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/*
 * SonarQube Java
 * Copyright (C) 2012 SonarSource
 * [email protected]
 *
 * This program is free software; you can redistribute it and/or
 * modify it under the terms of 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.
 *
 * This program 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.
 *
 * You should have received a copy of the GNU Lesser General Public
 * License along with this program; if not, write to the Free Software
 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02
 */
package org.sonar.java.resolve;

import com.google.common.annotations.VisibleForTesting;

import java.util.List;

/**
 * Routines for name resolution.
 * 

* Lookup by name and then filter by type is performant, because amount of symbols with same name are relatively small. *

* Naming conventions: * env - is the environment where the symbol was mentioned * site - is the type of which symbol is a member * name - is the symbol's name *

* TODO site should be represented by class Type */ public class Resolve { private final SymbolNotFound symbolNotFound = new SymbolNotFound(); private final Types types = new Types(); static class Env { /** * The next enclosing environment. */ Env next; /** * The environment enclosing the current class. */ Env outer; Symbol.PackageSymbol packge; Symbol.TypeSymbol enclosingClass; Scope scope; Env outer() { return outer; } Symbol.TypeSymbol enclosingClass() { return enclosingClass; } public Symbol.PackageSymbol packge() { return packge; } Scope scope() { return scope; } public Env dup() { Env env = new Env(); env.next = this; env.outer = this.outer; env.packge = this.packge; env.enclosingClass = this.enclosingClass; env.scope = this.scope; return env; } } /** * Finds field with given name. */ private Symbol findField(Env env, Symbol.TypeSymbol site, String name, Symbol.TypeSymbol c) { Symbol bestSoFar = symbolNotFound; for (Symbol symbol : c.members().lookup(name)) { if (symbol.kind == Symbol.VAR) { return isAccessible(env, site, symbol) ? symbol : new AccessErrorSymbol(symbol); } } Symbol symbol; if (c.getSuperclass() != null) { symbol = findField(env, site, name, c.getSuperclass().symbol); if (symbol.kind < bestSoFar.kind) { bestSoFar = symbol; } } for (Type interfaceType : c.getInterfaces()) { symbol = findField(env, site, name, interfaceType.symbol); if (symbol.kind < bestSoFar.kind) { bestSoFar = symbol; } } return bestSoFar; } /** * Finds variable or field with given name. */ private Symbol findVar(Env env, String name) { Symbol bestSoFar = symbolNotFound; Env env1 = env; while (env1.outer() != null) { Symbol sym = null; for (Symbol symbol : env1.scope().lookup(name)) { if (symbol.kind == Symbol.VAR) { sym = symbol; } } if (sym == null) { sym = findField(env1, env1.enclosingClass(), name, env1.enclosingClass()); } if (sym.kind < Symbol.ERRONEOUS) { // symbol exists return sym; } else if (sym.kind < bestSoFar.kind) { bestSoFar = sym; } env1 = env1.outer(); } // TODO imports return bestSoFar; } public Symbol findMemberType(Env env, Symbol.TypeSymbol site, String name, Symbol.TypeSymbol c) { Symbol bestSoFar = symbolNotFound; for (Symbol symbol : c.members().lookup(name)) { if (symbol.kind == Symbol.TYP) { return isAccessible(env, site, symbol) ? symbol : new AccessErrorSymbol(symbol); } } if (c.getSuperclass() != null) { Symbol symbol = findMemberType(env, site, name, c.getSuperclass().symbol); if (symbol.kind < bestSoFar.kind) { bestSoFar = symbol; } } for (Type interfaceType : c.getInterfaces()) { Symbol symbol = findMemberType(env, site, name, interfaceType.symbol); if (symbol.kind < bestSoFar.kind) { bestSoFar = symbol; } } return bestSoFar; } /** * Finds type with given name. */ private Symbol findType(Env env, String name) { Symbol bestSoFar = symbolNotFound; for (Env env1 = env; env1.outer() != null; env1 = env1.outer()) { for (Symbol symbol : env1.scope().lookup(name)) { if (symbol.kind == Symbol.TYP) { return symbol; } } Symbol symbol = findMemberType(env1, env1.enclosingClass(), name, env1.enclosingClass()); if (symbol.kind < Symbol.ERRONEOUS) { // symbol exists return symbol; } else if (symbol.kind < bestSoFar.kind) { bestSoFar = symbol; } } // TODO imports for (Symbol symbol : env.packge().members.lookup(name)) { if (symbol.kind < bestSoFar.kind) { bestSoFar = symbol; } } return bestSoFar; } /** * @param kind subset of {@link Symbol#VAR}, {@link Symbol#TYP}, {@link Symbol#PCK} */ public Symbol findIdent(Env env, String name, int kind) { Symbol bestSoFar = symbolNotFound; Symbol symbol; if ((kind & Symbol.VAR) != 0) { symbol = findVar(env, name); if (symbol.kind < Symbol.ERRONEOUS) { // symbol exists return symbol; } else if (symbol.kind < bestSoFar.kind) { bestSoFar = symbol; } } if ((kind & Symbol.TYP) != 0) { symbol = findType(env, name); if (symbol.kind < Symbol.ERRONEOUS) { // symbol exists return symbol; } else if (symbol.kind < bestSoFar.kind) { bestSoFar = symbol; } } if ((kind & Symbol.PCK) != 0) { // TODO read package } return bestSoFar; } /** * @param kind subset of {@link Symbol#TYP}, {@link Symbol#PCK} */ public Symbol findIdentInPackage(Env env, Symbol site, String name, int kind) { // TODO implement me return symbolNotFound; } /** * @param kind