int wmain(int argc, const wchar_t *_argv[]) {
std::vector<const char *> StringPtrs(argc);
std::vector<std::string> StringStorage(argc);
for (int i = 0; i < argc; i++) {
StringStorage[i] = utf16_to_utf8(_argv[i]);
StringPtrs[i] = StringStorage[i].c_str();
}
const char **argv = StringPtrs.data();
#else
int main(int argc, const char *argv[]) {
#endif
try {
if (argc <= 1) {
PrintUsage();
return 0;
}
ParseCMDLine(argc, argv);
} catch (Error const& e) {
std::cout << e.msg << std::endl;
return 1;
}
FFMS_Init(0, 0);
switch (Verbose) {
case 0: FFMS_SetLogLevel(FFMS_LOG_QUIET); break;
case 1: FFMS_SetLogLevel(FFMS_LOG_WARNING); break;
case 2: FFMS_SetLogLevel(FFMS_LOG_INFO); break;
case 3: FFMS_SetLogLevel(FFMS_LOG_VERBOSE); break;
default: FFMS_SetLogLevel(FFMS_LOG_DEBUG); // if user used -v 4 or more times, he deserves the spam
}
try {
DoIndexing();
} catch (Error const& e) {
std::cout << e.msg << std::endl;
FFMS_Deinit();
return 1;
}
FFMS_Deinit();
return 0;
}
int main ()
{
// threads should be initialized before memory allocations
char cTopOfMainStack;
sphThreadInit();
MemorizeStack ( &cTopOfMainStack );
CSphString sError;
CSphDictSettings tDictSettings;
ISphTokenizer * pTok = sphCreateUTF8Tokenizer();
CSphDict * pDict = sphCreateDictionaryCRC ( tDictSettings, pTok, sError, "rt1" );
CSphSource * pSrc = SpawnSource ( "SELECT id, channel_id, UNIX_TIMESTAMP(published) published, title, UNCOMPRESS(content) content FROM posting WHERE id<=10000 AND id%2=0", pTok, pDict );
ISphTokenizer * pTok2 = sphCreateUTF8Tokenizer();
CSphDict * pDict2 = sphCreateDictionaryCRC ( tDictSettings, pTok, sError, "rt2" );
CSphSource * pSrc2 = SpawnSource ( "SELECT id, channel_id, UNIX_TIMESTAMP(published) published, title, UNCOMPRESS(content) content FROM posting WHERE id<=10000 AND id%2=1", pTok2, pDict2 );
CSphSchema tSrcSchema;
if ( !pSrc->UpdateSchema ( &tSrcSchema, sError ) )
sphDie ( "update-schema failed: %s", sError.cstr() );
CSphSchema tSchema; // source schema must be all dynamic attrs; but index ones must be static
tSchema.m_dFields = tSrcSchema.m_dFields;
for ( int i=0; i<tSrcSchema.GetAttrsCount(); i++ )
tSchema.AddAttr ( tSrcSchema.GetAttr(i), false );
CSphConfigSection tRTConfig;
sphRTInit();
sphRTConfigure ( tRTConfig, true );
SmallStringHash_T< CSphIndex * > dTemp;
sphReplayBinlog ( dTemp, 0 );
ISphRtIndex * pIndex = sphCreateIndexRT ( tSchema, "testrt", 32*1024*1024, "data/dump", false );
pIndex->SetTokenizer ( pTok ); // index will own this pair from now on
pIndex->SetDictionary ( pDict );
if ( !pIndex->Prealloc ( false, false, sError ) )
sphDie ( "prealloc failed: %s", pIndex->GetLastError().cstr() );
g_pIndex = pIndex;
// initial indexing
int64_t tmStart = sphMicroTimer();
SphThread_t t1, t2;
sphThreadCreate ( &t1, IndexingThread, pSrc );
sphThreadCreate ( &t2, IndexingThread, pSrc2 );
sphThreadJoin ( &t1 );
sphThreadJoin ( &t2 );
#if 0
// update
tParams.m_sQuery = "SELECT id, channel_id, UNIX_TIMESTAMP(published) published, title, UNCOMPRESS(content) content FROM rt2 WHERE id<=10000";
SetupIndexing ( pSrc, tParams );
