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/************************************************************************** |
/************************************************************************** |
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* |
* |
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* XVID MPEG-4 VIDEO CODEC |
* XVID MPEG-4 VIDEO CODEC |
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* image stuff |
* - Image management functions - |
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* |
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* Copyright(C) 2001-2003 Peter Ross <pross@xvid.org> |
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* |
* |
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* This program is free software; you can redistribute it and/or modify |
* This program is free software; you can redistribute it and/or modify |
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* it under the terms of the GNU General Public License as published by |
* it under the terms of the GNU General Public License as published by |
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* |
* |
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* You should have received a copy of the GNU General Public License |
* You should have received a copy of the GNU General Public License |
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* along with this program; if not, write to the Free Software |
* along with this program; if not, write to the Free Software |
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* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. |
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA |
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* |
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*************************************************************************/ |
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/************************************************************************** |
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* |
* |
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* History: |
* $Id$ |
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* |
* |
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* 01.05.2002 BFRAME image-based u,v interpolation |
****************************************************************************/ |
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* 22.04.2002 added some B-frame support |
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* 14.04.2002 added image_dump_yuvpgm(), added image_mad() |
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* XVID_CSP_USER input support |
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* 09.04.2002 PSNR calculations |
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* 06.04.2002 removed interlaced edging from U,V blocks (as per spec) |
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* 26.03.2002 interlacing support (field-based edging in set_edges) |
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* 26.01.2002 rgb555, rgb565 |
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* 07.01.2001 commented u,v interpolation (not required for uv-block-based) |
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* 23.12.2001 removed #ifdefs, added function pointers + init_common() |
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* 22.12.2001 cpu #ifdefs |
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* 19.12.2001 image_dump(); useful for debugging |
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* 6.12.2001 inital version; (c)2001 peter ross <pross@cs.rmit.edu.au> |
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* |
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*************************************************************************/ |
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#include <stdlib.h> |
#include <stdlib.h> |
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#include <string.h> // memcpy, memset |
#include <string.h> /* memcpy, memset */ |
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#include <math.h> |
#include <math.h> |
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#include "../portab.h" |
#include "../portab.h" |
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#include "../xvid.h" // XVID_CSP_XXX's |
#include "../global.h" /* XVID_CSP_XXX's */ |
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#include "../xvid.h" /* XVID_CSP_XXX's */ |
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#include "image.h" |
#include "image.h" |
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#include "colorspace.h" |
#include "colorspace.h" |
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#include "interpolate8x8.h" |
#include "interpolate8x8.h" |
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#include "../divx4.h" |
#include "reduced.h" |
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#include "../utils/mem_align.h" |
#include "../utils/mem_align.h" |
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#include "font.h" /* XXX: remove later */ |
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#define SAFETY 64 |
#define SAFETY 64 |
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#define EDGE_SIZE2 (EDGE_SIZE/2) |
#define EDGE_SIZE2 (EDGE_SIZE/2) |
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image_swap(IMAGE * image1, |
image_swap(IMAGE * image1, |
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IMAGE * image2) |
IMAGE * image2) |
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{ |
{ |
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uint8_t *tmp; |
SWAP(uint8_t*, image1->y, image2->y); |
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SWAP(uint8_t*, image1->u, image2->u); |
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tmp = image1->y; |
SWAP(uint8_t*, image1->v, image2->v); |
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image1->y = image2->y; |
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image2->y = tmp; |
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tmp = image1->u; |
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image1->u = image2->u; |
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image2->u = tmp; |
