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/******************************************************************************
*
* Copyright (C) 2015 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
*****************************************************************************
* Originally developed and contributed by Ittiam Systems Pvt. Ltd, Bangalore
*/
/**
*******************************************************************************
* @file
* ih264e_process.c
*
* @brief
* Contains functions for codec thread
*
* @author
* Harish
*
* @par List of Functions:
* - ih264e_generate_sps_pps()
* - ih264e_init_entropy_ctxt()
* - ih264e_entropy()
* - ih264e_pack_header_data()
* - ih264e_update_proc_ctxt()
* - ih264e_init_proc_ctxt()
* - ih264e_pad_recon_buffer()
* - ih264e_dblk_pad_hpel_processing_n_mbs()
* - ih264e_process()
* - ih264e_set_rc_pic_params()
* - ih264e_update_rc_post_enc()
* - ih264e_process_thread()
*
* @remarks
* None
*
*******************************************************************************
*/
/*****************************************************************************/
/* File Includes */
/*****************************************************************************/
/* System include files */
#include <stdio.h>
#include <stddef.h>
#include <stdlib.h>
#include <string.h>
#include <limits.h>
#include <assert.h>
/* User include files */
#include "ih264_typedefs.h"
#include "iv2.h"
#include "ive2.h"
#include "ih264_defs.h"
#include "ih264_debug.h"
#include "ime_distortion_metrics.h"
#include "ime_defs.h"
#include "ime_structs.h"
#include "ih264_error.h"
#include "ih264_structs.h"
#include "ih264_trans_quant_itrans_iquant.h"
#include "ih264_inter_pred_filters.h"
#include "ih264_mem_fns.h"
#include "ih264_padding.h"
#include "ih264_intra_pred_filters.h"
#include "ih264_deblk_edge_filters.h"
#include "ih264_cabac_tables.h"
#include "ih264_platform_macros.h"
#include "ih264_macros.h"
#include "ih264_buf_mgr.h"
#include "ih264e_error.h"
#include "ih264e_bitstream.h"
#include "ih264_common_tables.h"
#include "ih264_list.h"
#include "ih264e_defs.h"
#include "irc_cntrl_param.h"
#include "irc_frame_info_collector.h"
#include "ih264e_rate_control.h"
#include "ih264e_cabac_structs.h"
#include "ih264e_structs.h"
#include "ih264e_cabac.h"
#include "ih264e_process.h"
#include "ithread.h"
#include "ih264e_intra_modes_eval.h"
#include "ih264e_encode_header.h"
#include "ih264e_globals.h"
#include "ih264e_config.h"
#include "ih264e_trace.h"
#include "ih264e_statistics.h"
#include "ih264_cavlc_tables.h"
#include "ih264e_cavlc.h"
#include "ih264e_deblk.h"
#include "ih264e_me.h"
#include "ih264e_debug.h"
#include "ih264e_master.h"
#include "ih264e_utils.h"
#include "irc_mem_req_and_acq.h"
#include "irc_rate_control_api.h"
#include "ih264e_platform_macros.h"
#include "ime_statistics.h"
/*****************************************************************************/
/* Function Definitions */
/*****************************************************************************/
/**
******************************************************************************
*
* @brief This function generates sps, pps set on request
*
* @par Description
* When the encoder is set in header generation mode, the following function
* is called. This generates sps and pps headers and returns the control back
* to caller.
*
* @param[in] ps_codec
* pointer to codec context
*
* @return success or failure error code
*
******************************************************************************
*/
IH264E_ERROR_T ih264e_generate_sps_pps(codec_t *ps_codec)
{
/* choose between ping-pong process buffer set */
WORD32 ctxt_sel = ps_codec->i4_encode_api_call_cnt % MAX_CTXT_SETS;
/* entropy ctxt */
entropy_ctxt_t *ps_entropy = &ps_codec->as_process[ctxt_sel * MAX_PROCESS_THREADS].s_entropy;
/* Bitstream structure */
bitstrm_t *ps_bitstrm = ps_entropy->ps_bitstrm;
/* sps */
sps_t *ps_sps = NULL;
/* pps */
pps_t *ps_pps = NULL;
/* output buff */
out_buf_t *ps_out_buf = &ps_codec->as_out_buf[ctxt_sel];
/********************************************************************/
/* initialize the bit stream buffer */
/********************************************************************/
ih264e_bitstrm_init(ps_bitstrm, ps_out_buf->s_bits_buf.pv_buf, ps_out_buf->s_bits_buf.u4_bufsize);
/********************************************************************/
/* BEGIN HEADER GENERATION */
/********************************************************************/
/*ps_codec->i4_pps_id ++;*/
ps_codec->i4_pps_id %= MAX_PPS_CNT;
/*ps_codec->i4_sps_id ++;*/
ps_codec->i4_sps_id %= MAX_SPS_CNT;
/* populate sps header */
ps_sps = ps_codec->ps_sps_base + ps_codec->i4_sps_id;
ih264e_populate_sps(ps_codec, ps_sps);
/* populate pps header */
ps_pps = ps_codec->ps_pps_base + ps_codec->i4_pps_id;
ih264e_populate_pps(ps_codec, ps_pps);
ps_entropy->i4_error_code = IH264E_SUCCESS;
/* generate sps */
ps_entropy->i4_error_code = ih264e_generate_sps(ps_bitstrm, ps_sps,
&ps_codec->s_cfg.s_vui);
if(ps_entropy->i4_error_code != IH264E_SUCCESS)
{
return ps_entropy->i4_error_code;
}
/* generate pps */
ps_entropy->i4_error_code = ih264e_generate_pps(ps_bitstrm, ps_pps, ps_sps);
/* queue output buffer */
ps_out_buf->s_bits_buf.u4_bytes = ps_bitstrm->u4_strm_buf_offset;
return ps_entropy->i4_error_code;
}
/**
*******************************************************************************
*
* @brief initialize entropy context.
*
* @par Description:
* Before invoking the call to perform to entropy coding the entropy context
* associated with the job needs to be initialized. This involves the start
* mb address, end mb address, slice index and the pointer to location at
* which the mb residue info and mb header info are packed.
*
* @param[in] ps_proc
* Pointer to the current process context
*
* @returns error status
*
* @remarks none
*
*******************************************************************************
*/
IH264E_ERROR_T ih264e_init_entropy_ctxt(process_ctxt_t *ps_proc)
{
/* codec context */
codec_t *ps_codec = ps_proc->ps_codec;
/* entropy ctxt */
entropy_ctxt_t *ps_entropy = &ps_proc->s_entropy;
/* start address */
ps_entropy->i4_mb_start_add = ps_entropy->i4_mb_y * ps_entropy->i4_wd_mbs + ps_entropy->i4_mb_x;
/* end address */
ps_entropy->i4_mb_end_add = ps_entropy->i4_mb_start_add + ps_entropy->i4_mb_cnt;
/* slice index */
ps_entropy->i4_cur_slice_idx = ps_proc->pu1_slice_idx[ps_entropy->i4_mb_start_add];
/* sof */
/* @ start of frame or start of a new slice, set sof flag */
if (ps_entropy->i4_mb_start_add == 0)
{
ps_entropy->i4_sof = 1;
}
if (ps_entropy->i4_mb_x == 0)
{
/* packed mb coeff data */
ps_entropy->pv_mb_coeff_data = ((UWORD8 *)ps_entropy->pv_pic_mb_coeff_data) +
ps_entropy->i4_mb_y * ps_codec->u4_size_coeff_data;
/* packed mb header data */
ps_entropy->pv_mb_header_data = ((UWORD8 *)ps_entropy->pv_pic_mb_header_data) +
ps_entropy->i4_mb_y * ps_codec->u4_size_header_data;
}
return IH264E_SUCCESS;
}
/**
*******************************************************************************
*
* @brief entry point for entropy coding
*
* @par Description
* This function calls lower level functions to perform entropy coding for a
* group (n rows) of mb's. After encoding 1 row of mb's, the function takes
* back the control, updates the ctxt and calls lower level functions again.
* This process is repeated till all the rows or group of mb's (which ever is
* minimum) are coded
*
* @param[in] ps_proc
* process context
*
* @returns error status
*
* @remarks
*
*******************************************************************************
*/
IH264E_ERROR_T ih264e_entropy(process_ctxt_t *ps_proc)
{
/* codec context */
codec_t *ps_codec = ps_proc->ps_codec;
/* entropy context */
entropy_ctxt_t *ps_entropy = &ps_proc->s_entropy;
/* cabac context */
cabac_ctxt_t *ps_cabac_ctxt = ps_entropy->ps_cabac;
/* sps */
sps_t *ps_sps = ps_entropy->ps_sps_base + (ps_entropy->u4_sps_id % MAX_SPS_CNT);
/* pps */
pps_t *ps_pps = ps_entropy->ps_pps_base + (ps_entropy->u4_pps_id % MAX_PPS_CNT);
/* slice header */
slice_header_t *ps_slice_hdr = ps_entropy->ps_slice_hdr_base + (ps_entropy->i4_cur_slice_idx % MAX_SLICE_HDR_CNT);
/* slice type */
WORD32 i4_slice_type = ps_proc->i4_slice_type;
/* Bitstream structure */
bitstrm_t *ps_bitstrm = ps_entropy->ps_bitstrm;
/* output buff */
out_buf_t s_out_buf;
/* sei params */
sei_params_t s_sei;
/* proc map */
UWORD8 *pu1_proc_map;
/* entropy map */
UWORD8 *pu1_entropy_map_curr;
/* proc base idx */
WORD32 ctxt_sel = ps_proc->i4_encode_api_call_cnt % MAX_CTXT_SETS;
/* temp var */
WORD32 i4_wd_mbs, i4_ht_mbs;
UWORD32 u4_mb_cnt, u4_mb_idx, u4_mb_end_idx, u4_insert_per_idr;
WORD32 bitstream_start_offset, bitstream_end_offset;
/********************************************************************/
/* BEGIN INIT */
/********************************************************************/
/* entropy encode start address */
u4_mb_idx = ps_entropy->i4_mb_start_add;
/* entropy encode end address */
u4_mb_end_idx = ps_entropy->i4_mb_end_add;
/* width in mbs */
i4_wd_mbs = ps_entropy->i4_wd_mbs;
/* height in mbs */
i4_ht_mbs = ps_entropy->i4_ht_mbs;
/* total mb cnt */
u4_mb_cnt = i4_wd_mbs * i4_ht_mbs;
/* proc map */
pu1_proc_map = ps_proc->pu1_proc_map + ps_entropy->i4_mb_y * i4_wd_mbs;
/* entropy map */
pu1_entropy_map_curr = ps_entropy->pu1_entropy_map + ps_entropy->i4_mb_y * i4_wd_mbs;
/********************************************************************/
/* @ start of frame / slice, */
/* initialize the output buffer, */
/* initialize the bit stream buffer, */
/* check if sps and pps headers have to be generated, */
/* populate and generate slice header */
/********************************************************************/
if (ps_entropy->i4_sof)
{
/********************************************************************/
/* initialize the output buffer */
/********************************************************************/
s_out_buf = ps_codec->as_out_buf[ctxt_sel];
/* is last frame to encode */
