//== IdenticalExprChecker.cpp - Identical expression checker----------------==//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
///
/// \file
/// \brief This defines IdenticalExprChecker, a check that warns about
/// unintended use of identical expressions.
///
/// It checks for use of identical expressions with comparison operators and
/// inside conditional expressions.
///
//===----------------------------------------------------------------------===//
#include "ClangSACheckers.h"
#include "clang/AST/RecursiveASTVisitor.h"
#include "clang/StaticAnalyzer/Core/BugReporter/BugType.h"
#include "clang/StaticAnalyzer/Core/Checker.h"
#include "clang/StaticAnalyzer/Core/CheckerManager.h"
#include "clang/StaticAnalyzer/Core/PathSensitive/CheckerContext.h"
using namespace clang;
using namespace ento;
static bool isIdenticalStmt(const ASTContext &Ctx, const Stmt *Stmt1,
const Stmt *Stmt2, bool IgnoreSideEffects = false);
//===----------------------------------------------------------------------===//
// FindIdenticalExprVisitor - Identify nodes using identical expressions.
//===----------------------------------------------------------------------===//
namespace {
class FindIdenticalExprVisitor
: public RecursiveASTVisitor<FindIdenticalExprVisitor> {
BugReporter &BR;
const CheckerBase *Checker;
AnalysisDeclContext *AC;
public:
explicit FindIdenticalExprVisitor(BugReporter &B,
const CheckerBase *Checker,
AnalysisDeclContext *A)
: BR(B), Checker(Checker), AC(A) {}
// FindIdenticalExprVisitor only visits nodes
// that are binary operators, if statements or
// conditional operators.
bool VisitBinaryOperator(const BinaryOperator *B);
bool VisitIfStmt(const IfStmt *I);
bool VisitConditionalOperator(const ConditionalOperator *C);
private:
void reportIdenticalExpr(const BinaryOperator *B, bool CheckBitwise,
ArrayRef<SourceRange> Sr);
void checkBitwiseOrLogicalOp(const BinaryOperator *B, bool CheckBitwise);
void checkComparisonOp(const BinaryOperator *B);
};
} // end anonymous namespace
void FindIdenticalExprVisitor::reportIdenticalExpr(const BinaryOperator *B,
bool CheckBitwise,
ArrayRef<SourceRange> Sr) {
StringRef Message;
if (CheckBitwise)
Message = "identical expressions on both sides of bitwise operator";
else
Message = "identical expressions on both sides of logical operator";
PathDiagnosticLocation ELoc =
PathDiagnosticLocation::createOperatorLoc(B, BR.getSourceManager());
BR.EmitBasicReport(AC->getDecl(), Checker,
"Use of identical expressions",
categories::LogicError,
Message, ELoc, Sr);
}
void FindIdenticalExprVisitor::checkBitwiseOrLogicalOp(const BinaryOperator *B,
bool CheckBitwise) {
SourceRange Sr[2];
const Expr *LHS = B->getLHS();
const Expr *RHS = B->getRHS();
// Split operators as long as we still have operators to split on. We will
// get called for every binary operator in an expression so there is no need
// to check every one against each other here, just the right most one with
// the others.
while (const BinaryOperator *B2 = dyn_cast<BinaryOperator>(LHS)) {
if (B->getOpcode() != B2->getOpcode())
break;
if (isIdenticalStmt(AC->getASTContext(), RHS, B2->getRHS())) {
Sr[0] = RHS->getSourceRange();
Sr[1] = B2->getRHS()->getSourceRange();
reportIdenticalExpr(B, CheckBitwise, Sr);
}
LHS = B2->getLHS();
}
if (isIdenticalStmt(AC->getASTContext(), RHS, LHS)) {
Sr[0] = RHS->getSourceRange();
Sr[1] = LHS->getSourceRange();
reportIdenticalExpr(B, CheckBitwise, Sr);
}
}
bool FindIdenticalExprVisitor::VisitIfStmt(const IfStmt *I) {
const Stmt *Stmt1 = I->getThen();
const Stmt *Stmt2 = I->getElse();
// Check for identical inner condition:
//
// if (x<10) {
// if (x<10) {
// ..
