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jinx/Ryujinx.Graphics.Gpu/Image/TextureBindingsManager.cs

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using Ryujinx.Common.Logging;
using Ryujinx.Graphics.GAL;
using Ryujinx.Graphics.Gpu.Engine.Types;
using Ryujinx.Graphics.Gpu.Memory;
using Ryujinx.Graphics.Gpu.Shader;
using Ryujinx.Graphics.Shader;
using System;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
namespace Ryujinx.Graphics.Gpu.Image
{
/// <summary>
/// Texture bindings manager.
/// </summary>
class TextureBindingsManager : IDisposable
{
private const int InitialTextureStateSize = 32;
private const int InitialImageStateSize = 8;
private readonly GpuContext _context;
private readonly bool _isCompute;
private SamplerPool _samplerPool;
private SamplerIndex _samplerIndex;
private ulong _texturePoolAddress;
private int _texturePoolMaximumId;
private readonly GpuChannel _channel;
private readonly TexturePoolCache _texturePoolCache;
private readonly TextureBindingInfo[][] _textureBindings;
private readonly TextureBindingInfo[][] _imageBindings;
private struct TextureState
{
public ITexture Texture;
public ISampler Sampler;
public int TextureHandle;
public int SamplerHandle;
public int InvalidatedSequence;
public Texture CachedTexture;
public Sampler CachedSampler;
public int ScaleIndex;
public TextureUsageFlags UsageFlags;
}
private TextureState[] _textureState;
private TextureState[] _imageState;
private int[] _textureBindingsCount;
private int[] _imageBindingsCount;
private int _texturePoolSequence;
private int _samplerPoolSequence;
private int _textureBufferIndex;
private readonly float[] _scales;
private bool _scaleChanged;
private int _lastFragmentTotal;
/// <summary>
/// Constructs a new instance of the texture bindings manager.
/// </summary>
/// <param name="context">The GPU context that the texture bindings manager belongs to</param>
/// <param name="channel">The GPU channel that the texture bindings manager belongs to</param>
/// <param name="poolCache">Texture pools cache used to get texture pools from</param>
/// <param name="scales">Array where the scales for the currently bound textures are stored</param>
/// <param name="isCompute">True if the bindings manager is used for the compute engine</param>
public TextureBindingsManager(GpuContext context, GpuChannel channel, TexturePoolCache poolCache, float[] scales, bool isCompute)
{
_context = context;
_channel = channel;
_texturePoolCache = poolCache;
_scales = scales;
_isCompute = isCompute;
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int stages = isCompute ? 1 : Constants.ShaderStages;
_textureBindings = new TextureBindingInfo[stages][];
_imageBindings = new TextureBindingInfo[stages][];
_textureState = new TextureState[InitialTextureStateSize];
_imageState = new TextureState[InitialImageStateSize];
_textureBindingsCount = new int[stages];
_imageBindingsCount = new int[stages];
for (int stage = 0; stage < stages; stage++)
{
_textureBindings[stage] = new TextureBindingInfo[InitialTextureStateSize];
_imageBindings[stage] = new TextureBindingInfo[InitialImageStateSize];
}
}
/// <summary>
/// Rents the texture bindings array for a given stage, so that they can be modified.
/// </summary>
/// <param name="stage">Shader stage number, or 0 for compute shaders</param>
/// <param name="count">The number of bindings needed</param>
/// <returns>The texture bindings array</returns>
public TextureBindingInfo[] RentTextureBindings(int stage, int count)
{
if (count > _textureBindings[stage].Length)
{
Array.Resize(ref _textureBindings[stage], count);
}
_textureBindingsCount[stage] = count;
return _textureBindings[stage];
}
/// <summary>
/// Rents the image bindings array for a given stage, so that they can be modified.
/// </summary>
/// <param name="stage">Shader stage number, or 0 for compute shaders</param>
/// <param name="count">The number of bindings needed</param>
/// <returns>The image bindings array</returns>
public TextureBindingInfo[] RentImageBindings(int stage, int count)
{
if (count > _imageBindings[stage].Length)
{
Array.Resize(ref _imageBindings[stage], count);
}
_imageBindingsCount[stage] = count;
return _imageBindings[stage];
}
/// <summary>
/// Sets the max binding indexes for textures and images.
