8275bc3c08
* Audio: Implement libsoundio as an alternative audio backend libsoundio will be preferred over OpenAL if it is available on the machine. If neither are available, it will fallback to a dummy audio renderer that outputs no sound. * Audio: Fix SoundIoRingBuffer documentation * Audio: Unroll and optimize the audio write callback Copying one sample at a time is slow, this unrolls the most common audio channel layouts and manually copies the bytes between source and destination. This is over 2x faster than calling CopyBlockUnaligned every sample. * Audio: Optimize the write callback further This dramatically reduces the audio buffer copy time. When the sample size is one of handled sample sizes the buffer copy operation is almost 10x faster than CopyBlockAligned. This works by copying full samples at a time, rather than the individual bytes that make up the sample. This allows for 2x or 4x faster copy operations depending on sample size. * Audio: Fix typo in Stereo write callback * Audio: Fix Surround (5.1) audio write callback * Audio: Update Documentation * Audio: Use built-in Unsafe.SizeOf<T>() Built-in `SizeOf<T>()` is 10x faster than our `TypeSize<T>` helper. This also helps reduce code surface area. * Audio: Keep fixed buffer style consistent * Audio: Address styling nits * Audio: More style nits * Audio: Add additional documentation * Audio: Move libsoundio bindings internal As per discussion, moving the libsoundio native bindings into Ryujinx.Audio * Audio: Bump Target Framework back up to .NET Core 2.1 * Audio: Remove voice mixing optimizations. Leaves Saturation optimizations in place.
407 lines
13 KiB
C#
407 lines
13 KiB
C#
using ChocolArm64.Memory;
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using Ryujinx.Audio;
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using Ryujinx.Audio.Adpcm;
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using Ryujinx.Common.Logging;
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using Ryujinx.HLE.HOS.Ipc;
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using Ryujinx.HLE.HOS.Kernel;
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using Ryujinx.HLE.Utilities;
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using System;
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using System.Collections.Generic;
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using System.Runtime.InteropServices;
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using System.Runtime.Intrinsics;
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using System.Runtime.Intrinsics.X86;
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namespace Ryujinx.HLE.HOS.Services.Aud.AudioRenderer
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{
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class IAudioRenderer : IpcService, IDisposable
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{
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//This is the amount of samples that are going to be appended
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//each time that RequestUpdateAudioRenderer is called. Ideally,
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//this value shouldn't be neither too small (to avoid the player
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//starving due to running out of samples) or too large (to avoid
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//high latency).
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private const int MixBufferSamplesCount = 960;
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private Dictionary<int, ServiceProcessRequest> m_Commands;
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public override IReadOnlyDictionary<int, ServiceProcessRequest> Commands => m_Commands;
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private KEvent UpdateEvent;
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private MemoryManager Memory;
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private IAalOutput AudioOut;
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private AudioRendererParameter Params;
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private MemoryPoolContext[] MemoryPools;
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private VoiceContext[] Voices;
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private int Track;
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private PlayState PlayState;
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public IAudioRenderer(
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Horizon System,
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MemoryManager Memory,
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IAalOutput AudioOut,
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AudioRendererParameter Params)
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{
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m_Commands = new Dictionary<int, ServiceProcessRequest>()
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{
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{ 0, GetSampleRate },
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{ 1, GetSampleCount },
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{ 2, GetMixBufferCount },
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{ 3, GetState },
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{ 4, RequestUpdateAudioRenderer },
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{ 5, StartAudioRenderer },
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{ 6, StopAudioRenderer },
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{ 7, QuerySystemEvent }
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};
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UpdateEvent = new KEvent(System);
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this.Memory = Memory;
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this.AudioOut = AudioOut;
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this.Params = Params;
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Track = AudioOut.OpenTrack(
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AudioConsts.HostSampleRate,
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AudioConsts.HostChannelsCount,
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AudioCallback);
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MemoryPools = CreateArray<MemoryPoolContext>(Params.EffectCount + Params.VoiceCount * 4);
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Voices = CreateArray<VoiceContext>(Params.VoiceCount);
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InitializeAudioOut();
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PlayState = PlayState.Stopped;
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}
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// GetSampleRate() -> u32
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public long GetSampleRate(ServiceCtx Context)
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{
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Context.ResponseData.Write(Params.SampleRate);
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return 0;
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}
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// GetSampleCount() -> u32
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public long GetSampleCount(ServiceCtx Context)
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{
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Context.ResponseData.Write(Params.SampleCount);
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return 0;
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}
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// GetMixBufferCount() -> u32
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public long GetMixBufferCount(ServiceCtx Context)
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{
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Context.ResponseData.Write(Params.MixCount);
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return 0;
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}
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// GetState() -> u32
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private long GetState(ServiceCtx Context)
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{
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Context.ResponseData.Write((int)PlayState);
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Logger.PrintStub(LogClass.ServiceAudio, $"Stubbed. Renderer State: {Enum.GetName(typeof(PlayState), PlayState)}");
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return 0;
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}
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private void AudioCallback()
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{
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UpdateEvent.ReadableEvent.Signal();
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}
