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-rw-r--r--vp10/common/loopfilter.c1656
1 files changed, 0 insertions, 1656 deletions
diff --git a/vp10/common/loopfilter.c b/vp10/common/loopfilter.c
deleted file mode 100644
index a1925de55..000000000
--- a/vp10/common/loopfilter.c
+++ /dev/null
@@ -1,1656 +0,0 @@
-/*
- * Copyright (c) 2010 The WebM project authors. All Rights Reserved.
- *
- * 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.
- */
-
-#include "./vpx_config.h"
-#include "./vpx_dsp_rtcd.h"
-#include "vp10/common/loopfilter.h"
-#include "vp10/common/onyxc_int.h"
-#include "vp10/common/reconinter.h"
-#include "vpx_dsp/vpx_dsp_common.h"
-#include "vpx_mem/vpx_mem.h"
-#include "vpx_ports/mem.h"
-
-#include "vp10/common/seg_common.h"
-
-// 64 bit masks for left transform size. Each 1 represents a position where
-// we should apply a loop filter across the left border of an 8x8 block
-// boundary.
-//
-// In the case of TX_16X16-> ( in low order byte first we end up with
-// a mask that looks like this
-//
-// 10101010
-// 10101010
-// 10101010
-// 10101010
-// 10101010
-// 10101010
-// 10101010
-// 10101010
-//
-// A loopfilter should be applied to every other 8x8 horizontally.
-static const uint64_t left_64x64_txform_mask[TX_SIZES]= {
- 0xffffffffffffffffULL, // TX_4X4
- 0xffffffffffffffffULL, // TX_8x8
- 0x5555555555555555ULL, // TX_16x16
- 0x1111111111111111ULL, // TX_32x32
-};
-
-// 64 bit masks for above transform size. Each 1 represents a position where
-// we should apply a loop filter across the top border of an 8x8 block
-// boundary.
-//
-// In the case of TX_32x32 -> ( in low order byte first we end up with
-// a mask that looks like this
-//
-// 11111111
-// 00000000
-// 00000000
-// 00000000
-// 11111111
-// 00000000
-// 00000000
-// 00000000
-//
-// A loopfilter should be applied to every other 4 the row vertically.
-static const uint64_t above_64x64_txform_mask[TX_SIZES]= {
- 0xffffffffffffffffULL, // TX_4X4
- 0xffffffffffffffffULL, // TX_8x8
- 0x00ff00ff00ff00ffULL, // TX_16x16
- 0x000000ff000000ffULL, // TX_32x32
-};
-
-// 64 bit masks for prediction sizes (left). Each 1 represents a position
-// where left border of an 8x8 block. These are aligned to the right most
-// appropriate bit, and then shifted into place.
-//
-// In the case of TX_16x32 -> ( low order byte first ) we end up with
-// a mask that looks like this :
-//
-// 10000000
-// 10000000
-// 10000000
-// 10000000
-// 00000000
-// 00000000
-// 00000000
-// 00000000
-static const uint64_t left_prediction_mask[BLOCK_SIZES] = {
- 0x0000000000000001ULL, // BLOCK_4X4,
- 0x0000000000000001ULL, // BLOCK_4X8,
- 0x0000000000000001ULL, // BLOCK_8X4,
- 0x0000000000000001ULL, // BLOCK_8X8,
- 0x0000000000000101ULL, // BLOCK_8X16,
- 0x0000000000000001ULL, // BLOCK_16X8,
- 0x0000000000000101ULL, // BLOCK_16X16,
- 0x0000000001010101ULL, // BLOCK_16X32,
- 0x0000000000000101ULL, // BLOCK_32X16,
- 0x0000000001010101ULL, // BLOCK_32X32,
- 0x0101010101010101ULL, // BLOCK_32X64,
- 0x0000000001010101ULL, // BLOCK_64X32,
- 0x0101010101010101ULL, // BLOCK_64X64
-};
-
-// 64 bit mask to shift and set for each prediction size.
-static const uint64_t above_prediction_mask[BLOCK_SIZES] = {
- 0x0000000000000001ULL, // BLOCK_4X4
- 0x0000000000000001ULL, // BLOCK_4X8
- 0x0000000000000001ULL, // BLOCK_8X4
- 0x0000000000000001ULL, // BLOCK_8X8
- 0x0000000000000001ULL, // BLOCK_8X16,
- 0x0000000000000003ULL, // BLOCK_16X8
- 0x0000000000000003ULL, // BLOCK_16X16
- 0x0000000000000003ULL, // BLOCK_16X32,
- 0x000000000000000fULL, // BLOCK_32X16,
- 0x000000000000000fULL, // BLOCK_32X32,
- 0x000000000000000fULL, // BLOCK_32X64,
- 0x00000000000000ffULL, // BLOCK_64X32,
- 0x00000000000000ffULL, // BLOCK_64X64
-};
-// 64 bit mask to shift and set for each prediction size. A bit is set for
-// each 8x8 block that would be in the left most block of the given block
-// size in the 64x64 block.
-static const uint64_t size_mask[BLOCK_SIZES] = {
- 0x0000000000000001ULL, // BLOCK_4X4
- 0x0000000000000001ULL, // BLOCK_4X8
- 0x0000000000000001ULL, // BLOCK_8X4
- 0x0000000000000001ULL, // BLOCK_8X8
- 0x0000000000000101ULL, // BLOCK_8X16,
- 0x0000000000000003ULL, // BLOCK_16X8
- 0x0000000000000303ULL, // BLOCK_16X16
- 0x0000000003030303ULL, // BLOCK_16X32,
- 0x0000000000000f0fULL, // BLOCK_32X16,
- 0x000000000f0f0f0fULL, // BLOCK_32X32,
- 0x0f0f0f0f0f0f0f0fULL, // BLOCK_32X64,
- 0x00000000ffffffffULL, // BLOCK_64X32,
- 0xffffffffffffffffULL, // BLOCK_64X64
-};
-
-// These are used for masking the left and above borders.
-static const uint64_t left_border = 0x1111111111111111ULL;
-static const uint64_t above_border = 0x000000ff000000ffULL;
-
-// 16 bit masks for uv transform sizes.
-static const uint16_t left_64x64_txform_mask_uv[TX_SIZES]= {
- 0xffff, // TX_4X4
- 0xffff, // TX_8x8
- 0x5555, // TX_16x16
- 0x1111, // TX_32x32
-};
-
-static const uint16_t above_64x64_txform_mask_uv[TX_SIZES]= {
- 0xffff, // TX_4X4
- 0xffff, // TX_8x8
- 0x0f0f, // TX_16x16
- 0x000f, // TX_32x32
-};
-
-// 16 bit left mask to shift and set for each uv prediction size.
-static const uint16_t left_prediction_mask_uv[BLOCK_SIZES] = {
- 0x0001, // BLOCK_4X4,
- 0x0001, // BLOCK_4X8,
- 0x0001, // BLOCK_8X4,
- 0x0001, // BLOCK_8X8,
- 0x0001, // BLOCK_8X16,
- 0x0001, // BLOCK_16X8,
- 0x0001, // BLOCK_16X16,
- 0x0011, // BLOCK_16X32,
- 0x0001, // BLOCK_32X16,
- 0x0011, // BLOCK_32X32,
- 0x1111, // BLOCK_32X64
- 0x0011, // BLOCK_64X32,
- 0x1111, // BLOCK_64X64
-};
-// 16 bit above mask to shift and set for uv each prediction size.
-static const uint16_t above_prediction_mask_uv[BLOCK_SIZES] = {
- 0x0001, // BLOCK_4X4
- 0x0001, // BLOCK_4X8
- 0x0001, // BLOCK_8X4
- 0x0001, // BLOCK_8X8
- 0x0001, // BLOCK_8X16,
- 0x0001, // BLOCK_16X8
- 0x0001, // BLOCK_16X16
- 0x0001, // BLOCK_16X32,
- 0x0003, // BLOCK_32X16,
- 0x0003, // BLOCK_32X32,
- 0x0003, // BLOCK_32X64,
- 0x000f, // BLOCK_64X32,
- 0x000f, // BLOCK_64X64
-};
-
-// 64 bit mask to shift and set for each uv prediction size
-static const uint16_t size_mask_uv[BLOCK_SIZES] = {
- 0x0001, // BLOCK_4X4
- 0x0001, // BLOCK_4X8
- 0x0001, // BLOCK_8X4
- 0x0001, // BLOCK_8X8
- 0x0001, // BLOCK_8X16,
- 0x0001, // BLOCK_16X8
- 0x0001, // BLOCK_16X16
- 0x0011, // BLOCK_16X32,
- 0x0003, // BLOCK_32X16,
- 0x0033, // BLOCK_32X32,
- 0x3333, // BLOCK_32X64,
- 0x00ff, // BLOCK_64X32,
- 0xffff, // BLOCK_64X64
-};
-static const uint16_t left_border_uv = 0x1111;
-static const uint16_t above_border_uv = 0x000f;
-
-static const int mode_lf_lut[MB_MODE_COUNT] = {
- 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // INTRA_MODES
- 1, 1, 0, 1 // INTER_MODES (ZEROMV == 0)
-};
-
-static void update_sharpness(loop_filter_info_n *lfi, int sharpness_lvl) {
- int lvl;
-
- // For each possible value for the loop filter fill out limits
- for (lvl = 0; lvl <= MAX_LOOP_FILTER; lvl++) {
- // Set loop filter parameters that control sharpness.
