/*!
************************************************************************
* \brief
* Uninitialize output buffer for direct output
************************************************************************
*/
void uninit_out_buffer()
{
free_frame_store(out_buffer);
out_buffer=NULL;
#ifdef PAIR_FIELDS_IN_OUTPUT
flush_pending_output(p_out);
#endif
free (pending_output);
}
int main(int argc, char **argv)
{
int Flag = TRUE;
//long ftell_position;//, expected_slice_type;
//int ret;
NALU_t *nalu;
h264_decoder* dec_params;
char *ptr;
ptr = ( char*)malloc(10 * sizeof(char));
if ((dec_params = ( h264_decoder*)h264_malloc(1 * sizeof(h264_decoder)))==NULL)
// if ((dec_params = ( h264_decoder*)h264_malloc(1 * 100))==NULL)
{
Flag=FALSE;
}
if ((dec_params->input = (InputParameters *)h264_malloc(1 * sizeof(InputParameters)))==NULL)
{
printf("main: input");
exit(0);
}
if ((dec_params->img = (ImageParameters *)h264_malloc(1 * sizeof(ImageParameters)))==NULL)
{
printf("main: img");
exit(0);
}
////////// ADDED INITIALIZATIONS //////
dec_params->active_sps = NULL;
dec_params->active_pps = NULL;
dec_params->Co_located = NULL;
dec_params->dec_picture = NULL;
dec_params->global_init_done = 0;
dec_params->dpb.init_done = 0;
dec_params->img->DeblockCall = 0;
// dec_params->img->structure = 0;
dec_params->MapUnitToSliceGroupMap = NULL;
dec_params->MbToSliceGroupMap = NULL;
dec_params->img->errorConcealmentFlag = 0; // ERROR CONCEALMENT FLAG SET TO ZERO , NO ERROR CONCEALMENT
dec_params->img->no_output_of_prior_pics_flag = -1;
///////////////////////////////////////
Initializations(dec_params);
Configure ( argc, argv,dec_params );
init_old_slice(dec_params);
switch (dec_params->input->FileFormat)
{
case 0:
OpenBitstreamFile (dec_params->input->infile,dec_params);
break;
case 1:
OpenRTPFile (dec_params->input->infile,dec_params);
break;
default:
printf ("Unsupported file format %d, exit\n", dec_params->input->FileFormat);
}
// Allocate Slice data struct
malloc_slice(dec_params->input,dec_params->img,dec_params);
init(dec_params->img,dec_params);
dec_params->dec_picture = NULL;
dec_params->dpb.init_done = 0;
//dec_params->g_nFrame = 0;
// init_out_buffer(dec_params);
//dec_params->img->idr_psnr_number=dec_params->input->ref_offset;
//dec_params->img->psnr_number=0;
dec_params->img->number=0;
dec_params->img->type = I_SLICE;
dec_params->img->dec_ref_pic_marking_buffer = NULL;
// B pictures
dec_params->Bframe_ctr=0;
// time for total decoding session
dec_params->tot_time = 0;
dec_params->nalu = AllocNALU(MAX_CODED_FRAME_SIZE,dec_params);
nalu = dec_params->nalu;
dec_params->dp = AllocPartition(1, dec_params,1024);
dec_params->sps = AllocSPS();
dec_params->pps = AllocPPS();
{
while ( decode_one_frame( dec_params ) != EOS );
}
//report( dec_params->input, dec_params->img, dec_params->snr,dec_params,);
report( dec_params->input, dec_params->img,dec_params);
free_slice( dec_params->input,dec_params->img);
FreeNALU(dec_params->nalu);
FreePartition (dec_params->dp, 1);
FreeSPS (dec_params->sps);
if (dec_params->PicParSet[dec_params->pps->pic_parameter_set_id].Valid == TRUE && dec_params->PicParSet[dec_params->pps->pic_parameter_set_id].slice_group_id != NULL)
{
h264_free (dec_params->PicParSet[dec_params->pps->pic_parameter_set_id].slice_group_id);
dec_params->PicParSet[dec_params->pps->pic_parameter_set_id].slice_group_id = NULL;
}
// IF FMO PRESENT
if (dec_params->active_pps->num_slice_groups_minus1)
{
FmoFinit(dec_params);
}
FreePPS (dec_params->pps);
free_global_buffers_baseline(dec_params);
flush_dpb(dec_params);
#ifdef PAIR_FIELDS_IN_OUTPUT
flush_pending_output(dec_params->p_out);
#endif
CloseBitstreamFile(dec_params);
//close(dec_params->p_out);
fclose (dec_params->f_out);
// fclose(p_out2);
#if TRACE
fclose(p_trace);
#endif
//ercClose(dec_params->erc_errorVar,dec_params);
ercClose(dec_params);
free_dpb(dec_params);
// uninit_out_buffer(dec_params);
free_colocated(dec_params);
if(dec_params->dec_picture != NULL)
{
free (dec_params->dec_picture);
dec_params->dec_picture = NULL;
}
if(dec_params->input != NULL)
{
h264_free (dec_params->input);
dec_params->input = NULL;
}
if(dec_params->img != NULL)
{
h264_free (dec_params->img);
dec_params->img = NULL;
}
if(dec_params != NULL)
{
h264_free (dec_params);
dec_params = NULL;
}
return 0;
}
/*!
