316 строки
13 KiB
C
316 строки
13 KiB
C
/*
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* Copyright (c) 2010 The WebM project authors. All Rights Reserved.
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*
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* Use of this source code is governed by a BSD-style license
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* that can be found in the LICENSE file in the root of the source
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* tree. An additional intellectual property rights grant can be found
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* in the file PATENTS. All contributing project authors may
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* be found in the AUTHORS file in the root of the source tree.
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*/
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#include <assert.h>
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#include "./vpx_scale_rtcd.h"
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#include "./vpx_config.h"
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#include "vpx/vpx_integer.h"
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#include "vp9/common/vp9_blockd.h"
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#include "vp9/common/vp9_reconinter.h"
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#include "vp9/common/vp9_reconintra.h"
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#if CONFIG_VP9_HIGHBITDEPTH
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void high_inter_predictor(const uint8_t *src, int src_stride,
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uint8_t *dst, int dst_stride,
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const int subpel_x,
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const int subpel_y,
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const struct scale_factors *sf,
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int w, int h, int ref,
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const InterpKernel *kernel,
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int xs, int ys, int bd) {
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sf->highbd_predict[subpel_x != 0][subpel_y != 0][ref](
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src, src_stride, dst, dst_stride,
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kernel[subpel_x], xs, kernel[subpel_y], ys, w, h, bd);
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}
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void vp9_highbd_build_inter_predictor(const uint8_t *src, int src_stride,
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uint8_t *dst, int dst_stride,
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const MV *src_mv,
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const struct scale_factors *sf,
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int w, int h, int ref,
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const InterpKernel *kernel,
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enum mv_precision precision,
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int x, int y, int bd) {
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const int is_q4 = precision == MV_PRECISION_Q4;
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const MV mv_q4 = { is_q4 ? src_mv->row : src_mv->row * 2,
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is_q4 ? src_mv->col : src_mv->col * 2 };
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MV32 mv = vp9_scale_mv(&mv_q4, x, y, sf);
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const int subpel_x = mv.col & SUBPEL_MASK;
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const int subpel_y = mv.row & SUBPEL_MASK;
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src += (mv.row >> SUBPEL_BITS) * src_stride + (mv.col >> SUBPEL_BITS);
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high_inter_predictor(src, src_stride, dst, dst_stride, subpel_x, subpel_y,
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sf, w, h, ref, kernel, sf->x_step_q4, sf->y_step_q4, bd);
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}
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#endif // CONFIG_VP9_HIGHBITDEPTH
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void vp9_build_inter_predictor(const uint8_t *src, int src_stride,
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uint8_t *dst, int dst_stride,
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const MV *src_mv,
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const struct scale_factors *sf,
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int w, int h, int ref,
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const InterpKernel *kernel,
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enum mv_precision precision,
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int x, int y) {
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const int is_q4 = precision == MV_PRECISION_Q4;
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const MV mv_q4 = { is_q4 ? src_mv->row : src_mv->row * 2,
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is_q4 ? src_mv->col : src_mv->col * 2 };
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MV32 mv = vp9_scale_mv(&mv_q4, x, y, sf);
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const int subpel_x = mv.col & SUBPEL_MASK;
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const int subpel_y = mv.row & SUBPEL_MASK;
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src += (mv.row >> SUBPEL_BITS) * src_stride + (mv.col >> SUBPEL_BITS);
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inter_predictor(src, src_stride, dst, dst_stride, subpel_x, subpel_y,
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sf, w, h, ref, kernel, sf->x_step_q4, sf->y_step_q4);
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}
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static INLINE int round_mv_comp_q4(int value) {
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return (value < 0 ? value - 2 : value + 2) / 4;
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}
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static MV mi_mv_pred_q4(const MODE_INFO *mi, int idx) {
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MV res = { round_mv_comp_q4(mi->bmi[0].as_mv[idx].as_mv.row +
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mi->bmi[1].as_mv[idx].as_mv.row +
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mi->bmi[2].as_mv[idx].as_mv.row +
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mi->bmi[3].as_mv[idx].as_mv.row),
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round_mv_comp_q4(mi->bmi[0].as_mv[idx].as_mv.col +
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mi->bmi[1].as_mv[idx].as_mv.col +
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mi->bmi[2].as_mv[idx].as_mv.col +
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mi->bmi[3].as_mv[idx].as_mv.col) };
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return res;
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}
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static INLINE int round_mv_comp_q2(int value) {
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return (value < 0 ? value - 1 : value + 1) / 2;
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}
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static MV mi_mv_pred_q2(const MODE_INFO *mi, int idx, int block0, int block1) {
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MV res = { round_mv_comp_q2(mi->bmi[block0].as_mv[idx].as_mv.row +
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mi->bmi[block1].as_mv[idx].as_mv.row),
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round_mv_comp_q2(mi->bmi[block0].as_mv[idx].as_mv.col +
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mi->bmi[block1].as_mv[idx].as_mv.col) };
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return res;
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}
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// TODO(jkoleszar): yet another mv clamping function :-(
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MV clamp_mv_to_umv_border_sb(const MACROBLOCKD *xd, const MV *src_mv,
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int bw, int bh, int ss_x, int ss_y) {
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// If the MV points so far into the UMV border that no visible pixels
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// are used for reconstruction, the subpel part of the MV can be
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// discarded and the MV limited to 16 pixels with equivalent results.
