static void Main(string[] args) { Console.WriteLine("MobiConverter by Gericom"); Console.WriteLine(); if (args.Length == 0) { PrintUsage(); return; } switch (args[0]) { case "-d": { if (args.Length != 2 && args.Length != 3) { goto default; } if (!File.Exists(args[1])) { Console.WriteLine("Error! File not found: " + args[1]); return; } String outfile = (args.Length == 3) ? args[2] : Path.ChangeExtension(args[1], "avi"); byte[] sig = new byte[4]; Stream s = File.OpenRead(args[1]); s.Read(sig, 0, 4); s.Close(); if (sig[0] == 0x4C && sig[1] == 0x32 && sig[2] == 0xAA && sig[3] == 0xAB) //moflex { Console.WriteLine("Moflex container detected!"); Console.Write("Converting: "); Console.CursorVisible = false; MobiclipDecoder ddd = null; AviManager m = new AviManager(outfile, false); MemoryStream audio = null; FastAudioDecoder[] mFastAudioDecoders = null; int audiorate = -1; int audiochannels = 0; VideoStream vs = null; FileStream stream = File.OpenRead(args[1]); var d = new MoLiveDemux(stream); int PlayingVideoStream = -1; d.OnCompleteFrameReceived += delegate(MoLiveChunk Chunk, byte[] Data) { if ((Chunk is MoLiveStreamVideo || Chunk is MoLiveStreamVideoWithLayout) && ((PlayingVideoStream == -1) || ((MoLiveStream)Chunk).StreamIndex == PlayingVideoStream)) { if (ddd == null) { ddd = new MobiclipDecoder(((MoLiveStreamVideo)Chunk).Width, ((MoLiveStreamVideo)Chunk).Height, MobiclipDecoder.MobiclipVersion.Moflex3DS); PlayingVideoStream = ((MoLiveStream)Chunk).StreamIndex; } ddd.Data = Data; ddd.Offset = 0; Bitmap b = ddd.DecodeFrame(); if (vs == null) { vs = m.AddVideoStream(false, Math.Round(((double)((MoLiveStreamVideo)Chunk).FpsRate) / ((double)((MoLiveStreamVideo)Chunk).FpsScale), 3), b); } else { vs.AddFrame(b); } } else if (Chunk is MoLiveStreamAudio) { if (audio == null) { audio = new MemoryStream(); audiochannels = (int)((MoLiveStreamAudio)Chunk).Channel; audiorate = (int)((MoLiveStreamAudio)Chunk).Frequency; } switch ((int)((MoLiveStreamAudio)Chunk).CodecId) { case 0: //fastaudio { if (mFastAudioDecoders == null) { mFastAudioDecoders = new FastAudioDecoder[(int)((MoLiveStreamAudio)Chunk).Channel]; for (int i = 0; i < (int)((MoLiveStreamAudio)Chunk).Channel; i++) { mFastAudioDecoders[i] = new FastAudioDecoder(); } } List <short>[] channels = new List <short> [(int)((MoLiveStreamAudio)Chunk).Channel]; for (int i = 0; i < (int)((MoLiveStreamAudio)Chunk).Channel; i++) { channels[i] = new List <short>(); } int offset = 0; int size = 40; while (offset + size < Data.Length) { for (int i = 0; i < (int)((MoLiveStreamAudio)Chunk).Channel; i++) { mFastAudioDecoders[i].Data = Data; mFastAudioDecoders[i].Offset = offset; channels[i].AddRange(mFastAudioDecoders[i].Decode()); offset = mFastAudioDecoders[i].Offset; } } short[][] channelsresult = new short[(int)((MoLiveStreamAudio)Chunk).Channel][]; for (int i = 0; i < (int)((MoLiveStreamAudio)Chunk).Channel; i++) { channelsresult[i] = channels[i].ToArray(); } byte[] result = InterleaveChannels(channelsresult); audio.Write(result, 0, result.Length); } break; case 1: //IMA-ADPCM { IMAADPCMDecoder[] decoders = new IMAADPCMDecoder[(int)((MoLiveStreamAudio)Chunk).Channel]; List <short>[] channels = new List <short> [(int)((MoLiveStreamAudio)Chunk).Channel]; for (int i = 0; i < (int)((MoLiveStreamAudio)Chunk).Channel; i++) { decoders[i] = new IMAADPCMDecoder(); decoders[i].GetWaveData(Data, 4 * i, 4); channels[i] = new List <short>(); } int offset = 4 * (int)((MoLiveStreamAudio)Chunk).Channel; int size = 128 * (int)((MoLiveStreamAudio)Chunk).Channel; while (offset + size < Data.Length) { for (int i = 0; i < (int)((MoLiveStreamAudio)Chunk).Channel; i++) { channels[i].AddRange(decoders[i].GetWaveData(Data, offset, 128)); offset += 128; } } short[][] channelsresult = new short[(int)((MoLiveStreamAudio)Chunk).Channel][]; for (int i = 0; i < (int)((MoLiveStreamAudio)Chunk).Channel; i++) { channelsresult[i] = channels[i].ToArray(); } byte[] result = InterleaveChannels(channelsresult); audio.Write(result, 0, result.Length); } break; case 2: //PCM16 { audio.Write(Data, 0, Data.Length - (Data.Length % ((int)((MoLiveStreamAudio)Chunk).Channel * 2))); } break; } } }; bool left = false; int counter = 0; while (true) { uint error = d.ReadPacket(); if (error == 73) { break; } //report progress if (counter == 0) { Console.Write("{0,3:D}%", stream.Position * 100 / stream.Length); Console.CursorLeft -= 4; } counter++; if (counter == 50) { counter = 0; } } if (audio != null) { byte[] adata = audio.ToArray(); audio.Close(); var sinfo = new Avi.AVISTREAMINFO(); sinfo.fccType = Avi.streamtypeAUDIO; sinfo.dwScale = audiochannels * 2; sinfo.dwRate = audiorate * audiochannels * 2; sinfo.dwSampleSize = audiochannels * 2; sinfo.dwQuality = -1; var sinfo2 = new Avi.PCMWAVEFORMAT(); sinfo2.wFormatTag = 1; sinfo2.nChannels = (short)audiochannels; sinfo2.nSamplesPerSec = audiorate; sinfo2.nAvgBytesPerSec = audiorate * audiochannels * 2; sinfo2.nBlockAlign = (short)(audiochannels * 2); sinfo2.wBitsPerSample = 16; unsafe { fixed(byte *pAData = &adata[0]) { m.AddAudioStream((IntPtr)pAData, sinfo, sinfo2, adata.Length); } } } m.Close(); stream.Close(); Console.WriteLine("Done!"); Console.CursorVisible = true; } else if (sig[0] == 0x4D && sig[1] == 0x4F && sig[2] == 0x44 && sig[3] == 0x53) { //mods Console.WriteLine("Mods container detected!"); Console.Write("Converting: "); Console.CursorVisible = false; AviManager m = new AviManager(outfile, false); FileStream stream = File.OpenRead(args[1]); ModsDemuxer dm = new ModsDemuxer(stream); MemoryStream audio = null; if ((dm.Header.AudioCodec == 1 || dm.Header.AudioCodec == 3) && dm.Header.NbChannel > 0 && dm.Header.Frequency > 0) { audio = new MemoryStream(); } MobiclipDecoder d = new MobiclipDecoder(dm.Header.Width, dm.Header.Height, MobiclipDecoder.MobiclipVersion.ModsDS); VideoStream vs = null; int CurChannel = 0; List <short>[] channels = new List <short> [dm.Header.NbChannel]; IMAADPCMDecoder[] decoders = new IMAADPCMDecoder[dm.Header.NbChannel]; SxDecoder[] sxd = new SxDecoder[dm.Header.NbChannel]; FastAudioDecoder[] fad = new FastAudioDecoder[dm.Header.NbChannel]; bool[] isinit = new bool[dm.Header.NbChannel]; for (int i = 0; i < dm.Header.NbChannel; i++) { channels[i] = new List <short>(); decoders[i] = new IMAADPCMDecoder(); sxd[i] = new SxDecoder(); fad[i] = new