- int block_inside_limit = lvl >> ((sharpness_lvl > 0) + (sharpness_lvl > 4));
-
- if (sharpness_lvl > 0) {
- if (block_inside_limit > (9 - sharpness_lvl))
- block_inside_limit = (9 - sharpness_lvl);
- }
-
- if (block_inside_limit < 1)
- block_inside_limit = 1;
-
- memset(lfi->lfthr[lvl].lim, block_inside_limit, SIMD_WIDTH);
- memset(lfi->lfthr[lvl].mblim, (2 * (lvl + 2) + block_inside_limit),
- SIMD_WIDTH);
- }
-}
-
-static uint8_t get_filter_level(const loop_filter_info_n *lfi_n,
- const MB_MODE_INFO *mbmi) {
- return lfi_n->lvl[mbmi->segment_id][mbmi->ref_frame[0]]
- [mode_lf_lut[mbmi->mode]];
-}
-
-void vp10_loop_filter_init(VP10_COMMON *cm) {
- loop_filter_info_n *lfi = &cm->lf_info;
- struct loopfilter *lf = &cm->lf;
- int lvl;
-
- // init limits for given sharpness
- update_sharpness(lfi, lf->sharpness_level);
- lf->last_sharpness_level = lf->sharpness_level;
-
- // init hev threshold const vectors
- for (lvl = 0; lvl <= MAX_LOOP_FILTER; lvl++)
- memset(lfi->lfthr[lvl].hev_thr, (lvl >> 4), SIMD_WIDTH);
-}
-
-void vp10_loop_filter_frame_init(VP10_COMMON *cm, int default_filt_lvl) {
- int seg_id;
- // n_shift is the multiplier for lf_deltas
- // the multiplier is 1 for when filter_lvl is between 0 and 31;
- // 2 when filter_lvl is between 32 and 63
- const int scale = 1 << (default_filt_lvl >> 5);
- loop_filter_info_n *const lfi = &cm->lf_info;
- struct loopfilter *const lf = &cm->lf;
- const struct segmentation *const seg = &cm->seg;
-
- // update limits if sharpness has changed
- if (lf->last_sharpness_level != lf->sharpness_level) {
- update_sharpness(lfi, lf->sharpness_level);
- lf->last_sharpness_level = lf->sharpness_level;
- }
-
- for (seg_id = 0; seg_id < MAX_SEGMENTS; seg_id++) {
- int lvl_seg = default_filt_lvl;
- if (segfeature_active(seg, seg_id, SEG_LVL_ALT_LF)) {
- const int data = get_segdata(seg, seg_id, SEG_LVL_ALT_LF);
- lvl_seg = clamp(seg->abs_delta == SEGMENT_ABSDATA ?
- data : default_filt_lvl + data,
- 0, MAX_LOOP_FILTER);
- }
-
- if (!lf->mode_ref_delta_enabled) {
- // we could get rid of this if we assume that deltas are set to
- // zero when not in use; encoder always uses deltas
- memset(lfi->lvl[seg_id], lvl_seg, sizeof(lfi->lvl[seg_id]));
- } else {
- int ref, mode;
- const int intra_lvl = lvl_seg + lf->ref_deltas[INTRA_FRAME] * scale;
- lfi->lvl[seg_id][INTRA_FRAME][0] = clamp(intra_lvl, 0, MAX_LOOP_FILTER);
-
- for (ref = LAST_FRAME; ref < MAX_REF_FRAMES; ++ref) {
- for (mode = 0; mode < MAX_MODE_LF_DELTAS; ++mode) {
- const int inter_lvl = lvl_seg + lf->ref_deltas[ref] * scale
- + lf->mode_deltas[mode] * scale;
- lfi->lvl[seg_id][ref][mode] = clamp(inter_lvl, 0, MAX_LOOP_FILTER);
- }
- }
- }
- }
-}
-
-static void filter_selectively_vert_row2(int subsampling_factor,
- uint8_t *s, int pitch,
- unsigned int mask_16x16_l,
- unsigned int mask_8x8_l,
- unsigned int mask_4x4_l,
- unsigned int mask_4x4_int_l,
- const loop_filter_info_n *lfi_n,
- const uint8_t *lfl) {
- const int mask_shift = subsampling_factor ? 4 : 8;
- const int mask_cutoff = subsampling_factor ? 0xf : 0xff;
- const int lfl_forward = subsampling_factor ? 4 : 8;
-
- unsigned int mask_16x16_0 = mask_16x16_l & mask_cutoff;
- unsigned int mask_8x8_0 = mask_8x8_l & mask_cutoff;
- unsigned int mask_4x4_0 = mask_4x4_l & mask_cutoff;
- unsigned int mask_4x4_int_0 = mask_4x4_int_l & mask_cutoff;
- unsigned int mask_16x16_1 = (mask_16x16_l >> mask_shift) & mask_cutoff;
- unsigned int mask_8x8_1 = (mask_8x8_l >> mask_shift) & mask_cutoff;
- unsigned int mask_4x4_1 = (mask_4x4_l >> mask_shift) & mask_cutoff;
- unsigned int mask_4x4_int_1 = (mask_4x4_int_l >> mask_shift) & mask_cutoff;
- unsigned int mask;
-
- for (mask = mask_16x16_0 | mask_8x8_0 | mask_4x4_0 | mask_4x4_int_0 |
- mask_16x16_1 | mask_8x8_1 | mask_4x4_1 | mask_4x4_int_1;
- mask; mask >>= 1) {
- const loop_filter_thresh *lfi0 = lfi_n->lfthr + *lfl;
- const loop_filter_thresh *lfi1 = lfi_n->lfthr + *(lfl + lfl_forward);
-
- // TODO(yunqingwang): count in loopfilter functions should be removed.
- if (mask & 1) {
- if ((mask_16x16_0 | mask_16x16_1) & 1) {
- if ((mask_16x16_0 & mask_16x16_1) & 1) {
- vpx_lpf_vertical_16_dual(s, pitch, lfi0->mblim, lfi0->lim,
- lfi0->hev_thr);
- } else if (mask_16x16_0 & 1) {
- vpx_lpf_vertical_16(s, pitch, lfi0->mblim, lfi0->lim,
- lfi0->hev_thr);
- } else {
- vpx_lpf_vertical_16(s + 8 *pitch, pitch, lfi1->mblim,
- lfi1->lim, lfi1->hev_thr);
- }
- }
-
- if ((mask_8x8_0 | mask_8x8_1) & 1) {
- if ((mask_8x8_0 & mask_8x8_1) & 1) {
- vpx_lpf_vertical_8_dual(s, pitch, lfi0->mblim, lfi0->lim,
- lfi0->hev_thr, lfi1->mblim, lfi1->lim,
- lfi1->hev_thr);
- } else if (mask_8x8_0 & 1) {
- vpx_lpf_vertical_8(s, pitch, lfi0->mblim, lfi0->lim, lfi0->hev_thr,
- 1);
- } else {
- vpx_lpf_vertical_8(s + 8 * pitch, pitch, lfi1->mblim, lfi1->lim,
- lfi1->hev_thr, 1);
- }
- }
-
- if ((mask_4x4_0 | mask_4x4_1) & 1) {
- if ((mask_4x4_0 & mask_4x4_1) & 1) {
- vpx_lpf_vertical_4_dual(s, pitch, lfi0->mblim, lfi0->lim,
- lfi0->hev_thr, lfi1->mblim, lfi1->lim,
- lfi1->hev_thr);
- } else if (mask_4x4_0 & 1) {
- vpx_lpf_vertical_4(s, pitch, lfi0->mblim, lfi0->lim, lfi0->hev_thr,
- 1);
- } else {
- vpx_lpf_vertical_4(s + 8 * pitch, pitch, lfi1->mblim, lfi1->lim,
- lfi1->hev_thr, 1);
- }
- }
-
- if ((mask_4x4_int_0 | mask_4x4_int_1) & 1) {
- if ((mask_4x4_int_0 & mask_4x4_int_1) & 1) {
- vpx_lpf_vertical_4_dual(s + 4, pitch, lfi0->mblim, lfi0->lim,
- lfi0->hev_thr, lfi1->mblim, lfi1->lim,
- lfi1->hev_thr);
- } else if (mask_4x4_int_0 & 1) {
- vpx_lpf_vertical_4(s + 4, pitch, lfi0->mblim, lfi0->lim,
- lfi0->hev_thr, 1);
- } else {
- vpx_lpf_vertical_4(s + 8 * pitch + 4, pitch, lfi1->mblim, lfi1->lim,
- lfi1->hev_thr, 1);
- }
- }
- }
-
- s += 8;
- lfl += 1;
- mask_16x16_0 >>= 1;
- mask_8x8_0 >>= 1;
- mask_4x4_0 >>= 1;
- mask_4x4_int_0 >>= 1;
- mask_16x16_1 >>= 1;
- mask_8x8_1 >>= 1;
- mask_4x4_1 >>= 1;
- mask_4x4_int_1 >>= 1;
- }
-}
-
-#if CONFIG_VP9_HIGHBITDEPTH
-static void highbd_filter_selectively_vert_row2(int subsampling_factor,
- uint16_t *s, int pitch,
- unsigned int mask_16x16_l,
- unsigned int mask_8x8_l,
- unsigned int mask_4x4_l,
- unsigned int mask_4x4_int_l,
- const loop_filter_info_n *lfi_n,
- const uint8_t *lfl, int bd) {
- const int mask_shift = subsampling_factor ? 4 : 8;
- const int mask_cutoff = subsampling_factor ? 0xf : 0xff;
- const int lfl_forward = subsampling_factor ? 4 : 8;
-
- unsigned int mask_16x16_0 = mask_16x16_l & mask_cutoff;
- unsigned int mask_8x8_0 = mask_8x8_l & mask_cutoff;
- unsigned int mask_4x4_0 = mask_4x4_l & mask_cutoff;
- unsigned int mask_4x4_int_0 = mask_4x4_int_l & mask_cutoff;
- unsigned int mask_16x16_1 = (mask_16x16_l >> mask_shift) & mask_cutoff;
- unsigned int mask_8x8_1 = (mask_8x8_l >> mask_shift) & mask_cutoff;
- unsigned int mask_4x4_1 = (mask_4x4_l >> mask_shift) & mask_cutoff;
- unsigned int mask_4x4_int_1 = (mask_4x4_int_l >> mask_shift) & mask_cutoff;
- unsigned int mask;
-
- for (mask = mask_16x16_0 | mask_8x8_0 | mask_4x4_0 | mask_4x4_int_0 |
- mask_16x16_1 | mask_8x8_1 | mask_4x4_1 | mask_4x4_int_1;
- mask; mask >>= 1) {
- const loop_filter_thresh *lfi0 = lfi_n->lfthr + *lfl;
- const loop_filter_thresh *lfi1 = lfi_n->lfthr + *(lfl + lfl_forward);
-
- // TODO(yunqingwang): count in loopfilter functions should be removed.
