Firstborn/Library/PackageCache/com.unity.render-pipelines..../Runtime/DeferredShaderData.cs
Schaken-Mods b486678290 Library -Artifacts
Library -Artifacts
2023-03-28 12:24:16 -05:00

172 lines
6.1 KiB
C#

using System;
using System.Runtime.InteropServices;
using Unity.Collections;
using UnityEngine.Rendering.Universal.Internal;
namespace UnityEngine.Rendering.Universal
{
class DeferredShaderData : IDisposable
{
static DeferredShaderData m_Instance = null;
struct ComputeBufferInfo
{
public uint frameUsed;
public ComputeBufferType type; // There is no interface to retrieve the type of a ComputeBuffer, so we must save it on our side
}
// Precomputed tiles (for each tiler).
NativeArray<PreTile>[] m_PreTiles = null;
// Structured buffers and constant buffers are all allocated from this array.
ComputeBuffer[] m_Buffers = null;
// We need to store extra info per ComputeBuffer.
ComputeBufferInfo[] m_BufferInfos;
// How many buffers have been created so far. This is <= than m_Buffers.Length.
int m_BufferCount = 0;
// Remember index of last buffer used. This optimizes the search for available buffer.
int m_CachedBufferIndex = 0;
// This counter is allowed to cycle back to 0.
uint m_FrameIndex = 0;
DeferredShaderData()
{
m_PreTiles = new NativeArray<PreTile>[DeferredConfig.kTilerDepth];
m_Buffers = new ComputeBuffer[64];
m_BufferInfos = new ComputeBufferInfo[64];
}
internal static DeferredShaderData instance
{
get
{
if (m_Instance == null)
m_Instance = new DeferredShaderData();
return m_Instance;
}
}
public void Dispose()
{
DisposeNativeArrays(ref m_PreTiles);
for (int i = 0; i < m_Buffers.Length; ++i)
{
if (m_Buffers[i] != null)
{
m_Buffers[i].Dispose();
m_Buffers[i] = null;
}
}
m_BufferCount = 0;
}
internal void ResetBuffers()
{
++m_FrameIndex; // Allowed to cycle back to 0.
}
internal NativeArray<PreTile> GetPreTiles(int level, int count)
{
return GetOrUpdateNativeArray<PreTile>(ref m_PreTiles, level, count);
}
internal ComputeBuffer ReserveBuffer<T>(int count, bool asCBuffer) where T : struct
{
int stride = Marshal.SizeOf<T>();
int paddedCount = asCBuffer ? Align(stride * count, 16) / stride : count;
return GetOrUpdateBuffer(paddedCount, stride, asCBuffer);
}
NativeArray<T> GetOrUpdateNativeArray<T>(ref NativeArray<T>[] nativeArrays, int level, int count) where T : struct
{
if (!nativeArrays[level].IsCreated)
{
nativeArrays[level] = new NativeArray<T>(count, Allocator.Persistent);
}
else if (count > nativeArrays[level].Length)
{
nativeArrays[level].Dispose();
nativeArrays[level] = new NativeArray<T>(count, Allocator.Persistent);
}
return nativeArrays[level];
}
void DisposeNativeArrays<T>(ref NativeArray<T>[] nativeArrays) where T : struct
{
for (int i = 0; i < nativeArrays.Length; ++i)
{
if (nativeArrays[i].IsCreated)
nativeArrays[i].Dispose();
}
}
ComputeBuffer GetOrUpdateBuffer(int count, int stride, bool isConstantBuffer)
{
ComputeBufferType type = isConstantBuffer ? ComputeBufferType.Constant : ComputeBufferType.Structured;
int maxQueuedFrames = QualitySettings.maxQueuedFrames;
Assertions.Assert.IsTrue(maxQueuedFrames >= 1, "invalid QualitySettings.maxQueuedFrames");
for (int i = 0; i < m_BufferCount; ++i)
{
int bufferIndex = (m_CachedBufferIndex + i + 1) % m_BufferCount;
if (IsLessCircular(m_BufferInfos[bufferIndex].frameUsed + (uint)maxQueuedFrames, m_FrameIndex)
&& m_BufferInfos[bufferIndex].type == type && m_Buffers[bufferIndex].count == count && m_Buffers[bufferIndex].stride == stride)
{
m_BufferInfos[bufferIndex].frameUsed = m_FrameIndex;
m_CachedBufferIndex = bufferIndex;
return m_Buffers[bufferIndex];
}
}
if (m_BufferCount == m_Buffers.Length) // If all buffers used: allocate more space.
{
ComputeBuffer[] newBuffers = new ComputeBuffer[m_BufferCount * 2];
for (int i = 0; i < m_BufferCount; ++i)
newBuffers[i] = m_Buffers[i];
m_Buffers = newBuffers;
ComputeBufferInfo[] newBufferInfos = new ComputeBufferInfo[m_BufferCount * 2];
for (int i = 0; i < m_BufferCount; ++i)
newBufferInfos[i] = m_BufferInfos[i];
m_BufferInfos = newBufferInfos;
}
// Create new buffer.
m_Buffers[m_BufferCount] = new ComputeBuffer(count, stride, type, ComputeBufferMode.Immutable);
m_BufferInfos[m_BufferCount].frameUsed = m_FrameIndex;
m_BufferInfos[m_BufferCount].type = type;
m_CachedBufferIndex = m_BufferCount;
return m_Buffers[m_BufferCount++];
}
void DisposeBuffers(ComputeBuffer[,] buffers)
{
for (int i = 0; i < buffers.GetLength(0); ++i)
{
for (int j = 0; j < buffers.GetLength(1); ++j)
{
if (buffers[i, j] != null)
{
buffers[i, j].Dispose();
buffers[i, j] = null;
}
}
}
}
static bool IsLessCircular(uint a, uint b)
{
return a != b ? (b - a) < 0x80000000 : false;
}
static int Align(int s, int alignment)
{
return ((s + alignment - 1) / alignment) * alignment;
}
}
}