***********************************************************************
* \brief
* main function for TML decoder
***********************************************************************
*/
int main(int argc, char **argv)
{
// allocate memory for the structures
if ((input = (struct inp_par *)calloc(1, sizeof(struct inp_par)))==NULL) no_mem_exit("main: input");
if ((snr = (struct snr_par *)calloc(1, sizeof(struct snr_par)))==NULL) no_mem_exit("main: snr");
if ((img = (struct img_par *)calloc(1, sizeof(struct img_par)))==NULL) no_mem_exit("main: img");
// Read Configuration File
if (argc != 2)
{
snprintf(errortext, ET_SIZE, "Usage: %s <config.dat> \n\t<config.dat> defines decoder parameters",argv[0]);
error(errortext, 300);
}
init_conf(input, argv[1]);
init_old_slice();
switch (input->FileFormat)
{
case 0:
OpenBitstreamFile (input->infile);
break;
case 1:
OpenRTPFile (input->infile);
break;
default:
printf ("Unsupported file format %d, exit\n", input->FileFormat);
}
// Allocate Slice data struct
malloc_slice(input,img);
init(img);
dec_picture = NULL;
dpb.init_done = 0;
g_nFrame = 0;
// init_dpb(input);
init_out_buffer();
img->idr_psnr_number=input->ref_offset;
img->psnr_number=0;
img->number=0;
img->type = I_SLICE;
img->dec_ref_pic_marking_buffer = NULL;
// B pictures
Bframe_ctr=0;
// time for total decoding session
tot_time = 0;
while (decode_one_frame(img, input, snr) != EOS)
;
report(input, img, snr);
free_slice(input,img);
FmoFinit();
free_global_buffers();
flush_dpb();
#ifdef PAIR_FIELDS_IN_OUTPUT
flush_pending_output(p_out);
#endif
CloseBitstreamFile();
fclose(p_out);
// fclose(p_out2);
if (p_ref)
fclose(p_ref);
#if TRACE
fclose(p_trace);
#endif
ercClose(erc_errorVar);
free_dpb();
uninit_out_buffer();
free_collocated(Co_located);
free (input);
free (snr);
free (img);
//while( !kbhit() );
return 0;
}
/*!
***********************************************************************
* \brief
* main function for TML decoder
***********************************************************************
*/
int main2(int argc, char **argv)
{
int i;
// allocate memory for the structures
if ((input = (struct inp_par *)calloc(1, sizeof(struct inp_par)))==NULL) no_mem_exit("main: input");
if ((snr = (struct snr_par *)calloc(1, sizeof(struct snr_par)))==NULL) no_mem_exit("main: snr");
if ((img = (struct img_par *)calloc(1, sizeof(struct img_par)))==NULL) no_mem_exit("main: img");
Configure (argc, argv);
init_old_slice();
switch (input->FileFormat)
{
case 0:
OpenBitstreamFile (input->infile);
break;
case 1:
OpenRTPFile (input->infile);
break;
default:
printf ("Unsupported file format %d, exit\n", input->FileFormat);
}
// Allocate Slice data struct
malloc_slice(input,img);
init(img);
#ifdef ADAPTIVE_FILTER
InitAdaptiveFilter();
#endif
#ifdef MV_COMPETITION
init_MV_Competition();
#endif
dec_picture = NULL;
dpb.init_done = 0;
g_nFrame = 0;
init_out_buffer();
img->idr_psnr_number=input->ref_offset;
img->psnr_number=0;
img->number=0;
img->type = I_SLICE;
img->dec_ref_pic_marking_buffer = NULL;
// B pictures
Bframe_ctr=snr->frame_ctr=0;
// time for total decoding session
tot_time = 0;
// reference flag initialization
for(i=0; i<17; i++)
{
ref_flag[i]=1;
}
while (decode_one_frame(img, input, snr) != EOS)
;
report(input, img, snr);
free_slice(input,img);
FmoFinit();
free_global_buffers();
flush_dpb();
#ifdef PAIR_FIELDS_IN_OUTPUT
flush_pending_output(p_out);
#endif
CloseBitstreamFile();
close(p_out);
// fclose(p_out2);
if (p_ref!=-1)
close(p_ref);
#if TRACE
fclose(p_trace);
#endif
#ifdef MV_COMPETITION
close_MV_Competition();
#endif
ercClose(erc_errorVar);
free_dpb();
uninit_out_buffer();
free_colocated(Co_located);
free (input);
free (snr);
free (img);
//while( !kbhit() );
return 0;
}
/*!
