Exemplo n.º 1
0
Arquivo: myblas.c Projeto: gtqite/ssc
void init_BLAS(void)
{
  if(mustinitBLAS) {
    load_BLAS(NULL);
    mustinitBLAS = FALSE;
  }
}
Exemplo n.º 2
0
Arquivo: myblas.c Projeto: gtqite/ssc
MYBOOL load_BLAS(char *libname)
{
  MYBOOL result = TRUE;

#ifdef LoadableBlasLib
  if(hBLAS != NULL) {
    my_FreeLibrary(hBLAS);
  }
#endif

  if(libname == NULL) {
    if(!mustinitBLAS && is_nativeBLAS())
      return( FALSE );
    BLAS_dscal = my_dscal;
    BLAS_dcopy = my_dcopy;
    BLAS_daxpy = my_daxpy;
    BLAS_dswap = my_dswap;
    BLAS_ddot  = my_ddot;
    BLAS_idamax = my_idamax;
    BLAS_idamin = my_idamin;
    BLAS_dload = my_dload;
    BLAS_dnormi = my_dnormi;
    if(mustinitBLAS)
      mustinitBLAS = FALSE;
  }
  else {
#ifdef LoadableBlasLib
  #if (defined LPWINAPP) || (defined WIN64)
    char *blasname = libname;
  #else
   /* First standardize UNIX .SO library name format. */
    char blasname[260];
    if(!so_stdname(blasname, libname, 260))
      return( FALSE );
  #endif
   /* Get a handle to the Windows DLL module. */
    hBLAS = my_LoadLibrary(blasname);

   /* If the handle is valid, try to get the function addresses. */
    result = (MYBOOL) (hBLAS != NULL);
    if(result) {
      BLAS_dscal  = (BLAS_dscal_func *)  my_GetProcAddress(hBLAS, BLAS_prec "scal");
      BLAS_dcopy  = (BLAS_dcopy_func *)  my_GetProcAddress(hBLAS, BLAS_prec "copy");
      BLAS_daxpy  = (BLAS_daxpy_func *)  my_GetProcAddress(hBLAS, BLAS_prec "axpy");
      BLAS_dswap  = (BLAS_dswap_func *)  my_GetProcAddress(hBLAS, BLAS_prec "swap");
      BLAS_ddot   = (BLAS_ddot_func *)   my_GetProcAddress(hBLAS, BLAS_prec "dot");
      BLAS_idamax = (BLAS_idamax_func *) my_GetProcAddress(hBLAS, "i" BLAS_prec "amax");
      BLAS_idamin = (BLAS_idamin_func *) my_GetProcAddress(hBLAS, "i" BLAS_prec "amin");
#if 0      
      BLAS_dload  = (BLAS_dload_func *)  my_GetProcAddress(hBLAS, BLAS_prec "load");
      BLAS_dnormi = (BLAS_dnormi_func *) my_GetProcAddress(hBLAS, BLAS_prec "normi");
#endif      
    }
#endif
    /* Do validation */
    if(!result ||
       ((BLAS_dscal  == NULL) ||
        (BLAS_dcopy  == NULL) ||
        (BLAS_daxpy  == NULL) ||
        (BLAS_dswap  == NULL) ||
        (BLAS_ddot   == NULL) ||
        (BLAS_idamax == NULL) ||
        (BLAS_idamin == NULL) ||
        (BLAS_dload  == NULL) ||
        (BLAS_dnormi == NULL))
      ) {
      load_BLAS(NULL);
      result = FALSE;
    }
  }
  return( result );
}
Exemplo n.º 3
0
MYBOOL load_BLAS(char *libname)
{
  MYBOOL result = TRUE;

