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[189.204.200.163]) by smtp.gmail.com with ESMTPSA id 195sm8180765qkj.1.2021.05.16.05.38.11 (version=TLS1_3 cipher=TLS_AES_256_GCM_SHA384 bits=256/256); Sun, 16 May 2021 05:38:11 -0700 (PDT) From: Richard Henderson To: qemu-devel@nongnu.org Subject: [PULL 46/46] softfloat: Move round_to_int_and_pack to softfloat-parts.c.inc Date: Sun, 16 May 2021 07:34:31 -0500 Message-Id: <20210516123431.718318-47-richard.henderson@linaro.org> X-Mailer: git-send-email 2.25.1 In-Reply-To: <20210516123431.718318-1-richard.henderson@linaro.org> References: <20210516123431.718318-1-richard.henderson@linaro.org> MIME-Version: 1.0 Received-SPF: pass client-ip=2607:f8b0:4864:20::f2a; envelope-from=richard.henderson@linaro.org; helo=mail-qv1-xf2a.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: peter.maydell@linaro.org, =?utf-8?q?Alex_Benn=C3=A9e?= Errors-To: qemu-devel-bounces+patch=linaro.org@nongnu.org Sender: "Qemu-devel" Rename to parts$N_float_to_sint. Reimplement float128_to_int{32,64}{_round_to_zero} with FloatParts128. Reviewed-by: Alex Bennée Signed-off-by: Richard Henderson --- fpu/softfloat.c | 365 +++++++++----------------------------- fpu/softfloat-parts.c.inc | 64 +++++++ 2 files changed, 145 insertions(+), 284 deletions(-) -- 2.25.1 diff --git a/fpu/softfloat.c b/fpu/softfloat.c index 5647a05d5d..0dc2203477 100644 --- a/fpu/softfloat.c +++ b/fpu/softfloat.c @@ -829,6 +829,16 @@ static void parts128_round_to_int(FloatParts128 *a, FloatRoundMode r, #define parts_round_to_int(A, R, C, S, F) \ PARTS_GENERIC_64_128(round_to_int, A)(A, R, C, S, F) +static int64_t parts64_float_to_sint(FloatParts64 *p, FloatRoundMode rmode, + int scale, int64_t min, int64_t max, + float_status *s); +static int64_t parts128_float_to_sint(FloatParts128 *p, FloatRoundMode rmode, + int scale, int64_t min, int64_t max, + float_status *s); + +#define parts_float_to_sint(P, R, Z, MN, MX, S) \ + PARTS_GENERIC_64_128(float_to_sint, P)(P, R, Z, MN, MX, S) + /* * Helper functions for softfloat-parts.c.inc, per-size operations. */ @@ -2352,69 +2362,8 @@ float128 float128_round_to_int(float128 a, float_status *s) } /* - * Returns the result of converting the floating-point value `a' to - * the two's complement integer format. The conversion is performed - * according to the IEC/IEEE Standard for Binary Floating-Point - * Arithmetic---which means in particular that the conversion is - * rounded according to the current rounding mode. If `a' is a NaN, - * the largest positive integer is returned. Otherwise, if the - * conversion overflows, the largest integer with the same sign as `a' - * is returned. -*/ - -static int64_t round_to_int_and_pack(FloatParts64 p, FloatRoundMode rmode, - int scale, int64_t min, int64_t max, - float_status *s) -{ - int flags = 0; - uint64_t r; - - switch (p.cls) { - case float_class_snan: - case float_class_qnan: - flags = float_flag_invalid; - r = max; - break; - - case float_class_inf: - flags = float_flag_invalid; - r = p.sign ? min : max; - break; - - case float_class_zero: - return 0; - - case float_class_normal: - /* TODO: 62 = N - 2, frac_size for rounding */ - if (parts_round_to_int_normal(&p, rmode, scale, 62)) { - flags = float_flag_inexact; - } - - if (p.exp <= DECOMPOSED_BINARY_POINT) { - r = p.frac >> (DECOMPOSED_BINARY_POINT - p.exp); - } else { - r = UINT64_MAX; - } - if (p.sign) { - if (r <= -(uint64_t)min) { - r = -r; - } else { - flags = float_flag_invalid; - r = min; - } - } else if (r > max) { - flags = float_flag_invalid; - r = max; - } - break; - - default: - g_assert_not_reached(); - } - - float_raise(flags, s); - return r; -} + * Floating-point to signed integer conversions + */ int8_t float16_to_int8_scalbn(float16 a, FloatRoundMode rmode, int scale, float_status *s) @@ -2422,7 +2371,7 @@ int8_t float16_to_int8_scalbn(float16 a, FloatRoundMode rmode, int scale, FloatParts64 