dsputil_vis.c

ffmpeg的完整源代码和作者自己写的文档。不但有在Linux的工程哦

/*
 * dsputil_vis.c
 * Copyright (C) 2003 David S. Miller <davem@redhat.com>
 *
 * This file is part of FFmpeg.
 *
 * FFmpeg is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Lesser General Public
 * License as published by the Free Software Foundation; either
 * version 2.1 of the License, or (at your option) any later version.
 *
 * FFmpeg is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 * Lesser General Public License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public
 * License along with FFmpeg; if not, write to the Free Software
 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
 */

/* The *no_round* functions have been added by James A. Morrison, 2003,2004.
   The vis code from libmpeg2 was adapted for ffmpeg by James A. Morrison.
 */

#include "config.h"

#include <inttypes.h>

#include "dsputil.h"

#include "vis.h"

extern void ff_simple_idct_put_vis(uint8_t *dest, int line_size, DCTELEM *data);
extern void ff_simple_idct_add_vis(uint8_t *dest, int line_size, DCTELEM *data);
extern void ff_simple_idct_vis(DCTELEM *data);

/* The trick used in some of this file is the formula from the MMX
 * motion comp code, which is:
 *
 * (x+y+1)>>1 == (x|y)-((x^y)>>1)
 *
 * This allows us to average 8 bytes at a time in a 64-bit FPU reg.
 * We avoid overflows by masking before we do the shift, and we
 * implement the shift by multiplying by 1/2 using mul8x16.  So in
 * VIS this is (assume 'x' is in f0, 'y' is in f2, a repeating mask
 * of '0xfe' is in f4, a repeating mask of '0x7f' is in f6, and
 * the value 0x80808080 is in f8):
 *
 *      fxor            f0,   f2, f10
 *      fand            f10,  f4, f10
 *      fmul8x16        f8,  f10, f10
 *      fand            f10,  f6, f10
 *      for             f0,   f2, f12
 *      fpsub16         f12, f10, f10
 */

#define ATTR_ALIGN(alignd) __attribute__ ((aligned(alignd)))

#define DUP4(x) {x, x, x, x}
#define DUP8(x) {x, x, x, x, x, x, x, x}
static const int16_t constants1[] ATTR_ALIGN(8) = DUP4 (1);
static const int16_t constants2[] ATTR_ALIGN(8) = DUP4 (2);
static const int16_t constants3[] ATTR_ALIGN(8) = DUP4 (3);
static const int16_t constants6[] ATTR_ALIGN(8) = DUP4 (6);
static const int8_t constants_fe[] ATTR_ALIGN(8) = DUP8 (0xfe);
static const int8_t constants_7f[] ATTR_ALIGN(8) = DUP8 (0x7f);
static const int8_t constants128[] ATTR_ALIGN(8) = DUP8 (128);
static const int16_t constants256_512[] ATTR_ALIGN(8) =
        {256, 512, 256, 512};
static const int16_t constants256_1024[] ATTR_ALIGN(8) =
        {256, 1024, 256, 1024};

#define REF_0           0
#define REF_0_1         1
#define REF_2           2
#define REF_2_1         3
#define REF_4           4
#define REF_4_1         5
#define REF_6           6
#define REF_6_1         7
#define REF_S0          8
#define REF_S0_1        9
#define REF_S2          10
#define REF_S2_1        11
#define REF_S4          12
#define REF_S4_1        13
#define REF_S6          14
#define REF_S6_1        15
#define DST_0           16
#define DST_1           17
#define DST_2           18
#define DST_3           19
#define CONST_1         20
#define CONST_2         20
#define CONST_3         20
#define CONST_6         20
#define MASK_fe         20
#define CONST_128       22
#define CONST_256       22
#define CONST_512       22
#define CONST_1024      22
#define TMP0            24
#define TMP1            25
#define TMP2            26
#define TMP3            27
#define TMP4            28
#define TMP5            29
#define ZERO            30
#define MASK_7f         30

#define TMP6            32
#define TMP8            34
#define TMP10           36
#define TMP12           38
#define TMP14           40
#define TMP16           42
#define TMP18           44
#define TMP20           46
#define TMP22           48
#define TMP24           50
#define TMP26           52
#define TMP28           54
#define TMP30           56
#define TMP32           58

static void MC_put_o_16_vis (uint8_t * dest, const uint8_t * _ref,
                             const int stride, int height)
{
        uint8_t *ref = (uint8_t *) _ref;

        ref = vis_alignaddr(ref);
        do {    /* 5 cycles */
                vis_ld64(ref[0], TMP0);

                vis_ld64_2(ref, 8, TMP2);

                vis_ld64_2(ref, 16, TMP4);
                ref += stride;

                vis_faligndata(TMP0, TMP2, REF_0);
                vis_st64(REF_0, dest[0]);

                vis_faligndata(TMP2, TMP4, REF_2);
                vis_st64_2(REF_2, dest, 8);
                dest += stride;
        } while (--height);
}

static void MC_put_o_8_vis (uint8_t * dest, const uint8_t * _ref,
                            const int stride, int height)
{
        uint8_t *ref = (uint8_t *) _ref;

        ref = vis_alignaddr(ref);
        do {    /* 4 cycles */
                vis_ld64(ref[0], TMP0);

                vis_ld64(ref[8], TMP2);
                ref += stride;

