Exemple #1
0
        unsafe AudioStreamPacketDescription [] RealReadFixedPackets(bool useCache, long inStartingPacket, int nPackets, byte [] buffer, int offset, int count)
        {
            // 16 == sizeof (AudioStreamPacketDescription)
            var b = Marshal.AllocHGlobal(16 * nPackets);

            try
            {
                fixed(byte *bop = &buffer[offset])
                {
                    var r = AudioFileReadPacketData(handle, useCache, ref count, &b, inStartingPacket, ref nPackets, (IntPtr)bop);

                    if (r != 0)
                    {
                        return(null);
                    }
                }
                var ret = new AudioStreamPacketDescription [nPackets];
                int p   = 0;

                for (int i = 0; i < nPackets; i++)
                {
                    ret [i].StartOffset            = Marshal.ReadInt64(b, p);
                    ret [i].VariableFramesInPacket = Marshal.ReadInt32(b, p + 8);
                    ret [i].DataByteSize           = Marshal.ReadInt32(b, p + 12);
                    p += 16;
                }
                return(ret);
            } finally {
                Marshal.FreeHGlobal(b);
            }
        }
Exemple #2
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		extern static CMSampleBufferError CMAudioSampleBufferCreateWithPacketDescriptions (
		   IntPtr allocator,
		   IntPtr dataBuffer,
		   bool dataReady,
		   IntPtr makeDataReadyCallback,
		   IntPtr makeDataReadyRefcon,
		   IntPtr formatDescription,
		   int numSamples,
		   CMTime sbufPTS,
		   AudioStreamPacketDescription[] packetDescriptions,
		   out IntPtr sBufOut);
Exemple #3
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        unsafe AudioStreamPacketDescription [] RealReadPacketData(bool useCache, long inStartingPacket, ref int nPackets, IntPtr buffer, ref int count)
        {
            var descriptions = new AudioStreamPacketDescription [nPackets];
            var r            = AudioFileReadPacketData(handle, useCache, ref count, descriptions, inStartingPacket, ref nPackets, buffer);

            if (r == (int)AudioFileError.EndOfFile)
            {
                if (count == 0)
                {
                    return(null);
                }
            }
            else if (r != 0)
            {
                return(null);
            }

            return(descriptions);
        }
Exemple #4
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        static internal AudioStreamPacketDescription [] PacketDescriptionFrom(int nPackets, IntPtr b)
        {
            if (b == IntPtr.Zero)
            {
                return(new AudioStreamPacketDescription [0]);
            }

            var ret = new AudioStreamPacketDescription [nPackets];
            int p   = 0;

            for (int i = 0; i < nPackets; i++)
            {
                ret [i].StartOffset            = Marshal.ReadInt64(b, p);
                ret [i].VariableFramesInPacket = Marshal.ReadInt32(b, p + 8);
                ret [i].DataByteSize           = Marshal.ReadInt32(b, p + 12);
                p += 16;
            }

            return(ret);
        }
Exemple #5
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		public static CMSampleBuffer CreateWithPacketDescriptions (CMBlockBuffer dataBuffer, CMFormatDescription formatDescription, int samplesCount,
			CMTime sampleTimestamp, AudioStreamPacketDescription[] packetDescriptions, out CMSampleBufferError error)
		{
			if (formatDescription == null)
				throw new ArgumentNullException ("formatDescription");
			if (samplesCount <= 0)
				throw new ArgumentOutOfRangeException ("samplesCount");

