/*
* yuv2rgb_mmx.c
* Copyright (C) 2000-2001 Silicon Integrated System Corp.
* All Rights Reserved.
*
* Author: Olie Lho <ollie@sis.com.tw>
*
* This file is part of mpeg2dec, a free MPEG-2 video stream decoder.
*
* mpeg2dec is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* mpeg2dec 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include "config.h"
#if defined(ARCH_X86) || defined(ARCH_X86_64)
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <inttypes.h>
#include "yuv2rgb.h"
#include "xineutils.h"
#define CPU_MMXEXT 0
#define CPU_MMX 1
/* CPU_MMXEXT/CPU_MMX adaptation layer */
#define movntq(src,dest) \
do { \
if (cpu == CPU_MMXEXT) \
movntq_r2m (src, dest); \
else \
movq_r2m (src, dest); \
} while (0)
typedef struct mmx_csc_s mmx_csc_t;
struct mmx_csc_s {
mmx_t subYw;
mmx_t addYw;
mmx_t U_green;
mmx_t U_blue;
mmx_t V_red;
mmx_t V_green;
mmx_t Y_coeff;
};
extern const int32_t Inverse_Table_6_9[8][4];
void mmx_yuv2rgb_set_csc_levels(yuv2rgb_factory_t *this,
int brightness, int contrast, int saturation)
{
int a,s,i;
int crv, cbu, cgu, cgv, cty;
mmx_csc_t *csc;
/* 'table_mmx' is 64bit aligned for better performance */
if (this->table_mmx == NULL) {
this->table_mmx = xine_xmalloc_aligned (8, sizeof(mmx_csc_t), &this->table_mmx_base);
}
if( brightness <= 16 ) {
a = 0;
s = 16 - brightness;
} else {
a = brightness - 16;
s = 0;
}
csc = (mmx_csc_t *) this->table_mmx;
for( i = 0; i < 8; i++ ) {
csc->subYw.ub[i] = s;
csc->addYw.ub[i] = a;
}
crv = Inverse_Table_6_9[this->matrix_coefficients][0];
crv = (crv * saturation + 512) / 1024;
cbu = Inverse_Table_6_9[this->matrix_coefficients][1];
cbu = (cbu * saturation + 512) / 1024;
cbu = (cbu > 32767) ? 32767 : cbu;
cgu = Inverse_Table_6_9[this->matrix_coefficients][2];
cgu = (cgu * saturation + 512) / 1024;
cgv = Inverse_Table_6_9[this->matrix_coefficients][3];
cgv = (cgv * saturation + 512) / 1024;
cty = (76309 * contrast + 512) / 1024;
for (i=0; i < 4; i++) {
csc->U_green.w[i] = -cgu;
csc->U_blue.w[i] = cbu;
csc->V_red.w[i] = crv;
csc->V_green.w[i] = -cgv;
csc->Y_coeff.w[i] = cty;
}
}
static inline void mmx_yuv2rgb (uint8_t * py, uint8_t * pu, uint8_t * pv, mmx_csc_t *csc)
{
static mmx_t mmx_80w = {0x0080008000800080ULL};
static mmx_t mmx_00ffw = {0x00ff00ff00ff00ffULL};
movq_m2r (*py, mm6); // mm6 = Y7 Y6 Y5 Y4 Y3 Y2 Y1 Y0
pxor_r2r (mm4, mm4); // mm4 = 0
psubusb_m2r (csc->subYw, mm6); // Y -= 16
paddusb_m2r (csc->addYw, mm6);
movd_m2r (*pu, mm0); // mm0 = 00 00 00 00 u3 u2 u1 u0
movq_r2r (mm6, mm7); // mm7 = Y7 Y6 Y5 Y4 Y3 Y2 Y1 Y0
pand_m2r (mmx_00ffw, mm6); // mm6 = Y6 Y4 Y2 Y0
psrlw_i2r (8, mm7); // mm7 = Y7 Y5 Y3 Y1
movd_m2r (*pv, mm1); // mm1 = 00 00 00 00 v3 v2 v1 v0
