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Fri, 07 May 2021 18:51:46 -0700 (PDT) Received: from localhost.localdomain ([71.212.144.24]) by smtp.gmail.com with ESMTPSA id 204sm5861396pfw.158.2021.05.07.18.51.46 (version=TLS1_3 cipher=TLS_AES_256_GCM_SHA384 bits=256/256); Fri, 07 May 2021 18:51:46 -0700 (PDT) From: Richard Henderson To: qemu-devel@nongnu.org Subject: [PATCH 66/72] softfloat: Convert floatx80 float conversions to FloatParts Date: Fri, 7 May 2021 18:47:56 -0700 Message-Id: <20210508014802.892561-67-richard.henderson@linaro.org> X-Mailer: git-send-email 2.25.1 In-Reply-To: <20210508014802.892561-1-richard.henderson@linaro.org> References: <20210508014802.892561-1-richard.henderson@linaro.org> MIME-Version: 1.0 Content-Transfer-Encoding: 8bit Received-SPF: pass client-ip=2607:f8b0:4864:20::102a; envelope-from=richard.henderson@linaro.org; helo=mail-pj1-x102a.google.com X-Spam_score_int: -20 X-Spam_score: -2.1 X-Spam_bar: -- X-Spam_report: (-2.1 / 5.0 requ) BAYES_00=-1.9, DKIM_SIGNED=0.1, DKIM_VALID=-0.1, DKIM_VALID_AU=-0.1, DKIM_VALID_EF=-0.1, RCVD_IN_DNSWL_NONE=-0.0001, SPF_HELO_NONE=0.001, SPF_PASS=-0.001 autolearn=ham autolearn_force=no X-Spam_action: no action X-BeenThere: qemu-devel@nongnu.org X-Mailman-Version: 2.1.23 Precedence: list List-Id: List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , Cc: alex.bennee@linaro.org, david@redhat.com Errors-To: qemu-devel-bounces+qemu-devel=archiver.kernel.org@nongnu.org Sender: "Qemu-devel" This is the last use of commonNaNT and all of the routines that use it, so remove all of them for Werror. Signed-off-by: Richard Henderson --- fpu/softfloat.c | 276 ++++++++------------------------- fpu/softfloat-specialize.c.inc | 175 --------------------- 2 files changed, 67 insertions(+), 384 deletions(-) diff --git a/fpu/softfloat.c b/fpu/softfloat.c index 82f71896ac..d7c6c37d99 100644 --- a/fpu/softfloat.c +++ b/fpu/softfloat.c @@ -2560,6 +2560,73 @@ float128 float64_to_float128(float64 a, float_status *s) return float128_round_pack_canonical(&p128, s); } +float32 floatx80_to_float32(floatx80 a, float_status *s) +{ + FloatParts64 p64; + FloatParts128 p128; + + if (floatx80_unpack_canonical(&p128, a, s)) { + parts_float_to_float_narrow(&p64, &p128, s); + } else { + parts_default_nan(&p64, s); + } + return float32_round_pack_canonical(&p64, s); +} + +float64 floatx80_to_float64(floatx80 a, float_status *s) +{ + FloatParts64 p64; + FloatParts128 p128; + + if (floatx80_unpack_canonical(&p128, a, s)) { + parts_float_to_float_narrow(&p64, &p128, s); + } else { + parts_default_nan(&p64, s); + } + return float64_round_pack_canonical(&p64, s); +} + +float128 floatx80_to_float128(floatx80 a, float_status *s) +{ + FloatParts128 p; + + if (floatx80_unpack_canonical(&p, a, s)) { + parts_float_to_float(&p, s); + } else { + parts_default_nan(&p, s); + } + return float128_round_pack_canonical(&p, s); +} + +floatx80 float32_to_floatx80(float32 a, float_status *s) +{ + FloatParts64 p64; + FloatParts128 p128; + + float32_unpack_canonical(&p64, a, s); + parts_float_to_float_widen(&p128, &p64, s); + return floatx80_round_pack_canonical(&p128, s); +} + +floatx80 float64_to_floatx80(float64 a, float_status *s) +{ + FloatParts64 p64; + FloatParts128 p128; + + float64_unpack_canonical(&p64, a, s); + parts_float_to_float_widen(&p128, &p64, s); + return floatx80_round_pack_canonical(&p128, s); +} + +floatx80 float128_to_floatx80(float128 a, float_status *s) +{ + FloatParts128 p; + + float128_unpack_canonical(&p, a, s); + parts_float_to_float(&p, s); + return floatx80_round_pack_canonical(&p, s); +} + /* * Round to integral value */ @@ -5048,42 +5115,6 @@ static float128 normalizeRoundAndPackFloat128(bool zSign, int32_t zExp, } -/*---------------------------------------------------------------------------- -| Returns the result