vp9_reconinter.c 9.42 KB
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/*
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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
 *  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_filter.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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void vp9_setup_interp_filters(MACROBLOCKD *xd,
                              INTERPOLATIONFILTERTYPE mcomp_filter_type,
                              VP9_COMMON *cm) {
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  if (xd->mi_8x8 && xd->this_mi) {
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    MB_MODE_INFO *const mbmi = &xd->this_mi->mbmi;
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    set_scale_factors(xd, mbmi->ref_frame[0] - LAST_FRAME,
                          mbmi->ref_frame[1] - LAST_FRAME,
                          cm->active_ref_scale);
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  } else {
    set_scale_factors(xd, -1, -1, cm->active_ref_scale);
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  }

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  xd->subpix.filter_x = xd->subpix.filter_y =
      vp9_get_filter_kernel(mcomp_filter_type == SWITCHABLE ?
                               EIGHTTAP : mcomp_filter_type);

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  assert(((intptr_t)xd->subpix.filter_x & 0xff) == 0);
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}

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void vp9_build_inter_predictor(const uint8_t *src, int src_stride,
                               uint8_t *dst, int dst_stride,
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                               const MV *src_mv,
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                               const struct scale_factors *scale,
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                               int w, int h, int ref,
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                               const struct subpix_fn_table *subpix,
                               enum mv_precision precision) {
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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,
                     is_q4 ? src_mv->col : src_mv->col * 2 };
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  const MV32 mv = scale->scale_mv(&mv_q4, scale);
  const int subpel_x = mv.col & SUBPEL_MASK;
  const int subpel_y = mv.row & SUBPEL_MASK;

  src += (mv.row >> SUBPEL_BITS) * src_stride + (mv.col >> SUBPEL_BITS);
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  scale->predict[subpel_x != 0][subpel_y != 0][ref](
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      src, src_stride, dst, dst_stride,
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      subpix->filter_x[subpel_x], scale->x_step_q4,
      subpix->filter_y[subpel_y], scale->y_step_q4,
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      w, h);
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}

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static INLINE int round_mv_comp_q4(int value) {
  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) {
  MV res = { round_mv_comp_q4(mi->bmi[0].as_mv[idx].as_mv.row +
                              mi->bmi[1].as_mv[idx].as_mv.row +
                              mi->bmi[2].as_mv[idx].as_mv.row +
                              mi->bmi[3].as_mv[idx].as_mv.row),
             round_mv_comp_q4(mi->bmi[0].as_mv[idx].as_mv.col +
                              mi->bmi[1].as_mv[idx].as_mv.col +
                              mi->bmi[2].as_mv[idx].as_mv.col +
                              mi->bmi[3].as_mv[idx].as_mv.col) };
  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,
                             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
  // are used for reconstruction, the subpel part of the MV can be
  // 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;
  const int spel_right = spel_left - SUBPEL_SHIFTS;
  const int spel_top = (VP9_INTERP_EXTEND + bh) << SUBPEL_BITS;
  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)),
    src_mv->col * (1 << (1 - ss_x))
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  };
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  assert(ss_x <= 1);
  assert(ss_y <= 1);
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  clamp_mv(&clamped_mv,
           xd->mb_to_left_edge * (1 << (1 - ss_x)) - spel_left,
           xd->mb_to_right_edge * (1 << (1 - ss_x)) + spel_right,
           xd->mb_to_top_edge * (1 << (1 - ss_y)) - spel_top,
           xd->mb_to_bottom_edge * (1 << (1 - ss_y)) + spel_bottom);
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  return clamped_mv;
}

