#include "MediaExtractor.h" #include "PluginManager.h" #include "debug.h" #include #include MediaExtractor::MediaExtractor(BDataIO * source, int32 flags) { CALLED(); fSource = source; fStreamInfo = 0; fStreamCount = 0; fReader = 0; fErr = _CreateReader(&fReader, &fStreamCount, &fMff, source); if (fErr) return; fStreamInfo = new stream_info[fStreamCount]; // initialize stream infos for (int32 i = 0; i < fStreamCount; i++) { fStreamInfo[i].status = B_OK; fStreamInfo[i].cookie = 0; fStreamInfo[i].infoBuffer = 0; fStreamInfo[i].infoBufferSize = 0; memset(&fStreamInfo[i].encodedFormat, 0, sizeof(fStreamInfo[i].encodedFormat)); } // create all stream cookies for (int32 i = 0; i < fStreamCount; i++) { if (B_OK != fReader->AllocateCookie(i, &fStreamInfo[i].cookie)) { fStreamInfo[i].cookie = 0; fStreamInfo[i].status = B_ERROR; printf("MediaExtractor::MediaExtractor: AllocateCookie for stream %ld failed\n", i); } } // get info for all streams for (int32 i = 0; i < fStreamCount; i++) { if (fStreamInfo[i].status != B_OK) continue; int64 frameCount; bigtime_t duration; if (B_OK != fReader->GetStreamInfo(fStreamInfo[i].cookie, &frameCount, &duration, &fStreamInfo[i].encodedFormat, &fStreamInfo[i].infoBuffer, &fStreamInfo[i].infoBufferSize)) { fStreamInfo[i].status = B_ERROR; printf("MediaExtractor::MediaExtractor: GetStreamInfo for stream %ld failed\n", i); } } } MediaExtractor::~MediaExtractor() { CALLED(); // free all stream cookies for (int32 i = 0; i < fStreamCount; i++) { if (fStreamInfo[i].cookie) fReader->FreeCookie(fStreamInfo[i].cookie); } if (fReader) _DestroyReader(fReader); delete [] fStreamInfo; // fSource is owned by the BMediaFile } status_t MediaExtractor::InitCheck() { CALLED(); return fErr; } void MediaExtractor::GetFileFormatInfo(media_file_format *mfi) const { CALLED(); *mfi = fMff; } int32 MediaExtractor::StreamCount() { CALLED(); return fStreamCount; } const media_format * MediaExtractor::EncodedFormat(int32 stream) { return &fStreamInfo[stream].encodedFormat; } int64 MediaExtractor::CountFrames(int32 stream) const { CALLED(); int64 frameCount; bigtime_t duration; media_format format; void *infoBuffer; int32 infoSize; fReader->GetStreamInfo(fStreamInfo[stream].cookie, &frameCount, &duration, &format, &infoBuffer, &infoSize); return frameCount; } bigtime_t MediaExtractor::Duration(int32 stream) const { CALLED(); int64 frameCount; bigtime_t duration; media_format format; void *infoBuffer; int32 infoSize; fReader->GetStreamInfo(fStreamInfo[stream].cookie, &frameCount, &duration, &format, &infoBuffer, &infoSize); return duration; } status_t MediaExtractor::Seek(int32 stream, uint32 seekTo, int64 *frame, bigtime_t *time) { CALLED(); status_t result; result = fReader->Seek(fStreamInfo[stream].cookie, seekTo, frame, time); if (result != B_OK) return result; // clear buffered chunks return B_OK; } status_t MediaExtractor::GetNextChunk(int32 stream, void **chunkBuffer, int32 *chunkSize, media_header *mediaHeader) { //CALLED(); // get buffered chunk // XXX this should be done in a different thread, and double buffered for each stream return fReader->GetNextChunk(fStreamInfo[stream].cookie, chunkBuffer, chunkSize, mediaHeader); } status_t MediaExtractor::CreateDecoder(int32 stream, Decoder **decoder, media_codec_info *mci) { CALLED(); if (fStreamInfo[stream].status != B_OK) { printf("MediaExtractor::CreateDecoder can't create decoder for stream %ld\n", stream); return B_ERROR; } if (B_OK != _CreateDecoder(decoder, mci, &fStreamInfo[stream].encodedFormat)) { printf("MediaExtractor::CreateDecoder failed for stream %ld\n", stream); return B_ERROR; } (*decoder)->Setup(this, stream); status_t res; res = (*decoder)->Setup(&fStreamInfo[stream].encodedFormat, fStreamInfo[stream].infoBuffer , fStreamInfo[stream].infoBufferSize); if (res != B_OK) { printf("MediaExtractor::CreateDecoder Setup failed for stream %ld\n", stream); } return res; }