DoIndexing ( pSrc, pIndex );
#endif
// search
DoSearch ( pIndex );
// shutdown index (should cause dump)
int64_t tmShutdown = sphMicroTimer();
#if SPH_ALLOCS_PROFILER
printf ( "pre-shutdown allocs=%d, bytes="INT64_FMT"\n", sphAllocsCount(), sphAllocBytes() );
#endif
SafeDelete ( pIndex );
#if SPH_ALLOCS_PROFILER
printf ( "post-shutdown allocs=%d, bytes="INT64_FMT"\n", sphAllocsCount(), sphAllocBytes() );
#endif
int64_t tmEnd = sphMicroTimer();
printf ( "shutdown done in %d.%03d sec\n", (int)((tmEnd-tmShutdown)/1000000), (int)(((tmEnd-tmShutdown)%1000000)/1000) );
printf ( "total with shutdown %d.%03d sec, %.2f MB/sec\n",
(int)((tmEnd-tmStart)/1000000), (int)(((tmEnd-tmStart)%1000000)/1000),
g_fTotalMB*1000000.0f/(tmEnd-tmStart) );
#if SPH_DEBUG_LEAKS || SPH_ALLOCS_PROFILER
sphAllocsStats();
#endif
#if USE_WINDOWS
PROCESS_MEMORY_COUNTERS pmc;
HANDLE hProcess = OpenProcess ( PROCESS_QUERY_INFORMATION | PROCESS_VM_READ, FALSE, GetCurrentProcessId() );
if ( hProcess && GetProcessMemoryInfo ( hProcess, &pmc, sizeof(pmc)) )
{
printf ( "--- peak-wss=%d, peak-pagefile=%d\n", (int)pmc.PeakWorkingSetSize, (int)pmc.PeakPagefileUsage );
}
#endif
SafeDelete ( pIndex );
sphRTDone ();
}
void IndexingThread ( void * pArg )
{
CSphSource * pSrc = (CSphSource *) pArg;
DoIndexing ( pSrc, g_pIndex );
}
int main() {
int argc;
wchar_t **_argv;
wchar_t **env;
int si = 0;
__wgetmainargs(&argc, &_argv, &env, _CRT_glob, &si);
#else
int wmain(int argc, wchar_t *_argv[]) {
#endif
char **argv = (char**)malloc(argc*sizeof(char*));
for (int i=0; i<argc; i++) {
int len = WideCharToMultiByte(CP_UTF8, 0, _argv[i], -1, NULL, 0, NULL, NULL);
if (!len) {
std::cout << "Failed to translate commandline to Unicode" << std::endl;
return 1;
}
char *temp = (char*)malloc(len*sizeof(char));
len = WideCharToMultiByte(CP_UTF8, 0, _argv[i], -1, temp, len, NULL, NULL);
if (!len) {
std::cout << "Failed to translate commandline to Unicode" << std::endl;
return 1;
}
argv[i] = temp;
}
#else /* defined(_WIN32) && !defined(__MINGW32__) */
int main(int argc, char *argv[]) {
#endif /* defined(_WIN32) && !defined(__MINGW32__) */
try {
ParseCMDLine(argc, argv);
} catch (const char *Error) {
std::cout << std::endl << Error << std::endl;
return 1;
} catch (std::string Error) {
std::cout << std::endl << Error << std::endl;
return 1;
} catch (...) {
std::cout << std::endl << "Unknown error" << std::endl;
return 1;
}
#ifdef _WIN32
if (FAILED(CoInitializeEx(NULL, COINIT_MULTITHREADED))) {
std::cout << "COM initialization failure" << std::endl;
return 1;
}
#endif /* _WIN32 */
FFMS_Init(0, 1);
switch (Verbose) {
case 0: FFMS_SetLogLevel(AV_LOG_QUIET); break;
case 1: FFMS_SetLogLevel(AV_LOG_WARNING); break;
case 2: FFMS_SetLogLevel(AV_LOG_INFO); break;
case 3: FFMS_SetLogLevel(AV_LOG_VERBOSE); break;
default: FFMS_SetLogLevel(AV_LOG_DEBUG); // if user used -v 4 or more times, he deserves the spam
}
try {
DoIndexing();
} catch (const char *Error) {
std::cout << Error << std::endl;
if (Index)
FFMS_DestroyIndex(Index);
return 1;
} catch (std::string Error) {
