зеркало из https://github.com/microsoft/clang-1.git
Backout of r59196, plus a new ICE test. Sorry if this is a
little rude; I figure it's cleaner to just back this out now so it doesn't get forgotten or mixed up with other checkins. The modification to isICE is simply wrong; I've added a test that the change to isICE breaks. I'm pretty sure the modification to tryEvaluate is also wrong. At the very least, there's some serious miscommunication going on here, as this is going in exactly the opposite direction of r59105. My understanding is that tryEvaluate is not supposed to care about side effects. That said, a lot of the clients to tryEvaluate are expecting it to enforce a no-side-effects policy, so we probably need another method that provides that guarantee. git-svn-id: https://llvm.org/svn/llvm-project/cfe/trunk@59212 91177308-0d34-0410-b5e6-96231b3b80d8
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@ -870,26 +870,10 @@ bool Expr::isIntegerConstantExpr(llvm::APSInt &Result, ASTContext &Ctx,
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const BinaryOperator *Exp = cast<BinaryOperator>(this);
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const BinaryOperator *Exp = cast<BinaryOperator>(this);
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llvm::APSInt LHS, RHS;
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llvm::APSInt LHS, RHS;
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// Comma operator requires special handling.
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if (Exp->getOpcode() == BinaryOperator::Comma) {
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// C99 6.6p3: "shall not contain assignment, ..., or comma operators,
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// *except* when they are contained within a subexpression that is not
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// evaluated". Note that Assignment can never happen due to constraints
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// on the LHS subexpr, so we don't need to check it here.
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if (isEvaluated) {
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if (Loc) *Loc = getLocStart();
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return false;
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}
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// The result of the constant expr is the RHS.
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return Exp->getRHS()->isIntegerConstantExpr(Result, Ctx, Loc,
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isEvaluated);
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}
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// Initialize result to have correct signedness and width.
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// Initialize result to have correct signedness and width.
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Result = llvm::APSInt(static_cast<uint32_t>(Ctx.getTypeSize(getType())),
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Result = llvm::APSInt(static_cast<uint32_t>(Ctx.getTypeSize(getType())),
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!getType()->isSignedIntegerType());
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!getType()->isSignedIntegerType());
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// The LHS of a constant expr is always evaluated and needed.
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// The LHS of a constant expr is always evaluated and needed.
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if (!Exp->getLHS()->isIntegerConstantExpr(LHS, Ctx, Loc, isEvaluated))
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if (!Exp->getLHS()->isIntegerConstantExpr(LHS, Ctx, Loc, isEvaluated))
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return false;
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return false;
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@ -961,6 +945,20 @@ bool Expr::isIntegerConstantExpr(llvm::APSInt &Result, ASTContext &Ctx,
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case BinaryOperator::LOr:
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case BinaryOperator::LOr:
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Result = LHS != 0 || RHS != 0;
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Result = LHS != 0 || RHS != 0;
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break;
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break;
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case BinaryOperator::Comma:
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// C99 6.6p3: "shall not contain assignment, ..., or comma operators,
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// *except* when they are contained within a subexpression that is not
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// evaluated". Note that Assignment can never happen due to constraints
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// on the LHS subexpr, so we don't need to check it here.
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if (isEvaluated) {
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if (Loc) *Loc = getLocStart();
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return false;
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}
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// The result of the constant expr is the RHS.
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Result = RHS;
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return true;
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}
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}
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assert(!Exp->isAssignmentOp() && "LHS can't be a constant expr!");
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assert(!Exp->isAssignmentOp() && "LHS can't be a constant expr!");
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@ -376,7 +376,6 @@ public:
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}
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}
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bool VisitDeclRefExpr(const DeclRefExpr *E);
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bool VisitDeclRefExpr(const DeclRefExpr *E);
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bool VisitCallExpr(const CallExpr *E);
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bool VisitCallExpr(const CallExpr *E);
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bool VisitBinOpComma(const BinaryOperator *E);
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bool VisitBinaryOperator(const BinaryOperator *E);
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bool VisitBinaryOperator(const BinaryOperator *E);
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bool VisitUnaryOperator(const UnaryOperator *E);
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bool VisitUnaryOperator(const UnaryOperator *E);
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@ -481,37 +480,7 @@ bool IntExprEvaluator::VisitCallExpr(const CallExpr *E) {
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}
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}
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}
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}
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bool IntExprEvaluator::VisitBinOpComma(const BinaryOperator *E) {
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llvm::APSInt RHS(32);
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// Require that we be able to evaluate the LHS.