of converting the single-precision floating-point value -| `a' to the extended double-precision floating-point format. The conversion -| is performed according to the IEC/IEEE Standard for Binary Floating-Point -| Arithmetic. -*----------------------------------------------------------------------------*/ - -floatx80 float32_to_floatx80(float32 a, float_status *status) -{ - bool aSign; - int aExp; - uint32_t aSig; - - a = float32_squash_input_denormal(a, status); - aSig = extractFloat32Frac( a ); - aExp = extractFloat32Exp( a ); - aSign = extractFloat32Sign( a ); - if ( aExp == 0xFF ) { - if (aSig) { - floatx80 res = commonNaNToFloatx80(float32ToCommonNaN(a, status), - status); - return floatx80_silence_nan(res, status); - } - return packFloatx80(aSign, - floatx80_infinity_high, - floatx80_infinity_low); - } - if ( aExp == 0 ) { - if ( aSig == 0 ) return packFloatx80( aSign, 0, 0 ); - normalizeFloat32Subnormal( aSig, &aExp, &aSig ); - } - aSig |= 0x00800000; - return packFloatx80( aSign, aExp + 0x3F80, ( (uint64_t) aSig )<<40 ); - -} - /*---------------------------------------------------------------------------- | Returns the remainder of the single-precision floating-point value `a' | with respect to the corresponding value `b'. The operation is performed @@ -5320,43 +5351,6 @@ float32 float32_log2(float32 a, float_status *status) return normalizeRoundAndPackFloat32(zSign, 0x85, zSig, status); } -/*---------------------------------------------------------------------------- -| Returns the result of converting the double-precision floating-point value -| `a' to the extended double-precision floating-point format. The conversion -| is performed according to the IEC/IEEE Standard for Binary Floating-Point -| Arithmetic. -*----------------------------------------------------------------------------*/ - -floatx80 float64_to_floatx80(float64 a, float_status *status) -{ - bool aSign; - int aExp; - uint64_t aSig; - - a = float64_squash_input_denormal(a, status); - aSig = extractFloat64Frac( a ); - aExp = extractFloat64Exp( a ); - aSign = extractFloat64Sign( a ); - if ( aExp == 0x7FF ) { - if (aSig) { - floatx80 res = commonNaNToFloatx80(float64ToCommonNaN(a, status), - status); - return floatx80_silence_nan(res, status); - } - return packFloatx80(aSign, - floatx80_infinity_high, - floatx80_infinity_low); - } - if ( aExp == 0 ) { - if ( aSig == 0 ) return packFloatx80( aSign, 0, 0 ); - normalizeFloat64Subnormal( aSig, &aExp, &aSig ); - } - return - packFloatx80( - aSign, aExp + 0x3C00, (aSig | UINT64_C(0x0010000000000000)) << 11); - -} - /*---------------------------------------------------------------------------- | Returns the remainder of the double-precision floating-point value `a' | with respect to the corresponding value `b'. The operation is performed @@ -5667,104 +5661,6 @@ int64_t floatx80_to_int64_round_to_zero(floatx80 a, float_status *status) } -/*---------------------------------------------------------------------------- -| Returns the result of converting the extended double-precision floating- -| point value `a' to the single-precision floating-point format. The -| conversion is performed according to the IEC/IEEE Standard for Binary -| Floating-Point Arithmetic. -*----------------------------------------------------------------------------*/ - -float32 floatx80_to_float32(floatx80 a, float_status *status) -{ - bool aSign; - int32_t aExp; - uint64_t aSig; - - if (floatx80_invalid_encoding(a)) { - float_raise(float_flag_invalid, status); - return float32_default_nan(status); - } - aSig = extractFloatx80Frac( a ); - aExp = extractFloatx80Exp( a ); - aSign = extractFloatx80Sign( a ); - if ( aExp == 0x7FFF ) { - if ( (uint64_t) ( aSig<<1 ) ) { - float32 res = commonNaNToFloat32(floatx80ToCommonNaN(a, status), - status); - return float32_silence_nan(res, status); - } - return