                /* stall */

                vis_faligndata(TMP0, TMP2, REF_0);
                vis_st64(REF_0, dest[0]);
                dest += stride;
        } while (--height);
}


static void MC_avg_o_16_vis (uint8_t * dest, const uint8_t * _ref,
                             const int stride, int height)
{
        uint8_t *ref = (uint8_t *) _ref;
        int stride_8 = stride + 8;

        ref = vis_alignaddr(ref);

        vis_ld64(ref[0], TMP0);

        vis_ld64(ref[8], TMP2);

        vis_ld64(ref[16], TMP4);

        vis_ld64(dest[0], DST_0);

        vis_ld64(dest[8], DST_2);

        vis_ld64(constants_fe[0], MASK_fe);
        vis_faligndata(TMP0, TMP2, REF_0);

        vis_ld64(constants_7f[0], MASK_7f);
        vis_faligndata(TMP2, TMP4, REF_2);

        vis_ld64(constants128[0], CONST_128);

        ref += stride;
        height = (height >> 1) - 1;

        do {    /* 24 cycles */
                vis_ld64(ref[0], TMP0);
                vis_xor(DST_0, REF_0, TMP6);

                vis_ld64_2(ref, 8, TMP2);
                vis_and(TMP6, MASK_fe, TMP6);

                vis_ld64_2(ref, 16, TMP4);
                ref += stride;
                vis_mul8x16(CONST_128, TMP6, TMP6);
                vis_xor(DST_2, REF_2, TMP8);

                vis_and(TMP8, MASK_fe, TMP8);

                vis_or(DST_0, REF_0, TMP10);
                vis_ld64_2(dest, stride, DST_0);
                vis_mul8x16(CONST_128, TMP8, TMP8);

                vis_or(DST_2, REF_2, TMP12);
                vis_ld64_2(dest, stride_8, DST_2);

                vis_ld64(ref[0], TMP14);
                vis_and(TMP6, MASK_7f, TMP6);

                vis_and(TMP8, MASK_7f, TMP8);

                vis_psub16(TMP10, TMP6, TMP6);
                vis_st64(TMP6, dest[0]);

                vis_psub16(TMP12, TMP8, TMP8);
                vis_st64_2(TMP8, dest, 8);

                dest += stride;
                vis_ld64_2(ref, 8, TMP16);
                vis_faligndata(TMP0, TMP2, REF_0);

                vis_ld64_2(ref, 16, TMP18);
                vis_faligndata(TMP2, TMP4, REF_2);
                ref += stride;

                vis_xor(DST_0, REF_0, TMP20);

                vis_and(TMP20, MASK_fe, TMP20);

                vis_xor(DST_2, REF_2, TMP22);
                vis_mul8x16(CONST_128, TMP20, TMP20);

                vis_and(TMP22, MASK_fe, TMP22);

                vis_or(DST_0, REF_0, TMP24);
                vis_mul8x16(CONST_128, TMP22, TMP22);

                vis_or(DST_2, REF_2, TMP26);

                vis_ld64_2(dest, stride, DST_0);
                vis_faligndata(TMP14, TMP16, REF_0);

                vis_ld64_2(dest, stride_8, DST_2);
                vis_faligndata(TMP16, TMP18, REF_2);

                vis_and(TMP20, MASK_7f, TMP20);

                vis_and(TMP22, MASK_7f, TMP22);

                vis_psub16(TMP24, TMP20, TMP20);
                vis_st64(TMP20, dest[0]);

                vis_psub16(TMP26, TMP22, TMP22);
                vis_st64_2(TMP22, dest, 8);
                dest += stride;
        } while (--height);

        vis_ld64(ref[0], TMP0);
        vis_xor(DST_0, REF_0, TMP6);

        vis_ld64_2(ref, 8, TMP2);
        vis_and(TMP6, MASK_fe, TMP6);

        vis_ld64_2(ref, 16, TMP4);
        vis_mul8x16(CONST_128, TMP6, TMP6);
        vis_xor(DST_2, REF_2, TMP8);

        vis_and(TMP8, MASK_fe, TMP8);