std::cout << std::endl << Error << std::endl;
if (Index)
FFMS_DestroyIndex(Index);
return 1;
} catch (...) {
std::cout << std::endl << "Unknown error" << std::endl;
if (Index)
FFMS_DestroyIndex(Index);
return 1;
}
if (Index)
FFMS_DestroyIndex(Index);
#ifdef _WIN32
CoUninitialize();
#endif
return 0;
}
/// @brief Load audio file
/// @param filename
///
void FFmpegSourceAudioProvider::LoadAudio(std::string filename) {
// wxString FileNameShort = wxFileName(filename).GetShortPath();
FFMS_Indexer *Indexer = FFMS_CreateIndexer(filename.c_str(), &ErrInfo);
if (Indexer == NULL) {
throw agi::FileNotFoundError(ErrInfo.Buffer);
}
std::map<int,std::string> TrackList = GetTracksOfType(Indexer, FFMS_TYPE_AUDIO);
if (TrackList.size() <= 0)
throw AudioOpenError("no audio tracks found");
// initialize the track number to an invalid value so we can detect later on
// whether the user actually had to choose a track or not
int TrackNumber = -1;
if (TrackList.size() > 1) {
TrackNumber = AskForTrackSelection(TrackList, FFMS_TYPE_AUDIO);
// if it's still -1 here, user pressed cancel
if (TrackNumber == -1)
throw agi::UserCancelException("audio loading cancelled by user");
}
// generate a name for the cache file
std::string CacheName = GetCacheFilename(filename);
// try to read index
FFMS_Index *Index = NULL;
Index = FFMS_ReadIndex(CacheName.c_str(), &ErrInfo);
bool IndexIsValid = false;
if (Index != NULL) {
if (FFMS_IndexBelongsToFile(Index, filename.c_str(), &ErrInfo)) {
FFMS_DestroyIndex(Index);
Index = NULL;
}
else
IndexIsValid = true;
}
// index valid but track number still not set?
if (IndexIsValid) {
// track number not set? just grab the first track
if (TrackNumber < 0)
TrackNumber = FFMS_GetFirstTrackOfType(Index, FFMS_TYPE_AUDIO, &ErrInfo);
if (TrackNumber < 0) {
FFMS_DestroyIndex(Index);
Index = NULL;
throw AudioOpenError(std::string("Couldn't find any audio tracks: ") + ErrInfo.Buffer);
}
// index is valid and track number is now set,
// but do we have indexing info for the desired audio track?
FFMS_Track *TempTrackData = FFMS_GetTrackFromIndex(Index, TrackNumber);
if (FFMS_GetNumFrames(TempTrackData) <= 0) {
IndexIsValid = false;
FFMS_DestroyIndex(Index);
Index = NULL;
}
}
// no valid index exists and the file only has one audio track, index it
else if (TrackNumber < 0)
TrackNumber = FFMS_TRACKMASK_ALL;
// else: do nothing (keep track mask as it is)
// moment of truth
if (!IndexIsValid) {
int TrackMask;
// if (OPT_GET("Provider/FFmpegSource/Index All Tracks")->GetBool() || TrackNumber == FFMS_TRACKMASK_ALL)
if (TrackNumber == FFMS_TRACKMASK_ALL)
TrackMask = FFMS_TRACKMASK_ALL;
else
TrackMask = (1 << TrackNumber);
try {
Index = DoIndexing(Indexer, CacheName, TrackMask, GetErrorHandlingMode());
}
catch (std::string const& err) {
throw AudioOpenError(err);
}
// if tracknumber still isn't set we need to set it now
if (TrackNumber == FFMS_TRACKMASK_ALL)
TrackNumber = FFMS_GetFirstTrackOfType(Index, FFMS_TYPE_AUDIO, &ErrInfo);
}
// update access time of index file so it won't get cleaned away
///XXX: Add something to libaegisub to support this.