FastAudioDecoder(); isinit[i] = false; } int counter = 0; while (true) { uint NrAudioPackets; bool IsKeyFrame; byte[] framedata = dm.ReadFrame(out NrAudioPackets, out IsKeyFrame); if (framedata == null) { break; } d.Data = framedata; d.Offset = 0; Bitmap b = d.DecodeFrame(); if (vs == null) { vs = m.AddVideoStream(false, Math.Round(dm.Header.Fps / (double)0x01000000, 3), b); } else { vs.AddFrame(b); } if (NrAudioPackets > 0 && audio != null) { int Offset = d.Offset - 2; if (dm.Header.TagId == 0x334E && (IOUtil.ReadU16LE(framedata, 0) & 0x8000) != 0) { Offset += 4; } if (dm.Header.AudioCodec == 3) { if (IsKeyFrame) { for (int i = 0; i < dm.Header.NbChannel; i++) { channels[i] = new List <short>(); decoders[i] = new IMAADPCMDecoder(); sxd[i] = new SxDecoder(); fad[i] = new FastAudioDecoder(); isinit[i] = false; } } for (int i = 0; i < NrAudioPackets; i++) { channels[CurChannel].AddRange(decoders[CurChannel].GetWaveData(framedata, Offset, 128 + (!isinit[CurChannel] ? 4 : 0))); Offset += 128 + (!isinit[CurChannel] ? 4 : 0); isinit[CurChannel] = true; CurChannel++; if (CurChannel >= dm.Header.NbChannel) { CurChannel = 0; } } } else if (dm.Header.AudioCodec == 1) { for (int i = 0; i < NrAudioPackets; i++) { if (!isinit[CurChannel]) { sxd[CurChannel].Codebook = dm.AudioCodebooks[CurChannel]; } isinit[CurChannel] = true; sxd[CurChannel].Data = framedata; sxd[CurChannel].Offset = Offset; channels[CurChannel].AddRange(sxd[CurChannel].Decode()); Offset = sxd[CurChannel].Offset; CurChannel++; if (CurChannel >= dm.Header.NbChannel) { CurChannel = 0; } } } else if (dm.Header.AudioCodec == 2) { for (int i = 0; i < NrAudioPackets; i++) { fad[CurChannel].Data = framedata; fad[CurChannel].Offset = Offset; channels[CurChannel].AddRange(fad[CurChannel].Decode()); Offset = fad[CurChannel].Offset; CurChannel++; if (CurChannel >= dm.Header.NbChannel) { CurChannel = 0; } } } int smallest = int.MaxValue; for (int i = 0; i < dm.Header.NbChannel; i++) { if (channels[i].Count < smallest) { smallest = channels[i].Count; } } if (smallest > 0) { //Gather samples short[][] samps = new short[dm.Header.NbChannel][]; for (int i = 0; i < dm.Header.NbChannel; i++) { samps[i] = new short[smallest]; channels[i].CopyTo(0, samps[i], 0, smallest); channels[i].RemoveRange(0, smallest); } byte[] result = InterleaveChannels(samps); audio.Write(result, 0, result.Length); } } //report progress if (counter == 0) { Console.Write("{0,3:D}%", stream.Position * 100 / stream.Length); Console.CursorLeft -= 4; } counter++; if (counter == 50) { counter = 0; } } if (audio != null) { byte[] adata = audio.ToArray(); audio.Close(); var sinfo = new Avi.AVISTREAMINFO(); sinfo.fccType = Avi.streamtypeAUDIO; sinfo.dwScale = dm.Header.NbChannel * 2; sinfo.dwRate = (int)dm.Header.Frequency * dm.Header.NbChannel * 2; sinfo.dwSampleSize = dm.Header.NbChannel * 2; sinfo.dwQuality = -1; var sinfo2 = new Avi.PCMWAVEFORMAT(); sinfo2.wFormatTag = 1; sinfo2.nChannels = (short)dm.Header.NbChannel; sinfo2.nSamplesPerSec = (int)dm.Header.Frequency; sinfo2.nAvgBytesPerSec = (int)dm.Header.Frequency * dm.Header.NbChannel * 2; sinfo2.nBlockAlign = (short)(dm.Header.NbChannel * 