242 lines
10 KiB
C
242 lines
10 KiB
C
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/* -------------------------------------------------------------- */
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/* (C)Copyright 2006,2007, */
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/* International Business Machines Corporation */
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/* All Rights Reserved. */
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/* */
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/* Redistribution and use in source and binary forms, with or */
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/* without modification, are permitted provided that the */
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/* following conditions are met: */
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/* */
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/* - Redistributions of source code must retain the above copyright*/
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/* notice, this list of conditions and the following disclaimer. */
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/* */
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/* - Redistributions in binary form must reproduce the above */
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/* copyright notice, this list of conditions and the following */
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/* disclaimer in the documentation and/or other materials */
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/* provided with the distribution. */
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/* */
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/* - Neither the name of IBM Corporation nor the names of its */
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/* contributors may be used to endorse or promote products */
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/* derived from this software without specific prior written */
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/* permission. */
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/* Redistributions of source code must retain the above copyright */
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/* notice, this list of conditions and the following disclaimer. */
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/* */
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/* Redistributions in binary form must reproduce the above */
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/* copyright notice, this list of conditions and the following */
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/* disclaimer in the documentation and/or other materials */
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/* provided with the distribution. */
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/* */
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/* Neither the name of IBM Corporation nor the names of its */
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/* contributors may be used to endorse or promote products */
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/* derived from this software without specific prior written */
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/* permission. */
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/* */
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/* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND */
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/* CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, */
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/* INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF */
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/* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE */
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/* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR */
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/* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, */
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/* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT */
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/* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; */
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/* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) */
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/* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN */
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/* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR */
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/* OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, */
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/* EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */
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/* -------------------------------------------------------------- */
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/* PROLOG END TAG zYx */
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#ifdef __SPU__
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#ifndef _TGAMMAF4_H_
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#define _TGAMMAF4_H_ 1
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#include <spu_intrinsics.h>
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#include "simdmath.h"
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#include "recipf4.h"
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#include "truncf4.h"
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#include "expf4.h"
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#include "logf4.h"
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#include "divf4.h"
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#include "sinf4.h"
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#include "powf4.h"
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#include "tgammad2.h"
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/*
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* FUNCTION
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* vector float _tgammaf4(vector float x)
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*
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* DESCRIPTION
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* The tgammaf4 function returns a vector containing tgamma for each
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* element of x
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*
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* We take a fairly standard approach - break the domain into 5 separate regions:
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*
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* 1. [-infinity, 0) - use gamma(x) = pi/(x*gamma(-x)*sin(x*pi))
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* 2. [0, 1) - push x into [1,2), then adjust the
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* result.
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* 3. [1, 2) - use a rational approximation.
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* 4. [2, 10) - pull back into [1, 2), then adjust
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* the result.
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* 5. [10, +infinity] - use Stirling's Approximation.
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*
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*
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* Special Cases:
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* - tgamma(+/- 0) returns +/- infinity
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* - tgamma(negative integer) returns NaN
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* - tgamma(-infinity) returns NaN
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* - tgamma(infinity) returns infinity
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*
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*/
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/*
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* Coefficients for Stirling's Series for Gamma() are defined in
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* tgammad2.h
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*/
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/*
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* Rational Approximation Coefficients for the
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* domain [1, 2) are defined in tgammad2.h
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*/
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static __inline vector float _tgammaf4(vector float x)
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{
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vector float signbit = spu_splats(-0.0f);
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vector float zerof = spu_splats(0.0f);
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vector float halff = spu_splats(0.5f);
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vector float onef = spu_splats(1.0f);
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vector float ninep9f = (vector float)spu_splats(0x411FFFFF); /* Next closest to 10.0 */
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vector float t38f = spu_splats(38.0f);
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vector float pi = spu_splats((float)SM_PI);
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vector float sqrt2pi = spu_splats(2.506628274631000502415765284811f);
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vector float inf = (vec_float4)spu_splats(0x7F800000);
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vector float nan = (vec_float4)spu_splats(0x7FFFFFFF);
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vector float xabs;
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vector float xscaled;
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vector float xtrunc;
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vector float xinv;
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vector float nresult; /* Negative x result */
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vector float rresult; /* Rational Approx result */
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vector float sresult; /* Stirling's result */
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vector float result;
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vector float pr,qr;
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vector unsigned int gt0 = spu_cmpgt(x, zerof);
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vector unsigned int gt1 = spu_cmpgt(x, onef);
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vector unsigned int gt9p9 = spu_cmpgt(x, ninep9f);
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vector unsigned int gt38 = spu_cmpgt(x, t38f);
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xabs = spu_andc(x, signbit);
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/*
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* For x in [0, 1], add 1 to x, use rational
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* approximation, then use:
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*
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* gamma(x) = gamma(x+1)/x
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*
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*/
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xabs = spu_sel(spu_add(xabs, onef), xabs, gt1);
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xtrunc = _truncf4(xabs);
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/*
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* For x in [2, 10):
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*/
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xscaled = spu_add(onef, spu_sub(xabs, xtrunc));
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/*
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* For x in [1,2), use a rational approximation.