s_out_buf.u4_is_last = ps_entropy->u4_is_last;
/* frame idx */
s_out_buf.u4_timestamp_high = ps_entropy->u4_timestamp_high;
s_out_buf.u4_timestamp_low = ps_entropy->u4_timestamp_low;
/********************************************************************/
/* initialize the bit stream buffer */
/********************************************************************/
ih264e_bitstrm_init(ps_bitstrm, s_out_buf.s_bits_buf.pv_buf, s_out_buf.s_bits_buf.u4_bufsize);
/********************************************************************/
/* BEGIN HEADER GENERATION */
/********************************************************************/
if (1 == ps_entropy->i4_gen_header)
{
/* generate sps */
ps_entropy->i4_error_code = ih264e_generate_sps(ps_bitstrm, ps_sps,
&ps_codec->s_cfg.s_vui);
RETURN_ENTROPY_IF_ERROR(ps_codec, ps_entropy, ctxt_sel);
/* generate pps */
ps_entropy->i4_error_code = ih264e_generate_pps(ps_bitstrm, ps_pps, ps_sps);
RETURN_ENTROPY_IF_ERROR(ps_codec, ps_entropy, ctxt_sel);
/* reset i4_gen_header */
ps_entropy->i4_gen_header = 0;
}
/* populate slice header */
ih264e_populate_slice_header(ps_proc, ps_slice_hdr, ps_pps, ps_sps);
/* generate sei */
u4_insert_per_idr = (NAL_SLICE_IDR == ps_slice_hdr->i1_nal_unit_type);
memset(&s_sei, 0, sizeof(sei_params_t));
s_sei.u1_sei_mdcv_params_present_flag =
ps_codec->s_cfg.s_sei.u1_sei_mdcv_params_present_flag;
s_sei.s_sei_mdcv_params = ps_codec->s_cfg.s_sei.s_sei_mdcv_params;
s_sei.u1_sei_cll_params_present_flag =
ps_codec->s_cfg.s_sei.u1_sei_cll_params_present_flag;
s_sei.s_sei_cll_params = ps_codec->s_cfg.s_sei.s_sei_cll_params;
s_sei.u1_sei_ave_params_present_flag =
ps_codec->s_cfg.s_sei.u1_sei_ave_params_present_flag;
s_sei.s_sei_ave_params = ps_codec->s_cfg.s_sei.s_sei_ave_params;
s_sei.u1_sei_ccv_params_present_flag = 0;
s_sei.s_sei_ccv_params =
ps_codec->as_inp_list[ps_codec->i4_poc % MAX_NUM_BFRAMES].s_sei_ccv;
if((1 == ps_sps->i1_vui_parameters_present_flag) &&
(1 == ps_codec->s_cfg.s_vui.u1_video_signal_type_present_flag) &&
(1 == ps_codec->s_cfg.s_vui.u1_colour_description_present_flag) &&
(2 != ps_codec->s_cfg.s_vui.u1_colour_primaries) &&
(2 != ps_codec->s_cfg.s_vui.u1_matrix_coefficients) &&
(2 != ps_codec->s_cfg.s_vui.u1_transfer_characteristics) &&
(4 != ps_codec->s_cfg.s_vui.u1_transfer_characteristics) &&
(5 != ps_codec->s_cfg.s_vui.u1_transfer_characteristics))
{
s_sei.u1_sei_ccv_params_present_flag =
ps_codec->as_inp_list[ps_codec->i4_poc % MAX_NUM_BFRAMES].u1_sei_ccv_params_present_flag;
}
if((1 == s_sei.u1_sei_mdcv_params_present_flag && u4_insert_per_idr) ||
(1 == s_sei.u1_sei_cll_params_present_flag && u4_insert_per_idr) ||
(1 == s_sei.u1_sei_ave_params_present_flag && u4_insert_per_idr) ||
(1 == s_sei.u1_sei_ccv_params_present_flag))
{
ps_entropy->i4_error_code =
ih264e_generate_sei(ps_bitstrm, &s_sei, u4_insert_per_idr);
RETURN_ENTROPY_IF_ERROR(ps_codec, ps_entropy, ctxt_sel);
}
ps_codec->as_inp_list[ps_codec->i4_poc % MAX_NUM_BFRAMES].u1_sei_ccv_params_present_flag = 0;
/* generate slice header */
ps_entropy->i4_error_code = ih264e_generate_slice_header(ps_bitstrm, ps_slice_hdr,
ps_pps, ps_sps);
RETURN_ENTROPY_IF_ERROR(ps_codec, ps_entropy, ctxt_sel);
/* once start of frame / slice is done, you can reset it */
/* it is the responsibility of the caller to set this flag */
ps_entropy->i4_sof = 0;
if (CABAC == ps_entropy->u1_entropy_coding_mode_flag)
{
BITSTREAM_BYTE_ALIGN(ps_bitstrm);
BITSTREAM_FLUSH(ps_bitstrm, ps_entropy->i4_error_code);
ih264e_init_cabac_ctxt(ps_entropy);
}
}
/* begin entropy coding for the mb set */
while (u4_mb_idx < u4_mb_end_idx)
{
/* init ptrs/indices */
if (ps_entropy->i4_mb_x == i4_wd_mbs)
{
ps_entropy->i4_mb_y++;
ps_entropy->i4_mb_x = 0;
/* packed mb coeff data */
ps_entropy->pv_mb_coeff_data = ((UWORD8 *)ps_entropy->pv_pic_mb_coeff_data) +
ps_entropy->i4_mb_y * ps_codec->u4_size_coeff_data;
/* packed mb header data */
ps_entropy->pv_mb_header_data = ((UWORD8 *)ps_entropy->pv_pic_mb_header_data) +
ps_entropy->i4_mb_y * ps_codec->u4_size_header_data;
/* proc map */
pu1_proc_map = ps_proc->pu1_proc_map + ps_entropy->i4_mb_y * i4_wd_mbs;
/* entropy map */
pu1_entropy_map_curr = ps_entropy->pu1_entropy_map + ps_entropy->i4_mb_y * i4_wd_mbs;
}
DEBUG("\nmb indices x, y %d, %d", ps_entropy->i4_mb_x, ps_entropy->i4_mb_y);
ENTROPY_TRACE("mb index x %d", ps_entropy->i4_mb_x);
ENTROPY_TRACE("mb index y %d", ps_entropy->i4_mb_y);
/* wait until the curr mb is core coded */
/* The wait for curr mb to be core coded is essential when entropy is launched
* as a separate job
*/
while (1)
{
volatile UWORD8 *pu1_buf1;
WORD32 idx = ps_entropy->i4_mb_x;
pu1_buf1 = pu1_proc_map + idx;
if (*pu1_buf1)
break;
ithread_yield();
}
/* write mb layer */
ps_entropy->i4_error_code = ps_codec->pf_write_mb_syntax_layer
[ps_entropy->u1_entropy_coding_mode_flag][i4_slice_type](ps_entropy);
RETURN_ENTROPY_IF_ERROR(ps_codec, ps_entropy, ctxt_sel);
/* Starting bitstream offset for header in bits */
bitstream_start_offset = GET_NUM_BITS(ps_bitstrm);
/* set entropy map */
pu1_entropy_map_curr[ps_entropy->i4_mb_x] = 1;
u4_mb_idx++;
ps_entropy->i4_mb_x++;
/* check for eof */
if (CABAC == ps_entropy->u1_entropy_coding_mode_flag)
{
if (ps_entropy->i4_mb_x < i4_wd_mbs)
{
ih264e_cabac_encode_terminate(ps_cabac_ctxt, 0);
}
}
if (ps_entropy->i4_mb_x == i4_wd_mbs)
{
/* if slices are enabled */
if (ps_codec->s_cfg.e_slice_mode == IVE_SLICE_MODE_BLOCKS)
{
/* current slice index */
WORD32 i4_curr_slice_idx = ps_entropy->i4_cur_slice_idx;
/* slice map */
UWORD8 *pu1_slice_idx = ps_entropy->pu1_slice_idx;
/* No need to open a slice at end of frame. The current slice can be closed at the time
* of signaling eof flag.
*/
if ((u4_mb_idx != u4_mb_cnt) && (i4_curr_slice_idx
!= pu1_slice_idx[u4_mb_idx]))
{
if (CAVLC == ps_entropy->u1_entropy_coding_mode_flag)
{ /* mb skip run */
if ((i4_slice_type != ISLICE)
&& *ps_entropy->pi4_mb_skip_run)
{
if (*ps_entropy->pi4_mb_skip_run)
{
PUT_BITS_UEV(ps_bitstrm, *ps_entropy->pi4_mb_skip_run,
ps_entropy->i4_error_code, "mb skip run");
*ps_entropy->pi4_mb_skip_run = 0;
RETURN_ENTROPY_IF_ERROR(ps_codec, ps_entropy, ctxt_sel);
}
}
/* put rbsp trailing bits for the previous slice */
ps_entropy->i4_error_code = ih264e_put_rbsp_trailing_bits(ps_bitstrm);
RETURN_ENTROPY_IF_ERROR(ps_codec, ps_entropy, ctxt_sel);
}
else
{
ih264e_cabac_encode_terminate(ps_cabac_ctxt, 1);
}
/* update slice header pointer */
i4_curr_slice_idx = pu1_slice_idx[u4_mb_idx];
ps_entropy->i4_cur_slice_idx = i4_curr_slice_idx;
ps_slice_hdr = ps_entropy->ps_slice_hdr_base+ (i4_curr_slice_idx % MAX_SLICE_HDR_CNT);
/* populate slice header */
ps_entropy->i4_mb_start_add = u4_mb_idx;
ih264e_populate_slice_header(ps_proc, ps_slice_hdr, ps_pps,
ps_sps);
/* generate slice header */
ps_entropy->i4_error_code = ih264e_generate_slice_header(
ps_bitstrm, ps_slice_hdr, ps_pps, ps_sps);
RETURN_ENTROPY_IF_ERROR(ps_codec, ps_entropy, ctxt_sel);
if (CABAC == ps_entropy->u1_entropy_coding_mode_flag)
{
BITSTREAM_BYTE_ALIGN(ps_bitstrm);
BITSTREAM_FLUSH(ps_bitstrm, ps_entropy->i4_error_code);
ih264e_init_cabac_ctxt(ps_entropy);
}
}
else
{
if (CABAC == ps_entropy->u1_entropy_coding_mode_flag
&& u4_mb_idx != u4_mb_cnt)
{
ih264e_cabac_encode_terminate(ps_cabac_ctxt, 0);
}
}
}
}
/* Ending bitstream offset for header in bits */
bitstream_end_offset = GET_NUM_BITS(ps_bitstrm);
ps_entropy->u4_header_bits[i4_slice_type == PSLICE] +=
bitstream_end_offset - bitstream_start_offset;
}
/* check for eof */
if (u4_mb_idx == u4_mb_cnt)
{
/* set end of frame flag */
ps_entropy->i4_eof = 1;
}
else
{
if (CABAC == ps_entropy->u1_entropy_coding_mode_flag
&& ps_codec->s_cfg.e_slice_mode
!= IVE_SLICE_MODE_BLOCKS)
{
ih264e_cabac_encode_terminate(ps_cabac_ctxt, 0);
}
}
if (ps_entropy->i4_eof)
{
if (CAVLC == ps_entropy->u1_entropy_coding_mode_flag)
{
/* mb skip run */
if ((i4_slice_type != ISLICE) && *ps_entropy->pi4_mb_skip_run)
{
if (*ps_entropy->pi4_mb_skip_run)
{
PUT_BITS_UEV(ps_bitstrm, *ps_entropy->pi4_mb_skip_run,
ps_entropy->i4_error_code, "mb skip run");
*ps_entropy->pi4_mb_skip_run = 0;
RETURN_ENTROPY_IF_ERROR(ps_codec, ps_entropy, ctxt_sel);
}
}
/* put rbsp trailing bits */
ps_entropy->i4_error_code = ih264e_put_rbsp_trailing_bits(ps_bitstrm);
RETURN_ENTROPY_IF_ERROR(ps_codec, ps_entropy, ctxt_sel);
}
else
{
ih264e_cabac_encode_terminate(ps_cabac_ctxt, 1);
}
/* update current frame stats to rc library */
{
/* number of bytes to stuff */
WORD32 i4_stuff_bytes;
/* update */
i4_stuff_bytes = ih264e_update_rc_post_enc(
ps_codec, ctxt_sel,
(ps_proc->ps_codec->i4_poc == 0));
/* cbr rc - house keeping */
if (ps_codec->s_rate_control.post_encode_skip[ctxt_sel])
{
ps_entropy->ps_bitstrm->u4_strm_buf_offset = 0;
}
else if (i4_stuff_bytes)
{
/* add filler nal units */
ps_entropy->i4_error_code = ih264e_add_filler_nal_unit(ps_bitstrm, i4_stuff_bytes);
RETURN_ENTROPY_IF_ERROR(ps_codec, ps_entropy, ctxt_sel);
}
}
/*
*Frame number is to be incremented only if the current frame is a
* reference frame. After each successful frame encode, we increment
* frame number by 1
*/
if (!ps_codec->s_rate_control.post_encode_skip[ctxt_sel]
&& ps_codec->u4_is_curr_frm_ref)
{
ps_codec->i4_frame_num++;
}
/********************************************************************/
/* signal the output */
/********************************************************************/
ps_codec->as_out_buf[ctxt_sel].s_bits_buf.u4_bytes =
ps_entropy->ps_bitstrm->u4_strm_buf_offset;
DEBUG("entropy status %x", ps_entropy->i4_error_code);
}
/* Dont execute any further instructions until store synchronization took place */
DATA_SYNC();
/* allow threads to dequeue entropy jobs */
ps_codec->au4_entropy_thread_active[ctxt_sel] = 0;
return ps_entropy->i4_error_code;
}
/**
*******************************************************************************
*
* @brief Packs header information of a mb in to a buffer
*
* @par Description:
* After the deciding the mode info of a macroblock, the syntax elements
* associated with the mb are packed and stored. The entropy thread unpacks
* this buffer and generates the end bit stream.