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private static T[] CreateArray<T>(int Size) where T : new()
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{
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T[] Output = new T[Size];
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for (int Index = 0; Index < Size; Index++)
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{
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Output[Index] = new T();
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}
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return Output;
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}
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private void InitializeAudioOut()
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{
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AppendMixedBuffer(0);
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AppendMixedBuffer(1);
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AppendMixedBuffer(2);
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AudioOut.Start(Track);
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}
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public long RequestUpdateAudioRenderer(ServiceCtx Context)
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{
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long OutputPosition = Context.Request.ReceiveBuff[0].Position;
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long OutputSize = Context.Request.ReceiveBuff[0].Size;
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MemoryHelper.FillWithZeros(Context.Memory, OutputPosition, (int)OutputSize);
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long InputPosition = Context.Request.SendBuff[0].Position;
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StructReader Reader = new StructReader(Context.Memory, InputPosition);
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StructWriter Writer = new StructWriter(Context.Memory, OutputPosition);
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UpdateDataHeader InputHeader = Reader.Read<UpdateDataHeader>();
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Reader.Read<BehaviorIn>(InputHeader.BehaviorSize);
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MemoryPoolIn[] MemoryPoolsIn = Reader.Read<MemoryPoolIn>(InputHeader.MemoryPoolSize);
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for (int Index = 0; Index < MemoryPoolsIn.Length; Index++)
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{
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MemoryPoolIn MemoryPool = MemoryPoolsIn[Index];
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if (MemoryPool.State == MemoryPoolState.RequestAttach)
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{
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MemoryPools[Index].OutStatus.State = MemoryPoolState.Attached;
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}
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else if (MemoryPool.State == MemoryPoolState.RequestDetach)
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{
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MemoryPools[Index].OutStatus.State = MemoryPoolState.Detached;
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}
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}
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Reader.Read<VoiceChannelResourceIn>(InputHeader.VoiceResourceSize);
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VoiceIn[] VoicesIn = Reader.Read<VoiceIn>(InputHeader.VoiceSize);
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for (int Index = 0; Index < VoicesIn.Length; Index++)
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{
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VoiceIn Voice = VoicesIn[Index];
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VoiceContext VoiceCtx = Voices[Index];
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VoiceCtx.SetAcquireState(Voice.Acquired != 0);
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if (Voice.Acquired == 0)
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{
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continue;
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}
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if (Voice.FirstUpdate != 0)
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{
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VoiceCtx.AdpcmCtx = GetAdpcmDecoderContext(
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Voice.AdpcmCoeffsPosition,
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Voice.AdpcmCoeffsSize);
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VoiceCtx.SampleFormat = Voice.SampleFormat;
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VoiceCtx.SampleRate = Voice.SampleRate;
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VoiceCtx.ChannelsCount = Voice.ChannelsCount;
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VoiceCtx.SetBufferIndex(Voice.BaseWaveBufferIndex);
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}
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VoiceCtx.WaveBuffers[0] = Voice.WaveBuffer0;
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VoiceCtx.WaveBuffers[1] = Voice.WaveBuffer1;
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VoiceCtx.WaveBuffers[2] = Voice.WaveBuffer2;
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VoiceCtx.WaveBuffers[3] = Voice.WaveBuffer3;
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VoiceCtx.Volume = Voice.Volume;
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VoiceCtx.PlayState = Voice.PlayState;
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}
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UpdateAudio();
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UpdateDataHeader OutputHeader = new UpdateDataHeader();
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int UpdateHeaderSize = Marshal.SizeOf<UpdateDataHeader>();
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OutputHeader.Revision = IAudioRendererManager.RevMagic;
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OutputHeader.BehaviorSize = 0xb0;
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OutputHeader.MemoryPoolSize = (Params.EffectCount + Params.VoiceCount * 4) * 0x10;
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OutputHeader.VoiceSize = Params.VoiceCount * 0x10;
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OutputHeader.EffectSize = Params.EffectCount * 0x10;
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OutputHeader.SinkSize = Params.SinkCount * 0x20;
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OutputHeader.PerformanceManagerSize = 0x10;
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OutputHeader.TotalSize = UpdateHeaderSize +
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OutputHeader.BehaviorSize +
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OutputHeader.MemoryPoolSize +
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OutputHeader.VoiceSize +
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OutputHeader.EffectSize +
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OutputHeader.SinkSize +
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OutputHeader.PerformanceManagerSize;
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Writer.Write(OutputHeader);
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foreach (MemoryPoolContext MemoryPool in MemoryPools)
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{
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Writer.Write(MemoryPool.OutStatus);
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}
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foreach (VoiceContext Voice in Voices)
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{
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Writer.Write(Voice.OutStatus);
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}
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return 0;
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}
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public long StartAudioRenderer(ServiceCtx Context)
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{
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Logger.PrintStub(LogClass.ServiceAudio, "Stubbed.");
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PlayState = PlayState.Playing;
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return 0;
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}
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public long StopAudioRenderer(ServiceCtx Context)
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{
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Logger.PrintStub(LogClass.ServiceAudio, "Stubbed.");
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PlayState = PlayState.Stopped;
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return 0;
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}