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tmp = image1->v; |
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image1->v = image2->v; |
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image2->v = tmp; |
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} |
} |
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128 |
uint32_t edged_width, |
uint32_t edged_width, |
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uint32_t edged_height, |
uint32_t edged_height, |
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uint32_t width, |
uint32_t width, |
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uint32_t height, |
uint32_t height) |
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uint32_t interlacing) |
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{ |
{ |
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const uint32_t edged_width2 = edged_width / 2; |
const uint32_t edged_width2 = edged_width / 2; |
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const uint32_t width2 = width / 2; |
uint32_t width2; |
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uint32_t i; |
uint32_t i; |
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uint8_t *dst; |
uint8_t *dst; |
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uint8_t *src; |
uint8_t *src; |
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dst = image->y - (EDGE_SIZE + EDGE_SIZE * edged_width); |
dst = image->y - (EDGE_SIZE + EDGE_SIZE * edged_width); |
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src = image->y; |
src = image->y; |
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/* According to the Standard Clause 7.6.4, padding is done starting at 16 |
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* pixel width and height multiples */ |
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width = (width+15)&~15; |
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height = (height+15)&~15; |
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width2 = width/2; |
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for (i = 0; i < EDGE_SIZE; i++) { |
for (i = 0; i < EDGE_SIZE; i++) { |
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/* // if interlacing, edges contain top-most data from each field |
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if (interlacing && (i & 1)) { |
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memset(dst, *(src + edged_width), EDGE_SIZE); |
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memcpy(dst + EDGE_SIZE, src + edged_width, width); |
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memset(dst + edged_width - EDGE_SIZE, |
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*(src + edged_width + width - 1), EDGE_SIZE); |
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} else {*/ |
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memset(dst, *src, EDGE_SIZE); |
memset(dst, *src, EDGE_SIZE); |
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memcpy(dst + EDGE_SIZE, src, width); |
memcpy(dst + EDGE_SIZE, src, width); |
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memset(dst + edged_width - EDGE_SIZE, *(src + width - 1), |
memset(dst + edged_width - EDGE_SIZE, *(src + width - 1), |
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EDGE_SIZE); |
EDGE_SIZE); |
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/*}*/ |
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dst += edged_width; |
dst += edged_width; |
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} |
} |
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src -= edged_width; |
src -= edged_width; |
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for (i = 0; i < EDGE_SIZE; i++) { |
for (i = 0; i < EDGE_SIZE; i++) { |
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/* // if interlacing, edges contain bottom-most data from each field |
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if (interlacing && !(i & 1)) { |
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memset(dst, *(src - edged_width), EDGE_SIZE); |
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memcpy(dst + EDGE_SIZE, src - edged_width, width); |
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memset(dst + edged_width - EDGE_SIZE, |
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*(src - edged_width + width - 1), EDGE_SIZE); |
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} else {*/ |
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memset(dst, *src, EDGE_SIZE); |
memset(dst, *src, EDGE_SIZE); |
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memcpy(dst + EDGE_SIZE, src, width); |
memcpy(dst + EDGE_SIZE, src, width); |
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memset(dst + edged_width - EDGE_SIZE, *(src + width - 1), |
memset(dst + edged_width - EDGE_SIZE, *(src + width - 1), |
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EDGE_SIZE); |
EDGE_SIZE); |
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/*}*/ |
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dst += edged_width; |
dst += edged_width; |
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} |
} |
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//U |
/* U */ |
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dst = image->u - (EDGE_SIZE2 + EDGE_SIZE2 * edged_width2); |
dst = image->u - (EDGE_SIZE2 + EDGE_SIZE2 * edged_width2); |
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src = image->u; |
src = image->u; |
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} |
} |
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// V |
/* V */ |
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dst = image->v - (EDGE_SIZE2 + EDGE_SIZE2 * edged_width2); |
dst = image->v - (EDGE_SIZE2 + EDGE_SIZE2 * edged_width2); |
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src = image->v; |
src = image->v; |
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} |
} |
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} |
} |
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// bframe encoding requires image-based u,v interpolation |
/* bframe encoding requires image-based u,v interpolation */ |
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void |
void |
