uvg266/src/encoder.c

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/**
* HEVC Encoder
* - Marko Viitanen ( fador at iki.fi ), Tampere University of Technology, Department of Computer Systems.
*/
/*! \file encoder.c
\brief Encoding related functions
\author Marko Viitanen
\date 2012-06
Encoder main level
*/
/* Suppress some windows warnings */
#ifdef WIN32
#define _CRT_SECURE_NO_WARNINGS
#endif
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "global.h"
#include "config.h"
#include "encoder.h"
#include "cabac.h"
#include "picture.h"
#include "nal.h"
void init_encoder_control(encoder_control* control,bitstream* output) {control->stream = output;};
void init_encoder_input(encoder_input* input,FILE* inputfile, uint32_t width, uint32_t height)
{
input->file = inputfile;
input->width = width;
input->height = height;
input->height_in_LCU = height / LCU_WIDTH;
input->width_in_LCU = width / LCU_WIDTH;
if(input->height_in_LCU * LCU_WIDTH < height)
input->height_in_LCU++;
if(input->width_in_LCU * LCU_WIDTH < width)
input->width_in_LCU++;
input->cur_pic.width = width;
input->cur_pic.height = height;
input->cur_pic.referenced = 0;
/* Allocate buffers */
input->cur_pic.yData = (uint8_t *)malloc(width*height);
input->cur_pic.uData = (uint8_t *)malloc((width*height)>>2);
input->cur_pic.vData = (uint8_t *)malloc((width*height)>>2);
};
void encode_one_frame(encoder_control* encoder)
{
//output parameters before first frame
if(encoder->frame == 0)
{
encode_seq_parameter_set(encoder);
bitstream_align(encoder->stream);
bitstream_flush(encoder->stream);
nal_write(encoder->output, encoder->stream->buffer, encoder->stream->buffer_pos, 1, NAL_SEQ_PARAMETER_SET, 0);
bitstream_clear_buffer(encoder->stream);
encode_pic_parameter_set(encoder);
bitstream_align(encoder->stream);
bitstream_flush(encoder->stream);
nal_write(encoder->output, encoder->stream->buffer, encoder->stream->buffer_pos, 1, NAL_PIC_PARAMETER_SET, 0);
bitstream_clear_buffer(encoder->stream);
2012-06-05 14:45:17 +00:00
encode_slice_header(encoder);
encode_slice_data(encoder);
cabac_flush(&cabac);
bitstream_align(encoder->stream);
bitstream_flush(encoder->stream);
nal_write(encoder->output, encoder->stream->buffer, encoder->stream->buffer_pos, 0, NAL_IDR_SLICE, 0);
bitstream_clear_buffer(encoder->stream);
}
else
{
encode_slice_header(encoder);
encode_slice_data(encoder);
cabac_flush(&cabac);
bitstream_align(encoder->stream);
bitstream_flush(encoder->stream);
nal_write(encoder->output, encoder->stream->buffer, encoder->stream->buffer_pos, 0, NAL_IDR_SLICE, 0);
bitstream_clear_buffer(encoder->stream);
}
}
void encode_pic_parameter_set(encoder_control* encoder)
{
#ifdef _DEBUG
printf("=========== Picture Parameter Set ID: 0 ===========\n");
#endif
WRITE_UE(encoder->stream, 0, "pic_parameter_set_id");
WRITE_UE(encoder->stream, 0, "seq_parameter_set_id");