- if (mask & 1) {
- if ((mask_16x16_0 | mask_16x16_1) & 1) {
- if ((mask_16x16_0 & mask_16x16_1) & 1) {
- vpx_highbd_lpf_vertical_16_dual(s, pitch, lfi0->mblim, lfi0->lim,
- lfi0->hev_thr, bd);
- } else if (mask_16x16_0 & 1) {
- vpx_highbd_lpf_vertical_16(s, pitch, lfi0->mblim, lfi0->lim,
- lfi0->hev_thr, bd);
- } else {
- vpx_highbd_lpf_vertical_16(s + 8 *pitch, pitch, lfi1->mblim,
- lfi1->lim, lfi1->hev_thr, bd);
- }
- }
-
- if ((mask_8x8_0 | mask_8x8_1) & 1) {
- if ((mask_8x8_0 & mask_8x8_1) & 1) {
- vpx_highbd_lpf_vertical_8_dual(s, pitch, lfi0->mblim, lfi0->lim,
- lfi0->hev_thr, lfi1->mblim, lfi1->lim,
- lfi1->hev_thr, bd);
- } else if (mask_8x8_0 & 1) {
- vpx_highbd_lpf_vertical_8(s, pitch, lfi0->mblim, lfi0->lim,
- lfi0->hev_thr, 1, bd);
- } else {
- vpx_highbd_lpf_vertical_8(s + 8 * pitch, pitch, lfi1->mblim,
- lfi1->lim, lfi1->hev_thr, 1, bd);
- }
- }
-
- if ((mask_4x4_0 | mask_4x4_1) & 1) {
- if ((mask_4x4_0 & mask_4x4_1) & 1) {
- vpx_highbd_lpf_vertical_4_dual(s, pitch, lfi0->mblim, lfi0->lim,
- lfi0->hev_thr, lfi1->mblim, lfi1->lim,
- lfi1->hev_thr, bd);
- } else if (mask_4x4_0 & 1) {
- vpx_highbd_lpf_vertical_4(s, pitch, lfi0->mblim, lfi0->lim,
- lfi0->hev_thr, 1, bd);
- } else {
- vpx_highbd_lpf_vertical_4(s + 8 * pitch, pitch, lfi1->mblim,
- lfi1->lim, lfi1->hev_thr, 1, bd);
- }
- }
-
- if ((mask_4x4_int_0 | mask_4x4_int_1) & 1) {
- if ((mask_4x4_int_0 & mask_4x4_int_1) & 1) {
- vpx_highbd_lpf_vertical_4_dual(s + 4, pitch, lfi0->mblim, lfi0->lim,
- lfi0->hev_thr, lfi1->mblim, lfi1->lim,
- lfi1->hev_thr, bd);
- } else if (mask_4x4_int_0 & 1) {
- vpx_highbd_lpf_vertical_4(s + 4, pitch, lfi0->mblim, lfi0->lim,
- lfi0->hev_thr, 1, bd);
- } else {
- vpx_highbd_lpf_vertical_4(s + 8 * pitch + 4, pitch, lfi1->mblim,
- lfi1->lim, lfi1->hev_thr, 1, bd);
- }
- }
- }
-
- s += 8;
- lfl += 1;
- mask_16x16_0 >>= 1;
- mask_8x8_0 >>= 1;
- mask_4x4_0 >>= 1;
- mask_4x4_int_0 >>= 1;
- mask_16x16_1 >>= 1;
- mask_8x8_1 >>= 1;
- mask_4x4_1 >>= 1;
- mask_4x4_int_1 >>= 1;
- }
-}
-#endif // CONFIG_VP9_HIGHBITDEPTH
-
-static void filter_selectively_horiz(uint8_t *s, int pitch,
- unsigned int mask_16x16,
- unsigned int mask_8x8,
- unsigned int mask_4x4,
- unsigned int mask_4x4_int,
- const loop_filter_info_n *lfi_n,
- const uint8_t *lfl) {
- unsigned int mask;
- int count;
-
- for (mask = mask_16x16 | mask_8x8 | mask_4x4 | mask_4x4_int;
- mask; mask >>= count) {
- const loop_filter_thresh *lfi = lfi_n->lfthr + *lfl;
-
- count = 1;
- if (mask & 1) {
- if (mask_16x16 & 1) {
- if ((mask_16x16 & 3) == 3) {
- vpx_lpf_horizontal_16(s, pitch, lfi->mblim, lfi->lim,
- lfi->hev_thr, 2);
- count = 2;
- } else {
- vpx_lpf_horizontal_16(s, pitch, lfi->mblim, lfi->lim,
- lfi->hev_thr, 1);
- }
- } else if (mask_8x8 & 1) {
- if ((mask_8x8 & 3) == 3) {
- // Next block's thresholds.
- const loop_filter_thresh *lfin = lfi_n->lfthr + *(lfl + 1);
-
- vpx_lpf_horizontal_8_dual(s, pitch, lfi->mblim, lfi->lim,
- lfi->hev_thr, lfin->mblim, lfin->lim,
- lfin->hev_thr);
-
- if ((mask_4x4_int & 3) == 3) {
- vpx_lpf_horizontal_4_dual(s + 4 * pitch, pitch, lfi->mblim,
- lfi->lim, lfi->hev_thr, lfin->mblim,
- lfin->lim, lfin->hev_thr);
- } else {
- if (mask_4x4_int & 1)
- vpx_lpf_horizontal_4(s + 4 * pitch, pitch, lfi->mblim, lfi->lim,
- lfi->hev_thr, 1);
- else if (mask_4x4_int & 2)
- vpx_lpf_horizontal_4(s + 8 + 4 * pitch, pitch, lfin->mblim,
- lfin->lim, lfin->hev_thr, 1);
- }
- count = 2;
- } else {
- vpx_lpf_horizontal_8(s, pitch, lfi->mblim, lfi->lim, lfi->hev_thr, 1);
-
- if (mask_4x4_int & 1)
- vpx_lpf_horizontal_4(s + 4 * pitch, pitch, lfi->mblim, lfi->lim,
- lfi->hev_thr, 1);
- }
- } else if (mask_4x4 & 1) {
- if ((mask_4x4 & 3) == 3) {
- // Next block's thresholds.
- const loop_filter_thresh *lfin = lfi_n->lfthr + *(lfl + 1);
-
- vpx_lpf_horizontal_4_dual(s, pitch, lfi->mblim, lfi->lim,
- lfi->hev_thr, lfin->mblim, lfin->lim,
- lfin->hev_thr);
- if ((mask_4x4_int & 3) == 3) {
- vpx_lpf_horizontal_4_dual(s + 4 * pitch, pitch, lfi->mblim,
- lfi->lim, lfi->hev_thr, lfin->mblim,
- lfin->lim, lfin->hev_thr);
- } else {
- if (mask_4x4_int & 1)
- vpx_lpf_horizontal_4(s + 4 * pitch, pitch, lfi->mblim, lfi->lim,
- lfi->hev_thr, 1);
- else if (mask_4x4_int & 2)
- vpx_lpf_horizontal_4(s + 8 + 4 * pitch, pitch, lfin->mblim,
- lfin->lim, lfin->hev_thr, 1);
- }
- count = 2;
- } else {
- vpx_lpf_horizontal_4(s, pitch, lfi->mblim, lfi->lim, lfi->hev_thr, 1);
-
- if (mask_4x4_int & 1)
- vpx_lpf_horizontal_4(s + 4 * pitch, pitch, lfi->mblim, lfi->lim,
- lfi->hev_thr, 1);
- }
- } else if (mask_4x4_int & 1) {
- vpx_lpf_horizontal_4(s + 4 * pitch, pitch, lfi->mblim, lfi->lim,
- lfi->hev_thr, 1);
- }
- }
- s += 8 * count;
- lfl += count;
- mask_16x16 >>= count;
- mask_8x8 >>= count;
- mask_4x4 >>= count;
- mask_4x4_int >>= count;
- }
-}
-
-#if CONFIG_VP9_HIGHBITDEPTH
-static void highbd_filter_selectively_horiz(uint16_t *s, int pitch,
- unsigned int mask_16x16,
- unsigned int mask_8x8,
- unsigned int mask_4x4,
- unsigned int mask_4x4_int,
- const loop_filter_info_n *lfi_n,
- const uint8_t *lfl, int bd) {
- unsigned int mask;
- int count;
-
- for (mask = mask_16x16 | mask_8x8 | mask_4x4 | mask_4x4_int;
- mask; mask >>= count) {
- const loop_filter_thresh *lfi = lfi_n->lfthr + *lfl;
-
- count = 1;
- if (mask & 1) {
- if (mask_16x16 & 1) {
- if ((mask_16x16 & 3) == 3) {
- vpx_highbd_lpf_horizontal_16(s, pitch, lfi->mblim, lfi->lim,
- lfi->hev_thr, 2, bd);
- count = 2;
- } else {
- vpx_highbd_lpf_horizontal_16(s, pitch, lfi->mblim, lfi->lim,
- lfi->hev_thr, 1, bd);
- }
- } else if (mask_8x8 & 1) {
- if ((mask_8x8 & 3) == 3) {
- // Next block's thresholds.