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image_interpolate(const IMAGE * refn, |
image_interpolate(const IMAGE * refn, |
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IMAGE * refh, |
IMAGE * refh, |
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IMAGE * refhv, |
IMAGE * refhv, |
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uint32_t edged_width, |
uint32_t edged_width, |
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uint32_t edged_height, |
uint32_t edged_height, |
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uint32_t quarterpel, |
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uint32_t rounding) |
uint32_t rounding) |
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{ |
{ |
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const uint32_t offset = EDGE_SIZE * (edged_width + 1); |
const uint32_t offset = EDGE_SIZE2 * (edged_width + 1); /* we only interpolate half of the edge area */ |
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const uint32_t stride_add = 7 * edged_width; |
const uint32_t stride_add = 7 * edged_width; |
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#if 0 |
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#ifdef BFRAMES |
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const uint32_t edged_width2 = edged_width / 2; |
const uint32_t edged_width2 = edged_width / 2; |
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const uint32_t edged_height2 = edged_height / 2; |
const uint32_t edged_height2 = edged_height / 2; |
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const uint32_t offset2 = EDGE_SIZE2 * (edged_width2 + 1); |
const uint32_t offset2 = EDGE_SIZE2 * (edged_width2 + 1); |
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const uint32_t stride_add2 = 7 * edged_width2; |
const uint32_t stride_add2 = 7 * edged_width2; |
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#endif |
#endif |
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uint8_t *n_ptr, *h_ptr, *v_ptr, *hv_ptr; |
uint8_t *n_ptr, *h_ptr, *v_ptr, *hv_ptr; |
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uint32_t x, y; |
uint32_t x, y; |
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v_ptr -= offset; |
v_ptr -= offset; |
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hv_ptr -= offset; |
hv_ptr -= offset; |
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for (y = 0; y < edged_height; y = y + 8) { |
if(quarterpel) { |
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for (x = 0; x < edged_width; x = x + 8) { |
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for (y = 0; y < (edged_height - EDGE_SIZE); y += 8) { |
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for (x = 0; x < (edged_width - EDGE_SIZE); x += 8) { |
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interpolate8x8_6tap_lowpass_h(h_ptr, n_ptr, edged_width, rounding); |
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interpolate8x8_6tap_lowpass_v(v_ptr, n_ptr, edged_width, rounding); |
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n_ptr += 8; |
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h_ptr += 8; |
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v_ptr += 8; |
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} |
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n_ptr += EDGE_SIZE; |
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h_ptr += EDGE_SIZE; |
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v_ptr += EDGE_SIZE; |
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h_ptr += stride_add; |
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v_ptr += stride_add; |
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n_ptr += stride_add; |
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} |
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h_ptr = refh->y; |
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h_ptr -= offset; |
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for (y = 0; y < (edged_height - EDGE_SIZE); y = y + 8) { |
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for (x = 0; x < (edged_width - EDGE_SIZE); x = x + 8) { |
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interpolate8x8_6tap_lowpass_v(hv_ptr, h_ptr, edged_width, rounding); |
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hv_ptr += 8; |
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h_ptr += 8; |
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} |
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hv_ptr += EDGE_SIZE; |
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h_ptr += EDGE_SIZE; |
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hv_ptr += stride_add; |
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h_ptr += stride_add; |
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} |
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} |
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else { |
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for (y = 0; y < (edged_height - EDGE_SIZE); y += 8) { |
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for (x = 0; x < (edged_width - EDGE_SIZE); x += 8) { |
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interpolate8x8_halfpel_h(h_ptr, n_ptr, edged_width, rounding); |
interpolate8x8_halfpel_h(h_ptr, n_ptr, edged_width, rounding); |
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interpolate8x8_halfpel_v(v_ptr, n_ptr, edged_width, rounding); |
interpolate8x8_halfpel_v(v_ptr, n_ptr, edged_width, rounding); |
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interpolate8x8_halfpel_hv(hv_ptr, n_ptr, edged_width, rounding); |
interpolate8x8_halfpel_hv(hv_ptr, n_ptr, edged_width, rounding); |
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v_ptr += 8; |
v_ptr += 8; |
312 |
hv_ptr += 8; |
hv_ptr += 8; |
313 |
} |
} |
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h_ptr += EDGE_SIZE; |
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v_ptr += EDGE_SIZE; |
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hv_ptr += EDGE_SIZE; |
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n_ptr += EDGE_SIZE; |
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h_ptr += stride_add; |
h_ptr += stride_add; |
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v_ptr += stride_add; |
v_ptr += stride_add; |