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const int spel_left = (VP9_INTERP_EXTEND + bw) << SUBPEL_BITS;
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const int spel_right = spel_left - SUBPEL_SHIFTS;
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const int spel_top = (VP9_INTERP_EXTEND + bh) << SUBPEL_BITS;
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const int spel_bottom = spel_top - SUBPEL_SHIFTS;
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MV clamped_mv = {
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src_mv->row * (1 << (1 - ss_y)),
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src_mv->col * (1 << (1 - ss_x))
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};
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assert(ss_x <= 1);
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assert(ss_y <= 1);
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clamp_mv(&clamped_mv,
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xd->mb_to_left_edge * (1 << (1 - ss_x)) - spel_left,
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xd->mb_to_right_edge * (1 << (1 - ss_x)) + spel_right,
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xd->mb_to_top_edge * (1 << (1 - ss_y)) - spel_top,
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xd->mb_to_bottom_edge * (1 << (1 - ss_y)) + spel_bottom);
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return clamped_mv;
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}
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MV average_split_mvs(const struct macroblockd_plane *pd,
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const MODE_INFO *mi, int ref, int block) {
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const int ss_idx = ((pd->subsampling_x > 0) << 1) | (pd->subsampling_y > 0);
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MV res = {0, 0};
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switch (ss_idx) {
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case 0:
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res = mi->bmi[block].as_mv[ref].as_mv;
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break;
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case 1:
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res = mi_mv_pred_q2(mi, ref, block, block + 2);
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break;
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case 2:
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res = mi_mv_pred_q2(mi, ref, block, block + 1);
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break;
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case 3:
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res = mi_mv_pred_q4(mi, ref);
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break;
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default:
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assert(ss_idx <= 3 && ss_idx >= 0);
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}
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return res;
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}
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static void build_inter_predictors(MACROBLOCKD *xd, int plane, int block,
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int bw, int bh,
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int x, int y, int w, int h,
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int mi_x, int mi_y) {
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struct macroblockd_plane *const pd = &xd->plane[plane];
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const MODE_INFO *mi = xd->mi[0];
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const int is_compound = has_second_ref(&mi->mbmi);
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const InterpKernel *kernel = vp9_filter_kernels[mi->mbmi.interp_filter];
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int ref;
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for (ref = 0; ref < 1 + is_compound; ++ref) {
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const struct scale_factors *const sf = &xd->block_refs[ref]->sf;
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struct buf_2d *const pre_buf = &pd->pre[ref];
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struct buf_2d *const dst_buf = &pd->dst;
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uint8_t *const dst = dst_buf->buf + dst_buf->stride * y + x;
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const MV mv = mi->mbmi.sb_type < BLOCK_8X8
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? average_split_mvs(pd, mi, ref, block)
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: mi->mbmi.mv[ref].as_mv;
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// TODO(jkoleszar): This clamping is done in the incorrect place for the
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// scaling case. It needs to be done on the scaled MV, not the pre-scaling
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// MV. Note however that it performs the subsampling aware scaling so
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// that the result is always q4.
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// mv_precision precision is MV_PRECISION_Q4.
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const MV mv_q4 = clamp_mv_to_umv_border_sb(xd, &mv, bw, bh,
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pd->subsampling_x,
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pd->subsampling_y);
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uint8_t *pre;
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MV32 scaled_mv;
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int xs, ys, subpel_x, subpel_y;
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const int is_scaled = vp9_is_scaled(sf);
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if (is_scaled) {
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// Co-ordinate of containing block to pixel precision.