if (const CompoundStmt *CS = dyn_cast<CompoundStmt>(Stmt1)) {
if (!CS->body_empty()) {
const IfStmt *InnerIf = dyn_cast<IfStmt>(*CS->body_begin());
if (InnerIf && isIdenticalStmt(AC->getASTContext(), I->getCond(), InnerIf->getCond(), /*ignoreSideEffects=*/ false)) {
PathDiagnosticLocation ELoc(InnerIf->getCond(), BR.getSourceManager(), AC);
BR.EmitBasicReport(AC->getDecl(), Checker, "Identical conditions",
categories::LogicError,
"conditions of the inner and outer statements are identical",
ELoc);
}
}
}
// Check for identical conditions:
//
// if (b) {
// foo1();
// } else if (b) {
// foo2();
// }
if (Stmt1 && Stmt2) {
const Expr *Cond1 = I->getCond();
const Stmt *Else = Stmt2;
while (const IfStmt *I2 = dyn_cast_or_null<IfStmt>(Else)) {
const Expr *Cond2 = I2->getCond();
if (isIdenticalStmt(AC->getASTContext(), Cond1, Cond2, false)) {
SourceRange Sr = Cond1->getSourceRange();
PathDiagnosticLocation ELoc(Cond2, BR.getSourceManager(), AC);
BR.EmitBasicReport(AC->getDecl(), Checker, "Identical conditions",
categories::LogicError,
"expression is identical to previous condition",
ELoc, Sr);
}
Else = I2->getElse();
}
}
if (!Stmt1 || !Stmt2)
return true;
// Special handling for code like:
//
// if (b) {
// i = 1;
// } else
// i = 1;
if (const CompoundStmt *CompStmt = dyn_cast<CompoundStmt>(Stmt1)) {
if (CompStmt->size() == 1)
Stmt1 = CompStmt->body_back();
}
if (const CompoundStmt *CompStmt = dyn_cast<CompoundStmt>(Stmt2)) {
if (CompStmt->size() == 1)
Stmt2 = CompStmt->body_back();
}
if (isIdenticalStmt(AC->getASTContext(), Stmt1, Stmt2, true)) {
PathDiagnosticLocation ELoc =
PathDiagnosticLocation::createBegin(I, BR.getSourceManager(), AC);
BR.EmitBasicReport(AC->getDecl(), Checker,
"Identical branches",
categories::LogicError,
"true and false branches are identical", ELoc);
}
return true;
}
bool FindIdenticalExprVisitor::VisitBinaryOperator(const BinaryOperator *B) {
BinaryOperator::Opcode Op = B->getOpcode();
if (BinaryOperator::isBitwiseOp(Op))
checkBitwiseOrLogicalOp(B, true);
if (BinaryOperator::isLogicalOp(Op))
checkBitwiseOrLogicalOp(B, false);
if (BinaryOperator::isComparisonOp(Op))
checkComparisonOp(B);
// We want to visit ALL nodes (subexpressions of binary comparison
// expressions too) that contains comparison operators.
// True is always returned to traverse ALL nodes.
return true;
}
void FindIdenticalExprVisitor::checkComparisonOp(const BinaryOperator *B) {
BinaryOperator::Opcode Op = B->getOpcode();
//
// Special case for floating-point representation.
//
// If expressions on both sides of comparison operator are of type float,
// then for some comparison operators no warning shall be
// reported even if the expressions are identical from a symbolic point of
// view. Comparison between expressions, declared variables and literals
// are treated differently.
//
// != and == between float literals that have the same value should NOT warn.
// < > between float literals that have the same value SHOULD warn.
//
// != and == between the same float declaration should NOT warn.
// < > between the same float declaration SHOULD warn.
//
// != and == between eq. expressions that evaluates into float
// should NOT warn.
// < > between eq. expressions that evaluates into float
// should NOT warn.