- const loop_filter_thresh *lfin = lfi_n->lfthr + *(lfl + 1);
-
- vpx_highbd_lpf_horizontal_8_dual(s, pitch, lfi->mblim, lfi->lim,
- lfi->hev_thr, lfin->mblim, lfin->lim,
- lfin->hev_thr, bd);
-
- if ((mask_4x4_int & 3) == 3) {
- vpx_highbd_lpf_horizontal_4_dual(s + 4 * pitch, pitch, lfi->mblim,
- lfi->lim, lfi->hev_thr,
- lfin->mblim, lfin->lim,
- lfin->hev_thr, bd);
- } else {
- if (mask_4x4_int & 1) {
- vpx_highbd_lpf_horizontal_4(s + 4 * pitch, pitch, lfi->mblim,
- lfi->lim, lfi->hev_thr, 1, bd);
- } else if (mask_4x4_int & 2) {
- vpx_highbd_lpf_horizontal_4(s + 8 + 4 * pitch, pitch, lfin->mblim,
- lfin->lim, lfin->hev_thr, 1, bd);
- }
- }
- count = 2;
- } else {
- vpx_highbd_lpf_horizontal_8(s, pitch, lfi->mblim, lfi->lim,
- lfi->hev_thr, 1, bd);
-
- if (mask_4x4_int & 1) {
- vpx_highbd_lpf_horizontal_4(s + 4 * pitch, pitch, lfi->mblim,
- lfi->lim, lfi->hev_thr, 1, bd);
- }
- }
- } else if (mask_4x4 & 1) {
- if ((mask_4x4 & 3) == 3) {
- // Next block's thresholds.
- const loop_filter_thresh *lfin = lfi_n->lfthr + *(lfl + 1);
-
- vpx_highbd_lpf_horizontal_4_dual(s, pitch, lfi->mblim, lfi->lim,
- lfi->hev_thr, lfin->mblim, lfin->lim,
- lfin->hev_thr, bd);
- if ((mask_4x4_int & 3) == 3) {
- vpx_highbd_lpf_horizontal_4_dual(s + 4 * pitch, pitch, lfi->mblim,
- lfi->lim, lfi->hev_thr,
- lfin->mblim, lfin->lim,
- lfin->hev_thr, bd);
- } else {
- if (mask_4x4_int & 1) {
- vpx_highbd_lpf_horizontal_4(s + 4 * pitch, pitch, lfi->mblim,
- lfi->lim, lfi->hev_thr, 1, bd);
- } else if (mask_4x4_int & 2) {
- vpx_highbd_lpf_horizontal_4(s + 8 + 4 * pitch, pitch, lfin->mblim,
- lfin->lim, lfin->hev_thr, 1, bd);
- }
- }
- count = 2;
- } else {
- vpx_highbd_lpf_horizontal_4(s, pitch, lfi->mblim, lfi->lim,
- lfi->hev_thr, 1, bd);
-
- if (mask_4x4_int & 1) {
- vpx_highbd_lpf_horizontal_4(s + 4 * pitch, pitch, lfi->mblim,
- lfi->lim, lfi->hev_thr, 1, bd);
- }
- }
- } else if (mask_4x4_int & 1) {
- vpx_highbd_lpf_horizontal_4(s + 4 * pitch, pitch, lfi->mblim, lfi->lim,
- lfi->hev_thr, 1, bd);
- }
- }
- s += 8 * count;
- lfl += count;
- mask_16x16 >>= count;
- mask_8x8 >>= count;
- mask_4x4 >>= count;
- mask_4x4_int >>= count;
- }
-}
-#endif // CONFIG_VP9_HIGHBITDEPTH
-
-// This function ors into the current lfm structure, where to do loop
-// filters for the specific mi we are looking at. It uses information
-// including the block_size_type (32x16, 32x32, etc.), the transform size,
-// whether there were any coefficients encoded, and the loop filter strength
-// block we are currently looking at. Shift is used to position the
-// 1's we produce.
-// TODO(JBB) Need another function for different resolution color..
-static void build_masks(const loop_filter_info_n *const lfi_n,
- const MODE_INFO *mi, const int shift_y,
- const int shift_uv,
- LOOP_FILTER_MASK *lfm) {
- const MB_MODE_INFO *mbmi = &mi->mbmi;
- const BLOCK_SIZE block_size = mbmi->sb_type;
- const TX_SIZE tx_size_y = mbmi->tx_size;
- const TX_SIZE tx_size_uv = get_uv_tx_size_impl(tx_size_y, block_size, 1, 1);
- const int filter_level = get_filter_level(lfi_n, mbmi);
- uint64_t *const left_y = &lfm->left_y[tx_size_y];
- uint64_t *const above_y = &lfm->above_y[tx_size_y];
- uint64_t *const int_4x4_y = &lfm->int_4x4_y;
- uint16_t *const left_uv = &lfm->left_uv[tx_size_uv];
- uint16_t *const above_uv = &lfm->above_uv[tx_size_uv];
-#if CONFIG_MISC_FIXES
- uint16_t *const int_4x4_uv = &lfm->left_int_4x4_uv;
-#else
- uint16_t *const int_4x4_uv = &lfm->int_4x4_uv;
-#endif
- int i;
-
- // If filter level is 0 we don't loop filter.
- if (!filter_level) {
- return;
- } else {
- const int w = num_8x8_blocks_wide_lookup[block_size];
- const int h = num_8x8_blocks_high_lookup[block_size];
- int index = shift_y;
- for (i = 0; i < h; i++) {
- memset(&lfm->lfl_y[index], filter_level, w);
- index += 8;
- }
- }
-
- // These set 1 in the current block size for the block size edges.
- // For instance if the block size is 32x16, we'll set:
- // above = 1111
- // 0000
- // and
- // left = 1000
- // = 1000
- // NOTE : In this example the low bit is left most ( 1000 ) is stored as
- // 1, not 8...
- //
- // U and V set things on a 16 bit scale.
- //
- *above_y |= above_prediction_mask[block_size] << shift_y;
- *above_uv |= above_prediction_mask_uv[block_size] << shift_uv;
- *left_y |= left_prediction_mask[block_size] << shift_y;
- *left_uv |= left_prediction_mask_uv[block_size] << shift_uv;
-
- // If the block has no coefficients and is not intra we skip applying
- // the loop filter on block edges.
-#if CONFIG_MISC_FIXES
- if ((mbmi->skip || mbmi->has_no_coeffs) && is_inter_block(mbmi))
- return;
-#else
- if (mbmi->skip && is_inter_block(mbmi))
- return;
-#endif
-
- // Here we are adding a mask for the transform size. The transform
- // size mask is set to be correct for a 64x64 prediction block size. We
- // mask to match the size of the block we are working on and then shift it
- // into place..
- *above_y |= (size_mask[block_size] &
- above_64x64_txform_mask[tx_size_y]) << shift_y;
- *above_uv |= (size_mask_uv[block_size] &
- above_64x64_txform_mask_uv[tx_size_uv]) << shift_uv;
-
- *left_y |= (size_mask[block_size] &
- left_64x64_txform_mask[tx_size_y]) << shift_y;
- *left_uv |= (size_mask_uv[block_size] &
- left_64x64_txform_mask_uv[tx_size_uv]) << shift_uv;
-
- // Here we are trying to determine what to do with the internal 4x4 block
- // boundaries. These differ from the 4x4 boundaries on the outside edge of
- // an 8x8 in that the internal ones can be skipped and don't depend on
- // the prediction block size.
- if (tx_size_y == TX_4X4)
- *int_4x4_y |= (size_mask[block_size] & 0xffffffffffffffffULL) << shift_y;
-
- if (tx_size_uv == TX_4X4)
- *int_4x4_uv |= (size_mask_uv[block_size] & 0xffff) << shift_uv;
-}
-
-// This function does the same thing as the one above with the exception that
-// it only affects the y masks. It exists because for blocks < 16x16 in size,
-// we only update u and v masks on the first block.
-static void build_y_mask(const loop_filter_info_n *const lfi_n,
- const MODE_INFO *mi, const int shift_y,
- LOOP_FILTER_MASK *lfm) {
- const MB_MODE_INFO *mbmi = &mi->mbmi;
- const BLOCK_SIZE block_size = mbmi->sb_type;
- const TX_SIZE tx_size_y = mbmi->tx_size;
- const int filter_level = get_filter_level(lfi_n, mbmi);
- uint64_t *const left_y = &lfm->left_y[tx_size_y];
- uint64_t *const above_y = &lfm->above_y[tx_size_y];
- uint64_t *const int_4x4_y = &lfm->int_4x4_y;
- int i;
-
- if (!filter_level) {
- return;
- } else {
- const int w = num_8x8_blocks_wide_lookup[block_size];
- const int h = num_8x8_blocks_high_lookup[block_size];
- int index = shift_y;
- for (i = 0; i < h; i++) {
- memset(&lfm->lfl_y[index], filter_level, w);
- index += 8;
- }
- }
-
- *above_y |= above_prediction_mask[block_size] << shift_y;
- *left_y |= left_prediction_mask[block_size] << shift_y;
-
-#if CONFIG_MISC_FIXES
- if ((mbmi->skip || mbmi->has_no_coeffs) && is_inter_block(mbmi))
- return;
-#else
- if (mbmi->skip && is_inter_block(mbmi))
- return;
-#endif
-
- *above_y |= (size_mask[block_size] &
- above_64x64_txform_mask[tx_size_y]) << shift_y;
-
- *left_y |= (size_mask[block_size] &
- left_64x64_txform_mask[tx_size_y]) << shift_y;
-
- if (tx_size_y == TX_4X4)
- *int_4x4_y |= (size_mask[block_size] & 0xffffffffffffffffULL) << shift_y;
-}
-
-// This function sets up the bit masks for the entire 64x64 region represented
-// by mi_row, mi_col.