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if (!E->getLHS()->isEvaluatable(Info.Ctx))
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return false;
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bool OldEval = Info.isEvaluated;
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if (!EvaluateInteger(E->getRHS(), RHS, Info))
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return false;
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Info.isEvaluated = OldEval;
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// Result of the comma is just the result of the RHS.
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Result = RHS;
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// C99 6.6p3: "shall not contain assignment, ..., or comma operators,
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// *except* when they are contained within a subexpression that is not
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// evaluated". Note that Assignment can never happen due to constraints
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// on the LHS subexpr, so we don't need to check it here.
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if (!Info.isEvaluated)
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return true;
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// If the value is evaluated, we can accept it as an extension.
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return Extension(E->getOperatorLoc(), diag::ext_comma_in_constant_expr);
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}
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bool IntExprEvaluator::VisitBinaryOperator(const BinaryOperator *E) {
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bool IntExprEvaluator::VisitBinaryOperator(const BinaryOperator *E) {
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// Comma operator requires special handling.
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if (E->getOpcode() == BinaryOperator::Comma)
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return VisitBinOpComma(E);
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// The LHS of a constant expr is always evaluated and needed.
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// The LHS of a constant expr is always evaluated and needed.
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llvm::APSInt RHS(32);
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llvm::APSInt RHS(32);
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if (!Visit(E->getLHS())) {
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if (!Visit(E->getLHS())) {
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@ -616,7 +585,22 @@ bool IntExprEvaluator::VisitBinaryOperator(const BinaryOperator *E) {
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Result = Result != 0 || RHS != 0;
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Result = Result != 0 || RHS != 0;
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Result.zextOrTrunc(getIntTypeSizeInBits(E->getType()));
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Result.zextOrTrunc(getIntTypeSizeInBits(E->getType()));
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break;
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break;
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}
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case BinaryOperator::Comma:
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// Result of the comma is just the result of the RHS.
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Result = RHS;
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// C99 6.6p3: "shall not contain assignment, ..., or comma operators,
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// *except* when they are contained within a subexpression that is not
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// evaluated". Note that Assignment can never happen due to constraints
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// on the LHS subexpr, so we don't need to check it here.
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if (!Info.isEvaluated)
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return true;
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// If the value is evaluated, we can accept it as an extension.
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return Extension(E->getOperatorLoc(), diag::ext_comma_in_constant_expr);
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}
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Result.setIsUnsigned(E->getType()->isUnsignedIntegerType());
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Result.setIsUnsigned(E->getType()->isUnsignedIntegerType());
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return true;
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return true;
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@ -11,5 +11,3 @@ struct y {int x,y;};
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EVAL_EXPR(6, (int)(1+(struct y*)0))
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EVAL_EXPR(6, (int)(1+(struct y*)0))
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EVAL_EXPR(7, (int)&((struct y*)0)->y)
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EVAL_EXPR(7, (int)&((struct y*)0)->y)
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EVAL_EXPR(8, (_Bool)"asdf")
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EVAL_EXPR(8, (_Bool)"asdf")
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void g0(void);
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EVAL_EXPR(9, (g0(), 12)) // expected-error {{fields must have a constant size}}
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@ -0,0 +1,3 @@
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// RUN: clang %s -fsyntax-only -verify -pedantic
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int a() {int p; *(1 ? &p : (void*)(0 && (a(),1))) = 10;} // expected-error {{not assignable}}
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