struct build_inter_predictors_args {
  MACROBLOCKD *xd;
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  int x, y;
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};
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static void build_inter_predictors(int plane, int block, BLOCK_SIZE bsize,
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                                   int pred_w, int pred_h,
                                   void *argv) {
  const struct build_inter_predictors_args* const arg = argv;
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  MACROBLOCKD *const xd = arg->xd;
  struct macroblockd_plane *const pd = &xd->plane[plane];
  const int bwl = b_width_log2(bsize) - pd->subsampling_x;
  const int bw = 4 << bwl;
  const int bh = plane_block_height(bsize, pd);
  const int x = 4 * (block & ((1 << bwl) - 1));
  const int y = 4 * (block >> bwl);
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  const MODE_INFO *mi = xd->this_mi;
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  const int is_compound = has_second_ref(&mi->mbmi);
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  int ref;
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  assert(x < bw);
  assert(y < bh);
  assert(mi->mbmi.sb_type < BLOCK_8X8 || 4 << pred_w == bw);
  assert(mi->mbmi.sb_type < BLOCK_8X8 || 4 << pred_h == bh);
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  for (ref = 0; ref < 1 + is_compound; ++ref) {
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    struct scale_factors *const scale = &xd->scale_factor[ref];
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    struct buf_2d *const pre_buf = &pd->pre[ref];
    struct buf_2d *const dst_buf = &pd->dst;
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    const uint8_t *const pre = pre_buf->buf + scaled_buffer_offset(x, y,
                               pre_buf->stride, scale);
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    uint8_t *const dst = dst_buf->buf + dst_buf->stride * y + x;
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    // TODO(jkoleszar): All chroma MVs in SPLITMV mode are taken as the
    // same MV (the average of the 4 luma MVs) but we could do something
    // smarter for non-4:2:0. Just punt for now, pending the changes to get
    // rid of SPLITMV mode entirely.
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    const MV mv = mi->mbmi.sb_type < BLOCK_8X8
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               ? (plane == 0 ? mi->bmi[block].as_mv[ref].as_mv
                             : mi_mv_pred_q4(mi, ref))
               : mi->mbmi.mv[ref].as_mv;
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    // TODO(jkoleszar): This clamping is done in the incorrect place for the
    // scaling case. It needs to be done on the scaled MV, not the pre-scaling
    // MV. Note however that it performs the subsampling aware scaling so
    // that the result is always q4.
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    const MV res_mv = clamp_mv_to_umv_border_sb(xd, &mv, bw, bh,
                                                pd->subsampling_x,
                                                pd->subsampling_y);

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    scale->set_scaled_offsets(scale, arg->y + y, arg->x + x);
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    vp9_build_inter_predictor(pre, pre_buf->stride, dst, dst_buf->stride,
                              &res_mv, scale,
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                              4 << pred_w, 4 << pred_h, ref,
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                              &xd->subpix, MV_PRECISION_Q4);
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  }
}
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// TODO(jkoleszar): In principle, pred_w, pred_h are unnecessary, as we could
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// calculate the subsampled BLOCK_SIZE, but that type isn't defined for
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// sizes smaller than 16x16 yet.
typedef void (*foreach_predicted_block_visitor)(int plane, int block,
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                                                BLOCK_SIZE bsize,
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                                                int pred_w, int pred_h,
                                                void *arg);
static INLINE void foreach_predicted_block_in_plane(
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    const MACROBLOCKD* const xd, BLOCK_SIZE bsize, int plane,
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    foreach_predicted_block_visitor visit, void *arg) {
  const int bwl = b_width_log2(bsize) - xd->plane[plane].subsampling_x;
  const int bhl = b_height_log2(bsize) - xd->plane[plane].subsampling_y;

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  if (xd->this_mi->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 < 1 << bhl; ++y)
      for (x = 0; x < 1 << bwl; ++x)
        visit(plane, i++, bsize, 0, 0, arg);
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  } else {
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    visit(plane, 0, bsize, bwl, bhl, arg);
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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,
                                              int plane_from, int plane_to) {
  int plane;
  for (plane = plane_from; plane <= plane_to; ++plane) {
    struct build_inter_predictors_args args = {
      xd, mi_col * MI_SIZE, mi_row * MI_SIZE,
    };
    foreach_predicted_block_in_plane(xd, bsize, plane, build_inter_predictors,
                                     &args);
  }
}

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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_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,
                                    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,
                                    MAX_MB_PLANE - 1);
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}
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// TODO(dkovalev: find better place for this function)
void vp9_setup_scale_factors(VP9_COMMON *cm, int i) {
  const int ref = cm->active_ref_idx[i];
  struct scale_factors *const sf = &cm->active_ref_scale[i];
  if (ref >= NUM_YV12_BUFFERS) {
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    vp9_zero(*sf);
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  } else {
    YV12_BUFFER_CONFIG *const fb = &cm->yv12_fb[ref];
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    vp9_setup_scale_factors_for_frame(sf,
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                                      fb->y_crop_width, fb->y_crop_height,
                                      cm->width, cm->height);
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    if (vp9_is_scaled(sf))
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      vp9_extend_frame_borders(fb, cm->subsampling_x, cm->subsampling_y);
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  }
}