			IntPtr buffer;
			error = CMAudioSampleBufferCreateWithPacketDescriptions (IntPtr.Zero,
				dataBuffer == null ? IntPtr.Zero : dataBuffer.Handle,
				true, IntPtr.Zero, IntPtr.Zero,
				formatDescription.Handle,
				samplesCount, sampleTimestamp,
				packetDescriptions,
				out buffer);

			if (error != CMSampleBufferError.None)
				return null;

			return new CMSampleBuffer (buffer, true);
		}
Exemple #6
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        unsafe AudioStreamPacketDescription [] RealReadFixedPackets(bool useCache, long inStartingPacket, int nPackets, byte [] buffer, int offset, int count)
        {
            var descriptions = new AudioStreamPacketDescription [nPackets];

            fixed(byte *bop = &buffer[offset])
            {
                var r = AudioFileReadPacketData(handle, useCache, ref count, descriptions, inStartingPacket, ref nPackets, (IntPtr)bop);

                if (r == (int)AudioFileError.EndOfFile)
                {
                    if (count == 0)
                    {
                        return(null);
                    }
                }
                else if (r != 0)
                {
                    return(null);
                }
            }

            return(descriptions);
        }
        static int complexInputDataProc(
            IntPtr inAudioConverrter,
            ref uint ioNumberDataPackets,
            AudioBufferList ioData,
            ref AudioStreamPacketDescription[] outDataPacketDescription, //AudioStreamPacketDescription**
            IntPtr inUserData
            )
        {
            // getting audiounit instance
            var handler = GCHandle.FromIntPtr(inUserData);
            var inst = (_AudioConverter)handler.Target;

            // evoke event handler with an argument
            if (inst.EncoderCallback != null)
            {
                var args = new _AudioConverterEventArgs(
                    ioNumberDataPackets,
                    ioData,
                    outDataPacketDescription);
                inst.EncoderCallback(inst, args);
            }

            return 0; // noerror
        }
 static extern int AudioConverterFillComplexBuffer(
     IntPtr 		inAudioConverter,
     AudioConverterComplexInputDataProc	inInputDataProc,
     IntPtr inInputDataProcUserData,
     ref uint ioOutputDataPacketSize,
     AudioBufferList outOutputData,
     AudioStreamPacketDescription[] outPacketDescription);
 public void FillBuffer(AudioBufferList data, uint numberFrames, AudioStreamPacketDescription[] packetDescs)
 {
     uint numPackets = numberFrames;
     int err =AudioConverterFillComplexBuffer(                
         _audioConverter,
         complexInputDataProc,
         GCHandle.ToIntPtr(_handle),
         ref numPackets,
         data,
         packetDescs);
     if(err != 0 || numPackets == 0) {
         throw new InvalidOperationException(String.Format("Error code:{0}", err));
     }            
 }
Exemple #10
0
		static AudioConverterError HandleInputData (ref int numberDataPackets, AudioBuffers data, ref AudioStreamPacketDescription[] dataPacketDescription)
		{
			int maxPackets = afio.SrcBufferSize / afio.SrcSizePerPacket;
			if (numberDataPackets > maxPackets)
				numberDataPackets = maxPackets;

			// read from the file
			int outNumBytes;
			var res = afio.SourceFile.ReadPackets (false, out outNumBytes, afio.PacketDescriptions, afio.SrcFilePos, ref numberDataPackets, afio.SrcBuffer);
			if (res != 0) {
				throw new ApplicationException (res.ToString ());
			}

			// advance input file packet position
			afio.SrcFilePos += numberDataPackets;

			// put the data pointer into the buffer list
			data.SetData (0, afio.SrcBuffer, outNumBytes);

			// don't forget the packet descriptions if required
			if (dataPacketDescription != null) {
				if (afio.PacketDescriptions != null) {
					dataPacketDescription = afio.PacketDescriptions;
				} else {
					dataPacketDescription = null;
				}
			}

			return AudioConverterError.None;

