vpx/vp8/common/reconinter.c

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/*
* Copyright (c) 2010 The WebM project authors. All Rights Reserved.
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*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
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*/
#include <limits.h>
#include "vpx_config.h"
#include "vpx_rtcd.h"
#include "vpx/vpx_integer.h"
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#include "blockd.h"
#include "reconinter.h"
#if CONFIG_RUNTIME_CPU_DETECT
#include "onyxc_int.h"
#endif
void vp8_copy_mem16x16_c(
unsigned char *src,
int src_stride,
unsigned char *dst,
int dst_stride)
{
int r;
for (r = 0; r < 16; r++)
{
#if !(CONFIG_FAST_UNALIGNED)
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dst[0] = src[0];
dst[1] = src[1];
dst[2] = src[2];
dst[3] = src[3];
dst[4] = src[4];
dst[5] = src[5];
dst[6] = src[6];
dst[7] = src[7];
dst[8] = src[8];
dst[9] = src[9];
dst[10] = src[10];
dst[11] = src[11];
dst[12] = src[12];
dst[13] = src[13];
dst[14] = src[14];
dst[15] = src[15];
#else
((uint32_t *)dst)[0] = ((uint32_t *)src)[0] ;
((uint32_t *)dst)[1] = ((uint32_t *)src)[1] ;
((uint32_t *)dst)[2] = ((uint32_t *)src)[2] ;
((uint32_t *)dst)[3] = ((uint32_t *)src)[3] ;
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#endif
src += src_stride;
dst += dst_stride;
}
}
void vp8_copy_mem8x8_c(
unsigned char *src,
int src_stride,
unsigned char *dst,
int dst_stride)
{
int r;
for (r = 0; r < 8; r++)
{
#if !(CONFIG_FAST_UNALIGNED)
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dst[0] = src[0];
dst[1] = src[1];
dst[2] = src[2];
dst[3] = src[3];
dst[4] = src[4];
dst[5] = src[5];
dst[6] = src[6];
dst[7] = src[7];
#else
((uint32_t *)dst)[0] = ((uint32_t *)src)[0] ;
((uint32_t *)dst)[1] = ((uint32_t *)src)[1] ;
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#endif
src += src_stride;
dst += dst_stride;
}
}
void vp8_copy_mem8x4_c(
unsigned char *src,
int src_stride,
unsigned char *dst,
int dst_stride)
{
int r;
for (r = 0; r < 4; r++)
{
#if !(CONFIG_FAST_UNALIGNED)
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dst[0] = src[0];
dst[1] = src[1];
dst[2] = src[2];
dst[3] = src[3];
dst[4] = src[4];
dst[5] = src[5];
dst[6] = src[6];
dst[7] = src[7];
#else
((uint32_t *)dst)[0] = ((uint32_t *)src)[0] ;
((uint32_t *)dst)[1] = ((uint32_t *)src)[1] ;
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#endif
src += src_stride;
dst += dst_stride;
}
}
void vp8_build_inter_predictors_b(BLOCKD *d, int pitch, unsigned char *base_pre, int pre_stride, vp8_subpix_fn_t sppf)
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{
int r;
unsigned char *pred_ptr = d->predictor;
unsigned char *ptr;
ptr = base_pre + d->offset + (d->bmi.mv.as_mv.row >> 3) * pre_stride + (d->bmi.mv.as_mv.col >> 3);
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if (d->bmi.mv.as_mv.row & 7 || d->bmi.mv.as_mv.col & 7)
{
sppf(ptr, pre_stride, d->bmi.mv.as_mv.col & 7, d->bmi.mv.as_mv.row & 7, pred_ptr, pitch);
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}
else
{
for (r = 0; r < 4; r++)
{
#if !(CONFIG_FAST_UNALIGNED)
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pred_ptr[0] = ptr[0];
pred_ptr[1] = ptr[1];
pred_ptr[2] = ptr[2];