*
* @param[in] ps_proc
* Pointer to the current process context
*
* @returns error status
*
* @remarks none
*
*******************************************************************************
*/
IH264E_ERROR_T ih264e_pack_header_data(process_ctxt_t *ps_proc)
{
/* curr mb type */
UWORD32 u4_mb_type = ps_proc->u4_mb_type;
/* pack mb syntax layer of curr mb (used for entropy coding) */
if (u4_mb_type == I4x4)
{
/* pointer to mb header storage space */
UWORD8 *pu1_ptr = ps_proc->pv_mb_header_data;
mb_hdr_i4x4_t *ps_mb_hdr = (mb_hdr_i4x4_t *)ps_proc->pv_mb_header_data;
/* temp var */
WORD32 i4, byte;
/* mb type plus mode */
ps_mb_hdr->common.u1_mb_type_mode = (ps_proc->u1_c_i8_mode << 6) + u4_mb_type;
/* cbp */
ps_mb_hdr->common.u1_cbp = ps_proc->u4_cbp;
/* mb qp delta */
ps_mb_hdr->common.u1_mb_qp_delta = ps_proc->u4_mb_qp - ps_proc->u4_mb_qp_prev;
/* sub mb modes */
for (i4 = 0; i4 < 16; i4 ++)
{
byte = 0;
if (ps_proc->au1_predicted_intra_luma_mb_4x4_modes[i4] ==
ps_proc->au1_intra_luma_mb_4x4_modes[i4])
{
byte |= 1;
}
else
{
if (ps_proc->au1_intra_luma_mb_4x4_modes[i4] <
ps_proc->au1_predicted_intra_luma_mb_4x4_modes[i4])
{
byte |= (ps_proc->au1_intra_luma_mb_4x4_modes[i4] << 1);
}
else
{
byte |= (ps_proc->au1_intra_luma_mb_4x4_modes[i4] - 1) << 1;
}
}
i4++;
if (ps_proc->au1_predicted_intra_luma_mb_4x4_modes[i4] ==
ps_proc->au1_intra_luma_mb_4x4_modes[i4])
{
byte |= 16;
}
else
{
if (ps_proc->au1_intra_luma_mb_4x4_modes[i4] <
ps_proc->au1_predicted_intra_luma_mb_4x4_modes[i4])
{
byte |= (ps_proc->au1_intra_luma_mb_4x4_modes[i4] << 5);
}
else
{
byte |= (ps_proc->au1_intra_luma_mb_4x4_modes[i4] - 1) << 5;
}
}
ps_mb_hdr->au1_sub_blk_modes[i4 >> 1] = byte;
}
/* end of mb layer */
pu1_ptr += sizeof(mb_hdr_i4x4_t);
ps_proc->pv_mb_header_data = pu1_ptr;
}
else if (u4_mb_type == I16x16)
{
/* pointer to mb header storage space */
UWORD8 *pu1_ptr = ps_proc->pv_mb_header_data;
mb_hdr_i16x16_t *ps_mb_hdr = (mb_hdr_i16x16_t *)ps_proc->pv_mb_header_data;
/* mb type plus mode */
ps_mb_hdr->common.u1_mb_type_mode = (ps_proc->u1_c_i8_mode << 6) + (ps_proc->u1_l_i16_mode << 4) + u4_mb_type;
/* cbp */
ps_mb_hdr->common.u1_cbp = ps_proc->u4_cbp;
/* mb qp delta */
ps_mb_hdr->common.u1_mb_qp_delta = ps_proc->u4_mb_qp - ps_proc->u4_mb_qp_prev;
/* end of mb layer */
pu1_ptr += sizeof(mb_hdr_i16x16_t);
ps_proc->pv_mb_header_data = pu1_ptr;
}
else if (u4_mb_type == P16x16)
{
/* pointer to mb header storage space */
UWORD8 *pu1_ptr = ps_proc->pv_mb_header_data;
mb_hdr_p16x16_t *ps_mb_hdr = (mb_hdr_p16x16_t *)ps_proc->pv_mb_header_data;
/* mb type */
ps_mb_hdr->common.u1_mb_type_mode = u4_mb_type;
/* cbp */
ps_mb_hdr->common.u1_cbp = ps_proc->u4_cbp;
/* mb qp delta */
ps_mb_hdr->common.u1_mb_qp_delta = ps_proc->u4_mb_qp - ps_proc->u4_mb_qp_prev;
ps_mb_hdr->ai2_mv[0] = ps_proc->ps_pu->s_me_info[0].s_mv.i2_mvx - ps_proc->ps_pred_mv[0].s_mv.i2_mvx;
ps_mb_hdr->ai2_mv[1] = ps_proc->ps_pu->s_me_info[0].s_mv.i2_mvy - ps_proc->ps_pred_mv[0].s_mv.i2_mvy;
/* end of mb layer */
pu1_ptr += sizeof(mb_hdr_p16x16_t);
ps_proc->pv_mb_header_data = pu1_ptr;
}
else if (u4_mb_type == PSKIP)
{
/* pointer to mb header storage space */
UWORD8 *pu1_ptr = ps_proc->pv_mb_header_data;
mb_hdr_pskip_t *ps_mb_hdr = (mb_hdr_pskip_t *)ps_proc->pv_mb_header_data;
/* mb type */
ps_mb_hdr->common.u1_mb_type_mode = u4_mb_type;
/* end of mb layer */
pu1_ptr += sizeof(mb_hdr_pskip_t);
ps_proc->pv_mb_header_data = pu1_ptr;
}
else if(u4_mb_type == B16x16)
{
/* pointer to mb header storage space */
UWORD8 *pu1_ptr = ps_proc->pv_mb_header_data;
mb_hdr_b16x16_t *ps_mb_hdr = (mb_hdr_b16x16_t *)ps_proc->pv_mb_header_data;
UWORD32 u4_pred_mode = ps_proc->ps_pu->b2_pred_mode;
/* mb type plus mode */
ps_mb_hdr->common.u1_mb_type_mode = (u4_pred_mode << 4) + u4_mb_type;
/* cbp */
ps_mb_hdr->common.u1_cbp = ps_proc->u4_cbp;
/* mb qp delta */
ps_mb_hdr->common.u1_mb_qp_delta = ps_proc->u4_mb_qp - ps_proc->u4_mb_qp_prev;
/* l0 & l1 me data */
if (u4_pred_mode != PRED_L1)
{
ps_mb_hdr->ai2_mv[0][0] = ps_proc->ps_pu->s_me_info[0].s_mv.i2_mvx
- ps_proc->ps_pred_mv[0].s_mv.i2_mvx;
ps_mb_hdr->ai2_mv[0][1] = ps_proc->ps_pu->s_me_info[0].s_mv.i2_mvy
- ps_proc->ps_pred_mv[0].s_mv.i2_mvy;
}
if (u4_pred_mode != PRED_L0)
{
ps_mb_hdr->ai2_mv[1][0] = ps_proc->ps_pu->s_me_info[1].s_mv.i2_mvx
- ps_proc->ps_pred_mv[1].s_mv.i2_mvx;
ps_mb_hdr->ai2_mv[1][1] = ps_proc->ps_pu->s_me_info[1].s_mv.i2_mvy
- ps_proc->ps_pred_mv[1].s_mv.i2_mvy;
}
/* end of mb layer */
pu1_ptr += sizeof(mb_hdr_b16x16_t);
ps_proc->pv_mb_header_data = pu1_ptr;
}
else if(u4_mb_type == BDIRECT)
{
/* pointer to mb header storage space */
UWORD8 *pu1_ptr = ps_proc->pv_mb_header_data;
mb_hdr_bdirect_t *ps_mb_hdr = (mb_hdr_bdirect_t *)ps_proc->pv_mb_header_data;
/* mb type plus mode */
ps_mb_hdr->common.u1_mb_type_mode = u4_mb_type;
/* cbp */
ps_mb_hdr->common.u1_cbp = ps_proc->u4_cbp;
/* mb qp delta */
ps_mb_hdr->common.u1_mb_qp_delta = ps_proc->u4_mb_qp - ps_proc->u4_mb_qp_prev;
/* end of mb layer */
pu1_ptr += sizeof(mb_hdr_bdirect_t);
ps_proc->pv_mb_header_data = pu1_ptr;
}
else if(u4_mb_type == BSKIP)
{
UWORD32 u4_pred_mode = ps_proc->ps_pu->b2_pred_mode;
/* pointer to mb header storage space */
UWORD8 *pu1_ptr = ps_proc->pv_mb_header_data;
mb_hdr_bskip_t *ps_mb_hdr = (mb_hdr_bskip_t *)ps_proc->pv_mb_header_data;
/* mb type plus mode */
ps_mb_hdr->common.u1_mb_type_mode = (u4_pred_mode << 4) + u4_mb_type;
/* end of mb layer */
pu1_ptr += sizeof(mb_hdr_bskip_t);
ps_proc->pv_mb_header_data = pu1_ptr;
}
return IH264E_SUCCESS;
}
/**
*******************************************************************************
*
* @brief update process context after encoding an mb. This involves preserving
* the current mb information for later use, initialize the proc ctxt elements to
* encode next mb.
*
* @par Description:
* This function performs house keeping tasks after encoding an mb.
* After encoding an mb, various elements of the process context needs to be
* updated to encode the next mb. For instance, the source, recon and reference
* pointers, mb indices have to be adjusted to the next mb. The slice index of
* the current mb needs to be updated. If mb qp modulation is enabled, then if
* the qp changes the quant param structure needs to be updated. Also to encoding
* the next mb, the current mb info is used as part of mode prediction or mv
* prediction. Hence the current mb info has to preserved at top/top left/left
* locations.
*
* @param[in] ps_proc
* Pointer to the current process context
*
* @returns none
*
* @remarks none
*
*******************************************************************************
*/
WORD32 ih264e_update_proc_ctxt(process_ctxt_t *ps_proc)
{
/* error status */
WORD32 error_status = IH264_SUCCESS;
/* codec context */
codec_t *ps_codec = ps_proc->ps_codec;
/* curr mb indices */
WORD32 i4_mb_x = ps_proc->i4_mb_x;
WORD32 i4_mb_y = ps_proc->i4_mb_y;
/* mb syntax elements of neighbors */
mb_info_t *ps_left_syn = &ps_proc->s_left_mb_syntax_ele;
mb_info_t *ps_top_syn = ps_proc->ps_top_row_mb_syntax_ele + i4_mb_x;
mb_info_t *ps_top_left_syn = &ps_proc->s_top_left_mb_syntax_ele;
/* curr mb type */
UWORD32 u4_mb_type = ps_proc->u4_mb_type;
/* curr mb type */
UWORD32 u4_is_intra = ps_proc->u4_is_intra;
/* width in mbs */
WORD32 i4_wd_mbs = ps_proc->i4_wd_mbs;
/*height in mbs*/
WORD32 i4_ht_mbs = ps_proc->i4_ht_mbs;
/* proc map */
UWORD8 *pu1_proc_map = ps_proc->pu1_proc_map + (i4_mb_y * i4_wd_mbs);
/* deblk context */
deblk_ctxt_t *ps_deblk = &ps_proc->s_deblk_ctxt;
/* deblk bs context */
bs_ctxt_t *ps_bs = &(ps_deblk->s_bs_ctxt);
/* top row motion vector info */
enc_pu_t *ps_top_row_pu = ps_proc->ps_top_row_pu + i4_mb_x;
/* top left mb motion vector */
enc_pu_t *ps_top_left_mb_pu = &ps_proc->s_top_left_mb_pu;
/* left mb motion vector */
enc_pu_t *ps_left_mb_pu = &ps_proc->s_left_mb_pu;
/* sub mb modes */
UWORD8 *pu1_top_mb_intra_modes = ps_proc->pu1_top_mb_intra_modes + (i4_mb_x << 4);
/*************************************************************/
/* During MV prediction, when top right mb is not available, */
/* top left mb info. is used for prediction. Hence the curr */
/* top, which will be top left for the next mb needs to be */
/* preserved before updating it with curr mb info. */
/*************************************************************/
/* mb type, mb class, csbp */
*ps_top_left_syn = *ps_top_syn;
if (ps_proc->i4_slice_type != ISLICE)
{
/*****************************************/
/* update top left with top info results */
/*****************************************/
/* mv */
*ps_top_left_mb_pu = *ps_top_row_pu;
}
/*************************************************/
/* update top and left with curr mb info results */
/*************************************************/
/* mb type */
ps_left_syn->u2_mb_type = ps_top_syn->u2_mb_type = u4_mb_type;
/* mb class */
ps_left_syn->u2_is_intra = ps_top_syn->u2_is_intra = u4_is_intra;
/* csbp */
ps_left_syn->u4_csbp = ps_top_syn->u4_csbp = ps_proc->u4_csbp;
/* distortion */
ps_left_syn->i4_mb_distortion = ps_top_syn->i4_mb_distortion = ps_proc->i4_mb_distortion;
if (u4_is_intra)
{
/* mb / sub mb modes */
if (I16x16 == u4_mb_type)
{
pu1_top_mb_intra_modes[0] = ps_proc->au1_left_mb_intra_modes[0] = ps_proc->u1_l_i16_mode;
}
else if (I4x4 == u4_mb_type)
{
ps_codec->pf_mem_cpy_mul8(ps_proc->au1_left_mb_intra_modes, ps_proc->au1_intra_luma_mb_4x4_modes, 16);
ps_codec->pf_mem_cpy_mul8(pu1_top_mb_intra_modes, ps_proc->au1_intra_luma_mb_4x4_modes, 16);
}
else if (I8x8 == u4_mb_type)
{
memcpy(ps_proc->au1_left_mb_intra_modes, ps_proc->au1_intra_luma_mb_8x8_modes, 4);
memcpy(pu1_top_mb_intra_modes, ps_proc->au1_intra_luma_mb_8x8_modes, 4);
}
if ((ps_proc->i4_slice_type == PSLICE) ||(ps_proc->i4_slice_type == BSLICE))
{
/* mv */
*ps_left_mb_pu = *ps_top_row_pu = *(ps_proc->ps_pu);
}
*ps_proc->pu4_mb_pu_cnt = 1;
}
else
{
/* mv */
*ps_left_mb_pu = *ps_top_row_pu = *(ps_proc->ps_pu);
}
/*
* Mark that the MB has been coded intra
* So that future AIRs can skip it
*/
ps_proc->pu1_is_intra_coded[i4_mb_x + (i4_mb_y * i4_wd_mbs)] = u4_is_intra;
/**************************************************/
/* pack mb header info. for entropy coding */
/**************************************************/
ih264e_pack_header_data(ps_proc);
/* update previous mb qp */
ps_proc->u4_mb_qp_prev = ps_proc->u4_mb_qp;
/* store qp */
ps_proc->s_deblk_ctxt.s_bs_ctxt.pu1_pic_qp[(i4_mb_y * i4_wd_mbs) + i4_mb_x] = ps_proc->u4_mb_qp;
/*
* We need to sync the cache to make sure that the nmv content of proc
* is updated to cache properly
*/
DATA_SYNC();
/* Just before finishing the row, enqueue the job in to entropy queue.