psllw_i2r (3, mm6); // promote precision
pmulhw_m2r (csc->Y_coeff, mm6); // mm6 = luma_rgb even
psllw_i2r (3, mm7); // promote precision
punpcklbw_r2r (mm4, mm0); // mm0 = u3 u2 u1 u0
psubsw_m2r (mmx_80w, mm0); // u -= 128
punpcklbw_r2r (mm4, mm1); // mm1 = v3 v2 v1 v0
pmulhw_m2r (csc->Y_coeff, mm7); // mm7 = luma_rgb odd
psllw_i2r (3, mm0); // promote precision
psubsw_m2r (mmx_80w, mm1); // v -= 128
movq_r2r (mm0, mm2); // mm2 = u3 u2 u1 u0
psllw_i2r (3, mm1); // promote precision
movq_r2r (mm1, mm4); // mm4 = v3 v2 v1 v0
pmulhw_m2r (csc->U_blue, mm0); // mm0 = chroma_b
// slot
// slot
pmulhw_m2r (csc->V_red, mm1); // mm1 = chroma_r
movq_r2r (mm0, mm3); // mm3 = chroma_b
paddsw_r2r (mm6, mm0); // mm0 = B6 B4 B2 B0
paddsw_r2r (mm7, mm3); // mm3 = B7 B5 B3 B1
packuswb_r2r (mm0, mm0); // saturate to 0-255
pmulhw_m2r (csc->U_green, mm2); // mm2 = u * u_green
packuswb_r2r (mm3, mm3); // saturate to 0-255
punpcklbw_r2r (mm3, mm0); // mm0 = B7 B6 B5 B4 B3 B2 B1 B0
pmulhw_m2r (csc->V_green, mm4); // mm4 = v * v_green
// slot
// slot
paddsw_r2r (mm4, mm2); // mm2 = chroma_g
movq_r2r (mm2, mm5); // mm5 = chroma_g
movq_r2r (mm1, mm4); // mm4 = chroma_r
paddsw_r2r (mm6, mm2); // mm2 = G6 G4 G2 G0
packuswb_r2r (mm2, mm2); // saturate to 0-255
paddsw_r2r (mm6, mm1); // mm1 = R6 R4 R2 R0
packuswb_r2r (mm1, mm1); // saturate to 0-255
paddsw_r2r (mm7, mm4); // mm4 = R7 R5 R3 R1
packuswb_r2r (mm4, mm4); // saturate to 0-255
paddsw_r2r (mm7, mm5); // mm5 = G7 G5 G3 G1
packuswb_r2r (mm5, mm5); // saturate to 0-255
punpcklbw_r2r (mm4, mm1); // mm1 = R7 R6 R5 R4 R3 R2 R1 R0
punpcklbw_r2r (mm5, mm2); // mm2 = G7 G6 G5 G4 G3 G2 G1 G0
}
// basic opt
static inline void mmx_unpack_16rgb (uint8_t * image, int cpu)
{
static mmx_t mmx_bluemask = {0xf8f8f8f8f8f8f8f8ULL};
static mmx_t mmx_greenmask = {0xfcfcfcfcfcfcfcfcULL};
static mmx_t mmx_redmask = {0xf8f8f8f8f8f8f8f8ULL};
/*
* convert RGB plane to RGB 16 bits
* mm0 -> B, mm1 -> R, mm2 -> G
* mm4 -> GB, mm5 -> AR pixel 4-7
* mm6 -> GB, mm7 -> AR pixel 0-3
*/
pand_m2r (mmx_bluemask, mm0); // mm0 = b7b6b5b4b3______
pxor_r2r (mm4, mm4); // mm4 = 0
pand_m2r (mmx_greenmask, mm2); // mm2 = g7g6g5g4g3g2____
psrlq_i2r (3, mm0); // mm0 = ______b7b6b5b4b3
movq_r2r (mm2, mm7); // mm7 = g7g6g5g4g3g2____
movq_r2r (mm0, mm5); // mm5 = ______b7b6b5b4b3
pand_m2r (mmx_redmask, mm1); // mm1 = r7r6r5r4r3______
punpcklbw_r2r (mm4, mm2);
punpcklbw_r2r (mm1, mm0);
psllq_i2r (3, mm2);
punpckhbw_r2r (mm4, mm7);
por_r2r (mm2, mm0);
psllq_i2r (3, mm7);
movntq (mm0, *image);
punpckhbw_r2r (mm1, mm5);
por_r2r (mm7, mm5);
// U
// V
movntq (mm5, *(image+8));
}
static inline void mmx_unpack_15rgb (uint8_t * image, int cpu)