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const int x_start = (-xd->mb_to_left_edge >> (3 + pd->subsampling_x));
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const int y_start = (-xd->mb_to_top_edge >> (3 + pd->subsampling_y));
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if (plane == 0)
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pre_buf->buf = xd->block_refs[ref]->buf->y_buffer;
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else if (plane == 1)
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pre_buf->buf = xd->block_refs[ref]->buf->u_buffer;
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else
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pre_buf->buf = xd->block_refs[ref]->buf->v_buffer;
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pre_buf->buf += scaled_buffer_offset(x_start + x, y_start + y,
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pre_buf->stride, sf);
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pre = pre_buf->buf;
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scaled_mv = vp9_scale_mv(&mv_q4, mi_x + x, mi_y + y, sf);
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xs = sf->x_step_q4;
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ys = sf->y_step_q4;
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} else {
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pre = pre_buf->buf + (y * pre_buf->stride + x);
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scaled_mv.row = mv_q4.row;
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scaled_mv.col = mv_q4.col;
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xs = ys = 16;
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}
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subpel_x = scaled_mv.col & SUBPEL_MASK;
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subpel_y = scaled_mv.row & SUBPEL_MASK;
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pre += (scaled_mv.row >> SUBPEL_BITS) * pre_buf->stride
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+ (scaled_mv.col >> SUBPEL_BITS);
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#if CONFIG_VP9_HIGHBITDEPTH
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if (xd->cur_buf->flags & YV12_FLAG_HIGHBITDEPTH) {
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high_inter_predictor(pre, pre_buf->stride, dst, dst_buf->stride,
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subpel_x, subpel_y, sf, w, h, ref, kernel, xs, ys,
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xd->bd);
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} else {
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inter_predictor(pre, pre_buf->stride, dst, dst_buf->stride,
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subpel_x, subpel_y, sf, w, h, ref, kernel, xs, ys);
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}
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#else
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inter_predictor(pre, pre_buf->stride, dst, dst_buf->stride,
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subpel_x, subpel_y, sf, w, h, ref, kernel, xs, ys);
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#endif // CONFIG_VP9_HIGHBITDEPTH
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}
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}
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static void build_inter_predictors_for_planes(MACROBLOCKD *xd, BLOCK_SIZE bsize,
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int mi_row, int mi_col,
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int plane_from, int plane_to) {
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int plane;
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const int mi_x = mi_col * MI_SIZE;
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const int mi_y = mi_row * MI_SIZE;
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for (plane = plane_from; plane <= plane_to; ++plane) {
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const BLOCK_SIZE plane_bsize = get_plane_block_size(bsize,
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&xd->plane[plane]);
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const int num_4x4_w = num_4x4_blocks_wide_lookup[plane_bsize];
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const int num_4x4_h = num_4x4_blocks_high_lookup[plane_bsize];
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const int bw = 4 * num_4x4_w;
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const int bh = 4 * num_4x4_h;
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if (xd->mi[0]->mbmi.sb_type < BLOCK_8X8) {
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int i = 0, x, y;
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assert(bsize == BLOCK_8X8);
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for (y = 0; y < num_4x4_h; ++y)
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for (x = 0; x < num_4x4_w; ++x)
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build_inter_predictors(xd, plane, i++, bw, bh,
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4 * x, 4 * y, 4, 4, mi_x, mi_y);
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} else {
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build_inter_predictors(xd, plane, 0, bw, bh,
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0, 0, bw, bh, mi_x, mi_y);
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}
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}
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}
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void vp9_build_inter_predictors_sby(MACROBLOCKD *xd, int mi_row, int mi_col,
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BLOCK_SIZE bsize) {
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build_inter_predictors_for_planes(xd, bsize, mi_row, mi_col, 0, 0);
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}
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void vp9_build_inter_predictors_sbp(MACROBLOCKD *xd, int mi_row, int mi_col,
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BLOCK_SIZE bsize, int plane) {
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build_inter_predictors_for_planes(xd, bsize, mi_row, mi_col, plane, plane);
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}
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void vp9_build_inter_predictors_sbuv(MACROBLOCKD *xd, int mi_row, int mi_col,
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BLOCK_SIZE bsize) {
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build_inter_predictors_for_planes(xd, bsize, mi_row, mi_col, 1,
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MAX_MB_PLANE - 1);
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}
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void vp9_build_inter_predictors_sb(MACROBLOCKD *xd, int mi_row, int mi_col,
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BLOCK_SIZE bsize) {
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build_inter_predictors_for_planes(xd, bsize, mi_row, mi_col, 0,
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MAX_MB_PLANE - 1);
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}
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void vp9_setup_dst_planes(struct macroblockd_plane planes[MAX_MB_PLANE],
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const YV12_BUFFER_CONFIG *src,
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int mi_row, int mi_col) {
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uint8_t *const buffers[MAX_MB_PLANE] = { src->y_buffer, src->u_buffer,
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src->v_buffer};
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const int strides[MAX_MB_PLANE] = { src->y_stride, src->uv_stride,
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src->uv_stride};
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int i;
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for (i = 0; i < MAX_MB_PLANE; ++i) {
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struct macroblockd_plane *const pd = &planes[i];
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setup_pred_plane(&pd->dst, buffers[i], strides[i], mi_row, mi_col, NULL,
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pd->subsampling_x, pd->subsampling_y);
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}
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}
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void vp9_setup_pre_planes(MACROBLOCKD *xd, int idx,
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const YV12_BUFFER_CONFIG *src,
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int mi_row, int mi_col,
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const struct scale_factors *sf) {
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if (src != NULL) {
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int i;
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uint8_t *const buffers[MAX_MB_PLANE] = { src->y_buffer, src->u_buffer,
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src->v_buffer};
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const int strides[MAX_MB_PLANE] = { src->y_stride, src->uv_stride,
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src->uv_stride};
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for (i = 0; i < MAX_MB_PLANE; ++i) {
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struct macroblockd_plane *const pd = &xd->plane[i];
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setup_pred_plane(&pd->pre[idx], buffers[i], strides[i], mi_row, mi_col,
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sf, pd->subsampling_x, pd->subsampling_y);
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}
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}
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}
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