/// </summary>
/// <param name="maxTextureBinding">The maximum texture binding</param>
/// <param name="maxImageBinding">The maximum image binding</param>
public void SetMaxBindings(int maxTextureBinding, int maxImageBinding)
{
if (maxTextureBinding >= _textureState.Length)
{
Array.Resize(ref _textureState, maxTextureBinding + 1);
}
if (maxImageBinding >= _imageState.Length)
{
Array.Resize(ref _imageState, maxImageBinding + 1);
}
}
/// <summary>
/// Sets the textures constant buffer index.
/// The constant buffer specified holds the texture handles.
/// </summary>
/// <param name="index">Constant buffer index</param>
public void SetTextureBufferIndex(int index)
{
_textureBufferIndex = index;
}
/// <summary>
/// Sets the current texture sampler pool to be used.
/// </summary>
/// <param name="gpuVa">Start GPU virtual address of the pool</param>
/// <param name="maximumId">Maximum ID of the pool (total count minus one)</param>
/// <param name="samplerIndex">Type of the sampler pool indexing used for bound samplers</param>
public void SetSamplerPool(ulong gpuVa, int maximumId, SamplerIndex samplerIndex)
{
if (gpuVa != 0)
{
ulong address = _channel.MemoryManager.Translate(gpuVa);
if (_samplerPool != null && _samplerPool.Address == address && _samplerPool.MaximumId >= maximumId)
{
return;
}
_samplerPool?.Dispose();
_samplerPool = new SamplerPool(_context, _channel.MemoryManager.Physical, address, maximumId);
}
else
{
_samplerPool?.Dispose();
_samplerPool = null;
}
_samplerIndex = samplerIndex;
}
/// <summary>
/// Sets the current texture pool to be used.
/// </summary>
/// <param name="gpuVa">Start GPU virtual address of the pool</param>
/// <param name="maximumId">Maximum ID of the pool (total count minus one)</param>
public void SetTexturePool(ulong gpuVa, int maximumId)
{
if (gpuVa != 0)
{
ulong address = _channel.MemoryManager.Translate(gpuVa);
_texturePoolAddress = address;
_texturePoolMaximumId = maximumId;
}
else
{
_texturePoolAddress = 0;
_texturePoolMaximumId = 0;
}
}
/// <summary>
/// Gets a texture and a sampler from their respective pools from a texture ID and a sampler ID.
/// </summary>
/// <param name="textureId">ID of the texture</param>
/// <param name="samplerId">ID of the sampler</param>
public (Texture, Sampler) GetTextureAndSampler(int textureId, int samplerId)
{
ulong texturePoolAddress = _texturePoolAddress;
TexturePool texturePool = texturePoolAddress != 0
? _texturePoolCache.FindOrCreate(_channel, texturePoolAddress, _texturePoolMaximumId)
: null;
return (texturePool.Get(textureId), _samplerPool.Get(samplerId));
}
/// <summary>
/// Updates the texture scale for a given texture or image.