-// TODO(JBB): This function only works for yv12.
-void vp10_setup_mask(VP10_COMMON *const cm, const int mi_row, const int mi_col,
- MODE_INFO **mi, const int mode_info_stride,
- LOOP_FILTER_MASK *lfm) {
- int idx_32, idx_16, idx_8;
- const loop_filter_info_n *const lfi_n = &cm->lf_info;
- MODE_INFO **mip = mi;
- MODE_INFO **mip2 = mi;
-
- // These are offsets to the next mi in the 64x64 block. It is what gets
- // added to the mi ptr as we go through each loop. It helps us to avoid
- // setting up special row and column counters for each index. The last step
- // brings us out back to the starting position.
- const int offset_32[] = {4, (mode_info_stride << 2) - 4, 4,
- -(mode_info_stride << 2) - 4};
- const int offset_16[] = {2, (mode_info_stride << 1) - 2, 2,
- -(mode_info_stride << 1) - 2};
- const int offset[] = {1, mode_info_stride - 1, 1, -mode_info_stride - 1};
-
- // Following variables represent shifts to position the current block
- // mask over the appropriate block. A shift of 36 to the left will move
- // the bits for the final 32 by 32 block in the 64x64 up 4 rows and left
- // 4 rows to the appropriate spot.
- const int shift_32_y[] = {0, 4, 32, 36};
- const int shift_16_y[] = {0, 2, 16, 18};
- const int shift_8_y[] = {0, 1, 8, 9};
- const int shift_32_uv[] = {0, 2, 8, 10};
- const int shift_16_uv[] = {0, 1, 4, 5};
- int i;
- const int max_rows = (mi_row + MI_BLOCK_SIZE > cm->mi_rows ?
- cm->mi_rows - mi_row : MI_BLOCK_SIZE);
- const int max_cols = (mi_col + MI_BLOCK_SIZE > cm->mi_cols ?
- cm->mi_cols - mi_col : MI_BLOCK_SIZE);
-
- vp10_zero(*lfm);
- assert(mip[0] != NULL);
-
- // TODO(jimbankoski): Try moving most of the following code into decode
- // loop and storing lfm in the mbmi structure so that we don't have to go
- // through the recursive loop structure multiple times.
- switch (mip[0]->mbmi.sb_type) {
- case BLOCK_64X64:
- build_masks(lfi_n, mip[0] , 0, 0, lfm);
- break;
- case BLOCK_64X32:
- build_masks(lfi_n, mip[0], 0, 0, lfm);
- mip2 = mip + mode_info_stride * 4;
- if (4 >= max_rows)
- break;
- build_masks(lfi_n, mip2[0], 32, 8, lfm);
- break;
- case BLOCK_32X64:
- build_masks(lfi_n, mip[0], 0, 0, lfm);
- mip2 = mip + 4;
- if (4 >= max_cols)
- break;
- build_masks(lfi_n, mip2[0], 4, 2, lfm);
- break;
- default:
- for (idx_32 = 0; idx_32 < 4; mip += offset_32[idx_32], ++idx_32) {
- const int shift_y = shift_32_y[idx_32];
- const int shift_uv = shift_32_uv[idx_32];
- const int mi_32_col_offset = ((idx_32 & 1) << 2);
- const int mi_32_row_offset = ((idx_32 >> 1) << 2);
- if (mi_32_col_offset >= max_cols || mi_32_row_offset >= max_rows)
- continue;
- switch (mip[0]->mbmi.sb_type) {
- case BLOCK_32X32:
- build_masks(lfi_n, mip[0], shift_y, shift_uv, lfm);
- break;
- case BLOCK_32X16:
- build_masks(lfi_n, mip[0], shift_y, shift_uv, lfm);
- if (mi_32_row_offset + 2 >= max_rows)
- continue;
- mip2 = mip + mode_info_stride * 2;
- build_masks(lfi_n, mip2[0], shift_y + 16, shift_uv + 4, lfm);
- break;
- case BLOCK_16X32:
- build_masks(lfi_n, mip[0], shift_y, shift_uv, lfm);
- if (mi_32_col_offset + 2 >= max_cols)
- continue;
- mip2 = mip + 2;
- build_masks(lfi_n, mip2[0], shift_y + 2, shift_uv + 1, lfm);
- break;
- default:
- for (idx_16 = 0; idx_16 < 4; mip += offset_16[idx_16], ++idx_16) {
- const int shift_y = shift_32_y[idx_32] + shift_16_y[idx_16];
- const int shift_uv = shift_32_uv[idx_32] + shift_16_uv[idx_16];
- const int mi_16_col_offset = mi_32_col_offset +
- ((idx_16 & 1) << 1);
- const int mi_16_row_offset = mi_32_row_offset +
- ((idx_16 >> 1) << 1);
-
- if (mi_16_col_offset >= max_cols || mi_16_row_offset >= max_rows)
- continue;
-
- switch (mip[0]->mbmi.sb_type) {
- case BLOCK_16X16:
- build_masks(lfi_n, mip[0], shift_y, shift_uv, lfm);
- break;
- case BLOCK_16X8:
- build_masks(lfi_n, mip[0], shift_y, shift_uv, lfm);
- if (mi_16_row_offset + 1 >= max_rows)
- continue;
- mip2 = mip + mode_info_stride;
- build_y_mask(lfi_n, mip2[0], shift_y+8, lfm);
- break;
- case BLOCK_8X16:
- build_masks(lfi_n, mip[0], shift_y, shift_uv, lfm);
- if (mi_16_col_offset +1 >= max_cols)
- continue;
- mip2 = mip + 1;
- build_y_mask(lfi_n, mip2[0], shift_y+1, lfm);
- break;
- default: {
- const int shift_y = shift_32_y[idx_32] +
- shift_16_y[idx_16] +
- shift_8_y[0];
- build_masks(lfi_n, mip[0], shift_y, shift_uv, lfm);
- mip += offset[0];
- for (idx_8 = 1; idx_8 < 4; mip += offset[idx_8], ++idx_8) {
- const int shift_y = shift_32_y[idx_32] +
- shift_16_y[idx_16] +
- shift_8_y[idx_8];
- const int mi_8_col_offset = mi_16_col_offset +
- ((idx_8 & 1));
- const int mi_8_row_offset = mi_16_row_offset +
- ((idx_8 >> 1));
-
- if (mi_8_col_offset >= max_cols ||
- mi_8_row_offset >= max_rows)
- continue;
- build_y_mask(lfi_n, mip[0], shift_y, lfm);
- }
- break;
- }
- }
- }
- break;
- }
- }
- break;
- }
- // The largest loopfilter we have is 16x16 so we use the 16x16 mask
- // for 32x32 transforms also.
- lfm->left_y[TX_16X16] |= lfm->left_y[TX_32X32];
- lfm->above_y[TX_16X16] |= lfm->above_y[TX_32X32];
- lfm->left_uv[TX_16X16] |= lfm->left_uv[TX_32X32];
- lfm->above_uv[TX_16X16] |= lfm->above_uv[TX_32X32];
-
- // We do at least 8 tap filter on every 32x32 even if the transform size
- // is 4x4. So if the 4x4 is set on a border pixel add it to the 8x8 and
- // remove it from the 4x4.
- lfm->left_y[TX_8X8] |= lfm->left_y[TX_4X4] & left_border;
- lfm->left_y[TX_4X4] &= ~left_border;
- lfm->above_y[TX_8X8] |= lfm->above_y[TX_4X4] & above_border;
- lfm->above_y[TX_4X4] &= ~above_border;
- lfm->left_uv[TX_8X8] |= lfm->left_uv[TX_4X4] & left_border_uv;
- lfm->left_uv[TX_4X4] &= ~left_border_uv;
- lfm->above_uv[TX_8X8] |= lfm->above_uv[TX_4X4] & above_border_uv;
- lfm->above_uv[TX_4X4] &= ~above_border_uv;
-
- // We do some special edge handling.
- if (mi_row + MI_BLOCK_SIZE > cm->mi_rows) {
- const uint64_t rows = cm->mi_rows - mi_row;
-
- // Each pixel inside the border gets a 1,
- const uint64_t mask_y = (((uint64_t) 1 << (rows << 3)) - 1);
- const uint16_t mask_uv = (((uint16_t) 1 << (((rows + 1) >> 1) << 2)) - 1);
-
- // Remove values completely outside our border.
- for (i = 0; i < TX_32X32; i++) {
- lfm->left_y[i] &= mask_y;
- lfm->above_y[i] &= mask_y;
- lfm->left_uv[i] &= mask_uv;
- lfm->above_uv[i] &= mask_uv;
- }
- lfm->int_4x4_y &= mask_y;
-#if CONFIG_MISC_FIXES
- lfm->above_int_4x4_uv = lfm->left_int_4x4_uv & mask_uv;
-#else
- lfm->int_4x4_uv &= mask_uv;
-#endif
-
- // We don't apply a wide loop filter on the last uv block row. If set
- // apply the shorter one instead.