2); sinfo2.wBitsPerSample = 16; unsafe { fixed(byte *pAData = &adata[0]) { m.AddAudioStream((IntPtr)pAData, sinfo, sinfo2, adata.Length); } } } m.Close(); stream.Close(); Console.WriteLine("Done!"); Console.CursorVisible = true; return; } else if (sig[0] == 0x4D && sig[1] == 0x4F && sig[2] == 0x43 && sig[3] == 0x35) { //moc5 Console.WriteLine("MOC5 container detected!"); Console.WriteLine("Error! Not supported yet!"); return; } else if (Path.GetExtension(args[1]).ToLower() == ".vx2") { //mods Console.WriteLine("VX2 container detected!"); Console.Write("Converting: "); Console.CursorVisible = false; AviManager m = new AviManager(outfile, false); FileStream fs = File.OpenRead(args[1]); MemoryStream audio = new MemoryStream(); MobiclipDecoder d = new MobiclipDecoder(256, 192, MobiclipDecoder.MobiclipVersion.Moflex3DS); VideoStream vs = null; int framerate = 20; int counter = 0; int frame = 0; while (true) { if (fs.Position >= fs.Length) { break; } if ((frame % framerate) == 0) //Audio { byte[] adata = new byte[32768 * 2]; fs.Read(adata, 0, 32768 * 2); audio.Write(adata, 0, adata.Length); } int length = (fs.ReadByte() << 0) | (fs.ReadByte() << 8) | (fs.ReadByte() << 16) | (fs.ReadByte() << 24); byte[] data = new byte[length]; fs.Read(data, 0, length); d.Data = data; d.Offset = 0; Bitmap b = d.DecodeFrame(); if (vs == null) { vs = m.AddVideoStream(false, framerate, b); } else { vs.AddFrame(b); } frame++; //report progress if (counter == 0) { Console.Write("{0,3:D}%", fs.Position * 100 / fs.Length); Console.CursorLeft -= 4; } counter++; if (counter == 50) { counter = 0; } } if (audio != null) { byte[] adata = audio.ToArray(); audio.Close(); var sinfo = new Avi.AVISTREAMINFO(); sinfo.fccType = Avi.streamtypeAUDIO; sinfo.dwScale = 1 * 2; sinfo.dwRate = (int)32768 * 1 * 2; sinfo.dwSampleSize = 1 * 2; sinfo.dwQuality = -1; var sinfo2 = new Avi.PCMWAVEFORMAT(); sinfo2.wFormatTag = 1; sinfo2.nChannels = (short)1; sinfo2.nSamplesPerSec = (int)32768; sinfo2.nAvgBytesPerSec = (int)32768 * 1 * 2; sinfo2.nBlockAlign = (short)(1 * 2); sinfo2.wBitsPerSample = 16; unsafe { fixed(byte *pAData = &adata[0]) { m.AddAudioStream((IntPtr)pAData, sinfo, sinfo2, adata.Length); } } } m.Close(); fs.Close(); Console.WriteLine("Done!"); Console.CursorVisible = true; return; } else { Console.WriteLine("Error! Unrecognized format!"); return; } break; } case "-e": { break; } default: case "-h": PrintUsage(); return; } }
private void ModsThreadMain(Object Args) { byte[] data = File.ReadAllBytes((String)Args); ModsDemuxer dm = new ModsDemuxer(new MemoryStream(data)); if ((dm.Header.AudioCodec == 1 || dm.Header.AudioCodec == 2 || dm.Header.AudioCodec == 3) && dm.Header.NbChannel > 0 && dm.Header.Frequency > 0) { AudioBuffer = new BufferedWaveProvider(new WaveFormat((int)dm.Header.Frequency, 16, dm.Header.NbChannel)); AudioBuffer.DiscardOnBufferOverflow = true; AudioBuffer.BufferLength = 1024 * 512; Player = new WaveOut(); Player.DesiredLatency = 150; Player.Init(AudioBuffer); Player.Play(); } Invoke((Action) delegate { ClientSize = new Size((int)dm.Header.Width, (int)dm.Header.Height); }); LibMobiclip.Codec.Mobiclip.MobiclipDecoder d = new