pred_ptr[3] = ptr[3];
#else
*(uint32_t *)pred_ptr = *(uint32_t *)ptr ;
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#endif
pred_ptr += pitch;
ptr += pre_stride;
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}
}
}
static void build_inter_predictors4b(MACROBLOCKD *x, BLOCKD *d, unsigned char *dst, int dst_stride, unsigned char *base_pre, int pre_stride)
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{
unsigned char *ptr;
ptr = base_pre + d->offset + (d->bmi.mv.as_mv.row >> 3) * pre_stride + (d->bmi.mv.as_mv.col >> 3);
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if (d->bmi.mv.as_mv.row & 7 || d->bmi.mv.as_mv.col & 7)
{
x->subpixel_predict8x8(ptr, pre_stride, d->bmi.mv.as_mv.col & 7, d->bmi.mv.as_mv.row & 7, dst, dst_stride);
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}
else
{
vp8_copy_mem8x8(ptr, pre_stride, dst, dst_stride);
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}
}
static void build_inter_predictors2b(MACROBLOCKD *x, BLOCKD *d, unsigned char *dst, int dst_stride, unsigned char *base_pre, int pre_stride)
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{
unsigned char *ptr;
ptr = base_pre + d->offset + (d->bmi.mv.as_mv.row >> 3) * pre_stride + (d->bmi.mv.as_mv.col >> 3);
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if (d->bmi.mv.as_mv.row & 7 || d->bmi.mv.as_mv.col & 7)
{
x->subpixel_predict8x4(ptr, pre_stride, d->bmi.mv.as_mv.col & 7, d->bmi.mv.as_mv.row & 7, dst, dst_stride);
}
else
{
vp8_copy_mem8x4(ptr, pre_stride, dst, dst_stride);
}
}
static void build_inter_predictors_b(BLOCKD *d, unsigned char *dst, int dst_stride, unsigned char *base_pre, int pre_stride, vp8_subpix_fn_t sppf)
{
int r;
unsigned char *ptr;
ptr = base_pre + d->offset + (d->bmi.mv.as_mv.row >> 3) * pre_stride + (d->bmi.mv.as_mv.col >> 3);
if (d->bmi.mv.as_mv.row & 7 || d->bmi.mv.as_mv.col & 7)
{
sppf(ptr, pre_stride, d->bmi.mv.as_mv.col & 7, d->bmi.mv.as_mv.row & 7, dst, dst_stride);
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}
else
{
for (r = 0; r < 4; r++)
{
#if !(CONFIG_FAST_UNALIGNED)
dst[0] = ptr[0];
dst[1] = ptr[1];
dst[2] = ptr[2];
dst[3] = ptr[3];
#else
*(uint32_t *)dst = *(uint32_t *)ptr ;
#endif
dst += dst_stride;
ptr += pre_stride;
}
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}
}
/*encoder only*/
void vp8_build_inter16x16_predictors_mbuv(MACROBLOCKD *x)
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{
unsigned char *uptr, *vptr;
unsigned char *upred_ptr = &x->predictor[256];
unsigned char *vpred_ptr = &x->predictor[320];
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int mv_row = x->mode_info_context->mbmi.mv.as_mv.row;
int mv_col = x->mode_info_context->mbmi.mv.as_mv.col;
int offset;
int pre_stride = x->pre.uv_stride;
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/* calc uv motion vectors */
mv_row += 1 | (mv_row >> (sizeof(int) * CHAR_BIT - 1));
mv_col += 1 | (mv_col >> (sizeof(int) * CHAR_BIT - 1));
mv_row /= 2;
mv_col /= 2;
mv_row &= x->fullpixel_mask;
mv_col &= x->fullpixel_mask;
offset = (mv_row >> 3) * pre_stride + (mv_col >> 3);
uptr = x->pre.u_buffer + offset;
vptr = x->pre.v_buffer + offset;
if ((mv_row | mv_col) & 7)
{
x->subpixel_predict8x8(uptr, pre_stride, mv_col & 7, mv_row & 7, upred_ptr, 8);