packFloat32( aSign, 0xFF, 0 ); - } - shift64RightJamming( aSig, 33, &aSig ); - if ( aExp || aSig ) aExp -= 0x3F81; - return roundAndPackFloat32(aSign, aExp, aSig, status); - -} - -/*---------------------------------------------------------------------------- -| Returns the result of converting the extended double-precision floating- -| point value `a' to the double-precision floating-point format. The -| conversion is performed according to the IEC/IEEE Standard for Binary -| Floating-Point Arithmetic. -*----------------------------------------------------------------------------*/ - -float64 floatx80_to_float64(floatx80 a, float_status *status) -{ - bool aSign; - int32_t aExp; - uint64_t aSig, zSig; - - if (floatx80_invalid_encoding(a)) { - float_raise(float_flag_invalid, status); - return float64_default_nan(status); - } - aSig = extractFloatx80Frac( a ); - aExp = extractFloatx80Exp( a ); - aSign = extractFloatx80Sign( a ); - if ( aExp == 0x7FFF ) { - if ( (uint64_t) ( aSig<<1 ) ) { - float64 res = commonNaNToFloat64(floatx80ToCommonNaN(a, status), - status); - return float64_silence_nan(res, status); - } - return packFloat64( aSign, 0x7FF, 0 ); - } - shift64RightJamming( aSig, 1, &zSig ); - if ( aExp || aSig ) aExp -= 0x3C01; - return roundAndPackFloat64(aSign, aExp, zSig, status); - -} - -/*---------------------------------------------------------------------------- -| Returns the result of converting the extended double-precision floating- -| point value `a' to the quadruple-precision floating-point format. The -| conversion is performed according to the IEC/IEEE Standard for Binary -| Floating-Point Arithmetic. -*----------------------------------------------------------------------------*/ - -float128 floatx80_to_float128(floatx80 a, float_status *status) -{ - bool aSign; - int aExp; - uint64_t aSig, zSig0, zSig1; - - if (floatx80_invalid_encoding(a)) { - float_raise(float_flag_invalid, status); - return float128_default_nan(status); - } - aSig = extractFloatx80Frac( a ); - aExp = extractFloatx80Exp( a ); - aSign = extractFloatx80Sign( a ); - if ( ( aExp == 0x7FFF ) && (uint64_t) ( aSig<<1 ) ) { - float128 res = commonNaNToFloat128(floatx80ToCommonNaN(a, status), - status); - return float128_silence_nan(res, status); - } - shift128Right( aSig<<1, 0, 16, &zSig0, &zSig1 ); - return packFloat128( aSign, aExp, zSig0, zSig1 ); - -} - /*---------------------------------------------------------------------------- | Rounds the extended double-precision floating-point value `a' | to the precision provided by floatx80_rounding_precision and returns the @@ -5937,44 +5833,6 @@ floatx80 floatx80_mod(floatx80 a, floatx80 b, float_status *status) return floatx80_modrem(a, b, true, "ient, status); } -/*---------------------------------------------------------------------------- -| Returns the result of converting the quadruple-precision floating-point -| value `a' to the extended double-precision floating-point format. The -| conversion is performed according to the IEC/IEEE Standard for Binary -| Floating-Point Arithmetic. -*----------------------------------------------------------------------------*/ - -floatx80 float128_to_floatx80(float128 a, float_status *status) -{ - bool aSign; - int32_t aExp; - uint64_t aSig0, aSig1; - - aSig1 = extractFloat128Frac1( a ); - aSig0 = extractFloat128Frac0( a ); - aExp = extractFloat128Exp( a ); - aSign = extractFloat128Sign( a ); - if ( aExp == 0x7FFF ) { - if ( aSig0 | aSig1 ) { - floatx80 res = commonNaNToFloatx80(float128ToCommonNaN(a, status), - status); - return floatx80_silence_nan(res, status); - } - return packFloatx80(aSign, floatx80_infinity_high, - floatx80_infinity_low); - } - if ( aExp == 0 ) { - if ( ( aSig0 | aSig1 ) == 0 ) return packFloatx80( aSign, 0, 0 ); - normalizeFloat128Subnormal( aSig0, aSig1, &aExp, &aSig0, &aSig1 ); - } - else { - aSig0 |= UINT64_C(0x0001000000000000); - } - shortShift128Left( aSig0, aSig1, 15, &aSig0, &aSig1 ); - return roundAndPackFloatx80(80, aSign, aExp, aSig0, aSig1, status); - -} - /*---------------------------------------------------------------------------- | Returns the remainder of the quadruple-precision floating-point value `a' | with respect to the corresponding value `b'. The operation is performed diff --git a/fpu/softfloat-specialize.c.inc b/fpu/softfloat-specialize.c.inc index a0cf016b4f..88eab344df 100644 --- a/fpu/softfloat-specialize.c.inc +++ b/fpu/softfloat-specialize.c.inc @@ -257,14 +257,6 @@ floatx80 floatx80_default_nan(float_status *status) const floatx80 floatx80_infinity = make_floatx80_init(floatx80_infinity_high, floatx80_infinity_low); -/*---------------------------------------------------------------------------- -| Internal canonical NaN format. -*----------------------------------------------------------------------------*/ -typedef struct { - bool sign; - uint64_t high, low; -} commonNaNT; - /*---------------------------------------------------------------------------- | Returns 1 if the half-precision floating-point value `a' is a quiet | NaN; otherwise returns 0. @@ -380,46 +372,6 @@ bool float32_is_signaling_nan(float32 a_, float_status *status) } } -/*---------------------------------------------------------------------------- -| Returns the result of converting the single-precision floating-point NaN -| `a' to the canonical NaN format. If `a' is a signaling NaN, the invalid -| exception is raised. -*----------------------------------------------------------------------------*/ - -static commonNaNT float32ToCommonNaN(float32 a, float_status *status) -{ - commonNaNT z; - - if (float32_is_signaling_nan(a, status)) { - float_raise(float_flag_invalid, status); - } - z.sign = float32_val(a) >> 31; - z.low = 0; - z.high = ((uint64_t)float32_val(a)) << 41; - return z; -} - -/*---------------------------------------------------------------------------- -| Returns the result of converting the canonical NaN `a' to the single- -| precision floating-point format. -*----------------------------------------------------------------------------*/ - -static float32 commonNaNToFloat32(commonNaNT a, float_status *status) -{ - uint32_t mantissa = a.high >> 41; - - if (status->default_nan_mode) { - return float32_default_nan(status); - } - - if (mantissa) { - return make_float32( - (((uint32_t)a.sign) << 31) | 0x7F800000 | (a.high >> 41)); - } else { - return float32_default_nan(status); - } -} - /*---------------------------------------------------------------------------- | Select which NaN to propagate for a two-input operation. | IEEE754 doesn't specify all the details of this, so the @@ -780,48 +732,6 @@ bool float64_is_signaling_nan(float64 a_, float_status *status) } } -/*---------------------------------------------------------------------------- -| Returns the result of converting the double-precision floating-point NaN -| `a' to the canonical NaN format. If `a' is a signaling NaN, the invalid -| exception is raised. -*----------------------------------------------------------------------------*/ - -static commonNaNT float64ToCommonNaN(float64 a, float_status *status) -{ - commonNaNT z; - - if (float64_is_signaling_nan(a, status)) { - float_raise(float_flag_invalid, status); - } - z.sign = float64_val(a) >> 63; - z.low = 0; - z.high = float64_val(a) << 12; - return z; -} - -/*---------------------------------------------------------------------------- -| Returns the result of converting the canonical NaN `a' to the double- -| precision floating-point format. -*----------------------------------------------------------------------------*/ - -static float64 commonNaNToFloat64(commonNaNT a, float_status *status) -{ - uint64_t mantissa = a.high >> 12; - - if (status->default_nan_mode) { - return float64_default_nan(status); - } - - if (mantissa) { - return make_float64( - (((uint64_t) a.sign) << 63) - | UINT64_C(0x7FF0000000000000) - | (a.high >> 12)); - } else { - return float64_default_nan(status); - } -} - /*---------------------------------------------------------------------------- | Takes two double-precision floating-point values `a' and `b', one of which | is a NaN, and returns the appropriate NaN result. If either `a' or `b' is a @@ -941,55 +851,6 @@ floatx80 floatx80_silence_nan(floatx80 a, float_status *status) return a; } -/*---------------------------------------------------------------------------- -| Returns the result of converting the extended double-precision floating- -| point NaN `a' to the canonical NaN format. If `a' is a signaling NaN, the -| invalid exception is raised. -*----------------------------------------------------------------------------*/ - -static commonNaNT floatx80ToCommonNaN(floatx80 a, float_status *status) -{ - floatx80 dflt; - commonNaNT z; - - if (floatx80_is_signaling_nan(a, status)) { - float_raise(float_flag_invalid, status); - } - if (a.low >> 63) { - z.sign = a.high >> 15; - z.low = 0; - z.high = a.low << 1; - } else { - dflt = floatx80_default_nan(status); - z.sign = dflt.high >> 15; - z.low = 0; - z.high = dflt.low << 1; - } - return z; -} - -/*---------------------------------------------------------------------------- -| Returns the result of converting the canonical NaN `a' to the extended -| double-precision floating-point format. -*----------------------------------------------------------------------------*/ - -static floatx80 commonNaNToFloatx80(commonNaNT a, float_status *status) -{ - floatx80 z; - - if (status->default_nan_mode) { - return floatx80_default_nan(status); - } - - if (a.high >> 1) { - z.low = UINT64_C(0x8000000000000000) | a.high >> 1; - z.high = (((uint16_t)a.sign) << 15) | 0x7FFF; - } else { - z = floatx80_default_nan(status); - } - return z; -} - /*---------------------------------------------------------------------------- | Takes two extended double-precision floating-point values `a' and `b', one | of which is a NaN, and returns the appropriate NaN result. If either `a' or @@ -1082,42 +943,6 @@ bool float128_is_signaling_nan(float128 a, float_status *status) } } -/*---------------------------------------------------------------------------- -| Returns the result of converting the quadruple-precision floating-point NaN -| `a' to the canonical NaN format. If `a' is a signaling NaN, the invalid -| exception is raised. -*----------------------------------------------------------------------------*/ - -static commonNaNT float128ToCommonNaN(float128 a, float_status *status) -{ - commonNaNT z; - - if (float128_is_signaling_nan(a, status)) { - float_raise(float_flag_invalid, status); - } - z.sign = a.high >> 63; - shortShift128Left(a.high, a.low, 16, &z.high, &z.low); - return z; -} - -/*---------------------------------------------------------------------------- -| Returns the result of converting the canonical NaN `a' to the quadruple- -| precision floating-point format. -*----------------------------------------------------------------------------*/ - -static float128 commonNaNToFloat128(commonNaNT a, float_status *status) -{ - float128 z; - - if (status->default_nan_mode) { - return float128_default_nan(status); - } - - shift128Right(a.high, a.low, 16, &z.high, &z.low); - z.high |= (((uint64_t)a.sign) << 63) | UINT64_C(0x7FFF000000000000); - return z; -} - /*---------------------------------------------------------------------------- | Takes two quadruple-precision floating-point values `a' and `b', one of | which is a NaN, and returns the appropriate NaN result. If either `a' or -- 2.25.1