diff options
Diffstat (limited to 'lib/Sema/SemaChecking.cpp')
| -rw-r--r-- | lib/Sema/SemaChecking.cpp | 88 |
1 files changed, 73 insertions, 15 deletions
diff --git a/lib/Sema/SemaChecking.cpp b/lib/Sema/SemaChecking.cpp index 692a210ef3..7fd28b6191 100644 --- a/lib/Sema/SemaChecking.cpp +++ b/lib/Sema/SemaChecking.cpp @@ -4328,38 +4328,96 @@ static void DiagnoseOutOfRangeComparison(Sema &S, BinaryOperator *E, Expr *Constant, Expr *Other, llvm::APSInt Value, bool RhsConstant) { + // 0 values are handled later by CheckTrivialUnsignedComparison(). + if (Value == 0) + return; + BinaryOperatorKind op = E->getOpcode(); QualType OtherT = Other->getType(); QualType ConstantT = Constant->getType(); + QualType CommonT = E->getLHS()->getType(); if (S.Context.hasSameUnqualifiedType(OtherT, ConstantT)) return; assert((OtherT->isIntegerType() && ConstantT->isIntegerType()) && "comparison with non-integer type"); - // FIXME. handle cases for signedness to catch (signed char)N == 200 + + bool ConstantSigned = ConstantT->isSignedIntegerType(); + bool OtherSigned = OtherT->isSignedIntegerType(); + bool CommonSigned = CommonT->isSignedIntegerType(); + + bool EqualityOnly = false; + + // TODO: Investigate using GetExprRange() to get tighter bounds on + // on the bit ranges. IntRange OtherRange = IntRange::forValueOfType(S.Context, OtherT); - IntRange LitRange = GetValueRange(S.Context, Value, Value.getBitWidth()); - if (OtherRange.Width >= LitRange.Width) - return; + unsigned OtherWidth = OtherRange.Width; + + if (CommonSigned) { + // The common type is signed, therefore no signed to unsigned conversion. + if (OtherSigned) { + // Check that the constant is representable in type OtherT. + if (ConstantSigned) { + if (OtherWidth >= Value.getMinSignedBits()) + return; + } else { // !ConstantSigned + if (OtherWidth >= Value.getActiveBits() + 1) + return; + } + } else { // !OtherSigned + // Check that the constant is representable in type OtherT. + // Negative values are out of range. + if (ConstantSigned) { + if (Value.isNonNegative() && OtherWidth >= Value.getActiveBits()) + return; + } else { // !ConstantSigned + if (OtherWidth >= Value.getActiveBits()) + return; + } + } + } else { // !CommonSigned + if (!OtherSigned) { + if (OtherWidth >= Value.getActiveBits()) + return; + } else if (OtherSigned && !ConstantSigned) { + // Check to see if the constant is representable in OtherT. + if (OtherWidth > Value.getActiveBits()) + return; + // Check to see if the constant is equivalent to a negative value + // cast to CommonT. + if (S.Context.getIntWidth(ConstantT) == S.Context.getIntWidth(CommonT) && + Value.isNegative() && Value.getMinSignedBits() < OtherWidth) + return; + // The constant value rests between values that OtherT can represent after + // conversion. Relational comparison still works, but equality + // comparisons will be tautological. + EqualityOnly = true; + } else { // OtherSigned && ConstantSigned + assert(0 && "Two signed types converted to unsigned types."); + } + } + + bool PositiveConstant = !ConstantSigned || Value.isNonNegative(); + bool IsTrue = true; - if (op == BO_EQ) - IsTrue = false; - else if (op == BO_NE) - IsTrue = true; - else if (RhsConstant) { + if (op == BO_EQ || op == BO_NE) { + IsTrue = op == BO_NE; + } else if (EqualityOnly) { + return; + } else if (RhsConstant) { if (op == BO_GT || op == BO_GE) - IsTrue = !LitRange.NonNegative; + IsTrue = !PositiveConstant; else // op == BO_LT || op == BO_LE - IsTrue = LitRange.NonNegative; + IsTrue = PositiveConstant; } else { if (op == BO_LT || op == BO_LE) - IsTrue = !LitRange.NonNegative; + IsTrue = !PositiveConstant; else // op == BO_GT || op == BO_GE - IsTrue = LitRange.NonNegative; + IsTrue = PositiveConstant; } SmallString<16> PrettySourceValue(Value.toString(10)); S.Diag(E->getOperatorLoc(), diag::warn_out_of_range_compare) - << PrettySourceValue << OtherT << IsTrue - << E->getLHS()->getSourceRange() << E->getRHS()->getSourceRange(); + << PrettySourceValue << OtherT << IsTrue + << E->getLHS()->getSourceRange() << E->getRHS()->getSourceRange(); } /// Analyze the operands of the given comparison. Implements the |