{
static mmx_t mmx_bluemask = {0xf8f8f8f8f8f8f8f8ULL};
static mmx_t mmx_greenmask = {0xf8f8f8f8f8f8f8f8ULL};
static mmx_t mmx_redmask = {0xf8f8f8f8f8f8f8f8ULL};
/*
* convert RGB plane to RGB 15 bits
* mm0 -> B, mm1 -> R, mm2 -> G
* mm4 -> GB, mm5 -> AR pixel 4-7
* mm6 -> GB, mm7 -> AR pixel 0-3
*/
pand_m2r (mmx_bluemask, mm0); // mm0 = b7b6b5b4b3______
pxor_r2r (mm4, mm4); // mm4 = 0
pand_m2r (mmx_greenmask, mm2); // mm2 = g7g6g5g4g3g2____
psrlq_i2r (3, mm0); // mm0 = ______b7b6b5b4b3
movq_r2r (mm2, mm7); // mm7 = g7g6g5g4g3g2____
movq_r2r (mm0, mm5); // mm5 = ______b7b6b5b4b3
pand_m2r (mmx_redmask, mm1); // mm1 = r7r6r5r4r3______
punpcklbw_r2r (mm4, mm2);
psrlq_i2r (1, mm1);
punpcklbw_r2r (mm1, mm0);
psllq_i2r (2, mm2);
punpckhbw_r2r (mm4, mm7);
por_r2r (mm2, mm0);
psllq_i2r (2, mm7);
movntq (mm0, *image);
punpckhbw_r2r (mm1, mm5);
por_r2r (mm7, mm5);
// U
// V
movntq (mm5, *(image+8));
}
static inline void mmx_unpack_32rgb (uint8_t * image, int cpu)
{
/*
* convert RGB plane to RGB packed format,
* mm0 -> B, mm1 -> R, mm2 -> G, mm3 -> 0,
* mm4 -> GB, mm5 -> AR pixel 4-7,
* mm6 -> GB, mm7 -> AR pixel 0-3
*/
pxor_r2r (mm3, mm3);
movq_r2r (mm0, mm6);
punpcklbw_r2r (mm2, mm6);
movq_r2r (mm1, mm7);
punpcklbw_r2r (mm3, mm7);
movq_r2r (mm0, mm4);
punpcklwd_r2r (mm7, mm6);
movq_r2r (mm1, mm5);
/* scheduling: this is hopeless */
movntq (mm6, *image);
movq_r2r (mm0, mm6);
punpcklbw_r2r (mm2, mm6);
punpckhwd_r2r (mm7, mm6);
movntq (mm6, *(image+8));
punpckhbw_r2r (mm2, mm4);
punpckhbw_r2r (mm3, mm5);
punpcklwd_r2r (mm5, mm4);
movntq (mm4, *(image+16));
movq_r2r (mm0, mm4);
punpckhbw_r2r (mm2, mm4);
punpckhwd_r2r (mm5, mm4);
movntq (mm4, *(image+24));
}
static inline void mmx_unpack_32bgr (uint8_t * image, int cpu)
{
/*
* convert RGB plane to RGB packed format,
* mm0 -> B, mm1 -> R, mm2 -> G, mm3 -> 0,
* mm4 -> GB, mm5 -> AR pixel 4-7,
* mm6 -> GB, mm7 -> AR pixel 0-3
*/
pxor_r2r (mm3, mm3);
movq_r2r (mm1, mm6);
punpcklbw_r2r (mm2, mm6);
movq_r2r (mm0, mm7);
punpcklbw_r2r (mm3, mm7);
movq_r2r (mm1, mm4);
punpcklwd_r2r (mm7, mm6);
movq_r2r (mm0, mm5);
/* scheduling: this is hopeless */
movntq (mm6, *image);
movq_r2r (mm0, mm6);
punpcklbw_r2r (mm2, mm6);
punpckhwd_r2r (mm7, mm6);
movntq (mm6, *(image+8));
punpckhbw_r2r (mm2, mm4);
punpckhbw_r2r (mm3, mm5);
punpcklwd_r2r (mm5, mm4);
movntq (mm4, *(image+16));
movq_r2r (mm0, mm4);
punpckhbw_r2r (mm2, mm4);
punpckhwd_r2r (mm5, mm4);
movntq (mm4, *(image+24));
}
static inline void mmx_unpack_24rgb (uint8_t * image, int cpu)
{
/*
* convert RGB plane to RGB packed format,
* mm0 -> B, mm1 -> R, mm2 -> G, mm3 -> 0,
* mm4 -> GB, mm5 -> AR pixel 4-7,