/// </summary>
/// <param name="texture">Start GPU virtual address of the pool</param>
/// <param name="usageFlags">The related texture usage flags</param>
/// <param name="index">The texture/image binding index</param>
/// <param name="stage">The active shader stage</param>
/// <returns>True if the given texture has become blacklisted, indicating that its host texture may have changed.</returns>
private bool UpdateScale(Texture texture, TextureUsageFlags usageFlags, int index, ShaderStage stage)
{
float result = 1f;
bool changed = false;
if ((usageFlags & TextureUsageFlags.NeedsScaleValue) != 0 && texture != null)
{
if ((usageFlags & TextureUsageFlags.ResScaleUnsupported) != 0)
{
changed = texture.ScaleMode != TextureScaleMode.Blacklisted;
texture.BlacklistScale();
}
else
{
switch (stage)
{
case ShaderStage.Fragment:
float scale = texture.ScaleFactor;
if (scale != 1)
{
Texture activeTarget = _channel.TextureManager.GetAnyRenderTarget();
if (activeTarget != null && (activeTarget.Info.Width / (float)texture.Info.Width) == (activeTarget.Info.Height / (float)texture.Info.Height))
{
// If the texture's size is a multiple of the sampler size, enable interpolation using gl_FragCoord. (helps "invent" new integer values between scaled pixels)
result = -scale;
break;
}
}
result = scale;
break;
case ShaderStage.Vertex:
int fragmentIndex = (int)ShaderStage.Fragment - 1;
index += _textureBindingsCount[fragmentIndex] + _imageBindingsCount[fragmentIndex];
result = texture.ScaleFactor;
break;
case ShaderStage.Compute:
result = texture.ScaleFactor;
break;
}
}
}
if (result != _scales[index])
{
_scaleChanged = true;
_scales[index] = result;
}
return changed;
}
/// <summary>
/// Uploads texture and image scales to the backend when they are used.
/// </summary>
private void CommitRenderScale()
{
// Stage 0 total: Compute or Vertex.
int total = _textureBindingsCount[0] + _imageBindingsCount[0];
int fragmentIndex = (int)ShaderStage.Fragment - 1;
int fragmentTotal = _isCompute ? 0 : (_textureBindingsCount[fragmentIndex] + _imageBindingsCount[fragmentIndex]);
if (total != 0 && fragmentTotal != _lastFragmentTotal)
{
// Must update scales in the support buffer if:
// - Vertex stage has bindings.
// - Fragment stage binding count has been updated since last render scale update.
_scaleChanged = true;
}
if (_scaleChanged)
{
if (!_isCompute)
{
total += fragmentTotal; // Add the fragment bindings to the total.
}
_lastFragmentTotal = fragmentTotal;
_context.Renderer.Pipeline.UpdateRenderScale(_scales, total, fragmentTotal);
_scaleChanged = false;
}
}
/// <summary>
/// Ensures that the bindings are visible to the host GPU.
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/// Note: this actually performs the binding using the host graphics API.
/// </summary>
/// <param name="specState">Specialization state for the bound shader</param>
/// <returns>True if all bound textures match the current shader specialiation state, false otherwise</returns>
public bool CommitBindings(ShaderSpecializationState specState)
{
ulong texturePoolAddress = _texturePoolAddress;
TexturePool texturePool = texturePoolAddress != 0
? _texturePoolCache.FindOrCreate(_channel, texturePoolAddress, _texturePoolMaximumId)
: null;
// Check if the texture pool has been modified since bindings were last committed.
// If it wasn't, then it's possible to avoid looking up textures again when the handle remains the same.
bool poolModified = false;
if (texturePool != null)
{
int texturePoolSequence = texturePool.CheckModified();
if (_texturePoolSequence != texturePoolSequence)
{
poolModified = true;
_texturePoolSequence = texturePoolSequence;
}
}
if (_samplerPool != null)
{
int samplerPoolSequence = _samplerPool.CheckModified();
if (_samplerPoolSequence != samplerPoolSequence)
{
poolModified = true;
_samplerPoolSequence = samplerPoolSequence;
}
}
bool specStateMatches = true;
if (_isCompute)
{
specStateMatches &= CommitTextureBindings(texturePool, ShaderStage.Compute, 0, poolModified, specState);
specStateMatches &= CommitImageBindings(texturePool, ShaderStage.Compute, 0, poolModified, specState);
}
else
{
for (ShaderStage stage = ShaderStage.Vertex; stage <= ShaderStage.Fragment; stage++)
{
int stageIndex = (int)stage - 1;
specStateMatches &= CommitTextureBindings(texturePool, stage, stageIndex, poolModified, specState);
specStateMatches &= CommitImageBindings(texturePool, stage, stageIndex, poolModified, specState);
}
}
CommitRenderScale();
return specStateMatches;
}
/// <summary>
/// Fetch the constant buffers used for a texture to cache.
