private bool OnNewWaveformData(WaveformStreamer streamer, float[] data, int remaining)
{
StreamedAudioClipPreview.StreamingContext streamingContext = this.m_Contexts[streamer];
int num = streamingContext.index / this.m_Clip.channels;
for (int i = 0; i < this.m_StreamedSegments.Length; i++)
{
if (this.m_StreamedSegments[i].streamer == streamer && num >= this.m_StreamedSegments[i].streamingIndexOffset && this.m_StreamedSegments[i].segmentLength > num - this.m_StreamedSegments[i].streamingIndexOffset)
{
this.SetMMWaveData((this.m_StreamedSegments[i].textureOffset - this.m_StreamedSegments[i].streamingIndexOffset) * this.m_Clip.channels + streamingContext.index, data);
}
}
streamingContext.index += data.Length / 2;
return(remaining != 0);
}
bool OnNewWaveformData(WaveformStreamer streamer, float[] data, int remaining)
{
StreamingContext c = m_Contexts[streamer];
int pixelPos = c.index / m_Clip.channels;
for (var i = 0; i < m_StreamedSegments.Length; i++)
{
if (m_StreamedSegments[i].streamer == streamer && pixelPos >= m_StreamedSegments[i].streamingIndexOffset && m_StreamedSegments[i].segmentLength > (pixelPos - m_StreamedSegments[i].streamingIndexOffset))
{
SetMMWaveData((m_StreamedSegments[i].textureOffset - m_StreamedSegments[i].streamingIndexOffset) * m_Clip.channels + c.index, data);
}
}
c.index += data.Length / 2;
return(remaining != 0);
}
internal static extern IntPtr Internal_WaveformStreamerCreate(WaveformStreamer instance, [NotNull] AudioClip clip, double start, double duration,
int numOutputSamples, [NotNull] Func <WaveformStreamer, float[], int, bool> onNewWaveformData);
private StreamedAudioClipPreview.Segment[] CalculateAndStartStreamers(double localStart, double localLength)
{
double num = localStart;
localStart %= (double)this.m_Clip.length;
double num2 = localLength / (double)base.Size.x;
StreamedAudioClipPreview.Segment[] result;
if (!base.looping)
{
if (num > (double)this.m_Clip.length)
{
result = null;
}
else
{
double num3 = Math.Min((double)this.m_Clip.length - num, localLength);
int num4 = (int)Math.Min((double)base.Size.x, (double)base.Size.x * Math.Max(0.0, num3 / localLength));
if (num4 < 1)
{
result = null;
}
else
{
StreamedAudioClipPreview.Segment[] array = new StreamedAudioClipPreview.Segment[1];
array[0].streamer = new WaveformStreamer(this.m_Clip, num, num3, num4, new Func <WaveformStreamer, float[], int, bool>(this.OnNewWaveformData));
array[0].segmentLength = (int)base.Size.x;
array[0].textureOffset = 0;
array[0].streamingIndexOffset = 0;
result = array;
}
}
}
else
{
StreamedAudioClipPreview.Segment[] array;
if (localStart + localLength - num2 > (double)this.m_Clip.length)
{
double num5 = (double)base.Size.x / localLength;
if (localLength >= (double)this.m_Clip.length)
{
double num6 = localLength / (double)this.m_Clip.length;
WaveformStreamer streamer = new WaveformStreamer(this.m_Clip, 0.0, (double)this.m_Clip.length, (int)((double)base.Size.x / num6), new Func <WaveformStreamer, float[], int, bool>(this.OnNewWaveformData));
double num7 = (double)this.m_Clip.length - localStart;
double num8 = 0.0;
array = new StreamedAudioClipPreview.Segment[Mathf.CeilToInt((float)((localStart + localLength) / (double)this.m_Clip.length))];
for (int i = 0; i < array.Length; i++)
{
double num9 = Math.Min(num7 + num8, localLength) - num8;
array[i].streamer = streamer;
array[i].segmentLength = (int)(num9 * num5);
array[i].textureOffset = (int)(num8 * num5);
array[i].streamingIndexOffset = (int)(((double)this.m_Clip.length - num7) * num5);
num8 += num7;
num7 = (double)this.m_Clip.length;
}
}
else
{
double num10 = (double)this.m_Clip.length - localStart;
double num11 = localLength - num10;
array = new StreamedAudioClipPreview.Segment[2];
array[0].streamer = new WaveformStreamer(this.m_Clip, localStart, num10, (int)(num10 * num5), new Func <WaveformStreamer, float[], int, bool>(this.OnNewWaveformData));
array[0].segmentLength = (int)(num10 * num5);
array[0].textureOffset = 0;
array[0].streamingIndexOffset = 0;
array[1].streamer = new WaveformStreamer(this.m_Clip, 0.0, num11, (int)(num11 * num5), new Func <WaveformStreamer, float[], int, bool>(this.OnNewWaveformData));
array[1].segmentLength = (int)(num11 * num5);
array[1].textureOffset = (int)(num10 * num5);
array[1].streamingIndexOffset = 0;
}
}
