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Ryujinx/Ryujinx.Audio.Renderer/Server/Performance/PerformanceManagerGeneric.cs

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//
// Copyright (c) 2019-2020 Ryujinx
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Lesser General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public License
// along with this program. If not, see <https://www.gnu.org/licenses/>.
//
using Ryujinx.Audio.Renderer.Common;
using Ryujinx.Audio.Renderer.Parameter;
using Ryujinx.Audio.Renderer.Utils;
using System;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
namespace Ryujinx.Audio.Renderer.Server.Performance
{
/// <summary>
/// A Generic implementation of <see cref="PerformanceManager"/>.
/// </summary>
/// <typeparam name="THeader">The header implementation of the performance frame.</typeparam>
/// <typeparam name="TEntry">The entry implementation of the performance frame.</typeparam>
/// <typeparam name="TEntryDetail">A detailed implementation of the performance frame.</typeparam>
public class PerformanceManagerGeneric<THeader, TEntry, TEntryDetail> : PerformanceManager where THeader: unmanaged, IPerformanceHeader where TEntry : unmanaged, IPerformanceEntry where TEntryDetail: unmanaged, IPerformanceDetailEntry
{
/// <summary>
/// The magic used for the <see cref="THeader"/>.
/// </summary>
private const uint MagicPerformanceBuffer = 0x46524550;
/// <summary>
/// The fixed amount of <see cref="TEntryDetail"/> that can be stored in a frame.
/// </summary>
private const int MaxFrameDetailCount = 100;
private Memory<byte> _buffer;
private Memory<byte> _historyBuffer;
private Memory<byte> CurrentBuffer => _buffer.Slice(0, _frameSize);
private Memory<byte> CurrentBufferData => CurrentBuffer.Slice(Unsafe.SizeOf<THeader>());
private ref THeader CurrentHeader => ref MemoryMarshal.Cast<byte, THeader>(CurrentBuffer.Span)[0];
private Span<TEntry> Entries => MemoryMarshal.Cast<byte, TEntry>(CurrentBufferData.Span.Slice(0, GetEntriesSize()));
private Span<TEntryDetail> EntriesDetail => MemoryMarshal.Cast<byte, TEntryDetail>(CurrentBufferData.Span.Slice(GetEntriesSize(), GetEntriesDetailSize()));
private int _frameSize;
private int _availableFrameCount;
private int _entryCountPerFrame;
private int _detailTarget;
private int _entryIndex;
private int _entryDetailIndex;
private int _indexHistoryWrite;
private int _indexHistoryRead;
private uint _historyFrameIndex;
public PerformanceManagerGeneric(Memory<byte> buffer, ref AudioRendererConfiguration parameter)
{
_buffer = buffer;
_frameSize = GetRequiredBufferSizeForPerformanceMetricsPerFrame(ref parameter);
_entryCountPerFrame = (int)GetEntryCount(ref parameter);
_availableFrameCount = buffer.Length / _frameSize - 1;
_historyFrameIndex = 0;
_historyBuffer = _buffer.Slice(_frameSize);
SetupNewHeader();
}
private Span<byte> GetBufferFromIndex(Span<byte> data, int index)
{
return data.Slice(index * _frameSize, _frameSize);
}
private ref THeader GetHeaderFromBuffer(Span<byte> data, int index)
{
return ref MemoryMarshal.Cast<byte, THeader>(GetBufferFromIndex(data, index))[0];
}
private Span<TEntry> GetEntriesFromBuffer(Span<byte> data, int index)
