/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #if !defined _WIN32 //TODO, #include #include #include #include #include #include #include #include #include #include #include "plugin.hxx" #include "compat.hxx" #include "check.hxx" /** Look for static vars that are only assigned to once, and never written to, they can be const. */ namespace { /** * Wrap the different kinds of callable and callee objects in the clang AST so I can define methods that handle everything. */ class CallerWrapper { const CallExpr* m_callExpr; const CXXConstructExpr* m_cxxConstructExpr; public: CallerWrapper(const CallExpr* callExpr) : m_callExpr(callExpr) , m_cxxConstructExpr(nullptr) { } CallerWrapper(const CXXConstructExpr* cxxConstructExpr) : m_callExpr(nullptr) , m_cxxConstructExpr(cxxConstructExpr) { } unsigned getNumArgs() const { return m_callExpr ? m_callExpr->getNumArgs() : m_cxxConstructExpr->getNumArgs(); } const Expr* getArg(unsigned i) const { return m_callExpr ? m_callExpr->getArg(i) : m_cxxConstructExpr->getArg(i); } }; class CalleeWrapper { const FunctionDecl* m_calleeFunctionDecl = nullptr; const CXXConstructorDecl* m_cxxConstructorDecl = nullptr; const FunctionProtoType* m_functionPrototype = nullptr; public: explicit CalleeWrapper(const FunctionDecl* calleeFunctionDecl) : m_calleeFunctionDecl(calleeFunctionDecl) { } explicit CalleeWrapper(const CXXConstructExpr* cxxConstructExpr) : m_cxxConstructorDecl(cxxConstructExpr->getConstructor()) { } explicit CalleeWrapper(const FunctionProtoType* functionPrototype) : m_functionPrototype(functionPrototype) { } unsigned getNumParams() const { if (m_calleeFunctionDecl) return m_calleeFunctionDecl->getNumParams(); else if (m_cxxConstructorDecl) return m_cxxConstructorDecl->getNumParams(); else if (m_functionPrototype->param_type_begin() == m_functionPrototype->param_type_end()) // FunctionProtoType will assert if we call getParamTypes() and it has no params return 0; else return m_functionPrototype->getParamTypes().size(); } const QualType getParamType(unsigned i) const { if (m_calleeFunctionDecl) return m_calleeFunctionDecl->getParamDecl(i)->getType(); else if (m_cxxConstructorDecl) return m_cxxConstructorDecl->getParamDecl(i)->getType(); else return m_functionPrototype->getParamTypes()[i]; } std::string getNameAsString() const { if (m_calleeFunctionDecl) return m_calleeFunctionDecl->getNameAsString(); else if (m_cxxConstructorDecl) return m_cxxConstructorDecl->getNameAsString(); else return ""; } CXXMethodDecl const* getAsCXXMethodDecl() const { if (m_calleeFunctionDecl) return dyn_cast(m_calleeFunctionDecl); return nullptr; } }; class ConstVars : public RecursiveASTVisitor, public loplugin::Plugin { public: explicit ConstVars(loplugin::InstantiationData const& data) : Plugin(data) { } virtual void run() override; bool shouldVisitTemplateInstantiations() const { return true; } bool shouldVisitImplicitCode() const { return true; } bool VisitVarDecl(const VarDecl*); bool VisitDeclRefExpr(const DeclRefExpr*); bool TraverseCXXConstructorDecl(CXXConstructorDecl*); bool TraverseCXXMethodDecl(CXXMethodDecl*); bool TraverseFunctionDecl(FunctionDecl*); bool TraverseIfStmt(IfStmt*); private: void check(const VarDecl* varDecl, const Expr* memberExpr); bool isSomeKindOfZero(const Expr* arg); bool IsPassedByNonConst(const VarDecl* varDecl, const Stmt* child, CallerWrapper callExpr, CalleeWrapper