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159 lines
5.3 KiB
159 lines
5.3 KiB
/*
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* Copyright (c) 2014 Advanced Micro Devices, Inc.
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*
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* Permission is hereby granted, free of charge, to any person obtaining a copy
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* of this software and associated documentation files (the "Software"), to deal
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* in the Software without restriction, including without limitation the rights
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* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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* copies of the Software, and to permit persons to whom the Software is
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* furnished to do so, subject to the following conditions:
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*
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* The above copyright notice and this permission notice shall be included in
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* all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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* THE SOFTWARE.
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*/
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#include <clc/clc.h>
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#include "config.h"
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#include "math.h"
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#include "../clcmacro.h"
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struct fp {
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ulong mantissa;
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int exponent;
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uint sign;
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};
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_CLC_DEF _CLC_OVERLOAD float __clc_sw_fma(float a, float b, float c)
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{
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/* special cases */
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if (isnan(a) || isnan(b) || isnan(c) || isinf(a) || isinf(b))
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return mad(a, b, c);
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/* If only c is inf, and both a,b are regular numbers, the result is c*/
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if (isinf(c))
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return c;
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a = __clc_flush_denormal_if_not_supported(a);
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b = __clc_flush_denormal_if_not_supported(b);
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c = __clc_flush_denormal_if_not_supported(c);
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if (c == 0)
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return a * b;
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struct fp st_a, st_b, st_c;
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st_a.exponent = a == .0f ? 0 : ((as_uint(a) & 0x7f800000) >> 23) - 127;
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st_b.exponent = b == .0f ? 0 : ((as_uint(b) & 0x7f800000) >> 23) - 127;
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st_c.exponent = c == .0f ? 0 : ((as_uint(c) & 0x7f800000) >> 23) - 127;
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st_a.mantissa = a == .0f ? 0 : (as_uint(a) & 0x7fffff) | 0x800000;
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st_b.mantissa = b == .0f ? 0 : (as_uint(b) & 0x7fffff) | 0x800000;
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st_c.mantissa = c == .0f ? 0 : (as_uint(c) & 0x7fffff) | 0x800000;
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st_a.sign = as_uint(a) & 0x80000000;
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st_b.sign = as_uint(b) & 0x80000000;
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st_c.sign = as_uint(c) & 0x80000000;
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// Multiplication.
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// Move the product to the highest bits to maximize precision
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// mantissa is 24 bits => product is 48 bits, 2bits non-fraction.
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// Add one bit for future addition overflow,
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// add another bit to detect subtraction underflow
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struct fp st_mul;
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st_mul.sign = st_a.sign ^ st_b.sign;
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st_mul.mantissa = (st_a.mantissa * st_b.mantissa) << 14ul;
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st_mul.exponent = st_mul.mantissa ? st_a.exponent + st_b.exponent : 0;
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// FIXME: Detecting a == 0 || b == 0 above crashed GCN isel
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if (st_mul.exponent == 0 && st_mul.mantissa == 0)
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return c;
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// Mantissa is 23 fractional bits, shift it the same way as product mantissa
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#define C_ADJUST 37ul
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// both exponents are bias adjusted
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int exp_diff = st_mul.exponent - st_c.exponent;
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st_c.mantissa <<= C_ADJUST;
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ulong cutoff_bits = 0;
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ulong cutoff_mask = (1ul << abs(exp_diff)) - 1ul;
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if (exp_diff > 0) {
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cutoff_bits = exp_diff >= 64 ? st_c.mantissa : (st_c.mantissa & cutoff_mask);
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st_c.mantissa = exp_diff >= 64 ? 0 : (st_c.mantissa >> exp_diff);
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} else {
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cutoff_bits = -exp_diff >= 64 ? st_mul.mantissa : (st_mul.mantissa & cutoff_mask);
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st_mul.mantissa = -exp_diff >= 64 ? 0 : (st_mul.mantissa >> -exp_diff);
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}
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struct fp st_fma;
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st_fma.sign = st_mul.sign;
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st_fma.exponent = max(st_mul.exponent, st_c.exponent);
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if (st_c.sign == st_mul.sign) {
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st_fma.mantissa = st_mul.mantissa + st_c.mantissa;
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} else {
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// cutoff bits borrow one
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st_fma.mantissa = st_mul.mantissa - st_c.mantissa - (cutoff_bits && (st_mul.exponent > st_c.exponent) ? 1 : 0);
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}
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// underflow: st_c.sign != st_mul.sign, and magnitude switches the sign
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if (st_fma.mantissa > LONG_MAX) {
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st_fma.mantissa = 0 - st_fma.mantissa;
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st_fma.sign = st_mul.sign ^ 0x80000000;
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}
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// detect overflow/underflow
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int overflow_bits = 3 - clz(st_fma.mantissa);
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// adjust exponent
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st_fma.exponent += overflow_bits;
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// handle underflow
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if (overflow_bits < 0) {
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st_fma.mantissa <<= -overflow_bits;
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overflow_bits = 0;
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}
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// rounding
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ulong trunc_mask = (1ul << (C_ADJUST + overflow_bits)) - 1;
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ulong trunc_bits = (st_fma.mantissa & trunc_mask) | (cutoff_bits != 0);
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ulong last_bit = st_fma.mantissa & (1ul << (C_ADJUST + overflow_bits));
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ulong grs_bits = (0x4ul << (C_ADJUST - 3 + overflow_bits));
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// round to nearest even
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if ((trunc_bits > grs_bits) ||
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(trunc_bits == grs_bits && last_bit != 0))
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st_fma.mantissa += (1ul << (C_ADJUST + overflow_bits));
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// Shift mantissa back to bit 23
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st_fma.mantissa = (st_fma.mantissa >> (C_ADJUST + overflow_bits));
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// Detect rounding overflow
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if (st_fma.mantissa > 0xffffff) {
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++st_fma.exponent;
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st_fma.mantissa >>= 1;
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}
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if (st_fma.mantissa == 0)
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return .0f;
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// Flating point range limit
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if (st_fma.exponent > 127)
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return as_float(as_uint(INFINITY) | st_fma.sign);
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// Flush denormals
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if (st_fma.exponent <= -127)
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return as_float(st_fma.sign);
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return as_float(st_fma.sign | ((st_fma.exponent + 127) << 23) | ((uint)st_fma.mantissa & 0x7fffff));
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}
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_CLC_TERNARY_VECTORIZE(_CLC_DEF _CLC_OVERLOAD, float, __clc_sw_fma, float, float, float)
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