		}
Exemple #11
0
		public static bool Convert(string input, string output, AudioFormatType targetFormat, AudioFileType containerType, Microsoft.Xna.Framework.Content.Pipeline.Audio.ConversionQuality quality) {
			CFUrl source = CFUrl.FromFile (input);
			CFUrl dest = CFUrl.FromFile (output);
			var dstFormat = new AudioStreamBasicDescription ();
			var sourceFile = AudioFile.Open (source, AudioFilePermission.Read);
			AudioFormatType outputFormat = targetFormat;
			// get the source data format
			var srcFormat = (AudioStreamBasicDescription)sourceFile.DataFormat;
			var outputSampleRate = 0;
			switch (quality)
			{
			case Microsoft.Xna.Framework.Content.Pipeline.Audio.ConversionQuality.Low:
				outputSampleRate = (int)Math.Max (8000, srcFormat.SampleRate / 2);
					break;
			default:
				outputSampleRate = (int)Math.Max (8000, srcFormat.SampleRate);
				break;
			}

			dstFormat.SampleRate = (outputSampleRate == 0 ? srcFormat.SampleRate : outputSampleRate); // set sample rate
			if (outputFormat == AudioFormatType.LinearPCM) {
				// if the output format is PC create a 16-bit int PCM file format description as an example
				dstFormat.Format = outputFormat;
				dstFormat.ChannelsPerFrame = srcFormat.ChannelsPerFrame;
				dstFormat.BitsPerChannel = 16;
				dstFormat.BytesPerPacket = dstFormat.BytesPerFrame = 2 * dstFormat.ChannelsPerFrame;
				dstFormat.FramesPerPacket = 1;
				dstFormat.FormatFlags = AudioFormatFlags.LinearPCMIsPacked | AudioFormatFlags.LinearPCMIsSignedInteger;
			} else {
				// compressed format - need to set at least format, sample rate and channel fields for kAudioFormatProperty_FormatInfo
				dstFormat.Format = outputFormat;
				dstFormat.ChannelsPerFrame = (outputFormat == AudioFormatType.iLBC ? 1 : srcFormat.ChannelsPerFrame); // for iLBC num channels must be 1

				// use AudioFormat API to fill out the rest of the description
				var fie = AudioStreamBasicDescription.GetFormatInfo (ref dstFormat);
				if (fie != AudioFormatError.None) {
					return false;
				}
			}

			var converter = AudioConverter.Create (srcFormat, dstFormat);
			converter.InputData += HandleInputData;

			// if the source has a cookie, get it and set it on the Audio Converter
			ReadCookie (sourceFile, converter);

			// get the actual formats back from the Audio Converter
			srcFormat = converter.CurrentInputStreamDescription;
			dstFormat = converter.CurrentOutputStreamDescription;

			// if encoding to AAC set the bitrate to 192k which is a nice value for this demo
			// kAudioConverterEncodeBitRate is a UInt32 value containing the number of bits per second to aim for when encoding data
			if (dstFormat.Format == AudioFormatType.MPEG4AAC) {
				uint outputBitRate = 192000; // 192k

				// ignore errors as setting may be invalid depending on format specifics such as samplerate
				try {
					converter.EncodeBitRate = outputBitRate;
				} catch {
				}

				// get it back and print it out
				outputBitRate = converter.EncodeBitRate;
			}

			// create the destination file 
			var destinationFile = AudioFile.Create (dest, containerType, dstFormat, AudioFileFlags.EraseFlags);

			// set up source buffers and data proc info struct
			afio = new AudioFileIO (32768);
			afio.SourceFile = sourceFile;
			afio.SrcFormat = srcFormat;

			if (srcFormat.BytesPerPacket == 0) {
				// if the source format is VBR, we need to get the maximum packet size
				// use kAudioFilePropertyPacketSizeUpperBound which returns the theoretical maximum packet size
				// in the file (without actually scanning the whole file to find the largest packet,
				// as may happen with kAudioFilePropertyMaximumPacketSize)
				afio.SrcSizePerPacket = sourceFile.PacketSizeUpperBound;

				// how many packets can we read for our buffer size?
				afio.NumPacketsPerRead = afio.SrcBufferSize / afio.SrcSizePerPacket;

