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      1 /*
      2  *  Copyright (c) 2010 The WebM project authors. All Rights Reserved.
      3  *
      4  *  Use of this source code is governed by a BSD-style license
      5  *  that can be found in the LICENSE file in the root of the source
      6  *  tree. An additional intellectual property rights grant can be found
      7  *  in the file PATENTS.  All contributing project authors may
      8  *  be found in the AUTHORS file in the root of the source tree.
      9  */
     10 
     11 #include <assert.h>
     12 #include <limits.h>
     13 #include "vp9/common/vp9_onyxc_int.h"
     14 #include "vp9/encoder/vp9_onyx_int.h"
     15 #include "vp9/encoder/vp9_picklpf.h"
     16 #include "vp9/encoder/vp9_quantize.h"
     17 #include "vpx_mem/vpx_mem.h"
     18 #include "vpx_scale/vpx_scale.h"
     19 #include "vp9/common/vp9_alloccommon.h"
     20 #include "vp9/common/vp9_loopfilter.h"
     21 #include "./vpx_scale_rtcd.h"
     22 
     23 void vp9_yv12_copy_partial_frame_c(YV12_BUFFER_CONFIG *src_ybc,
     24                                    YV12_BUFFER_CONFIG *dst_ybc, int fraction) {
     25   const int height = src_ybc->y_height;
     26   const int stride = src_ybc->y_stride;
     27   const int offset = stride * ((height >> 5) * 16 - 8);
     28   const int lines_to_copy = MAX(height >> (fraction + 4), 1) << 4;
     29 
     30   assert(src_ybc->y_stride == dst_ybc->y_stride);
     31   vpx_memcpy(dst_ybc->y_buffer + offset, src_ybc->y_buffer + offset,
     32              stride * (lines_to_copy + 16));
     33 }
     34 
     35 static int calc_partial_ssl_err(YV12_BUFFER_CONFIG *source,
     36                                 YV12_BUFFER_CONFIG *dest, int Fraction) {
     37   int i, j;
     38   int Total = 0;
     39   int srcoffset, dstoffset;
     40   uint8_t *src = source->y_buffer;
     41   uint8_t *dst = dest->y_buffer;
     42 
     43   int linestocopy = (source->y_height >> (Fraction + 4));
     44 
     45   if (linestocopy < 1)
     46     linestocopy = 1;
     47 
     48   linestocopy <<= 4;
     49 
     50 
     51   srcoffset = source->y_stride   * (dest->y_height >> 5) * 16;
     52   dstoffset = dest->y_stride     * (dest->y_height >> 5) * 16;
     53 
     54   src += srcoffset;
     55   dst += dstoffset;
     56 
     57   // Loop through the raw Y plane and reconstruction data summing the square
     58   // differences.
     59   for (i = 0; i < linestocopy; i += 16) {
     60     for (j = 0; j < source->y_width; j += 16) {
     61       unsigned int sse;
     62       Total += vp9_mse16x16(src + j, source->y_stride, dst + j, dest->y_stride,
     63                             &sse);
     64     }
     65 
     66     src += 16 * source->y_stride;
     67     dst += 16 * dest->y_stride;
     68   }
     69 
     70   return Total;
     71 }
     72 
     73 // Enforce a minimum filter level based upon baseline Q
     74 static int get_min_filter_level(VP9_COMP *cpi, int base_qindex) {
     75   int min_filter_level;
     76   min_filter_level = 0;
     77 
     78   return min_filter_level;
     79 }
     80 
     81 // Enforce a maximum filter level based upon baseline Q
     82 static int get_max_filter_level(VP9_COMP *cpi, int base_qindex) {
     83   int max_filter_level = MAX_LOOP_FILTER;
     84   (void)base_qindex;
     85 
     86   if (cpi->twopass.section_intra_rating > 8)
     87     max_filter_level = MAX_LOOP_FILTER * 3 / 4;
     88 
     89   return max_filter_level;
     90 }
     91 
     92 
     93 // Stub function for now Alt LF not used
     94 void vp9_set_alt_lf_level(VP9_COMP *cpi, int filt_val) {
     95 }
     96 
     97 void vp9_pick_filter_level(YV12_BUFFER_CONFIG *sd, VP9_COMP *cpi, int partial) {
     98   VP9_COMMON *const cm = &cpi->common;
     99   struct loopfilter *const lf = &cm->lf;
    100 
    101   int best_err = 0;
    102   int filt_err = 0;
    103   const int min_filter_level = get_min_filter_level(cpi, cm->base_qindex);
    104   const int max_filter_level = get_max_filter_level(cpi, cm->base_qindex);
    105 
    106   int filter_step;
    107   int filt_high = 0;
    108   // Start search at previous frame filter level
    109   int filt_mid = lf->filter_level;
    110   int filt_low = 0;
    111   int filt_best;
    112   int filt_direction = 0;
    113 
    114   int Bias = 0;  // Bias against raising loop filter in favor of lowering it.