* The master thread depending on its convenience shall dequeue it and
* performs entropy.
*
* WARN !! Placing this block post proc map update can cause queuing of
* entropy jobs in out of order.
*/
if (i4_mb_x == i4_wd_mbs - 1)
{
/* job structures */
job_t s_job;
/* job class */
s_job.i4_cmd = CMD_ENTROPY;
/* number of mbs to be processed in the current job */
s_job.i2_mb_cnt = ps_codec->s_cfg.i4_wd_mbs;
/* job start index x */
s_job.i2_mb_x = 0;
/* job start index y */
s_job.i2_mb_y = ps_proc->i4_mb_y;
/* proc base idx */
s_job.i2_proc_base_idx = (ps_codec->i4_encode_api_call_cnt % MAX_CTXT_SETS) ? (MAX_PROCESS_CTXT / 2) : 0;
/* queue the job */
error_status = ih264_list_queue(ps_proc->pv_entropy_jobq, &s_job, 1);
if(error_status != IH264_SUCCESS)
{
return error_status;
}
if(ps_proc->i4_mb_y == (i4_ht_mbs - 1))
ih264_list_terminate(ps_codec->pv_entropy_jobq);
}
/* update proc map */
pu1_proc_map[i4_mb_x] = 1;
/**************************************************/
/* update proc ctxt elements for encoding next mb */
/**************************************************/
/* update indices */
i4_mb_x ++;
ps_proc->i4_mb_x = i4_mb_x;
if (ps_proc->i4_mb_x == i4_wd_mbs)
{
ps_proc->i4_mb_y++;
ps_proc->i4_mb_x = 0;
}
/* update slice index */
ps_proc->i4_cur_slice_idx = ps_proc->pu1_slice_idx[ps_proc->i4_mb_y * i4_wd_mbs + ps_proc->i4_mb_x];
/* update buffers pointers */
ps_proc->pu1_src_buf_luma += MB_SIZE;
ps_proc->pu1_rec_buf_luma += MB_SIZE;
ps_proc->apu1_ref_buf_luma[0] += MB_SIZE;
ps_proc->apu1_ref_buf_luma[1] += MB_SIZE;
/*
* Note: Although chroma mb size is 8, as the chroma buffers are interleaved,
* the stride per MB is MB_SIZE
*/
ps_proc->pu1_src_buf_chroma += MB_SIZE;
ps_proc->pu1_rec_buf_chroma += MB_SIZE;
ps_proc->apu1_ref_buf_chroma[0] += MB_SIZE;
ps_proc->apu1_ref_buf_chroma[1] += MB_SIZE;
/* Reset cost, distortion params */
ps_proc->i4_mb_cost = INT_MAX;
ps_proc->i4_mb_distortion = SHRT_MAX;
ps_proc->ps_pu += *ps_proc->pu4_mb_pu_cnt;
ps_proc->pu4_mb_pu_cnt += 1;
/* Update colocated pu */
if (ps_proc->i4_slice_type == BSLICE)
ps_proc->ps_colpu += *(ps_proc->aps_mv_buf[1]->pu4_mb_pu_cnt + (i4_mb_y * ps_proc->i4_wd_mbs) + i4_mb_x);
/* deblk ctxts */
if (ps_proc->u4_disable_deblock_level != 1)
{
/* indices */
ps_bs->i4_mb_x = ps_proc->i4_mb_x;
ps_bs->i4_mb_y = ps_proc->i4_mb_y;
#ifndef N_MB_ENABLE /* For N MB processing update take place inside deblocking function */
ps_deblk->i4_mb_x ++;
ps_deblk->pu1_cur_pic_luma += MB_SIZE;
/*
* Note: Although chroma mb size is 8, as the chroma buffers are interleaved,
* the stride per MB is MB_SIZE
*/
ps_deblk->pu1_cur_pic_chroma += MB_SIZE;
#endif
}
return error_status;
}
/**
*******************************************************************************
*
* @brief initialize process context.
*
* @par Description:
* Before dispatching the current job to process thread, the process context
* associated with the job is initialized. Usually every job aims to encode one
* row of mb's. Basing on the row indices provided by the job, the process
* context's buffer ptrs, slice indices and other elements that are necessary
* during core-coding are initialized.
*
* @param[in] ps_proc
* Pointer to the current process context
*
* @returns error status
*
* @remarks none
*
*******************************************************************************
*/
IH264E_ERROR_T ih264e_init_proc_ctxt(process_ctxt_t *ps_proc)
{
/* codec context */
codec_t *ps_codec = ps_proc->ps_codec;
/* nmb processing context*/
n_mb_process_ctxt_t *ps_n_mb_ctxt = &ps_proc->s_n_mb_ctxt;
/* indices */
WORD32 i4_mb_x, i4_mb_y;
/* strides */
WORD32 i4_src_strd = ps_proc->i4_src_strd;
WORD32 i4_src_chroma_strd = ps_proc->i4_src_chroma_strd;
WORD32 i4_rec_strd = ps_proc->i4_rec_strd;
/* quant params */
quant_params_t *ps_qp_params = ps_proc->ps_qp_params[0];
/* deblk ctxt */
deblk_ctxt_t *ps_deblk = &ps_proc->s_deblk_ctxt;
/* deblk bs context */
bs_ctxt_t *ps_bs = &(ps_deblk->s_bs_ctxt);
/* Pointer to mv_buffer of current frame */
mv_buf_t *ps_cur_mv_buf = ps_proc->ps_cur_mv_buf;
/* Pointers for color space conversion */
UWORD8 *pu1_y_buf_base, *pu1_u_buf_base, *pu1_v_buf_base;
/* Pad the MB to support non standard sizes */
UWORD32 u4_pad_right_sz = ps_codec->s_cfg.u4_wd - ps_codec->s_cfg.u4_disp_wd;
UWORD32 u4_pad_bottom_sz = ps_codec->s_cfg.u4_ht - ps_codec->s_cfg.u4_disp_ht;
UWORD16 u2_num_rows = MB_SIZE;
WORD32 convert_uv_only;
/********************************************************************/
/* BEGIN INIT */
/********************************************************************/
i4_mb_x = ps_proc->i4_mb_x;
i4_mb_y = ps_proc->i4_mb_y;
/* Number of mbs processed in one loop of process function */
ps_proc->i4_nmb_ntrpy = ps_proc->i4_wd_mbs;
ps_proc->u4_nmb_me = ps_proc->i4_wd_mbs;
/* init buffer pointers */
convert_uv_only = 1;
if (u4_pad_bottom_sz || u4_pad_right_sz ||
ps_codec->s_cfg.e_inp_color_fmt == IV_YUV_422ILE ||
ps_proc->i4_mb_y == (ps_proc->i4_ht_mbs - 1))
{
if (ps_proc->i4_mb_y == ps_proc->i4_ht_mbs - 1)
u2_num_rows = (UWORD16) MB_SIZE - u4_pad_bottom_sz;
ps_proc->pu1_src_buf_luma_base = ps_codec->pu1_y_csc_buf_base;
i4_src_strd = ps_proc->i4_src_strd = ps_codec->s_cfg.u4_max_wd;
ps_proc->pu1_src_buf_luma = ps_proc->pu1_src_buf_luma_base + (i4_mb_x * MB_SIZE) + ps_codec->s_cfg.u4_max_wd * (i4_mb_y * MB_SIZE);
convert_uv_only = 0;
}
else
{
i4_src_strd = ps_proc->i4_src_strd = ps_proc->s_inp_buf.s_raw_buf.au4_strd[0];
ps_proc->pu1_src_buf_luma = ps_proc->pu1_src_buf_luma_base + (i4_mb_x * MB_SIZE) + i4_src_strd * (i4_mb_y * MB_SIZE);
}
if (ps_codec->s_cfg.e_inp_color_fmt == IV_YUV_422ILE ||
ps_codec->s_cfg.e_inp_color_fmt == IV_YUV_420P ||
ps_proc->i4_mb_y == (ps_proc->i4_ht_mbs - 1) ||
u4_pad_bottom_sz || u4_pad_right_sz)
{
if ((ps_codec->s_cfg.e_inp_color_fmt == IV_YUV_420SP_UV) ||
(ps_codec->s_cfg.e_inp_color_fmt == IV_YUV_420SP_VU))
ps_proc->pu1_src_buf_chroma_base = ps_codec->pu1_uv_csc_buf_base;
ps_proc->pu1_src_buf_chroma = ps_proc->pu1_src_buf_chroma_base + (i4_mb_x * MB_SIZE) + ps_codec->s_cfg.u4_max_wd * (i4_mb_y * BLK8x8SIZE);
i4_src_chroma_strd = ps_proc->i4_src_chroma_strd = ps_codec->s_cfg.u4_max_wd;
}
else
{
i4_src_chroma_strd = ps_proc->i4_src_chroma_strd = ps_proc->s_inp_buf.s_raw_buf.au4_strd[1];
ps_proc->pu1_src_buf_chroma = ps_proc->pu1_src_buf_chroma_base + (i4_mb_x * MB_SIZE) + i4_src_chroma_strd * (i4_mb_y * BLK8x8SIZE);
}
ps_proc->pu1_rec_buf_luma = ps_proc->pu1_rec_buf_luma_base + (i4_mb_x * MB_SIZE) + i4_rec_strd * (i4_mb_y * MB_SIZE);
ps_proc->pu1_rec_buf_chroma = ps_proc->pu1_rec_buf_chroma_base + (i4_mb_x * MB_SIZE) + i4_rec_strd * (i4_mb_y * BLK8x8SIZE);
/* Tempral back and forward reference buffer */
ps_proc->apu1_ref_buf_luma[0] = ps_proc->apu1_ref_buf_luma_base[0] + (i4_mb_x * MB_SIZE) + i4_rec_strd * (i4_mb_y * MB_SIZE);
ps_proc->apu1_ref_buf_chroma[0] = ps_proc->apu1_ref_buf_chroma_base[0] + (i4_mb_x * MB_SIZE) + i4_rec_strd * (i4_mb_y * BLK8x8SIZE);
ps_proc->apu1_ref_buf_luma[1] = ps_proc->apu1_ref_buf_luma_base[1] + (i4_mb_x * MB_SIZE) + i4_rec_strd * (i4_mb_y * MB_SIZE);
ps_proc->apu1_ref_buf_chroma[1] = ps_proc->apu1_ref_buf_chroma_base[1] + (i4_mb_x * MB_SIZE) + i4_rec_strd * (i4_mb_y * BLK8x8SIZE);
/*
* Do color space conversion
* NOTE : We assume there that the number of MB's to process will not span multiple rows
*/
switch (ps_codec->s_cfg.e_inp_color_fmt)
{
case IV_YUV_420SP_UV:
case IV_YUV_420SP_VU:
/* In case of 420 semi-planar input, copy last few rows to intermediate
buffer as few SIMD functions access upto 16 more bytes.
