void ITimeShifting.SetPosition(TimeSpan position) { IStreamBufferMediaSeeking mediaSeeking = this.streamBufferSource as IStreamBufferMediaSeeking; if (mediaSeeking != null) { long currentposition = (long)(position.TotalMilliseconds * 10000.0); mediaSeeking.SetPositions(new DsLong(currentposition), AMSeekingSeekingFlags.AbsolutePositioning, null, AMSeekingSeekingFlags.NoPositioning); } }
// Set the position of the graph to a specified TimeSpan protected void SeekGraphToTime(TimeSpan seekTime) { SendDebugMessage("Seeking graph to time..."); int hr; IMediaControl mc = (IMediaControl)currentFilterGraph; // Stop graph if not stopped FilterState fs; mc.GetState(50, out fs); if (fs != FilterState.Stopped) { if (fs != FilterState.Stopped) { mc.Stop(); } } long timeInSeconds = (long)seekTime.TotalSeconds; DsLong dsTimeIn100NanoSeconds = DsLong.FromInt64(timeInSeconds * 10000000); SendDebugMessage("Setting position to " + dsTimeIn100NanoSeconds.ToInt64().ToString()); long pos; if (UsingSBEFilter) { // IStreamBufferMediaSeeking is used directly on the source filter http://msdn.microsoft.com/en-us/library/dd694950(v=vs.85).aspx IStreamBufferMediaSeeking mSeek = (IStreamBufferMediaSeeking)currentSBEfilter; hr = mSeek.SetPositions(dsTimeIn100NanoSeconds, AMSeekingSeekingFlags.AbsolutePositioning, 0, AMSeekingSeekingFlags.NoPositioning); DsError.ThrowExceptionForHR(hr); mSeek.GetCurrentPosition(out pos); } else { // IMediaSeeking is used on the filter graph which distributes the calls IMediaSeeking mSeek = (IMediaSeeking)currentFilterGraph; hr = mSeek.SetPositions(dsTimeIn100NanoSeconds, AMSeekingSeekingFlags.AbsolutePositioning, 0, AMSeekingSeekingFlags.NoPositioning); DsError.ThrowExceptionForHR(hr); mSeek.GetCurrentPosition(out pos); } SendDebugMessage("New pos is " + pos.ToString()); }
// Seeking - Experimental, non-functional private void DoSeekToTime(TimeSpan seekTime) { int hr; IMediaControl mc = (IMediaControl)currentFilterGraph; // Stop hr = mc.Stop(); DsError.ThrowExceptionForHR(hr); // Stop ASFWriter hr = currentOutputFilter.Stop(); DsError.ThrowExceptionForHR(hr); // Seek Int64 seekTimeNanoSeconds = Convert.ToInt64(seekTime.TotalSeconds * 10000000); DsLong dsTime = DsLong.FromInt64(seekTimeNanoSeconds); if (UsingSBEFilter) { IStreamBufferMediaSeeking mSeek = (IStreamBufferMediaSeeking)currentSBEfilter; // StreamBufferMediaSeeking is used on the Source Filter, NOT the graph - see MSDN hr = mSeek.SetPositions(dsTime, AMSeekingSeekingFlags.AbsolutePositioning, 0, AMSeekingSeekingFlags.NoPositioning); DsError.ThrowExceptionForHR(hr); } else { // IMediaSeeking is used on the filter graph which distributes the calls IMediaSeeking mSeek = (IMediaSeeking)currentFilterGraph; hr = mSeek.SetPositions(dsTime, AMSeekingSeekingFlags.AbsolutePositioning, 0, AMSeekingSeekingFlags.NoPositioning); DsError.ThrowExceptionForHR(hr); } // Start ASF hr = currentOutputFilter.Run(0); DsError.ThrowExceptionForHR(hr); // Run again hr = mc.Run(); DsError.ThrowExceptionForHR(hr); }
