Index: lib/Target/AArch64/AsmParser/AArch64AsmParser.cpp =================================================================== --- lib/Target/AArch64/AsmParser/AArch64AsmParser.cpp +++ lib/Target/AArch64/AsmParser/AArch64AsmParser.cpp @@ -2100,27 +2100,9 @@ bool isNegative = parseOptionalToken(AsmToken::Minus); const AsmToken &Tok = Parser.getTok(); - if (Tok.is(AsmToken::Real)) { - APFloat RealVal(APFloat::IEEEdouble(), Tok.getString()); - if (isNegative) - RealVal.changeSign(); - - uint64_t IntVal = RealVal.bitcastToAPInt().getZExtValue(); - int Val = AArch64_AM::getFP64Imm(APInt(64, IntVal)); - Parser.Lex(); // Eat the token. - // Check for out of range values. As an exception, we let Zero through, - // as we handle that special case in post-processing before matching in - // order to use the zero register for it. - if (Val == -1 && !RealVal.isPosZero()) { - TokError("expected compatible register or floating-point constant"); - return MatchOperand_ParseFail; - } - Operands.push_back(AArch64Operand::CreateFPImm(Val, S, getContext())); - return MatchOperand_Success; - } - if (Tok.is(AsmToken::Integer)) { + if (Tok.is(AsmToken::Real) || Tok.is(AsmToken::Integer)) { int64_t Val; - if (!isNegative && Tok.getString().startswith("0x")) { + if (Tok.is(AsmToken::Integer) && !isNegative && Tok.getString().startswith("0x")) { Val = Tok.getIntVal(); if (Val > 255 || Val < 0) { TokError("encoded floating point value out of range"); @@ -2128,10 +2110,19 @@ } } else { APFloat RealVal(APFloat::IEEEdouble(), Tok.getString()); + if (isNegative) + RealVal.changeSign(); + uint64_t IntVal = RealVal.bitcastToAPInt().getZExtValue(); - // If we had a '-' in front, toggle the sign bit. - IntVal ^= (uint64_t)isNegative << 63; Val = AArch64_AM::getFP64Imm(APInt(64, IntVal)); + + // Check for out of range values. As an exception, we let Zero through, + // as we handle that special case in post-processing before matching in + // order to use the zero register for it. + if (Val == -1 && !RealVal.isPosZero()) { + TokError("expected compatible register or floating-point constant"); + return MatchOperand_ParseFail; + } } Parser.Lex(); // Eat the token. Operands.push_back(AArch64Operand::CreateFPImm(Val, S, getContext())); Index: test/MC/AArch64/basic-a64-diagnostics.s =================================================================== --- test/MC/AArch64/basic-a64-diagnostics.s +++ test/MC/AArch64/basic-a64-diagnostics.s @@ -1781,12 +1781,20 @@ ;; Exponent too large fmov d3, #0.0625 fmov s2, #32.0 + fmov s2, #32 + fmov v0.4s, #-32 // CHECK-ERROR: error: expected compatible register or floating-point constant // CHECK-ERROR-NEXT: fmov d3, #0.0625 // CHECK-ERROR-NEXT: ^ // CHECK-ERROR-NEXT: error: expected compatible register or floating-point constant // CHECK-ERROR-NEXT: fmov s2, #32.0 // CHECK-ERROR-NEXT: ^ +// CHECK-ERROR-NEXT: error: expected compatible register or floating-point constant +// CHECK-ERROR-NEXT: fmov s2, #32 +// CHECK-ERROR-NEXT: ^ +// CHECK-ERROR-NEXT: error: expected compatible register or floating-point constant +// CHECK-ERROR-NEXT: fmov v0.4s, #-32 +// CHECK-ERROR-NEXT: ^ ;; Fraction too precise fmov s9, #1.03125 @@ -1798,6 +1806,12 @@ // CHECK-ERROR-NEXT: fmov s28, #1.96875 // CHECK-ERROR-NEXT: ^ + ;; Explicitly encoded value too large + fmov s15, #0x100 +// CHECK-ERROR: error: encoded floating point value out of range +// CHECK-ERROR-NEXT: fmov s15, #0x100 +// CHECK-ERROR-NEXT: ^ + ;; No particular reason, but a striking omission fmov d0, #0.0 // CHECK-ERROR-AARCH64: error: expected compatible register or floating-point constant