This data will be padded if required */
if (ps_proc->i4_mb_y == (ps_proc->i4_ht_mbs - 1) || u4_pad_bottom_sz || u4_pad_right_sz)
{
WORD32 num_rows = MB_SIZE;
UWORD8 *pu1_src;
UWORD8 *pu1_dst;
WORD32 i;
pu1_src = (UWORD8 *)ps_proc->s_inp_buf.s_raw_buf.apv_bufs[0] + (i4_mb_x * MB_SIZE) +
ps_proc->s_inp_buf.s_raw_buf.au4_strd[0] * (i4_mb_y * MB_SIZE);
pu1_dst = ps_proc->pu1_src_buf_luma;
if (ps_proc->i4_mb_y == (ps_proc->i4_ht_mbs - 1))
num_rows = MB_SIZE - u4_pad_bottom_sz;
for (i = 0; i < num_rows; i++)
{
memcpy(pu1_dst, pu1_src, ps_codec->s_cfg.u4_disp_wd);
pu1_src += ps_proc->s_inp_buf.s_raw_buf.au4_strd[0];
pu1_dst += ps_proc->i4_src_strd;
}
pu1_src = (UWORD8 *)ps_proc->s_inp_buf.s_raw_buf.apv_bufs[1] + (i4_mb_x * BLK8x8SIZE) +
ps_proc->s_inp_buf.s_raw_buf.au4_strd[1] * (i4_mb_y * BLK8x8SIZE);
pu1_dst = ps_proc->pu1_src_buf_chroma;
/* Last MB row of chroma is copied unconditionally, since trans functions access an extra byte
* due to interleaved input
*/
if (ps_proc->i4_mb_y == (ps_proc->i4_ht_mbs - 1))
num_rows = (ps_codec->s_cfg.u4_disp_ht >> 1) - (ps_proc->i4_mb_y * BLK8x8SIZE);
else
num_rows = BLK8x8SIZE;
for (i = 0; i < num_rows; i++)
{
memcpy(pu1_dst, pu1_src, ps_codec->s_cfg.u4_disp_wd);
pu1_src += ps_proc->s_inp_buf.s_raw_buf.au4_strd[1];
pu1_dst += ps_proc->i4_src_chroma_strd;
}
}
break;
case IV_YUV_420P :
pu1_y_buf_base = (UWORD8 *)ps_proc->s_inp_buf.s_raw_buf.apv_bufs[0] + (i4_mb_x * MB_SIZE) +
ps_proc->s_inp_buf.s_raw_buf.au4_strd[0] * (i4_mb_y * MB_SIZE);
pu1_u_buf_base = (UWORD8 *)ps_proc->s_inp_buf.s_raw_buf.apv_bufs[1] + (i4_mb_x * BLK8x8SIZE) +
ps_proc->s_inp_buf.s_raw_buf.au4_strd[1] * (i4_mb_y * BLK8x8SIZE);
pu1_v_buf_base = (UWORD8 *)ps_proc->s_inp_buf.s_raw_buf.apv_bufs[2] + (i4_mb_x * BLK8x8SIZE) +
ps_proc->s_inp_buf.s_raw_buf.au4_strd[2] * (i4_mb_y * BLK8x8SIZE);
ps_codec->pf_ih264e_conv_420p_to_420sp(
pu1_y_buf_base, pu1_u_buf_base, pu1_v_buf_base,
ps_proc->pu1_src_buf_luma,
ps_proc->pu1_src_buf_chroma, u2_num_rows,
ps_codec->s_cfg.u4_disp_wd,
ps_proc->s_inp_buf.s_raw_buf.au4_strd[0],
ps_proc->s_inp_buf.s_raw_buf.au4_strd[1],
ps_proc->s_inp_buf.s_raw_buf.au4_strd[2],
ps_proc->i4_src_strd, ps_proc->i4_src_chroma_strd,
convert_uv_only);
break;
case IV_YUV_422ILE :
pu1_y_buf_base = (UWORD8 *)ps_proc->s_inp_buf.s_raw_buf.apv_bufs[0] + (i4_mb_x * MB_SIZE * 2)
+ ps_proc->s_inp_buf.s_raw_buf.au4_strd[0] * (i4_mb_y * MB_SIZE);
ps_codec->pf_ih264e_fmt_conv_422i_to_420sp(
ps_proc->pu1_src_buf_luma,
ps_proc->pu1_src_buf_chroma,
ps_proc->pu1_src_buf_chroma + 1, pu1_y_buf_base,
ps_codec->s_cfg.u4_disp_wd, u2_num_rows,
ps_proc->i4_src_strd, ps_proc->i4_src_chroma_strd,
ps_proc->i4_src_chroma_strd,
ps_proc->s_inp_buf.s_raw_buf.au4_strd[0] >> 1);
break;
default:
break;
}
if (u4_pad_right_sz && (ps_proc->i4_mb_x == 0))
{
UWORD32 u4_pad_wd, u4_pad_ht;
u4_pad_wd = (UWORD32)(ps_proc->i4_src_strd - ps_codec->s_cfg.u4_disp_wd);
u4_pad_wd = MIN(u4_pad_right_sz, u4_pad_wd);
u4_pad_ht = MB_SIZE;
if(ps_proc->i4_mb_y == ps_proc->i4_ht_mbs - 1)
u4_pad_ht = MIN(MB_SIZE, (MB_SIZE - u4_pad_bottom_sz));
ih264_pad_right_luma(
ps_proc->pu1_src_buf_luma + ps_codec->s_cfg.u4_disp_wd,
ps_proc->i4_src_strd, u4_pad_ht, u4_pad_wd);
ih264_pad_right_chroma(
ps_proc->pu1_src_buf_chroma + ps_codec->s_cfg.u4_disp_wd,
ps_proc->i4_src_chroma_strd, u4_pad_ht / 2, u4_pad_wd);
}
if (ps_proc->i4_mb_y && ps_proc->i4_mb_y == ps_proc->i4_ht_mbs - 1) {
UWORD8 *pu1_src = (UWORD8 *)ps_proc->s_inp_buf.s_raw_buf.apv_bufs[0] +
ps_proc->s_inp_buf.s_raw_buf.au4_strd[0] * (i4_mb_y * MB_SIZE) -
ps_proc->s_inp_buf.s_raw_buf.au4_strd[0];
UWORD8 *pu1_dst = ps_proc->pu1_src_buf_luma - ps_proc->i4_src_strd;
memcpy(pu1_dst, pu1_src, ps_codec->s_cfg.u4_disp_wd);
if (u4_pad_right_sz && (ps_proc->i4_mb_x == 0)) {
pu1_dst += ps_codec->s_cfg.u4_disp_wd;
memset(pu1_dst, pu1_dst[-1], u4_pad_right_sz);
}
}
/* pad bottom edge */
if (u4_pad_bottom_sz && (ps_proc->i4_mb_y == ps_proc->i4_ht_mbs - 1) && ps_proc->i4_mb_x == 0)
{
ih264_pad_bottom(ps_proc->pu1_src_buf_luma + (MB_SIZE - u4_pad_bottom_sz) * ps_proc->i4_src_strd,
ps_proc->i4_src_strd, ps_proc->i4_src_strd, u4_pad_bottom_sz);
ih264_pad_bottom(ps_proc->pu1_src_buf_chroma + (MB_SIZE - u4_pad_bottom_sz) * ps_proc->i4_src_chroma_strd / 2,
ps_proc->i4_src_chroma_strd, ps_proc->i4_src_chroma_strd, (u4_pad_bottom_sz / 2));
}
/* packed mb coeff data */
ps_proc->pv_mb_coeff_data = ((UWORD8 *)ps_proc->pv_pic_mb_coeff_data) + i4_mb_y * ps_codec->u4_size_coeff_data;
/* packed mb header data */
ps_proc->pv_mb_header_data = ((UWORD8 *)ps_proc->pv_pic_mb_header_data) + i4_mb_y * ps_codec->u4_size_header_data;
/* slice index */
ps_proc->i4_cur_slice_idx = ps_proc->pu1_slice_idx[i4_mb_y * ps_proc->i4_wd_mbs + i4_mb_x];
/*********************************************************************/
/* ih264e_init_quant_params() routine is called at the pic init level*/
/* this would have initialized the qp. */
/* TODO_LATER: currently it is assumed that quant params donot change*/
/* across mb's. When they do calculate update ps_qp_params accordingly*/
/*********************************************************************/
/* init mv buffer ptr */
ps_proc->ps_pu = ps_cur_mv_buf->ps_pic_pu + (i4_mb_y * ps_proc->i4_wd_mbs *
((MB_SIZE * MB_SIZE) / (ENC_MIN_PU_SIZE * ENC_MIN_PU_SIZE)));
/* Init co-located mv buffer */
ps_proc->ps_colpu = ps_proc->aps_mv_buf[1]->ps_pic_pu + (i4_mb_y * ps_proc->i4_wd_mbs *
((MB_SIZE * MB_SIZE) / (ENC_MIN_PU_SIZE * ENC_MIN_PU_SIZE)));
if (i4_mb_y == 0)
{
ps_proc->ps_top_row_pu_ME = ps_cur_mv_buf->ps_pic_pu;
}
else
{
ps_proc->ps_top_row_pu_ME = ps_cur_mv_buf->ps_pic_pu + ((i4_mb_y - 1) * ps_proc->i4_wd_mbs *
((MB_SIZE * MB_SIZE) / (ENC_MIN_PU_SIZE * ENC_MIN_PU_SIZE)));
}
ps_proc->pu4_mb_pu_cnt = ps_cur_mv_buf->pu4_mb_pu_cnt + (i4_mb_y * ps_proc->i4_wd_mbs);
/* mb type */
ps_proc->u4_mb_type = I16x16;
/* lambda */
ps_proc->u4_lambda = gu1_qp0[ps_qp_params->u1_mb_qp];
/* mb distortion */
ps_proc->i4_mb_distortion = SHRT_MAX;
if (i4_mb_x == 0)
{
ps_proc->s_left_mb_syntax_ele.i4_mb_distortion = 0;
ps_proc->s_top_left_mb_syntax_ele.i4_mb_distortion = 0;
ps_proc->s_top_left_mb_syntax_ME.i4_mb_distortion = 0;
if (i4_mb_y == 0)
{
memset(ps_proc->ps_top_row_mb_syntax_ele, 0, (ps_proc->i4_wd_mbs + 1)*sizeof(mb_info_t));
}
}
/* mb cost */
ps_proc->i4_mb_cost = INT_MAX;
/**********************/
/* init deblk context */
/**********************/
ps_deblk->i4_mb_x = ps_proc->i4_mb_x;
/* deblk lags the current mb proc by 1 row */
/* NOTE: Intra prediction has to happen with non deblocked samples used as reference */
/* Hence to deblk MB 0 of row 0, you have wait till MB 0 of row 1 is encoded. */
/* For simplicity, we chose to lag deblking by 1 Row wrt to proc */
ps_deblk->i4_mb_y = ps_proc->i4_mb_y - 1;
/* buffer ptrs */
ps_deblk->pu1_cur_pic_luma = ps_proc->pu1_rec_buf_luma_base + i4_rec_strd * (ps_deblk->i4_mb_y * MB_SIZE);
ps_deblk->pu1_cur_pic_chroma = ps_proc->pu1_rec_buf_chroma_base + i4_rec_strd * (ps_deblk->i4_mb_y * BLK8x8SIZE);
/* init deblk bs context */
/* mb indices */
ps_bs->i4_mb_x = ps_proc->i4_mb_x;
ps_bs->i4_mb_y = ps_proc->i4_mb_y;
/* init n_mb_process context */
ps_n_mb_ctxt->i4_mb_x = 0;
ps_n_mb_ctxt->i4_mb_y = ps_deblk->i4_mb_y;
ps_n_mb_ctxt->i4_n_mbs = ps_proc->i4_nmb_ntrpy;
return IH264E_SUCCESS;
}
/**
*******************************************************************************
*
* @brief This function performs luma & chroma padding
*
* @par Description:
*
* @param[in] ps_proc
* Process context corresponding to the job
*
* @param[in] pu1_curr_pic_luma
* Pointer to luma buffer
*
* @param[in] pu1_curr_pic_chroma
* Pointer to chroma buffer
*
* @param[in] i4_mb_x
* mb index x
*
* @param[in] i4_mb_y
* mb index y
*
* @param[in] i4_pad_ht
* number of rows to be padded
*
* @returns error status
*
* @remarks none
*
*******************************************************************************
*/
IH264E_ERROR_T ih264e_pad_recon_buffer(process_ctxt_t *ps_proc,
UWORD8 *pu1_curr_pic_luma,
UWORD8 *pu1_curr_pic_chroma,
WORD32 i4_mb_x,
WORD32 i4_mb_y,
WORD32 i4_pad_ht)
{
/* codec context */
codec_t *ps_codec = ps_proc->ps_codec;
/* strides */
WORD32 i4_rec_strd = ps_proc->i4_rec_strd;
if (i4_mb_x == 0)
{
/* padding left luma */
ps_codec->pf_pad_left_luma(pu1_curr_pic_luma, i4_rec_strd, i4_pad_ht, PAD_LEFT);
/* padding left chroma */
ps_codec->pf_pad_left_chroma(pu1_curr_pic_chroma, i4_rec_strd, i4_pad_ht >> 1, PAD_LEFT);
}
if (i4_mb_x == ps_proc->i4_wd_mbs - 1)
{
/* padding right luma */
ps_codec->pf_pad_right_luma(pu1_curr_pic_luma + MB_SIZE, i4_rec_strd, i4_pad_ht, PAD_RIGHT);
/* padding right chroma */
ps_codec->pf_pad_right_chroma(pu1_curr_pic_chroma + MB_SIZE, i4_rec_strd, i4_pad_ht >> 1, PAD_RIGHT);
if (i4_mb_y == ps_proc->i4_ht_mbs - 1)
{
UWORD8 *pu1_rec_luma = pu1_curr_pic_luma + MB_SIZE + PAD_RIGHT + ((i4_pad_ht - 1) * i4_rec_strd);
UWORD8 *pu1_rec_chroma = pu1_curr_pic_chroma + MB_SIZE + PAD_RIGHT + (((i4_pad_ht >> 1) - 1) * i4_rec_strd);
/* padding bottom luma */
ps_codec->pf_pad_bottom(pu1_rec_luma, i4_rec_strd, i4_rec_strd, PAD_BOT);
/* padding bottom chroma */
ps_codec->pf_pad_bottom(pu1_rec_chroma, i4_rec_strd, i4_rec_strd, (PAD_BOT >> 1));
}
}
if (i4_mb_y == 0)
{
UWORD8 *pu1_rec_luma = pu1_curr_pic_luma;
UWORD8 *pu1_rec_chroma = pu1_curr_pic_chroma;
WORD32 wd = MB_SIZE;
if (i4_mb_x == 0)
{
pu1_rec_luma -= PAD_LEFT;
pu1_rec_chroma -= PAD_LEFT;
wd += PAD_LEFT;
}
if (i4_mb_x == ps_proc->i4_wd_mbs - 1)
{
wd += PAD_RIGHT;
}