    115 
    116   //  Make a copy of the unfiltered / processed recon buffer
    117   vpx_yv12_copy_y(cm->frame_to_show, &cpi->last_frame_uf);
    118 
    119   lf->sharpness_level = cm->frame_type == KEY_FRAME ? 0
    120                                                     : cpi->oxcf.Sharpness;
    121 
    122   // Start the search at the previous frame filter level unless it is now out of
    123   // range.
    124   filt_mid = clamp(lf->filter_level, min_filter_level, max_filter_level);
    125 
    126   // Define the initial step size
    127   filter_step = filt_mid < 16 ? 4 : filt_mid / 4;
    128 
    129   // Get baseline error score
    130   vp9_set_alt_lf_level(cpi, filt_mid);
    131   vp9_loop_filter_frame(cm, &cpi->mb.e_mbd, filt_mid, 1, partial);
    132 
    133   best_err = vp9_calc_ss_err(sd, cm->frame_to_show);
    134   filt_best = filt_mid;
    135 
    136   //  Re-instate the unfiltered frame
    137   vpx_yv12_copy_y(&cpi->last_frame_uf, cm->frame_to_show);
    138 
    139   while (filter_step > 0) {
    140     Bias = (best_err >> (15 - (filt_mid / 8))) * filter_step;
    141 
    142     if (cpi->twopass.section_intra_rating < 20)
    143       Bias = Bias * cpi->twopass.section_intra_rating / 20;
    144 
    145     // yx, bias less for large block size
    146     if (cpi->common.tx_mode != ONLY_4X4)
    147       Bias >>= 1;
    148 
    149     filt_high = ((filt_mid + filter_step) > max_filter_level)
    150                     ? max_filter_level
    151                     : (filt_mid + filter_step);
    152     filt_low = ((filt_mid - filter_step) < min_filter_level)
    153                    ? min_filter_level
    154                    : (filt_mid - filter_step);
    155 
    156     if ((filt_direction <= 0) && (filt_low != filt_mid)) {
    157       // Get Low filter error score
    158       vp9_set_alt_lf_level(cpi, filt_low);
    159       vp9_loop_filter_frame(cm, &cpi->mb.e_mbd, filt_low, 1, partial);
    160 
    161       filt_err = vp9_calc_ss_err(sd, cm->frame_to_show);
    162 
    163       //  Re-instate the unfiltered frame
    164       vpx_yv12_copy_y(&cpi->last_frame_uf, cm->frame_to_show);
    165 
    166       // If value is close to the best so far then bias towards a lower loop
    167       // filter value.
    168       if ((filt_err - Bias) < best_err) {
    169         // Was it actually better than the previous best?
    170         if (filt_err < best_err)
    171           best_err = filt_err;
    172 
    173         filt_best = filt_low;
    174       }
    175     }
    176 
    177     // Now look at filt_high
    178     if ((filt_direction >= 0) && (filt_high != filt_mid)) {
    179       vp9_set_alt_lf_level(cpi, filt_high);
    180       vp9_loop_filter_frame(cm, &cpi->mb.e_mbd, filt_high, 1, partial);
    181 
    182       filt_err = vp9_calc_ss_err(sd, cm->frame_to_show);
    183 
    184       //  Re-instate the unfiltered frame
    185       vpx_yv12_copy_y(&cpi->last_frame_uf, cm->frame_to_show);
    186 
    187       // Was it better than the previous best?
    188       if (filt_err < (best_err - Bias)) {
    189         best_err = filt_err;
    190         filt_best = filt_high;
    191       }
    192     }
    193 
    194     // Half the step distance if the best filter value was the same as last time
    195     if (filt_best == filt_mid) {
    196       filter_step = filter_step / 2;
    197       filt_direction = 0;
    198     } else {
    199       filt_direction = (filt_best < filt_mid) ? -1 : 1;
    200       filt_mid = filt_best;
    201     }
    202   }
    203 
    204   lf->filter_level = filt_best;
    205 }
    206