// if (!wxFileName(CacheName).Touch()) {
// warn user?
// }
#if FFMS_VERSION >= ((2 << 24) | (14 << 16) | (1 << 8) | 0)
AudioSource = FFMS_CreateAudioSource(filename.c_str(), TrackNumber, Index, -1, &ErrInfo);
#else
AudioSource = FFMS_CreateAudioSource(filename.c_str(), TrackNumber, Index, &ErrInfo);
#endif
FFMS_DestroyIndex(Index);
Index = NULL;
if (!AudioSource) {
throw AudioOpenError(std::string("Failed to open audio track: %s") + ErrInfo.Buffer);
}
const FFMS_AudioProperties AudioInfo = *FFMS_GetAudioProperties(AudioSource);
channels = AudioInfo.Channels;
sample_rate = AudioInfo.SampleRate;
num_samples = AudioInfo.NumSamples;
if (channels <= 0 || sample_rate <= 0 || num_samples <= 0)
throw AudioOpenError("sanity check failed, consult your local psychiatrist");
// FIXME: use the actual sample format too?
// why not just bits_per_sample/8? maybe there's some oddball format with half bytes out there somewhere...
switch (AudioInfo.BitsPerSample) {
case 8: bytes_per_sample = 1; break;
case 16: bytes_per_sample = 2; break;
case 24: bytes_per_sample = 3; break;
case 32: bytes_per_sample = 4; break;
default:
throw AudioOpenError("unknown or unsupported sample format");
}
}
/// @brief Opens video
/// @param filename The filename to open
void FFmpegSourceVideoProvider::LoadVideo(wxString filename) {
wxString FileNameShort = wxFileName(filename).GetShortPath();
FFMS_Indexer *Indexer = FFMS_CreateIndexer(FileNameShort.utf8_str(), &ErrInfo);
if (Indexer == NULL) {
throw agi::FileNotFoundError(ErrInfo.Buffer);
}
std::map<int,wxString> TrackList = GetTracksOfType(Indexer, FFMS_TYPE_VIDEO);
if (TrackList.size() <= 0)
throw VideoNotSupported("no video tracks found");
// initialize the track number to an invalid value so we can detect later on
// whether the user actually had to choose a track or not
int TrackNumber = -1;
if (TrackList.size() > 1) {
TrackNumber = AskForTrackSelection(TrackList, FFMS_TYPE_VIDEO);
// if it's still -1 here, user pressed cancel
if (TrackNumber == -1)
throw agi::UserCancelException("video loading cancelled by user");
}
// generate a name for the cache file
wxString CacheName = GetCacheFilename(filename);
// try to read index
FFMS_Index *Index = NULL;
Index = FFMS_ReadIndex(CacheName.utf8_str(), &ErrInfo);
bool IndexIsValid = false;
if (Index != NULL) {
if (FFMS_IndexBelongsToFile(Index, FileNameShort.utf8_str(), &ErrInfo)) {
FFMS_DestroyIndex(Index);
Index = NULL;
}
else
IndexIsValid = true;
}
// time to examine the index and check if the track we want is indexed
// technically this isn't really needed since all video tracks should always be indexed,
// but a bit of sanity checking never hurt anyone
if (IndexIsValid && TrackNumber >= 0) {
FFMS_Track *TempTrackData = FFMS_GetTrackFromIndex(Index, TrackNumber);
if (FFMS_GetNumFrames(TempTrackData) <= 0) {
IndexIsValid = false;
FFMS_DestroyIndex(Index);
Index = NULL;
}
}
// moment of truth
if (!IndexIsValid) {
int TrackMask = OPT_GET("Provider/FFmpegSource/Index All Tracks")->GetBool() ? FFMS_TRACKMASK_ALL : FFMS_TRACKMASK_NONE;
try {
// ignore audio decoding errors here, we don't care right now
Index = DoIndexing(Indexer, CacheName, TrackMask, FFMS_IEH_IGNORE);
}
catch (wxString err) {
throw VideoOpenError(STD_STR(err));
}
}
// update access time of index file so it won't get cleaned away
wxFileName(CacheName).Touch();
// we have now read the index and may proceed with cleaning the index cache
if (!CleanCache()) {
//do something?
