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9dd4897acc8b435b212c00c8bc6113c4bc0c0281
cuetools.net/CUETools.Codecs.LAME/LameWriter.cs
Grigory Chudov 9dd4897acc Cleanup IAudioDest; CompressionLevel is now part of AudioEncoderSettings. 
FLAC encoders no longer offer non-subset compression levels by default.
2013-04-01 23:03:22 -04:00

348 lines
12 KiB
C#
Raw Blame History

using System;
using System.Runtime.InteropServices;
using CUETools.Codecs;
using System.IO;
namespace CUETools.Codecs.LAME
{
public class LameWriter : IAudioDest
{
#region Unmanaged Functions
private const string LameDll = "libmp3lame";
private const CallingConvention LameCallingConvention = CallingConvention.Cdecl;
[DllImport(LameDll, CallingConvention = LameCallingConvention)]
private static extern IntPtr lame_init();
[DllImport(LameDll, CallingConvention = LameCallingConvention)]
private static extern int lame_close(IntPtr handle);
[DllImport(LameDll, CallingConvention = LameCallingConvention)]
private static extern int lame_set_num_channels(IntPtr handle, int channels);
[DllImport(LameDll, CallingConvention = LameCallingConvention)]
private static extern int lame_set_in_samplerate(IntPtr handle, int sampleRate);
[DllImport(LameDll, CallingConvention = LameCallingConvention)]
private static extern int lame_set_quality(IntPtr handle, int quality);
[DllImport(LameDll, CallingConvention = LameCallingConvention)]
private static extern int lame_set_VBR(IntPtr handle, int vbrMode);
[DllImport(LameDll, CallingConvention = LameCallingConvention)]
private static extern int lame_set_VBR_mean_bitrate_kbps(IntPtr handle, int meanBitrate);
[DllImport(LameDll, CallingConvention = LameCallingConvention)]
private static extern int lame_init_params(IntPtr handle);
[DllImport(LameDll, CallingConvention = LameCallingConvention)]
private static extern int lame_set_num_samples(IntPtr handle, uint numSamples);
[DllImport(LameDll, CallingConvention = LameCallingConvention)]
private static extern int lame_encode_buffer_interleaved(IntPtr handle, IntPtr pcm, int num_samples, IntPtr mp3buf, int mp3buf_size);
[DllImport(LameDll, CallingConvention = LameCallingConvention)]
private static extern int lame_encode_flush(IntPtr handle, IntPtr mp3buf, int size);
[DllImport(LameDll, CallingConvention = LameCallingConvention)]
private static extern uint lame_get_lametag_frame(IntPtr handle, IntPtr buffer, uint size);
[DllImport(LameDll, CallingConvention = LameCallingConvention)]
private static extern int lame_set_VBR_quality(IntPtr handle, float vbrQuality);
[DllImport(LameDll, CallingConvention = LameCallingConvention)]
private static extern int lame_set_brate(IntPtr handle, int bitrate);
[DllImport(LameDll, CallingConvention = LameCallingConvention)]
private static extern int lame_set_bWriteVbrTag(IntPtr handle, int writeVbrTag);
[DllImport(LameDll, CallingConvention = LameCallingConvention)]
private static extern int lame_set_write_id3tag_automatic(IntPtr handle, int automaticWriteId3Tag);
#endregion
private string outputPath;
private Stream outputStream;
private bool closed = false, initialized = false;
private IntPtr handle;
private AudioPCMConfig pcm;
private uint finalSampleCount;
private byte[] outputBuffer;
public long BlockSize
{
set { }
}
public long FinalSampleCount
{
set
{
if (value > uint.MaxValue)
{
throw new ArgumentException("Input file too big.");
}
this.finalSampleCount = (uint)value;
}
}
public AudioPCMConfig PCM
{
get { return this.pcm; }
}
public long Padding
{
set { }
}
public string Path
{
get { return this.outputPath; }
}
public virtual AudioEncoderSettings Settings
{
get
{
return new AudioEncoderSettings();
}
set
{
throw new MethodAccessException();
}
}
protected virtual LameWriterConfig Config
{
get
{
return LameWriterConfig.CreateCbr(320);
}
}
public LameWriter(string path, AudioPCMConfig pcm)
{
this.CheckPCMConfig(pcm);
this.pcm = pcm;
this.outputPath = path;
this.outputStream = File.Create(path);
}
public LameWriter(Stream output, AudioPCMConfig pcm)
{