//
const Expr *LHS = B->getLHS()->IgnoreParenImpCasts();
const Expr *RHS = B->getRHS()->IgnoreParenImpCasts();
const DeclRefExpr *DeclRef1 = dyn_cast<DeclRefExpr>(LHS);
const DeclRefExpr *DeclRef2 = dyn_cast<DeclRefExpr>(RHS);
const FloatingLiteral *FloatLit1 = dyn_cast<FloatingLiteral>(LHS);
const FloatingLiteral *FloatLit2 = dyn_cast<FloatingLiteral>(RHS);
if ((DeclRef1) && (DeclRef2)) {
if ((DeclRef1->getType()->hasFloatingRepresentation()) &&
(DeclRef2->getType()->hasFloatingRepresentation())) {
if (DeclRef1->getDecl() == DeclRef2->getDecl()) {
if ((Op == BO_EQ) || (Op == BO_NE)) {
return;
}
}
}
} else if ((FloatLit1) && (FloatLit2)) {
if (FloatLit1->getValue().bitwiseIsEqual(FloatLit2->getValue())) {
if ((Op == BO_EQ) || (Op == BO_NE)) {
return;
}
}
} else if (LHS->getType()->hasFloatingRepresentation()) {
// If any side of comparison operator still has floating-point
// representation, then it's an expression. Don't warn.
// Here only LHS is checked since RHS will be implicit casted to float.
return;
} else {
// No special case with floating-point representation, report as usual.
}
if (isIdenticalStmt(AC->getASTContext(), B->getLHS(), B->getRHS())) {
PathDiagnosticLocation ELoc =
PathDiagnosticLocation::createOperatorLoc(B, BR.getSourceManager());
StringRef Message;
if (((Op == BO_EQ) || (Op == BO_LE) || (Op == BO_GE)))
Message = "comparison of identical expressions always evaluates to true";
else
Message = "comparison of identical expressions always evaluates to false";
BR.EmitBasicReport(AC->getDecl(), Checker,
"Compare of identical expressions",
categories::LogicError, Message, ELoc);
}
}
bool FindIdenticalExprVisitor::VisitConditionalOperator(
const ConditionalOperator *C) {
// Check if expressions in conditional expression are identical
// from a symbolic point of view.
if (isIdenticalStmt(AC->getASTContext(), C->getTrueExpr(),
C->getFalseExpr(), true)) {
PathDiagnosticLocation ELoc =
PathDiagnosticLocation::createConditionalColonLoc(
C, BR.getSourceManager());
SourceRange Sr[2];
Sr[0] = C->getTrueExpr()->getSourceRange();
Sr[1] = C->getFalseExpr()->getSourceRange();
BR.EmitBasicReport(
AC->getDecl(), Checker,
"Identical expressions in conditional expression",
categories::LogicError,
"identical expressions on both sides of ':' in conditional expression",
ELoc, Sr);
}
// We want to visit ALL nodes (expressions in conditional
// expressions too) that contains conditional operators,
// thus always return true to traverse ALL nodes.
return true;
}
/// \brief Determines whether two statement trees are identical regarding
/// operators and symbols.
///
/// Exceptions: expressions containing macros or functions with possible side
/// effects are never considered identical.
/// Limitations: (t + u) and (u + t) are not considered identical.
/// t*(u + t) and t*u + t*t are not considered identical.
///
static bool isIdenticalStmt(const ASTContext &Ctx, const Stmt *Stmt1,
const Stmt *Stmt2, bool IgnoreSideEffects) {
if (!Stmt1 || !Stmt2) {
if (!Stmt1 && !Stmt2)
return true;
return false;
}
// If Stmt1 & Stmt2 are of different class then they are not
// identical statements.
if (Stmt1->getStmtClass() != Stmt2->getStmtClass())
return false;
const Expr *Expr1 = dyn_cast<Expr>(Stmt1);
const Expr *Expr2 = dyn_cast<Expr>(Stmt2);
if (Expr1 && Expr2) {
// If Stmt1 has side effects then don't warn even if expressions
// are identical.
if (!IgnoreSideEffects && Expr1->HasSideEffects(Ctx))
return false;
// If either expression comes from a macro then don't warn even if
// the expressions are identical.
if ((Expr1->getExprLoc().isMacroID()) || (Expr2->getExprLoc().isMacroID()))
return false;
// If all children of two expressions are identical, return true.