}
// track number still not set?
if (TrackNumber < 0) {
// just grab the first track
TrackNumber = FFMS_GetFirstIndexedTrackOfType(Index, FFMS_TYPE_VIDEO, &ErrInfo);
if (TrackNumber < 0) {
FFMS_DestroyIndex(Index);
Index = NULL;
throw VideoNotSupported(std::string("Couldn't find any video tracks: ") + ErrInfo.Buffer);
}
}
// set thread count
int Threads = OPT_GET("Provider/Video/FFmpegSource/Decoding Threads")->GetInt();
// set seekmode
// TODO: give this its own option?
int SeekMode;
if (OPT_GET("Provider/Video/FFmpegSource/Unsafe Seeking")->GetBool())
SeekMode = FFMS_SEEK_UNSAFE;
else
SeekMode = FFMS_SEEK_NORMAL;
VideoSource = FFMS_CreateVideoSource(FileNameShort.utf8_str(), TrackNumber, Index, Threads, SeekMode, &ErrInfo);
FFMS_DestroyIndex(Index);
Index = NULL;
if (VideoSource == NULL) {
throw VideoOpenError(std::string("Failed to open video track: ") + ErrInfo.Buffer);
}
// load video properties
VideoInfo = FFMS_GetVideoProperties(VideoSource);
const FFMS_Frame *TempFrame = FFMS_GetFrame(VideoSource, 0, &ErrInfo);
if (TempFrame == NULL) {
throw VideoOpenError(std::string("Failed to decode first frame: ") + ErrInfo.Buffer);
}
Width = TempFrame->EncodedWidth;
Height = TempFrame->EncodedHeight;
if (FFMS_SetOutputFormatV(VideoSource, 1LL << FFMS_GetPixFmt("bgra"), Width, Height, FFMS_RESIZER_BICUBIC, &ErrInfo)) {
throw VideoOpenError(std::string("Failed to set output format: ") + ErrInfo.Buffer);
}
// get frame info data
FFMS_Track *FrameData = FFMS_GetTrackFromVideo(VideoSource);
if (FrameData == NULL)
throw VideoOpenError("failed to get frame data");
const FFMS_TrackTimeBase *TimeBase = FFMS_GetTimeBase(FrameData);
if (TimeBase == NULL)
throw VideoOpenError("failed to get track time base");
const FFMS_FrameInfo *CurFrameData;
// build list of keyframes and timecodes
std::vector<int> TimecodesVector;
for (int CurFrameNum = 0; CurFrameNum < VideoInfo->NumFrames; CurFrameNum++) {
CurFrameData = FFMS_GetFrameInfo(FrameData, CurFrameNum);
if (CurFrameData == NULL) {
throw VideoOpenError(STD_STR(wxString::Format(L"Couldn't get info about frame %d", CurFrameNum)));
}
// keyframe?