- if (rows == 1) {
- lfm->above_uv[TX_8X8] |= lfm->above_uv[TX_16X16];
- lfm->above_uv[TX_16X16] = 0;
- }
- if (rows == 5) {
- lfm->above_uv[TX_8X8] |= lfm->above_uv[TX_16X16] & 0xff00;
- lfm->above_uv[TX_16X16] &= ~(lfm->above_uv[TX_16X16] & 0xff00);
- }
- }
-
- if (mi_col + MI_BLOCK_SIZE > cm->mi_cols) {
- const uint64_t columns = cm->mi_cols - mi_col;
-
- // Each pixel inside the border gets a 1, the multiply copies the border
- // to where we need it.
- const uint64_t mask_y = (((1 << columns) - 1)) * 0x0101010101010101ULL;
- const uint16_t mask_uv = ((1 << ((columns + 1) >> 1)) - 1) * 0x1111;
-
- // Internal edges are not applied on the last column of the image so
- // we mask 1 more for the internal edges
- const uint16_t mask_uv_int = ((1 << (columns >> 1)) - 1) * 0x1111;
-
- // Remove the bits outside the image edge.
- for (i = 0; i < TX_32X32; i++) {
- lfm->left_y[i] &= mask_y;
- lfm->above_y[i] &= mask_y;
- lfm->left_uv[i] &= mask_uv;
- lfm->above_uv[i] &= mask_uv;
- }
- lfm->int_4x4_y &= mask_y;
-#if CONFIG_MISC_FIXES
- lfm->left_int_4x4_uv &= mask_uv_int;
-#else
- lfm->int_4x4_uv &= mask_uv_int;
-#endif
-
- // We don't apply a wide loop filter on the last uv column. If set
- // apply the shorter one instead.
- if (columns == 1) {
- lfm->left_uv[TX_8X8] |= lfm->left_uv[TX_16X16];
- lfm->left_uv[TX_16X16] = 0;
- }
- if (columns == 5) {
- lfm->left_uv[TX_8X8] |= (lfm->left_uv[TX_16X16] & 0xcccc);
- lfm->left_uv[TX_16X16] &= ~(lfm->left_uv[TX_16X16] & 0xcccc);
- }
- }
- // We don't apply a loop filter on the first column in the image, mask that
- // out.
- if (mi_col == 0) {
- for (i = 0; i < TX_32X32; i++) {
- lfm->left_y[i] &= 0xfefefefefefefefeULL;
- lfm->left_uv[i] &= 0xeeee;
- }
- }
-
- // Assert if we try to apply 2 different loop filters at the same position.
- assert(!(lfm->left_y[TX_16X16] & lfm->left_y[TX_8X8]));
- assert(!(lfm->left_y[TX_16X16] & lfm->left_y[TX_4X4]));
- assert(!(lfm->left_y[TX_8X8] & lfm->left_y[TX_4X4]));
- assert(!(lfm->int_4x4_y & lfm->left_y[TX_16X16]));
- assert(!(lfm->left_uv[TX_16X16]&lfm->left_uv[TX_8X8]));
- assert(!(lfm->left_uv[TX_16X16] & lfm->left_uv[TX_4X4]));
- assert(!(lfm->left_uv[TX_8X8] & lfm->left_uv[TX_4X4]));
-#if CONFIG_MISC_FIXES
- assert(!(lfm->left_int_4x4_uv & lfm->left_uv[TX_16X16]));
-#else
- assert(!(lfm->int_4x4_uv & lfm->left_uv[TX_16X16]));
-#endif
- assert(!(lfm->above_y[TX_16X16] & lfm->above_y[TX_8X8]));
- assert(!(lfm->above_y[TX_16X16] & lfm->above_y[TX_4X4]));
- assert(!(lfm->above_y[TX_8X8] & lfm->above_y[TX_4X4]));
- assert(!(lfm->int_4x4_y & lfm->above_y[TX_16X16]));
- assert(!(lfm->above_uv[TX_16X16] & lfm->above_uv[TX_8X8]));
- assert(!(lfm->above_uv[TX_16X16] & lfm->above_uv[TX_4X4]));
- assert(!(lfm->above_uv[TX_8X8] & lfm->above_uv[TX_4X4]));
-#if CONFIG_MISC_FIXES
- assert(!(lfm->above_int_4x4_uv & lfm->above_uv[TX_16X16]));
-#else
- assert(!(lfm->int_4x4_uv & lfm->above_uv[TX_16X16]));
-#endif
-}
-
-static void filter_selectively_vert(uint8_t *s, int pitch,
- unsigned int mask_16x16,
- unsigned int mask_8x8,
- unsigned int mask_4x4,
- unsigned int mask_4x4_int,
- const loop_filter_info_n *lfi_n,
- const uint8_t *lfl) {
- unsigned int mask;
-
- for (mask = mask_16x16 | mask_8x8 | mask_4x4 | mask_4x4_int;
- mask; mask >>= 1) {
- const loop_filter_thresh *lfi = lfi_n->lfthr + *lfl;
-
- if (mask & 1) {
- if (mask_16x16 & 1) {
- vpx_lpf_vertical_16(s, pitch, lfi->mblim, lfi->lim, lfi->hev_thr);
- } else if (mask_8x8 & 1) {
- vpx_lpf_vertical_8(s, pitch, lfi->mblim, lfi->lim, lfi->hev_thr, 1);
- } else if (mask_4x4 & 1) {
- vpx_lpf_vertical_4(s, pitch, lfi->mblim, lfi->lim, lfi->hev_thr, 1);
- }
- }
- if (mask_4x4_int & 1)
- vpx_lpf_vertical_4(s + 4, pitch, lfi->mblim, lfi->lim, lfi->hev_thr, 1);
- s += 8;
- lfl += 1;
- mask_16x16 >>= 1;
- mask_8x8 >>= 1;
- mask_4x4 >>= 1;
- mask_4x4_int >>= 1;
- }
-}
-
-#if CONFIG_VP9_HIGHBITDEPTH
-static void highbd_filter_selectively_vert(uint16_t *s, int pitch,
- unsigned int mask_16x16,
- unsigned int mask_8x8,
- unsigned int mask_4x4,
- unsigned int mask_4x4_int,
- const loop_filter_info_n *lfi_n,
- const uint8_t *lfl, int bd) {
- unsigned int mask;
-
- for (mask = mask_16x16 | mask_8x8 | mask_4x4 | mask_4x4_int;
- mask; mask >>= 1) {
- const loop_filter_thresh *lfi = lfi_n->lfthr + *lfl;
-
- if (mask & 1) {
- if (mask_16x16 & 1) {
- vpx_highbd_lpf_vertical_16(s, pitch, lfi->mblim, lfi->lim,
- lfi->hev_thr, bd);
- } else if (mask_8x8 & 1) {
- vpx_highbd_lpf_vertical_8(s, pitch, lfi->mblim, lfi->lim,
- lfi->hev_thr, 1, bd);
- } else if (mask_4x4 & 1) {
- vpx_highbd_lpf_vertical_4(s, pitch, lfi->mblim, lfi->lim,
- lfi->hev_thr, 1, bd);
- }
- }
- if (mask_4x4_int & 1)
- vpx_highbd_lpf_vertical_4(s + 4, pitch, lfi->mblim, lfi->lim,
- lfi->hev_thr, 1, bd);
- s += 8;
- lfl += 1;
- mask_16x16 >>= 1;
- mask_8x8 >>= 1;
- mask_4x4 >>= 1;
- mask_4x4_int >>= 1;
- }
-}
-#endif // CONFIG_VP9_HIGHBITDEPTH
-
-void vp10_filter_block_plane_non420(VP10_COMMON *cm,
- struct macroblockd_plane *plane,
- MODE_INFO **mi_8x8,
- int mi_row, int mi_col) {
- const int ss_x = plane->subsampling_x;
- const int ss_y = plane->subsampling_y;
- const int row_step = 1 << ss_y;
- const int col_step = 1 << ss_x;
- const int row_step_stride = cm->mi_stride * row_step;
- struct buf_2d *const dst = &plane->dst;
- uint8_t* const dst0 = dst->buf;
- unsigned int mask_16x16[MI_BLOCK_SIZE] = {0};
- unsigned int mask_8x8[MI_BLOCK_SIZE] = {0};
- unsigned int mask_4x4[MI_BLOCK_SIZE] = {0};
- unsigned int mask_4x4_int[MI_BLOCK_SIZE] = {0};
- uint8_t lfl[MI_BLOCK_SIZE * MI_BLOCK_SIZE];
- int r, c;
-
- for (r = 0; r < MI_BLOCK_SIZE && mi_row + r < cm->mi_rows; r += row_step) {
- unsigned int mask_16x16_c = 0;
- unsigned int mask_8x8_c = 0;
- unsigned int mask_4x4_c = 0;
- unsigned int border_mask;
-
- // Determine the vertical edges that need filtering
- for (c = 0; c < MI_BLOCK_SIZE && mi_col + c < cm->mi_cols; c += col_step) {
- const MODE_INFO *mi = mi_8x8[c];
- const BLOCK_SIZE sb_type = mi[0].mbmi.sb_type;
- const int skip_this = mi[0].mbmi.skip && is_inter_block(&mi[0].mbmi);
- // left edge of current unit is block/partition edge -> no skip
- const int block_edge_left = (num_4x4_blocks_wide_lookup[sb_type] > 1) ?
- !(c & (num_8x8_blocks_wide_lookup[sb_type] - 1)) : 1;
- const int skip_this_c = skip_this && !block_edge_left;
- // top edge of current unit is block/partition edge -> no skip
- const int block_edge_above = (num_4x4_blocks_high_lookup[sb_type] > 1) ?