#ifdef LoadableBlasLib
  if(hBLAS != NULL) {
  #ifdef WIN32
    FreeLibrary(hBLAS);
  #else
    dlclose(hBLAS);
  #endif
    hBLAS = NULL;
  }
#endif

  if(libname == NULL) {
    if(!mustinitBLAS && is_nativeBLAS())
      return( FALSE );
    BLAS_dscal = my_dscal;
    BLAS_dcopy = my_dcopy;
    BLAS_daxpy = my_daxpy;
    BLAS_dswap = my_dswap;
    BLAS_ddot  = my_ddot;
    BLAS_idamax = my_idamax;
    BLAS_dload = my_dload;
    BLAS_dnormi = my_dnormi;
    if(mustinitBLAS)
      mustinitBLAS = FALSE;
  }
  else {
#ifdef LoadableBlasLib
  #ifdef WIN32
   /* Get a handle to the Windows DLL module. */
    hBLAS = LoadLibrary(libname);

   /* If the handle is valid, try to get the function addresses. */
    result = (MYBOOL) (hBLAS != NULL);
    if(result) {
      BLAS_dscal  = (BLAS_dscal_func *)  GetProcAddress(hBLAS, BLAS_prec "scal");
      BLAS_dcopy  = (BLAS_dcopy_func *)  GetProcAddress(hBLAS, BLAS_prec "copy");
      BLAS_daxpy  = (BLAS_daxpy_func *)  GetProcAddress(hBLAS, BLAS_prec "axpy");
      BLAS_dswap  = (BLAS_dswap_func *)  GetProcAddress(hBLAS, BLAS_prec "swap");
      BLAS_ddot   = (BLAS_ddot_func *)   GetProcAddress(hBLAS, BLAS_prec "dot");
      BLAS_idamax = (BLAS_idamax_func *) GetProcAddress(hBLAS, "i" BLAS_prec "amax");
#if 0      
      BLAS_dload  = (BLAS_dload_func *)  GetProcAddress(hBLAS, BLAS_prec "load");
      BLAS_dnormi = (BLAS_dnormi_func *) GetProcAddress(hBLAS, BLAS_prec "normi");
#endif      
    }
  #else
   /* First standardize UNIX .SO library name format. */
    char blasname[260], *ptr;

    strcpy(blasname, libname);
    if((ptr = strrchr(libname, '/')) == NULL)
      ptr = libname;
    else
      ptr++;
    blasname[(int) (ptr - libname)] = 0;
    if(strncmp(ptr, "lib", 3))
      strcat(blasname, "lib");
    strcat(blasname, ptr);
    if(strcmp(blasname + strlen(blasname) - 3, ".so"))
      strcat(blasname, ".so");

   /* Get a handle to the module. */
    hBLAS = dlopen(blasname, RTLD_LAZY);

   /* If the handle is valid, try to get the function addresses. */
    result = (MYBOOL) (hBLAS != NULL);
    if(result) {
      BLAS_dscal  = (BLAS_dscal_func *)  dlsym(hBLAS, BLAS_prec "scal");
      BLAS_dcopy  = (BLAS_dcopy_func *)  dlsym(hBLAS, BLAS_prec "copy");
      BLAS_daxpy  = (BLAS_daxpy_func *)  dlsym(hBLAS, BLAS_prec "axpy");
      BLAS_dswap  = (BLAS_dswap_func *)  dlsym(hBLAS, BLAS_prec "swap");
      BLAS_ddot   = (BLAS_ddot_func *)   dlsym(hBLAS, BLAS_prec "dot");
      BLAS_idamax = (BLAS_idamax_func *) dlsym(hBLAS, "i" BLAS_prec "amax");
#if 0      
      BLAS_dload  = (BLAS_dload_func *)  dlsym(hBLAS, BLAS_prec "load");
      BLAS_dnormi = (BLAS_dnormi_func *) dlsym(hBLAS, BLAS_prec "normi");
#endif      
    }
  #endif
#endif
    /* Do validation */
    if(!result ||
       ((BLAS_dscal  == NULL) ||
        (BLAS_dcopy  == NULL) ||
        (BLAS_daxpy  == NULL) ||
        (BLAS_dswap  == NULL) ||
        (BLAS_ddot   == NULL) ||
        (BLAS_idamax == NULL) ||
        (BLAS_dload  == NULL) ||
        (BLAS_dnormi == NULL))
      ) {
      load_BLAS(NULL);
      result = FALSE;
    }
  }
  return( result );
}
Exemplo n.º 4
0
Arquivo: myblas.c Projeto: gtqite/ssc
MYBOOL unload_BLAS(void)
{
  return( load_BLAS(NULL) );
}
Exemplo n.º 5
0
/* MUST MODIFY */
MYBOOL BFP_CALLMODEL bfp_resize(lprec *lp, int newsize)
{
  INVrec *lu;