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public long QuerySystemEvent(ServiceCtx Context)
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{
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if (Context.Process.HandleTable.GenerateHandle(UpdateEvent.ReadableEvent, out int Handle) != KernelResult.Success)
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{
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throw new InvalidOperationException("Out of handles!");
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}
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Context.Response.HandleDesc = IpcHandleDesc.MakeCopy(Handle);
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return 0;
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}
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private AdpcmDecoderContext GetAdpcmDecoderContext(long Position, long Size)
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{
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if (Size == 0)
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{
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return null;
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}
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AdpcmDecoderContext Context = new AdpcmDecoderContext();
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Context.Coefficients = new short[Size >> 1];
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for (int Offset = 0; Offset < Size; Offset += 2)
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{
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Context.Coefficients[Offset >> 1] = Memory.ReadInt16(Position + Offset);
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}
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return Context;
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}
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private void UpdateAudio()
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{
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long[] Released = AudioOut.GetReleasedBuffers(Track, 2);
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for (int Index = 0; Index < Released.Length; Index++)
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{
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AppendMixedBuffer(Released[Index]);
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}
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}
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private unsafe void AppendMixedBuffer(long Tag)
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{
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int[] MixBuffer = new int[MixBufferSamplesCount * AudioConsts.HostChannelsCount];
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foreach (VoiceContext Voice in Voices)
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{
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if (!Voice.Playing)
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{
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continue;
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}
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int OutOffset = 0;
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int PendingSamples = MixBufferSamplesCount;
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float Volume = Voice.Volume;
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while (PendingSamples > 0)
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{
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int[] Samples = Voice.GetBufferData(Memory, PendingSamples, out int ReturnedSamples);
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if (ReturnedSamples == 0)
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{
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break;
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}
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PendingSamples -= ReturnedSamples;
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for (int Offset = 0; Offset < Samples.Length; Offset++)
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{
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MixBuffer[OutOffset++] += (int)(Samples[Offset] * Voice.Volume);
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}
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}
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}
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AudioOut.AppendBuffer(Track, Tag, GetFinalBuffer(MixBuffer));
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}
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private unsafe static short[] GetFinalBuffer(int[] Buffer)
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{
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short[] Output = new short[Buffer.Length];
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int Offset = 0;
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// Perform Saturation using SSE2 if supported
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if (Sse2.IsSupported)
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{
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fixed (int* inptr = Buffer)
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fixed (short* outptr = Output)
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{
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for (; Offset + 32 <= Buffer.Length; Offset += 32)
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{
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// Unroll the loop a little to ensure the CPU pipeline
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// is always full.
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Vector128<int> block1A = Sse2.LoadVector128(inptr + Offset + 0);
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Vector128<int> block1B = Sse2.LoadVector128(inptr + Offset + 4);
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Vector128<int> block2A = Sse2.LoadVector128(inptr + Offset + 8);
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Vector128<int> block2B = Sse2.LoadVector128(inptr + Offset + 12);
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Vector128<int> block3A = Sse2.LoadVector128(inptr + Offset + 16);
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Vector128<int> block3B = Sse2.LoadVector128(inptr + Offset + 20);
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Vector128<int> block4A = Sse2.LoadVector128(inptr + Offset + 24);
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Vector128<int> block4B = Sse2.LoadVector128(inptr + Offset + 28);
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Vector128<short> output1 = Sse2.PackSignedSaturate(block1A, block1B);
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Vector128<short> output2 = Sse2.PackSignedSaturate(block2A, block2B);
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Vector128<short> output3 = Sse2.PackSignedSaturate(block3A, block3B);
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Vector128<short> output4 = Sse2.PackSignedSaturate(block4A, block4B);
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Sse2.Store(outptr + Offset + 0, output1);
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Sse2.Store(outptr + Offset + 8, output2);
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Sse2.Store(outptr + Offset + 16, output3);
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Sse2.Store(outptr + Offset + 24, output4);
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}
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}
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}
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// Process left overs
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for (; Offset < Buffer.Length; Offset++)
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{
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Output[Offset] = DspUtils.Saturate(Buffer[Offset]);
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}
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return Output;
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}
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public void Dispose()
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{
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Dispose(true);
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}
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protected virtual void Dispose(bool Disposing)
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{
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if (Disposing)
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{
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AudioOut.CloseTrack(Track);
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}
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}
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}
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}
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