WRITE_U(encoder->stream, 0, 1, "sign_data_hiding_flag");
WRITE_U(encoder->stream, 0, 1, "cabac_init_present_flag");
WRITE_U(encoder->stream, 0, 3, "num_ref_idx_l0_default_active_minus1");
WRITE_U(encoder->stream, 0, 3, "num_ref_idx_l1_default_active_minus1");
/*
//Should be this
WRITE_UE(encoder->stream, 0, "num_ref_idx_l0_default_active_minus1");
WRITE_UE(encoder->stream, 0, "num_ref_idx_l1_default_active_minus1");
*/
WRITE_SE(encoder->stream, 0, "pic_init_qp_minus26");
WRITE_U(encoder->stream, 0, 1, "constrained_intra_pred_flag");
WRITE_U(encoder->stream, 0, 1, "enable_temporal_mvp_flag");
WRITE_U(encoder->stream, 0, 2, "slice_granularity");
WRITE_UE(encoder->stream, 0, "max_cu_qp_delta_depth");
WRITE_SE(encoder->stream, 0, "cb_qp_offset");
WRITE_SE(encoder->stream, 0, "cr_qp_offset");
WRITE_U(encoder->stream, 0, 1, "weighted_pred_flag");
WRITE_U(encoder->stream, 0, 2, "weighted_bipred_idc");
WRITE_U(encoder->stream, 1, 1, "output_flag_present_flag");
WRITE_U(encoder->stream, 0, 1, "deblocking_filter_control_present_flag");
WRITE_UE(encoder->stream, 0, "log2_parallel_merge_level_minus2");
WRITE_U(encoder->stream, 0, 1, "pps_extension_flag");
}
void encode_seq_parameter_set(encoder_control* encoder)
{
#ifdef _DEBUG
printf("=========== Sequence Parameter Set ID: 0 ===========\n");
#endif
WRITE_U(encoder->stream, 0, 8, "profile_idc");
WRITE_U(encoder->stream, 0, 8, "reserved_zero_8bits");
WRITE_U(encoder->stream, 0, 8, "level_idc");
WRITE_UE(encoder->stream, 0, "seq_parameter_set_id");
WRITE_UE(encoder->stream, 0, "chroma_format_idc"); /* 0 = 4:0:0, 1 = 4:2:0, 2 = 4:2:2, 3 = 4:4:4 */
WRITE_U(encoder->stream, 0, 3, "max_temporal_layers_minus1");
WRITE_UE(encoder->stream, encoder->in.width, "pic_width_in_luma_samples");
WRITE_UE(encoder->stream, encoder->in.height, "pic_height_in_luma_samples");
WRITE_U(encoder->stream, 0, 1, "pic_cropping_flag");
WRITE_UE(encoder->stream, 0, "bit_depth_luma_minus8");
WRITE_UE(encoder->stream, 0, "bit_depth_chroma_minus8");
WRITE_U(encoder->stream, 1, 1, "pcm_enabled_flag");
WRITE_U(encoder->stream, 7, 4, "pcm_bit_depth_luma_minus1");
WRITE_U(encoder->stream, 7, 4, "pcm_bit_depth_chroma_minus1");
WRITE_U(encoder->stream, 0, 1, "qpprime_y_zero_transquant_bypass_flag");
WRITE_UE(encoder->stream, 0, "log2_max_pic_order_cnt_lsb_minus4");
WRITE_UE(encoder->stream, 0, "max_dec_pic_buffering");
WRITE_UE(encoder->stream, 0, "num_reorder_pics");
WRITE_UE(encoder->stream, 0, "max_latency_increase");
WRITE_U(encoder->stream, 0, 1, "restricted_ref_pic_lists_flag");
WRITE_UE(encoder->stream, 0, "log2_min_coding_block_size_minus3");
WRITE_UE(encoder->stream, 3, "log2_diff_max_min_coding_block_size");
WRITE_UE(encoder->stream, 0, "log2_min_transform_block_size_minus2");
WRITE_UE(encoder->stream, 3, "log2_diff_max_min_transform_block_size");
//If log2MinCUSize == 3
WRITE_U(encoder->stream, 0, 1, "DisInter4x4");