* mm6 -> GB, mm7 -> AR pixel 0-3
*/
pxor_r2r (mm3, mm3);
movq_r2r (mm0, mm6);
punpcklbw_r2r (mm2, mm6);
movq_r2r (mm1, mm7);
punpcklbw_r2r (mm3, mm7);
movq_r2r (mm0, mm4);
punpcklwd_r2r (mm7, mm6);
movq_r2r (mm1, mm5);
/* scheduling: this is hopeless */
movntq (mm6, *image);
movq_r2r (mm0, mm6);
punpcklbw_r2r (mm2, mm6);
punpckhwd_r2r (mm7, mm6);
movntq (mm6, *(image+8));
punpckhbw_r2r (mm2, mm4);
punpckhbw_r2r (mm3, mm5);
punpcklwd_r2r (mm5, mm4);
movntq (mm4, *(image+16));
}
static inline void yuv420_rgb16 (yuv2rgb_t *this,
uint8_t * image,
uint8_t * py, uint8_t * pu, uint8_t * pv,
int cpu)
{
int i, height, dst_height;
int rgb_stride = this->rgb_stride;
int y_stride = this->y_stride;
int uv_stride = this->uv_stride;
int width = this->source_width;
uint8_t *img;
width >>= 3;
if (!this->do_scale) {
height = this->next_slice (this, &image);
y_stride -= 8 * width;
uv_stride -= 4 * width;
do {
i = width; img = image;
do {
mmx_yuv2rgb (py, pu, pv, this->table_mmx);
mmx_unpack_16rgb (img, cpu);
py += 8;
pu += 4;
pv += 4;
img += 16;
} while (--i);
py += y_stride;
image += rgb_stride;
if (height & 1) {
pu += uv_stride;
pv += uv_stride;
} else {
pu -= 4 * width;
pv -= 4 * width;
}
} while (--height);
} else {
scale_line_func_t scale_line = this->scale_line;
uint8_t *y_buf, *u_buf, *v_buf;
int dy = 0;
scale_line (pu, this->u_buffer,
this->dest_width >> 1, this->step_dx);
scale_line (pv, this->v_buffer,
this->dest_width >> 1, this->step_dx);
scale_line (py, this->y_buffer,
this->dest_width, this->step_dx);
dst_height = this->next_slice (this, &image);
for (height = 0;; ) {
y_buf = this->y_buffer;
u_buf = this->u_buffer;
v_buf = this->v_buffer;
i = this->dest_width >> 3; img = image;
do {
/* printf ("i : %d\n",i); */
mmx_yuv2rgb (y_buf, u_buf, v_buf, this->table_mmx);
mmx_unpack_16rgb (img, cpu);
y_buf += 8;
u_buf += 4;
v_buf += 4;
img += 16;
} while (--i);
dy += this->step_dy;
image += rgb_stride;
while (--dst_height > 0 && dy < 32768) {
xine_fast_memcpy (image, image-rgb_stride, this->dest_width*2);
dy += this->step_dy;
image += rgb_stride;
}
if (dst_height <= 0)
break;
do {
dy -= 32768;
py += y_stride;
scale_line (py, this->y_buffer,
this->dest_width, this->step_dx);
if (height & 1) {
pu += uv_stride;
pv += uv_stride;
scale_line (pu, this->u_buffer,
this->dest_width >> 1, this->step_dx);
scale_line (pv, this->v_buffer,
this->dest_width >> 1, this->step_dx);
}
height++;
} while( dy>=32768);
}
}
}
static inline void yuv420_rgb15 (yuv2rgb_t *this,
uint8_t * image,
uint8_t * py, uint8_t * pu, uint8_t * pv,
int cpu)
{
int i, height, dst_height;
int rgb_stride = this->rgb_stride;
int y_stride = this->y_stride;