if (CurFrameData->KeyFrame)
KeyFramesList.push_back(CurFrameNum);
// calculate timestamp and add to timecodes vector
int Timestamp = (int)((CurFrameData->PTS * TimeBase->Num) / TimeBase->Den);
TimecodesVector.push_back(Timestamp);
}
Timecodes = agi::vfr::Framerate(TimecodesVector);
FrameNumber = 0;
}
/// @brief Opens video
/// @param filename The filename to open
void FFmpegSourceVideoProvider::LoadVideo(wxString filename) {
wxString FileNameShort = wxFileName(filename).GetShortPath();
FFMS_Indexer *Indexer = FFMS_CreateIndexer(FileNameShort.utf8_str(), &ErrInfo);
if (!Indexer)
throw agi::FileNotFoundError(ErrInfo.Buffer);
std::map<int,wxString> TrackList = GetTracksOfType(Indexer, FFMS_TYPE_VIDEO);
if (TrackList.size() <= 0)
throw VideoNotSupported("no video tracks found");
// initialize the track number to an invalid value so we can detect later on
// whether the user actually had to choose a track or not
int TrackNumber = -1;
if (TrackList.size() > 1) {
TrackNumber = AskForTrackSelection(TrackList, FFMS_TYPE_VIDEO);
// if it's still -1 here, user pressed cancel
if (TrackNumber == -1)
throw agi::UserCancelException("video loading cancelled by user");
}
// generate a name for the cache file
wxString CacheName = GetCacheFilename(filename);
// try to read index
agi::scoped_holder<FFMS_Index*, void (FFMS_CC*)(FFMS_Index*)>
Index(FFMS_ReadIndex(CacheName.utf8_str(), &ErrInfo), FFMS_DestroyIndex);
if (Index && FFMS_IndexBelongsToFile(Index, FileNameShort.utf8_str(), &ErrInfo))
Index = NULL;
// time to examine the index and check if the track we want is indexed
// technically this isn't really needed since all video tracks should always be indexed,
// but a bit of sanity checking never hurt anyone
if (Index && TrackNumber >= 0) {
FFMS_Track *TempTrackData = FFMS_GetTrackFromIndex(Index, TrackNumber);
if (FFMS_GetNumFrames(TempTrackData) <= 0)
Index = NULL;
}
// moment of truth
if (!Index) {
int TrackMask = FFMS_TRACKMASK_NONE;
if (OPT_GET("Provider/FFmpegSource/Index All Tracks")->GetBool() || OPT_GET("Video/Open Audio")->GetBool())
TrackMask = FFMS_TRACKMASK_ALL;
Index = DoIndexing(Indexer, CacheName, TrackMask, GetErrorHandlingMode());
}
else {
FFMS_CancelIndexing(Indexer);
}
// update access time of index file so it won't get cleaned away
wxFileName(CacheName).Touch();
// we have now read the index and may proceed with cleaning the index cache
CleanCache();
// track number still not set?
if (TrackNumber < 0) {
// just grab the first track
TrackNumber = FFMS_GetFirstIndexedTrackOfType(Index, FFMS_TYPE_VIDEO, &ErrInfo);
if (TrackNumber < 0)
throw VideoNotSupported(std::string("Couldn't find any video tracks: ") + ErrInfo.Buffer);
}
// set thread count
int Threads = OPT_GET("Provider/Video/FFmpegSource/Decoding Threads")->GetInt();
if (FFMS_GetVersion() < ((2 << 24) | (17 << 16) | (2 << 8) | 1) && FFMS_GetSourceType(Index) == FFMS_SOURCE_LAVF)
Threads = 1;
// set seekmode
// TODO: give this its own option?
