic.ConfilictingGenericTypesException;
import com.github.javaparser.symbolsolver.logic.InferenceContext;
import com.github.javaparser.symbolsolver.logic.MethodResolutionCapability;
import com.github.javaparser.symbolsolver.model.resolution.SymbolReference;
import com.github.javaparser.symbolsolver.model.resolution.TypeSolver;
import com.github.javaparser.symbolsolver.model.typesystem.NullType;
import com.github.javaparser.symbolsolver.model.typesystem.ReferenceTypeImpl;
import java.lang.reflect.Field;
import java.util.*;
import java.util.stream.Collectors;
/**
* @author Federico Tomassetti
*/
public class ReflectionInterfaceDeclaration extends AbstractTypeDeclaration
implements ResolvedInterfaceDeclaration, MethodResolutionCapability, MethodUsageResolutionCapability {
///
/// Fields
///
private Class> clazz;
private TypeSolver typeSolver;
private ReflectionClassAdapter reflectionClassAdapter;
///
/// Constructor
///
public ReflectionInterfaceDeclaration(Class> clazz, TypeSolver typeSolver) {
if (!clazz.isInterface()) {
throw new IllegalArgumentException();
}
this.clazz = clazz;
this.typeSolver = typeSolver;
this.reflectionClassAdapter = new ReflectionClassAdapter(clazz, typeSolver, this);
}
///
/// Public methods
///
@Override
public boolean isAssignableBy(ResolvedReferenceTypeDeclaration other) {
return isAssignableBy(new ReferenceTypeImpl(other, typeSolver));
}
@Override
public String getPackageName() {
if (clazz.getPackage() != null) {
return clazz.getPackage().getName();
}
return null;
}
@Override
public String getClassName() {
String canonicalName = clazz.getCanonicalName();
if (canonicalName != null && getPackageName() != null) {
return canonicalName.substring(getPackageName().length() + 1);
}
return null;
}
@Override
public String getQualifiedName() {
return clazz.getCanonicalName();
}
@Override
@Deprecated
public SymbolReference solveMethod(String name, List parameterTypes, boolean staticOnly) {
return ReflectionMethodResolutionLogic.solveMethod(name, parameterTypes, staticOnly,
typeSolver,this, clazz);
}
@Override
public String toString() {
return "ReflectionInterfaceDeclaration{" +
"clazz=" + clazz.getCanonicalName() +
'}';
}
public ResolvedType getUsage(Node node) {
return new ReferenceTypeImpl(this, typeSolver);
}
@Override
public boolean equals(Object o) {
if (this == o) return true;
if (!(o instanceof ReflectionInterfaceDeclaration)) return false;
ReflectionInterfaceDeclaration that = (ReflectionInterfaceDeclaration) o;
if (!clazz.getCanonicalName().equals(that.clazz.getCanonicalName())) return false;
if (!getTypeParameters().equals(that.getTypeParameters())) {
return false;
}
return true;
}
@Override
public int hashCode() {
return clazz.hashCode();
}
public Optional solveMethodAsUsage(String name, List parameterTypes,
Context invokationContext, List typeParameterValues) {
Optional res = ReflectionMethodResolutionLogic.solveMethodAsUsage(name, parameterTypes, typeSolver, invokationContext,
typeParameterValues, this, clazz);
if (res.isPresent()) {
// We have to replace method type typeParametersValues here
InferenceContext inferenceContext = new InferenceContext(MyObjectProvider.INSTANCE);
MethodUsage methodUsage = res.get();
int i = 0;
List parameters = new LinkedList<>();
for (ResolvedType actualType : parameterTypes) {
ResolvedType formalType = methodUsage.getParamType(i);
// We need to replace the class type typeParametersValues (while we derive the method ones)
parameters.add(inferenceContext.addPair(formalType, actualType));
i++;
}
try {
ResolvedType returnType = inferenceContext.addSingle(methodUsage.returnType());
for (int j=0;j getAllFields() {
return reflectionClassAdapter.getAllFields();
}
@Deprecated
public SymbolReference extends ResolvedValueDeclaration> solveSymbol(String name, TypeSolver typeSolver) {
for (Field field : clazz.getFields()) {
if (field.getName().equals(name)) {
return SymbolReference.solved(new ReflectionFieldDeclaration(field, typeSolver));
}
}
return SymbolReference.unsolved(ResolvedValueDeclaration.class);
}
@Override
public List getAncestors(boolean acceptIncompleteList) {
// we do not attempt to perform any symbol solving when analyzing ancestors in the reflection model, so we can
// simply ignore the boolean parameter here; an UnsolvedSymbolException cannot occur
return reflectionClassAdapter.getAncestors();
}
@Override
public Set getDeclaredMethods() {
return reflectionClassAdapter.getDeclaredMethods();
}
@Override
public boolean hasField(String name) {
return reflectionClassAdapter.hasField(name);
}
@Override
public String getName() {
return clazz.getSimpleName();
}
@Override
public boolean isInterface() {
return true;
}
@Override
public List getInterfacesExtended() {
List res = new ArrayList<>();
for (Class i : clazz.getInterfaces()) {
res.add(new ReferenceTypeImpl(new ReflectionInterfaceDeclaration(i, typeSolver), typeSolver));
}
return res;
}
@Override
public Optional containerType() {
return reflectionClassAdapter.containerType();
}
@Override
public Set internalTypes() {
return Arrays.stream(this.clazz.getDeclaredClasses())
.map(ic -> ReflectionFactory.typeDeclarationFor(ic, typeSolver))
.collect(Collectors.toSet());
}
@Override
public ResolvedInterfaceDeclaration asInterface() {
return this;
}
@Override
public boolean hasDirectlyAnnotation(String canonicalName) {
return reflectionClassAdapter.hasDirectlyAnnotation(canonicalName);
}
@Override
public List getTypeParameters() {
return reflectionClassAdapter.getTypeParameters();
}
@Override
public AccessSpecifier accessSpecifier() {
return ReflectionFactory.modifiersToAccessLevel(this.clazz.getModifiers());
}
@Override
public List getConstructors() {
return Collections.emptyList();
}
@Override
public Optional toAst() {
return Optional.empty();
}
}