/*********************************************************************/

/* Copyright 2009, 2010 The University of Texas at Austin.           */

/* All rights reserved.                                              */

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/* Redistribution and use in source and binary forms, with or        */

/* without modification, are permitted provided that the following   */

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/*      copyright notice, this list of conditions and the following  */

/*      disclaimer.                                                  */

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/*   2. Redistributions in binary form must reproduce the above      */

/*      copyright notice, this list of conditions and the following  */

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/*    THIS  SOFTWARE IS PROVIDED  BY THE  UNIVERSITY OF  TEXAS AT    */

/*    AUSTIN  ``AS IS''  AND ANY  EXPRESS OR  IMPLIED WARRANTIES,    */

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/* interpreted as representing official policies, either expressed   */

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/*********************************************************************/

#include <stdio.h></stdio.h>

#include "common.h"

#define GEMM_PQ  MAX(GEMM_P, GEMM_Q)

#define REAL_GEMM_R (GEMM_R - GEMM_PQ)

static FLOAT dm1 = -1.;

static void inner_thread(blas_arg_t *args, BLASLONG *range_m, BLASLONG *range_n, FLOAT *sa, FLOAT *sb, BLASLONG mypos){

  BLASLONG is, min_i;

  BLASLONG js, min_j;

  BLASLONG jjs, min_jj;

  BLASLONG m = args -> m;

  BLASLONG n = args -> n;

  BLASLONG k = args -> k;

  BLASLONG lda = args -> lda;

  BLASLONG off = args -> ldb;

  FLOAT *b = (FLOAT *)args -> b + (k          ) * COMPSIZE;

  FLOAT *c = (FLOAT *)args -> b + (    k * lda) * COMPSIZE;

  FLOAT *d = (FLOAT *)args -> b + (k + k * lda) * COMPSIZE;

  blasint *ipiv = (blasint *)args -> c;

  if (range_n) {

    n      = range_n[1] - range_n[0];

    c     += range_n[0] * lda * COMPSIZE;

    d     += range_n[0] * lda * COMPSIZE;

  }

  for (js = 0; js < n; js += REAL_GEMM_R) {

    min_j = n - js;

    if (min_j > REAL_GEMM_R) min_j = REAL_GEMM_R;

    for (jjs = js; jjs < js + min_j; jjs += GEMM_UNROLL_N){

      min_jj = js + min_j - jjs;

      if (min_jj > GEMM_UNROLL_N) min_jj = GEMM_UNROLL_N;

      LASWP_NCOPY(min_jj, off + 1, off + k, 

		  c + (- off + jjs * lda) * COMPSIZE, lda,

		  ipiv, sb + k * (jjs - js) * COMPSIZE);

      for (is = 0; is < k; is += GEMM_P) {

	min_i = k - is;

	if (min_i > GEMM_P) min_i = GEMM_P;

	TRSM_KERNEL_LT(min_i, min_jj, k, dm1,

#ifdef COMPLEX

		       ZERO,

#endif

		       (FLOAT *)args -> a  + k * is * COMPSIZE,

		       sb + (jjs - js) * k * COMPSIZE, 

		       c   + (is + jjs * lda) * COMPSIZE, lda, is);

      }

    }

    for (is = 0; is < m; is += GEMM_P){

      min_i = m - is;

      if (min_i > GEMM_P) min_i = GEMM_P;

      GEMM_ITCOPY (k, min_i, b + is * COMPSIZE, lda, sa);

      GEMM_KERNEL_N(min_i, min_j, k, dm1,

#ifdef COMPLEX

		    ZERO,

#endif

		    sa, sb, d + (is + js * lda) * COMPSIZE, lda);

    }

  }

}

blasint CNAME(blas_arg_t *args, BLASLONG *range_m, BLASLONG *range_n, FLOAT *sa, FLOAT *sb, BLASLONG myid) {

  BLASLONG m, n, lda, offset;

  blasint *ipiv, iinfo, info;

  BLASLONG j, jb, mn, blocking;

  FLOAT *a, *offsetA, *offsetB;

  BLASLONG range_N[2];

  blas_arg_t newarg;

  int mode;

  FLOAT *sbb;

#ifndef COMPLEX

#ifdef XDOUBLE

  mode  =  BLAS_XDOUBLE | BLAS_REAL;

#elif defined(DOUBLE)

  mode  =  BLAS_DOUBLE  | BLAS_REAL;

#else

  mode  =  BLAS_SINGLE  | BLAS_REAL;

#endif  

#else

#ifdef XDOUBLE

  mode  =  BLAS_XDOUBLE | BLAS_COMPLEX;

#elif defined(DOUBLE)

  mode  =  BLAS_DOUBLE  | BLAS_COMPLEX;

#else

  mode  =  BLAS_SINGLE  | BLAS_COMPLEX;

#endif  

#endif

  m    = args -> m;

  n    = args -> n;

  a    = (FLOAT *)args -> a;

  lda  = args -> lda;

  ipiv = (blasint *)args -> c;

  offset = 0;

  if (range_n) {

    m     -= range_n[0];

    n      = range_n[1] - range_n[0];

    offset = range_n[0];

    a     += range_n[0] * (lda + 1) * COMPSIZE;

  }

  if (m <= 0 || n <= 0) return 0;

  mn = MIN(m, n);

  blocking = (mn / 2 + GEMM_UNROLL_N - 1) & ~(GEMM_UNROLL_N - 1);

  if (blocking > GEMM_Q) blocking = GEMM_Q;

  if (blocking <= GEMM_UNROLL_N * 2) {

    info = GETF2(args, NULL, range_n, sa, sb, 0);

    return info;

  }

  sbb = (FLOAT *)((((long)(sb + blocking * blocking * COMPSIZE) + GEMM_ALIGN) & ~GEMM_ALIGN) + GEMM_OFFSET_B);

  info = 0;

  for (j = 0; j < mn; j += blocking) {

    jb = mn - j;

    if (jb > blocking) jb = blocking;

    offsetA = a +  j       * lda * COMPSIZE;

    offsetB = a + (j + jb) * lda * COMPSIZE;

    range_N[0] = offset + j;

    range_N[1] = offset + j + jb;

    iinfo   = CNAME(args, NULL, range_N, sa, sb, 0);

    if (iinfo && !info) info = iinfo + j;

    if (j + jb < n) {

      TRSM_ILTCOPY(jb, jb, offsetA + j * COMPSIZE, lda, 0, sb);

      newarg.m   = m - jb - j;

      newarg.n   = n - jb - j;

      newarg.k   = jb;

      newarg.a   = sb;

      newarg.lda = lda;

      newarg.b   = a + (j + j * lda) * COMPSIZE;

      newarg.ldb = j + offset;

      newarg.c   = ipiv;

      newarg.common = NULL;

      newarg.nthreads = args -> nthreads;

      gemm_thread_n(mode, &newarg, NULL, NULL,  (void *)inner_thread, sa, sbb, args -> nthreads);

    }

  }

  for (j = 0; j < mn; j += jb) {

    jb = MIN(mn - j, blocking);

    LASWP_PLUS(jb, j + jb + offset + 1, mn + offset, ZERO,

#ifdef COMPLEX

	       ZERO,

#endif

	       a - (offset - j * lda) * COMPSIZE, lda, NULL, 0 , ipiv, 1);

  }

  return info;

}