/// </summary>
/// <param name="stageIndex">Stage index of the constant buffer</param>
/// <param name="cachedTextureBufferIndex">The currently cached texture buffer index</param>
/// <param name="cachedSamplerBufferIndex">The currently cached sampler buffer index</param>
/// <param name="cachedTextureBuffer">The currently cached texture buffer data</param>
/// <param name="cachedSamplerBuffer">The currently cached sampler buffer data</param>
/// <param name="textureBufferIndex">The new texture buffer index</param>
/// <param name="samplerBufferIndex">The new sampler buffer index</param>
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private void UpdateCachedBuffer(
int stageIndex,
ref int cachedTextureBufferIndex,
ref int cachedSamplerBufferIndex,
ref ReadOnlySpan<int> cachedTextureBuffer,
ref ReadOnlySpan<int> cachedSamplerBuffer,
int textureBufferIndex,
int samplerBufferIndex)
{
if (textureBufferIndex != cachedTextureBufferIndex)
{
ref BufferBounds bounds = ref _channel.BufferManager.GetUniformBufferBounds(_isCompute, stageIndex, textureBufferIndex);
cachedTextureBuffer = MemoryMarshal.Cast<byte, int>(_channel.MemoryManager.Physical.GetSpan(bounds.Address, (int)bounds.Size));
cachedTextureBufferIndex = textureBufferIndex;
if (samplerBufferIndex == textureBufferIndex)
{
cachedSamplerBuffer = cachedTextureBuffer;
cachedSamplerBufferIndex = samplerBufferIndex;
}
}
if (samplerBufferIndex != cachedSamplerBufferIndex)
{
ref BufferBounds bounds = ref _channel.BufferManager.GetUniformBufferBounds(_isCompute, stageIndex, samplerBufferIndex);
cachedSamplerBuffer = MemoryMarshal.Cast<byte, int>(_channel.MemoryManager.Physical.GetSpan(bounds.Address, (int)bounds.Size));
cachedSamplerBufferIndex = samplerBufferIndex;
}
}
/// <summary>
/// Ensures that the texture bindings are visible to the host GPU.
2020-01-01 15:39:09 +00:00
/// Note: this actually performs the binding using the host graphics API.
/// </summary>
/// <param name="pool">The current texture pool</param>
/// <param name="stage">The shader stage using the textures to be bound</param>
/// <param name="stageIndex">The stage number of the specified shader stage</param
/// <param name="poolModified">True if either the texture or sampler pool was modified, false otherwise</param>
/// <param name="specState">Specialization state for the bound shader</param>
/// <returns>True if all bound textures match the current shader specialiation state, false otherwise</returns>
private bool CommitTextureBindings(TexturePool pool, ShaderStage stage, int stageIndex, bool poolModified, ShaderSpecializationState specState)
{
int textureCount = _textureBindingsCount[stageIndex];
if (textureCount == 0)
{
return true;
}
var samplerPool = _samplerPool;
if (pool == null)
{
Logger.Error?.Print(LogClass.Gpu, $"Shader stage \"{stage}\" uses textures, but texture pool was not set.");
return true;
}
bool specStateMatches = true;
int cachedTextureBufferIndex = -1;
int cachedSamplerBufferIndex = -1;
ReadOnlySpan<int> cachedTextureBuffer = Span<int>.Empty;
ReadOnlySpan<int> cachedSamplerBuffer = Span<int>.Empty;
for (int index = 0; index < textureCount; index++)
{
TextureBindingInfo bindingInfo = _textureBindings[stageIndex][index];
TextureUsageFlags usageFlags = bindingInfo.Flags;
(int textureBufferIndex, int samplerBufferIndex) = TextureHandle.UnpackSlots(bindingInfo.CbufSlot, _textureBufferIndex);
UpdateCachedBuffer(stageIndex, ref cachedTextureBufferIndex, ref cachedSamplerBufferIndex, ref cachedTextureBuffer, ref cachedSamplerBuffer, textureBufferIndex, samplerBufferIndex);
int packedId = TextureHandle.ReadPackedId(bindingInfo.Handle, cachedTextureBuffer, cachedSamplerBuffer);
int textureId = TextureHandle.UnpackTextureId(packedId);
int samplerId;
if (_samplerIndex == SamplerIndex.ViaHeaderIndex)
{
samplerId = textureId;
}
else
{
samplerId = TextureHandle.UnpackSamplerId(packedId);
}
ref TextureState state = ref _textureState[bindingInfo.Binding];
if (!poolModified &&
state.TextureHandle == textureId &&
state.SamplerHandle == samplerId &&
state.CachedTexture != null &&
state.CachedTexture.InvalidatedSequence == state.InvalidatedSequence &&
state.CachedSampler?.IsDisposed != true)
{
// The texture is already bound.
