File: mpv_sparc.c

package info (click to toggle)
wine-gecko-2.21 2.21%2Bdfsg2-1
links: PTS, VCS
area: main
in suites: jessie, jessie-kfreebsd
size: 646,272 kB
ctags: 630,086
sloc: cpp: 2,895,786; ansic: 1,502,970; python: 156,675; asm: 115,373; java: 111,421; sh: 63,309; xml: 62,872; makefile: 58,685; perl: 19,182; objc: 3,461; yacc: 2,051; lex: 979; pascal: 929; exp: 449; php: 244; lisp: 228; awk: 211; sed: 26; csh: 21; ada: 16; ruby: 3
file content (221 lines) | stat: -rw-r--r-- 5,292 bytes
parent folder | download | duplicates (4)
/* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
/* $Id: mpv_sparc.c,v 1.5 2012/04/25 14:49:50 gerv%gerv.net Exp $ */

#include "vis_proto.h"

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

typedef  int                t_s32;
typedef  unsigned int       t_u32;
#if defined(__sparcv9)
typedef  long               t_s64;
typedef  unsigned long      t_u64;
#else
typedef  long long          t_s64;
typedef  unsigned long long t_u64;
#endif
typedef  double             t_d64;

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

typedef union {
  t_d64 d64;
  struct {
    t_s32 i0;
    t_s32 i1;
  } i32s;
} d64_2_i32;

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

#define BUFF_SIZE  256

#define A_BITS  19
#define A_MASK  ((1 << A_BITS) - 1)

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

static t_u64 mask_cnst[] = {
  0x8000000080000000ull
};

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

#define DEF_VARS(N)                     \
  t_d64 *py = (t_d64*)y;                \
  t_d64 mask = *((t_d64*)mask_cnst);    \
  t_d64 ca = (1u << 31) - 1;            \
  t_d64 da = (t_d64)a;                  \
  t_s64 buff[N], s;                     \
  d64_2_i32 dy

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

#define MUL_U32_S64_2(i)                                \
  dy.d64 = vis_fxnor(mask, py[i]);                      \
  buff[2*(i)  ] = (ca - (t_d64)dy.i32s.i0) * da;        \
  buff[2*(i)+1] = (ca - (t_d64)dy.i32s.i1) * da

#define MUL_U32_S64_2_D(i)              \
  dy.d64 = vis_fxnor(mask, py[i]);      \
  d0 = ca - (t_d64)dy.i32s.i0;          \
  d1 = ca - (t_d64)dy.i32s.i1;          \
  buff[4*(i)  ] = (t_s64)(d0 * da);     \
  buff[4*(i)+1] = (t_s64)(d0 * db);     \
  buff[4*(i)+2] = (t_s64)(d1 * da);     \
  buff[4*(i)+3] = (t_s64)(d1 * db)

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

#define ADD_S64_U32(i)          \
  s = buff[i] + x[i] + c;       \
  z[i] = s;                     \
  c = (s >> 32)

#define ADD_S64_U32_D(i)                        \
  s = buff[2*(i)] +(((t_s64)(buff[2*(i)+1]))<<A_BITS) + x[i] + uc;   \
  z[i] = s;                                     \
  uc = ((t_u64)s >> 32)

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

#define MUL_U32_S64_8(i)        \
  MUL_U32_S64_2(i);             \
  MUL_U32_S64_2(i+1);           \
  MUL_U32_S64_2(i+2);           \
  MUL_U32_S64_2(i+3)

#define MUL_U32_S64_D_8(i)      \
  MUL_U32_S64_2_D(i);           \
  MUL_U32_S64_2_D(i+1);         \
  MUL_U32_S64_2_D(i+2);         \
  MUL_U32_S64_2_D(i+3)

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

#define ADD_S64_U32_8(i)        \
  ADD_S64_U32(i);               \
  ADD_S64_U32(i+1);             \
  ADD_S64_U32(i+2);             \
  ADD_S64_U32(i+3);             \
  ADD_S64_U32(i+4);             \
  ADD_S64_U32(i+5);             \
  ADD_S64_U32(i+6);             \
  ADD_S64_U32(i+7)

#define ADD_S64_U32_D_8(i)      \
  ADD_S64_U32_D(i);             \
  ADD_S64_U32_D(i+1);           \
  ADD_S64_U32_D(i+2);           \
  ADD_S64_U32_D(i+3);           \
  ADD_S64_U32_D(i+4);           \
  ADD_S64_U32_D(i+5);           \
  ADD_S64_U32_D(i+6);           \
  ADD_S64_U32_D(i+7)

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

t_u32 mul_add(t_u32 *z, t_u32 *x, t_u32 *y, int n, t_u32 a)
{
  if (a < (1 << A_BITS)) {

    if (n == 8) {
      DEF_VARS(8);
      t_s32 c = 0;

      MUL_U32_S64_8(0);
      ADD_S64_U32_8(0);

      return c;

    } else if (n == 16) {
      DEF_VARS(16);
      t_s32 c = 0;

      MUL_U32_S64_8(0);
      MUL_U32_S64_8(4);
      ADD_S64_U32_8(0);
      ADD_S64_U32_8(8);

      return c;

    } else {
      DEF_VARS(BUFF_SIZE);
      t_s32 i, c = 0;

#pragma pipeloop(0)
      for (i = 0; i < (n+1)/2; i ++) {
        MUL_U32_S64_2(i);
      }

#pragma pipeloop(0)
      for (i = 0; i < n; i ++) {
        ADD_S64_U32(i);
      }

      return c;

    }
  } else {

    if (n == 8) {
      DEF_VARS(2*8);
      t_d64 d0, d1, db;
      t_u32 uc = 0;

      da = (t_d64)(a &  A_MASK);
      db = (t_d64)(a >> A_BITS);

      MUL_U32_S64_D_8(0);
      ADD_S64_U32_D_8(0);

      return uc;

    } else if (n == 16) {
      DEF_VARS(2*16);
      t_d64 d0, d1, db;
      t_u32 uc = 0;

      da = (t_d64)(a &  A_MASK);
      db = (t_d64)(a >> A_BITS);

      MUL_U32_S64_D_8(0);
      MUL_U32_S64_D_8(4);
      ADD_S64_U32_D_8(0);
      ADD_S64_U32_D_8(8);

      return uc;

    } else {
      DEF_VARS(2*BUFF_SIZE);
      t_d64 d0, d1, db;
      t_u32 i, uc = 0;

      da = (t_d64)(a &  A_MASK);
      db = (t_d64)(a >> A_BITS);

#pragma pipeloop(0)
      for (i = 0; i < (n+1)/2; i ++) {
        MUL_U32_S64_2_D(i);
      }

#pragma pipeloop(0)
      for (i = 0; i < n; i ++) {
        ADD_S64_U32_D(i);
      }

      return uc;
    }
  }
}

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

t_u32 mul_add_inp(t_u32 *x, t_u32 *y, int n, t_u32 a)
{
  return mul_add(x, x, y, n, a);
}

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