  lu = lp->invB;

  /* Increment dimensionality since we put the objective row at the top */
  newsize = newsize + bfp_rowoffset(lp);
  lu->dimalloc = newsize;

  /* Allocate index tracker arrays, LU matrices and various work vectors */
  if(!allocREAL(lp, &(lu->value), newsize+MATINDEXBASE, AUTOMATIC))
    return( FALSE );

  /* Data specific to the factorization engine */
  if(lu->LUSOL != NULL) {
    if(newsize > 0 || 1)
      LUSOL_sizeto(lu->LUSOL, newsize, newsize, 0);
    else {
      LUSOL_free(lu->LUSOL);
      lu->LUSOL = NULL;
    }
  }
  else if(newsize > 0 || 1) {
    int  asize;
    REAL bsize;

    lu->LUSOL = LUSOL_create(NULL, 0, LUSOL_PIVMOD_TPP, bfp_pivotmax(lp)*0);

#if 1
    lu->LUSOL->luparm[LUSOL_IP_ACCELERATION]  = LUSOL_AUTOORDER;
    lu->LUSOL->parmlu[LUSOL_RP_SMARTRATIO]    = 0.50;
#endif
#if 0
    lu->timed_refact = DEF_TIMEDREFACT;
#else
    lu->timed_refact = FALSE;
#endif

    /* The following adjustments seem necessary to make the really tough NETLIB
       models perform reliably and still performant (e.g. cycle.mps) */
#if 0
    lu->LUSOL->parmlu[LUSOL_RP_SMALLDIAG_U]   =
    lu->LUSOL->parmlu[LUSOL_RP_EPSDIAG_U]     = lp->epsprimal;
#endif
#if 0
    lu->LUSOL->parmlu[LUSOL_RP_ZEROTOLERANCE] = lp->epsvalue;
#endif

#if 1
    LUSOL_setpivotmodel(lu->LUSOL, LUSOL_PIVMOD_NOCHANGE, LUSOL_PIVTOL_SLIM);
#else
    LUSOL_setpivotmodel(lu->LUSOL, LUSOL_PIVMOD_NOCHANGE, LUSOL_PIVTOL_TIGHT);
#endif

#ifdef LUSOL_UseBLAS
/*    if(fileSearchPath("PATH", "myBLAS.DLL", NULL) && load_BLAS("myBLAS")) */
    if(is_nativeBLAS() && load_BLAS(libnameBLAS))
      lp->report(lp, NORMAL, "Optimized BLAS was successfully loaded for bfp_LUSOL.\n");
#endif

    /* Try to minimize memory allocation if we have a large number of unit columns */
    bsize = (REAL) lp->get_nonzeros(lp);
    if(newsize > lp->columns)
      bsize += newsize;
    else
      bsize = bsize/lp->columns*newsize;
    /* Add a "reasonable" delta to allow for B and associated factorizations
       that are denser than average; this makes reallocations less frequent.
       Values between 1.2 and 1.5 appear to be reasonable. */
    asize = (int) (bsize*MAX_DELTAFILLIN*1.3333);
    if(!LUSOL_sizeto(lu->LUSOL, newsize, newsize, asize))
      return( FALSE );
  }
  lu->dimcount = newsize;
  return( TRUE );
}