				// allocate memory for the PacketDescription structures describing the layout of each packet
				afio.PacketDescriptions = new AudioStreamPacketDescription [afio.NumPacketsPerRead];
			} else {
				// CBR source format
				afio.SrcSizePerPacket = srcFormat.BytesPerPacket;
				afio.NumPacketsPerRead = afio.SrcBufferSize / afio.SrcSizePerPacket;
				// allocate memory for the PacketDescription structures describing the layout of each packet
				afio.PacketDescriptions = new AudioStreamPacketDescription [afio.NumPacketsPerRead];
			}

			// set up output buffers
			int outputSizePerPacket = dstFormat.BytesPerPacket; // this will be non-zero if the format is CBR
			const int theOutputBufSize = 32768;
			var outputBuffer = Marshal.AllocHGlobal (theOutputBufSize);
			AudioStreamPacketDescription[] outputPacketDescriptions = null;

			if (outputSizePerPacket == 0) {
				// if the destination format is VBR, we need to get max size per packet from the converter
				outputSizePerPacket = (int)converter.MaximumOutputPacketSize;

			}
			// allocate memory for the PacketDescription structures describing the layout of each packet
			outputPacketDescriptions = new AudioStreamPacketDescription [theOutputBufSize / outputSizePerPacket];
			int numOutputPackets = theOutputBufSize / outputSizePerPacket;

			// if the destination format has a cookie, get it and set it on the output file
			WriteCookie (converter, destinationFile);

			// write destination channel layout
			if (srcFormat.ChannelsPerFrame > 2) {
				WriteDestinationChannelLayout (converter, sourceFile, destinationFile);
			}

			long totalOutputFrames = 0; // used for debugging
			long outputFilePos = 0;
			AudioBuffers fillBufList = new AudioBuffers (1);
			bool error = false;

			// loop to convert data
			while (true) {
				// set up output buffer list
				fillBufList [0] = new AudioBuffer () {
					NumberChannels = dstFormat.ChannelsPerFrame,
					DataByteSize = theOutputBufSize,
					Data = outputBuffer
				};

				// convert data
				int ioOutputDataPackets = numOutputPackets;
				var fe = converter.FillComplexBuffer (ref ioOutputDataPackets, fillBufList, outputPacketDescriptions);
				// if interrupted in the process of the conversion call, we must handle the error appropriately
				if (fe != AudioConverterError.None) {
					error = true;
					break;
				}

				if (ioOutputDataPackets == 0) {
					// this is the EOF conditon
					break;
				}

				// write to output file
				var inNumBytes = fillBufList [0].DataByteSize;

				var we = destinationFile.WritePackets (false, inNumBytes, outputPacketDescriptions, outputFilePos, ref ioOutputDataPackets, outputBuffer);
				if (we != 0) {
					error = true;
					break;
				}

				// advance output file packet position
				outputFilePos += ioOutputDataPackets;

				if (dstFormat.FramesPerPacket != 0) { 
					// the format has constant frames per packet
					totalOutputFrames += (ioOutputDataPackets * dstFormat.FramesPerPacket);
				} else {
					// variable frames per packet require doing this for each packet (adding up the number of sample frames of data in each packet)
					for (var i = 0; i < ioOutputDataPackets; ++i)
						totalOutputFrames += outputPacketDescriptions [i].VariableFramesInPacket;
				}

			}

			Marshal.FreeHGlobal (outputBuffer);

			if (!error) {
				// write out any of the leading and trailing frames for compressed formats only
				if (dstFormat.BitsPerChannel == 0) {
					// our output frame count should jive with
					WritePacketTableInfo (converter, destinationFile);
				}

				// write the cookie again - sometimes codecs will update cookies at the end of a conversion
				WriteCookie (converter, destinationFile);
			}

			converter.Dispose ();
			destinationFile.Dispose ();
			sourceFile.Dispose ();

			return true;
		}