#region --- License ---
/* Copyright (c) 2008 the OpenTK team
* See license.txt for license details
* http://www.opentk.com
*/
#endregion
using System;
using System.Collections.Generic;
using System.Text;
using OpenTK.OpenAL;
using OpenTK.OpenAL.Enums;
using System.Diagnostics;
namespace OpenTK.Audio
{
///
/// Provides methods to create and use an audio context.
///
public sealed class AudioContext : IDisposable
{
#region --- Fields ---
bool disposed;
bool is_processing;
ContextHandle device_handle, context_handle;
string device_name;
static object audio_context_lock = new object();
static List available_devices = new List();
static Dictionary available_contexts = new Dictionary();
#endregion
#region --- Constructors ---
#region static AudioContext()
///
///
///
/// Runs before the actual class constructor, to load available devices.
///
static AudioContext()
{
LoadAvailableDevices();
}
#endregion
#region public AudioContext()
/// Constructs a new AudioContext, using the default audio device.
/// Occurs when no audio devices are available.
public AudioContext() : this(available_devices[0], 0, 0, false, 0) { }
#endregion
#region public AudioContext(string device)
/// Constructs a new AudioContext, using the specified audio device.
/// The name of the audio device to use.
///
/// Use AudioContext.AvailableDevices to obtain a list of all available audio devices.
/// devices.
///
public AudioContext(string device) : this(device, 0, 0, false, 0) { }
#endregion
#region public AudioContext(string device, int freq)
/// Constructs a new AudioContext, using the specified audio device and device parameters.
/// The name of the audio device to use.
/// Frequency for mixing output buffer, in units of Hz. Pass 0 for driver default.
///
/// Use AudioContext.AvailableDevices to obtain a list of all available audio devices.
/// devices.
///
///
public AudioContext(string device, int freq) : this(device, freq, 0, false, 0) { }
#endregion
#region public AudioContext(string device, int freq, int refresh)
/// Constructs a new AudioContext, using the specified audio device and device parameters.
/// The name of the audio device to use.
/// Frequency for mixing output buffer, in units of Hz. Pass 0 for driver default.
/// Refresh intervals, in units of Hz. Pass 0 for driver default.
///
/// Use AudioContext.AvailableDevices to obtain a list of all available audio devices.
/// devices.
///
///
public AudioContext(string device, int freq, int refresh)
: this(device, freq, refresh, false, 0) { }
#endregion
#region public AudioContext(string device)
/// Constructs a new AudioContext, using the specified audio device and device parameters.
/// The name of the audio device to use.
/// Frequency for mixing output buffer, in units of Hz. Pass 0 for driver default.
/// Refresh intervals, in units of Hz. Pass 0 for driver default.
/// Flag, indicating a synchronous context.
///
/// Use AudioContext.AvailableDevices to obtain a list of all available audio devices.
/// devices.
///
///
public AudioContext(string device, int freq, int refresh, bool sync)
: this(available_devices[0], freq, refresh, sync, 0) { }
#endregion
#region public AudioContext(string device, int freq, int refresh, bool sync, int maxEfxSends)
/// Creates the audio context using the specified device and device parameters.
/// The device descriptor obtained through AudioContext.AvailableDevices.
/// Frequency for mixing output buffer, in units of Hz. Pass 0 for driver default.
/// Refresh intervals, in units of Hz. Pass 0 for driver default.
/// Flag, indicating a synchronous context.
/// Number of auxilliary send slots for the EFX extensions. Can be 0 (use driver default) or higher.
/// Occurs when the device string is invalid.
/// Occurs when a specified parameter is invalid.
///
/// Occurs when the specified device is not available, or is in use by another program.
///
///
/// Occurs when an audio context could not be created with the specified parameters.
///
///
///
/// Use AudioContext.AvailableDevices to obtain a list of all available audio devices.
///
///
/// The number of auxilliary EFX sends depends on the audio hardware and drivers. Most Realtek devices, as well
/// as the Creative SB Live!, support 1 auxilliary send. Creative's Audigy and X-Fi series support 4 sends.
/// Values not supported will be clamped by the driver.
///
///
public AudioContext(string device, int freq, int refresh, bool sync, int maxEfxSends)
{
CreateContext(device, freq, refresh, sync, maxEfxSends);
}
#endregion
#endregion
#region --- Private Members ---
#region static void LoadAvailableDevices()
///
///
///
/// Loads all available audio devices into the available_devices array.
///
///
/// Only called by the static AudioContext constructor.