//IF PCM
{
WRITE_UE(encoder->stream, 0, "log2_min_pcm_coding_block_size_minus3");
WRITE_UE(encoder->stream, 0, "log2_diff_max_min_pcm_coding_block_size");
}
WRITE_UE(encoder->stream, 2, "max_transform_hierarchy_depth_inter");
WRITE_UE(encoder->stream, 2, "max_transform_hierarchy_depth_intra");
WRITE_U(encoder->stream, 0, 1, "scaling_list_enable_flag");
WRITE_U(encoder->stream, 0, 1, "chroma_pred_from_luma_enabled_flag");
WRITE_U(encoder->stream, 0, 1, "transform_skip_enabled_flag");
WRITE_U(encoder->stream, 0, 1, "deblocking_filter_in_aps_enabled_flag");
WRITE_U(encoder->stream, 0, 1, "seq_loop_filter_across_slices_enabled_flag");
WRITE_U(encoder->stream, 0, 1, "asymmetric_motion_partitions_enabled_flag");
WRITE_U(encoder->stream, 0, 1, "nsrqt_enabled_flag");
WRITE_U(encoder->stream, 0, 1, "sample_adaptive_offset_enabled_flag");
WRITE_U(encoder->stream, 0, 1, "adaptive_loop_filter_enabled_flag");
//IF PCM
WRITE_U(encoder->stream, 0, 1, "pcm_loop_filter_disable_flag");
//endif
WRITE_U(encoder->stream, 0, 1, "temporal_id_nesting_flag");
WRITE_UE(encoder->stream, 0, "num_short_term_ref_pic_sets");
WRITE_U(encoder->stream, 0, 1, "long_term_ref_pics_present_flag");
WRITE_U(encoder->stream, 0, 2, "tiles_or_entropy_coding_sync_idc");
WRITE_U(encoder->stream, 0, 1, "sps_extension_flag");
}
void encode_slice_header(encoder_control* encoder)
{
#ifdef _DEBUG
printf("=========== Slice ===========\n");
#endif
WRITE_U(encoder->stream, 1, 1, "first_slice_in_pic_flag");
WRITE_UE(encoder->stream, SLICE_I, "slice_type");
WRITE_U(encoder->stream, 0, 1, "entropy_slice_flag");
// if !entropy_slice_flag
WRITE_UE(encoder->stream, 0, "pic_parameter_set_id");
//if output_flag_present_flag
WRITE_U(encoder->stream, 1, 1, "pic_output_flag");
//end if
//if( IdrPicFlag ) <- nal_unit_type == 5
WRITE_UE(encoder->stream, encoder->frame&1, "idr_pic_id");
WRITE_U(encoder->stream, 0, 1, "no_output_of_prior_pics_flag");
//else
/*
*/
//end if
//end if
/*
Skip unpresent flags */
// if !entropy_slice_flag
WRITE_UE(encoder->stream, 0, "slice_qp_delta");
WRITE_UE(encoder->stream, 0, "5_minus_max_num_merge_cand");
}
cabac_ctx SplitFlagSCModel;
void encode_slice_data(encoder_control* encoder)
{
uint16_t xCtb,yCtb;
cxt_init(&SplitFlagSCModel, 26, 0);
cxt_init(&cabac.ctx, 26, 0);
for(yCtb = 0; yCtb < encoder->in.height_in_LCU; yCtb++)
{
for(xCtb = 0; xCtb < encoder->in.width_in_LCU; xCtb++)
{
uint8_t depth = 0;
encode_coding_tree(encoder, xCtb,yCtb, depth);
}
}
}
void encode_coding_tree(encoder_control* encoder,uint16_t xCtb,uint16_t yCtb, uint8_t depth)
{
//Split flag
cabac_encodeBin(&cabac, 5);
/* coding_unit( x0, y0, log2CbSize ) */
/* prediction_unit 2Nx2N*/
//If MODE_INTRA
//endif
/* end prediction unit */
cabac_encodeBin(&cabac, 0); //prev_intra_luma_pred_flag
cabac_encodeBin(&cabac, 1); //rem_intra_luma_pred_mode
/* end coding_unit */
}