state.CachedTexture.SynchronizeMemory();
if ((state.ScaleIndex != index || state.UsageFlags != usageFlags) &&
UpdateScale(state.CachedTexture, usageFlags, index, stage))
{
ITexture hostTextureRebind = state.CachedTexture.GetTargetTexture(bindingInfo.Target);
state.Texture = hostTextureRebind;
state.ScaleIndex = index;
state.UsageFlags = usageFlags;
_context.Renderer.Pipeline.SetTexture(bindingInfo.Binding, hostTextureRebind);
}
continue;
}
state.TextureHandle = textureId;
state.SamplerHandle = samplerId;
ref readonly TextureDescriptor descriptor = ref pool.GetForBinding(textureId, out Texture texture);
specStateMatches &= specState.MatchesTexture(stage, index, descriptor);
ITexture hostTexture = texture?.GetTargetTexture(bindingInfo.Target);
if (hostTexture != null && texture.Target == Target.TextureBuffer)
{
// Ensure that the buffer texture is using the correct buffer as storage.
// Buffers are frequently re-created to accomodate larger data, so we need to re-bind
// to ensure we're not using a old buffer that was already deleted.
_channel.BufferManager.SetBufferTextureStorage(hostTexture, texture.Range.GetSubRange(0).Address, texture.Size, bindingInfo, bindingInfo.Format, false);
}
else
{
if (state.Texture != hostTexture)
{
if (UpdateScale(texture, usageFlags, index, stage))
{
hostTexture = texture?.GetTargetTexture(bindingInfo.Target);
}
state.Texture = hostTexture;
state.ScaleIndex = index;
state.UsageFlags = usageFlags;
_context.Renderer.Pipeline.SetTexture(bindingInfo.Binding, hostTexture);
}
Sampler sampler = samplerPool?.Get(samplerId);
state.CachedSampler = sampler;
ISampler hostSampler = sampler?.GetHostSampler(texture);
if (state.Sampler != hostSampler)
{
state.Sampler = hostSampler;
_context.Renderer.Pipeline.SetSampler(bindingInfo.Binding, hostSampler);
}
state.CachedTexture = texture;
state.InvalidatedSequence = texture?.InvalidatedSequence ?? 0;
}
}
return specStateMatches;
}
/// <summary>
/// Ensures that the image bindings are visible to the host GPU.
2020-01-01 15:39:09 +00:00
/// Note: this actually performs the binding using the host graphics API.
/// </summary>
/// <param name="pool">The current texture pool</param>
/// <param name="stage">The shader stage using the textures to be bound</param>
/// <param name="stageIndex">The stage number of the specified shader stage</param>
/// <param name="poolModified">True if either the texture or sampler pool was modified, false otherwise</param>
/// <param name="specState">Specialization state for the bound shader</param>
/// <returns>True if all bound images match the current shader specialiation state, false otherwise</returns>
private bool CommitImageBindings(TexturePool pool, ShaderStage stage, int stageIndex, bool poolModified, ShaderSpecializationState specState)
{
int imageCount = _imageBindingsCount[stageIndex];
if (imageCount == 0)
{
return true;
}
if (pool == null)
{
Logger.Error?.Print(LogClass.Gpu, $"Shader stage \"{stage}\" uses images, but texture pool was not set.");
return true;
}
// Scales for images appear after the texture ones.