int uv_stride = this->uv_stride;
int width = this->source_width;
uint8_t *img;
width >>= 3;
if (!this->do_scale) {
height = this->next_slice (this, &image);
y_stride -= 8 * width;
uv_stride -= 4 * width;
do {
i = width; img = image;
do {
mmx_yuv2rgb (py, pu, pv, this->table_mmx);
mmx_unpack_15rgb (img, cpu);
py += 8;
pu += 4;
pv += 4;
img += 16;
} while (--i);
py += y_stride;
image += rgb_stride;
if (height & 1) {
pu += uv_stride;
pv += uv_stride;
} else {
pu -= 4 * width;
pv -= 4 * width;
}
} while (--height);
} else {
scale_line_func_t scale_line = this->scale_line;
uint8_t *y_buf, *u_buf, *v_buf;
int dy = 0;
scale_line (pu, this->u_buffer,
this->dest_width >> 1, this->step_dx);
scale_line (pv, this->v_buffer,
this->dest_width >> 1, this->step_dx);
scale_line (py, this->y_buffer,
this->dest_width, this->step_dx);
dst_height = this->next_slice (this, &image);
for (height = 0;; ) {
y_buf = this->y_buffer;
u_buf = this->u_buffer;
v_buf = this->v_buffer;
i = this->dest_width >> 3; img = image;
do {
/* printf ("i : %d\n",i); */
mmx_yuv2rgb (y_buf, u_buf, v_buf, this->table_mmx);
mmx_unpack_15rgb (img, cpu);
y_buf += 8;
u_buf += 4;
v_buf += 4;
img += 16;
} while (--i);
dy += this->step_dy;
image += rgb_stride;
while (--dst_height > 0 && dy < 32768) {
xine_fast_memcpy (image, image-rgb_stride, this->dest_width*2);
dy += this->step_dy;
image += rgb_stride;
}
if (dst_height <= 0)
break;
do {
dy -= 32768;
py += y_stride;
scale_line (py, this->y_buffer,
this->dest_width, this->step_dx);
if (height & 1) {
pu += uv_stride;
pv += uv_stride;
scale_line (pu, this->u_buffer,
this->dest_width >> 1, this->step_dx);
scale_line (pv, this->v_buffer,
this->dest_width >> 1, this->step_dx);
}
height++;
} while( dy>=32768 );
}
}
}
static inline void yuv420_rgb24 (yuv2rgb_t *this,
uint8_t * image, uint8_t * py,
uint8_t * pu, uint8_t * pv, int cpu)
{
int i, height, dst_height;
int rgb_stride = this->rgb_stride;
int y_stride = this->y_stride;
int uv_stride = this->uv_stride;
int width = this->source_width;
uint8_t *img;
/* rgb_stride -= 4 * this->dest_width; */
width >>= 3;
if (!this->do_scale) {
height = this->next_slice (this, &image);
y_stride -= 8 * width;
uv_stride -= 4 * width;
do {
i = width; img = image;
do {
mmx_yuv2rgb (py, pu, pv, this->table_mmx);
mmx_unpack_24rgb (img, cpu);
py += 8;
pu += 4;
pv += 4;
img += 24;
} while (--i);
py += y_stride;
image += rgb_stride;
if (height & 1) {
pu += uv_stride;
pv += uv_stride;
} else {
pu -= 4 * width;
pv -= 4 * width;
}
} while (--height);
} else {
scale_line_func_t scale_line = this->scale_line;
uint8_t *y_buf, *u_buf, *v_buf;
int dy = 0;
scale_line (pu, this->u_buffer,
this->dest_width >> 1, this->step_dx);