p; float16_unpack_canonical(&p, a, s); - return round_to_int_and_pack(p, rmode, scale, INT8_MIN, INT8_MAX, s); + return parts_float_to_sint(&p, rmode, scale, INT8_MIN, INT8_MAX, s); } int16_t float16_to_int16_scalbn(float16 a, FloatRoundMode rmode, int scale, @@ -2431,7 +2380,7 @@ int16_t float16_to_int16_scalbn(float16 a, FloatRoundMode rmode, int scale, FloatParts64 p; float16_unpack_canonical(&p, a, s); - return round_to_int_and_pack(p, rmode, scale, INT16_MIN, INT16_MAX, s); + return parts_float_to_sint(&p, rmode, scale, INT16_MIN, INT16_MAX, s); } int32_t float16_to_int32_scalbn(float16 a, FloatRoundMode rmode, int scale, @@ -2440,7 +2389,7 @@ int32_t float16_to_int32_scalbn(float16 a, FloatRoundMode rmode, int scale, FloatParts64 p; float16_unpack_canonical(&p, a, s); - return round_to_int_and_pack(p, rmode, scale, INT32_MIN, INT32_MAX, s); + return parts_float_to_sint(&p, rmode, scale, INT32_MIN, INT32_MAX, s); } int64_t float16_to_int64_scalbn(float16 a, FloatRoundMode rmode, int scale, @@ -2449,7 +2398,7 @@ int64_t float16_to_int64_scalbn(float16 a, FloatRoundMode rmode, int scale, FloatParts64 p; float16_unpack_canonical(&p, a, s); - return round_to_int_and_pack(p, rmode, scale, INT64_MIN, INT64_MAX, s); + return parts_float_to_sint(&p, rmode, scale, INT64_MIN, INT64_MAX, s); } int16_t float32_to_int16_scalbn(float32 a, FloatRoundMode rmode, int scale, @@ -2458,7 +2407,7 @@ int16_t float32_to_int16_scalbn(float32 a, FloatRoundMode rmode, int scale, FloatParts64 p; float32_unpack_canonical(&p, a, s); - return round_to_int_and_pack(p, rmode, scale, INT16_MIN, INT16_MAX, s); + return parts_float_to_sint(&p, rmode, scale, INT16_MIN, INT16_MAX, s); } int32_t float32_to_int32_scalbn(float32 a, FloatRoundMode rmode, int scale, @@ -2467,7 +2416,7 @@ int32_t float32_to_int32_scalbn(float32 a, FloatRoundMode rmode, int scale, FloatParts64 p; float32_unpack_canonical(&p, a, s); - return round_to_int_and_pack(p, rmode, scale, INT32_MIN, INT32_MAX, s); + return parts_float_to_sint(&p, rmode, scale, INT32_MIN, INT32_MAX, s); } int64_t float32_to_int64_scalbn(float32 a, FloatRoundMode rmode, int scale, @@ -2476,7 +2425,7 @@ int64_t float32_to_int64_scalbn(float32 a, FloatRoundMode rmode, int scale, FloatParts64 p; float32_unpack_canonical(&p, a, s); - return round_to_int_and_pack(p, rmode, scale, INT64_MIN, INT64_MAX, s); + return parts_float_to_sint(&p, rmode, scale, INT64_MIN, INT64_MAX, s); } int16_t float64_to_int16_scalbn(float64 a, FloatRoundMode rmode, int scale, @@ -2485,7 +2434,7 @@ int16_t float64_to_int16_scalbn(float64 a, FloatRoundMode rmode, int scale, FloatParts64 p; float64_unpack_canonical(&p, a, s); - return round_to_int_and_pack(p, rmode, scale, INT16_MIN, INT16_MAX, s); + return parts_float_to_sint(&p, rmode, scale, INT16_MIN, INT16_MAX, s); } int32_t float64_to_int32_scalbn(float64 a, FloatRoundMode rmode, int scale, @@ -2494,7 +2443,7 @@ int32_t float64_to_int32_scalbn(float64 a, FloatRoundMode rmode, int scale, FloatParts64 p; float64_unpack_canonical(&p, a, s); - return round_to_int_and_pack(p, rmode, scale, INT32_MIN, INT32_MAX, s); + return parts_float_to_sint(&p, rmode, scale, INT32_MIN, INT32_MAX, s); } int64_t float64_to_int64_scalbn(float64 a, FloatRoundMode rmode, int scale, @@ -2503,7 +2452,52 @@ int64_t float64_to_int64_scalbn(float64 a, FloatRoundMode rmode, int scale, FloatParts64 p; float64_unpack_canonical(&p, a, s); - return round_to_int_and_pack(p, rmode, scale, INT64_MIN, INT64_MAX, s); + return parts_float_to_sint(&p, rmode, scale, INT64_MIN, INT64_MAX, s); +} + +int16_t bfloat16_to_int16_scalbn(bfloat16 a, FloatRoundMode rmode, int scale, + float_status *s) +{ + FloatParts64 p; + + bfloat16_unpack_canonical(&p, a, s); + return parts_float_to_sint(&p, rmode, scale, INT16_MIN, INT16_MAX, s); +} + +int32_t bfloat16_to_int32_scalbn(bfloat16 a, FloatRoundMode rmode, int scale, + float_status *s) +{ + FloatParts64 