public bool Transcode(TranscodeInfo info, VideoFormat format, Quality quality, Standard standard) { try { if (!Supports(format)) { return(false); } string ext = System.IO.Path.GetExtension(info.file); if (ext.ToLower() != ".dvr-ms" && ext.ToLower() != ".sbe") { Log.Info("DVRMS2WMV: wrong file format"); return(false); } Log.Info("DVRMS2WMV: create graph"); graphBuilder = (IGraphBuilder) new FilterGraph(); _rotEntry = new DsROTEntry((IFilterGraph)graphBuilder); Log.Info("DVRMS2WMV: add streambuffersource"); bufferSource = (IStreamBufferSource) new StreamBufferSource(); IBaseFilter filter = (IBaseFilter)bufferSource; graphBuilder.AddFilter(filter, "SBE SOURCE"); Log.Info("DVRMS2WMV: load file:{0}", info.file); IFileSourceFilter fileSource = (IFileSourceFilter)bufferSource; int hr = fileSource.Load(info.file, null); //add mpeg2 audio/video codecs string strVideoCodec = ""; string strAudioCodec = ""; using (MediaPortal.Profile.Settings xmlreader = new MediaPortal.Profile.MPSettings()) { strVideoCodec = xmlreader.GetValueAsString("mytv", "videocodec", "MPC - MPEG-2 Video Decoder (Gabest)"); strAudioCodec = xmlreader.GetValueAsString("mytv", "audiocodec", "MPC - MPA Decoder Filter"); } Log.Info("DVRMS2WMV: add mpeg2 video codec:{0}", strVideoCodec); Mpeg2VideoCodec = DirectShowUtil.AddFilterToGraph(graphBuilder, strVideoCodec); if (hr != 0) { Log.Error("DVRMS2WMV:FAILED:Add mpeg2 video to filtergraph :0x{0:X}", hr); Cleanup(); return(false); } Log.Info("DVRMS2WMV: add mpeg2 audio codec:{0}", strAudioCodec); Mpeg2AudioCodec = DirectShowUtil.AddFilterToGraph(graphBuilder, strAudioCodec); if (Mpeg2AudioCodec == null) { Log.Error("DVRMS2WMV:FAILED:unable to add mpeg2 audio codec"); Cleanup(); return(false); } Log.Info("DVRMS2WMV: connect streambufer source->mpeg audio/video decoders"); //connect output #0 of streambuffer source->mpeg2 audio codec pin 1 //connect output #1 of streambuffer source->mpeg2 video codec pin 1 IPin pinOut0, pinOut1; IPin pinIn0, pinIn1; pinOut0 = DsFindPin.ByDirection((IBaseFilter)bufferSource, PinDirection.Output, 0); //audio pinOut1 = DsFindPin.ByDirection((IBaseFilter)bufferSource, PinDirection.Output, 1); //video if (pinOut0 == null || pinOut1 == null) { Log.Error("DVRMS2WMV:FAILED:unable to get pins of source"); Cleanup(); return(false); } pinIn0 = DsFindPin.ByDirection(Mpeg2VideoCodec, PinDirection.Input, 0); //video pinIn1 = DsFindPin.ByDirection(Mpeg2AudioCodec, PinDirection.Input, 0); //audio if (pinIn0 == null || pinIn1 == null) { Log.Error("DVRMS2WMV:FAILED:unable to get pins of mpeg2 video/audio codec"); Cleanup(); return(false); } hr = graphBuilder.Connect(pinOut0, pinIn1); if (hr != 0) { Log.Error("DVRMS2WMV:FAILED:unable to connect audio pins :0x{0:X}", hr); Cleanup(); return(false); } hr = graphBuilder.Connect(pinOut1, pinIn0); if (hr != 0) { Log.Error("DVRMS2WMV:FAILED:unable to connect video pins :0x{0:X}", hr); Cleanup(); return(false); } string outputFilename = System.IO.Path.ChangeExtension(info.file, ".wmv"); if (!AddWmAsfWriter(outputFilename, quality, standard)) { return(false); } Log.Info("DVRMS2WMV: start pre-run"); mediaControl = graphBuilder as IMediaControl; mediaSeeking = bufferSource as IStreamBufferMediaSeeking; mediaEvt = graphBuilder as IMediaEventEx; mediaPos = graphBuilder as IMediaPosition; //get file duration long lTime = 5 * 60 * 60; lTime *= 10000000; long pStop = 0; hr = mediaSeeking.SetPositions(new DsLong(lTime), AMSeekingSeekingFlags.AbsolutePositioning, new