Expr::const_child_iterator I1 = Expr1->child_begin();
Expr::const_child_iterator I2 = Expr2->child_begin();
while (I1 != Expr1->child_end() && I2 != Expr2->child_end()) {
if (!*I1 || !*I2 || !isIdenticalStmt(Ctx, *I1, *I2, IgnoreSideEffects))
return false;
++I1;
++I2;
}
// If there are different number of children in the statements, return
// false.
if (I1 != Expr1->child_end())
return false;
if (I2 != Expr2->child_end())
return false;
}
switch (Stmt1->getStmtClass()) {
default:
return false;
case Stmt::CallExprClass:
case Stmt::ArraySubscriptExprClass:
case Stmt::OMPArraySectionExprClass:
case Stmt::ImplicitCastExprClass:
case Stmt::ParenExprClass:
case Stmt::BreakStmtClass:
case Stmt::ContinueStmtClass:
case Stmt::NullStmtClass:
return true;
case Stmt::CStyleCastExprClass: {
const CStyleCastExpr* CastExpr1 = cast<CStyleCastExpr>(Stmt1);
const CStyleCastExpr* CastExpr2 = cast<CStyleCastExpr>(Stmt2);
return CastExpr1->getTypeAsWritten() == CastExpr2->getTypeAsWritten();
}
case Stmt::ReturnStmtClass: {
const ReturnStmt *ReturnStmt1 = cast<ReturnStmt>(Stmt1);
const ReturnStmt *ReturnStmt2 = cast<ReturnStmt>(Stmt2);
return isIdenticalStmt(Ctx, ReturnStmt1->getRetValue(),
ReturnStmt2->getRetValue(), IgnoreSideEffects);
}
case Stmt::ForStmtClass: {
const ForStmt *ForStmt1 = cast<ForStmt>(Stmt1);
const ForStmt *ForStmt2 = cast<ForStmt>(Stmt2);
if (!isIdenticalStmt(Ctx, ForStmt1->getInit(), ForStmt2->getInit(),
IgnoreSideEffects))
return false;
if (!isIdenticalStmt(Ctx, ForStmt1->getCond(), ForStmt2->getCond(),
IgnoreSideEffects))
return false;
if (!isIdenticalStmt(Ctx, ForStmt1->getInc(), ForStmt2->getInc(),
IgnoreSideEffects))
return false;
if (!isIdenticalStmt(Ctx, ForStmt1->getBody(), ForStmt2->getBody(),
IgnoreSideEffects))
return false;
return true;
}
case Stmt::DoStmtClass: {
const DoStmt *DStmt1 = cast<DoStmt>(Stmt1);
const DoStmt *DStmt2 = cast<DoStmt>(Stmt2);
if (!isIdenticalStmt(Ctx, DStmt1->getCond(), DStmt2->getCond(),
IgnoreSideEffects))
return false;
if (!isIdenticalStmt(Ctx, DStmt1->getBody(), DStmt2->getBody(),
IgnoreSideEffects))
return false;
return true;
}
case Stmt::WhileStmtClass: {
const WhileStmt *WStmt1 = cast<WhileStmt>(Stmt1);
const WhileStmt *WStmt2 = cast<WhileStmt>(Stmt2);
if (!isIdenticalStmt(Ctx, WStmt1->getCond(), WStmt2->getCond(),
IgnoreSideEffects))
return false;
if (!isIdenticalStmt(Ctx, WStmt1->getBody(), WStmt2->getBody(),
IgnoreSideEffects))
return false;
return true;
}
case Stmt::IfStmtClass: {
const IfStmt *IStmt1 = cast<IfStmt>(Stmt1);
const IfStmt *IStmt2 = cast<IfStmt>(Stmt2);
if (!isIdenticalStmt(Ctx, IStmt1->getCond(), IStmt2->getCond(),
IgnoreSideEffects))
return false;
if (!isIdenticalStmt(Ctx, IStmt1->getThen(), IStmt2->getThen(),
IgnoreSideEffects))
return false;
if (!isIdenticalStmt(Ctx, IStmt1->getElse(), IStmt2->getElse(),
IgnoreSideEffects))
return false;
return true;
}
case Stmt::CompoundStmtClass: {