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hv_ptr += stride_add; |
hv_ptr += stride_add; |
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n_ptr += stride_add; |
n_ptr += stride_add; |
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} |
} |
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} |
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/* |
327 |
#ifdef BFRAMES |
#ifdef BFRAMES |
328 |
n_ptr = refn->u; |
n_ptr = refn->u; |
329 |
h_ptr = refh->u; |
h_ptr = refh->u; |
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v_ptr -= offset2; |
v_ptr -= offset2; |
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hv_ptr -= offset2; |
hv_ptr -= offset2; |
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for (y = 0; y < edged_height2; y = y + 8) { |
for (y = 0; y < edged_height2; y += 8) { |
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for (x = 0; x < edged_width2; x = x + 8) { |
for (x = 0; x < edged_width2; x += 8) { |
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interpolate8x8_halfpel_h(h_ptr, n_ptr, edged_width2, rounding); |
interpolate8x8_halfpel_h(h_ptr, n_ptr, edged_width2, rounding); |
341 |
interpolate8x8_halfpel_v(v_ptr, n_ptr, edged_width2, rounding); |
interpolate8x8_halfpel_v(v_ptr, n_ptr, edged_width2, rounding); |
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interpolate8x8_halfpel_hv(hv_ptr, n_ptr, edged_width2, rounding); |
interpolate8x8_halfpel_hv(hv_ptr, n_ptr, edged_width2, rounding); |
379 |
n_ptr += stride_add2; |
n_ptr += stride_add2; |
380 |
} |
} |
381 |
#endif |
#endif |
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*/ |
383 |
/* |
/* |
384 |
interpolate_halfpel_h( |
interpolate_halfpel_h( |
385 |
refh->y - offset, |
refh->y - offset, |
443 |
} |
} |
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446 |
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/* |
447 |
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chroma optimize filter, invented by mf |
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a chroma pixel is average from the surrounding pixels, when the |
449 |
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correpsonding luma pixels are pure black or white. |
450 |
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*/ |
451 |
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452 |
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void |
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image_chroma_optimize(IMAGE * img, int width, int height, int edged_width) |
454 |
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{ |
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int x,y; |
456 |
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int pixels = 0; |
457 |
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458 |
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for (y = 1; y < height/2 - 1; y++) |
459 |
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for (x = 1; x < width/2 - 1; x++) |
460 |
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{ |
461 |
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#define IS_PURE(a) ((a)<=16||(a)>=235) |
462 |
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#define IMG_Y(Y,X) img->y[(Y)*edged_width + (X)] |
463 |
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#define IMG_U(Y,X) img->u[(Y)*edged_width/2 + (X)] |
464 |
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#define IMG_V(Y,X) img->v[(Y)*edged_width/2 + (X)] |
465 |
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466 |
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if (IS_PURE(IMG_Y(y*2 ,x*2 )) && |
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IS_PURE(IMG_Y(y*2 ,x*2+1)) && |
468 |
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IS_PURE(IMG_Y(y*2+1,x*2 )) && |
469 |
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IS_PURE(IMG_Y(y*2+1,x*2+1))) |
470 |
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{ |
471 |
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IMG_U(y,x) = (IMG_U(y,x-1) + IMG_U(y-1, x) + IMG_U(y, x+1) + IMG_U(y+1, x)) / 4; |
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IMG_V(y,x) = (IMG_V(y,x-1) + IMG_V(y-1, x) + IMG_V(y, x+1) + IMG_V(y+1, x)) / 4; |
473 |
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pixels++; |
474 |
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} |
475 |
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476 |
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#undef IS_PURE |
477 |
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#undef IMG_Y |
478 |
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#undef IMG_U |
479 |
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#undef IMG_V |
480 |
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} |
481 |
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482 |
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DPRINTF(XVID_DEBUG_DEBUG,"chroma_optimized_pixels = %i/%i\n", pixels, width*height/4); |
483 |
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} |
484 |
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485 |
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486 |
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487 |
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488 |
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489 |
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/* |
490 |
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perform safe packed colorspace conversion, by splitting |
491 |
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the image up into an optimized area (pixel width divisible by 16), |
492 |
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and two unoptimized/plain-c areas (pixel width divisible by 2) |
493 |
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*/ |
494 |
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495 |
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static void |
496 |
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safe_packed_conv(uint8_t * x_ptr, int x_stride, |
497 |
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uint8_t * y_ptr, uint8_t * u_ptr, uint8_t * v_ptr, |
498 |
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int y_stride, int uv_stride, |
499 |