DsLong(pStop), AMSeekingSeekingFlags.NoPositioning); if (hr == 0) { long lStreamPos; mediaSeeking.GetCurrentPosition(out lStreamPos); // stream position m_dDuration = lStreamPos; lTime = 0; mediaSeeking.SetPositions(new DsLong(lTime), AMSeekingSeekingFlags.AbsolutePositioning, new DsLong(pStop), AMSeekingSeekingFlags.NoPositioning); } double duration = m_dDuration / 10000000d; Log.Info("DVRMS2WMV: movie duration:{0}", Util.Utils.SecondsToHMSString((int)duration)); hr = mediaControl.Run(); if (hr != 0) { Log.Error("DVRMS2WMV:FAILED:unable to start graph :0x{0:X}", hr); Cleanup(); return(false); } int maxCount = 20; while (true) { long lCurrent; mediaSeeking.GetCurrentPosition(out lCurrent); double dpos = (double)lCurrent; dpos /= 10000000d; System.Threading.Thread.Sleep(100); if (dpos >= 2.0d) { break; } maxCount--; if (maxCount <= 0) { break; } } Log.Info("DVRMS2WMV: pre-run done"); Log.Info("DVRMS2WMV: Get duration of movie"); mediaControl.Stop(); FilterState state; mediaControl.GetState(500, out state); GC.Collect(); GC.Collect(); GC.Collect(); GC.WaitForPendingFinalizers(); Log.Info("DVRMS2WMV: reconnect mpeg2 video codec->ASF WM Writer"); graphBuilder.RemoveFilter(fileWriterbase); if (!AddWmAsfWriter(outputFilename, quality, standard)) { return(false); } Log.Info("DVRMS2WMV: Start transcoding"); hr = mediaControl.Run(); if (hr != 0) { Log.Error("DVRMS2WMV:FAILED:unable to start graph :0x{0:X}", hr); Cleanup(); return(false); } } catch (Exception e) { // TODO: Handle exceptions. Log.Error("unable to transcode file:{0} message:{1}", info.file, e.Message); return(false); } return(true); }
public bool Transcode(TranscodeInfo info, MediaPortal.Core.Transcoding.VideoFormat format, MediaPortal.Core.Transcoding.Quality quality, Standard standard) { if (!Supports(format)) { return(false); } string ext = System.IO.Path.GetExtension(info.file); if (ext.ToLower() != ".dvr-ms" && ext.ToLower() != ".sbe") { Log.Info("DVRMS2DIVX: wrong file format"); return(false); } //disable xvid status window while encoding /* try * { * using (RegistryKey subkey = Registry.CurrentUser.OpenSubKey(@"Software\GNU\XviD", true)) * { * if (subkey != null) * { * Int32 uivalue = 0; * subkey.SetValue("display_status", (Int32)uivalue); * subkey.SetValue("debug", (Int32)uivalue); * subkey.SetValue("bitrate", (Int32)bitrate); * * uivalue = 1; * subkey.SetValue("interlacing", (Int32)uivalue); * } * } * } * catch (Exception) * { * }*/ //Type comtype = null; //object comobj = null; try { graphBuilder = (IGraphBuilder) new FilterGraph(); _rotEntry = new DsROTEntry((IFilterGraph)graphBuilder); Log.Info("DVRMS2DIVX: add filesource"); bufferSource = (IStreamBufferSource) new StreamBufferSource(); IBaseFilter filter = (IBaseFilter)bufferSource; graphBuilder.AddFilter(filter, "SBE SOURCE"); IFileSourceFilter fileSource = (IFileSourceFilter)bufferSource; Log.Info("DVRMS2DIVX: load file:{0}", info.file); int hr = fileSource.Load(info.file, null); /*string strDemuxerMoniker = @"@device:sw:{083863F1-70DE-11D0-BD40-00A0C911CE86}\{AFB6C280-2C41-11D3-8A60-0000F81E0E4A}"; * * mpegDemuxer = Marshal.BindToMoniker(strDemuxerMoniker) as IBaseFilter; * if (mpegDemuxer == null) * { * Log.Error("DVRMS2DIVX:FAILED:unable to add mpeg2 demuxer"); * Cleanup(); * return