- !(r & (num_8x8_blocks_high_lookup[sb_type] - 1)) : 1;
- const int skip_this_r = skip_this && !block_edge_above;
- const TX_SIZE tx_size = (plane->plane_type == PLANE_TYPE_UV)
- ? get_uv_tx_size(&mi[0].mbmi, plane)
- : mi[0].mbmi.tx_size;
- const int skip_border_4x4_c = ss_x && mi_col + c == cm->mi_cols - 1;
- const int skip_border_4x4_r = ss_y && mi_row + r == cm->mi_rows - 1;
-
- // Filter level can vary per MI
- if (!(lfl[(r << 3) + (c >> ss_x)] =
- get_filter_level(&cm->lf_info, &mi[0].mbmi)))
- continue;
-
- // Build masks based on the transform size of each block
- if (tx_size == TX_32X32) {
- if (!skip_this_c && ((c >> ss_x) & 3) == 0) {
- if (!skip_border_4x4_c)
- mask_16x16_c |= 1 << (c >> ss_x);
- else
- mask_8x8_c |= 1 << (c >> ss_x);
- }
- if (!skip_this_r && ((r >> ss_y) & 3) == 0) {
- if (!skip_border_4x4_r)
- mask_16x16[r] |= 1 << (c >> ss_x);
- else
- mask_8x8[r] |= 1 << (c >> ss_x);
- }
- } else if (tx_size == TX_16X16) {
- if (!skip_this_c && ((c >> ss_x) & 1) == 0) {
- if (!skip_border_4x4_c)
- mask_16x16_c |= 1 << (c >> ss_x);
- else
- mask_8x8_c |= 1 << (c >> ss_x);
- }
- if (!skip_this_r && ((r >> ss_y) & 1) == 0) {
- if (!skip_border_4x4_r)
- mask_16x16[r] |= 1 << (c >> ss_x);
- else
- mask_8x8[r] |= 1 << (c >> ss_x);
- }
- } else {
- // force 8x8 filtering on 32x32 boundaries
- if (!skip_this_c) {
- if (tx_size == TX_8X8 || ((c >> ss_x) & 3) == 0)
- mask_8x8_c |= 1 << (c >> ss_x);
- else
- mask_4x4_c |= 1 << (c >> ss_x);
- }
-
- if (!skip_this_r) {
- if (tx_size == TX_8X8 || ((r >> ss_y) & 3) == 0)
- mask_8x8[r] |= 1 << (c >> ss_x);
- else
- mask_4x4[r] |= 1 << (c >> ss_x);
- }
-
- if (!skip_this && tx_size < TX_8X8 && !skip_border_4x4_c)
- mask_4x4_int[r] |= 1 << (c >> ss_x);
- }
- }
-
- // Disable filtering on the leftmost column
- border_mask = ~(mi_col == 0);
-#if CONFIG_VP9_HIGHBITDEPTH
- if (cm->use_highbitdepth) {
- highbd_filter_selectively_vert(CONVERT_TO_SHORTPTR(dst->buf),
- dst->stride,
- mask_16x16_c & border_mask,
- mask_8x8_c & border_mask,
- mask_4x4_c & border_mask,
- mask_4x4_int[r],
- &cm->lf_info, &lfl[r << 3],
- (int)cm->bit_depth);
- } else {
- filter_selectively_vert(dst->buf, dst->stride,
- mask_16x16_c & border_mask,
- mask_8x8_c & border_mask,
- mask_4x4_c & border_mask,
- mask_4x4_int[r],
- &cm->lf_info, &lfl[r << 3]);
- }
-#else
- filter_selectively_vert(dst->buf, dst->stride,
- mask_16x16_c & border_mask,
- mask_8x8_c & border_mask,
- mask_4x4_c & border_mask,
- mask_4x4_int[r],
- &cm->lf_info, &lfl[r << 3]);
-#endif // CONFIG_VP9_HIGHBITDEPTH
- dst->buf += 8 * dst->stride;
- mi_8x8 += row_step_stride;
- }
-
- // Now do horizontal pass
- dst->buf = dst0;
- for (r = 0; r < MI_BLOCK_SIZE && mi_row + r < cm->mi_rows; r += row_step) {
- const int skip_border_4x4_r = ss_y && mi_row + r == cm->mi_rows - 1;
- const unsigned int mask_4x4_int_r = skip_border_4x4_r ? 0 : mask_4x4_int[r];
-
- unsigned int mask_16x16_r;
- unsigned int mask_8x8_r;
- unsigned int mask_4x4_r;
-
- if (mi_row + r == 0) {
- mask_16x16_r = 0;
- mask_8x8_r = 0;
- mask_4x4_r = 0;
- } else {
- mask_16x16_r = mask_16x16[r];
- mask_8x8_r = mask_8x8[r];
- mask_4x4_r = mask_4x4[r];
- }
-#if CONFIG_VP9_HIGHBITDEPTH
- if (cm->use_highbitdepth) {
- highbd_filter_selectively_horiz(CONVERT_TO_SHORTPTR(dst->buf),
- dst->stride,
- mask_16x16_r,
- mask_8x8_r,
- mask_4x4_r,
- mask_4x4_int_r,
- &cm->lf_info, &lfl[r << 3],
- (int)cm->bit_depth);
- } else {
- filter_selectively_horiz(dst->buf, dst->stride,
- mask_16x16_r,
- mask_8x8_r,
- mask_4x4_r,
- mask_4x4_int_r,
- &cm->lf_info, &lfl[r << 3]);
- }
-#else
- filter_selectively_horiz(dst->buf, dst->stride,
- mask_16x16_r,
- mask_8x8_r,
- mask_4x4_r,
- mask_4x4_int_r,
- &cm->lf_info, &lfl[r << 3]);
-#endif // CONFIG_VP9_HIGHBITDEPTH
- dst->buf += 8 * dst->stride;
- }
-}
-
-void vp10_filter_block_plane_ss00(VP10_COMMON *const cm,
- struct macroblockd_plane *const plane,
- int mi_row,
- LOOP_FILTER_MASK *lfm) {
- struct buf_2d *const dst = &plane->dst;
- uint8_t *const dst0 = dst->buf;
- int r;
- uint64_t mask_16x16 = lfm->left_y[TX_16X16];
- uint64_t mask_8x8 = lfm->left_y[TX_8X8];
- uint64_t mask_4x4 = lfm->left_y[TX_4X4];
- uint64_t mask_4x4_int = lfm->int_4x4_y;
-
- assert(plane->subsampling_x == 0 && plane->subsampling_y == 0);
-
- // Vertical pass: do 2 rows at one time
- for (r = 0; r < MI_BLOCK_SIZE && mi_row + r < cm->mi_rows; r += 2) {
- unsigned int mask_16x16_l = mask_16x16 & 0xffff;
- unsigned int mask_8x8_l = mask_8x8 & 0xffff;
- unsigned int mask_4x4_l = mask_4x4 & 0xffff;
- unsigned int mask_4x4_int_l = mask_4x4_int & 0xffff;
-
-// Disable filtering on the leftmost column.
-#if CONFIG_VP9_HIGHBITDEPTH
- if (cm->use_highbitdepth) {
- highbd_filter_selectively_vert_row2(
- plane->subsampling_x, CONVERT_TO_SHORTPTR(dst->buf), dst->stride,
- mask_16x16_l, mask_8x8_l, mask_4x4_l, mask_4x4_int_l, &cm->lf_info,
- &lfm->lfl_y[r << 3], (int)cm->bit_depth);
- } else {
- filter_selectively_vert_row2(
- plane->subsampling_x, dst->buf, dst->stride, mask_16x16_l, mask_8x8_l,
- mask_4x4_l, mask_4x4_int_l, &cm->lf_info, &lfm->lfl_y[r << 3]);
- }
-#else
- filter_selectively_vert_row2(
- plane->subsampling_x, dst->buf, dst->stride, mask_16x16_l, mask_8x8_l,
- mask_4x4_l, mask_4x4_int_l, &cm->lf_info, &lfm->lfl_y[r << 3]);
-#endif // CONFIG_VP9_HIGHBITDEPTH
- dst->buf += 16 * dst->stride;
- mask_16x16 >>= 16;
- mask_8x8 >>= 16;
- mask_4x4 >>= 16;
- mask_4x4_int >>= 16;
- }
-
- // Horizontal pass
- dst->buf = dst0;
- mask_16x16 = lfm->above_y[TX_16X16];
- mask_8x8 = lfm->above_y[TX_8X8];
- mask_4x4 = lfm->above_y[TX_4X4];
- mask_4x4_int = lfm->int_4x4_y;
-
- for (r = 0; r < MI_BLOCK_SIZE && mi_row + r < cm->mi_rows; r++) {
- unsigned int mask_16x16_r;
- unsigned int mask_8x8_r;
- unsigned int mask_4x4_r;
-
- if (mi_row + r == 0) {
- mask_16x16_r = 0;
- mask_8x8_r = 0;
- mask_4x4_r = 0;
- } else {
- mask_16x16_r = mask_16x16 & 0xff;
- mask_8x8_r = mask_8x8 & 0xff;
- mask_4x4_r = mask_4x4 & 0xff;
- }
-
-#if CONFIG_VP9_HIGHBITDEPTH
- if (cm->use_highbitdepth) {
- highbd_filter_selectively_horiz(
- CONVERT_TO_SHORTPTR(dst->buf), dst->stride, mask_16x16_r, mask_8x8_r,
- mask_4x4_r, mask_4x4_int & 0xff, &cm->lf_info, &lfm->lfl_y[r << 3],
- (int)cm->bit_depth);
- } else {
- filter_selectively_horiz(dst->buf, dst->stride, mask_16x16_r, mask_8x8_r,
- mask_4x4_r, mask_4x4_int & 0xff, &cm->lf_info,
- &lfm->lfl_y[r << 3]);
- }
-#else
- filter_selectively_horiz(dst->buf, dst->stride, mask_16x16_r, mask_8x8_r,
- mask_4x4_r, mask_4x4_int & 0xff, &cm->lf_info,
- &lfm->lfl_y[r << 3]);
-#endif // CONFIG_VP9_HIGHBITDEPTH
-
- dst->buf += 8 * dst->stride;
- mask_16x16 >>= 8;
- mask_8x8 >>= 8;
- mask_4x4 >>= 8;
- mask_4x4_int >>= 8;
- }
-}
-
-void vp10_filter_block_plane_ss11(VP10_COMMON *const cm,
- struct macroblockd_plane *const plane,
- int mi_row,
- LOOP_FILTER_MASK *lfm) {
- struct buf_2d *const dst = &plane->dst;
- uint8_t *const dst0 = dst->buf;
- int r, c;
-
- uint16_t mask_16x16 = lfm->left_uv[TX_16X16];
- uint16_t mask_8x8 = lfm->left_uv[TX_8X8];
- uint16_t mask_4x4 = lfm->left_uv[TX_4X4];
-#if CONFIG_MISC_FIXES
- uint16_t mask_4x4_int = lfm->left_int_4x4_uv;
-#else
- uint16_t mask_4x4_int = lfm->int_4x4_uv;
-#endif
-
- assert(plane->subsampling_x == 1 && plane->subsampling_y == 1);
-
- // Vertical pass: do 2 rows at one time
- for (r = 0; r < MI_BLOCK_SIZE && mi_row + r < cm->mi_rows; r += 4) {
- if (plane->plane_type == 1) {
- for (c = 0; c < (MI_BLOCK_SIZE >> 1); c++) {
- lfm->lfl_uv[(r << 1) + c] = lfm->lfl_y[(r << 3) + (c << 1)];
- lfm->lfl_uv[((r + 2) << 1) + c] = lfm->lfl_y[((r + 2) << 3) + (c << 1)];
- }
- }
-
- {
- unsigned int mask_16x16_l = mask_16x16 & 0xff;
- unsigned int mask_8x8_l = mask_8x8 & 0xff;
- unsigned int mask_4x4_l = mask_4x4 & 0xff;
- unsigned int mask_4x4_int_l = mask_4x4_int & 0xff;
-
-// Disable filtering on the leftmost column.