p; + + bfloat16_unpack_canonical(&p, a, s); + return parts_float_to_sint(&p, rmode, scale, INT32_MIN, INT32_MAX, s); +} + +int64_t bfloat16_to_int64_scalbn(bfloat16 a, FloatRoundMode rmode, int scale, + float_status *s) +{ + FloatParts64 p; + + bfloat16_unpack_canonical(&p, a, s); + return parts_float_to_sint(&p, rmode, scale, INT64_MIN, INT64_MAX, s); +} + +static int32_t float128_to_int32_scalbn(float128 a, FloatRoundMode rmode, + int scale, float_status *s) +{ + FloatParts128 p; + + float128_unpack_canonical(&p, a, s); + return parts_float_to_sint(&p, rmode, scale, INT32_MIN, INT32_MAX, s); +} + +static int64_t float128_to_int64_scalbn(float128 a, FloatRoundMode rmode, + int scale, float_status *s) +{ + FloatParts128 p; + + float128_unpack_canonical(&p, a, s); + return parts_float_to_sint(&p, rmode, scale, INT64_MIN, INT64_MAX, s); } int8_t float16_to_int8(float16 a, float_status *s) @@ -2556,6 +2550,16 @@ int64_t float64_to_int64(float64 a, float_status *s) return float64_to_int64_scalbn(a, s->float_rounding_mode, 0, s); } +int32_t float128_to_int32(float128 a, float_status *s) +{ + return float128_to_int32_scalbn(a, s->float_rounding_mode, 0, s); +} + +int64_t float128_to_int64(float128 a, float_status *s) +{ + return float128_to_int64_scalbn(a, s->float_rounding_mode, 0, s); +} + int16_t float16_to_int16_round_to_zero(float16 a, float_status *s) { return float16_to_int16_scalbn(a, float_round_to_zero, 0, s); @@ -2601,36 +2605,14 @@ int64_t float64_to_int64_round_to_zero(float64 a, float_status *s) return float64_to_int64_scalbn(a, float_round_to_zero, 0, s); } -/* - * Returns the result of converting the floating-point value `a' to - * the two's complement integer format. - */ - -int16_t bfloat16_to_int16_scalbn(bfloat16 a, FloatRoundMode rmode, int scale, - float_status *s) +int32_t float128_to_int32_round_to_zero(float128 a, float_status *s) { - FloatParts64 p; - - bfloat16_unpack_canonical(&p, a, s); - return round_to_int_and_pack(p, rmode, scale, INT16_MIN, INT16_MAX, s); + return float128_to_int32_scalbn(a, float_round_to_zero, 0, s); } -int32_t bfloat16_to_int32_scalbn(bfloat16 a, FloatRoundMode rmode, int scale, - float_status *s) +int64_t float128_to_int64_round_to_zero(float128 a, float_status *s) { - FloatParts64 p; - - bfloat16_unpack_canonical(&p, a, s); - return round_to_int_and_pack(p, rmode, scale, INT32_MIN, INT32_MAX, s); -} - -int64_t bfloat16_to_int64_scalbn(bfloat16 a, FloatRoundMode rmode, int scale, - float_status *s) -{ - FloatParts64 p; - - bfloat16_unpack_canonical(&p, a, s); - return round_to_int_and_pack(p, rmode, scale, INT64_MIN, INT64_MAX, s); + return float128_to_int64_scalbn(a, float_round_to_zero, 0, s); } int16_t bfloat16_to_int16(bfloat16 a, float_status *s) @@ -6554,191 +6536,6 @@ floatx80 floatx80_sqrt(floatx80 a, float_status *status) 0, zExp, zSig0, zSig1, status); } -/*---------------------------------------------------------------------------- -| Returns the result of converting the quadruple-precision floating-point -| value `a' to the 32-bit two's complement integer format. The conversion -| is performed according to the IEC/IEEE Standard for Binary Floating-Point -| Arithmetic---which means in particular that the conversion is rounded -| according to the current rounding mode. If `a' is a NaN, the largest -| positive integer is returned. Otherwise, if the conversion overflows, the -| largest integer with the same sign as `a' is returned. -*----------------------------------------------------------------------------*/ - -int32_t float128_to_int32(float128 a, float_status *status) -{ - bool aSign; - int32_t aExp, shiftCount; - uint64_t aSig0, aSig1; - - aSig1 = extractFloat128Frac1( a ); - aSig0 = extractFloat128Frac0( a ); - aExp = extractFloat128Exp( a ); - aSign = extractFloat128Sign( a ); - if ( ( aExp == 0x7FFF ) && ( aSig0 | aSig1 ) ) aSign = 0; - if ( aExp ) aSig0 |= UINT64_C(0x0001000000000000); - aSig0 |= ( aSig1 != 0 ); - shiftCount = 0x4028 - aExp; - if ( 0 < shiftCount ) shift64RightJamming( aSig0, shiftCount, &aSig0 ); - return roundAndPackInt32(aSign, aSig0, status); - -} - -/*---------------------------------------------------------------------------- -| Returns the result of converting the quadruple-precision floating-point -| value `a' to the 32-bit two's complement integer format. The conversion -| is performed according to the IEC/IEEE Standard for Binary Floating-Point -| Arithmetic, except that the conversion is always rounded toward zero. If -| `a' is a NaN, the largest positive integer is returned. Otherwise, if the -| conversion overflows, the largest integer with the same sign as `a' is -| returned. -*----------------------------------------------------------------------------*/ - -int32_t float128_to_int32_round_to_zero(float128 a, float_status *status) -{ - bool aSign; - int32_t aExp, shiftCount; - uint64_t aSig0, aSig1, savedASig; - int32_t z; - - aSig1 = extractFloat128Frac1( a ); - aSig0 = extractFloat128Frac0( a ); - aExp = extractFloat128Exp( a ); - aSign = extractFloat128Sign( a ); - aSig0 |= ( aSig1 != 0 ); - if ( 0x401E < aExp ) { - if ( ( aExp == 0x7FFF ) && aSig0 ) aSign = 0; - goto invalid; - } - else if ( aExp < 0x3FFF ) { - if (aExp || aSig0) { - float_raise(float_flag_inexact, status); - } - return 0; - } - aSig0 |= UINT64_C(0x0001000000000000); - shiftCount = 0x402F - aExp; - savedASig = aSig0; - aSig0 >>= shiftCount; - z = aSig0; - if ( aSign ) z = - z; - if ( ( z < 0 ) ^ aSign ) { - invalid: - float_raise(float_flag_invalid, status); - return aSign ? INT32_MIN : INT32_MAX; - } - if ( ( aSig0<>( ( - shiftCount ) & 63 ) ); - if ( (uint64_t) ( aSig1<>( - shiftCount ); - if ( aSig1 - || ( shiftCount && (uint64_t) ( aSig0<<( shiftCount & 63 ) ) ) ) { - float_raise(float_flag_inexact, status); - } - } - if ( aSign ) z = - z; - return z; - -} - /*---------------------------------------------------------------------------- | Returns the result of converting the quadruple-precision floating-point value | `a' to the 64-bit unsigned integer format. The conversion is diff --git a/fpu/softfloat-parts.c.inc b/fpu/softfloat-parts.c.inc index b2c4624d8c..a897a5a743 100644 --- a/fpu/softfloat-parts.c.inc +++ b/fpu/softfloat-parts.c.inc @@ -751,3 +751,67 @@ static void partsN(round_to_int)(FloatPartsN *a, FloatRoundMode rmode, g_assert_not_reached(); } } + +/* + * Returns the result of converting the floating-point value `a' to + * the two's complement integer format. The conversion is performed + * according to the IEC/IEEE Standard for Binary Floating-Point + * Arithmetic---which means in particular that the conversion is + * rounded according to the current rounding mode. If `a' is a NaN, + * the largest positive integer is returned. Otherwise, if the + * conversion overflows, the largest integer with the same sign as `a' + * is returned. +*/ +static int64_t partsN(float_to_sint)(FloatPartsN *p, FloatRoundMode rmode, + int scale, int64_t min, int64_t max, + float_status *s) +{ + int flags = 0; + uint64_t r; + + switch (p->cls) { + case float_class_snan: + case float_class_qnan: + flags = float_flag_invalid; + r = max; + break; + + case float_class_inf: + flags = float_flag_invalid; + r = p->sign ? min : max; + break; + + case float_class_zero: + return 0; + + case float_class_normal: + /* TODO: N - 2 is frac_size for rounding; could use input fmt. */ + if (parts_round_to_int_normal(p, rmode, scale, N - 2)) { + flags = float_flag_inexact; + } + + if (p->exp <= DECOMPOSED_BINARY_POINT) { + r = p->frac_hi >> (DECOMPOSED_BINARY_POINT - p->exp); + } else { + r = UINT64_MAX; + } + if (p->sign) { + if (r <= -(uint64_t)min) { + r = -r; + } else { + flags = float_flag_invalid; + r = min; + } + } else if (r > max) { + flags = float_flag_invalid; + r = max; + } + break; + + default: + g_assert_not_reached(); + } + + float_raise(flags, s); + return r; +}