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int width, int height, int vflip, |
500 |
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packedFunc * func_opt, packedFunc func_c, int size) |
501 |
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{ |
502 |
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int width_opt, width_c; |
503 |
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504 |
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if (func_opt != func_c && x_stride < size*((width+15)/16)*16) |
505 |
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{ |
506 |
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width_opt = width & (~15); |
507 |
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width_c = width - width_opt; |
508 |
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} |
509 |
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else |
510 |
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{ |
511 |
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width_opt = width; |
512 |
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width_c = 0; |
513 |
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} |
514 |
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515 |
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func_opt(x_ptr, x_stride, |
516 |
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y_ptr, u_ptr, v_ptr, y_stride, uv_stride, |
517 |
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width_opt, height, vflip); |
518 |
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519 |
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if (width_c) |
520 |
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{ |
521 |
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func_c(x_ptr + size*width_opt, x_stride, |
522 |
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y_ptr + width_opt, u_ptr + width_opt/2, v_ptr + width_opt/2, |
523 |
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y_stride, uv_stride, width_c, height, vflip); |
524 |
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} |
525 |
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} |
526 |
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527 |
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528 |
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529 |
int |
int |
530 |
image_input(IMAGE * image, |
image_input(IMAGE * image, |
531 |
uint32_t width, |
uint32_t width, |
532 |
int height, |
int height, |
533 |
uint32_t edged_width, |
uint32_t edged_width, |
534 |
uint8_t * src, |
uint8_t * src[4], |
535 |
int csp) |
int src_stride[4], |
536 |
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int csp, |
537 |
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int interlacing) |
538 |
{ |
{ |
539 |
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const int edged_width2 = edged_width/2; |
540 |
/* if (csp & XVID_CSP_VFLIP) |
const int width2 = width/2; |
541 |
{ |
const int height2 = height/2; |
542 |
height = -height; |
#if 0 |
543 |
} |
const int height_signed = (csp & XVID_CSP_VFLIP) ? -height : height; |
544 |
*/ |
#endif |
545 |
|
|
546 |
switch (csp & ~XVID_CSP_VFLIP) { |
switch (csp & ~XVID_CSP_VFLIP) { |
547 |
case XVID_CSP_RGB555: |
case XVID_CSP_RGB555: |
548 |
rgb555_to_yv12(image->y, image->u, image->v, src, width, height, |
safe_packed_conv( |
549 |
edged_width); |
src[0], src_stride[0], image->y, image->u, image->v, |
550 |
return 0; |
edged_width, edged_width2, width, height, (csp & XVID_CSP_VFLIP), |
551 |
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interlacing?rgb555i_to_yv12 :rgb555_to_yv12, |
552 |
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interlacing?rgb555i_to_yv12_c:rgb555_to_yv12_c, 2); |
553 |
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break; |
554 |
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|
555 |
case XVID_CSP_RGB565: |
case XVID_CSP_RGB565: |
556 |
rgb565_to_yv12(image->y, image->u, image->v, src, width, height, |
safe_packed_conv( |
557 |
edged_width); |
src[0], src_stride[0], image->y, image->u, image->v, |
558 |
return 0; |
edged_width, edged_width2, width, height, (csp & XVID_CSP_VFLIP), |
559 |
|
interlacing?rgb565i_to_yv12 :rgb565_to_yv12, |
560 |
|
interlacing?rgb565i_to_yv12_c:rgb565_to_yv12_c, 2); |
561 |
|
break; |
562 |
|
|
563 |
|
|
564 |
case XVID_CSP_RGB24: |
case XVID_CSP_BGR: |
565 |
rgb24_to_yv12(image->y, image->u, image->v, src, width, height, |
safe_packed_conv( |
566 |
edged_width); |
src[0], src_stride[0], image->y, image->u, image->v, |
567 |
return 0; |
edged_width, edged_width2, width, height, (csp & XVID_CSP_VFLIP), |
568 |
|
interlacing?bgri_to_yv12 :bgr_to_yv12, |
569 |
|
interlacing?bgri_to_yv12_c:bgr_to_yv12_c, 3); |
570 |
|
break; |
571 |
|
|
572 |
case XVID_CSP_RGB32: |
case XVID_CSP_BGRA: |
573 |
rgb32_to_yv12(image->y, image->u, image->v, src, width, height, |
safe_packed_conv( |
574 |
edged_width); |
src[0], src_stride[0], image->y, image->u, image->v, |
575 |
return 0; |
edged_width, edged_width2, width, height, (csp & XVID_CSP_VFLIP), |
576 |
|
interlacing?bgrai_to_yv12 :bgra_to_yv12, |
577 |
|
interlacing?bgrai_to_yv12_c:bgra_to_yv12_c, 4); |
578 |
|
break; |
579 |
|
|
580 |
case XVID_CSP_I420: |
case XVID_CSP_ABGR : |
581 |
yuv_to_yv12(image->y, image->u, image->v, src, width, height, |
safe_packed_conv( |
582 |
edged_width); |
src[0], src_stride[0], image->y, image->u, image->v, |
583 |
return 0; |
edged_width, edged_width2, width, height, (csp & XVID_CSP_VFLIP), |
584 |
|
interlacing?abgri_to_yv12 :abgr_to_yv12, |
585 |
|
interlacing?abgri_to_yv12_c:abgr_to_yv12_c, 4); |
586 |
|
break; |
587 |
|
|
588 |
case XVID_CSP_YV12: /* u/v swapped */ |
case XVID_CSP_RGBA : |
589 |
yuv_to_yv12(image->y, image->v, image->u, src, width, height, |
safe_packed_conv( |
590 |
edged_width); |
src[0], src_stride[0], image->y, image->u, image->v, |
591 |
return 0; |
edged_width, edged_width2, width, height, (csp & XVID_CSP_VFLIP), |
592 |
|
interlacing?rgbai_to_yv12 :rgba_to_yv12, |
593 |
|
interlacing?rgbai_to_yv12_c:rgba_to_yv12_c, 4); |
594 |
|
break; |
595 |
|
|
596 |
case XVID_CSP_YUY2: |
case XVID_CSP_YUY2: |
597 |
yuyv_to_yv12(image->y, image->u, image->v, src, width, height, |
safe_packed_conv( |
598 |
edged_width); |
