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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.resolution.MethodUsage;
import com.github.javaparser.resolution.declarations.ResolvedMethodDeclaration;
import com.github.javaparser.resolution.declarations.ResolvedReferenceTypeDeclaration;
import com.github.javaparser.resolution.declarations.ResolvedTypeParameterDeclaration;
import com.github.javaparser.resolution.types.ResolvedReferenceType;
import com.github.javaparser.resolution.types.ResolvedType;
import com.github.javaparser.resolution.types.ResolvedTypeVariable;
import com.github.javaparser.symbolsolver.core.resolution.Context;
import com.github.javaparser.symbolsolver.model.resolution.SymbolReference;
import com.github.javaparser.symbolsolver.model.resolution.TypeSolver;
import com.github.javaparser.symbolsolver.model.typesystem.ReferenceTypeImpl;
import com.github.javaparser.symbolsolver.resolution.MethodResolutionLogic;
import java.lang.reflect.Method;
import java.lang.reflect.Modifier;
import java.util.ArrayList;
import java.util.List;
import java.util.Optional;
import java.util.function.Predicate;
import java.util.stream.Collectors;
/**
* @author Federico Tomassetti
*/
class ReflectionMethodResolutionLogic {
static SymbolReference solveMethod(String name, List parameterTypes, boolean staticOnly,
TypeSolver typeSolver, ResolvedReferenceTypeDeclaration scopeType,
Class clazz){
List methods = new ArrayList<>();
Predicate staticOnlyCheck = m -> !staticOnly || (staticOnly && Modifier.isStatic(m.getModifiers()));
for (Method method : clazz.getMethods()) {
if (method.isBridge() || method.isSynthetic() || !method.getName().equals(name)|| !staticOnlyCheck.test(method)) continue;
ResolvedMethodDeclaration methodDeclaration = new ReflectionMethodDeclaration(method, typeSolver);
methods.add(methodDeclaration);
}
for (ResolvedReferenceType ancestor : scopeType.getAncestors()) {
ancestor.getTypeDeclaration().ifPresent(ancestorTypeDeclaration -> {
SymbolReference ref = MethodResolutionLogic.solveMethodInType(ancestorTypeDeclaration, name, parameterTypes, staticOnly);
if (ref.isSolved()) {
methods.add(ref.getCorrespondingDeclaration());
}
});
}
if (scopeType.getAncestors().isEmpty()){
ReferenceTypeImpl objectClass = new ReferenceTypeImpl(new ReflectionClassDeclaration(Object.class, typeSolver), typeSolver);
objectClass.getTypeDeclaration().ifPresent(objectTypeDeclaration -> {
SymbolReference ref = MethodResolutionLogic.solveMethodInType(objectTypeDeclaration, name, parameterTypes, staticOnly);
if (ref.isSolved()) {
methods.add(ref.getCorrespondingDeclaration());
}
});
}
return MethodResolutionLogic.findMostApplicable(methods, name, parameterTypes, typeSolver);
}
static Optional solveMethodAsUsage(String name, List argumentsTypes, TypeSolver typeSolver,
Context invokationContext, List typeParameterValues,
ResolvedReferenceTypeDeclaration scopeType, Class clazz) {
if (typeParameterValues.size() != scopeType.getTypeParameters().size()) {
// if it is zero we are going to ignore them
if (!scopeType.getTypeParameters().isEmpty()) {
// Parameters not specified, so default to Object
typeParameterValues = new ArrayList<>();
for (int i = 0; i < scopeType.getTypeParameters().size(); i++) {
typeParameterValues.add(new ReferenceTypeImpl(new ReflectionClassDeclaration(Object.class, typeSolver), typeSolver));
}
}
}
List methods = new ArrayList<>();
for (Method method : clazz.getMethods()) {
if (method.getName().equals(name) && !method.isBridge() && !method.isSynthetic()) {
ResolvedMethodDeclaration methodDeclaration = new ReflectionMethodDeclaration(method, typeSolver);
MethodUsage methodUsage = replaceParams(typeParameterValues, scopeType, methodDeclaration);
methods.add(methodUsage);
}
}
for(ResolvedReferenceType ancestor : scopeType.getAncestors()){
if(ancestor.getTypeDeclaration().isPresent()) {
ResolvedReferenceTypeDeclaration ancestorTypeDeclaration = ancestor.getTypeDeclaration().get();
SymbolReference ref = MethodResolutionLogic.solveMethodInType(ancestorTypeDeclaration, name, argumentsTypes);
if (ref.isSolved()){
ResolvedMethodDeclaration correspondingDeclaration = ref.getCorrespondingDeclaration();
MethodUsage methodUsage = replaceParams(typeParameterValues, ancestorTypeDeclaration, correspondingDeclaration);
methods.add(methodUsage);
}
}
}
if (scopeType.getAncestors().isEmpty()) {
Optional optionalObjectClass = new ReferenceTypeImpl(new ReflectionClassDeclaration(Object.class, typeSolver), typeSolver).getTypeDeclaration();
if (optionalObjectClass.isPresent()) {
SymbolReference ref = MethodResolutionLogic.solveMethodInType(optionalObjectClass.get(), name, argumentsTypes);
if (ref.isSolved()) {
MethodUsage usage = replaceParams(typeParameterValues, optionalObjectClass.get(), ref.getCorrespondingDeclaration());
methods.add(usage);
}
}
}
final List finalTypeParameterValues = typeParameterValues;
argumentsTypes = argumentsTypes.stream().map((pt) -> {
int i = 0;
for (ResolvedTypeParameterDeclaration tp : scopeType.getTypeParameters()) {
pt = pt.replaceTypeVariables(tp, finalTypeParameterValues.get(i));
i++;
}
return pt;
}).collect(Collectors.toList());
return MethodResolutionLogic.findMostApplicableUsage(methods, name, argumentsTypes, typeSolver);
}
private static MethodUsage replaceParams(List typeParameterValues, ResolvedReferenceTypeDeclaration typeParametrizable, ResolvedMethodDeclaration methodDeclaration) {
MethodUsage methodUsage = new MethodUsage(methodDeclaration);
int i = 0;
// Only replace if we have enough values provided
if (typeParameterValues.size() == typeParametrizable.getTypeParameters().size()){
for (ResolvedTypeParameterDeclaration tp : typeParametrizable.getTypeParameters()) {
methodUsage = methodUsage.replaceTypeParameter(tp, typeParameterValues.get(i));
i++;
}
}
for (ResolvedTypeParameterDeclaration methodTypeParameter : methodDeclaration.getTypeParameters()) {
methodUsage = methodUsage.replaceTypeParameter(methodTypeParameter, new ResolvedTypeVariable(methodTypeParameter));
}
return methodUsage;
}
}