else
{
array = new StreamedAudioClipPreview.Segment[1];
array[0].streamer = new WaveformStreamer(this.m_Clip, localStart, localLength, (int)base.Size.x, new Func <WaveformStreamer, float[], int, bool>(this.OnNewWaveformData));
array[0].segmentLength = (int)base.Size.x;
array[0].textureOffset = 0;
array[0].streamingIndexOffset = 0;
}
result = array;
}
return(result);
}
Segment[] CalculateAndStartStreamers(double localStart, double localLength)
{
Segment[] segments = null;
var originalStart = localStart;
// we don't care about the global position, only the locally visible offset into the clip
localStart %= m_Clip.length;
var secondsPerPixel = localLength / Size.x;
if (!looping)
{
// holding (= !looping) is a special case handled before everything
// else, because it's very simple to implement since it defines a
// section capped by length of the clip
if (originalStart > m_Clip.length)
{
return(null);
}
var clampedLength = Math.Min(m_Clip.length - originalStart, localLength);
var previewPixelsToRender = (int)Math.Min(Size.x, Size.x * Math.Max(0, clampedLength / localLength));
if (previewPixelsToRender < 1)
{
return(null);
}
segments = new Segment[1];
segments[0].streamer = new WaveformStreamer(m_Clip, originalStart, clampedLength, previewPixelsToRender, OnNewWaveformData);
segments[0].segmentLength = (int)Size.x;
segments[0].textureOffset = 0;
segments[0].streamingIndexOffset = 0;
return(segments);
}
// epsilon added to discriminate between invisible floating point rounding errors
// and actual loops (i.e. more than a single pixel larger than then length)
if (localStart + localLength - secondsPerPixel > m_Clip.length)
{
var secondsToPixels = Size.x / localLength;
// special case, the first part is clipped but at least one full length of the clip is available
// we can then use one streamer to fill in all visible segments
if (localLength >= m_Clip.length)
{
var numberOfLoops = localLength / m_Clip.length;
var streamer = new WaveformStreamer(m_Clip, 0, m_Clip.length, (int)(Size.x / numberOfLoops), OnNewWaveformData);
var currentClipSegmentPart = m_Clip.length - localStart;
var localPosition = 0.0;
segments = new Segment[Mathf.CeilToInt((float)((localStart + localLength) / m_Clip.length))];
for (int i = 0; i < segments.Length; ++i)
{
var cappedLength = Math.Min(currentClipSegmentPart + localPosition, localLength) - localPosition;
segments[i].streamer = streamer;
segments[i].segmentLength = (int)(cappedLength * secondsToPixels);
segments[i].textureOffset = (int)(localPosition * secondsToPixels);
segments[i].streamingIndexOffset = (int)((m_Clip.length - currentClipSegmentPart) * secondsToPixels);
localPosition += currentClipSegmentPart;
currentClipSegmentPart = m_Clip.length;
}
}
else
{
// two disjoint regions, since streaming is time-continuous we have to split it up in two portions
var firstPart = m_Clip.length - localStart;
var secondPart = localLength - firstPart;
segments = new Segment[2];
segments[0].streamer = new WaveformStreamer(m_Clip, localStart, firstPart, (int)(firstPart * secondsToPixels), OnNewWaveformData);
segments[0].segmentLength = (int)(firstPart * secondsToPixels);
segments[0].textureOffset = 0;
segments[0].streamingIndexOffset = 0;
segments[1].streamer = new WaveformStreamer(m_Clip, 0, secondPart, (int)(secondPart * secondsToPixels), OnNewWaveformData);
segments[1].segmentLength = (int)(secondPart * secondsToPixels);
segments[1].textureOffset = (int)(firstPart * secondsToPixels);
segments[1].streamingIndexOffset = 0;
}
}
else
{
// handle single visible part of clip, that does not extend beyond the end
// with a length less than a clip - equaling one streamer.
segments = new Segment[1];
segments[0].streamer = new WaveformStreamer(m_Clip, localStart, localLength, (int)Size.x, OnNewWaveformData);
segments[0].segmentLength = (int)Size.x;
segments[0].textureOffset = 0;
segments[0].streamingIndexOffset = 0;
}
return(segments);
}
public void Stop()
{
WaveformStreamer.Internal_WaveformStreamerStop(this.m_Data);
}
private WaveformStreamer(AudioClip clip, double start, double duration, int numOutputSamples, Func <object, float[], int, bool> onNewWaveformData)
{
this.m_Data = WaveformStreamer.Internal_WaveformStreamerCreateUntyped(this, clip, start, duration, numOutputSamples, onNewWaveformData);
}