subset of {@link Symbol#VAR}, {@link Symbol#TYP} */ public Symbol findIdentInType(Env env, Symbol.TypeSymbol site, String name, int kind) { Symbol bestSoFar = symbolNotFound; Symbol symbol; if ((kind & Symbol.VAR) != 0) { symbol = findField(env, site, name, site); if (symbol.kind < Symbol.ERRONEOUS) { // symbol exists return symbol; } else if (symbol.kind < bestSoFar.kind) { bestSoFar = symbol; } } if ((kind & Symbol.TYP) != 0) { symbol = findMemberType(env, site, name, site); if (symbol.kind < Symbol.ERRONEOUS) { // symbol exists return symbol; } else if (symbol.kind < bestSoFar.kind) { bestSoFar = symbol; } } return bestSoFar; } /** * Finds method matching given name and types of arguments. */ public Symbol findMethod(Env env, String name, List argTypes) { Symbol bestSoFar = symbolNotFound; Env env1 = env; while (env1.outer() != null) { Symbol sym = findMethod(env1, env1.enclosingClass(), name, argTypes); if (sym.kind < Symbol.ERRONEOUS) { // symbol exists return sym; } else if (sym.kind < bestSoFar.kind) { bestSoFar = sym; } env1 = env1.outer; } // TODO imports return bestSoFar; } public Symbol findMethod(Env env, Symbol.TypeSymbol site, String name, List argTypes) { Symbol bestSoFar = symbolNotFound; // TODO search in supertypes for (Symbol symbol : site.members().lookup(name)) { if (symbol.kind == Symbol.MTH) { bestSoFar = selectBest(env, site, argTypes, symbol, bestSoFar); } } // best guess: method with unique name // TODO remove, when search will be improved if (bestSoFar.kind < Symbol.ERRONEOUS) { return bestSoFar; } for (Symbol symbol : site.enclosingClass().members().lookup(name)) { if ((symbol.kind == Symbol.MTH) && isAccessible(env, site, symbol)) { if (bestSoFar.kind < Symbol.ERRONEOUS) { return new AmbiguityErrorSymbol(); } bestSoFar = symbol; } } return bestSoFar; } /** * @param symbol candidate * @param bestSoFar previously found best match */ private Symbol selectBest(Env env, Symbol.TypeSymbol site, List argTypes, Symbol symbol, Symbol bestSoFar) { if (!isInheritedIn(symbol, site)) { return bestSoFar; } // TODO get rid of null check if (symbol.type == null) { return bestSoFar; } if (!isArgumentsAcceptable(argTypes, ((Type.MethodType) symbol.type).argTypes)) { return bestSoFar; } // TODO ambiguity, errors, ... if (!isAccessible(env, site, symbol)) { return new AccessErrorSymbol(symbol); } return selectMostSpecific(symbol, bestSoFar); } /** * @param argTypes types of arguments * @param formals types of formal parameters of method */ private boolean isArgumentsAcceptable(List argTypes, List formals) { // TODO varargs if (argTypes.size() != formals.size()) { return false; } for (int i = 0; i < argTypes.size(); i++) { if (!types.isSubtype(argTypes.get(i), formals.get(i))) { return false; } } return true; } /** * JLS7 15.12.2.5. Choosing the Most Specific Method */ private Symbol selectMostSpecific(Symbol m1, Symbol m2) { // FIXME get rig of null check if (m2.type == null) { return m1; } boolean m1SignatureMoreSpecific = isSignatureMoreSpecific(m1, m2); boolean m2SignatureMoreSpecific = isSignatureMoreSpecific(m2, m1); if (m1SignatureMoreSpecific && m2SignatureMoreSpecific) { // TODO handle this case return new AmbiguityErrorSymbol(); } else if (m1SignatureMoreSpecific) { return m1; } else if (m2SignatureMoreSpecific) { return m2; } else { return new AmbiguityErrorSymbol(); } } /** * @return true, if signature of m1 is more specific than signature of m2 */ private boolean isSignatureMoreSpecific(Symbol m1, Symbol m2) { return isArgumentsAcceptable(((Type.MethodType) m1.type).argTypes, ((Type.MethodType) m2.type).argTypes); } /** * Is class accessible in given environment? */ @VisibleForTesting boolean isAccessible(Env env, Symbol.TypeSymbol c) { final boolean result; switch (c.flags() & Flags.ACCESS_FLAGS) { case Flags.PRIVATE: result = (env.enclosingClass().outermostClass() == c.owner().outermostClass()); break; case 0: result = (env.packge() == c.packge()); break; case Flags.PUBLIC: result = true; break; case Flags.PROTECTED: result = (env.packge() == c.packge()) || isInnerSubClass(env.enclosingClass(), c.owner()); break; default: throw new IllegalStateException(); } // TODO check accessibility of enclosing type: isAccessible(env, c.type.getEnclosingType()) return result; } /** * Is given class a subclass of given base class, or an inner class of a subclass? */ private boolean isInnerSubClass(Symbol.TypeSymbol c, Symbol base) { while (c != null && isSubClass(c, base)) { c = c.owner().enclosingClass(); } return c != null; } /** * Is given class a subclass of given base class? */ @VisibleForTesting boolean isSubClass(Symbol.TypeSymbol c, Symbol base) { // TODO get rid of null check if (c == null) { return false; } // TODO see Javac if (c == base) { // same class return true; } else if ((base.flags() & Flags.INTERFACE) != 0) { // check if class implements base for (Type interfaceType : c.getInterfaces()) { if (isSubClass(interfaceType.symbol, base)) { return true; } } // check if superclass implements base return isSubClass(superclassSymbol(c), base); } else { // check if class extends base or its superclass extends base return isSubClass(superclassSymbol(c), base); } } /** * Is symbol accessible as a member of given class in given environment? *

