我想同时播放三种声音,但第二种声音必须在一秒后播放,第二种声音必须在两秒后播放。我有这段代码:
private void Play()
{
AxWindowsMediaPlayer player1 = new AxWindowsMediaPlayer();
player1.CreateControl();
AxWindowsMediaPlayer player2 = new AxWindowsMediaPlayer();
player2.CreateControl();
AxWindowsMediaPlayer player3 = new AxWindowsMediaPlayer();
player3.CreateControl();
player1.URL = "sounds\\1.wav";
player1.Ctlcontrols.play();
System.Threading.Thread.Sleep(1000);
player2.URL = "sounds\\2.wav";
player2.Ctlcontrols.play();
System.Threading.Thread.Sleep(1000);
player3.URL = "sounds\\3.wav";
player3.Ctlcontrols.play();
为什么所有这些声音都会在两秒后一次播放?
答案 0 :(得分:0)
我最终使用了SharpDX(可通过NuGet软件包SELECT C.query('.'), BookmarkID = c.value('@BookmarkID', 'VARCHAR(36)')
FROM Bookmarks
CROSS APPLY XMLValue.nodes('/rdBookmarks/Bookmark[@BookmarkID="953e67ef-d45e-4fac-8d71-b2153a726612"]') as T(C);
获得)
和SharpDX
。
可以在我的一个GitHub项目中找到其用法的示例:2DAI 您也可以在此screen recording中听到重叠的各种声音。
播放声音:
SharpDX.XAudio2
我组装的课程:
var backgroundMusicSound = new AudioClip(@".\Assets\Sounds\Music\Background.wav" /*Sound path*/, 1.0 /* Volumne*/, true /*Loop Forever?*/)
backgroundMusicSound.Play();
还应注意,加载声音可能是一个繁重的过程,因此,如果您经常这样做,则可能需要像我一样缓存它们:
public class AudioClip
{
private XAudio2 _xaudio = new XAudio2();
private WaveFormat _waveFormat;
private AudioBuffer _buffer;
private SoundStream _soundstream;
private SourceVoice _singleSourceVoice;
private bool _loopForever;
private bool _isPlaying = false; //Only applicable when _loopForever == false;
private bool _isFading;
private string _wavFilePath; //For debugging.
private float _initialVolumne;
public AudioClip(string wavFilePath, float initialVolumne = 1, bool loopForever = false)
{
_loopForever = loopForever;
_wavFilePath = wavFilePath;
_initialVolumne = initialVolumne;
var masteringsound = new MasteringVoice(_xaudio); //Yes, this is required.
var nativefilestream = new NativeFileStream(wavFilePath,
NativeFileMode.Open, NativeFileAccess.Read, NativeFileShare.Read);
_soundstream = new SoundStream(nativefilestream);
_waveFormat = _soundstream.Format;
_buffer = new AudioBuffer
{
Stream = _soundstream.ToDataStream(),
AudioBytes = (int)_soundstream.Length,
Flags = BufferFlags.EndOfStream
};
if (loopForever)
{
_buffer.LoopCount = 100;
}
}
public void Play()
{
lock (this)
{
if (_loopForever == true)
{
if (_isPlaying)
{
if (_isFading)
{
_isFading = false;
_singleSourceVoice.SetVolume(_initialVolumne);
}
return;
}
_singleSourceVoice = new SourceVoice(_xaudio, _waveFormat, true);
_singleSourceVoice.SubmitSourceBuffer(_buffer, _soundstream.DecodedPacketsInfo);
_singleSourceVoice.SetVolume(_initialVolumne);
_singleSourceVoice.Start();
_isPlaying = true;
return;
}
}
var sourceVoice = new SourceVoice(_xaudio, _waveFormat, true);
sourceVoice.SubmitSourceBuffer(_buffer, _soundstream.DecodedPacketsInfo);
sourceVoice.SetVolume(_initialVolumne);
sourceVoice.Start();
}
public void Fade()
{
if (_isPlaying && _isFading == false)
{
_isFading = true;
(new Thread(FadeThread)).Start();
}
}
private void FadeThread()
{
float volumne;
_singleSourceVoice.GetVolume(out volumne);
while (_isFading && volumne > 0)
{
volumne -= 0.25f;
volumne = volumne < 0 ? 0 : volumne;
_singleSourceVoice.SetVolume(volumne);
Thread.Sleep(100);
}
Stop();
}
public void Stop()
{
if (_loopForever == true)
{
if (_singleSourceVoice != null && _isPlaying)
{
_singleSourceVoice.Stop();
}
_isPlaying = false;
_isFading = false;
}
else
{
throw new Exception("Cannot stop overlapped audio.");
}
}
}