        vis_or(DST_0, REF_0, TMP10);
        vis_ld64_2(dest, stride, DST_0);
        vis_mul8x16(CONST_128, TMP8, TMP8);

        vis_or(DST_2, REF_2, TMP12);
        vis_ld64_2(dest, stride_8, DST_2);

        vis_ld64(ref[0], TMP14);
        vis_and(TMP6, MASK_7f, TMP6);

        vis_and(TMP8, MASK_7f, TMP8);

        vis_psub16(TMP10, TMP6, TMP6);
        vis_st64(TMP6, dest[0]);

        vis_psub16(TMP12, TMP8, TMP8);
        vis_st64_2(TMP8, dest, 8);

        dest += stride;
        vis_faligndata(TMP0, TMP2, REF_0);

        vis_faligndata(TMP2, TMP4, REF_2);

        vis_xor(DST_0, REF_0, TMP20);

        vis_and(TMP20, MASK_fe, TMP20);

        vis_xor(DST_2, REF_2, TMP22);
        vis_mul8x16(CONST_128, TMP20, TMP20);

        vis_and(TMP22, MASK_fe, TMP22);

        vis_or(DST_0, REF_0, TMP24);
        vis_mul8x16(CONST_128, TMP22, TMP22);

        vis_or(DST_2, REF_2, TMP26);

        vis_and(TMP20, MASK_7f, TMP20);

        vis_and(TMP22, MASK_7f, TMP22);

        vis_psub16(TMP24, TMP20, TMP20);
        vis_st64(TMP20, dest[0]);

        vis_psub16(TMP26, TMP22, TMP22);
        vis_st64_2(TMP22, dest, 8);
}

static void MC_avg_o_8_vis (uint8_t * dest, const uint8_t * _ref,
                            const int stride, int height)
{
        uint8_t *ref = (uint8_t *) _ref;

        ref = vis_alignaddr(ref);

        vis_ld64(ref[0], TMP0);

        vis_ld64(ref[8], TMP2);

        vis_ld64(dest[0], DST_0);

        vis_ld64(constants_fe[0], MASK_fe);

        vis_ld64(constants_7f[0], MASK_7f);
        vis_faligndata(TMP0, TMP2, REF_0);

        vis_ld64(constants128[0], CONST_128);

        ref += stride;
        height = (height >> 1) - 1;

        do {    /* 12 cycles */
                vis_ld64(ref[0], TMP0);
                vis_xor(DST_0, REF_0, TMP4);

                vis_ld64(ref[8], TMP2);
                vis_and(TMP4, MASK_fe, TMP4);

                vis_or(DST_0, REF_0, TMP6);
                vis_ld64_2(dest, stride, DST_0);
                ref += stride;
                vis_mul8x16(CONST_128, TMP4, TMP4);

                vis_ld64(ref[0], TMP12);
                vis_faligndata(TMP0, TMP2, REF_0);

                vis_ld64(ref[8], TMP2);
                vis_xor(DST_0, REF_0, TMP0);
                ref += stride;

                vis_and(TMP0, MASK_fe, TMP0);

                vis_and(TMP4, MASK_7f, TMP4);

                vis_psub16(TMP6, TMP4, TMP4);
                vis_st64(TMP4, dest[0]);
                dest += stride;
                vis_mul8x16(CONST_128, TMP0, TMP0);

                vis_or(DST_0, REF_0, TMP6);
                vis_ld64_2(dest, stride, DST_0);

                vis_faligndata(TMP12, TMP2, REF_0);

                vis_and(TMP0, MASK_7f, TMP0);

                vis_psub16(TMP6, TMP0, TMP4);
                vis_st64(TMP4, dest[0]);
                dest += stride;
        } while (--height);

        vis_ld64(ref[0], TMP0);
        vis_xor(DST_0, REF_0, TMP4);

        vis_ld64(ref[8], TMP2);
        vis_and(TMP4, MASK_fe, TMP4);

        vis_or(DST_0, REF_0, TMP6);
        vis_ld64_2(dest, stride, DST_0);
        vis_mul8x16(CONST_128, TMP4, TMP4);

        vis_faligndata(TMP0, TMP2, REF_0);

        vis_xor(DST_0, REF_0, TMP0);

        vis_and(TMP0, MASK_fe, TMP0);

        vis_and(TMP4, MASK_7f, TMP4);

        vis_psub16(TMP6, TMP4, TMP4);
        vis_st64(TMP4, dest[0]);
        dest += stride;
        vis_mul8x16(CONST_128, TMP0, TMP0);

        vis_or(DST_0, REF_0, TMP6);

        vis_and(TMP0, MASK_7f, TMP0);

        vis_psub16(TMP6, TMP0, TMP4);
        vis_st64(TMP4, dest[0]);