emit_head.c

来自「基于Blas CLapck的.用过的人知道是干啥的」· C语言 代码 · 共 358 行

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/* *             Automatically Tuned Linear Algebra Software v3.8.0 *                    (C) Copyright 2000 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 <stdio.h>#include <stdlib.h>#include <string.h>#include <assert.h>#include <ctype.h>#include "atlas_type.h"#define Mlowcase(C) ( ((C) > 64 && (C) < 91) ? (C) | 32 : (C) )#define Mmin(x, y) ( (x) > (y) ? (y) : (x) )#define Mmax(x, y) ( (x) > (y) ? (x) : (y) )#define ATL_MVIsMM(iflag_) ( ((iflag_) | 8) == (iflag_) )#define ATL_MVIsAxpy(iflag_) ( ((iflag_) | 16) == (iflag_) )#define ATL_MVIsDot(iflag_) ( !ATL_MVIsMM(iflag_) && !ATL_MVIsAxpy(iflag_) )#define ATL_MVNoBlock(iflag_) ( ((iflag_) | 32) == (iflag_) )int GetL1CacheSize(){   FILE *L1f;   int L1Size;   L1f = fopen("res/L1CacheSize", "r");   if (!L1f)   {      assert(system("make res/L1CacheSize\n") == 0);      L1f = fopen("res/L1CacheSize", "r");      assert(L1f != NULL);   }   fscanf(L1f, "%d", &L1Size);   fclose(L1f);   fprintf(stderr, "\n      Read in L1 Cache size as = %dKB.\n",L1Size);   return(L1Size);}int GetL1Elts(char pre, double l1mul){   int l1;   l1 = 1024 * GetL1CacheSize();   if (pre == 's') l1 /= ATL_ssize;   else if (pre == 'd') l1 /= ATL_dsize;   else if (pre == 'c') l1 /= ATL_csize;   else if (pre == 'z') l1 /= ATL_zsize;   l1 = l1mul * l1;   return(l1);}void emit_mvhead(char pre, int l1mul){   char fnam[64];   int l1;   FILE *fp;   l1 = GetL1Elts(pre, 0.01*l1mul);   sprintf(fnam, "atlas_%cmv.h", pre);   fp = fopen(fnam, "w");   fprintf(fp, "#ifndef ATLAS_%cMV_H\n", toupper(pre));   fprintf(fp, "#define ATLAS_%cMV_H\n\n", toupper(pre));   fprintf(fp, "#define ATL_L1mvelts %d\n", l1);   fprintf(fp, "#include \"atlas_%cmvN.h\"\n", pre);   fprintf(fp, "#include \"atlas_%cmvT.h\"\n", pre);   fprintf(fp, "#include \"atlas_%cmvS.h\"\n", pre);   fprintf(fp, "\n#endif\n");   fclose(fp);}void emit_transhead(char pre, char TA, int flag, int mu, int nu, int l1mul){   char fnam[128];   FILE *fp;   int l1, mb;   l1 = GetL1Elts(pre, 0.01*l1mul);   sprintf(fnam, "atlas_%cmv%c.h", pre, TA);   fp = fopen(fnam, "w");   assert(fp);   fprintf(fp, "#ifndef ATLAS_MV%c_H\n", TA);   fprintf(fp, "#define ATLAS_MV%c_H\n\n", TA);   fprintf(fp, "#include \"atlas_misc.h\"\n");   if (ATL_MVIsMM(flag))   {      fprintf(fp, "#include \"atlas_%cNCmm.h\"\n", pre);      fprintf(fp, "#include \"atlas_lvl3.h\"\n");   }   fprintf(fp, "\n");   if (!ATL_MVIsMM(flag))   {      fprintf(fp, "#define ATL_mv%cMU %d\n", TA, mu);      fprintf(fp, "#define ATL_mv%cNU %d\n", TA, nu);   }   else   {      fprintf(fp, "#define ATL_mv%cMU ATL_mmMU\n", TA);      fprintf(fp, "#define ATL_mv%cNU NB\n", TA);      fprintf(fp, "#define ATL_mv%cCallsGemm\n", TA);   }   if (ATL_MVNoBlock(flag)) fprintf(fp, "#define ATL_mv%cNOBLOCK\n", TA);   fprintf(fp, "#ifndef ATL_L1mvelts\n");   fprintf(fp, "   #define ATL_L1mvelts ((3*ATL_L1elts)>>2)\n");   fprintf(fp, "#endif\n");   if (TA == 'S') /* symm/hemm stuff */   {      fprintf(fp, "#ifndef ATL_mvNNU\n");      fprintf(fp, "   #include \"atlas_%cmvN.h\"\n", pre);      fprintf(fp, "#endif\n");      fprintf(fp, "#ifndef ATL_mvTNU\n");      fprintf(fp, "   #include \"atlas_%cmvT.h\"\n", pre);      fprintf(fp, "#endif\n");      if (ATL_MVIsMM(flag))      {         fprintf(fp,         "#define ATL_GetPartSYMV(A_, lda_, mb_, nb_) *(mb_) = *(nb_) = NB \n");      }      