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https://github.com/ryujinx-mirror/ryujinx.git
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dff138229c
* amadeus: Allow OOB read of GC-ADPCM coefficients Fixes "Ninja Gaiden Sigma 2" and possibly "NINJA GAIDEN 3: Razor's Edge" * amadeus: Fix wrong variable usage in delay effect We should transform the delay line values, not the input. * amadeus: Update GroupedBiquadFilterCommand documentation * amadeus: Simplify PoolMapper alignment checks * amadeus: Update Surround delay effect matrix to REV11 * amadeus: Add drop parameter support and use 32 bits integers for estimate time Also implement accurate ExecuteAudioRendererRendering stub. * Address gdkchan's comments * Address gdkchan's other comments * Address gdkchan's comment
164 lines
6.7 KiB
C#
164 lines
6.7 KiB
C#
using Ryujinx.Audio.Renderer.Dsp.State;
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using Ryujinx.Audio.Renderer.Parameter;
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using Ryujinx.Audio.Renderer.Parameter.Effect;
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using System;
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using System.Diagnostics;
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using System.Runtime.InteropServices;
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namespace Ryujinx.Audio.Renderer.Dsp.Command
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{
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public class LimiterCommandVersion2 : ICommand
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{
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public bool Enabled { get; set; }
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public int NodeId { get; }
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public CommandType CommandType => CommandType.LimiterVersion2;
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public uint EstimatedProcessingTime { get; set; }
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public LimiterParameter Parameter => _parameter;
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public Memory<LimiterState> State { get; }
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public Memory<EffectResultState> ResultState { get; }
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public ulong WorkBuffer { get; }
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public ushort[] OutputBufferIndices { get; }
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public ushort[] InputBufferIndices { get; }
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public bool IsEffectEnabled { get; }
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private LimiterParameter _parameter;
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public LimiterCommandVersion2(uint bufferOffset, LimiterParameter parameter, Memory<LimiterState> state, Memory<EffectResultState> resultState, bool isEnabled, ulong workBuffer, int nodeId)
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{
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Enabled = true;
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NodeId = nodeId;
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_parameter = parameter;
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State = state;
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ResultState = resultState;
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WorkBuffer = workBuffer;
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IsEffectEnabled = isEnabled;
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InputBufferIndices = new ushort[Constants.VoiceChannelCountMax];
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OutputBufferIndices = new ushort[Constants.VoiceChannelCountMax];
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for (int i = 0; i < Parameter.ChannelCount; i++)
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{
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InputBufferIndices[i] = (ushort)(bufferOffset + Parameter.Input[i]);
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OutputBufferIndices[i] = (ushort)(bufferOffset + Parameter.Output[i]);
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}
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}
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public void Process(CommandList context)
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{
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ref LimiterState state = ref State.Span[0];
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if (IsEffectEnabled)
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{
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if (Parameter.Status == Server.Effect.UsageState.Invalid)
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{
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state = new LimiterState(ref _parameter, WorkBuffer);
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}
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else if (Parameter.Status == Server.Effect.UsageState.New)
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{
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state.UpdateParameter(ref _parameter);
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}
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}
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ProcessLimiter(context, ref state);
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}
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private unsafe void ProcessLimiter(CommandList context, ref LimiterState state)
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{
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Debug.Assert(Parameter.IsChannelCountValid());
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if (IsEffectEnabled && Parameter.IsChannelCountValid())
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{
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if (!ResultState.IsEmpty && Parameter.StatisticsReset)
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{
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ref LimiterStatistics statistics = ref MemoryMarshal.Cast<byte, LimiterStatistics>(ResultState.Span[0].SpecificData)[0];
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statistics.Reset();
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}
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Span<IntPtr> inputBuffers = stackalloc IntPtr[Parameter.ChannelCount];
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Span<IntPtr> outputBuffers = stackalloc IntPtr[Parameter.ChannelCount];
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for (int i = 0; i < Parameter.ChannelCount; i++)
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{
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inputBuffers[i] = context.GetBufferPointer(InputBufferIndices[i]);
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outputBuffers[i] = context.GetBufferPointer(OutputBufferIndices[i]);
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}
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for (int channelIndex = 0; channelIndex < Parameter.ChannelCount; channelIndex++)
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{
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for (int sampleIndex = 0; sampleIndex < context.SampleCount; sampleIndex++)
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{
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float rawInputSample = *((float*)inputBuffers[channelIndex] + sampleIndex);
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float inputSample = (rawInputSample / short.MaxValue) * Parameter.InputGain;
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float sampleInputMax = Math.Abs(inputSample);
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float inputCoefficient = Parameter.ReleaseCoefficient;
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if (sampleInputMax > state.DectectorAverage[channelIndex])
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{
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inputCoefficient = Parameter.AttackCoefficient;
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}
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state.DectectorAverage[channelIndex] += inputCoefficient * (sampleInputMax - state.DectectorAverage[channelIndex]);
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float attenuation = 1.0f;
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if (state.DectectorAverage[channelIndex] > Parameter.Threshold)
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{
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attenuation = Parameter.Threshold / state.DectectorAverage[channelIndex];
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}
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float outputCoefficient = Parameter.ReleaseCoefficient;
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if (state.CompressionGain[channelIndex] > attenuation)
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{
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outputCoefficient = Parameter.AttackCoefficient;
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}
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state.CompressionGain[channelIndex] += outputCoefficient * (attenuation - state.CompressionGain[channelIndex]);
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ref float delayedSample = ref state.DelayedSampleBuffer[channelIndex * Parameter.DelayBufferSampleCountMax + state.DelayedSampleBufferPosition[channelIndex]];
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float outputSample = delayedSample * state.CompressionGain[channelIndex] * Parameter.OutputGain;
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*((float*)outputBuffers[channelIndex] + sampleIndex) = outputSample * short.MaxValue;
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delayedSample = inputSample;
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state.DelayedSampleBufferPosition[channelIndex]++;
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while (state.DelayedSampleBufferPosition[channelIndex] >= Parameter.DelayBufferSampleCountMin)
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{
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state.DelayedSampleBufferPosition[channelIndex] -= Parameter.DelayBufferSampleCountMin;
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}
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if (!ResultState.IsEmpty)
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{
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ref LimiterStatistics statistics = ref MemoryMarshal.Cast<byte, LimiterStatistics>(ResultState.Span[0].SpecificData)[0];
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statistics.InputMax[channelIndex] = Math.Max(statistics.InputMax[channelIndex], sampleInputMax);
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statistics.CompressionGainMin[channelIndex] = Math.Min(statistics.CompressionGainMin[channelIndex], state.CompressionGain[channelIndex]);
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}
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}
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}
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}
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else
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{
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for (int i = 0; i < Parameter.ChannelCount; i++)
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{
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if (InputBufferIndices[i] != OutputBufferIndices[i])
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{
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context.CopyBuffer(OutputBufferIndices[i], InputBufferIndices[i]);
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}
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}
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}
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}
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}
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} |