this.CheckPCMConfig(pcm);
this.outputStream = output;
this.pcm = pcm;
}
private void CheckPCMConfig(AudioPCMConfig pcm)
{
if (pcm.BitsPerSample != 16)
{
throw new ArgumentException("LAME only supports 16 bits/sample.");
}
}
private void FinalizeEncoding()
{
this.EnsureOutputBufferSize(7200);
int flushResult;
unsafe
{
fixed (byte* outputBufferPtr = outputBuffer)
{
flushResult = lame_encode_flush(handle, (IntPtr)outputBufferPtr, outputBuffer.Length);
}
}
if (flushResult < 0)
{
throw new LameException("Unknown flush error");
}
if (flushResult > 0)
{
this.outputStream.Write(this.outputBuffer, 0, flushResult);
}
int lametagFrameSize = this.GetLametagFrame();
this.outputStream.Seek(0, SeekOrigin.Begin);
this.outputStream.Write(this.outputBuffer, 0, lametagFrameSize);
}
public void Close()
{
if (!this.closed)
{
if (this.initialized)
{
try
{
try
{
this.FinalizeEncoding();
}
finally
{
lame_close(handle);
}
}
finally
{
handle = IntPtr.Zero;
if (this.outputPath != null)
{
this.outputStream.Close();
}
}
}
this.closed = true;
}
}
private int GetLametagFrame()
{
while (true)
{
uint lametagFrameResult;
unsafe
{
fixed (byte* outputBufferPtr = outputBuffer)
{
lametagFrameResult = lame_get_lametag_frame(this.handle, (IntPtr)outputBufferPtr, (uint)outputBuffer.Length);
}
}
if (lametagFrameResult < 0)
{
throw new LameException("Error getting lametag frame.");
}
if (lametagFrameResult <= outputBuffer.Length)
{
return (int)lametagFrameResult;
}
this.EnsureOutputBufferSize((int)lametagFrameResult);
}
}
public uint GetLametagFrame(byte[] outputBuffer)
{
unsafe
{
fixed (byte* outputBufferPtr = outputBuffer)
{
return lame_get_lametag_frame(handle, (IntPtr)outputBufferPtr, (uint)outputBuffer.Length);
}
}
}
private void EnsureInitialized()
{
if (!this.initialized)
{
var config = this.Config;
handle = lame_init();
lame_set_bWriteVbrTag(handle, 1);
lame_set_write_id3tag_automatic(handle, 0);
lame_set_num_channels(handle, this.pcm.ChannelCount);
lame_set_in_samplerate(handle, this.pcm.SampleRate);
lame_set_quality(handle, (int)config.Quality);
if (this.finalSampleCount != 0)
{
lame_set_num_samples(handle, this.finalSampleCount);
}
lame_set_VBR(this.handle, (int)config.VbrMode);
switch (config.VbrMode)
{
case LameVbrMode.Abr:
lame_set_VBR_mean_bitrate_kbps(handle, config.Bitrate);
break;
case LameVbrMode.Default:
lame_set_VBR_quality(handle, config.VbrQuality);
break;
case LameVbrMode.Off:
lame_set_brate(handle, config.Bitrate);
break;
default:
throw new ArgumentException("Only ABR, Default and Off VBR modes are supported.");
}
if (lame_init_params(handle) != 0)
{
throw new LameException("lame_init_params failed");
}
this.initialized = true;
}
}
public void Delete()
{
if (this.outputPath == null)
{
throw new InvalidOperationException("This writer was not created from file.");
}
if (!closed)
{
this.Close();
File.Delete(this.outputPath);
}
}
private void EnsureOutputBufferSize(int requiredSize)
{
if (this.outputBuffer == null || this.outputBuffer.Length < requiredSize)
{
this.outputBuffer = new byte[requiredSize];
}
}
public void Write(AudioBuffer buffer)
{
if (this.closed)
{
throw new InvalidOperationException("Writer already closed.");
}
buffer.Prepare(this);
this.EnsureInitialized();
this.EnsureOutputBufferSize(buffer.Length * 5 / 4 + 7200);
byte[] bytes = buffer.Bytes;
int result;
unsafe
{
fixed (byte* bytesPtr = bytes)
{
fixed (byte* outputBufferPtr = this.outputBuffer)
{
result = lame_encode_buffer_interleaved(handle, (IntPtr)bytesPtr, buffer.Length, (IntPtr)outputBufferPtr, outputBuffer.Length);
}
}
}
if (result < 0)
{
switch (result)
{
case -1:
throw new LameException("Output buffer is too small");
case -2:
throw new LameException("malloc problem");
case -3:
throw new LameException("lame_init_params was not called");
case -4:
throw new LameException("Psycho acoustic problems");
default:
throw new LameException("Unknown error");
}
}
if (result > 0)
{
this.outputStream.Write(this.outputBuffer, 0, result);
}
}
}
}
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