const CompoundStmt *CompStmt1 = cast<CompoundStmt>(Stmt1);
const CompoundStmt *CompStmt2 = cast<CompoundStmt>(Stmt2);
if (CompStmt1->size() != CompStmt2->size())
return false;
CompoundStmt::const_body_iterator I1 = CompStmt1->body_begin();
CompoundStmt::const_body_iterator I2 = CompStmt2->body_begin();
while (I1 != CompStmt1->body_end() && I2 != CompStmt2->body_end()) {
if (!isIdenticalStmt(Ctx, *I1, *I2, IgnoreSideEffects))
return false;
++I1;
++I2;
}
return true;
}
case Stmt::CompoundAssignOperatorClass:
case Stmt::BinaryOperatorClass: {
const BinaryOperator *BinOp1 = cast<BinaryOperator>(Stmt1);
const BinaryOperator *BinOp2 = cast<BinaryOperator>(Stmt2);
return BinOp1->getOpcode() == BinOp2->getOpcode();
}
case Stmt::CharacterLiteralClass: {
const CharacterLiteral *CharLit1 = cast<CharacterLiteral>(Stmt1);
const CharacterLiteral *CharLit2 = cast<CharacterLiteral>(Stmt2);
return CharLit1->getValue() == CharLit2->getValue();
}
case Stmt::DeclRefExprClass: {
const DeclRefExpr *DeclRef1 = cast<DeclRefExpr>(Stmt1);
const DeclRefExpr *DeclRef2 = cast<DeclRefExpr>(Stmt2);
return DeclRef1->getDecl() == DeclRef2->getDecl();
}
case Stmt::IntegerLiteralClass: {
const IntegerLiteral *IntLit1 = cast<IntegerLiteral>(Stmt1);
const IntegerLiteral *IntLit2 = cast<IntegerLiteral>(Stmt2);
llvm::APInt I1 = IntLit1->getValue();
llvm::APInt I2 = IntLit2->getValue();
if (I1.getBitWidth() != I2.getBitWidth())
return false;
return I1 == I2;
}
case Stmt::FloatingLiteralClass: {
const FloatingLiteral *FloatLit1 = cast<FloatingLiteral>(Stmt1);
const FloatingLiteral *FloatLit2 = cast<FloatingLiteral>(Stmt2);
return FloatLit1->getValue().bitwiseIsEqual(FloatLit2->getValue());
}
case Stmt::StringLiteralClass: {
const StringLiteral *StringLit1 = cast<StringLiteral>(Stmt1);
const StringLiteral *StringLit2 = cast<StringLiteral>(Stmt2);
return StringLit1->getBytes() == StringLit2->getBytes();
}
case Stmt::MemberExprClass: {
const MemberExpr *MemberStmt1 = cast<MemberExpr>(Stmt1);
const MemberExpr *MemberStmt2 = cast<MemberExpr>(Stmt2);
return MemberStmt1->getMemberDecl() == MemberStmt2->getMemberDecl();
}
case Stmt::UnaryOperatorClass: {
const UnaryOperator *UnaryOp1 = cast<UnaryOperator>(Stmt1);
const UnaryOperator *UnaryOp2 = cast<UnaryOperator>(Stmt2);
return UnaryOp1->getOpcode() == UnaryOp2->getOpcode();
}
}
}
//===----------------------------------------------------------------------===//
// FindIdenticalExprChecker
//===----------------------------------------------------------------------===//
namespace {
class FindIdenticalExprChecker : public Checker<check::ASTCodeBody> {
public:
void checkASTCodeBody(const Decl *D, AnalysisManager &Mgr,
BugReporter &BR) const {
FindIdenticalExprVisitor Visitor(BR, this, Mgr.getAnalysisDeclContext(D));
Visitor.TraverseDecl(const_cast<Decl *>(D));
}
};
} // end anonymous namespace
void ento::registerIdenticalExprChecker(CheckerManager &Mgr) {
Mgr.registerChecker<FindIdenticalExprChecker>();
}