************************************************************************
* \brief
* Writes out a storable picture
* If the picture is a field, the output buffers the picture and tries
* to pair it with the next field.
* \param p
* Picture to be written
* \param p_out
* Output file
************************************************************************
*/
void write_picture(StorablePicture *p, FILE *p_out, int real_structure)
{
int i, add;
if (real_structure==FRAME)
{
flush_pending_output(p_out);
write_out_picture(p, p_out);
return;
}
if (real_structure==pending_output_state)
{
flush_pending_output(p_out);
write_picture(p, p_out, real_structure);
return;
}
if (pending_output_state == FRAME)
{
pending_output->size_x = p->size_x;
pending_output->size_y = p->size_y;
pending_output->size_x_cr = p->size_x_cr;
pending_output->size_y_cr = p->size_y_cr;
pending_output->frame_mbs_only_flag = p->frame_mbs_only_flag;
pending_output->frame_cropping_flag = p->frame_cropping_flag;
if (pending_output->frame_cropping_flag)
{
pending_output->frame_cropping_rect_left_offset = p->frame_cropping_rect_left_offset;
pending_output->frame_cropping_rect_right_offset = p->frame_cropping_rect_right_offset;
pending_output->frame_cropping_rect_top_offset = p->frame_cropping_rect_top_offset;
pending_output->frame_cropping_rect_bottom_offset = p->frame_cropping_rect_bottom_offset;
}
get_mem2D (&(pending_output->imgY), pending_output->size_y, pending_output->size_x);
get_mem3D (&(pending_output->imgUV), 2, pending_output->size_y_cr, pending_output->size_x_cr );
clear_picture(pending_output);
// copy first field
if (real_structure == TOP_FIELD)
{
add = 0;
}
else
{
add = 1;
}
for (i=0; i<pending_output->size_y; i+=2)
{
memcpy(pending_output->imgY[(i+add)], p->imgY[(i+add)], p->size_x);
}
for (i=0; i<pending_output->size_y_cr; i+=2)
{
memcpy(pending_output->imgUV[0][(i+add)], p->imgUV[0][(i+add)], p->size_x_cr);
memcpy(pending_output->imgUV[1][(i+add)], p->imgUV[1][(i+add)], p->size_x_cr);
}
pending_output_state = real_structure;
}
else
{
if ( (pending_output->size_x!=p->size_x) || (pending_output->size_y!= p->size_y)
|| (pending_output->frame_mbs_only_flag != p->frame_mbs_only_flag)
|| (pending_output->frame_cropping_flag != p->frame_cropping_flag)
|| ( pending_output->frame_cropping_flag &&
( (pending_output->frame_cropping_rect_left_offset != p->frame_cropping_rect_left_offset)
||(pending_output->frame_cropping_rect_right_offset != p->frame_cropping_rect_right_offset)
||(pending_output->frame_cropping_rect_top_offset != p->frame_cropping_rect_top_offset)
||(pending_output->frame_cropping_rect_bottom_offset != p->frame_cropping_rect_bottom_offset)
)
)
)
{
flush_pending_output(p_out);
write_picture (p, p_out, real_structure);
return;
}
// copy second field
if (real_structure == TOP_FIELD)
{
add = 0;
}
else
{
add = 1;
}
for (i=0; i<pending_output->size_y; i+=2)
{
memcpy(pending_output->imgY[(i+add)], p->imgY[(i+add)], p->size_x);
}
for (i=0; i<pending_output->size_y_cr; i+=2)
{
memcpy(pending_output->imgUV[0][(i+add)], p->imgUV[0][(i+add)], p->size_x_cr);
memcpy(pending_output->imgUV[1][(i+add)], p->imgUV[1][(i+add)], p->size_x_cr);
}
flush_pending_output(p_out);
}
}