x->subpixel_predict8x8(vptr, pre_stride, mv_col & 7, mv_row & 7, vpred_ptr, 8);
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}
else
{
vp8_copy_mem8x8(uptr, pre_stride, upred_ptr, 8);
vp8_copy_mem8x8(vptr, pre_stride, vpred_ptr, 8);
}
}
/*encoder only*/
void vp8_build_inter4x4_predictors_mbuv(MACROBLOCKD *x)
{
int i, j;
int pre_stride = x->pre.uv_stride;
unsigned char *base_pre;
/* build uv mvs */
for (i = 0; i < 2; i++)
{
for (j = 0; j < 2; j++)
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{
int yoffset = i * 8 + j * 2;
int uoffset = 16 + i * 2 + j;
int voffset = 20 + i * 2 + j;
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int temp;
temp = x->block[yoffset ].bmi.mv.as_mv.row
+ x->block[yoffset+1].bmi.mv.as_mv.row
+ x->block[yoffset+4].bmi.mv.as_mv.row
+ x->block[yoffset+5].bmi.mv.as_mv.row;
temp += 4 + ((temp >> (sizeof(int) * CHAR_BIT - 1)) << 3);
x->block[uoffset].bmi.mv.as_mv.row = (temp / 8) & x->fullpixel_mask;
temp = x->block[yoffset ].bmi.mv.as_mv.col
+ x->block[yoffset+1].bmi.mv.as_mv.col
+ x->block[yoffset+4].bmi.mv.as_mv.col
+ x->block[yoffset+5].bmi.mv.as_mv.col;
temp += 4 + ((temp >> (sizeof(int) * CHAR_BIT - 1)) << 3);
x->block[uoffset].bmi.mv.as_mv.col = (temp / 8) & x->fullpixel_mask;
x->block[voffset].bmi.mv.as_int = x->block[uoffset].bmi.mv.as_int;
}
}
base_pre = x->pre.u_buffer;
for (i = 16; i < 20; i += 2)
{
BLOCKD *d0 = &x->block[i];
BLOCKD *d1 = &x->block[i+1];
if (d0->bmi.mv.as_int == d1->bmi.mv.as_int)
build_inter_predictors2b(x, d0, d0->predictor, 8, base_pre, pre_stride);
else
{
vp8_build_inter_predictors_b(d0, 8, base_pre, pre_stride, x->subpixel_predict);
vp8_build_inter_predictors_b(d1, 8, base_pre, pre_stride, x->subpixel_predict);
}
}
base_pre = x->pre.v_buffer;
for (i = 20; i < 24; i += 2)
{
BLOCKD *d0 = &x->block[i];
BLOCKD *d1 = &x->block[i+1];
if (d0->bmi.mv.as_int == d1->bmi.mv.as_int)
build_inter_predictors2b(x, d0, d0->predictor, 8, base_pre, pre_stride);
else
{
vp8_build_inter_predictors_b(d0, 8, base_pre, pre_stride, x->subpixel_predict);
vp8_build_inter_predictors_b(d1, 8, base_pre, pre_stride, x->subpixel_predict);
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}
}
}
/*encoder only*/
void vp8_build_inter16x16_predictors_mby(MACROBLOCKD *x,
unsigned char *dst_y,
int dst_ystride)
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{
unsigned char *ptr_base;
unsigned char *ptr;
int mv_row = x->mode_info_context->mbmi.mv.as_mv.row;
int mv_col = x->mode_info_context->mbmi.mv.as_mv.col;
int pre_stride = x->pre.y_stride;
ptr_base = x->pre.y_buffer;
ptr = ptr_base + (mv_row >> 3) * pre_stride + (mv_col >> 3);
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if ((mv_row | mv_col) & 7)
{
x->subpixel_predict16x16(ptr, pre_stride, mv_col & 7, mv_row & 7,
dst_y, dst_ystride);
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}
else
{
vp8_copy_mem16x16(ptr, pre_stride, dst_y,
dst_ystride);
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}
}
static void clamp_mv_to_umv_border(MV *mv, const MACROBLOCKD *xd)
{
/* If the MV points so far into the UMV border that no visible pixels
* are used for reconstruction, the subpel part of the MV can be
* discarded and the MV limited to 16 pixels with equivalent results.