calleeFunctionDecl); llvm::Optional getCallee(CallExpr const*); RecordDecl* insideMoveOrCopyDeclParent = nullptr; // For reasons I do not understand, parentFunctionDecl() is not reliable, so // we store the parent function on the way down the AST. FunctionDecl* insideFunctionDecl = nullptr; std::vector insideConditionalCheckOfVarSet; std::set cannotBeConstSet; std::set definitionSet; }; void ConstVars::run() { // clang::Expr::isCXX11ConstantExpr only works for C++ if (!compiler.getLangOpts().CPlusPlus) return; TraverseDecl(compiler.getASTContext().getTranslationUnitDecl()); SourceManager& SM = compiler.getSourceManager(); for (VarDecl const* v : definitionSet) { if (cannotBeConstSet.find(v) != cannotBeConstSet.end()) continue; llvm::StringRef sourceString(SM.getCharacterData(v->getSourceRange().getEnd()), 50); // Implement a marker that disables this plugins warning at a specific site if (sourceString.contains("loplugin:constvars:ignore")) continue; report(DiagnosticsEngine::Warning, "static var can be const", compat::getBeginLoc(v)); } } bool ConstVars::VisitVarDecl(const VarDecl* varDecl) { varDecl = varDecl->getCanonicalDecl(); if (varDecl->getLocation().isValid() && ignoreLocation(varDecl)) return true; if (!varDecl->hasGlobalStorage()) return true; if (varDecl->getLinkageAndVisibility().getLinkage() == ExternalLinkage) return true; if (varDecl->getType().isConstQualified()) return true; if (isa(varDecl->getType())) return true; if (loplugin::TypeCheck(varDecl->getType()).Pointer().Const()) return true; // ignore stuff that forms part of the stable URE interface if (isInUnoIncludeFile(compiler.getSourceManager().getSpellingLoc(varDecl->getLocation()))) return true; if (!varDecl->getInit()) return true; if (!varDecl->getInit()->isCXX11ConstantExpr(compiler.getASTContext())) return true; definitionSet.insert(varDecl); return true; } bool ConstVars::TraverseCXXConstructorDecl(CXXConstructorDecl* cxxConstructorDecl) { auto copy = insideMoveOrCopyDeclParent; if (!ignoreLocation(cxxConstructorDecl) && cxxConstructorDecl->isThisDeclarationADefinition()) { if (cxxConstructorDecl->isCopyOrMoveConstructor()) insideMoveOrCopyDeclParent = cxxConstructorDecl->getParent(); } bool ret = RecursiveASTVisitor::TraverseCXXConstructorDecl(cxxConstructorDecl); insideMoveOrCopyDeclParent = copy; return ret; } bool ConstVars::TraverseCXXMethodDecl(CXXMethodDecl* cxxMethodDecl) { auto copy1 = insideMoveOrCopyDeclParent; auto copy2 = insideFunctionDecl; if (!ignoreLocation(cxxMethodDecl) && cxxMethodDecl->isThisDeclarationADefinition()) { if (cxxMethodDecl->isCopyAssignmentOperator() || cxxMethodDecl->isMoveAssignmentOperator()) insideMoveOrCopyDeclParent = cxxMethodDecl->getParent(); } insideFunctionDecl = cxxMethodDecl; bool ret = RecursiveASTVisitor::TraverseCXXMethodDecl(cxxMethodDecl); insideMoveOrCopyDeclParent = copy1; insideFunctionDecl = copy2; return ret; } bool ConstVars::TraverseFunctionDecl(FunctionDecl* functionDecl) { auto copy2 = insideFunctionDecl; insideFunctionDecl = functionDecl; bool ret = RecursiveASTVisitor::TraverseFunctionDecl(functionDecl); insideFunctionDecl = copy2; return ret; } bool ConstVars::TraverseIfStmt(IfStmt* ifStmt) { VarDecl const* varDecl = nullptr; Expr const* cond = ifStmt->getCond()->IgnoreParenImpCasts(); if (auto declRefExpr = dyn_cast(cond)) { if ((varDecl = dyn_cast(declRefExpr->getDecl()))) insideConditionalCheckOfVarSet.push_back(varDecl); } bool ret = RecursiveASTVisitor::TraverseIfStmt(ifStmt); if (varDecl) insideConditionalCheckOfVarSet.pop_back(); return ret; } bool ConstVars::VisitDeclRefExpr(const DeclRefExpr* declRefExpr) { const VarDecl* varDecl = dyn_cast(declRefExpr->getDecl()); if (!varDecl) return true; varDecl = varDecl->getCanonicalDecl(); if (ignoreLocation(varDecl)) return true; // ignore stuff that forms part of the stable URE interface if (isInUnoIncludeFile(compiler.getSourceManager().getSpellingLoc(varDecl->getLocation()))) return true; if (definitionSet.find(varDecl) != definitionSet.end()) check(varDecl, declRefExpr); return true; } void ConstVars::check(const VarDecl* varDecl, const Expr* memberExpr) { auto parentsRange = compiler.getASTContext().getParents(*memberExpr); const Stmt* child = memberExpr; const Stmt* parent = parentsRange.begin() == parentsRange.end() ? nullptr : parentsRange.begin()->get(); // walk up the tree until we find something interesting bool bCannotBeConst = false; bool bDump = false; auto walkUp = [&]() { child = parent; auto parentsRange = compiler.getASTContext().getParents(*parent); parent = parentsRange.begin() == parentsRange.end() ? nullptr : parentsRange.begin()->get(); }; do { if (!parent) { // check if we have an expression like // int& r = var; auto parentsRange = compiler.getASTContext().getParents(*child); if (parentsRange.begin() != parentsRange.end()) { auto varDecl = dyn_cast_or_null(parentsRange.begin()->get()); // The isImplicit() call is to avoid triggering when we see the vardecl which is part of a for-range statement, // which is of type 'T&&' and also an l-value-ref ? if (varDecl && !varDecl->isImplicit() && loplugin::TypeCheck(varDecl->getType()).LvalueReference().NonConst()) { bCannotBeConst = true; } } break; } if (isa(parent)) { // once we see one of these, there is not much useful we can know bCannotBeConst = true; break; } else if (isa(parent) || isa(parent) || isa(parent) || isa(parent) || isa(parent) || isa(parent)) { walkUp(); } else if (auto unaryOperator = dyn_cast(parent)) { UnaryOperator::Opcode op = unaryOperator->getOpcode(); if (op == UO_AddrOf || op == UO_PostInc || op == UO_PostDec || op == UO_PreInc || op == UO_PreDec) { bCannotBeConst = true; } walkUp(); } else if (auto operatorCallExpr = dyn_cast(parent)) { auto callee = getCallee(operatorCallExpr); if (callee) { // if calling a non-const operator on the var auto calleeMethodDecl = callee->getAsCXXMethodDecl(); if (calleeMethodDecl && operatorCallExpr->getArg(0) == child && !calleeMethodDecl->isConst()) { bCannotBeConst = true; } else if (IsPassedByNonConst(varDecl, child, operatorCallExpr, *callee)) { bCannotBeConst = true; } } else bCannotBeConst = true; // conservative, could improve walkUp(); } else if (auto cxxMemberCallExpr = dyn_cast(parent)) { const CXXMethodDecl* calleeMethodDecl = cxxMemberCallExpr->getMethodDecl(); if (calleeMethodDecl) { // if calling a non-const method on the var const Expr* tmp = dyn_cast(child); if (tmp->isBoundMemberFunction(compiler.getASTContext())) { tmp = dyn_cast(tmp)->getBase(); } if (cxxMemberCallExpr->getImplicitObjectArgument() == tmp && !calleeMethodDecl->isConst()) { bCannotBeConst = true; break; } if (IsPassedByNonConst(varDecl, child, cxxMemberCallExpr, CalleeWrapper(calleeMethodDecl))) bCannotBeConst = true; } else bCannotBeConst = true; // can happen in templates walkUp(); } else if (auto cxxConstructExpr = dyn_cast(parent)) { if (IsPassedByNonConst(varDecl, child, cxxConstructExpr, CalleeWrapper(cxxConstructExpr))) bCannotBeConst = true; walkUp(); } else if (auto callExpr = dyn_cast(parent)) { auto callee = getCallee(callExpr); if (callee) { if (IsPassedByNonConst(varDecl, child, callExpr, *callee)) bCannotBeConst = true; } else bCannotBeConst = true; // conservative, could improve walkUp(); } else if (auto binaryOp = dyn_cast(parent)) { BinaryOperator::Opcode op = binaryOp->getOpcode(); const bool assignmentOp = op == BO_Assign || op == BO_MulAssign || op == BO_DivAssign || op == BO_RemAssign || op == BO_AddAssign || op == BO_SubAssign || op == BO_ShlAssign || op == BO_ShrAssign || op == BO_AndAssign || op == BO_XorAssign || op == BO_OrAssign; if (assignmentOp) { if (binaryOp->getLHS() == child) bCannotBeConst = true; else if (loplugin::TypeCheck(binaryOp->getLHS()->getType()) .LvalueReference() .NonConst()) // if the LHS is a non-const reference, we could write to the var later on bCannotBeConst = true; } walkUp(); } else if (isa(parent)) { if (insideFunctionDecl) { auto tc = loplugin::TypeCheck(insideFunctionDecl->getReturnType()); if (tc.LvalueReference().NonConst()) bCannotBeConst = true; } break; } else if (isa(parent) || isa(parent) || isa(parent) || isa(parent) || isa(parent) || isa(parent) || isa(parent)) { break; } else { walkUp(); } } while (true); if (bDump) { report(DiagnosticsEngine::Warning, "oh dear, what can the matter be? writtenTo=%0", compat::getBeginLoc(memberExpr)) << bCannotBeConst << memberExpr->getSourceRange(); if (parent) { report(DiagnosticsEngine::Note, "parent over here", compat::getBeginLoc(parent)) << parent->getSourceRange(); parent->dump(); } memberExpr->dump(); varDecl->getType()->dump(); } if (bCannotBeConst) cannotBeConstSet.insert(varDecl); } bool ConstVars::IsPassedByNonConst(const VarDecl* varDecl, const Stmt* child, CallerWrapper callExpr, CalleeWrapper calleeFunctionDecl) { unsigned len = std::min(callExpr.getNumArgs(), calleeFunctionDecl.getNumParams()); // if it's an array, passing it by value to a method typically means the // callee takes a pointer and can modify the array if (varDecl->getType()->isConstantArrayType()) { for (unsigned i = 0; i < len; ++i) if (callExpr.getArg(i) == child) if (loplugin::TypeCheck(calleeFunctionDecl.getParamType(i)).Pointer().NonConst()) return true; } else { for (unsigned i = 0; i < len; ++i) if (callExpr.getArg(i) == child) if (loplugin::TypeCheck(calleeFunctionDecl.getParamType(i)) .LvalueReference() .NonConst()) return true; } return false; } llvm::Optional ConstVars::getCallee(CallExpr const* callExpr) { FunctionDecl const* functionDecl = callExpr->getDirectCallee(); if (functionDecl) return CalleeWrapper(functionDecl); // Extract the functionprototype from a type clang::Type const* calleeType = callExpr->getCallee()->getType().getTypePtr(); if (auto pointerType = calleeType->getUnqualifiedDesugaredType()->getAs()) { if (auto prototype = pointerType->getPointeeType() ->getUnqualifiedDesugaredType() ->getAs()) { return CalleeWrapper(prototype); } } return llvm::Optional(); } /** off by default because it is very expensive, it walks up the AST a lot */ loplugin::Plugin::Registration X("constvars", false); } #endif /* vim:set shiftwidth=4 softtabstop=4 expandtab: */