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https://github.com/Ryujinx/Ryujinx.git
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c52158b733
* Add timestamp to 16-byte semaphore releases. BOTW was reading a ulong 8 bytes after a semaphore return. Turns out this is the timestamp it was trying to do performance calculation with, so I've made it write when necessary. This mode was also added to the DMA semaphore I added recently, as it is required by a few games. (i think quake?) The timestamp code has been moved to GPU context. Check other games with an unusually low framerate cap or dynamic resolution to see if they have improved. * Cast dma semaphore payload to ulong to fill the space * Write timestamp first Might be just worrying too much, but we don't want the applcation reading timestamp if it sees the payload before timestamp is written.
233 lines
8.9 KiB
C#
233 lines
8.9 KiB
C#
using Ryujinx.Graphics.Device;
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using Ryujinx.Graphics.Gpu.Engine.MME;
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using System;
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using System.Collections.Generic;
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using System.Threading;
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namespace Ryujinx.Graphics.Gpu.Engine.GPFifo
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{
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/// <summary>
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/// Represents a GPU General Purpose FIFO class.
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/// </summary>
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class GPFifoClass : IDeviceState
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{
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private readonly GpuContext _context;
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private readonly GPFifoProcessor _parent;
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private readonly DeviceState<GPFifoClassState> _state;
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private const int MacrosCount = 0x80;
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// Note: The size of the macro memory is unknown, we just make
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// a guess here and use 256kb as the size. Increase if needed.
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private const int MacroCodeSize = 256 * 256;
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private readonly Macro[] _macros;
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private readonly int[] _macroCode;
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/// <summary>
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/// Creates a new instance of the GPU General Purpose FIFO class.
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/// </summary>
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/// <param name="context">GPU context</param>
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/// <param name="parent">Parent GPU General Purpose FIFO processor</param>
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public GPFifoClass(GpuContext context, GPFifoProcessor parent)
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{
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_context = context;
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_parent = parent;
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_state = new DeviceState<GPFifoClassState>(new Dictionary<string, RwCallback>
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{
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{ nameof(GPFifoClassState.Semaphored), new RwCallback(Semaphored, null) },
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{ nameof(GPFifoClassState.Syncpointb), new RwCallback(Syncpointb, null) },
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{ nameof(GPFifoClassState.WaitForIdle), new RwCallback(WaitForIdle, null) },
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{ nameof(GPFifoClassState.SetReference), new RwCallback(SetReference, null) },
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{ nameof(GPFifoClassState.LoadMmeInstructionRam), new RwCallback(LoadMmeInstructionRam, null) },
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{ nameof(GPFifoClassState.LoadMmeStartAddressRam), new RwCallback(LoadMmeStartAddressRam, null) },
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{ nameof(GPFifoClassState.SetMmeShadowRamControl), new RwCallback(SetMmeShadowRamControl, null) }
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});
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_macros = new Macro[MacrosCount];
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_macroCode = new int[MacroCodeSize];
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}
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/// <summary>
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/// Reads data from the class registers.
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/// </summary>
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/// <param name="offset">Register byte offset</param>
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/// <returns>Data at the specified offset</returns>
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public int Read(int offset) => _state.Read(offset);
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/// <summary>
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/// Writes data to the class registers.
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/// </summary>
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/// <param name="offset">Register byte offset</param>
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/// <param name="data">Data to be written</param>
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public void Write(int offset, int data) => _state.Write(offset, data);
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/// <summary>
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/// Writes a GPU counter to guest memory.
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/// </summary>
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/// <param name="argument">Method call argument</param>
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public void Semaphored(int argument)
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{
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ulong address = ((ulong)_state.State.SemaphorebOffsetLower << 2) |
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((ulong)_state.State.SemaphoreaOffsetUpper << 32);
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int value = _state.State.SemaphorecPayload;
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SemaphoredOperation operation = _state.State.SemaphoredOperation;
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if (_state.State.SemaphoredReleaseSize == SemaphoredReleaseSize.SixteenBytes)
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{
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_parent.MemoryManager.Write(address + 4, 0);
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_parent.MemoryManager.Write(address + 8, _context.GetTimestamp());
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}
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// TODO: Acquire operations (Wait), interrupts for invalid combinations.