scale_line (pv, this->v_buffer,
this->dest_width >> 1, this->step_dx);
scale_line (py, this->y_buffer,
this->dest_width, this->step_dx);
dst_height = this->next_slice (this, &image);
for (height = 0;; ) {
y_buf = this->y_buffer;
u_buf = this->u_buffer;
v_buf = this->v_buffer;
i = this->dest_width >> 3; img=image;
do {
/* printf ("i : %d\n",i); */
mmx_yuv2rgb (y_buf, u_buf, v_buf, this->table_mmx);
mmx_unpack_24rgb (img, cpu);
y_buf += 8;
u_buf += 4;
v_buf += 4;
img += 24;
} while (--i);
dy += this->step_dy;
image += rgb_stride;
while (--dst_height > 0 && dy < 32768) {
xine_fast_memcpy (image, image-rgb_stride, this->dest_width*3);
dy += this->step_dy;
image += rgb_stride;
}
if (dst_height <= 0)
break;
do {
dy -= 32768;
py += y_stride;
scale_line (py, this->y_buffer,
this->dest_width, this->step_dx);
if (height & 1) {
pu += uv_stride;
pv += uv_stride;
scale_line (pu, this->u_buffer,
this->dest_width >> 1, this->step_dx);
scale_line (pv, this->v_buffer,
this->dest_width >> 1, this->step_dx);
}
height++;
} while( dy>=32768 );
}
}
}
static inline void yuv420_argb32 (yuv2rgb_t *this,
uint8_t * image, uint8_t * py,
uint8_t * pu, uint8_t * pv, int cpu)
{
int i, height, dst_height;
int rgb_stride = this->rgb_stride;
int y_stride = this->y_stride;
int uv_stride = this->uv_stride;
int width = this->source_width;
uint8_t *img;
/* rgb_stride -= 4 * this->dest_width; */
width >>= 3;
if (!this->do_scale) {
height = this->next_slice (this, &image);
y_stride -= 8 * width;
uv_stride -= 4 * width;
do {
i = width; img = image;
do {
mmx_yuv2rgb (py, pu, pv, this->table_mmx);
mmx_unpack_32rgb (img, cpu);
py += 8;
pu += 4;
pv += 4;
img += 32;
} while (--i);
py += y_stride;
image += rgb_stride;
if (height & 1) {
pu += uv_stride;
pv += uv_stride;
} else {
pu -= 4 * width;
pv -= 4 * width;
}
} while (--height);
} else {
scale_line_func_t scale_line = this->scale_line;
uint8_t *y_buf, *u_buf, *v_buf;
int dy = 0;
scale_line (pu, this->u_buffer,
this->dest_width >> 1, this->step_dx);
scale_line (pv, this->v_buffer,
this->dest_width >> 1, this->step_dx);
scale_line (py, this->y_buffer,
this->dest_width, this->step_dx);
dst_height = this->next_slice (this, &image);
for (height = 0;; ) {
y_buf = this->y_buffer;
u_buf = this->u_buffer;
v_buf = this->v_buffer;
i = this->dest_width >> 3; img=image;
do {
/* printf ("i : %d\n",i); */
mmx_yuv2rgb (y_buf, u_buf, v_buf, this->table_mmx);
mmx_unpack_32rgb (img, cpu);
y_buf += 8;
u_buf += 4;
v_buf += 4;
img += 32;
} while (--i);
dy += this->step_dy;
image += rgb_stride;
while (--dst_height > 0 && dy < 32768) {
xine_fast_memcpy (image, image-rgb_stride, this->dest_width*4);
dy += this->step_dy;
