return 1;
}
+int FFVideoStream::probe(int64_t pos)
+{
+ int ret = video_seek(pos);
+ if( ret < 0 ) return -1;
+ if( !frame && !(frame=av_frame_alloc()) ) {
+ fprintf(stderr, "FFVideoStream::probe: av_frame_alloc failed\n");
+ return -1;
+ }
+
+ if (ffmpeg->interlace_from_codec)
+ return 1;
+
+ ret = read_frame(frame);
+ if( ret > 0 ) {
+ //printf("codec interlace: %i \n",frame->interlaced_frame);
+ //printf("codec tff: %i \n",frame->top_field_first);
+
+ if (!frame->interlaced_frame)
+ ffmpeg->interlace_from_codec = AV_FIELD_PROGRESSIVE;
+ if ((frame->interlaced_frame) && (frame->top_field_first))
+ ffmpeg->interlace_from_codec = AV_FIELD_TT;
+ if ((frame->interlaced_frame) && (!frame->top_field_first))
+ ffmpeg->interlace_from_codec = AV_FIELD_BB;
+ //printf("Interlace mode from codec: %i\n", ffmpeg->interlace_from_codec);
+
+ }
+
+ if( frame->format == AV_PIX_FMT_NONE || frame->width <= 0 || frame->height <= 0 )
+ ret = -1;
+
+ ret = ret > 0 ? 1 : ret < 0 ? -1 : 0;
+ return ret;
+}
+
int FFVideoStream::load(VFrame *vframe, int64_t pos)
{
int ret = video_seek(pos);
fprintf(stderr, "FFVideoStream::load: av_frame_alloc failed\n");
return -1;
}
+
+
int i = MAX_RETRY + pos - curr_pos;
int64_t cache_start = 0;
while( ret>=0 && !flushed && curr_pos<=pos && --i>=0 ) {
int FFVideoStream::drain()
{
+
return 0;
}
flow = 1;
decoding = encoding = 0;
has_audio = has_video = 0;
+ interlace_from_codec = 0;
opts = 0;
opt_duration = -1;
opt_video_filter = 0;
AVPixelFormat pix_fmt = (AVPixelFormat)st->codecpar->format;
const char *pfn = av_get_pix_fmt_name(pix_fmt);
report(" pix %s\n", pfn ? pfn : unkn);
+ int interlace = st->codecpar->field_order;
+ report(" interlace (container level): %i\n", interlace ? interlace : -1);
+ int interlace_codec = interlace_from_codec;
+ report(" interlace (codec level): %i\n", interlace_codec ? interlace_codec : -1);
enum AVColorSpace space = st->codecpar->color_space;
const char *nm = av_color_space_name(space);
report(" color space:%s", nm ? nm : unkn);
vid->interlaced = asset->interlace_mode == ILACE_MODE_TOP_FIRST ||
asset->interlace_mode == ILACE_MODE_BOTTOM_FIRST ? 1 : 0;
vid->top_field_first = asset->interlace_mode == ILACE_MODE_TOP_FIRST ? 1 : 0;
+ switch (asset->interlace_mode) {
+ case ILACE_MODE_TOP_FIRST:
+ if (ctx->codec->id == AV_CODEC_ID_MJPEG)
+ av_dict_set(&sopts, "field_order", "tt", 0);
+ else
+ av_dict_set(&sopts, "field_order", "tb", 0);
+ if (ctx->codec_id != AV_CODEC_ID_MJPEG)
+ av_dict_set(&sopts, "flags", "+ilme+ildct", 0);
+ break;
+ case ILACE_MODE_BOTTOM_FIRST:
+ if (ctx->codec->id == AV_CODEC_ID_MJPEG)
+ av_dict_set(&sopts, "field_order", "bb", 0);
+ else
+ av_dict_set(&sopts, "field_order", "bt", 0);
+ if (ctx->codec_id != AV_CODEC_ID_MJPEG)
+ av_dict_set(&sopts, "flags", "+ilme+ildct", 0);
+ break;
+ case ILACE_MODE_NOTINTERLACED: av_dict_set(&sopts, "field_order", "progressive", 0); break;
+ }
break; }
default:
eprintf(_("not audio/video, %s:%s\n"), codec_name, filename);