*
* This limit kicks in at 19 pixels for the top and left edges, for
* the 16 pixels plus 3 taps right of the central pixel when subpel
* filtering. The bottom and right edges use 16 pixels plus 2 pixels
* left of the central pixel when filtering.
*/
if (mv->col < (xd->mb_to_left_edge - (19 << 3)))
mv->col = xd->mb_to_left_edge - (16 << 3);
else if (mv->col > xd->mb_to_right_edge + (18 << 3))
mv->col = xd->mb_to_right_edge + (16 << 3);
if (mv->row < (xd->mb_to_top_edge - (19 << 3)))
mv->row = xd->mb_to_top_edge - (16 << 3);
else if (mv->row > xd->mb_to_bottom_edge + (18 << 3))
mv->row = xd->mb_to_bottom_edge + (16 << 3);
}
/* A version of the above function for chroma block MVs.*/
static void clamp_uvmv_to_umv_border(MV *mv, const MACROBLOCKD *xd)
{
mv->col = (2*mv->col < (xd->mb_to_left_edge - (19 << 3))) ?
(xd->mb_to_left_edge - (16 << 3)) >> 1 : mv->col;
mv->col = (2*mv->col > xd->mb_to_right_edge + (18 << 3)) ?
(xd->mb_to_right_edge + (16 << 3)) >> 1 : mv->col;
mv->row = (2*mv->row < (xd->mb_to_top_edge - (19 << 3))) ?
(xd->mb_to_top_edge - (16 << 3)) >> 1 : mv->row;
mv->row = (2*mv->row > xd->mb_to_bottom_edge + (18 << 3)) ?
(xd->mb_to_bottom_edge + (16 << 3)) >> 1 : mv->row;
}
void vp8_build_inter16x16_predictors_mb(MACROBLOCKD *x,
unsigned char *dst_y,
unsigned char *dst_u,
unsigned char *dst_v,
int dst_ystride,
int dst_uvstride)
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{
int offset;
unsigned char *ptr;
unsigned char *uptr, *vptr;
int_mv _16x16mv;
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unsigned char *ptr_base = x->pre.y_buffer;
int pre_stride = x->pre.y_stride;
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_16x16mv.as_int = x->mode_info_context->mbmi.mv.as_int;
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if (x->mode_info_context->mbmi.need_to_clamp_mvs)
{
clamp_mv_to_umv_border(&_16x16mv.as_mv, x);
}
ptr = ptr_base + ( _16x16mv.as_mv.row >> 3) * pre_stride + (_16x16mv.as_mv.col >> 3);
if ( _16x16mv.as_int & 0x00070007)
{
x->subpixel_predict16x16(ptr, pre_stride, _16x16mv.as_mv.col & 7, _16x16mv.as_mv.row & 7, dst_y, dst_ystride);
}
else
{
vp8_copy_mem16x16(ptr, pre_stride, dst_y, dst_ystride);
}
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/* calc uv motion vectors */
_16x16mv.as_mv.row += 1 | (_16x16mv.as_mv.row >> (sizeof(int) * CHAR_BIT - 1));
_16x16mv.as_mv.col += 1 | (_16x16mv.as_mv.col >> (sizeof(int) * CHAR_BIT - 1));
_16x16mv.as_mv.row /= 2;
_16x16mv.as_mv.col /= 2;
_16x16mv.as_mv.row &= x->fullpixel_mask;
_16x16mv.as_mv.col &= x->fullpixel_mask;
pre_stride >>= 1;
offset = ( _16x16mv.as_mv.row >> 3) * pre_stride + (_16x16mv.as_mv.col >> 3);
uptr = x->pre.u_buffer + offset;
vptr = x->pre.v_buffer + offset;
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if ( _16x16mv.as_int & 0x00070007)
{
x->subpixel_predict8x8(uptr, pre_stride, _16x16mv.as_mv.col & 7, _16x16mv.as_mv.row & 7, dst_u, dst_uvstride);
