ref: 4baffb97e35030d0d3a4c27bfb255af1c3e7c6f3
dir: /vp8/common/mfqe.c/
/* * Copyright (c) 2012 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. */ /* MFQE: Multiframe Quality Enhancement * In rate limited situations keyframes may cause significant visual artifacts * commonly referred to as "popping." This file implements a postproccesing * algorithm which blends data from the preceeding frame when there is no * motion and the q from the previous frame is lower which indicates that it is * higher quality. */ #include "./vp8_rtcd.h" #include "./vpx_dsp_rtcd.h" #include "vp8/common/common.h" #include "vp8/common/postproc.h" #include "vpx_dsp/variance.h" #include "vpx_mem/vpx_mem.h" #include "vpx_scale/yv12config.h" #include <limits.h> #include <stdlib.h> static void filter_by_weight(unsigned char *src, int src_stride, unsigned char *dst, int dst_stride, int block_size, int src_weight) { int dst_weight = (1 << MFQE_PRECISION) - src_weight; int rounding_bit = 1 << (MFQE_PRECISION - 1); int r, c; for (r = 0; r < block_size; ++r) { for (c = 0; c < block_size; ++c) { dst[c] = (src[c] * src_weight + dst[c] * dst_weight + rounding_bit) >> MFQE_PRECISION; } src += src_stride; dst += dst_stride; } } void vp8_filter_by_weight16x16_c(unsigned char *src, int src_stride, unsigned char *dst, int dst_stride, int src_weight) { filter_by_weight(src, src_stride, dst, dst_stride, 16, src_weight); } void vp8_filter_by_weight8x8_c(unsigned char *src, int src_stride, unsigned char *dst, int dst_stride, int src_weight) { filter_by_weight(src, src_stride, dst, dst_stride, 8, src_weight); } void vp8_filter_by_weight4x4_c(unsigned char *src, int src_stride, unsigned char *dst, int dst_stride, int src_weight) { filter_by_weight(src, src_stride, dst, dst_stride, 4, src_weight); } static void apply_ifactor(unsigned char *y_src, int y_src_stride, unsigned char *y_dst, int y_dst_stride, unsigned char *u_src, unsigned char *v_src, int uv_src_stride, unsigned char *u_dst, unsigned char *v_dst, int uv_dst_stride, int block_size, int src_weight) { if (block_size == 16) { vp8_filter_by_weight16x16(y_src, y_src_stride, y_dst, y_dst_stride, src_weight); vp8_filter_by_weight8x8(u_src, uv_src_stride, u_dst, uv_dst_stride, src_weight); vp8_filter_by_weight8x8(v_src, uv_src_stride, v_dst, uv_dst_stride, src_weight); } else { vp8_filter_by_weight8x8(y_src, y_src_stride, y_dst, y_dst_stride, src_weight); vp8_filter_by_weight4x4(u_src, uv_src_stride, u_dst, uv_dst_stride, src_weight); vp8_filter_by_weight4x4(v_src, uv_src_stride, v_dst, uv_dst_stride, src_weight); } } static unsigned int int_sqrt(unsigned int x) { unsigned int y = x; unsigned int guess; int p = 1; while (y >>= 1) p++; p >>= 1; guess = 0; while (p >= 0) { guess |= (1 << p); if (x < guess * guess) guess -= (1 << p); p--; } /* choose between guess or guess+1 */ return guess + (guess * guess + guess + 1 <= x); } #define USE_SSD static void multiframe_quality_enhance_block( int blksize, /* Currently only values supported are 16, 8 */ int qcurr, int qprev, unsigned char *y, unsigned char *u, unsigned char *v, int y_stride, int uv_stride, unsigned char *yd, unsigned char *ud, unsigned char *vd, int yd_stride, int uvd_stride) { static const unsigned char