///
static void LoadAvailableDevices()
{
lock (audio_context_lock)
{
if (available_devices.Count == 0)
{
if (Alc.IsExtensionPresent(IntPtr.Zero, "ALC_ENUMERATION_EXT"))
{
available_devices = new List();
available_devices.AddRange(Alc.GetString(IntPtr.Zero, AlcGetStringList.AllDevicesSpecifier));
}
}
}
}
#endregion
#region void CreateContext(string device)
///
/// Creates the audio context using the specified device.
/// The device descriptor obtained through AudioContext.AvailableDevices.
/// Frequency for mixing output buffer, in units of Hz. Pass 0 for driver default.
/// Refresh intervals, in units of Hz. Pass 0 for driver default.
/// Flag, indicating a synchronous context.
/// Number of auxilliary send slots for the EFX extensions. Can be 0 (use driver default) or higher.
/// Occurs when the device string is invalid.
/// /// Occurs when a specified parameter is invalid.
///
/// Occurs when the specified device is not available, or is in use by another program.
///
///
/// Occurs when an audio context could not be created with the specified parameters.
///
///
/// The number of auxilliary EFX sends depends on the audio hardware and drivers. Most Realtek devices, as well
/// as the Creative SB Live!, support 1 auxilliary send. Creative's Audigy and X-Fi series support 4 sends.
/// Values higher than supported will be clamped by the driver.
///
void CreateContext(string device, int freq, int refresh, bool sync, int maxEfxSends)
{
if (String.IsNullOrEmpty(device)) throw new ArgumentNullException("device");
if (freq < 0) throw new ArgumentOutOfRangeException("freq", freq, "Should be greater than zero.");
if (refresh < 0) throw new ArgumentOutOfRangeException("refresh", refresh, "Should be greater than zero.");
if (maxEfxSends < 0) throw new ArgumentOutOfRangeException("maxEfxSends", maxEfxSends, "Should be greater than zero.");
if (available_devices.Count == 0) throw new NotSupportedException("No audio hardware is available.");
device_handle = Alc.OpenDevice(device);
if (device_handle == IntPtr.Zero)
throw new AudioDeviceException("The specified audio device does not exist or is tied up by another application.");
device_name = device;
// Build the attribute liist
List attributes = new List();
if (freq != 0)
{
attributes.Add((int)AlcContextAttributes.Frequency);
attributes.Add(freq);
}
if (refresh != 0)
{
attributes.Add((int)AlcContextAttributes.Refresh);
attributes.Add(refresh);
}
attributes.Add((int)AlcContextAttributes.Frequency);
attributes.Add(sync ? 1 : 0);
if (maxEfxSends > 0)
{
throw new NotImplementedException();
//if (Alc.IsExtensionPresent(device_handle, "ALC_EXT_EFX"))
//attributes.Add((int)AlcContextAttributes.MaxAuxilliarySends);
//attributes.Add(maxEfxSends);
}
context_handle = Alc.CreateContext(device_handle, attributes.ToArray());
if (context_handle == IntPtr.Zero)
{
Alc.CloseDevice(device_handle);
throw new AudioContextException("The audio context could not be created with the specified parameters.");
}
MakeCurrent();
AlcError err = Alc.GetError(device_handle);
if (err != AlcError.NoError)
throw new AudioContextException(err.ToString());
//device_name = Alc.GetString(device_handle, AlcGetString.DeviceSpecifier);
//Debug.Print(device_name);
lock (audio_context_lock)
{
available_contexts.Add(this.context_handle, this);
}
}
#endregion
#region static void MakeCurrent(AudioContext context)
///
/// Makes the specified AudioContext current in the calling thread.
/// The OpenTK.Audio.AudioContext to make current, or null.
///
/// Occurs if this function is called after the AudioContext has been disposed.
///
///
/// Occurs when the AudioContext could not be made current.
///
static void MakeCurrent(AudioContext context)
{
lock (audio_context_lock)
{
//if (context != null && context.disposed)
// throw new ObjectDisposedException("OpenTK.Audio.AudioContext");
if (!Alc.MakeContextCurrent(context != null ? (IntPtr)context.context_handle : IntPtr.Zero))
throw new AudioContextException(
Alc.GetError(context != null ? (IntPtr)context.context_handle : IntPtr.Zero).ToString());
}
}
#endregion
#endregion
// TODO: Remove before release!
public IntPtr Device { get { return device_handle.Handle; } }
#region --- Public Members ---
#region public static string[] AvailableDevices
///
/// Gets a System.String array containing all available audio devices.