false; * } * hr = graphBuilder.AddFilter(mpegDemuxer, "MPEG-2 Demultiplexer"); * if (hr != 0) * { * Log.Error("DVRMS2DIVX:FAILED:Add mpeg2 demuxer to filtergraph :0x{0:X}", hr); * Cleanup(); * return false; * }*/ //add mpeg2 audio/video codecs string strVideoCodecMoniker = @"@device:sw:{083863F1-70DE-11D0-BD40-00A0C911CE86}\{39F498AF-1A09-4275-B193-673B0BA3D478}"; string strAudioCodec = "MPC - MPA Decoder Filter"; Log.Info("DVRMS2DIVX: add MPV mpeg2 video decoder"); Mpeg2VideoCodec = Marshal.BindToMoniker(strVideoCodecMoniker) as IBaseFilter; if (Mpeg2VideoCodec == null) { Log.Error("DVRMS2DIVX:FAILED:unable to add MPV mpeg2 video decoder"); Cleanup(); return(false); } hr = graphBuilder.AddFilter(Mpeg2VideoCodec, "MPC - MPEG-2 Video Decoder (Gabest)"); if (hr != 0) { Log.Error("DVRMS2DIVX:FAILED:Add MPV mpeg2 video to filtergraph :0x{0:X}", hr); Cleanup(); return(false); } Log.Info("DVRMS2DIVX: add MPA mpeg2 audio codec:{0}", strAudioCodec); Mpeg2AudioCodec = DirectShowUtil.AddFilterToGraph(graphBuilder, strAudioCodec); if (Mpeg2AudioCodec == null) { Log.Error("DVRMS2DIVX:FAILED:unable to add MPV mpeg2 audio codec"); Cleanup(); return(false); } //connect output #0 of streambuffer source->mpeg2 audio codec pin 1 //connect output #1 of streambuffer source->mpeg2 video codec pin 1 Log.Info("DVRMS2DIVX: connect streambufer source->mpeg audio/video decoders"); IPin pinOut0, pinOut1; IPin pinIn0, pinIn1; pinOut0 = DsFindPin.ByDirection((IBaseFilter)bufferSource, PinDirection.Output, 0); //audio pinOut1 = DsFindPin.ByDirection((IBaseFilter)bufferSource, PinDirection.Output, 1); //video if (pinOut0 == null || pinOut1 == null) { Log.Error("DVRMS2DIVX:FAILED:unable to get pins of source"); Cleanup(); return(false); } pinIn0 = DsFindPin.ByDirection(Mpeg2VideoCodec, PinDirection.Input, 0); //video pinIn1 = DsFindPin.ByDirection(Mpeg2AudioCodec, PinDirection.Input, 0); //audio if (pinIn0 == null || pinIn1 == null) { Log.Error("DVRMS2DIVX:FAILED:unable to get pins of mpeg2 video/audio codec"); Cleanup(); return(false); } hr = graphBuilder.Connect(pinOut0, pinIn1); if (hr != 0) { Log.Error("DVRMS2DIVX:FAILED:unable to connect audio pins :0x{0:X}", hr); Cleanup(); return(false); } hr = graphBuilder.Connect(pinOut1, pinIn0); if (hr != 0) { Log.Error("DVRMS2DIVX:FAILED:unable to connect video pins :0x{0:X}", hr); Cleanup(); return(false); } if (!AddCodecs(graphBuilder, info)) { return(false); } // hr=(graphBuilder as IMediaFilter).SetSyncSource(null); // if (hr!=0) // Log.Error("DVRMS2DIVX:FAILED:to SetSyncSource :0x{0:X}",hr); mediaControl = graphBuilder as IMediaControl; mediaSeeking = bufferSource as IStreamBufferMediaSeeking; mediaEvt = graphBuilder as IMediaEventEx; mediaPos = graphBuilder as IMediaPosition; //get file duration Log.Info("DVRMS2DIVX: Get duration of movie"); long lTime = 5 * 60 * 60; lTime *= 10000000; long pStop = 0; hr = mediaSeeking.SetPositions(new DsLong(lTime), AMSeekingSeekingFlags.AbsolutePositioning, new DsLong(pStop), AMSeekingSeekingFlags.NoPositioning); if (hr == 0) { long lStreamPos; mediaSeeking.GetCurrentPosition(out lStreamPos); // stream position m_dDuration = lStreamPos; lTime = 0; mediaSeeking.SetPositions(new DsLong(lTime), AMSeekingSeekingFlags.AbsolutePositioning, new DsLong(pStop), AMSeekingSeekingFlags.NoPositioning); } double duration = m_dDuration / 10000000d; Log.Info("DVRMS2DIVX: movie duration:{0}", MediaPortal.Util.Utils.SecondsToHMSString((int)duration)); // hr=(graphBuilder as IMediaFilter).SetSyncSource(null); // if (hr!