atl_syr2k_putu.c

来自「基于Blas CLapck的.用过的人知道是干啥的」· C语言 代码 · 共 163 行

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/* *             Automatically Tuned Linear Algebra Software v3.8.0 *                    (C) Copyright 1997 R. Clint Whaley * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: *   1. Redistributions of source code must retain the above copyright *      notice, this list of conditions and the following disclaimer. *   2. Redistributions in binary form must reproduce the above copyright *      notice, this list of conditions, and the following disclaimer in the *      documentation and/or other materials provided with the distribution. *   3. The name of the ATLAS group or the names of its contributers may *      not be used to endorse or promote products derived from this *      software without specific written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE ATLAS GROUP OR ITS CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. * */#include "atlas_kern3.h"#ifdef Herm_   #define MPi -#else   #define MPi +#endif#ifdef TREALvoid Mjoin(Mjoin(PATL,syr2k_putU),BNM)   (const int N, const TYPE *D, const SCALAR beta0, TYPE *A, const int lda)/* * Takes D with property (D + D') = (D + D')', and writes it to * upper part of symetric matrix A */{   register int i, j;   const int ldap1 = lda+1;   const TYPE *Dc=D, *Dr;   TYPE *Ad=A, *Ar;   const register SCALAR beta=beta0;   for (j=0; j != N; j++)   {      for (Dr=Dc+j, Ar=Ad, i=j; i != N; i++, Dr += N, Ar += lda)         #if defined(BETA1)            *Ar += Dc[i] + *Dr;         #elif defined (BETA0)            *Ar =  Dc[i] + *Dr;         #else            *Ar = *Ar*beta + Dc[i] + *Dr;         #endif      Ad += ldap1;      Dc += N;   }}#else/* * Workaround for icc errors on IA64Itan2 */#ifdef ATL_IntelIccBugs#pragma optimize("", off)#endif#ifdef Herm_   void Mjoin(Mjoin(PATL,her2k_putU),BNM)#else   void Mjoin(Mjoin(PATL,syr2k_putU),BNM)#endif   (const int N, const TYPE *D, const SCALAR beta0, TYPE *A, const int lda)/* * Takes D with property (D + D') = (D + D')', and writes it to * upper part of symetric matrix A */{   register int i, j2;   const int N2=N<<1, lda2=lda<<1;   #define ldD2 N2   #ifdef Herm_      const TYPE zero=0.0;   #endif   const TYPE *Dc=D, *Dr;   #ifdef BETAXI0      const register TYPE rbeta=*beta0;   #elif defined(BETAX)      register TYPE ra, ia;      const register TYPE rbeta=*beta0, ibeta=beta0[1];   #endif   for (j2=0; j2 != N2; j2 += 2)   {      Dr = D + j2;      #ifdef BETA1         for (i=0; i != j2; i += 2, Dr += ldD2)         {            A[i] += Dc[i] + *Dr;            A[i+1] += Dc[i+1] MPi Dr[1];         }         A[j2] += Dc[j2] + Dc[j2];         #ifdef Herm_            A[j2+1] = zero;         #else            A[j2+1] += Dc[j2+1] + Dc[j2+1];         #endif      #elif defined(BETA0)         for (i=0; i != j2; i += 2, Dr += ldD2)         {            A[i] = Dc[i] + *Dr;            A[i+1] = Dc[i+1] MPi Dr[1];         }         A[j2] = Dc[j2] + Dc[j2];         #ifdef Herm_            A[j2+1] = zero;         #else            A[j2+1] = Dc[j2+1] + Dc[j2+1];         #endif      #elif defined(BETAN1) || defined(BETAXI0)         for (i=0; i != j2; i += 2, Dr += ldD2)         {            A[i] = ATL_MulByBETA(A[i]) + Dc[i] + *Dr;            A[i+1] = ATL_MulByBETA(A[i+1]) + Dc[i+1] MPi Dr[1];         }         A[j2] = ATL_MulByBETA(A[j2]) + Dc[j2] + Dc[j2];         #ifdef Herm_            A[j2+1] = zero;         #else            A[j2+1] = ATL_MulByBETA(A[j2+1]) + Dc[j2+1] + Dc[j2+1];         #endif      #else         for (i=0; i != j2; i += 2, Dr += ldD2)         {            ra = A[i]; ia = A[i+1];            A[i] = ra*rbeta - ia*ibeta + Dc[i] + *Dr;            A[i+1] = rbeta*ia + ibeta*ra + Dc[i+1] + Dr[1];         }         #ifdef Herm_            A[j2] = A[j2]*rbeta + 2.0*Dc[j2];            A[j2+1] = ATL_rzero;         #else            ra = A[j2]; ia = A[j2+1];            A[j2] = ra*rbeta - ia*ibeta + 2.0*Dc[j2];            A[j2+1] = rbeta*ia + ibeta*ra + 2.0*Dc[j2+1];         #endif      #endif      A += lda2;      Dc += ldD2;   }}#endif#undef MPi

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