src[0], src_stride[0], image->y, image->u, image->v, |
599 |
return 0; |
edged_width, edged_width2, width, height, (csp & XVID_CSP_VFLIP), |
600 |
|
interlacing?yuyvi_to_yv12 :yuyv_to_yv12, |
601 |
|
interlacing?yuyvi_to_yv12_c:yuyv_to_yv12_c, 2); |
602 |
|
break; |
603 |
|
|
604 |
case XVID_CSP_YVYU: /* u/v swapped */ |
case XVID_CSP_YVYU: /* u/v swapped */ |
605 |
yuyv_to_yv12(image->y, image->v, image->u, src, width, height, |
safe_packed_conv( |
606 |
edged_width); |
src[0], src_stride[0], image->y, image->v, image->y, |
607 |
return 0; |
edged_width, edged_width2, width, height, (csp & XVID_CSP_VFLIP), |
608 |
|
interlacing?yuyvi_to_yv12 :yuyv_to_yv12, |
609 |
|
interlacing?yuyvi_to_yv12_c:yuyv_to_yv12_c, 2); |
610 |
|
break; |
611 |
|
|
612 |
case XVID_CSP_UYVY: |
case XVID_CSP_UYVY: |
613 |
uyvy_to_yv12(image->y, image->u, image->v, src, width, height, |
safe_packed_conv( |
614 |
edged_width); |
src[0], src_stride[0], image->y, image->u, image->v, |
615 |
return 0; |
edged_width, edged_width2, width, height, (csp & XVID_CSP_VFLIP), |
616 |
|
interlacing?uyvyi_to_yv12 :uyvy_to_yv12, |
617 |
|
interlacing?uyvyi_to_yv12_c:uyvy_to_yv12_c, 2); |
618 |
|
break; |
619 |
|
|
620 |
|
case XVID_CSP_I420: |
621 |
|
yv12_to_yv12(image->y, image->u, image->v, edged_width, edged_width2, |
622 |
|
src[0], src[0] + src_stride[0]*height, src[0] + src_stride[0]*height + (src_stride[0]/2)*height2, |
623 |
|
src_stride[0], src_stride[0]/2, width, height, (csp & XVID_CSP_VFLIP)); |
624 |
|
break |
625 |
|
; |
626 |
|
case XVID_CSP_YV12: /* u/v swapped */ |
627 |
|
yv12_to_yv12(image->y, image->v, image->u, edged_width, edged_width2, |
628 |
|
src[0], src[0] + src_stride[0]*height, src[0] + src_stride[0]*height + (src_stride[0]/2)*height2, |
629 |
|
src_stride[0], src_stride[0]/2, width, height, (csp & XVID_CSP_VFLIP)); |
630 |
|
break; |
631 |
|
|
632 |
case XVID_CSP_USER: |
case XVID_CSP_USER: |
633 |
user_to_yuv_c(image->y, image->u, image->v, edged_width, |
/*XXX: support for different u & v strides */ |
634 |
(DEC_PICTURE *) src, width, height); |
yv12_to_yv12(image->y, image->u, image->v, edged_width, edged_width2, |
635 |
return 0; |
src[0], src[1], src[2], src_stride[0], src_stride[1], |
636 |
|
width, height, (csp & XVID_CSP_VFLIP)); |
637 |
|
break; |
638 |
|
|
639 |
case XVID_CSP_NULL: |
case XVID_CSP_NULL: |
640 |
break; |
break; |
641 |
|
|
642 |
|
default : |
643 |
|
return -1; |
644 |
} |
} |
645 |
|
|
646 |
return -1; |
|
647 |
|
/* pad out image when the width and/or height is not a multiple of 16 */ |
648 |
|
|
649 |
|
if (width & 15) |
650 |
|
{ |
651 |
|
int i; |
652 |
|
int pad_width = 16 - (width&15); |
653 |
|
for (i = 0; i < height; i++) |
654 |
|
{ |
655 |
|
memset(image->y + i*edged_width + width, |
656 |
|
*(image->y + i*edged_width + width - 1), pad_width); |
657 |
|
} |
658 |
|
for (i = 0; i < height/2; i++) |
659 |
|
{ |
660 |
|
memset(image->u + i*edged_width2 + width2, |
661 |
|
*(image->u + i*edged_width2 + width2 - 1),pad_width/2); |
662 |
|
memset(image->v + i*edged_width2 + width2, |
663 |
|
*(image->v + i*edged_width2 + width2 - 1),pad_width/2); |
664 |
|
} |
665 |
|
} |
666 |
|
|
667 |
|
if (height & 15) |
668 |
|
{ |
669 |
|
int pad_height = 16 - (height&15); |
670 |
|
int length = ((width+15)/16)*16; |
671 |
|
int i; |
672 |
|
for (i = 0; i < pad_height; i++) |
673 |
|
{ |
674 |
|
memcpy(image->y + (height+i)*edged_width, |
675 |
|
image->y + (height-1)*edged_width,length); |
676 |
|
} |
677 |
|
|
678 |
|
for (i = 0; i < pad_height/2; i++) |
679 |
|
{ |
680 |
|
memcpy(image->u + (height2+i)*edged_width2, |
681 |
|
image->u + (height2-1)*edged_width2,length/2); |
682 |
|
memcpy(image->v + (height2+i)*edged_width2, |
683 |
|
image->v + (height2-1)*edged_width2,length/2); |
684 |
|
} |
685 |
|
} |
686 |
|
|
687 |
|
/* |
688 |
|
if (interlacing) |
689 |
|
image_printf(image, edged_width, height, 5,5, "[i]"); |
690 |
|
image_dump_yuvpgm(image, edged_width, ((width+15)/16)*16, ((height+15)/16)*16, "\\encode.pgm"); |
691 |
|
*/ |
692 |
|
return 0; |
693 |
} |
} |
694 |
|
|
695 |
|
|
699 |
uint32_t width, |
uint32_t width, |
700 |
int height, |
int height, |
701 |
uint32_t edged_width, |
uint32_t edged_width, |
702 |
uint8_t * dst, |
uint8_t * dst[4], |
703 |
uint32_t dst_stride, |
uint32_t dst_stride[4], |
704 |
int csp) |
int csp, |
705 |
|
int interlacing) |
706 |
{ |
{ |
707 |
if (csp & XVID_CSP_VFLIP) { |
const int edged_width2 = edged_width/2; |
708 |
height = -height; |
int height2 = height/2; |
709 |
} |
|
710 |
|
/* |
711 |
|
if (interlacing) |
712 |
|
image_printf(image, edged_width, height, 5,100, "[i]=%i,%i",width,height); |
713 |
|
image_dump_yuvpgm(image, edged_width, width, height, "\\decode.pgm"); |
714 |
|
*/ |
715 |
|
|
716 |
switch (csp & ~XVID_CSP_VFLIP) { |
switch (csp & ~XVID_CSP_VFLIP) { |
717 |
case XVID_CSP_RGB555: |
case XVID_CSP_RGB555: |
718 |
yv12_to_rgb555(dst, dst_stride, image->y, image->u, image->v, |
safe_packed_conv( |
719 |
edged_width, edged_width / 2, width, height); |
dst[0], dst_stride[0], image->y, image->u, image->v, |
720 |
|
edged_width, edged_width2, width, height, (csp & XVID_CSP_VFLIP), |
721 |
|
interlacing?yv12_to_rgb555i :yv12_to_rgb555, |
722 |
|
interlacing?yv12_to_rgb555i_c:yv12_to_rgb555_c, 2); |
723 |
return 0; |
return 0; |
724 |
|
|
725 |
case XVID_CSP_RGB565: |
case XVID_CSP_RGB565: |
726 |
yv12_to_rgb565(dst, dst_stride, image->y, image->u, image->v, |
safe_packed_conv( |
727 |
edged_width, edged_width / 2, width, height); |
dst[0], dst_stride[0], image->y, image->u, image->v, |
728 |
return 0; |
edged_width, edged_width2, width, height, (csp & XVID_CSP_VFLIP), |
729 |
|
interlacing?yv12_to_rgb565i :yv12_to_rgb565, |
730 |
case XVID_CSP_RGB24: |
interlacing?yv12_to_rgb565i_c:yv12_to_rgb565_c, 2); |
731 |
yv12_to_rgb24(dst, dst_stride, image->y, image->u, image->v, |
return 0; |
732 |
edged_width, edged_width / 2, width, height); |
|
733 |
return 0; |
case XVID_CSP_BGR: |
734 |
|
safe_packed_conv( |
735 |
case XVID_CSP_RGB32: |
dst[0], dst_stride[0], image->y, image->u, image->v, |
736 |
yv12_to_rgb32(dst, dst_stride, image->y, image->u, image->v, |
edged_width, edged_width2, width, height, (csp & XVID_CSP_VFLIP), |
737 |
edged_width, edged_width / 2, width, height); |
interlacing?yv12_to_bgri :yv12_to_bgr, |
738 |
return 0; |