else if (ATL_MVIsAxpy(flag))      {         fprintf(fp,                 "#define ATL_GetPartSYMV(A_, lda_, mb_, nb_) \\\n{ \\\n");         fprintf(fp, "   *(nb_) = ATL_mvSMU; \\\n");         mb = (l1/2 - mu)/(mu+1);         if (mb > 2*nu) mb = (mb/(2*nu))*nu;         else mb = nu;         fprintf(fp, "   *(mb_) = %d; \\\n}\n", mb);      }      else      {         fprintf(fp,"#define ATL_GetPartSYMV(A_, lda_, mb_, nb_) \\\n{ \\\n");         fprintf(fp, "   for(*(nb_)=ATL_mvNNU; (*(nb_))*(*(nb_))+((*(nb_))<<2) + ATL_mvTMU*(*(nb_)+2) < ATL_L1mvelts; *(nb_) += ATL_mvNNU); \\\n");         fprintf(fp,               "   *(mb_) = Mmax(ATL_mvTNU, ATL_mvNMU) + *(nb_); \\\n");         fprintf(fp,         "   *(mb_) = ( ATL_L1mvelts - ((*(mb_))<<1) ) / (*(mb_) + 2); \\\n");         fprintf(fp,   "   if (*(mb_) > ATL_mvTNU) *(mb_) = (*(mb_)/ATL_mvTNU)*ATL_mvTNU; \\\n");         fprintf(fp, "   else *(mb_) = ATL_mvTNU; \\\n");         fprintf(fp, "}\n");      }   }   else if (TA == 'N')   {      if (ATL_MVIsAxpy(flag)) fprintf(fp, "#define ATL_AXPYMV\n");      else if (nu < 32)      {         fprintf(fp, "#ifndef ATL_mvpagesize\n");         fprintf(fp, "   #define ATL_mvpagesize ATL_DivBySize(4096)\n");         fprintf(fp, "#endif\n");         fprintf(fp, "#ifndef ATL_mvntlb\n");         fprintf(fp, "   #define ATL_mvntlb 56\n");         fprintf(fp, "#endif\n");      }      fprintf(fp, "\n#define ATL_GetPartMVN(A_, lda_, mb_, nb_) \\\n{ \\\n");      if (ATL_MVIsAxpy(flag))      {         fprintf(fp,"   *(mb_) = (ATL_L1mvelts - (ATL_mvNNU<<1)) / ((ATL_mvNNU<<1)+1); \\\n");         fprintf(fp,"   if (*(mb_) > ATL_mvNMU) *(mb_) = ATL_mvNMU*( *(mb_)/ATL_mvNMU ); \\\n");         fprintf(fp, "   else *(mb_) = ATL_mvNMU; \\\n");         fprintf(fp, "   *(nb_) = ATL_mvNNU; \\\n");      }      else if (nu >= 32)      {         fprintf(fp, "   *(nb_) = ATL_mvNNU; \\\n");         fprintf(fp,"   *(mb_) = (ATL_L1mvelts - ATL_mvNNU - (ATL_mvNNU+1)*ATL_mvNMU) / (ATL_mvNNU+1); \\\n");         fprintf(fp,"   if (*(mb_) > ATL_mvNMU) *(mb_) = (*(mb_) / ATL_mvNMU)*ATL_mvNMU; \\\n");         fprintf(fp, "   else *(mb_) = ATL_mvNMU; \\\n");      }      else if (ATL_MVIsMM(flag)) /* gemv calls gemm */      {         fprintf(fp,            "   *(mb_) = (ATL_L1mvelts - (ATL_mmMU+1)*NB) / (NB + 2); \\\n");         fprintf(fp,         "   if (*(mb_) > NB) *(mb_) = ATL_MulByNB(ATL_DivByNB(*(mb_))); \\\n");         fprintf(fp,         "   else if (*(mb_) < ATL_mmMU) *(mb_) = NB; \\\n");         fprintf(fp,         "   else  *(mb_) = (*(mb_) / ATL_mmMU) * ATL_mmMU; \\\n");         fprintf(fp, "   *(nb_) = NB; \\\n");      }      else      {         assert(mu && nu);         fprintf(fp,"   *(nb_) = (ATL_L1mvelts - (ATL_mvNMU<<1)) / ((ATL_mvNMU<<1)+1); \\\n");         fprintf(fp, "   if (ATL_mvpagesize > (lda_)) \\\n   { \\\n");         fprintf(fp,            "      *(mb_) = (ATL_mvpagesize / (lda_)) * ATL_mvntlb; \\\n");         fprintf(fp,            "      if ( *(mb_) < *(nb_) ) *(nb_) = *(mb_); \\\n");         fprintf(fp, "   } \\\n");         fprintf(fp,            "   else if (ATL_mvntlb < *(nb_)) *(nb_) = ATL_mvntlb; \\\n");         fprintf(fp,"   if (*(nb_) > ATL_mvNNU) *(nb_) = (*(nb_) / ATL_mvNNU) * ATL_mvNNU; \\\n");         fprintf(fp, "   else *(nb_) = ATL_mvNNU; \\\n");         fprintf(fp,"   *(mb_) = (ATL_L1mvelts - *(nb_) * (ATL_mvNMU+1)) / (*(nb_)+2); \\\n");         fprintf(fp,"   if (*(mb_) > ATL_mvNMU) *(mb_) = (*(mb_) / ATL_mvNMU) * ATL_mvNMU; \\\n");         fprintf(fp, "   else *(mb_) = ATL_mvNMU; \\\n");      }      fprintf(fp, "}\n");   }   else   {      if (mu != 0)      {         fprintf(fp, "#ifndef ATL_mvNNU\n");         fprintf(fp, "   #include \"atlas_%cmvN.h\"\n", pre);         fprintf(fp, "#endif\n");      }      fprintf(fp, "\n");      fprintf(fp, "#define ATL_GetPartMVT(A_, lda_, mb_, nb_) \\\n{ \\\n");      if (mu == 0)      {         fprintf(fp,         "   *(mb_) = (ATL_L1mvelts - NB - ATL_mmMU*(NB+1)) / (NB+1); \\\n");         fprintf(fp, "   if (*(mb_) > NB) \\\n   { \\\n");         fprintf(fp, "      *(mb_) = ATL_MulByNB(ATL_DivByNB(*(mb_))); \\\n");         fprintf(fp, "      *(nb_) = NB; \\\n   } \\\n");         fprintf(fp, "   else \\\n   { \\\n");         fprintf(fp,"      if (*(mb_) > ATL_mmMU) *(nb_) = (*(mb_) / ATL_mmMU)*ATL_mmMU; \\\n");         fprintf(fp, "      else *(nb_) = ATL_mmMU; \\\n");         fprintf(fp, "      *(mb_) = NB; \\\n   } \\\n");         fprintf(fp, "}\n");      }      else      {         fprintf(fp,"   *(mb_) = (ATL_L1mvelts - (ATL_mvTMU<<1)) / ((ATL_mvTMU<<1)+1); \\\n");         fprintf(fp,"   if (*(mb_) > ATL_mvTNU) *(mb_) = (*(mb_)/ATL_mvTNU)*ATL_mvTNU; \\\n");         fprintf(fp, "   else (*mb_) = ATL_mvTNU; \\\n");         fprintf(fp, "   *(nb_) = ATL_mvTMU; \\\n");         fprintf(fp, "}\n");      }   }   fprintf(fp, "\n#endif\n");   fclose(fp);}void PrintUsage(char *nam){   fprintf(stderr,      "USAGE: %s -p <pre> -l <l1mul> -N/T/S [-x <xu> -y <yu> -f <flag> ]\n",           nam);   exit(-1);}void GetFlags(int nargs, char **args, char *pre, int *l1mul, int *flagN,              int *muN, int *nuN, int *flagT, int *muT, int *nuT,              int *flagS, int *muS, int *nuS){   int NoTrans=1, i;   *pre = 'd';   *l1mul = 80;   *flagS = *flagN = *flagT = 0;   *muT = *muN = 16;   *nuN = *nuT = 4;   *muS = *nuS = -1;   for (i=1; i < nargs; i++)   {      if (args[i][0] != '-') PrintUsage(args[0]);      switch(args[i][1])      {      case 'p' :         i++;         *pre = Mlowcase(args[i][0]);         break;      case 'T':         NoTrans = 0;         break;      case 'N':         NoTrans = 1;         break;      case 'S':         NoTrans = 2;         break;      case 'y':         if (NoTrans == 1) *muN = atoi(args[++i]);         else if (NoTrans == 2) *muS = atoi(args[++i]);         else *muT = atoi(args[++i]);         break;      case 'x':         if (NoTrans == 1) *nuN = atoi(args[++i]);         else if (NoTrans == 2) *nuS = atoi(args[++i]);         else *nuT = atoi(args[++i]);         break;      case 'f':         if (NoTrans == 1) *flagN = atoi(args[++i]);         else if (NoTrans == 2) *flagS = atoi(args[++i]);         else *flagT = atoi(args[++i]);         break;      case 'l':         *l1mul = atoi(args[++i]);         break;      default:         fprintf(stderr, "Unknown flag = %s\n", args[i]);         PrintUsage(args[0]);      }   }   if (*muS == -1) *muS = *muT;   if (*nuS == -1) *nuS = *nuT;}main(int nargs, char **args){   int flagN, muN, nuN, flagT, muT, nuT, flagS, muS, nuS, l1mul;   char pre;   GetFlags(nargs, args, &pre, &l1mul, &flagN, &muN, &nuN, &flagT, &muT, &nuT,            &flagS, &muS, &nuS);   emit_mvhead(pre, l1mul);   emit_transhead(pre, 'N', flagN, muN, nuN, l1mul);   emit_transhead(pre, 'T', flagT, muT, nuT, l1mul);   emit_transhead(pre, 'S', flagS, muS, nuS, l1mul);   exit(0);}

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