mirror of
https://github.com/GreemDev/Ryujinx
synced 2024-12-04 23:42:10 +01:00
f77694e4f7
* Implement a new physical memory manager and replace DeviceMemory * Proper generic constraints * Fix debug build * Add memory tests * New CPU memory manager and general code cleanup * Remove host memory management from CPU project, use Ryujinx.Memory instead * Fix tests * Document exceptions on MemoryBlock * Fix leak on unix memory allocation * Proper disposal of some objects on tests * Fix JitCache not being set as initialized * GetRef without checks for 8-bits and 16-bits CAS * Add MemoryBlock destructor * Throw in separate method to improve codegen * Address PR feedback * QueryModified improvements * Fix memory write tracking not marking all pages as modified in some cases * Simplify MarkRegionAsModified * Remove XML doc for ghost param * Add back optimization to avoid useless buffer updates * Add Ryujinx.Cpu project, move MemoryManager there and remove MemoryBlockWrapper * Some nits * Do not perform address translation when size is 0 * Address PR feedback and format NativeInterface class * Remove ghost parameter description * Update Ryujinx.Cpu to .NET Core 3.1 * Address PR feedback * Fix build * Return a well defined value for GetPhysicalAddress with invalid VA, and do not return unmapped ranges as modified * Typo
452 lines
No EOL
15 KiB
C#
452 lines
No EOL
15 KiB
C#
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.Cpu;
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using Ryujinx.HLE.HOS.Ipc;
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using Ryujinx.HLE.HOS.Kernel.Common;
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using Ryujinx.HLE.HOS.Kernel.Threading;
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using Ryujinx.HLE.Utilities;
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using System;
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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.Audio.AudioRendererManager
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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 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 EffectContext[] _effects;
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private int _track;
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private PlayState _playState;
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private ulong _elapsedFrameCount;
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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 rendererParams)
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{
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_updateEvent = new KEvent(system);
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_memory = memory;
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_audioOut = audioOut;
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_params = rendererParams;
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_track = audioOut.OpenTrack(
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AudioRendererConsts.HostSampleRate,
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AudioRendererConsts.HostChannelsCount,
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AudioCallback);
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_memoryPools = CreateArray<MemoryPoolContext>(rendererParams.EffectCount + rendererParams.VoiceCount * 4);
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_voices = CreateArray<VoiceContext>(rendererParams.VoiceCount);
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_effects = CreateArray<EffectContext>(rendererParams.EffectCount);
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_elapsedFrameCount = 0;
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InitializeAudioOut();
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_playState = PlayState.Stopped;
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}
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[Command(0)]
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// GetSampleRate() -> u32
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public ResultCode GetSampleRate(ServiceCtx context)
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{
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context.ResponseData.Write(_params.SampleRate);
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return ResultCode.Success;
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}
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[Command(1)]
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// GetSampleCount() -> u32
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public ResultCode GetSampleCount(ServiceCtx context)
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{
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context.ResponseData.Write(_params.SampleCount);
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return ResultCode.Success;
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}
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[Command(2)]
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// GetMixBufferCount() -> u32
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public ResultCode GetMixBufferCount(ServiceCtx context)
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{
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context.ResponseData.Write(_params.SubMixCount);
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return ResultCode.Success;
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}
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[Command(3)]
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// GetState() -> u32
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public ResultCode GetState(ServiceCtx context)
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{
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context.ResponseData.Write((int)_playState);
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Logger.PrintStub(LogClass.ServiceAudio, new { State = Enum.GetName(typeof(PlayState), _playState) });
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return ResultCode.Success;
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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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[Command(4)]
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// RequestUpdateAudioRenderer(buffer<nn::audio::detail::AudioRendererUpdateDataHeader, 5>)
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// -> (buffer<nn::audio::detail::AudioRendererUpdateDataHeader, 6>, buffer<nn::audio::detail::AudioRendererUpdateDataHeader, 6>)
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public ResultCode 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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BehaviorInfo behaviorInfo = new BehaviorInfo();
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behaviorInfo.SetUserLibRevision(inputHeader.Revision);
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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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EffectIn[] effectsIn = reader.Read<EffectIn>(inputHeader.EffectSize);
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for (int index = 0; index < effectsIn.Length; index++)
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{
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if (effectsIn[index].IsNew != 0)
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{
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_effects[index].OutStatus.State = EffectState.New;
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}
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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 = AudioRendererConsts.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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if (behaviorInfo.IsElapsedFrameCountSupported())
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{
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outputHeader.ElapsedFrameCountInfoSize = 0x10;
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}
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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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outputHeader.ElapsedFrameCountInfoSize;
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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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foreach (EffectContext effect in _effects)
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{
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writer.Write(effect.OutStatus);
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}
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writer.SkipBytes(_params.SinkCount * 0x20);
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writer.SkipBytes(outputHeader.PerformanceManagerSize);
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writer.SkipBytes(outputHeader.BehaviorSize);
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if (behaviorInfo.IsElapsedFrameCountSupported())
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{
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writer.Write(new RendererInfoOut
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{
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ElapsedFrameCount = _elapsedFrameCount
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});
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}
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return ResultCode.Success;
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}
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[Command(5)]
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// Start()
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public ResultCode StartAudioRenderer(ServiceCtx context)
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{
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Logger.PrintStub(LogClass.ServiceAudio);
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_playState = PlayState.Playing;
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return ResultCode.Success;
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}
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[Command(6)]
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// Stop()
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public ResultCode StopAudioRenderer(ServiceCtx context)
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{
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Logger.PrintStub(LogClass.ServiceAudio);
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_playState = PlayState.Stopped;
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return ResultCode.Success;
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}
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[Command(7)]
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// QuerySystemEvent() -> handle<copy, event>
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public ResultCode 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 ResultCode.Success;
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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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{
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Coefficients = new short[size >> 1]
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};
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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.Read<short>((ulong)(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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_elapsedFrameCount++;
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}
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private void AppendMixedBuffer(long tag)
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{
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int[] mixBuffer = new int[MixBufferSamplesCount * AudioRendererConsts.HostChannelsCount];
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foreach (VoiceContext voice in _voices)
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{
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if (!voice.Playing || voice.CurrentWaveBuffer.Size == 0)
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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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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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} |