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https://github.com/ultravideo/uvg266.git
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4dcc0d876d
Value in cfg stays -1 if auto selection is used. Use value in encoder instead.
176 lines
6 KiB
C
176 lines
6 KiB
C
/*****************************************************************************
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* This file is part of Kvazaar HEVC encoder.
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*
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* Copyright (C) 2013-2015 Tampere University of Technology and others (see
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* COPYING file).
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*
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* Kvazaar is free software: you can redistribute it and/or modify it under
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* the terms of the GNU Lesser General Public License as published by the
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* Free Software Foundation; either version 2.1 of the License, or (at your
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* option) any later version.
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*
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* Kvazaar is distributed in the hope that it will be useful, but WITHOUT ANY
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* WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
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* FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for
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* more details.
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*
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* You should have received a copy of the GNU General Public License along
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* with Kvazaar. If not, see <http://www.gnu.org/licenses/>.
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****************************************************************************/
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#include "rate_control.h"
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#include <math.h>
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static const int SMOOTHING_WINDOW = 40;
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/**
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* \brief Update alpha and beta parameters.
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* \param state the main encoder state
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*
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* Sets global->rc_alpha and global->rc_beta of the encoder state.
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*/
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static void update_rc_parameters(encoder_state_t * state)
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{
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const encoder_control_t * const encoder = state->encoder_control;
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const double pixels_per_picture = encoder->in.width * encoder->in.height;
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const double bpp = state->stats_bitstream_length * 8 / pixels_per_picture;
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const double log_bpp = log(bpp);
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const double alpha_old = state->global->rc_alpha;
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const double beta_old = state->global->rc_beta;
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// lambda computed from real bpp
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const double lambda_comp = CLIP(0.1, 10000, alpha_old * pow(bpp, beta_old));
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// lambda used in encoding
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const double lambda_real = state->global->cur_lambda_cost;
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const double lambda_log_ratio = log(lambda_real) - log(lambda_comp);
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const double alpha = alpha_old + 0.1 * lambda_log_ratio * alpha_old;
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state->global->rc_alpha = CLIP(0.05, 20, alpha);
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const double beta = beta_old + 0.05 * lambda_log_ratio * CLIP(-5, 1, log_bpp);
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state->global->rc_beta = CLIP(-3, -0.1, beta);
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}
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/**
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* \brief Allocate bits for the current GOP.
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* \param state the main encoder state
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*
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* If GOPs are not used, allocates bits for a single picture.
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*
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* Sets the cur_gop_target_bits of the encoder state.
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*/
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static void gop_allocate_bits(encoder_state_t * const state)
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{
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const encoder_control_t * const encoder = state->encoder_control;
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// At this point, total_bits_coded of the current state contains the
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// number of bits written encoder->owf frames before the current frame.
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int bits_coded = state->global->total_bits_coded;
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int pictures_coded = MAX(0, state->global->frame - encoder->owf);
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int gop_offset = (state->global->gop_offset - encoder->owf) % MAX(1, encoder->cfg->gop_len);
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// Only take fully coded GOPs into account.
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if (encoder->cfg->gop_len > 0 && gop_offset != encoder->cfg->gop_len - 1) {
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// Subtract number of bits in the partially coded GOP.
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bits_coded -= state->global->cur_gop_bits_coded;
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// Subtract number of pictures in the partially coded GOP.
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pictures_coded -= gop_offset + 1;
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}
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double gop_target_bits =
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(encoder->target_avg_bppic * (pictures_coded + SMOOTHING_WINDOW) - bits_coded)
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* MAX(1, encoder->cfg->gop_len) / SMOOTHING_WINDOW;
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state->global->cur_gop_target_bits = MAX(200, gop_target_bits);
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}
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/**
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* Allocate bits for the current picture.
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* \param state the main encoder state
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* \return target number of bits
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*/
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static double pic_allocate_bits(const encoder_state_t * const state)
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{
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const encoder_control_t * const encoder = state->encoder_control;
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if (encoder->cfg->gop_len <= 0) {
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return state->global->cur_gop_target_bits;
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}
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const double pic_weight = encoder->gop_layer_weights[
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encoder->cfg->gop[state->global->gop_offset].layer - 1];
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double pic_target_bits = state->global->cur_gop_target_bits * pic_weight;
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return MAX(100, pic_target_bits);
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}
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/**
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* \brief Select a lambda value for encoding the next picture
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* \param state the main encoder state
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* \return lambda for the next picture
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*
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* Rate control must be enabled (i.e. cfg->target_bitrate > 0) when this
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* function is called.
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*/
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double select_picture_lambda(encoder_state_t * const state)
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{
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const encoder_control_t * const encoder = state->encoder_control;
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assert(encoder->cfg->target_bitrate > 0);
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if (state->global->frame > encoder->owf) {
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// At least one frame has been written.
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update_rc_parameters(state);
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}
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if (encoder->cfg->gop_len == 0 || state->global->gop_offset == 0) {
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// A new GOP begins at this frame.
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gop_allocate_bits(state);
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} else {
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state->global->cur_gop_target_bits =
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state->previous_encoder_state->global->cur_gop_target_bits;
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}
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// TODO: take the picture headers into account
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const double target_bits_current_picture = pic_allocate_bits(state);
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const double target_bits_per_pixel =
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target_bits_current_picture / encoder->in.pixels_per_pic;
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const double lambda =
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state->global->rc_alpha * pow(target_bits_per_pixel, state->global->rc_beta);
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return CLIP(0.1, 10000, lambda);
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}
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int8_t lambda_to_QP(const double lambda)
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{
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const int8_t qp = 4.2005 * log(lambda) + 13.7223 + 0.5;
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return CLIP(0, 51, qp);
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}
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/**
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* \brief Select a lambda value according to current QP value
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* \param state the main encoder state
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* \return lambda for the next picture
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*
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* This function should be used to select lambda when rate control is
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* disabled.
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*/
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double select_picture_lambda_from_qp(encoder_state_t const * const state)
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{
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const int gop_len = state->encoder_control->cfg->gop_len;
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const double qp_temp = state->global->QP - 12;
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double qp_factor;
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if (state->global->slicetype == SLICE_I) {
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const double lambda_scale = 1.0 - CLIP(0.0, 0.5, 0.05 * gop_len);
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qp_factor = 0.57 * lambda_scale;
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} else if (gop_len > 0) {
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qp_factor = 0.95 * state->global->QP_factor;
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} else {
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// default QP factor from HM config
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qp_factor = 0.95 * 0.4624;
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}
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const double lambda = qp_factor * pow(2.0, qp_temp / 3.0);
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return lambda;
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}
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