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if (operation == SemaphoredOperation.Release)
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{
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_parent.MemoryManager.Write(address, value);
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}
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else if (operation == SemaphoredOperation.Reduction)
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{
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bool signed = _state.State.SemaphoredFormat == SemaphoredFormat.Signed;
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int mem = _parent.MemoryManager.Read<int>(address);
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switch (_state.State.SemaphoredReduction)
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{
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case SemaphoredReduction.Min:
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value = signed ? Math.Min(mem, value) : (int)Math.Min((uint)mem, (uint)value);
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break;
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case SemaphoredReduction.Max:
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value = signed ? Math.Max(mem, value) : (int)Math.Max((uint)mem, (uint)value);
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break;
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case SemaphoredReduction.Xor:
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value ^= mem;
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break;
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case SemaphoredReduction.And:
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value &= mem;
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break;
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case SemaphoredReduction.Or:
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value |= mem;
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break;
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case SemaphoredReduction.Add:
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value += mem;
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break;
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case SemaphoredReduction.Inc:
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value = (uint)mem < (uint)value ? mem + 1 : 0;
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break;
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case SemaphoredReduction.Dec:
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value = (uint)mem > 0 && (uint)mem <= (uint)value ? mem - 1 : value;
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break;
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}
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_parent.MemoryManager.Write(address, value);
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}
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}
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/// <summary>
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/// Apply a fence operation on a syncpoint.
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/// </summary>
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/// <param name="argument">Method call argument</param>
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public void Syncpointb(int argument)
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{
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SyncpointbOperation operation = _state.State.SyncpointbOperation;
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uint syncpointId = (uint)_state.State.SyncpointbSyncptIndex;
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if (operation == SyncpointbOperation.Wait)
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{
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uint threshold = (uint)_state.State.SyncpointaPayload;
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_context.Synchronization.WaitOnSyncpoint(syncpointId, threshold, Timeout.InfiniteTimeSpan);
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}
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else if (operation == SyncpointbOperation.Incr)
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{
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_context.CreateHostSyncIfNeeded(true);
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_context.Synchronization.IncrementSyncpoint(syncpointId);
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}
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_context.AdvanceSequence();
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}
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/// <summary>
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/// Waits for the GPU to be idle.
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/// </summary>
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/// <param name="argument">Method call argument</param>
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public void WaitForIdle(int argument)
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{
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_parent.PerformDeferredDraws();
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_context.Renderer.Pipeline.Barrier();
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_context.CreateHostSyncIfNeeded(false);
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}
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/// <summary>
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/// Used as an indirect data barrier on NVN. When used, access to previously written data must be coherent.
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/// </summary>
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/// <param name="argument">Method call argument</param>
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public void SetReference(int argument)
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{
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_context.Renderer.Pipeline.CommandBufferBarrier();
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_context.CreateHostSyncIfNeeded(false);
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}
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/// <summary>
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/// Sends macro code/data to the MME.
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/// </summary>
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/// <param name="argument">Method call argument</param>
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public void LoadMmeInstructionRam(int argument)
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{
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_macroCode[_state.State.LoadMmeInstructionRamPointer++] = argument;
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}
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/// <summary>
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/// Binds a macro index to a position for the MME
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/// </summary>
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/// <param name="argument">Method call argument</param>
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public void LoadMmeStartAddressRam(int argument)
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{
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_macros[_state.State.LoadMmeStartAddressRamPointer++] = new Macro(argument);
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}
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/// <summary>
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/// Changes the shadow RAM control.
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/// </summary>
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/// <param name="argument">Method call argument</param>
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public void SetMmeShadowRamControl(int argument)
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{
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_parent.SetShadowRamControl(argument);
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}
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/// <summary>
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/// Pushes an argument to a macro.
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/// </summary>
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/// <param name="index">Index of the macro</param>
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/// <param name="gpuVa">GPU virtual address where the command word is located</param>
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/// <param name="argument">Argument to be pushed to the macro</param>
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public void MmePushArgument(int index, ulong gpuVa, int argument)
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{
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_macros[index].PushArgument(gpuVa, argument);
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}
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/// <summary>
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/// Prepares a macro for execution.
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/// </summary>
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/// <param name="index">Index of the macro</param>
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/// <param name="argument">Initial argument passed to the macro</param>
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public void MmeStart(int index, int argument)
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{
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_macros[index].StartExecution(_context, _parent, _macroCode, argument);
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}
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/// <summary>
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/// Executes a macro.
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/// </summary>
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/// <param name="index">Index of the macro</param>
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/// <param name="state">Current GPU state</param>
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public void CallMme(int index, IDeviceState state)
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{
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_macros[index].Execute(_macroCode, state);
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}
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}
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}
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