=0) // Log.Error("DVRMS2DIVX:FAILED:to SetSyncSource :0x{0:X}",hr); hr = mediaControl.Run(); if (hr != 0) { Log.Error("DVRMS2DIVX:FAILED:unable to start graph :0x{0:X}", hr); Cleanup(); return(false); } int maxCount = 20; while (true) { long lCurrent; mediaSeeking.GetCurrentPosition(out lCurrent); double dpos = (double)lCurrent; dpos /= 10000000d; System.Threading.Thread.Sleep(100); if (dpos >= 2.0d) { break; } maxCount--; if (maxCount <= 0) { break; } } mediaControl.Stop(); FilterState state; mediaControl.GetState(500, out state); GC.Collect(); GC.Collect(); GC.Collect(); GC.WaitForPendingFinalizers(); graphBuilder.RemoveFilter(aviMuxer); graphBuilder.RemoveFilter(divxCodec); graphBuilder.RemoveFilter(mp3Codec); graphBuilder.RemoveFilter((IBaseFilter)fileWriterFilter); if (!AddCodecs(graphBuilder, info)) { return(false); } // hr=(graphBuilder as IMediaFilter).SetSyncSource(null); // if (hr!=0) // Log.Error("DVRMS2DIVX:FAILED:to SetSyncSource :0x{0:X}",hr); Log.Info("DVRMS2DIVX: start transcoding"); hr = mediaControl.Run(); if (hr != 0) { Log.Error("DVRMS2DIVX:FAILED:unable to start graph :0x{0:X}", hr); Cleanup(); return(false); } } catch (Exception ex) { Log.Error("DVRMS2DIVX:Unable create graph: {0}", ex.Message); Cleanup(); return(false); } return(true); }
public bool Transcode(TranscodeInfo info, VideoFormat format, Quality quality, Standard standard) { try { if (!Supports(format)) return false; string ext = System.IO.Path.GetExtension(info.file); if (ext.ToLowerInvariant() != ".dvr-ms" && ext.ToLowerInvariant() != ".sbe") { Log.Info("DVRMS2WMV: wrong file format"); return false; } Log.Info("DVRMS2WMV: create graph"); graphBuilder = (IGraphBuilder)new FilterGraph(); _rotEntry = new DsROTEntry((IFilterGraph)graphBuilder); Log.Info("DVRMS2WMV: add streambuffersource"); bufferSource = (IStreamBufferSource)new StreamBufferSource(); IBaseFilter filter = (IBaseFilter)bufferSource; graphBuilder.AddFilter(filter, "SBE SOURCE"); Log.Info("DVRMS2WMV: load file:{0}", info.file); IFileSourceFilter fileSource = (IFileSourceFilter)bufferSource; int hr = fileSource.Load(info.file, null); //add mpeg2 audio/video codecs string strVideoCodec = ""; string strAudioCodec = ""; using (MediaPortal.Profile.Settings xmlreader = new MediaPortal.Profile.MPSettings()) { strVideoCodec = xmlreader.GetValueAsString("mytv", "videocodec", "MPC - MPEG-2 Video Decoder (Gabest)"); strAudioCodec = xmlreader.GetValueAsString("mytv", "audiocodec", "MPC - MPA Decoder Filter"); } Log.Info("DVRMS2WMV: add mpeg2 video codec:{0}", strVideoCodec); Mpeg2VideoCodec = DirectShowUtil.AddFilterToGraph(graphBuilder, strVideoCodec); if (hr != 0) { Log.Error("DVRMS2WMV:FAILED:Add mpeg2 video to filtergraph :0x{0:X}", hr); Cleanup(); return false; } Log.Info("DVRMS2WMV: add mpeg2 audio codec:{0}", strAudioCodec); Mpeg2AudioCodec = DirectShowUtil.AddFilterToGraph(graphBuilder, strAudioCodec); if (Mpeg2AudioCodec == null) { Log.Error("DVRMS2WMV:FAILED:unable to