interlacing?yv12_to_bgri_c:yv12_to_bgr_c, 3); |
739 |
|
return 0; |
740 |
case XVID_CSP_I420: |
|
741 |
yv12_to_yuv(dst, dst_stride, image->y, image->u, image->v, edged_width, |
case XVID_CSP_BGRA: |
742 |
edged_width / 2, width, height); |
safe_packed_conv( |
743 |
return 0; |
dst[0], dst_stride[0], image->y, image->u, image->v, |
744 |
|
edged_width, edged_width2, width, height, (csp & XVID_CSP_VFLIP), |
745 |
case XVID_CSP_YV12: // u,v swapped |
interlacing?yv12_to_bgrai :yv12_to_bgra, |
746 |
yv12_to_yuv(dst, dst_stride, image->y, image->v, image->u, edged_width, |
interlacing?yv12_to_bgrai_c:yv12_to_bgra_c, 4); |
747 |
edged_width / 2, width, height); |
return 0; |
748 |
|
|
749 |
|
case XVID_CSP_ABGR: |
750 |
|
safe_packed_conv( |
751 |
|
dst[0], dst_stride[0], image->y, image->u, image->v, |
752 |
|
edged_width, edged_width2, width, height, (csp & XVID_CSP_VFLIP), |
753 |
|
interlacing?yv12_to_abgri :yv12_to_abgr, |
754 |
|
interlacing?yv12_to_abgri_c:yv12_to_abgr_c, 4); |
755 |
|
return 0; |
756 |
|
|
757 |
|
case XVID_CSP_RGBA: |
758 |
|
safe_packed_conv( |
759 |
|
dst[0], dst_stride[0], image->y, image->u, image->v, |
760 |
|
edged_width, edged_width2, width, height, (csp & XVID_CSP_VFLIP), |
761 |
|
interlacing?yv12_to_rgbai :yv12_to_rgba, |
762 |
|
interlacing?yv12_to_rgbai_c:yv12_to_rgba_c, 4); |
763 |
return 0; |
return 0; |
764 |
|
|
765 |
case XVID_CSP_YUY2: |
case XVID_CSP_YUY2: |
766 |
yv12_to_yuyv(dst, dst_stride, image->y, image->u, image->v, |
safe_packed_conv( |
767 |
edged_width, edged_width / 2, width, height); |
dst[0], dst_stride[0], image->y, image->u, image->v, |
768 |
|
edged_width, edged_width2, width, height, (csp & XVID_CSP_VFLIP), |
769 |
|
interlacing?yv12_to_yuyvi :yv12_to_yuyv, |
770 |
|
interlacing?yv12_to_yuyvi_c:yv12_to_yuyv_c, 2); |
771 |
return 0; |
return 0; |
772 |
|
|
773 |
case XVID_CSP_YVYU: // u,v swapped |
case XVID_CSP_YVYU: /* u,v swapped */ |
774 |
yv12_to_yuyv(dst, dst_stride, image->y, image->v, image->u, |
safe_packed_conv( |
775 |
edged_width, edged_width / 2, width, height); |
dst[0], dst_stride[0], image->y, image->v, image->u, |
776 |
|
edged_width, edged_width2, width, height, (csp & XVID_CSP_VFLIP), |
777 |
|
interlacing?yv12_to_yuyvi :yv12_to_yuyv, |
778 |
|
interlacing?yv12_to_yuyvi_c:yv12_to_yuyv_c, 2); |
779 |
return 0; |
return 0; |
780 |
|
|
781 |
case XVID_CSP_UYVY: |
case XVID_CSP_UYVY: |
782 |
yv12_to_uyvy(dst, dst_stride, image->y, image->u, image->v, |
safe_packed_conv( |
783 |
edged_width, edged_width / 2, width, height); |
dst[0], dst_stride[0], image->y, image->u, image->v, |
784 |
|
edged_width, edged_width2, width, height, (csp & XVID_CSP_VFLIP), |
785 |
|
interlacing?yv12_to_uyvyi :yv12_to_uyvy, |
786 |
|
interlacing?yv12_to_uyvyi_c:yv12_to_uyvy_c, 2); |
787 |
return 0; |
return 0; |
788 |
|
|
789 |
case XVID_CSP_USER: |
case XVID_CSP_I420: |
790 |
((DEC_PICTURE *) dst)->y = image->y; |
yv12_to_yv12(dst[0], dst[0] + dst_stride[0]*height, dst[0] + dst_stride[0]*height + (dst_stride[0]/2)*height2, |
791 |
((DEC_PICTURE *) dst)->u = image->u; |
dst_stride[0], dst_stride[0]/2, |
792 |
((DEC_PICTURE *) dst)->v = image->v; |
image->y, image->u, image->v, edged_width, edged_width2, |
793 |
((DEC_PICTURE *) dst)->stride_y = edged_width; |
width, height, (csp & XVID_CSP_VFLIP)); |
794 |
((DEC_PICTURE *) dst)->stride_uv = edged_width / 2; |
return 0; |
795 |
|
|
796 |
|
case XVID_CSP_YV12: /* u,v swapped */ |
797 |
|
yv12_to_yv12(dst[0], dst[0] + dst_stride[0]*height, dst[0] + dst_stride[0]*height + (dst_stride[0]/2)*height2, |
798 |
|
dst_stride[0], dst_stride[0]/2, |
799 |
|
image->y, image->v, image->u, edged_width, edged_width2, |
800 |
|
width, height, (csp & XVID_CSP_VFLIP)); |
801 |
|
return 0; |
802 |
|
|
803 |
|
case XVID_CSP_USER : /* u,v swapped */ |
804 |
|
yv12_to_yv12(dst[0], dst[1], dst[2], |
805 |
|
dst_stride[0], dst_stride[1], /* v: dst_stride[2] */ |
806 |
|
image->y, image->v, image->u, edged_width, edged_width2, |
807 |
|
width, height, (csp & XVID_CSP_VFLIP)); |
808 |
|
return 0; |
809 |
|
|
810 |
|
case XVID_CSP_INTERNAL : |
811 |
|
dst[0] = image->y; |
812 |
|
dst[1] = image->u; |
813 |
|
dst[2] = image->v; |
814 |
|
dst_stride[0] = edged_width; |
815 |
|
dst_stride[1] = edged_width/2; |
816 |
|
dst_stride[2] = edged_width/2; |
817 |
return 0; |
return 0; |
818 |
|
|
819 |
case XVID_CSP_NULL: |
case XVID_CSP_NULL: |
820 |
case XVID_CSP_EXTERN: |
case XVID_CSP_SLICE: |
821 |
return 0; |
return 0; |
822 |
|
|
823 |
} |
} |
857 |
return psnr_y; |
return psnr_y; |
858 |
} |
} |
859 |
|
|
860 |
/* |
|
861 |
|
float sse_to_PSNR(long sse, int pixels) |
862 |
|
{ |
863 |
|
if (sse==0) |
864 |
|
return 99.99F; |
865 |
|
|
866 |
|
return 48.131F - 10*(float)log10((float)sse/(float)(pixels)); /* log10(255*255)=4.8131 */ |
867 |
|
|
868 |
|
} |
869 |
|
|
870 |
|
long plane_sse(uint8_t * orig, |
871 |
|
uint8_t * recon, |
872 |
|
uint16_t stride, |
873 |
|
uint16_t width, |
874 |
|
uint16_t height) |
875 |
|
{ |
876 |
|
int diff, x, y; |
877 |
|
long sse=0; |
878 |
|
|
879 |
|
for (y = 0; y < height; y++) { |
880 |
|
for (x = 0; x < width; x++) { |
881 |
|
diff = *(orig + x) - *(recon + x); |
882 |
|
sse += diff * diff; |
883 |
|
} |
884 |
|
orig += stride; |
885 |
|
recon += stride; |
886 |
|
} |
887 |
|
return sse; |
888 |
|
} |
889 |
|
|
890 |
|
#if 0 |
891 |
|
|
892 |
#include <stdio.h> |
#include <stdio.h> |
893 |
#include <string.h> |
#include <string.h> |
911 |
} |
} |
912 |
|
|
913 |
|
|
914 |
// dump image+edges to yuv pgm files |
/* dump image+edges to yuv pgm files */ |
915 |
|
|
916 |
int image_dump(IMAGE * image, uint32_t edged_width, uint32_t edged_height, char * path, int number) |
int image_dump(IMAGE * image, uint32_t edged_width, uint32_t edged_height, char * path, int number) |
917 |
{ |
{ |
934 |
|
|
935 |
return 0; |
return 0; |
936 |
} |
} |
937 |
*/ |
#endif |
938 |
|
|
939 |
|
|
940 |
|
|
983 |
} |
} |
984 |
|
|
985 |
|
|
|
#define ABS(X) (((X)>0)?(X):-(X)) |
|
986 |
float |
float |
987 |
image_mad(const IMAGE * img1, |
image_mad(const IMAGE * img1, |
988 |
const IMAGE * img2, |
const IMAGE * img2, |
999 |
|
|
1000 |
for (y = 0; y < height; y++) |
for (y = 0; y < height; y++) |
1001 |
for (x = 0; x < width; x++) |
for (x = 0; x < width; x++) |
1002 |
sum += ABS(img1->y[x + y * stride] - img2->y[x + y * stride]); |