LibMobiclip.Codec.Mobiclip.MobiclipDecoder(dm.Header.Width, dm.Header.Height, LibMobiclip.Codec.Mobiclip.MobiclipDecoder.MobiclipVersion.ModsDS); TimeSpan ts = TimeSpan.FromMilliseconds(1000d / (double)(dm.Header.Fps / (double)0x01000000)); int CurChannel = 0; List <short>[] channels = new List <short> [dm.Header.NbChannel]; IMAADPCMDecoder[] decoders = new IMAADPCMDecoder[dm.Header.NbChannel]; SxDecoder[] sxd = new SxDecoder[dm.Header.NbChannel]; FastAudioDecoder[] fad = new FastAudioDecoder[dm.Header.NbChannel]; bool[] isinit = new bool[dm.Header.NbChannel]; for (int i = 0; i < dm.Header.NbChannel; i++) { channels[i] = new List <short>(); decoders[i] = new IMAADPCMDecoder(); sxd[i] = new SxDecoder(); fad[i] = new FastAudioDecoder(); isinit[i] = false; } while (!StopThread) { uint NrAudioPackets; bool IsKeyFrame; byte[] framedata = dm.ReadFrame(out NrAudioPackets, out IsKeyFrame); if (framedata == null) { break; } d.Data = framedata; d.Offset = 0; Bitmap b = d.DecodeFrame(); if (NrAudioPackets > 0 && AudioBuffer != null) { int Offset = d.Offset - 2; if (dm.Header.TagId == 0x334E && (IOUtil.ReadU16LE(framedata, 0) & 0x8000) != 0) { Offset += 4; } if (dm.Header.AudioCodec == 3) { if (IsKeyFrame) { for (int i = 0; i < dm.Header.NbChannel; i++) { channels[i] = new List <short>(); decoders[i] = new IMAADPCMDecoder(); sxd[i] = new SxDecoder(); isinit[i] = false; } } for (int i = 0; i < NrAudioPackets; i++) { channels[CurChannel].AddRange(decoders[CurChannel].GetWaveData(framedata, Offset, 128 + (!isinit[CurChannel] ? 4 : 0))); Offset += 128 + (!isinit[CurChannel] ? 4 : 0); isinit[CurChannel] = true; CurChannel++; if (CurChannel >= dm.Header.NbChannel) { CurChannel = 0; } } } else if (dm.Header.AudioCodec == 1) { for (int i = 0; i < NrAudioPackets; i++) { if (!isinit[CurChannel]) { sxd[CurChannel].Codebook = dm.AudioCodebooks[CurChannel]; } isinit[CurChannel] = true; sxd[CurChannel].Data = framedata; sxd[CurChannel].Offset = Offset; channels[CurChannel].AddRange(sxd[CurChannel].Decode()); Offset = sxd[CurChannel].Offset; CurChannel++; if (CurChannel >= dm.Header.NbChannel) { CurChannel = 0; } } } else if (dm.Header.AudioCodec == 2) { for (int i = 0; i < NrAudioPackets; i++) { fad[CurChannel].Data = framedata; fad[CurChannel].Offset = Offset; channels[CurChannel].AddRange(fad[CurChannel].Decode()); Offset = fad[CurChannel].Offset; CurChannel++; if (CurChannel >= dm.Header.NbChannel) { CurChannel = 0; } } } int smallest = int.MaxValue; for (int i = 0; i < dm.Header.NbChannel; i++) { if (channels[i].Count < smallest) { smallest = channels[i].Count; } } if (smallest > 0) { //Gather samples short[][] samps = new short[dm.Header.NbChannel][]; for (int i = 0; i < dm.Header.NbChannel; i++) { samps[i] = new short[smallest]; channels[i].CopyTo(0, samps[i], 0, smallest); channels[i].RemoveRange(0, smallest); } byte[] result = InterleaveChannels(samps); AudioBuffer.AddSamples(result, 0, result.Length); } } if (lastval != 0) { while ((s.Value - lastval) < (long)(ts.TotalSeconds * s.Frequency)) { ; } } lastval = s.Value; try { pictureBox1.BeginInvoke((Action) delegate { pictureBox1.Image = b; pictureBox1.Invalidate(); }); } catch { } } }