add mpeg2 audio codec"); Cleanup(); return false; } Log.Info("DVRMS2WMV: connect streambufer source->mpeg audio/video decoders"); //connect output #0 of streambuffer source->mpeg2 audio codec pin 1 //connect output #1 of streambuffer source->mpeg2 video codec pin 1 IPin pinOut0, pinOut1; IPin pinIn0, pinIn1; pinOut0 = DsFindPin.ByDirection((IBaseFilter)bufferSource, PinDirection.Output, 0); //audio pinOut1 = DsFindPin.ByDirection((IBaseFilter)bufferSource, PinDirection.Output, 1); //video if (pinOut0 == null || pinOut1 == null) { Log.Error("DVRMS2WMV:FAILED:unable to get pins of source"); Cleanup(); return false; } pinIn0 = DsFindPin.ByDirection(Mpeg2VideoCodec, PinDirection.Input, 0); //video pinIn1 = DsFindPin.ByDirection(Mpeg2AudioCodec, PinDirection.Input, 0); //audio if (pinIn0 == null || pinIn1 == null) { Log.Error("DVRMS2WMV:FAILED:unable to get pins of mpeg2 video/audio codec"); Cleanup(); return false; } hr = graphBuilder.Connect(pinOut0, pinIn1); if (hr != 0) { Log.Error("DVRMS2WMV:FAILED:unable to connect audio pins :0x{0:X}", hr); Cleanup(); return false; } hr = graphBuilder.Connect(pinOut1, pinIn0); if (hr != 0) { Log.Error("DVRMS2WMV:FAILED:unable to connect video pins :0x{0:X}", hr); Cleanup(); return false; } string outputFilename = System.IO.Path.ChangeExtension(info.file, ".wmv"); if (!AddWmAsfWriter(outputFilename, quality, standard)) return false; Log.Info("DVRMS2WMV: start pre-run"); mediaControl = graphBuilder as IMediaControl; mediaSeeking = bufferSource as IStreamBufferMediaSeeking; mediaEvt = graphBuilder as IMediaEventEx; mediaPos = graphBuilder as IMediaPosition; //get file duration long lTime = 5 * 60 * 60; lTime *= 10000000; long pStop = 0; hr = mediaSeeking.SetPositions(new DsLong(lTime), AMSeekingSeekingFlags.AbsolutePositioning, new DsLong(pStop), AMSeekingSeekingFlags.NoPositioning); if (hr == 0) { long lStreamPos; mediaSeeking.GetCurrentPosition(out lStreamPos); // stream position m_dDuration = lStreamPos; lTime = 0; mediaSeeking.SetPositions(new DsLong(lTime), AMSeekingSeekingFlags.AbsolutePositioning, new DsLong(pStop), AMSeekingSeekingFlags.NoPositioning); } double duration = m_dDuration / 10000000d; Log.Info("DVRMS2WMV: movie duration:{0}", Util.Utils.SecondsToHMSString((int)duration)); hr = mediaControl.Run(); if (hr != 0) { Log.Error("DVRMS2WMV:FAILED:unable to start graph :0x{0:X}", hr); Cleanup(); return false; } int maxCount = 20; while (true) { long lCurrent; mediaSeeking.GetCurrentPosition(out lCurrent); double dpos = (double)lCurrent; dpos /= 10000000d; System.Threading.Thread.Sleep(100); if (dpos >= 2.0d) break; maxCount--; if (maxCount <= 0) break; } Log.Info("DVRMS2WMV: pre-run done"); Log.Info("DVRMS2WMV: Get duration of movie"); mediaControl.Stop(); FilterState state; mediaControl.GetState(500, out state); GC.Collect(); GC.Collect(); GC.Collect(); GC.WaitForPendingFinalizers(); Log.Info("DVRMS2WMV: reconnect mpeg2 video codec->ASF WM Writer"); graphBuilder.RemoveFilter(fileWriterbase); if (!AddWmAsfWriter(outputFilename, quality, standard)) return false; Log.Info("DVRMS2WMV: Start transcoding"); hr = mediaControl.Run(); if (hr != 0) { Log.Error("DVRMS2WMV:FAILED:unable to start graph :0x{0:X}", hr); Cleanup(); return false; } } catch (Exception e) { // TODO: Handle exceptions. Log.Error("unable to transcode file:{0} message:{1}", info.file, e.Message); return false; } return true; }