/* padding top luma */
ps_codec->pf_pad_top(pu1_rec_luma, i4_rec_strd, wd, PAD_TOP);
/* padding top chroma */
ps_codec->pf_pad_top(pu1_rec_chroma, i4_rec_strd, wd, (PAD_TOP >> 1));
}
return IH264E_SUCCESS;
}
/**
*******************************************************************************
*
* @brief This function performs deblocking, padding and halfpel generation for
* 'n' MBs
*
* @par Description:
*
* @param[in] ps_proc
* Process context corresponding to the job
*
* @param[in] pu1_curr_pic_luma
* Current MB being processed(Luma)
*
* @param[in] pu1_curr_pic_chroma
* Current MB being processed(Chroma)
*
* @param[in] i4_mb_x
* Column value of current MB processed
*
* @param[in] i4_mb_y
* Curent row processed
*
* @returns error status
*
* @remarks none
*
*******************************************************************************
*/
IH264E_ERROR_T ih264e_dblk_pad_hpel_processing_n_mbs(process_ctxt_t *ps_proc,
UWORD8 *pu1_curr_pic_luma,
UWORD8 *pu1_curr_pic_chroma,
WORD32 i4_mb_x,
WORD32 i4_mb_y)
{
/* codec context */
codec_t *ps_codec = ps_proc->ps_codec;
/* n_mb processing context */
n_mb_process_ctxt_t *ps_n_mb_ctxt = &ps_proc->s_n_mb_ctxt;
/* deblk context */
deblk_ctxt_t *ps_deblk = &ps_proc->s_deblk_ctxt;
/* strides */
WORD32 i4_rec_strd = ps_proc->i4_rec_strd;
/* loop variables */
WORD32 row, i, j, col;
/* Padding Width */
UWORD32 u4_pad_wd;
/* deblk_map of the row being deblocked */
UWORD8 *pu1_deblk_map = ps_proc->pu1_deblk_map + ps_deblk->i4_mb_y * ps_proc->i4_wd_mbs;
/* deblk_map_previous row */
UWORD8 *pu1_deblk_map_prev_row = pu1_deblk_map - ps_proc->i4_wd_mbs;
WORD32 u4_pad_top = 0;
WORD32 u4_deblk_prev_row = 0;
/* Number of mbs to be processed */
WORD32 i4_n_mbs = ps_n_mb_ctxt->i4_n_mbs;
/* Number of mbs actually processed
* (at the end of a row, when remaining number of MBs are less than i4_n_mbs) */
WORD32 i4_n_mb_process_count = 0;
UWORD8 *pu1_pad_bottom_src = NULL;
UWORD8 *pu1_pad_src_luma = NULL;
UWORD8 *pu1_pad_src_chroma = NULL;
if (ps_proc->u4_disable_deblock_level == 1)
{
/* If left most MB is processed, then pad left */
if (i4_mb_x == 0)
{
/* padding left luma */
ps_codec->pf_pad_left_luma(pu1_curr_pic_luma, i4_rec_strd, MB_SIZE, PAD_LEFT);
/* padding left chroma */
ps_codec->pf_pad_left_chroma(pu1_curr_pic_chroma, i4_rec_strd, MB_SIZE >> 1, PAD_LEFT);
}
/*last col*/
if (i4_mb_x == (ps_proc->i4_wd_mbs - 1))
{
/* padding right luma */
ps_codec->pf_pad_right_luma(pu1_curr_pic_luma + MB_SIZE, i4_rec_strd, MB_SIZE, PAD_RIGHT);
/* padding right chroma */
ps_codec->pf_pad_right_chroma(pu1_curr_pic_chroma + MB_SIZE, i4_rec_strd, MB_SIZE >> 1, PAD_RIGHT);
}
}
if ((i4_mb_y > 0) || (i4_mb_y == (ps_proc->i4_ht_mbs - 1)))
{
/* if number of mb's to be processed are less than 'N', go back.
* exception to the above clause is end of row */
if ( ((i4_mb_x - (ps_n_mb_ctxt->i4_mb_x - 1)) < i4_n_mbs) && (i4_mb_x < (ps_proc->i4_wd_mbs - 1)) )
{
return IH264E_SUCCESS;
}
else
{
i4_n_mb_process_count = MIN(i4_mb_x - (ps_n_mb_ctxt->i4_mb_x - 1), i4_n_mbs);
/* performing deblocking for required number of MBs */
if ((i4_mb_y > 0) && (ps_proc->u4_disable_deblock_level != 1))
{
u4_deblk_prev_row = 1;
/* checking whether the top rows are deblocked */
for (col = 0; col < i4_n_mb_process_count; col++)
{
u4_deblk_prev_row &= pu1_deblk_map_prev_row[ps_deblk->i4_mb_x + col];
}
/* checking whether the top right MB is deblocked */
if ((ps_deblk->i4_mb_x + i4_n_mb_process_count) != ps_proc->i4_wd_mbs)
{
u4_deblk_prev_row &= pu1_deblk_map_prev_row[ps_deblk->i4_mb_x + i4_n_mb_process_count];
}
/* Top or Top right MBs not deblocked */
if ((u4_deblk_prev_row != 1) && (i4_mb_y > 0))
{
return IH264E_SUCCESS;
}
for (row = 0; row < i4_n_mb_process_count; row++)
{
ih264e_deblock_mb(ps_proc, ps_deblk);
pu1_deblk_map[ps_deblk->i4_mb_x] = 1;
if (ps_deblk->i4_mb_y > 0)
{
if (ps_deblk->i4_mb_x == 0)/* If left most MB is processed, then pad left*/
{
/* padding left luma */
ps_codec->pf_pad_left_luma(ps_deblk->pu1_cur_pic_luma - i4_rec_strd * MB_SIZE, i4_rec_strd, MB_SIZE, PAD_LEFT);
/* padding left chroma */
ps_codec->pf_pad_left_chroma(ps_deblk->pu1_cur_pic_chroma - i4_rec_strd * BLK8x8SIZE, i4_rec_strd, MB_SIZE >> 1, PAD_LEFT);
}
if (ps_deblk->i4_mb_x == (ps_proc->i4_wd_mbs - 1))/*last column*/
{
/* padding right luma */
ps_codec->pf_pad_right_luma(ps_deblk->pu1_cur_pic_luma - i4_rec_strd * MB_SIZE + MB_SIZE, i4_rec_strd, MB_SIZE, PAD_RIGHT);
/* padding right chroma */
ps_codec->pf_pad_right_chroma(ps_deblk->pu1_cur_pic_chroma - i4_rec_strd * BLK8x8SIZE + MB_SIZE, i4_rec_strd, MB_SIZE >> 1, PAD_RIGHT);
}
}
ps_deblk->i4_mb_x++;
ps_deblk->pu1_cur_pic_luma += MB_SIZE;
ps_deblk->pu1_cur_pic_chroma += MB_SIZE;
}
}
else if(i4_mb_y > 0)
{
ps_deblk->i4_mb_x += i4_n_mb_process_count;
ps_deblk->pu1_cur_pic_luma += i4_n_mb_process_count * MB_SIZE;
ps_deblk->pu1_cur_pic_chroma += i4_n_mb_process_count * MB_SIZE;
}
if (i4_mb_y == 2)
{
u4_pad_wd = i4_n_mb_process_count * MB_SIZE;
u4_pad_top = ps_n_mb_ctxt->i4_mb_x * MB_SIZE;
if (ps_n_mb_ctxt->i4_mb_x == 0)
{
u4_pad_wd += PAD_LEFT;
u4_pad_top = -PAD_LEFT;
}
if (i4_mb_x == ps_proc->i4_wd_mbs - 1)
{
u4_pad_wd += PAD_RIGHT;
}
/* padding top luma */
ps_codec->pf_pad_top(ps_proc->pu1_rec_buf_luma_base + u4_pad_top, i4_rec_strd, u4_pad_wd, PAD_TOP);
/* padding top chroma */
ps_codec->pf_pad_top(ps_proc->pu1_rec_buf_chroma_base + u4_pad_top, i4_rec_strd, u4_pad_wd, (PAD_TOP >> 1));
}
ps_n_mb_ctxt->i4_mb_x += i4_n_mb_process_count;
if (i4_mb_x == ps_proc->i4_wd_mbs - 1)
{
if (ps_proc->i4_mb_y == ps_proc->i4_ht_mbs - 1)
{
/* Bottom Padding is done in one stretch for the entire width */
if (ps_proc->u4_disable_deblock_level != 1)
{
ps_deblk->pu1_cur_pic_luma = ps_proc->pu1_rec_buf_luma_base + (ps_proc->i4_ht_mbs - 1) * i4_rec_strd * MB_SIZE;
ps_deblk->pu1_cur_pic_chroma = ps_proc->pu1_rec_buf_chroma_base + (ps_proc->i4_ht_mbs - 1) * i4_rec_strd * BLK8x8SIZE;
ps_n_mb_ctxt->i4_mb_x = 0;
ps_n_mb_ctxt->i4_mb_y = ps_proc->i4_mb_y;
ps_deblk->i4_mb_x = 0;
ps_deblk->i4_mb_y = ps_proc->i4_mb_y;
/* update pic qp map (as update_proc_ctxt is still not called for the last MB) */
ps_proc->s_deblk_ctxt.s_bs_ctxt.pu1_pic_qp[(i4_mb_y * ps_proc->i4_wd_mbs) + i4_mb_x] = ps_proc->u4_mb_qp;
i4_n_mb_process_count = (ps_proc->i4_wd_mbs) % i4_n_mbs;
j = (ps_proc->i4_wd_mbs) / i4_n_mbs;
for (i = 0; i < j; i++)
{
for (col = 0; col < i4_n_mbs; col++)
{
ih264e_deblock_mb(ps_proc, ps_deblk);
pu1_deblk_map[ps_deblk->i4_mb_x] = 1;
ps_deblk->i4_mb_x++;
ps_deblk->pu1_cur_pic_luma += MB_SIZE;
ps_deblk->pu1_cur_pic_chroma += MB_SIZE;
ps_n_mb_ctxt->i4_mb_x++;
}
}
for (col = 0; col < i4_n_mb_process_count; col++)
{
ih264e_deblock_mb(ps_proc, ps_deblk);
pu1_deblk_map[ps_deblk->i4_mb_x] = 1;
ps_deblk->i4_mb_x++;
ps_deblk->pu1_cur_pic_luma += MB_SIZE;
ps_deblk->pu1_cur_pic_chroma += MB_SIZE;
ps_n_mb_ctxt->i4_mb_x++;
}
pu1_pad_src_luma = ps_proc->pu1_rec_buf_luma_base + (ps_proc->i4_ht_mbs - 2) * MB_SIZE * i4_rec_strd;
pu1_pad_src_chroma = ps_proc->pu1_rec_buf_chroma_base + (ps_proc->i4_ht_mbs - 2) * BLK8x8SIZE * i4_rec_strd;
/* padding left luma */
ps_codec->pf_pad_left_luma(pu1_pad_src_luma, i4_rec_strd, MB_SIZE, PAD_LEFT);
/* padding left chroma */
ps_codec->pf_pad_left_chroma(pu1_pad_src_chroma, i4_rec_strd, BLK8x8SIZE, PAD_LEFT);
pu1_pad_src_luma += i4_rec_strd * MB_SIZE;
pu1_pad_src_chroma += i4_rec_strd * BLK8x8SIZE;
/* padding left luma */
ps_codec->pf_pad_left_luma(pu1_pad_src_luma, i4_rec_strd, MB_SIZE, PAD_LEFT);
/* padding left chroma */
ps_codec->pf_pad_left_chroma(pu1_pad_src_chroma, i4_rec_strd, BLK8x8SIZE, PAD_LEFT);
pu1_pad_src_luma = ps_proc->pu1_rec_buf_luma_base + (ps_proc->i4_ht_mbs - 2) * MB_SIZE * i4_rec_strd + (ps_proc->i4_wd_mbs) * MB_SIZE;
pu1_pad_src_chroma = ps_proc->pu1_rec_buf_chroma_base + (ps_proc->i4_ht_mbs - 2) * BLK8x8SIZE * i4_rec_strd + (ps_proc->i4_wd_mbs) * MB_SIZE;
/* padding right luma */
ps_codec->pf_pad_right_luma(pu1_pad_src_luma, i4_rec_strd, MB_SIZE, PAD_RIGHT);
/* padding right chroma */
ps_codec->pf_pad_right_chroma(pu1_pad_src_chroma, i4_rec_strd, BLK8x8SIZE, PAD_RIGHT);
pu1_pad_src_luma += i4_rec_strd * MB_SIZE;
pu1_pad_src_chroma += i4_rec_strd * BLK8x8SIZE;
/* padding right luma */
ps_codec->pf_pad_right_luma(pu1_pad_src_luma, i4_rec_strd, MB_SIZE, PAD_RIGHT);
/* padding right chroma */
ps_codec->pf_pad_right_chroma(pu1_pad_src_chroma, i4_rec_strd, BLK8x8SIZE, PAD_RIGHT);
}
/* In case height is less than 2 MBs pad top */
if (ps_proc->i4_ht_mbs <= 2)
{
UWORD8 *pu1_pad_top_src;
/* padding top luma */
pu1_pad_top_src = ps_proc->pu1_rec_buf_luma_base - PAD_LEFT;
ps_codec->pf_pad_top(pu1_pad_top_src, i4_rec_strd, i4_rec_strd, PAD_TOP);
/* padding top chroma */
pu1_pad_top_src = ps_proc->pu1_rec_buf_chroma_base - PAD_LEFT;
ps_codec->pf_pad_top(pu1_pad_top_src, i4_rec_strd, i4_rec_strd, (PAD_TOP >> 1));
}
/* padding bottom luma */
pu1_pad_bottom_src = ps_proc->pu1_rec_buf_luma_base + ps_proc->i4_ht_mbs * MB_SIZE * i4_rec_strd - PAD_LEFT;
ps_codec->pf_pad_bottom(pu1_pad_bottom_src, i4_rec_strd, i4_rec_strd, PAD_BOT);
/* padding bottom chroma */
pu1_pad_bottom_src = ps_proc->pu1_rec_buf_chroma_base + ps_proc->i4_ht_mbs * (MB_SIZE >> 1) * i4_rec_strd - PAD_LEFT;
ps_codec->pf_pad_bottom(pu1_pad_bottom_src, i4_rec_strd, i4_rec_strd, (PAD_BOT >> 1));
}
}
}
}
return IH264E_SUCCESS;
}
/**
*******************************************************************************
*
* @brief This function performs luma & chroma core coding for a set of mb's.