x->subpixel_predict8x8(vptr, pre_stride, _16x16mv.as_mv.col & 7, _16x16mv.as_mv.row & 7, dst_v, dst_uvstride);
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}
else
{
vp8_copy_mem8x8(uptr, pre_stride, dst_u, dst_uvstride);
vp8_copy_mem8x8(vptr, pre_stride, dst_v, dst_uvstride);
}
}
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static void build_inter4x4_predictors_mb(MACROBLOCKD *x)
{
int i;
unsigned char *base_dst = x->dst.y_buffer;
unsigned char *base_pre = x->pre.y_buffer;
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if (x->mode_info_context->mbmi.partitioning < 3)
{
BLOCKD *b;
int dst_stride = x->dst.y_stride;
x->block[ 0].bmi = x->mode_info_context->bmi[ 0];
x->block[ 2].bmi = x->mode_info_context->bmi[ 2];
x->block[ 8].bmi = x->mode_info_context->bmi[ 8];
x->block[10].bmi = x->mode_info_context->bmi[10];
if (x->mode_info_context->mbmi.need_to_clamp_mvs)
{
clamp_mv_to_umv_border(&x->block[ 0].bmi.mv.as_mv, x);
clamp_mv_to_umv_border(&x->block[ 2].bmi.mv.as_mv, x);
clamp_mv_to_umv_border(&x->block[ 8].bmi.mv.as_mv, x);
clamp_mv_to_umv_border(&x->block[10].bmi.mv.as_mv, x);
}
b = &x->block[ 0];
build_inter_predictors4b(x, b, base_dst + b->offset, dst_stride, base_pre, dst_stride);
b = &x->block[ 2];
build_inter_predictors4b(x, b, base_dst + b->offset, dst_stride, base_pre, dst_stride);
b = &x->block[ 8];
build_inter_predictors4b(x, b, base_dst + b->offset, dst_stride, base_pre, dst_stride);
b = &x->block[10];
build_inter_predictors4b(x, b, base_dst + b->offset, dst_stride, base_pre, dst_stride);
}
else
{
for (i = 0; i < 16; i += 2)
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{
BLOCKD *d0 = &x->block[i];
BLOCKD *d1 = &x->block[i+1];
int dst_stride = x->dst.y_stride;
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x->block[i+0].bmi = x->mode_info_context->bmi[i+0];
x->block[i+1].bmi = x->mode_info_context->bmi[i+1];
if (x->mode_info_context->mbmi.need_to_clamp_mvs)
{
clamp_mv_to_umv_border(&x->block[i+0].bmi.mv.as_mv, x);
clamp_mv_to_umv_border(&x->block[i+1].bmi.mv.as_mv, x);
}
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if (d0->bmi.mv.as_int == d1->bmi.mv.as_int)
build_inter_predictors2b(x, d0, base_dst + d0->offset, dst_stride, base_pre, dst_stride);
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else
{
build_inter_predictors_b(d0, base_dst + d0->offset, dst_stride, base_pre, dst_stride, x->subpixel_predict);
build_inter_predictors_b(d1, base_dst + d1->offset, dst_stride, base_pre, dst_stride, x->subpixel_predict);
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}
}
}
base_dst = x->dst.u_buffer;
base_pre = x->pre.u_buffer;
for (i = 16; i < 20; i += 2)
{
BLOCKD *d0 = &x->block[i];
BLOCKD *d1 = &x->block[i+1];
int dst_stride = x->dst.uv_stride;
/* Note: uv mvs already clamped in build_4x4uvmvs() */
if (d0->bmi.mv.as_int == d1->bmi.mv.as_int)
build_inter_predictors2b(x, d0, base_dst + d0->offset, dst_stride, base_pre, dst_stride);
else
{
