me.tomassetti.symbolsolver.resolution.SymbolSolver Maven / Gradle / Ivy
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package me.tomassetti.symbolsolver.resolution;
import com.github.javaparser.ast.Node;
import com.github.javaparser.ast.type.ClassOrInterfaceType;
import com.github.javaparser.ast.type.ReferenceType;
import me.tomassetti.symbolsolver.core.resolution.Context;
import me.tomassetti.symbolsolver.javaparsermodel.JavaParserFactory;
import me.tomassetti.symbolsolver.javaparsermodel.UnsolvedSymbolException;
import me.tomassetti.symbolsolver.javaparsermodel.declarations.JavaParserClassDeclaration;
import me.tomassetti.symbolsolver.javaparsermodel.declarations.JavaParserEnumDeclaration;
import me.tomassetti.symbolsolver.javaparsermodel.declarations.JavaParserInterfaceDeclaration;
import me.tomassetti.symbolsolver.javassistmodel.JavassistClassDeclaration;
import me.tomassetti.symbolsolver.model.declarations.MethodDeclaration;
import me.tomassetti.symbolsolver.model.declarations.TypeDeclaration;
import me.tomassetti.symbolsolver.model.declarations.ValueDeclaration;
import me.tomassetti.symbolsolver.model.resolution.SymbolReference;
import me.tomassetti.symbolsolver.model.resolution.TypeSolver;
import me.tomassetti.symbolsolver.model.resolution.Value;
import me.tomassetti.symbolsolver.model.usages.MethodUsage;
import me.tomassetti.symbolsolver.model.usages.typesystem.ReferenceTypeImpl;
import me.tomassetti.symbolsolver.model.usages.typesystem.Type;
import me.tomassetti.symbolsolver.reflectionmodel.ReflectionClassDeclaration;
import me.tomassetti.symbolsolver.reflectionmodel.ReflectionInterfaceDeclaration;
import java.util.List;
import java.util.Optional;
public class SymbolSolver {
private TypeSolver typeSolver;
public SymbolSolver(TypeSolver typeSolver) {
if (typeSolver == null) throw new IllegalArgumentException();
this.typeSolver = typeSolver;
}
public SymbolReference solveSymbol(String name, Context context) {
return context.solveSymbol(name, typeSolver);
}
public SymbolReference solveSymbol(String name, Node node) {
return solveSymbol(name, JavaParserFactory.getContext(node, typeSolver));
}
public Optional solveSymbolAsValue(String name, Context context) {
return context.solveSymbolAsValue(name, typeSolver);
}
public Optional solveSymbolAsValue(String name, Node node) {
Context context = JavaParserFactory.getContext(node, typeSolver);
return solveSymbolAsValue(name, context);
}
public SymbolReference solveType(String name, Context context) {
return context.solveType(name, typeSolver);
}
public SymbolReference solveType(String name, Node node) {
return solveType(name, JavaParserFactory.getContext(node, typeSolver));
}
public MethodUsage solveMethod(String methodName, List argumentsTypes, Context context) {
SymbolReference decl = context.solveMethod(methodName, argumentsTypes, typeSolver);
if (!decl.isSolved()) {
throw new UnsolvedSymbolException(context, methodName);
}
return new MethodUsage(decl.getCorrespondingDeclaration());
}
public MethodUsage solveMethod(String methodName, List argumentsTypes, Node node) {
return solveMethod(methodName, argumentsTypes, JavaParserFactory.getContext(node, typeSolver));
}
;
public TypeDeclaration solveType(com.github.javaparser.ast.type.Type type) {
if (type instanceof ReferenceType) {
ReferenceType referenceType = (ReferenceType) type;
// TODO consider array modifiers
return solveType(referenceType.getType());
} else if (type instanceof ClassOrInterfaceType) {
// FIXME should call typesolver here!
String name = ((ClassOrInterfaceType) type).getName();
SymbolReference ref = JavaParserFactory.getContext(type, typeSolver).solveType(name, typeSolver);
if (!ref.isSolved()) {
throw new UnsolvedSymbolException(JavaParserFactory.getContext(type, typeSolver), name);
}
return ref.getCorrespondingDeclaration();
} else {
throw new UnsupportedOperationException(type.getClass().getCanonicalName());
}
}
public Type solveTypeUsage(String name, Context context) {
Optional genericType = context.solveGenericType(name, typeSolver);
if (genericType.isPresent()) {
return genericType.get();
}
TypeDeclaration typeDeclaration = typeSolver.solveType(name);
ReferenceTypeImpl typeUsage = new ReferenceTypeImpl(typeDeclaration, typeSolver);
return typeUsage;
}
/**
* Solve any possible visible symbols including: fields, internal types, type variables, the type itself or its containers.
*
* It should contain its own private fields but not inherited private fields.
*/
public SymbolReference solveSymbolInType(TypeDeclaration typeDeclaration, String name) {
if (typeDeclaration instanceof JavaParserClassDeclaration) {
Context ctx = ((JavaParserClassDeclaration)typeDeclaration).getContext();
return ctx.solveSymbol(name, typeSolver);
}
if (typeDeclaration instanceof JavaParserInterfaceDeclaration) {
Context ctx = ((JavaParserInterfaceDeclaration)typeDeclaration).getContext();
return ctx.solveSymbol(name, typeSolver);
}
if (typeDeclaration instanceof JavaParserEnumDeclaration) {
Context ctx = ((JavaParserEnumDeclaration)typeDeclaration).getContext();
return ctx.solveSymbol(name, typeSolver);
}
if (typeDeclaration instanceof ReflectionClassDeclaration) {
return ((ReflectionClassDeclaration)typeDeclaration).solveSymbol(name, typeSolver);
}
if (typeDeclaration instanceof ReflectionInterfaceDeclaration) {
return ((ReflectionInterfaceDeclaration)typeDeclaration).solveSymbol(name, typeSolver);
}
if (typeDeclaration instanceof JavassistClassDeclaration) {
return ((JavassistClassDeclaration)typeDeclaration).solveSymbol(name, typeSolver);
}
return SymbolReference.unsolved(ValueDeclaration.class);
}
/**
* Try to solve a symbol just in the declaration, it does not delegate to the container.
*/
public SymbolReference solveTypeInType(TypeDeclaration typeDeclaration, String name) {
if (typeDeclaration instanceof JavaParserClassDeclaration) {
return ((JavaParserClassDeclaration)typeDeclaration).solveType(name, typeSolver);
}
if (typeDeclaration instanceof JavaParserInterfaceDeclaration) {
return ((JavaParserInterfaceDeclaration)typeDeclaration).solveType(name, typeSolver);
}
return SymbolReference.unsolved(TypeDeclaration.class);
}
}