*
* @par Description:
* The mb to be coded is taken and is evaluated over a predefined set of modes
* (intra (i16, i4, i8)/inter (mv, skip)) for best cost. The mode with least cost
* is selected and using intra/inter prediction filters, prediction is carried out.
* The deviation between src and pred signal constitutes error signal. This error
* signal is transformed (hierarchical transform if necessary) and quantized. The
* quantized residue is packed in to entropy buffer for entropy coding. This is
* repeated for all the mb's enlisted under the job.
*
* @param[in] ps_proc
* Process context corresponding to the job
*
* @returns error status
*
* @remarks none
*
*******************************************************************************
*/
WORD32 ih264e_process(process_ctxt_t *ps_proc)
{
/* error status */
WORD32 error_status = IH264_SUCCESS;
/* codec context */
codec_t *ps_codec = ps_proc->ps_codec;
/* cbp luma, chroma */
UWORD32 u4_cbp_l, u4_cbp_c;
/* width in mbs */
WORD32 i4_wd_mbs = ps_proc->i4_wd_mbs;
/* loop var */
WORD32 i4_mb_idx, i4_mb_cnt = ps_proc->i4_mb_cnt;
/* valid modes */
UWORD32 u4_valid_modes = 0;
/* gate threshold */
WORD32 i4_gate_threshold = 0;
/* is intra */
WORD32 luma_idx, chroma_idx, is_intra;
/* temp variables */
WORD32 ctxt_sel = ps_proc->i4_encode_api_call_cnt % MAX_CTXT_SETS;
/*
* list of modes for evaluation
* -------------------------------------------------------------------------
* Note on enabling I4x4 and I16x16
* At very low QP's the hadamard transform in I16x16 will push up the maximum
* coeff value very high. CAVLC may not be able to represent the value and
* hence the stream may not be decodable in some clips.
* Hence at low QPs, we will enable I4x4 and disable I16x16 irrespective of preset.
*/
if (ps_proc->i4_slice_type == ISLICE)
{
if (ps_proc->u4_frame_qp > 10)
{
/* enable intra 16x16 */
u4_valid_modes |= ps_codec->s_cfg.u4_enable_intra_16x16 ? (1 << I16x16) : 0;
/* enable intra 8x8 */
u4_valid_modes |= ps_codec->s_cfg.u4_enable_intra_8x8 ? (1 << I8x8) : 0;
}
/* enable intra 4x4 */
u4_valid_modes |= ps_codec->s_cfg.u4_enable_intra_4x4 ? (1 << I4x4) : 0;
u4_valid_modes |= (ps_proc->u4_frame_qp <= 10) << I4x4;
}
else if (ps_proc->i4_slice_type == PSLICE)
{
if (ps_proc->u4_frame_qp > 10)
{
/* enable intra 16x16 */
u4_valid_modes |= ps_codec->s_cfg.u4_enable_intra_16x16 ? (1 << I16x16) : 0;
}
/* enable intra 4x4 */
if (ps_codec->s_cfg.u4_enc_speed_preset == IVE_SLOWEST)
{
u4_valid_modes |= ps_codec->s_cfg.u4_enable_intra_4x4 ? (1 << I4x4) : 0;
}
u4_valid_modes |= (ps_proc->u4_frame_qp <= 10) << I4x4;
/* enable inter P16x16 */
u4_valid_modes |= (1 << P16x16);
}
else if (ps_proc->i4_slice_type == BSLICE)
{
if (ps_proc->u4_frame_qp > 10)
{
/* enable intra 16x16 */
u4_valid_modes |= ps_codec->s_cfg.u4_enable_intra_16x16 ? (1 << I16x16) : 0;
}
/* enable intra 4x4 */
if (ps_codec->s_cfg.u4_enc_speed_preset == IVE_SLOWEST)
{
u4_valid_modes |= ps_codec->s_cfg.u4_enable_intra_4x4 ? (1 << I4x4) : 0;
}
u4_valid_modes |= (ps_proc->u4_frame_qp <= 10) << I4x4;
/* enable inter B16x16 */
u4_valid_modes |= (1 << B16x16);
}
/* init entropy */
ps_proc->s_entropy.i4_mb_x = ps_proc->i4_mb_x;
ps_proc->s_entropy.i4_mb_y = ps_proc->i4_mb_y;
ps_proc->s_entropy.i4_mb_cnt = MIN(ps_proc->i4_nmb_ntrpy, i4_wd_mbs - ps_proc->i4_mb_x);
/* compute recon when :
* 1. current frame is to be used as a reference
* 2. dump recon for bit stream sanity check
*/
ps_proc->u4_compute_recon = ps_codec->u4_is_curr_frm_ref ||
ps_codec->s_cfg.u4_enable_recon;
/* Encode 'n' macroblocks,
* 'n' being the number of mbs dictated by current proc ctxt */
for (i4_mb_idx = 0; i4_mb_idx < i4_mb_cnt; i4_mb_idx ++)
{
/* since we have not yet found sad, we have not yet got min sad */
/* we need to initialize these variables for each MB */
/* TODO how to get the min sad into the codec */
ps_proc->u4_min_sad = ps_codec->s_cfg.i4_min_sad;
ps_proc->u4_min_sad_reached = 0;
/* mb analysis */
{
/* temp var */
WORD32 i4_mb_id = ps_proc->i4_mb_x + ps_proc->i4_mb_y * i4_wd_mbs;
/* force intra refresh ? */
WORD32 i4_air_enable_inter = (ps_codec->s_cfg.e_air_mode == IVE_AIR_MODE_NONE) ||
(ps_codec->pu2_intr_rfrsh_map[i4_mb_id] != ps_codec->i4_air_pic_cnt);
/* evaluate inter 16x16 modes */
if ((u4_valid_modes & (1 << P16x16)) || (u4_valid_modes & (1 << B16x16)))
{
/* compute nmb me */
if (ps_proc->i4_mb_x % ps_proc->u4_nmb_me == 0)
{
ih264e_compute_me_nmb(ps_proc, MIN((WORD32)ps_proc->u4_nmb_me,
i4_wd_mbs - ps_proc->i4_mb_x));
}
/* set pointers to ME data appropriately for other modules to use */
{
UWORD32 u4_mb_index = ps_proc->i4_mb_x % ps_proc->u4_nmb_me ;
/* get the min sad condition for current mb */
ps_proc->u4_min_sad_reached = ps_proc->ps_nmb_info[u4_mb_index].u4_min_sad_reached;
ps_proc->u4_min_sad = ps_proc->ps_nmb_info[u4_mb_index].u4_min_sad;
ps_proc->ps_skip_mv = &(ps_proc->ps_nmb_info[u4_mb_index].as_skip_mv[0]);
ps_proc->ps_ngbr_avbl = &(ps_proc->ps_nmb_info[u4_mb_index].s_ngbr_avbl);
ps_proc->ps_pred_mv = &(ps_proc->ps_nmb_info[u4_mb_index].as_pred_mv[0]);
ps_proc->i4_mb_distortion = ps_proc->ps_nmb_info[u4_mb_index].i4_mb_distortion;
ps_proc->i4_mb_cost = ps_proc->ps_nmb_info[u4_mb_index].i4_mb_cost;
ps_proc->u4_min_sad = ps_proc->ps_nmb_info[u4_mb_index].u4_min_sad;
ps_proc->u4_min_sad_reached = ps_proc->ps_nmb_info[u4_mb_index].u4_min_sad_reached;
ps_proc->u4_mb_type = ps_proc->ps_nmb_info[u4_mb_index].u4_mb_type;
/* get the best sub pel buffer */
ps_proc->pu1_best_subpel_buf = ps_proc->ps_nmb_info[u4_mb_index].pu1_best_sub_pel_buf;
ps_proc->u4_bst_spel_buf_strd = ps_proc->ps_nmb_info[u4_mb_index].u4_bst_spel_buf_strd;
}
ih264e_derive_nghbr_avbl_of_mbs(ps_proc);
}
else
{
/* Derive neighbor availability for the current macroblock */
ps_proc->ps_ngbr_avbl = &ps_proc->s_ngbr_avbl;
ih264e_derive_nghbr_avbl_of_mbs(ps_proc);
}
/*
* If air says intra, we need to force the following code path to evaluate intra
* The easy way is just to say that the inter cost is too much
*/
if (!i4_air_enable_inter)
{
ps_proc->u4_min_sad_reached = 0;
ps_proc->i4_mb_cost = INT_MAX;
ps_proc->i4_mb_distortion = INT_MAX;
}
else if (ps_proc->u4_mb_type == PSKIP)
{
goto UPDATE_MB_INFO;
}
/* wait until the proc of [top + 1] mb is computed.