build_inter_predictors_b(d0, base_dst + d0->offset, dst_stride, base_pre, dst_stride, x->subpixel_predict);
build_inter_predictors_b(d1, base_dst + d1->offset, dst_stride, base_pre, dst_stride, x->subpixel_predict);
}
}
base_dst = x->dst.v_buffer;
base_pre = x->pre.v_buffer;
for (i = 20; i < 24; i += 2)
{
BLOCKD *d0 = &x->block[i];
BLOCKD *d1 = &x->block[i+1];
int dst_stride = x->dst.uv_stride;
/* Note: uv mvs already clamped in build_4x4uvmvs() */
if (d0->bmi.mv.as_int == d1->bmi.mv.as_int)
build_inter_predictors2b(x, d0, base_dst + d0->offset, dst_stride, base_pre, dst_stride);
else
{
build_inter_predictors_b(d0, base_dst + d0->offset, dst_stride, base_pre, dst_stride, x->subpixel_predict);
build_inter_predictors_b(d1, base_dst + d1->offset, dst_stride, base_pre, dst_stride, x->subpixel_predict);
}
}
}
static
void build_4x4uvmvs(MACROBLOCKD *x)
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{
int i, j;
for (i = 0; i < 2; i++)
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{
for (j = 0; j < 2; j++)
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{
int yoffset = i * 8 + j * 2;
int uoffset = 16 + i * 2 + j;
int voffset = 20 + i * 2 + j;
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int temp;
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temp = x->mode_info_context->bmi[yoffset + 0].mv.as_mv.row
+ x->mode_info_context->bmi[yoffset + 1].mv.as_mv.row
+ x->mode_info_context->bmi[yoffset + 4].mv.as_mv.row
+ x->mode_info_context->bmi[yoffset + 5].mv.as_mv.row;
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temp += 4 + ((temp >> (sizeof(int) * CHAR_BIT - 1)) << 3);
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x->block[uoffset].bmi.mv.as_mv.row = (temp / 8) & x->fullpixel_mask;
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temp = x->mode_info_context->bmi[yoffset + 0].mv.as_mv.col
+ x->mode_info_context->bmi[yoffset + 1].mv.as_mv.col
+ x->mode_info_context->bmi[yoffset + 4].mv.as_mv.col
+ x->mode_info_context->bmi[yoffset + 5].mv.as_mv.col;
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temp += 4 + ((temp >> (sizeof(int) * CHAR_BIT - 1)) << 3);
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x->block[uoffset].bmi.mv.as_mv.col = (temp / 8) & x->fullpixel_mask;
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if (x->mode_info_context->mbmi.need_to_clamp_mvs)
clamp_uvmv_to_umv_border(&x->block[uoffset].bmi.mv.as_mv, x);
x->block[voffset].bmi.mv.as_int = x->block[uoffset].bmi.mv.as_int;
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}
}
}
void vp8_build_inter_predictors_mb(MACROBLOCKD *xd)
{
if (xd->mode_info_context->mbmi.mode != SPLITMV)
{
vp8_build_inter16x16_predictors_mb(xd, xd->dst.y_buffer,
xd->dst.u_buffer, xd->dst.v_buffer,
xd->dst.y_stride, xd->dst.uv_stride);
}
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else
{
build_4x4uvmvs(xd);
build_inter4x4_predictors_mb(xd);
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}
}