return 0;
}
+int FFMPEG::video_probe(int64_t pos)
+{
+ int vidx = vstrm_index[0].st_idx;
+ FFVideoStream *vid = ffvideo[vidx];
+ vid->probe(pos);
+
+ int interlace1 = interlace_from_codec;
+ //printf("interlace from codec: %i\n", interlace1);
+
+ switch (interlace1)
+ {
+ case AV_FIELD_TT:
+ case AV_FIELD_TB:
+ return ILACE_MODE_TOP_FIRST;
+ case AV_FIELD_BB:
+ case AV_FIELD_BT:
+ return ILACE_MODE_BOTTOM_FIRST;
+ case AV_FIELD_PROGRESSIVE:
+ return ILACE_MODE_NOTINTERLACED;
+ default:
+ return ILACE_MODE_UNDETECTED;
+ }
+
+}
+
+
+
int FFMPEG::video_seek(int stream, int64_t pos)
{
int vidx = vstrm_index[stream].st_idx;
float FFMPEG::ff_aspect_ratio(int stream)
{
- return ffvideo[stream]->aspect_ratio;
+ //return ffvideo[stream]->aspect_ratio;
+ AVFormatContext *fmt_ctx = ffvideo[stream]->fmt_ctx;
+ AVStream *strm = ffvideo[stream]->st;
+ AVCodecParameters *par = ffvideo[stream]->st->codecpar;
+ AVRational dar;
+ AVRational sar = av_guess_sample_aspect_ratio(fmt_ctx, strm, NULL);
+ if (sar.num) {
+ printf("sample_aspect_ratio, %f \n", av_q2d(sar));
+ av_reduce(&dar.num, &dar.den,
+ par->width * sar.num,
+ par->height * sar.den,
+ 1024*1024);
+ printf("display_aspect_ratio, %f \n", av_q2d(dar));
+ return av_q2d(dar);
+ }
+ return ffvideo[stream]->aspect_ratio;
}
const char* FFMPEG::ff_video_codec(int stream)
return ffvideo[stream]->st->codecpar->color_range == AVCOL_RANGE_MPEG ? 1 : 0;
}
+int FFMPEG::ff_interlace(int stream)
+{
+// https://ffmpeg.org/doxygen/trunk/structAVCodecParserContext.html
+/* reads from demuxer because codec frame not ready */
+ int interlace0 = ffvideo[stream]->st->codecpar->field_order;
+ printf("interlace from demux: %i\n", interlace0);
+
+ switch (interlace0)
+ {
+ case AV_FIELD_TT:
+ case AV_FIELD_TB:
+ return ILACE_MODE_TOP_FIRST;
+ case AV_FIELD_BB:
+ case AV_FIELD_BT:
+ return ILACE_MODE_BOTTOM_FIRST;
+ case AV_FIELD_PROGRESSIVE:
+ return ILACE_MODE_NOTINTERLACED;
+ default:
+ return ILACE_MODE_UNDETECTED;
+ }
+
+}
+
+
+
int FFMPEG::ff_cpus()
{
return !file_base ? 1 : file_base->file->cpus;
int init_frame(AVFrame *picture);
int load(VFrame *vframe, int64_t pos);
+ int probe(int64_t pos);
int video_seek(int64_t pos);
int encode(VFrame *vframe);
int drain();
double get_initial_timecode(int data_type, int channel, double frame_rate);
int audio_seek(int ch, int64_t pos);
+ int video_probe(int64_t pos);
int video_seek(int layer, int64_t pos);
int decode(int chn, int64_t pos, double *samples, int len);
int decoding, encoding;
int has_audio, has_video;
+ int interlace_from_codec;
FFMPEG(FileBase *file_base=0);
~FFMPEG();
float ff_aspect_ratio(int stream);
int ff_color_range(int stream);
int ff_color_space(int stream);
+ int ff_interlace(int stream);
double ff_frame_rate(int stream);
const char *ff_video_codec(int stream);
int64_t ff_video_frames(int stream);
int result = 0;
if( ff ) return 1;
ff = new FFMPEG(this);
-
+
if( rd ) {
result = ff->init_decoder(asset->path);