sum += abs(img1->y[x + y * stride] - img2->y[x + y * stride]); |
1003 |
|
|
1004 |
for (y = 0; y < height2; y++) |
for (y = 0; y < height2; y++) |
1005 |
for (x = 0; x < width2; x++) |
for (x = 0; x < width2; x++) |
1006 |
sum += ABS(img1->u[x + y * stride2] - img2->u[x + y * stride2]); |
sum += abs(img1->u[x + y * stride2] - img2->u[x + y * stride2]); |
1007 |
|
|
1008 |
for (y = 0; y < height2; y++) |
for (y = 0; y < height2; y++) |
1009 |
for (x = 0; x < width2; x++) |
for (x = 0; x < width2; x++) |
1010 |
sum += ABS(img1->v[x + y * stride2] - img2->v[x + y * stride2]); |
sum += abs(img1->v[x + y * stride2] - img2->v[x + y * stride2]); |
1011 |
|
|
1012 |
return (float) sum / (width * height * 3 / 2); |
return (float) sum / (width * height * 3 / 2); |
1013 |
} |
} |
1014 |
|
|
1015 |
void |
void |
1016 |
output_slice(IMAGE * cur, int std, int width, XVID_DEC_PICTURE* out_frm, int mbx, int mby,int mbl) { |
output_slice(IMAGE * cur, int std, int width, xvid_image_t* out_frm, int mbx, int mby,int mbl) { |
1017 |
uint8_t *dY,*dU,*dV,*sY,*sU,*sV; |
uint8_t *dY,*dU,*dV,*sY,*sU,*sV; |
1018 |
int std2 = std >> 1; |
int std2 = std >> 1; |
1019 |
int w = mbl << 4, w2,i; |
int w = mbl << 4, w2,i; |
1022 |
w = width; |
w = width; |
1023 |
w2 = w >> 1; |
w2 = w >> 1; |
1024 |
|
|
1025 |
dY = (uint8_t*)out_frm->y + (mby << 4) * out_frm->stride_y + (mbx << 4); |
dY = (uint8_t*)out_frm->plane[0] + (mby << 4) * out_frm->stride[0] + (mbx << 4); |
1026 |
dU = (uint8_t*)out_frm->u + (mby << 3) * out_frm->stride_u + (mbx << 3); |
dU = (uint8_t*)out_frm->plane[1] + (mby << 3) * out_frm->stride[1] + (mbx << 3); |
1027 |
dV = (uint8_t*)out_frm->v + (mby << 3) * out_frm->stride_v + (mbx << 3); |
dV = (uint8_t*)out_frm->plane[2] + (mby << 3) * out_frm->stride[2] + (mbx << 3); |
1028 |
sY = cur->y + (mby << 4) * std + (mbx << 4); |
sY = cur->y + (mby << 4) * std + (mbx << 4); |
1029 |
sU = cur->u + (mby << 3) * std2 + (mbx << 3); |
sU = cur->u + (mby << 3) * std2 + (mbx << 3); |
1030 |
sV = cur->v + (mby << 3) * std2 + (mbx << 3); |
sV = cur->v + (mby << 3) * std2 + (mbx << 3); |
1031 |
|
|
1032 |
for(i = 0 ; i < 16 ; i++) { |
for(i = 0 ; i < 16 ; i++) { |
1033 |
memcpy(dY,sY,w); |
memcpy(dY,sY,w); |
1034 |
dY += out_frm->stride_y; |
dY += out_frm->stride[0]; |
1035 |
sY += std; |
sY += std; |
1036 |
} |
} |
1037 |
for(i = 0 ; i < 8 ; i++) { |
for(i = 0 ; i < 8 ; i++) { |
1038 |
memcpy(dU,sU,w2); |
memcpy(dU,sU,w2); |
1039 |
dU += out_frm->stride_u; |
dU += out_frm->stride[1]; |
1040 |
sU += std2; |
sU += std2; |
1041 |
} |
} |
1042 |
for(i = 0 ; i < 8 ; i++) { |
for(i = 0 ; i < 8 ; i++) { |
1043 |
memcpy(dV,sV,w2); |
memcpy(dV,sV,w2); |
1044 |
dV += out_frm->stride_v; |
dV += out_frm->stride[2]; |
1045 |
sV += std2; |
sV += std2; |
1046 |
} |
} |
1047 |
} |
} |
1048 |
|
|
1049 |
|
|
1050 |
|
void |
1051 |
|
image_clear(IMAGE * img, int width, int height, int edged_width, |
1052 |
|
int y, int u, int v) |
1053 |
|
{ |
1054 |
|
uint8_t * p; |
1055 |
|
int i; |
1056 |
|
|
1057 |
|
p = img->y; |
1058 |
|
for (i = 0; i < height; i++) { |
1059 |
|
memset(p, y, width); |
1060 |
|
p += edged_width; |
1061 |
|
} |
1062 |
|
|
1063 |
|
p = img->u; |
1064 |
|
for (i = 0; i < height/2; i++) { |
1065 |
|
memset(p, u, width/2); |
1066 |
|
p += edged_width/2; |
1067 |
|
} |
1068 |
|
|
1069 |
|
p = img->v; |
1070 |
|
for (i = 0; i < height/2; i++) { |
1071 |
|
memset(p, v, width/2); |
1072 |
|
p += edged_width/2; |
1073 |
|
} |
1074 |
|
} |
1075 |
|
|
1076 |
|
|
1077 |
|
/* reduced resolution deblocking filter |
1078 |
|
block = block size (16=rrv, 8=full resolution) |
1079 |
|
flags = XVID_DEC_YDEBLOCK|XVID_DEC_UVDEBLOCK |
1080 |
|
*/ |
1081 |
|
void |
1082 |
|
image_deblock_rrv(IMAGE * img, int edged_width, |
1083 |
|
const MACROBLOCK * mbs, int mb_width, int mb_height, int mb_stride, |
1084 |
|
int block, int flags) |
1085 |
|
{ |
1086 |
|
const int edged_width2 = edged_width /2; |
1087 |
|
const int nblocks = block / 8; /* skals code uses 8pixel block uints */ |
1088 |
|
int i,j; |
1089 |
|
|
1090 |
|
/* luma: j,i in block units */ |
1091 |
|
|
1092 |
|
for (j = 1; j < mb_height*2; j++) /* horizontal deblocking */ |
1093 |
|
for (i = 0; i < mb_width*2; i++) |
1094 |
|
{ |
1095 |
|
if (mbs[(j-1)/2*mb_stride + (i/2)].mode != MODE_NOT_CODED || |
1096 |
|
mbs[(j+0)/2*mb_stride + (i/2)].mode != MODE_NOT_CODED) |
1097 |
|
{ |
1098 |
|
hfilter_31(img->y + (j*block - 1)*edged_width + i*block, |
1099 |
|
img->y + (j*block + 0)*edged_width + i*block, nblocks); |
1100 |
|
} |
1101 |
|
} |
1102 |
|
|
1103 |
|
for (j = 0; j < mb_height*2; j++) /* vertical deblocking */ |
1104 |
|
for (i = 1; i < mb_width*2; i++) |
1105 |
|
{ |
1106 |
|
if (mbs[(j/2)*mb_stride + (i-1)/2].mode != MODE_NOT_CODED || |
1107 |
|
mbs[(j/2)*mb_stride + (i+0)/2].mode != MODE_NOT_CODED) |
1108 |
|
{ |
1109 |
|
vfilter_31(img->y + (j*block)*edged_width + i*block - 1, |
1110 |
|
img->y + (j*block)*edged_width + i*block + 0, |
1111 |
|
edged_width, nblocks); |
1112 |
|
} |
1113 |
|
} |
1114 |
|
|
1115 |
|
|
1116 |
|
|
1117 |
|
/* chroma */ |
1118 |
|
|
1119 |
|
for (j = 1; j < mb_height; j++) /* horizontal deblocking */ |
1120 |
|
for (i = 0; i < mb_width; i++) |
1121 |
|
{ |
1122 |
|
if (mbs[(j-1)*mb_stride + i].mode != MODE_NOT_CODED || |
1123 |
|
mbs[(j+0)*mb_stride + i].mode != MODE_NOT_CODED) |
1124 |
|
{ |
1125 |
|
hfilter_31(img->u + (j*block - 1)*edged_width2 + i*block, |
1126 |
|
img->u + (j*block + 0)*edged_width2 + i*block, nblocks); |
1127 |
|
hfilter_31(img->v + (j*block - 1)*edged_width2 + i*block, |
1128 |
|
img->v + (j*block + 0)*edged_width2 + i*block, nblocks); |
1129 |
|
} |
1130 |
|
} |
1131 |
|
|
1132 |
|
for (j = 0; j < mb_height; j++) /* vertical deblocking */ |
1133 |
|
for (i = 1; i < mb_width; i++) |
1134 |
|
{ |
1135 |
|
if (mbs[j*mb_stride + i - 1].mode != MODE_NOT_CODED || |
1136 |
|
mbs[j*mb_stride + i + 0].mode != MODE_NOT_CODED) |
1137 |
|
{ |
1138 |
|
vfilter_31(img->u + (j*block)*edged_width2 + i*block - 1, |
1139 |
|
img->u + (j*block)*edged_width2 + i*block + 0, |
1140 |
|
edged_width2, nblocks); |
1141 |
|
vfilter_31(img->v + (j*block)*edged_width2 + i*block - 1, |
1142 |
|
img->v + (j*block)*edged_width2 + i*block + 0, |
1143 |
|
edged_width2, nblocks); |
1144 |
|
} |
1145 |
|
} |
1146 |
|
|
1147 |
|
|
1148 |
|
} |
1149 |
|
|