int baseScaleIndex = _textureBindingsCount[stageIndex];
int cachedTextureBufferIndex = -1;
int cachedSamplerBufferIndex = -1;
ReadOnlySpan<int> cachedTextureBuffer = Span<int>.Empty;
ReadOnlySpan<int> cachedSamplerBuffer = Span<int>.Empty;
bool specStateMatches = true;
for (int index = 0; index < imageCount; index++)
{
TextureBindingInfo bindingInfo = _imageBindings[stageIndex][index];
TextureUsageFlags usageFlags = bindingInfo.Flags;
int scaleIndex = baseScaleIndex + index;
(int textureBufferIndex, int samplerBufferIndex) = TextureHandle.UnpackSlots(bindingInfo.CbufSlot, _textureBufferIndex);
UpdateCachedBuffer(stageIndex, ref cachedTextureBufferIndex, ref cachedSamplerBufferIndex, ref cachedTextureBuffer, ref cachedSamplerBuffer, textureBufferIndex, samplerBufferIndex);
int packedId = TextureHandle.ReadPackedId(bindingInfo.Handle, cachedTextureBuffer, cachedSamplerBuffer);
int textureId = TextureHandle.UnpackTextureId(packedId);
ref TextureState state = ref _imageState[bindingInfo.Binding];
bool isStore = bindingInfo.Flags.HasFlag(TextureUsageFlags.ImageStore);
if (!poolModified &&
state.TextureHandle == textureId &&
state.CachedTexture != null &&
state.CachedTexture.InvalidatedSequence == state.InvalidatedSequence)
{
Texture cachedTexture = state.CachedTexture;
// The texture is already bound.
cachedTexture.SynchronizeMemory();
if (isStore)
{
cachedTexture?.SignalModified();
}
if ((state.ScaleIndex != index || state.UsageFlags != usageFlags) &&
UpdateScale(state.CachedTexture, usageFlags, scaleIndex, stage))
{
ITexture hostTextureRebind = state.CachedTexture.GetTargetTexture(bindingInfo.Target);
Format format = bindingInfo.Format == 0 ? cachedTexture.Format : bindingInfo.Format;
state.Texture = hostTextureRebind;
state.ScaleIndex = scaleIndex;
state.UsageFlags = usageFlags;
_context.Renderer.Pipeline.SetImage(bindingInfo.Binding, hostTextureRebind, format);
}
continue;
}
state.TextureHandle = textureId;
ref readonly TextureDescriptor descriptor = ref pool.GetForBinding(textureId, out Texture texture);
specStateMatches &= specState.MatchesImage(stage, index, descriptor);
ITexture hostTexture = texture?.GetTargetTexture(bindingInfo.Target);
if (hostTexture != null && texture.Target == Target.TextureBuffer)
{
// Ensure that the buffer texture is using the correct buffer as storage.
// Buffers are frequently re-created to accomodate larger data, so we need to re-bind
// to ensure we're not using a old buffer that was already deleted.
Format format = bindingInfo.Format;
if (format == 0 && texture != null)
{
format = texture.Format;
}
_channel.BufferManager.SetBufferTextureStorage(hostTexture, texture.Range.GetSubRange(0).Address, texture.Size, bindingInfo, format, true);
}
else
{
if (isStore)
{
texture?.SignalModified();
}
if (state.Texture != hostTexture)
{
if (UpdateScale(texture, usageFlags, scaleIndex, stage))
{
hostTexture = texture?.GetTargetTexture(bindingInfo.Target);
}
state.Texture = hostTexture;
state.ScaleIndex = scaleIndex;
state.UsageFlags = usageFlags;
Format format = bindingInfo.Format;
if (format == 0 && texture != null)
{
format = texture.Format;
}
_context.Renderer.Pipeline.SetImage(bindingInfo.Binding, hostTexture, format);
}
state.CachedTexture = texture;
state.InvalidatedSequence = texture?.InvalidatedSequence ?? 0;
}
}
return specStateMatches;
}
/// <summary>
/// Gets the texture descriptor for a given texture handle.