image += rgb_stride;
}
if (dst_height <= 0)
break;
do {
dy -= 32768;
py += y_stride;
scale_line (py, this->y_buffer,
this->dest_width, this->step_dx);
if (height & 1) {
pu += uv_stride;
pv += uv_stride;
scale_line (pu, this->u_buffer,
this->dest_width >> 1, this->step_dx);
scale_line (pv, this->v_buffer,
this->dest_width >> 1, this->step_dx);
}
height++;
} while( dy>=32768 );
}
}
}
static inline void yuv420_abgr32 (yuv2rgb_t *this,
uint8_t * image, uint8_t * py,
uint8_t * pu, uint8_t * pv, int cpu)
{
int i, height, dst_height;
int rgb_stride = this->rgb_stride;
int y_stride = this->y_stride;
int uv_stride = this->uv_stride;
int width = this->source_width;
uint8_t *img;
/* rgb_stride -= 4 * this->dest_width; */
width >>= 3;
if (!this->do_scale) {
height = this->next_slice (this, &image);
y_stride -= 8 * width;
uv_stride -= 4 * width;
do {
i = width; img = image;
do {
mmx_yuv2rgb (py, pu, pv, this->table_mmx);
mmx_unpack_32bgr (img, cpu);
py += 8;
pu += 4;
pv += 4;
img += 32;
} while (--i);
py += y_stride;
image += rgb_stride;
if (height & 1) {
pu += uv_stride;
pv += uv_stride;
} else {
pu -= 4 * width;
pv -= 4 * width;
}
} while (--height);
} else {
scale_line_func_t scale_line = this->scale_line;
uint8_t *y_buf, *u_buf, *v_buf;
int dy = 0;
scale_line (pu, this->u_buffer,
this->dest_width >> 1, this->step_dx);
scale_line (pv, this->v_buffer,
this->dest_width >> 1, this->step_dx);
scale_line (py, this->y_buffer,
this->dest_width, this->step_dx);
dst_height = this->next_slice (this, &image);
for (height = 0;; ) {
y_buf = this->y_buffer;
u_buf = this->u_buffer;
v_buf = this->v_buffer;
i = this->dest_width >> 3; img=image;
do {
/* printf ("i : %d\n",i); */
mmx_yuv2rgb (y_buf, u_buf, v_buf, this->table_mmx);
mmx_unpack_32bgr (img, cpu);
y_buf += 8;
u_buf += 4;
v_buf += 4;
img += 32;
} while (--i);
dy += this->step_dy;
image += rgb_stride;
while (--dst_height > 0 && dy < 32768) {
xine_fast_memcpy (image, image-rgb_stride, this->dest_width*4);
dy += this->step_dy;
image += rgb_stride;
}
if (dst_height <= 0)
break;
do {
dy -= 32768;
py += y_stride;
scale_line (py, this->y_buffer,
this->dest_width, this->step_dx);
if (height & 1) {
pu += uv_stride;
pv += uv_stride;
scale_line (pu, this->u_buffer,
this->dest_width >> 1, this->step_dx);
scale_line (pv, this->v_buffer,
this->dest_width >> 1, this->step_dx);
}
height++;
} while( dy>=32768 );
}
}
}
static void mmxext_rgb15 (yuv2rgb_t *this, uint8_t * image,
uint8_t * py, uint8_t * pu, uint8_t * pv)
{
yuv420_rgb15 (this, image, py, pu, pv, CPU_MMXEXT);
emms(); /* re-initialize x86 FPU after MMX use */
}
static void mmxext_rgb16 (yuv2rgb_t *this, uint8_t * image,