public bool Transcode(TranscodeInfo info, MediaPortal.Core.Transcoding.VideoFormat format, MediaPortal.Core.Transcoding.Quality quality, Standard standard) { if (!Supports(format)) return false; string ext = System.IO.Path.GetExtension(info.file); if (ext.ToLower() != ".dvr-ms" && ext.ToLower() != ".sbe") { Log.Info("DVRMS2DIVX: wrong file format"); return false; } //disable xvid status window while encoding /* try { using (RegistryKey subkey = Registry.CurrentUser.OpenSubKey(@"Software\GNU\XviD", true)) { if (subkey != null) { Int32 uivalue = 0; subkey.SetValue("display_status", (Int32)uivalue); subkey.SetValue("debug", (Int32)uivalue); subkey.SetValue("bitrate", (Int32)bitrate); uivalue = 1; subkey.SetValue("interlacing", (Int32)uivalue); } } } catch (Exception) { }*/ //Type comtype = null; //object comobj = null; try { graphBuilder = (IGraphBuilder)new FilterGraph(); _rotEntry = new DsROTEntry((IFilterGraph)graphBuilder); Log.Info("DVRMS2DIVX: add filesource"); bufferSource = (IStreamBufferSource)new StreamBufferSource(); IBaseFilter filter = (IBaseFilter)bufferSource; graphBuilder.AddFilter(filter, "SBE SOURCE"); IFileSourceFilter fileSource = (IFileSourceFilter)bufferSource; Log.Info("DVRMS2DIVX: load file:{0}", info.file); int hr = fileSource.Load(info.file, null); /*string strDemuxerMoniker = @"@device:sw:{083863F1-70DE-11D0-BD40-00A0C911CE86}\{AFB6C280-2C41-11D3-8A60-0000F81E0E4A}"; mpegDemuxer = Marshal.BindToMoniker(strDemuxerMoniker) as IBaseFilter; if (mpegDemuxer == null) { Log.Error("DVRMS2DIVX:FAILED:unable to add mpeg2 demuxer"); Cleanup(); return false; } hr = graphBuilder.AddFilter(mpegDemuxer, "MPEG-2 Demultiplexer"); if (hr != 0) { Log.Error("DVRMS2DIVX:FAILED:Add mpeg2 demuxer to filtergraph :0x{0:X}", hr); Cleanup(); return false; }*/ //add mpeg2 audio/video codecs string strVideoCodecMoniker = @"@device:sw:{083863F1-70DE-11D0-BD40-00A0C911CE86}\{39F498AF-1A09-4275-B193-673B0BA3D478}"; string strAudioCodec = "MPC - MPA Decoder Filter"; Log.Info("DVRMS2DIVX: add MPV mpeg2 video decoder"); Mpeg2VideoCodec = Marshal.BindToMoniker(strVideoCodecMoniker) as IBaseFilter; if (Mpeg2VideoCodec == null) { Log.Error("DVRMS2DIVX:FAILED:unable to add MPV mpeg2 video decoder"); Cleanup(); return false; } hr = graphBuilder.AddFilter(Mpeg2VideoCodec, "MPC - MPEG-2 Video Decoder (Gabest)"); if (hr != 0) { Log.Error("DVRMS2DIVX:FAILED:Add MPV mpeg2 video to filtergraph :0x{0:X}", hr); Cleanup(); return false; } Log.Info("DVRMS2DIVX: add MPA mpeg2 audio codec:{0}", strAudioCodec); Mpeg2AudioCodec = DirectShowUtil.AddFilterToGraph(graphBuilder, strAudioCodec); if (Mpeg2AudioCodec == null) { Log.Error("DVRMS2DIVX:FAILED:unable to add MPV mpeg2 audio codec"); Cleanup(); return false; } //connect output #0 of streambuffer source->mpeg2 audio codec pin 1 //connect output #1 of streambuffer source->mpeg2 video codec pin 1 Log.Info("DVRMS2DIVX: connect streambufer source->mpeg audio/video decoders"); IPin pinOut0, pinOut1; IPin pinIn0, pinIn1; pinOut0 = DsFindPin.ByDirection((IBaseFilter)bufferSource, PinDirection.Output, 0); //audio pinOut1 = DsFindPin.ByDirection((IBaseFilter)bufferSource, PinDirection.Output, 1); //video if (pinOut0 == null || pinOut1 == null) { Log.Error("DVRMS2DIVX:FAILED:unable to get pins of source"); Cleanup(); return false; } pinIn0 = DsFindPin.ByDirection(Mpeg2VideoCodec, PinDirection.Input, 0); //video pinIn1 = DsFindPin.ByDirection(Mpeg2AudioCodec, PinDirection.Input, 0); //audio if (pinIn0 == null || pinIn1 == null) { Log.Error("DVRMS2DIVX:FAILED:unable to get pins of mpeg2 video/audio codec"); Cleanup(); return false; } hr = graphBuilder.Connect(pinOut0, pinIn1); if (hr != 0) { Log.Error("DVRMS2DIVX:FAILED:unable to connect audio pins :0x{0:X}", hr); Cleanup(); return false; } hr = graphBuilder.Connect(pinOut1, pinIn0); if (hr != 0) { Log.Error("DVRMS2DIVX:FAILED:unable to connect video pins :0x{0:X}", hr); Cleanup(); return false; } if (!AddCodecs(graphBuilder, info)) return false; // hr=(graphBuilder as IMediaFilter).SetSyncSource(null); // if (hr!=0) // Log.Error("DVRMS2DIVX:FAILED:to SetSyncSource :0x{0:X}",hr); mediaControl = graphBuilder as IMediaControl; mediaSeeking = bufferSource as IStreamBufferMediaSeeking; mediaEvt = graphBuilder as IMediaEventEx; mediaPos = graphBuilder as IMediaPosition; //get file duration Log.Info("DVRMS2DIVX: Get duration of movie"); long lTime = 5 * 60 * 60; lTime *= 10000000; long pStop = 0; hr = mediaSeeking.SetPositions(new DsLong(lTime), AMSeekingSeekingFlags.AbsolutePositioning, new DsLong(pStop), AMSeekingSeekingFlags.NoPositioning); if (hr == 0) { long lStreamPos; mediaSeeking.GetCurrentPosition(out lStreamPos); // stream position m_dDuration = lStreamPos; lTime = 0; mediaSeeking.SetPositions(new DsLong(lTime), AMSeekingSeekingFlags.AbsolutePositioning, new DsLong(pStop), AMSeekingSeekingFlags.NoPositioning); } double duration = m_dDuration / 10000000d; Log.Info("DVRMS2DIVX: movie duration:{0}", MediaPortal.Util.Utils.SecondsToHMSString((int)duration)); // hr=(graphBuilder as IMediaFilter).SetSyncSource(null); // if (hr!=0) // Log.Error("DVRMS2DIVX:FAILED:to SetSyncSource :0x{0:X}",hr); hr = mediaControl.Run(); if (hr != 0) { Log.Error("DVRMS2DIVX:FAILED:unable to start graph :0x{0:X}", hr); Cleanup(); return false; } int maxCount = 20; while (true) { long lCurrent; mediaSeeking.GetCurrentPosition(out lCurrent); double dpos = (double)lCurrent; dpos /= 10000000d; System.Threading.Thread.Sleep(100); if (dpos >= 2.0d) break; maxCount--; if (maxCount <= 0) break; } mediaControl.Stop(); FilterState state; mediaControl.GetState(500, out state); GC.Collect(); GC.Collect(); GC.Collect(); GC.WaitForPendingFinalizers(); graphBuilder.RemoveFilter(aviMuxer); graphBuilder.RemoveFilter(divxCodec); graphBuilder.RemoveFilter(mp3Codec); graphBuilder.RemoveFilter((IBaseFilter)fileWriterFilter); if (!AddCodecs(graphBuilder, info)) return false; // hr=(graphBuilder as IMediaFilter).SetSyncSource(null); // if (hr!=0) // Log.Error("DVRMS2DIVX:FAILED:to SetSyncSource :0x{0:X}",hr); Log.Info("DVRMS2DIVX: start transcoding"); hr = mediaControl.Run(); if (hr != 0) { Log.Error("DVRMS2DIVX:FAILED:unable to start graph :0x{0:X}", hr); Cleanup(); return false; } } catch (Exception ex) { Log.Error("DVRMS2DIVX:Unable create graph: {0}", ex.Message); Cleanup(); return false; } return true; }