/// </summary>
/// <param name="poolGpuVa">GPU virtual address of the texture pool</param>
/// <param name="bufferIndex">Index of the constant buffer with texture handles</param>
/// <param name="maximumId">Maximum ID of the texture pool</param>
/// <param name="stageIndex">The stage number where the texture is bound</param>
/// <param name="handle">The texture handle</param>
/// <param name="cbufSlot">The texture handle's constant buffer slot</param>
/// <returns>The texture descriptor for the specified texture</returns>
public TextureDescriptor GetTextureDescriptor(
ulong poolGpuVa,
int bufferIndex,
int maximumId,
int stageIndex,
int handle,
int cbufSlot)
{
(int textureBufferIndex, int samplerBufferIndex) = TextureHandle.UnpackSlots(cbufSlot, bufferIndex);
int packedId = ReadPackedId(stageIndex, handle, textureBufferIndex, samplerBufferIndex);
int textureId = TextureHandle.UnpackTextureId(packedId);
ulong poolAddress = _channel.MemoryManager.Translate(poolGpuVa);
TexturePool texturePool = _texturePoolCache.FindOrCreate(_channel, poolAddress, maximumId);
TextureDescriptor descriptor;
if (texturePool.IsValidId(textureId))
{
descriptor = texturePool.GetDescriptor(textureId);
}
else
{
// If the ID is not valid, we just return a default descriptor with the most common state.
// Since this is used for shader specialization, doing so might avoid the need for recompilations.
descriptor = new TextureDescriptor();
descriptor.Word4 |= (uint)TextureTarget.Texture2D << 23;
descriptor.Word5 |= 1u << 31; // Coords normalized.
}
return descriptor;
}
/// <summary>
/// Reads a packed texture and sampler ID (basically, the real texture handle)
/// from the texture constant buffer.
/// </summary>
/// <param name="stageIndex">The number of the shader stage where the texture is bound</param>
/// <param name="wordOffset">A word offset of the handle on the buffer (the "fake" shader handle)</param>
/// <param name="textureBufferIndex">Index of the constant buffer holding the texture handles</param>
/// <param name="samplerBufferIndex">Index of the constant buffer holding the sampler handles</param>
/// <returns>The packed texture and sampler ID (the real texture handle)</returns>
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private int ReadPackedId(int stageIndex, int wordOffset, int textureBufferIndex, int samplerBufferIndex)
{
(int textureWordOffset, int samplerWordOffset, TextureHandleType handleType) = TextureHandle.UnpackOffsets(wordOffset);
ulong textureBufferAddress = _isCompute
? _channel.BufferManager.GetComputeUniformBufferAddress(textureBufferIndex)
: _channel.BufferManager.GetGraphicsUniformBufferAddress(stageIndex, textureBufferIndex);
int handle = _channel.MemoryManager.Physical.Read<int>(textureBufferAddress + (uint)textureWordOffset * 4);
// The "wordOffset" (which is really the immediate value used on texture instructions on the shader)
// is a 13-bit value. However, in order to also support separate samplers and textures (which uses
// bindless textures on the shader), we extend it with another value on the higher 16 bits with
// another offset for the sampler.
// The shader translator has code to detect separate texture and sampler uses with a bindless texture,
// turn that into a regular texture access and produce those special handles with values on the higher 16 bits.
if (handleType != TextureHandleType.CombinedSampler)
{
ulong samplerBufferAddress = _isCompute
? _channel.BufferManager.GetComputeUniformBufferAddress(samplerBufferIndex)
: _channel.BufferManager.GetGraphicsUniformBufferAddress(stageIndex, samplerBufferIndex);
int samplerHandle = _channel.MemoryManager.Physical.Read<int>(samplerBufferAddress + (uint)samplerWordOffset * 4);
if (handleType == TextureHandleType.SeparateSamplerId)
{
samplerHandle <<= 20;
}
handle |= samplerHandle;
}
return handle;
}
/// <summary>
/// Force all bound textures and images to be rebound the next time CommitBindings is called.
/// </summary>
public void Rebind()
{
Array.Clear(_textureState);
Array.Clear(_imageState);
}
/// <summary>
/// Disposes all textures and samplers in the cache.
/// </summary>
public void Dispose()
{
_samplerPool?.Dispose();
}
}
}