* Symbol is accessible only if not overridden by another symbol. If overridden, then strictly speaking it is not a member. */ private boolean isAccessible(Env env, Symbol.TypeSymbol site, Symbol symbol) { switch (symbol.flags() & Flags.ACCESS_FLAGS) { case Flags.PRIVATE: // no check of overriding, because private members cannot be overridden return (env.enclosingClass().outermostClass() == symbol.owner().outermostClass()) && isInheritedIn(symbol, site); case 0: return (env.packge() == symbol.packge()) && isAccessible(env, site) && isInheritedIn(symbol, site) && notOverriddenIn(site, symbol); case Flags.PUBLIC: return isAccessible(env, site) && notOverriddenIn(site, symbol); case Flags.PROTECTED: return ((env.packge() == symbol.packge()) || isProtectedAccessible(symbol, env.enclosingClass, site)) && isAccessible(env, site) && notOverriddenIn(site, symbol); default: throw new IllegalStateException(); } } private boolean notOverriddenIn(Symbol.TypeSymbol site, Symbol symbol) { // TODO see Javac return true; } /** * Is symbol inherited in given class? */ @VisibleForTesting boolean isInheritedIn(Symbol symbol, Symbol.TypeSymbol clazz) { switch (symbol.flags() & Flags.ACCESS_FLAGS) { case Flags.PUBLIC: return true; case Flags.PRIVATE: return symbol.owner() == clazz; case Flags.PROTECTED: // TODO see Javac return true; case 0: // TODO see Javac Symbol.PackageSymbol thisPackage = symbol.packge(); for (Symbol.TypeSymbol sup = clazz; sup != null && sup != symbol.owner(); sup = superclassSymbol(sup)) { if (sup.packge() != thisPackage) { return false; } } return true; default: throw new IllegalStateException(); } } private boolean isProtectedAccessible(Symbol symbol, Symbol.TypeSymbol c, Symbol.TypeSymbol site) { // TODO see Javac return true; } public static class SymbolNotFound extends Symbol { public SymbolNotFound() { super(Symbol.ABSENT, 0, null, null); } } public static class AmbiguityErrorSymbol extends Symbol { public AmbiguityErrorSymbol() { super(Symbol.AMBIGUOUS, 0, null, null); } } public static class AccessErrorSymbol extends Symbol { /** * The invalid symbol found during resolution. */ Symbol symbol; public AccessErrorSymbol(Symbol symbol) { super(Symbol.ERRONEOUS, 0, null, null); this.symbol = symbol; } } private static Symbol.TypeSymbol superclassSymbol(Symbol.TypeSymbol c) { Type supertype = c.getSuperclass(); return supertype == null ? null : supertype.symbol; } }





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