{
return MemoryMarshal.Cast<byte, TEntry>(GetBufferFromIndex(data, index).Slice(Unsafe.SizeOf<THeader>(), GetEntriesSize()));
}
private Span<TEntryDetail> GetEntriesDetailFromBuffer(Span<byte> data, int index)
{
return MemoryMarshal.Cast<byte, TEntryDetail>(GetBufferFromIndex(data, index).Slice(Unsafe.SizeOf<THeader>() + GetEntriesSize(), GetEntriesDetailSize()));
}
private void SetupNewHeader()
{
_entryIndex = 0;
_entryDetailIndex = 0;
CurrentHeader.SetEntryCount(0);
CurrentHeader.SetEntryDetailCount(0);
}
public static uint GetEntryCount(ref AudioRendererConfiguration parameter)
{
return parameter.VoiceCount + parameter.EffectCount + parameter.SubMixBufferCount + parameter.SinkCount + 1;
}
public int GetEntriesSize()
{
return Unsafe.SizeOf<TEntry>() * _entryCountPerFrame;
}
public static int GetEntriesDetailSize()
{
return Unsafe.SizeOf<TEntryDetail>() * MaxFrameDetailCount;
}
public static int GetRequiredBufferSizeForPerformanceMetricsPerFrame(ref AudioRendererConfiguration parameter)
{
return Unsafe.SizeOf<TEntry>() * (int)GetEntryCount(ref parameter) + GetEntriesDetailSize() + Unsafe.SizeOf<THeader>();
}
public override uint CopyHistories(Span<byte> performanceOutput)
{
if (performanceOutput.IsEmpty)
{
return 0;
}
int nextOffset = 0;
while (_indexHistoryRead != _indexHistoryWrite)
{
if (nextOffset >= performanceOutput.Length)
{
break;
}
ref THeader inputHeader = ref GetHeaderFromBuffer(_historyBuffer.Span, _indexHistoryRead);
Span<TEntry> inputEntries = GetEntriesFromBuffer(_historyBuffer.Span, _indexHistoryRead);
Span<TEntryDetail> inputEntriesDetail = GetEntriesDetailFromBuffer(_historyBuffer.Span, _indexHistoryRead);
Span<byte> targetSpan = performanceOutput.Slice(nextOffset);
ref THeader outputHeader = ref MemoryMarshal.Cast<byte, THeader>(targetSpan)[0];
nextOffset += Unsafe.SizeOf<THeader>();
Span<TEntry> outputEntries = MemoryMarshal.Cast<byte, TEntry>(targetSpan.Slice(nextOffset));
int totalProcessingTime = 0;
int effectiveEntryCount = 0;
for (int entryIndex = 0; entryIndex < inputHeader.GetEntryCount(); entryIndex++)
{
ref TEntry input = ref inputEntries[entryIndex];
if (input.GetProcessingTime() != 0 || input.GetStartTime() != 0)
{
ref TEntry output = ref outputEntries[effectiveEntryCount++];
output = input;
nextOffset += Unsafe.SizeOf<TEntry>();
totalProcessingTime += input.GetProcessingTime();
}
}
Span<TEntryDetail> outputEntriesDetail = MemoryMarshal.Cast<byte, TEntryDetail>(targetSpan.Slice(nextOffset));
int effectiveEntryDetailCount = 0;
for (int entryDetailIndex = 0; entryDetailIndex < inputHeader.GetEntryDetailCount(); entryDetailIndex++)
{
ref TEntryDetail input = ref inputEntriesDetail[entryDetailIndex];
if (input.GetProcessingTime() != 0 || input.GetStartTime() != 0)
{
ref TEntryDetail output = ref outputEntriesDetail[effectiveEntryDetailCount++];
output = input;
nextOffset += Unsafe.SizeOf<TEntryDetail>();
}
}
outputHeader = inputHeader;
outputHeader.SetMagic(MagicPerformanceBuffer);
outputHeader.SetTotalProcessingTime(totalProcessingTime);
outputHeader.SetNextOffset(nextOffset);
outputHeader.SetEntryCount(effectiveEntryCount);
outputHeader.SetEntryDetailCount(effectiveEntryDetailCount);