VP8_ZEROS[16] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 }; int uvblksize = blksize >> 1; int qdiff = qcurr - qprev; int i; unsigned char *up; unsigned char *udp; unsigned char *vp; unsigned char *vdp; unsigned int act, actd, sad, usad, vsad, sse, thr, thrsq, actrisk; if (blksize == 16) { actd = (vpx_variance16x16(yd, yd_stride, VP8_ZEROS, 0, &sse) + 128) >> 8; act = (vpx_variance16x16(y, y_stride, VP8_ZEROS, 0, &sse) + 128) >> 8; #ifdef USE_SSD vpx_variance16x16(y, y_stride, yd, yd_stride, &sse); sad = (sse + 128) >> 8; vpx_variance8x8(u, uv_stride, ud, uvd_stride, &sse); usad = (sse + 32) >> 6; vpx_variance8x8(v, uv_stride, vd, uvd_stride, &sse); vsad = (sse + 32) >> 6; #else sad = (vpx_sad16x16(y, y_stride, yd, yd_stride) + 128) >> 8; usad = (vpx_sad8x8(u, uv_stride, ud, uvd_stride) + 32) >> 6; vsad = (vpx_sad8x8(v, uv_stride, vd, uvd_stride) + 32) >> 6; #endif } else { actd = (vpx_variance8x8(yd, yd_stride, VP8_ZEROS, 0, &sse) + 32) >> 6; act = (vpx_variance8x8(y, y_stride, VP8_ZEROS, 0, &sse) + 32) >> 6; #ifdef USE_SSD vpx_variance8x8(y, y_stride, yd, yd_stride, &sse); sad = (sse + 32) >> 6; vpx_variance4x4(u, uv_stride, ud, uvd_stride, &sse); usad = (sse + 8) >> 4; vpx_variance4x4(v, uv_stride, vd, uvd_stride, &sse); vsad = (sse + 8) >> 4; #else sad = (vpx_sad8x8(y, y_stride, yd, yd_stride) + 32) >> 6; usad = (vpx_sad4x4(u, uv_stride, ud, uvd_stride) + 8) >> 4; vsad = (vpx_sad4x4(v, uv_stride, vd, uvd_stride) + 8) >> 4; #endif } actrisk = (actd > act * 5); /* thr = qdiff/16 + log2(act) + log4(qprev) */ thr = (qdiff >> 4); while (actd >>= 1) thr++; while (qprev >>= 2) thr++; #ifdef USE_SSD thrsq = thr * thr; if (sad < thrsq && /* additional checks for color mismatch and excessive addition of * high-frequencies */ 4 * usad < thrsq && 4 * vsad < thrsq && !actrisk) #else if (sad < thr && /* additional checks for color mismatch and excessive addition of * high-frequencies */ 2 * usad < thr && 2 * vsad < thr && !actrisk) #endif { int ifactor; #ifdef USE_SSD /* TODO: optimize this later to not need sqr root */ sad = int_sqrt(sad); #endif ifactor = (sad << MFQE_PRECISION) / thr; ifactor >>= (qdiff >> 5); if (ifactor) { apply_ifactor(y, y_stride, yd, yd_stride, u, v, uv_stride, ud, vd, uvd_stride, blksize, ifactor); } } else { /* else implicitly copy from previous frame */ if (blksize == 16) { vp8_copy_mem16x16(y, y_stride, yd, yd_stride); vp8_copy_mem8x8(u, uv_stride, ud, uvd_stride); vp8_copy_mem8x8(v, uv_stride, vd, uvd_stride); } else { vp8_copy_mem8x8(y, y_stride, yd, yd_stride); for (up = u, udp = ud, i = 0; i < uvblksize; ++i, up += uv_stride, udp += uvd_stride) { memcpy(udp, up, uvblksize); } for (vp = v, vdp = vd, i = 0; i < uvblksize; ++i, vp += uv_stride, vdp += uvd_stride) { memcpy(vdp, vp, uvblksize); } } } } static int qualify_inter_mb(const MODE_INFO *mode_info_context, int *map) { if (mode_info_context->mbmi.mb_skip_coeff) { map[0] = map[1] = map[2] = map[3] = 1; } else if (mode_info_context->mbmi.mode == SPLITMV) { static int ndx[4][4] = { { 0, 1, 4, 5 }, { 2, 3, 6, 7 }, { 8, 9, 12, 13 }, { 10, 11, 14, 15 } }; int i, j; vp8_zero(*map); for (i = 0; i < 4; ++i) { map[i] = 1; for (j = 0; j < 4 && map[j]; ++j) { map[i] &= (mode_info_context->bmi[ndx[i][j]].mv.as_mv.row <= 2 && mode_info_context->bmi[ndx[i][j]].mv.as_mv.col <= 2); } } } else { map[0] = map[1] = map[2] = map[3] = (mode_info_context->mbmi.mode > B_PRED && abs(mode_info_context->mbmi.mv.as_mv.row) <= 2 && abs(mode_info_context->mbmi.mv.as_mv.col) <= 2); } return (map[0] + map[1] + map[2] + map[3]); } void vp8_multiframe_quality_enhance(VP8_COMMON *cm) { YV12_BUFFER_CONFIG *show = cm->frame_to_show; YV12_BUFFER_CONFIG *dest = &cm->post_proc_buffer; FRAME_TYPE frame_type = cm->frame_type; /* Point at base of Mb MODE_INFO list has motion vectors etc */ const MODE_INFO *mode_info_context = cm->mi; int mb_row; int mb_col; int totmap, map[4]; int qcurr = cm->base_qindex; int qprev = cm->postproc_state.last_base_qindex; unsigned char *y_ptr, *u_ptr, *v_ptr; unsigned char *yd_ptr, *ud_ptr, *vd_ptr; /* Set up the buffer pointers */ y_ptr = show->y_buffer; u_ptr = show->u_buffer; v_ptr = show->v_buffer; yd_ptr = dest->y_buffer; ud_ptr = dest->u_buffer; vd_ptr = dest->v_buffer; /* postprocess each macro block */ for (mb_row = 0; mb_row < cm->mb_rows; ++mb_row) { for (mb_col = 0; mb_col < cm->mb_cols; ++mb_col) { /* if motion is high there will likely be no benefit */ if (frame_type == INTER_FRAME) { totmap = qualify_inter_mb(mode_info_context, map); } else { totmap = (frame_type == KEY_FRAME ? 4 : 0); } if (totmap) { if (totmap < 4) { int i, j; for (i = 0; i < 2; ++i) { for (j = 0; j < 2; ++j) { if (map[i * 2 + j]) { multiframe_quality_enhance_block( 8, qcurr, qprev, y_ptr + 8 * (i * show->y_stride + j), u_ptr + 4 * (i * show->uv_stride + j), v_ptr + 4 * (i * show->uv_stride + j), show->y_stride, show->uv_stride, yd_ptr + 8 * (i * dest->y_stride + j), ud_ptr + 4 * (i * dest->uv_stride + j), vd_ptr + 4 * (i * dest->uv_stride + j), dest->y_stride, dest->uv_stride); } else { /* copy a 8x8 block */ int k; unsigned char *up = u_ptr + 4 * (i * show->uv_stride + j); unsigned char *udp = ud_ptr + 4 * (i * dest->uv_stride + j); unsigned char *vp = v_ptr + 4 * (i * show->uv_stride + j); unsigned char *vdp = vd_ptr + 4 * (i * dest->uv_stride + j); vp8_copy_mem8x8( y_ptr + 8 * (i * show->y_stride + j), show->y_stride, yd_ptr + 8 * (i * dest->y_stride + j), dest->y_stride); for (k = 0; k < 4; ++k, up += show->uv_stride, udp += dest->uv_stride, vp += show->uv_stride, vdp += dest->uv_stride) { memcpy(udp, up, 4); memcpy(vdp, vp, 4); } } } } } else { /* totmap = 4 */ multiframe_quality_enhance_block( 16, qcurr, qprev, y_ptr, u_ptr, v_ptr, show->y_stride, show->uv_stride, yd_ptr, ud_ptr, vd_ptr, dest->y_stride, dest->uv_stride); } } else { vp8_copy_mem16x16(y_ptr, show->y_stride, yd_ptr, dest->y_stride); vp8_copy_mem8x8(u_ptr, show->uv_stride, ud_ptr, dest->uv_stride); vp8_copy_mem8x8(v_ptr, show->uv_stride, vd_ptr, dest->uv_stride); } y_ptr += 16; u_ptr += 8; v_ptr += 8; yd_ptr += 16; ud_ptr += 8; vd_ptr += 8; mode_info_context++; /* step to next MB */ } y_ptr += show->y_stride * 16 - 16 * cm->mb_cols; u_ptr += show->uv_stride * 8 - 8 * cm->mb_cols; v_ptr += show->uv_stride * 8 - 8 * cm->mb_cols; yd_ptr += dest->y_stride * 16 - 16 * cm->mb_cols; ud_ptr += dest->uv_stride * 8 - 8 * cm->mb_cols; vd_ptr += dest->uv_stride * 8 - 8 * cm->mb_cols; mode_info_context++; /* Skip border mb */ } }