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*/
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pr = spu_madd(xscaled, spu_splats((float)TGD2_P07), spu_splats((float)TGD2_P06));
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pr = spu_madd(pr, xscaled, spu_splats((float)TGD2_P05));
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pr = spu_madd(pr, xscaled, spu_splats((float)TGD2_P04));
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pr = spu_madd(pr, xscaled, spu_splats((float)TGD2_P03));
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pr = spu_madd(pr, xscaled, spu_splats((float)TGD2_P02));
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pr = spu_madd(pr, xscaled, spu_splats((float)TGD2_P01));
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pr = spu_madd(pr, xscaled, spu_splats((float)TGD2_P00));
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qr = spu_madd(xscaled, spu_splats((float)TGD2_Q07), spu_splats((float)TGD2_Q06));
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qr = spu_madd(qr, xscaled, spu_splats((float)TGD2_Q05));
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qr = spu_madd(qr, xscaled, spu_splats((float)TGD2_Q04));
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qr = spu_madd(qr, xscaled, spu_splats((float)TGD2_Q03));
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qr = spu_madd(qr, xscaled, spu_splats((float)TGD2_Q02));
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qr = spu_madd(qr, xscaled, spu_splats((float)TGD2_Q01));
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qr = spu_madd(qr, xscaled, spu_splats((float)TGD2_Q00));
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rresult = _divf4(pr, qr);
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rresult = spu_sel(_divf4(rresult, x), rresult, gt1);
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/*
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* If x was in [2,10) and we pulled it into [1,2), we need to push
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* it back out again.
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*/
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rresult = spu_sel(rresult, spu_mul(rresult, xscaled), spu_cmpgt(x, xscaled)); /* [2,3) */
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xscaled = spu_add(xscaled, onef);
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rresult = spu_sel(rresult, spu_mul(rresult, xscaled), spu_cmpgt(x, xscaled)); /* [3,4) */
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xscaled = spu_add(xscaled, onef);
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rresult = spu_sel(rresult, spu_mul(rresult, xscaled), spu_cmpgt(x, xscaled)); /* [4,5) */
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xscaled = spu_add(xscaled, onef);
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rresult = spu_sel(rresult, spu_mul(rresult, xscaled), spu_cmpgt(x, xscaled)); /* [5,6) */
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xscaled = spu_add(xscaled, onef);
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rresult = spu_sel(rresult, spu_mul(rresult, xscaled), spu_cmpgt(x, xscaled)); /* [6,7) */
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xscaled = spu_add(xscaled, onef);
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rresult = spu_sel(rresult, spu_mul(rresult, xscaled), spu_cmpgt(x, xscaled)); /* [7,8) */
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xscaled = spu_add(xscaled, onef);
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rresult = spu_sel(rresult, spu_mul(rresult, xscaled), spu_cmpgt(x, xscaled)); /* [8,9) */
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xscaled = spu_add(xscaled, onef);
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rresult = spu_sel(rresult, spu_mul(rresult, xscaled), spu_cmpgt(x, xscaled)); /* [9,10) */
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/*
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* For x >= 10, we use Stirling's Approximation
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*/
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vector float sum;
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xinv = _recipf4(xabs);
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sum = spu_madd(xinv, spu_splats((float)STIRLING_16), spu_splats((float)STIRLING_15));
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sum = spu_madd(sum, xinv, spu_splats((float)STIRLING_14));
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sum = spu_madd(sum, xinv, spu_splats((float)STIRLING_13));
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sum = spu_madd(sum, xinv, spu_splats((float)STIRLING_12));
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sum = spu_madd(sum, xinv, spu_splats((float)STIRLING_11));
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sum = spu_madd(sum, xinv, spu_splats((float)STIRLING_10));
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sum = spu_madd(sum, xinv, spu_splats((float)STIRLING_09));
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sum = spu_madd(sum, xinv, spu_splats((float)STIRLING_08));
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sum = spu_madd(sum, xinv, spu_splats((float)STIRLING_07));
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sum = spu_madd(sum, xinv, spu_splats((float)STIRLING_06));
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sum = spu_madd(sum, xinv, spu_splats((float)STIRLING_05));
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sum = spu_madd(sum, xinv, spu_splats((float)STIRLING_04));
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sum = spu_madd(sum, xinv, spu_splats((float)STIRLING_03));
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sum = spu_madd(sum, xinv, spu_splats((float)STIRLING_02));
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sum = spu_madd(sum, xinv, spu_splats((float)STIRLING_01));
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sum = spu_madd(sum, xinv, spu_splats((float)STIRLING_00));
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sum = spu_mul(sum, sqrt2pi);
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sum = spu_mul(sum, _powf4(x, spu_sub(x, halff)));
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sresult = spu_mul(sum, _expf4(spu_or(x, signbit)));
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/*
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* Choose rational approximation or Stirling's result.
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*/
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result = spu_sel(rresult, sresult, gt9p9);
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result = spu_sel(result, inf, gt38);
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/* For x < 0, use:
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* gamma(x) = pi/(x*gamma(-x)*sin(x*pi))
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*/
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nresult = _divf4(pi, spu_mul(x, spu_mul(result, _sinf4(spu_mul(x, pi)))));
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result = spu_sel(nresult, result, gt0);
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/*
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* x = non-positive integer, return NaN.
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*/
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result = spu_sel(result, nan, spu_andc(spu_cmpeq(x, xtrunc), gt0));
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return result;
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}
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#endif /* _TGAMMAF4_H_ */
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#endif /* __SPU__ */
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