_indexHistoryRead = (_indexHistoryRead + 1) % _availableFrameCount;
}
if (nextOffset < performanceOutput.Length && (performanceOutput.Length - nextOffset) >= Unsafe.SizeOf<THeader>())
{
ref THeader outputHeader = ref MemoryMarshal.Cast<byte, THeader>(performanceOutput.Slice(nextOffset))[0];
outputHeader = default;
}
return (uint)nextOffset;
}
public override bool GetNextEntry(out PerformanceEntryAddresses performanceEntry, PerformanceEntryType entryType, int nodeId)
{
performanceEntry = new PerformanceEntryAddresses();
performanceEntry.BaseMemory = SpanMemoryManager<int>.Cast(CurrentBuffer);
performanceEntry.EntryCountOffset = (uint)CurrentHeader.GetEntryCountOffset();
uint baseEntryOffset = (uint)(Unsafe.SizeOf<THeader>() + Unsafe.SizeOf<TEntry>() * _entryIndex);
ref TEntry entry = ref Entries[_entryIndex];
performanceEntry.StartTimeOffset = baseEntryOffset + (uint)entry.GetStartTimeOffset();
performanceEntry.ProcessingTimeOffset = baseEntryOffset + (uint)entry.GetProcessingTimeOffset();
entry = default;
entry.SetEntryType(entryType);
entry.SetNodeId(nodeId);
_entryIndex++;
return true;
}
public override bool GetNextEntry(out PerformanceEntryAddresses performanceEntry, PerformanceDetailType detailType, PerformanceEntryType entryType, int nodeId)
{
performanceEntry = null;
if (_entryDetailIndex > MaxFrameDetailCount)
{
return false;
}
performanceEntry = new PerformanceEntryAddresses();
performanceEntry.BaseMemory = SpanMemoryManager<int>.Cast(CurrentBuffer);
performanceEntry.EntryCountOffset = (uint)CurrentHeader.GetEntryCountOffset();
uint baseEntryOffset = (uint)(Unsafe.SizeOf<THeader>() + GetEntriesSize() + Unsafe.SizeOf<IPerformanceDetailEntry>() * _entryDetailIndex);
ref TEntryDetail entryDetail = ref EntriesDetail[_entryDetailIndex];
performanceEntry.StartTimeOffset = baseEntryOffset + (uint)entryDetail.GetStartTimeOffset();
performanceEntry.ProcessingTimeOffset = baseEntryOffset + (uint)entryDetail.GetProcessingTimeOffset();
entryDetail = default;
entryDetail.SetDetailType(detailType);
entryDetail.SetEntryType(entryType);
entryDetail.SetNodeId(nodeId);
_entryDetailIndex++;
return true;
}
public override bool IsTargetNodeId(int target)
{
return _detailTarget == target;
}
public override void SetTargetNodeId(int target)
{
_detailTarget = target;
}
public override void TapFrame(bool dspRunningBehind, uint voiceDropCount, ulong startRenderingTicks)
{
if (_availableFrameCount > 0)
{
int targetIndexForHistory = _indexHistoryWrite;
_indexHistoryWrite = (_indexHistoryWrite + 1) % _availableFrameCount;
ref THeader targetHeader = ref GetHeaderFromBuffer(_historyBuffer.Span, targetIndexForHistory);
CurrentBuffer.Span.CopyTo(GetBufferFromIndex(_historyBuffer.Span, targetIndexForHistory));
uint targetHistoryFrameIndex = _historyFrameIndex;
if (_historyFrameIndex == uint.MaxValue)
{
_historyFrameIndex = 0;
}
else
{
_historyFrameIndex++;
}
targetHeader.SetDspRunningBehind(dspRunningBehind);
targetHeader.SetVoiceDropCount(voiceDropCount);
targetHeader.SetStartRenderingTicks(startRenderingTicks);
targetHeader.SetIndex(targetHistoryFrameIndex);
// Finally setup the new header
SetupNewHeader();
}
}
}
}