uint8_t * py, uint8_t * pu, uint8_t * pv)
{
yuv420_rgb16 (this, image, py, pu, pv, CPU_MMXEXT);
emms(); /* re-initialize x86 FPU after MMX use */
}
static void mmxext_rgb24 (yuv2rgb_t *this, uint8_t * image,
uint8_t * py, uint8_t * pu, uint8_t * pv)
{
yuv420_rgb24 (this, image, py, pu, pv, CPU_MMXEXT);
emms(); /* re-initialize x86 FPU after MMX use */
}
static void mmxext_argb32 (yuv2rgb_t *this, uint8_t * image,
uint8_t * py, uint8_t * pu, uint8_t * pv)
{
yuv420_argb32 (this, image, py, pu, pv, CPU_MMXEXT);
emms(); /* re-initialize x86 FPU after MMX use */
}
static void mmxext_abgr32 (yuv2rgb_t *this, uint8_t * image,
uint8_t * py, uint8_t * pu, uint8_t * pv)
{
yuv420_abgr32 (this, image, py, pu, pv, CPU_MMXEXT);
emms(); /* re-initialize x86 FPU after MMX use */
}
static void mmx_rgb15 (yuv2rgb_t *this, uint8_t * image,
uint8_t * py, uint8_t * pu, uint8_t * pv)
{
yuv420_rgb15 (this, image, py, pu, pv, CPU_MMX);
emms(); /* re-initialize x86 FPU after MMX use */
}
static void mmx_rgb16 (yuv2rgb_t *this, uint8_t * image,
uint8_t * py, uint8_t * pu, uint8_t * pv)
{
yuv420_rgb16 (this, image, py, pu, pv, CPU_MMX);
emms(); /* re-initialize x86 FPU after MMX use */
}
static void mmx_rgb24 (yuv2rgb_t *this, uint8_t * image,
uint8_t * py, uint8_t * pu, uint8_t * pv)
{
yuv420_rgb24 (this, image, py, pu, pv, CPU_MMX);
emms(); /* re-initialize x86 FPU after MMX use */
}
static void mmx_argb32 (yuv2rgb_t *this, uint8_t * image,
uint8_t * py, uint8_t * pu, uint8_t * pv)
{
yuv420_argb32 (this, image, py, pu, pv, CPU_MMX);
emms(); /* re-initialize x86 FPU after MMX use */
}
static void mmx_abgr32 (yuv2rgb_t *this, uint8_t * image,
uint8_t * py, uint8_t * pu, uint8_t * pv)
{
yuv420_abgr32 (this, image, py, pu, pv, CPU_MMX);
emms(); /* re-initialize x86 FPU after MMX use */
}
void yuv2rgb_init_mmxext (yuv2rgb_factory_t *this) {
if (this->swapped)
return; /*no swapped pixel output upto now*/
switch (this->mode) {
case MODE_15_RGB:
this->yuv2rgb_fun = mmxext_rgb15;
break;
case MODE_16_RGB:
this->yuv2rgb_fun = mmxext_rgb16;
break;
case MODE_24_RGB:
this->yuv2rgb_fun = mmxext_rgb24;
break;
case MODE_32_RGB:
this->yuv2rgb_fun = mmxext_argb32;
break;
case MODE_32_BGR:
this->yuv2rgb_fun = mmxext_abgr32;
break;
}
}
void yuv2rgb_init_mmx (yuv2rgb_factory_t *this) {
if (this->swapped)
return; /*no swapped pixel output upto now*/
switch (this->mode) {
case MODE_15_RGB:
this->yuv2rgb_fun = mmx_rgb15;
break;
case MODE_16_RGB:
this->yuv2rgb_fun = mmx_rgb16;
break;
case MODE_24_RGB:
this->yuv2rgb_fun = mmx_rgb24;
break;
case MODE_32_RGB:
this->yuv2rgb_fun = mmx_argb32;
break;
case MODE_32_BGR:
this->yuv2rgb_fun = mmx_abgr32;
break;
}
}
#endif