int SeekMode;
if (OPT_GET("Provider/Video/FFmpegSource/Unsafe Seeking")->GetBool())
SeekMode = FFMS_SEEK_UNSAFE;
else
SeekMode = FFMS_SEEK_NORMAL;
VideoSource = FFMS_CreateVideoSource(FileNameShort.utf8_str(), TrackNumber, Index, Threads, SeekMode, &ErrInfo);
if (!VideoSource)
throw VideoOpenError(std::string("Failed to open video track: ") + ErrInfo.Buffer);
// load video properties
VideoInfo = FFMS_GetVideoProperties(VideoSource);
const FFMS_Frame *TempFrame = FFMS_GetFrame(VideoSource, 0, &ErrInfo);
if (!TempFrame)
throw VideoOpenError(std::string("Failed to decode first frame: ") + ErrInfo.Buffer);
Width = TempFrame->EncodedWidth;
Height = TempFrame->EncodedHeight;
if (VideoInfo->SARDen > 0 && VideoInfo->SARNum > 0)
DAR = double(Width) * VideoInfo->SARNum / ((double)Height * VideoInfo->SARDen);
else
DAR = double(Width) / Height;
// Assuming TV for unspecified
wxString ColorRange = TempFrame->ColorRange == FFMS_CR_JPEG ? "PC" : "TV";
int CS = TempFrame->ColorSpace;
#if FFMS_VERSION >= ((2 << 24) | (17 << 16) | (1 << 8) | 0)
if (CS != FFMS_CS_RGB && CS != FFMS_CS_BT470BG && OPT_GET("Video/Force BT.601")->GetBool()) {
if (FFMS_SetInputFormatV(VideoSource, FFMS_CS_BT470BG, TempFrame->ColorRange, FFMS_GetPixFmt(""), &ErrInfo))
throw VideoOpenError(std::string("Failed to set input format: ") + ErrInfo.Buffer);
CS = FFMS_CS_BT470BG;
}
#endif
switch (CS) {
case FFMS_CS_RGB:
ColorSpace = "None";
break;
case FFMS_CS_BT709:
ColorSpace = wxString::Format("%s.709", ColorRange);
break;
case FFMS_CS_UNSPECIFIED:
ColorSpace = wxString::Format("%s.%s", ColorRange, Width > 1024 || Height >= 600 ? "709" : "601");
break;
case FFMS_CS_FCC:
ColorSpace = wxString::Format("%s.FCC", ColorRange);
break;
case FFMS_CS_BT470BG:
case FFMS_CS_SMPTE170M:
ColorSpace = wxString::Format("%s.601", ColorRange);
break;
case FFMS_CS_SMPTE240M:
ColorSpace = wxString::Format("%s.240M", ColorRange);
break;
default:
throw VideoOpenError("Unknown video color space");
break;
}
const int TargetFormat[] = { FFMS_GetPixFmt("bgra"), -1 };
if (FFMS_SetOutputFormatV2(VideoSource, TargetFormat, Width, Height, FFMS_RESIZER_BICUBIC, &ErrInfo)) {
throw VideoOpenError(std::string("Failed to set output format: ") + ErrInfo.Buffer);
}
// get frame info data
FFMS_Track *FrameData = FFMS_GetTrackFromVideo(VideoSource);
if (FrameData == NULL)
throw VideoOpenError("failed to get frame data");
const FFMS_TrackTimeBase *TimeBase = FFMS_GetTimeBase(FrameData);
if (TimeBase == NULL)
throw VideoOpenError("failed to get track time base");
const FFMS_FrameInfo *CurFrameData;
// build list of keyframes and timecodes
std::vector<int> TimecodesVector;
for (int CurFrameNum = 0; CurFrameNum < VideoInfo->NumFrames; CurFrameNum++) {
CurFrameData = FFMS_GetFrameInfo(FrameData, CurFrameNum);
if (CurFrameData == NULL) {
throw VideoOpenError(STD_STR(wxString::Format("Couldn't get info about frame %d", CurFrameNum)));
}
// keyframe?
if (CurFrameData->KeyFrame)
KeyFramesList.push_back(CurFrameNum);
// calculate timestamp and add to timecodes vector
int Timestamp = (int)((CurFrameData->PTS * TimeBase->Num) / TimeBase->Den);
TimecodesVector.push_back(Timestamp);
}
if (TimecodesVector.size() < 2)
Timecodes = 25.0;
else
Timecodes = agi::vfr::Framerate(TimecodesVector);
FrameNumber = 0;
}