if( !result ) result = ff->open_decoder();
int video_layers = ff->ff_total_video_layers();
if( video_layers > 0 ) {
asset->video_data = 1;
+ asset->aspect_ratio = ff->ff_aspect_ratio(0);
+ printf("ff_aspect_ratio, %f \n", asset->aspect_ratio);
+ if (!asset->interlace_mode) asset->interlace_mode = ff->ff_interlace(0);
+ ff->video_probe(1);
+ if (!asset->interlace_mode && (ff->interlace_from_codec) ) asset->interlace_mode = ff->video_probe(1);
if( !asset->layers ) asset->layers = video_layers;
asset->actual_width = ff->ff_video_width(0);
asset->actual_height = ff->ff_video_height(0);
{
Asset *asset = fmt_config->asset;
char *format_name = asset->fformat;
+ char *replace_name0 = "mov";
+ char *replace_name1 = "mpegts";
+ char *replace_name2 = "matroska";
+ if (!strcmp(format_name, "qt"))
+ format_name = replace_name0; // fixup
+ if (!strcmp(format_name, "m2ts"))
+ format_name = replace_name1; // fixup
+ if (!strcmp(format_name, "mkv"))
+ format_name = replace_name2; // fixup
avformat_free_context(fmt_ctx); fmt_ctx = 0;
int ret = avformat_alloc_output_context2(&fmt_ctx, 0, format_name, 0);
if( ret || !fmt_ctx ) {
int MWindow::create_aspect_ratio(float &w, float &h, int width, int height)
{
w = 1; h = 1;
+ double ar;
+
if(!width || !height) return 1;
if( width == 720 && (height == 480 || height == 576) ) {
w = 4; h = 3; return 0; // for NTSC and PAL
}
- double ar = (double)width / height;
+
+ ar = (double)width / height;
// square-ish pixels
if( EQUIV(ar, 1.0000) ) return 0;
if( EQUIV(ar, 1.3333) ) { w = 4; h = 3; return 0; }
if( EQUIV(ar, 2.1111) ) { w = 19; h = 9; return 0; }
if( EQUIV(ar, 2.2222) ) { w = 20; h = 9; return 0; }
if( EQUIV(ar, 2.3333) ) { w = 21; h = 9; return 0; }
+ if( EQUIV(ar, 2.37037) ) { w = 64; h = 27; return 0; }
+
int ww = width, hh = height;
// numerator, denominator must be under mx
int mx = 255, n = gcd(ww, hh);
session->output_w = width;
session->output_h = height;
session->frame_rate = framerate;
+ session->interlace_mode = asset->interlace_mode;
// not, asset->actual_width/actual_height
asset->width = session->output_w;
asset->height = session->output_h;
asset->frame_rate = session->frame_rate;
+
create_aspect_ratio(session->aspect_w, session->aspect_h,
session->output_w, session->output_h);
+ float ar = asset->aspect_ratio;
+ if (ar) {
+ //printf ("Aspect ratio from asset: %f \n", ar);
+ if( EQUIV(ar, 1.3333) ) { session->aspect_w = 4; session->aspect_h = 3; }
+ if( EQUIV(ar, 1.7777) ) { session->aspect_w = 16; session->aspect_h = 9; }
+ if( EQUIV(ar, 2.1111) ) { session->aspect_w = 19; session->aspect_h = 9; }
+ if( EQUIV(ar, 2.2222) ) { session->aspect_w = 20; session->aspect_h = 9; }
+ if( EQUIV(ar, 2.3333) ) { session->aspect_w = 21; session->aspect_h = 9; }
+ if( EQUIV(ar, 2.370370) ) { session->aspect_w = 64; session->aspect_h = 27; }
+ }
+
+
Track *track = edl->tracks->first;
for( Track *next_track=0; track; track=next_track ) {
next_track = track->next;