///
/// This property allocates memory.
public static string[] AvailableDevices
{
get
{
return available_devices.ToArray();
}
}
#endregion
#region public void MakeCurrent()
/// Makes the AudioContext current in the calling thread.
///
/// Occurs if this function is called after the AudioContext has been disposed.
///
///
/// Occurs when the AudioContext could not be made current.
///
///
/// Only one AudioContext can be current in the application at any time,
/// regardless of the number of threads.
///
public void MakeCurrent()
{
AudioContext.MakeCurrent(this);
}
#endregion
#region public bool IsCurrent
///
/// Gets or sets a System.Boolean indicating whether the AudioContext
/// is current.
///
///
/// Only one AudioContext can be current in the application at any time,
/// regardless of the number of threads.
///
public bool IsCurrent
{
get
{
lock (audio_context_lock)
{
if (available_contexts.Count == 0)
return false;
else
{
return AudioContext.CurrentContext == this;
}
}
}
set
{
if (value) AudioContext.MakeCurrent(this);
else AudioContext.MakeCurrent(null);
}
}
#endregion
#region public bool IsProcessing
///
/// Gets a System.Boolean indicating whether the AudioContext is
/// currently processing audio events.
///
///
///
public bool IsProcessing
{
get { return is_processing; }
private set { is_processing = value; }
}
#endregion
#region public void Process
///
/// Processes queued audio events.
///
///
///
/// If AudioContext.IsSynchronized is true, this function will resume
/// the internal audio processing thread. If AudioContext.IsSynchronized is false,
/// you will need to call this function multiple times per second to process
/// audio events.
///
///
/// In some implementations this function may have no effect.
///
///
/// Occurs when this function is called after the AudioContext had been disposed.
///
///
///
public void Process()
{
if (disposed) throw new ObjectDisposedException(this.ToString());
Alc.ProcessContext(this.context_handle);
IsProcessing = true;
}
#endregion
#region public void Suspend
///
/// Suspends processing of audio events.
///
///
///
/// To avoid audio artifacts when calling this function, set audio gain to zero before
/// suspending an AudioContext.
///
///
/// In some implementations, it can be faster to suspend processing before changing
/// AudioContext state.
///
///
/// In some implementations this function may have no effect.
///
///
/// Occurs when this function is called after the AudioContext had been disposed.
///
///
///
public void Suspend()
{
if (disposed) throw new ObjectDisposedException(this.ToString());
Alc.SuspendContext(this.context_handle);
IsProcessing = false;
}
#endregion
#region public static AudioContext CurrentContext
///
/// Gets the OpenTK.Audio.AudioContext which is current in the application.
///
///
/// Only one AudioContext can be current in the application at any time,
/// regardless of the number of threads.
///
public static AudioContext CurrentContext
{
get
{
lock (audio_context_lock)
{
if (available_contexts.Count == 0)
return null;
else
{
AudioContext context;
AudioContext.available_contexts.TryGetValue(
(ContextHandle)Alc.GetCurrentContext(),
out context);
return context;
}
}
}
}
#endregion
#endregion
#region --- IDisposable Members ---
///
/// Disposes of the AudioContext, cleaning up all resources consumed by it.
///
public void Dispose()
{
this.Dispose(true);
GC.SuppressFinalize(this);
}
void Dispose(bool manual)
{
if (!disposed)
{
available_contexts.Remove(this.context_handle);
if (this.IsCurrent)
this.IsCurrent = false;
if (context_handle != IntPtr.Zero)
Alc.DestroyContext(context_handle);
if (device_handle != IntPtr.Zero)
Alc.CloseDevice(device_handle);
if (manual)
{
}
disposed = true;
}
}
~AudioContext()
{
this.Dispose(false);
}
#endregion
#region --- Overrides ---
public override int GetHashCode()
{
return base.GetHashCode();
}
public override bool Equals(object obj)
{
return base.Equals(obj);
}
public override string ToString()
{
return String.Format("{0} (handle: {1}, device: {2})",
this.device_name, this.context_handle, this.device_handle);
}
#endregion
}
#region --- Exceptions ---
/// Represents errors related to an Audio device.
public class AudioDeviceException : Exception
{
public AudioDeviceException() : base() { }
public AudioDeviceException(string message) : base(message) { }
}
/// Represents errors related to an AudioContext.
public class AudioContextException : Exception
{
public AudioContextException() : base() { }
public AudioContextException(string message) : base(message) { }
}
#endregion
}