-#if CONFIG_VP9_HIGHBITDEPTH
- if (cm->use_highbitdepth) {
- highbd_filter_selectively_vert_row2(
- plane->subsampling_x, CONVERT_TO_SHORTPTR(dst->buf), dst->stride,
- mask_16x16_l, mask_8x8_l, mask_4x4_l, mask_4x4_int_l, &cm->lf_info,
- &lfm->lfl_uv[r << 1], (int)cm->bit_depth);
- } else {
- filter_selectively_vert_row2(
- plane->subsampling_x, dst->buf, dst->stride,
- mask_16x16_l, mask_8x8_l, mask_4x4_l, mask_4x4_int_l, &cm->lf_info,
- &lfm->lfl_uv[r << 1]);
- }
-#else
- filter_selectively_vert_row2(
- plane->subsampling_x, dst->buf, dst->stride,
- mask_16x16_l, mask_8x8_l, mask_4x4_l, mask_4x4_int_l, &cm->lf_info,
- &lfm->lfl_uv[r << 1]);
-#endif // CONFIG_VP9_HIGHBITDEPTH
-
- dst->buf += 16 * dst->stride;
- mask_16x16 >>= 8;
- mask_8x8 >>= 8;
- mask_4x4 >>= 8;
- mask_4x4_int >>= 8;
- }
- }
-
- // Horizontal pass
- dst->buf = dst0;
- mask_16x16 = lfm->above_uv[TX_16X16];
- mask_8x8 = lfm->above_uv[TX_8X8];
- mask_4x4 = lfm->above_uv[TX_4X4];
-#if CONFIG_MISC_FIXES
- mask_4x4_int = lfm->above_int_4x4_uv;
-#else
- mask_4x4_int = lfm->int_4x4_uv;
-#endif
-
- for (r = 0; r < MI_BLOCK_SIZE && mi_row + r < cm->mi_rows; r += 2) {
- const int skip_border_4x4_r = mi_row + r == cm->mi_rows - 1;
- const unsigned int mask_4x4_int_r =
- skip_border_4x4_r ? 0 : (mask_4x4_int & 0xf);
- unsigned int mask_16x16_r;
- unsigned int mask_8x8_r;
- unsigned int mask_4x4_r;
-
- if (mi_row + r == 0) {
- mask_16x16_r = 0;
- mask_8x8_r = 0;
- mask_4x4_r = 0;
- } else {
- mask_16x16_r = mask_16x16 & 0xf;
- mask_8x8_r = mask_8x8 & 0xf;
- mask_4x4_r = mask_4x4 & 0xf;
- }
-
-#if CONFIG_VP9_HIGHBITDEPTH
- if (cm->use_highbitdepth) {
- highbd_filter_selectively_horiz(CONVERT_TO_SHORTPTR(dst->buf),
- dst->stride, mask_16x16_r, mask_8x8_r,
- mask_4x4_r, mask_4x4_int_r, &cm->lf_info,
- &lfm->lfl_uv[r << 1], (int)cm->bit_depth);
- } else {
- filter_selectively_horiz(dst->buf, dst->stride, mask_16x16_r, mask_8x8_r,
- mask_4x4_r, mask_4x4_int_r, &cm->lf_info,
- &lfm->lfl_uv[r << 1]);
- }
-#else
- filter_selectively_horiz(dst->buf, dst->stride, mask_16x16_r, mask_8x8_r,
- mask_4x4_r, mask_4x4_int_r, &cm->lf_info,
- &lfm->lfl_uv[r << 1]);
-#endif // CONFIG_VP9_HIGHBITDEPTH
-
- dst->buf += 8 * dst->stride;
- mask_16x16 >>= 4;
- mask_8x8 >>= 4;
- mask_4x4 >>= 4;
- mask_4x4_int >>= 4;
- }
-}
-
-void vp10_loop_filter_rows(YV12_BUFFER_CONFIG *frame_buffer,
- VP10_COMMON *cm,
- struct macroblockd_plane planes[MAX_MB_PLANE],
- int start, int stop, int y_only) {
- const int num_planes = y_only ? 1 : MAX_MB_PLANE;
- enum lf_path path;
- LOOP_FILTER_MASK lfm;
- int mi_row, mi_col;
-
- if (y_only)
- path = LF_PATH_444;
- else if (planes[1].subsampling_y == 1 && planes[1].subsampling_x == 1)
- path = LF_PATH_420;
- else if (planes[1].subsampling_y == 0 && planes[1].subsampling_x == 0)
- path = LF_PATH_444;
- else
- path = LF_PATH_SLOW;
-
- for (mi_row = start; mi_row < stop; mi_row += MI_BLOCK_SIZE) {
- MODE_INFO **mi = cm->mi_grid_visible + mi_row * cm->mi_stride;
-
- for (mi_col = 0; mi_col < cm->mi_cols; mi_col += MI_BLOCK_SIZE) {
- int plane;
-
- vp10_setup_dst_planes(planes, frame_buffer, mi_row, mi_col);
-
- // TODO(JBB): Make setup_mask work for non 420.
- vp10_setup_mask(cm, mi_row, mi_col, mi + mi_col, cm->mi_stride,
- &lfm);
-
- vp10_filter_block_plane_ss00(cm, &planes[0], mi_row, &lfm);
- for (plane = 1; plane < num_planes; ++plane) {
- switch (path) {
- case LF_PATH_420:
- vp10_filter_block_plane_ss11(cm, &planes[plane], mi_row, &lfm);
- break;
- case LF_PATH_444:
- vp10_filter_block_plane_ss00(cm, &planes[plane], mi_row, &lfm);
- break;
- case LF_PATH_SLOW:
- vp10_filter_block_plane_non420(cm, &planes[plane], mi + mi_col,
- mi_row, mi_col);
- break;
- }
- }
- }
- }
-}
-
-void vp10_loop_filter_frame(YV12_BUFFER_CONFIG *frame,
- VP10_COMMON *cm, MACROBLOCKD *xd,
- int frame_filter_level,
- int y_only, int partial_frame) {
- int start_mi_row, end_mi_row, mi_rows_to_filter;
- if (!frame_filter_level) return;
- start_mi_row = 0;
- mi_rows_to_filter = cm->mi_rows;
- if (partial_frame && cm->mi_rows > 8) {
- start_mi_row = cm->mi_rows >> 1;
- start_mi_row &= 0xfffffff8;
- mi_rows_to_filter = VPXMAX(cm->mi_rows / 8, 8);
- }
- end_mi_row = start_mi_row + mi_rows_to_filter;
- vp10_loop_filter_frame_init(cm, frame_filter_level);
- vp10_loop_filter_rows(frame, cm, xd->plane,
- start_mi_row, end_mi_row,
- y_only);
-}
-
-void vp10_loop_filter_data_reset(
- LFWorkerData *lf_data, YV12_BUFFER_CONFIG *frame_buffer,
- struct VP10Common *cm,
- const struct macroblockd_plane planes[MAX_MB_PLANE]) {
- lf_data->frame_buffer = frame_buffer;
- lf_data->cm = cm;
- lf_data->start = 0;
- lf_data->stop = 0;
- lf_data->y_only = 0;
- memcpy(lf_data->planes, planes, sizeof(lf_data->planes));
-}
-
-int vp10_loop_filter_worker(LFWorkerData *const lf_data, void *unused) {
- (void)unused;
- vp10_loop_filter_rows(lf_data->frame_buffer, lf_data->cm, lf_data->planes,
- lf_data->start, lf_data->stop, lf_data->y_only);
- return 1;
-}
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