* We wait till the proc dependencies are satisfied */
if(ps_proc->i4_mb_y > 0)
{
/* proc map */
UWORD8 *pu1_proc_map_top;
pu1_proc_map_top = ps_proc->pu1_proc_map + ((ps_proc->i4_mb_y - 1) * i4_wd_mbs);
while (1)
{
volatile UWORD8 *pu1_buf;
WORD32 idx = i4_mb_idx + 1;
idx = MIN(idx, ((WORD32)ps_codec->s_cfg.i4_wd_mbs - 1));
pu1_buf = pu1_proc_map_top + idx;
if(*pu1_buf)
break;
ithread_yield();
}
}
/* If we already have the minimum sad, there is no point in searching for sad again */
if (ps_proc->u4_min_sad_reached == 0 || ps_codec->s_cfg.u4_enc_speed_preset != IVE_FASTEST)
{
/* intra gating in inter slices */
/* No need of gating if we want to force intra, we need to find the threshold only if inter is enabled by AIR*/
if (i4_air_enable_inter && ps_proc->i4_slice_type != ISLICE && ps_codec->u4_inter_gate)
{
/* distortion of neighboring blocks */
WORD32 i4_distortion[4];
i4_distortion[0] = ps_proc->s_left_mb_syntax_ele.i4_mb_distortion;
i4_distortion[1] = ps_proc->ps_top_row_mb_syntax_ele[ps_proc->i4_mb_x].i4_mb_distortion;
i4_distortion[2] = ps_proc->ps_top_row_mb_syntax_ele[ps_proc->i4_mb_x + 1].i4_mb_distortion;
i4_distortion[3] = ps_proc->s_top_left_mb_syntax_ele.i4_mb_distortion;
i4_gate_threshold = (i4_distortion[0] + i4_distortion[1] + i4_distortion[2] + i4_distortion[3]) >> 2;
}
/* If we are going to force intra we need to evaluate intra irrespective of gating */
if ( (!i4_air_enable_inter) || ((i4_gate_threshold + 16 *((WORD32) ps_proc->u4_lambda)) < ps_proc->i4_mb_distortion))
{
/* evaluate intra 4x4 modes */
if (u4_valid_modes & (1 << I4x4))
{
if (ps_codec->s_cfg.u4_enc_speed_preset == IVE_SLOWEST)
{
ih264e_evaluate_intra4x4_modes_for_least_cost_rdopton(ps_proc);
}
else
{
ih264e_evaluate_intra4x4_modes_for_least_cost_rdoptoff(ps_proc);
}
}
/* evaluate intra 16x16 modes */
if (u4_valid_modes & (1 << I16x16))
{
ih264e_evaluate_intra16x16_modes_for_least_cost_rdoptoff(ps_proc);
}
/* evaluate intra 8x8 modes */
if (u4_valid_modes & (1 << I8x8))
{
ih264e_evaluate_intra8x8_modes_for_least_cost_rdoptoff(ps_proc);
}
}
}
}
/* is intra */
if (ps_proc->u4_mb_type == I4x4 || ps_proc->u4_mb_type == I16x16 || ps_proc->u4_mb_type == I8x8)
{
luma_idx = ps_proc->u4_mb_type;
chroma_idx = 0;
is_intra = 1;
/* evaluate chroma blocks for intra */
ih264e_evaluate_chroma_intra8x8_modes_for_least_cost_rdoptoff(ps_proc);
}
else
{
luma_idx = 3;
chroma_idx = 1;
is_intra = 0;
}
ps_proc->u4_is_intra = is_intra;
ps_proc->ps_pu->b1_intra_flag = is_intra;
/* redo MV pred of neighbors in the case intra mb */
/* TODO : currently called unconditionally, needs to be called only in the case of intra
* to modify neighbors */
if (ps_proc->i4_slice_type != ISLICE)
{
ih264e_mv_pred(ps_proc, ps_proc->i4_slice_type);
}
/* Perform luma mb core coding */
u4_cbp_l = (ps_codec->luma_energy_compaction)[luma_idx](ps_proc);
/* Perform luma mb core coding */
u4_cbp_c = (ps_codec->chroma_energy_compaction)[chroma_idx](ps_proc);
/* coded block pattern */
ps_proc->u4_cbp = (u4_cbp_c << 4) | u4_cbp_l;
if (!ps_proc->u4_is_intra)
{
if (ps_proc->i4_slice_type == BSLICE)
{
if (ih264e_find_bskip_params(ps_proc, PRED_L0))
{
ps_proc->u4_mb_type = (ps_proc->u4_cbp) ? BDIRECT : BSKIP;
}
}
else if(!ps_proc->u4_cbp)
{
if (ih264e_find_pskip_params(ps_proc, PRED_L0))
{
ps_proc->u4_mb_type = PSKIP;
}
}
}
UPDATE_MB_INFO:
/* Update mb sad, mb qp and intra mb cost. Will be used by rate control */
ih264e_update_rc_mb_info(&ps_proc->s_frame_info, ps_proc);
/**********************************************************************/
/* if disable deblock level is '0' this implies enable deblocking for */
/* all edges of all macroblocks with out any restrictions */
/* */
/* if disable deblock level is '1' this implies disable deblocking for*/
/* all edges of all macroblocks with out any restrictions */
/* */
/* if disable deblock level is '2' this implies enable deblocking for */
/* all edges of all macroblocks except edges overlapping with slice */
/* boundaries. This option is not currently supported by the encoder */
/* hence the slice map should be of no significance to perform debloc */
/* king */
/**********************************************************************/
if (ps_proc->u4_compute_recon)
{
/* deblk context */
/* src pointers */
UWORD8 *pu1_cur_pic_luma = ps_proc->pu1_rec_buf_luma;
UWORD8 *pu1_cur_pic_chroma = ps_proc->pu1_rec_buf_chroma;
/* src indices */
UWORD32 i4_mb_x = ps_proc->i4_mb_x;
UWORD32 i4_mb_y = ps_proc->i4_mb_y;
/* compute blocking strength */
if (ps_proc->u4_disable_deblock_level != 1)
{
ih264e_compute_bs(ps_proc);
}
/* nmb deblocking and hpel and padding */
ih264e_dblk_pad_hpel_processing_n_mbs(ps_proc, pu1_cur_pic_luma,
pu1_cur_pic_chroma, i4_mb_x,
i4_mb_y);
}
/* update the context after for coding next mb */
error_status = ih264e_update_proc_ctxt(ps_proc);
if(error_status != IH264E_SUCCESS)
{
return error_status;
}
/* Once the last row is processed, mark the buffer status appropriately */
if (ps_proc->i4_ht_mbs == ps_proc->i4_mb_y)
{
/* Pointer to current picture buffer structure */
pic_buf_t *ps_cur_pic = ps_proc->ps_cur_pic;
/* Pointer to current picture's mv buffer structure */
mv_buf_t *ps_cur_mv_buf = ps_proc->ps_cur_mv_buf;
/**********************************************************************/
/* if disable deblock level is '0' this implies enable deblocking for */
/* all edges of all macroblocks with out any restrictions */
/* */
/* if disable deblock level is '1' this implies disable deblocking for*/
/* all edges of all macroblocks with out any restrictions */
/* */
/* if disable deblock level is '2' this implies enable deblocking for */
/* all edges of all macroblocks except edges overlapping with slice */
/* boundaries. This option is not currently supported by the encoder */
/* hence the slice map should be of no significance to perform debloc */
/* king */
/**********************************************************************/
error_status = ih264_buf_mgr_release(ps_codec->pv_mv_buf_mgr,
ps_cur_mv_buf->i4_buf_id , BUF_MGR_CODEC);
if(error_status != IH264E_SUCCESS)
{
return error_status;
}
error_status = ih264_buf_mgr_release(ps_codec->pv_ref_buf_mgr,
ps_cur_pic->i4_buf_id , BUF_MGR_CODEC);
if(error_status != IH264E_SUCCESS)
{
return error_status;
}
if (ps_codec->s_cfg.u4_enable_recon)
{
/* pic cnt */
ps_codec->as_rec_buf[ctxt_sel].i4_pic_cnt = ps_proc->i4_pic_cnt;
/* rec buffers */
ps_codec->as_rec_buf[ctxt_sel].s_pic_buf = *ps_proc->ps_cur_pic;
/* is last? */
ps_codec->as_rec_buf[ctxt_sel].u4_is_last = ps_proc->s_entropy.u4_is_last;
/* frame time stamp */
ps_codec->as_rec_buf[ctxt_sel].u4_timestamp_high = ps_proc->s_entropy.u4_timestamp_high;
ps_codec->as_rec_buf[ctxt_sel].u4_timestamp_low = ps_proc->s_entropy.u4_timestamp_low;
}
}
}
DEBUG_HISTOGRAM_DUMP(ps_codec->s_cfg.i4_ht_mbs == ps_proc->i4_mb_y);
return error_status;
}
/**
*******************************************************************************
*
* @brief
* Function to update rc context after encoding
*
* @par Description
* This function updates the rate control context after the frame is encoded.
* Number of bits consumed by the current frame, frame distortion, frame cost,
* number of intra/inter mb's, ... are passed on to rate control context for
* updating the rc model.
*
* @param[in] ps_codec
* Handle to codec context
*
* @param[in] ctxt_sel
* frame context selector
*
* @param[in] pic_cnt
* pic count
*
* @returns i4_stuffing_byte
* number of stuffing bytes (if necessary)
*
* @remarks
*
*******************************************************************************
*/
WORD32 ih264e_update_rc_post_enc(codec_t *ps_codec, WORD32 ctxt_sel, WORD32 i4_is_first_frm)
{
/* proc set base idx */
WORD32 i4_proc_ctxt_sel_base = ctxt_sel ? (MAX_PROCESS_CTXT / 2) : 0;
/* proc ctxt */
process_ctxt_t *ps_proc = &ps_codec->as_process[i4_proc_ctxt_sel_base];
/* frame qp */
UWORD8 u1_frame_qp = ps_codec->u4_frame_qp;
/* cbr rc return status */
WORD32 i4_stuffing_byte = 0;
/* current frame stats */
frame_info_t s_frame_info;
picture_type_e rc_pic_type;
/* temp var */
WORD32 i, j;
/********************************************************************/
/* BEGIN INIT */
/********************************************************************/
/* init frame info */
irc_init_frame_info(&s_frame_info);
/* get frame info */
for (i = 0; i < (WORD32)ps_codec->s_cfg.u4_num_cores; i++)
{
/*****************************************************************/
/* One frame can be encoded by max of u4_num_cores threads */
/* Accumulating the num mbs, sad, qp and intra_mb_cost from */
/* u4_num_cores threads */
/*****************************************************************/
for (j = 0; j< MAX_MB_TYPE; j++)
{
s_frame_info.num_mbs[j] += ps_proc[i].s_frame_info.num_mbs[j];
s_frame_info.tot_mb_sad[j] += ps_proc[i].s_frame_info.tot_mb_sad[j];
s_frame_info.qp_sum[j] += ps_proc[i].s_frame_info.qp_sum[j];
}
s_frame_info.intra_mb_cost_sum += ps_proc[i].s_frame_info.intra_mb_cost_sum;
s_frame_info.activity_sum += ps_proc[i].s_frame_info.activity_sum;
/*****************************************************************/
/* gather number of residue and header bits consumed by the frame*/
/*****************************************************************/
ih264e_update_rc_bits_info(&s_frame_info, &ps_proc[i].s_entropy);
}
/* get pic type */
switch (ps_codec->pic_type)
{
case PIC_I:
case PIC_IDR:
rc_pic_type = I_PIC;
break;
case PIC_P:
rc_pic_type = P_PIC;
break;
case PIC_B:
rc_pic_type = B_PIC;
break;
default:
assert(0);
break;
}
/* update rc lib with current frame stats */
i4_stuffing_byte = ih264e_rc_post_enc(ps_codec->s_rate_control.pps_rate_control_api,
&(s_frame_info),
ps_codec->s_rate_control.pps_pd_frm_rate,
ps_codec->s_rate_control.pps_time_stamp,
ps_codec->s_rate_control.pps_frame_time,
(ps_proc->i4_wd_mbs * ps_proc->i4_ht_mbs),
&rc_pic_type,
i4_is_first_frm,
&ps_codec->s_rate_control.post_encode_skip[ctxt_sel],
u1_frame_qp,
&ps_codec->s_rate_control.num_intra_in_prev_frame,
&ps_codec->s_rate_control.i4_avg_activity);
return i4_stuffing_byte;
}
/**
*******************************************************************************
*
* @brief
* entry point of a spawned encoder thread
*
* @par Description:
* The encoder thread dequeues a proc/entropy job from the encoder queue and
* calls necessary routines.
*
* @param[in] pv_proc
* Process context corresponding to the thread
*
* @returns error status
*
* @remarks
*
*******************************************************************************
*/
WORD32 ih264e_process_thread(void *pv_proc)
{
/* error status */
IH264_ERROR_T ret = IH264_SUCCESS;
WORD32 error_status = IH264_SUCCESS;
/* proc ctxt */
process_ctxt_t *ps_proc = pv_proc;
/* codec ctxt */
codec_t *ps_codec = ps_proc->ps_codec;
/* structure to represent a processing job entry */
job_t s_job;
/* blocking call : entropy dequeue is non-blocking till all
* the proc jobs are processed */
WORD32 is_blocking = 0;
/* set affinity */
ithread_set_affinity(ps_proc->i4_id);
ps_proc->i4_error_code = IH264_SUCCESS;
while(1)
{
/* dequeue a job from the entropy queue */
{
int error = ithread_mutex_lock(ps_codec->pv_entropy_mutex);
/* codec context selector */
WORD32 ctxt_sel = ps_codec->i4_encode_api_call_cnt % MAX_CTXT_SETS;
volatile UWORD32 *pu4_buf = &ps_codec->au4_entropy_thread_active[ctxt_sel];
/* have the lock */
if (error == 0)
{
if (*pu4_buf == 0)
{
/* no entropy threads are active, try dequeuing a job from the entropy queue */
ret = ih264_list_dequeue(ps_proc->pv_entropy_jobq, &s_job, is_blocking);
if (IH264_SUCCESS == ret)
{
*pu4_buf = 1;
ithread_mutex_unlock(ps_codec->pv_entropy_mutex);
goto WORKER;
}
else if(is_blocking)
{
ithread_mutex_unlock(ps_codec->pv_entropy_mutex);
break;
}
}
ithread_mutex_unlock(ps_codec->pv_entropy_mutex);
}
}
/* dequeue a job from the process queue */
ret = ih264_list_dequeue(ps_proc->pv_proc_jobq, &s_job, 1);
if (IH264_SUCCESS != ret)
{
if(ps_proc->i4_id)
break;
else
{
is_blocking = 1;
continue;
}
}
WORKER:
/* choose appropriate proc context based on proc_base_idx */
ps_proc = &ps_codec->as_process[ps_proc->i4_id + s_job.i2_proc_base_idx];
switch (s_job.i4_cmd)
{
case CMD_PROCESS:
ps_proc->i4_mb_cnt = s_job.i2_mb_cnt;
ps_proc->i4_mb_x = s_job.i2_mb_x;
ps_proc->i4_mb_y = s_job.i2_mb_y;
/* init process context */
ih264e_init_proc_ctxt(ps_proc);
/* core code all mbs enlisted under the current job */
error_status = ih264e_process(ps_proc);
if(error_status !=IH264_SUCCESS)
{
ps_proc->i4_error_code = error_status;
return ret;
}
break;
case CMD_ENTROPY:
ps_proc->s_entropy.i4_mb_x = s_job.i2_mb_x;
ps_proc->s_entropy.i4_mb_y = s_job.i2_mb_y;
ps_proc->s_entropy.i4_mb_cnt = s_job.i2_mb_cnt;
/* init entropy */
ih264e_init_entropy_ctxt(ps_proc);
/* entropy code all mbs enlisted under the current job */
error_status = ih264e_entropy(ps_proc);
if(error_status !=IH264_SUCCESS)
{
ps_proc->i4_error_code = error_status;
return ret;
}
break;
default:
ps_proc->i4_error_code = IH264_FAIL;
return ret;
}
}
return ret;
}