public static unsafe RenderCommand SetShaderTextureSamplers(Shader shader, FastClearList <KVP <TextureSamplerBinding, TextureSampler> > values)
{
Assure.NotNull(shader);
Assure.False(shader.IsDisposed, "Shader was disposed.");
Assure.NotNull(values);
IntPtr *resourceHandleArrayPtr = (IntPtr *)AllocAndZeroTemp(shader.NumTextureSamplerSlots * (uint)sizeof(IntPtr));
for (int i = 0; i < values.Count; ++i)
{
var kvp = values[i];
if (kvp.Value == null)
{
continue; // Legitimate: If we want to set a bind to null, this is how it's done
}
resourceHandleArrayPtr[kvp.Key.SlotIndex] = (IntPtr)kvp.Value.ResourceHandle;
}
return(new RenderCommand(shader.SetTextureSamplersInstruction, (IntPtr)resourceHandleArrayPtr, shader.NumTextureSamplerSlots, 0U));
}
internal virtual void RCQUpdateResources(RenderCommandQueue commandQueue, ShaderResourcePackage shaderResources)
{
for (int i = 0; i < ConstantBufferBindings.Length; i++)
{
commandQueue.QueueCommand(RenderCommand.DiscardWriteShaderConstantBuffer(
ConstantBufferBindings[i], shaderResources.GetValue(ConstantBufferBindings[i])
));
}
if (TextureSamplerBindings.Length > 0)
{
if (texSamplerValueDict == null)
{
texSamplerValueDict = new FastClearList <KVP <TextureSamplerBinding, TextureSampler> >();
}
texSamplerValueDict.Clear();
for (int i = 0; i < TextureSamplerBindings.Length; ++i)
{
var tsb = TextureSamplerBindings[i];
texSamplerValueDict.Add(new KVP <TextureSamplerBinding, TextureSampler>(tsb, shaderResources.GetValue(tsb)));
}
commandQueue.QueueCommand(RenderCommand.SetShaderTextureSamplers(this, texSamplerValueDict));
}
if (ResourceViewBindings.Length > 0)
{
if (resViewValueDict == null)
{
resViewValueDict = new FastClearList <KVP <ResourceViewBinding, IResourceView> >();
}
resViewValueDict.Clear();
for (int i = 0; i < ResourceViewBindings.Length; ++i)
{
var rvb = ResourceViewBindings[i];
resViewValueDict.Add(new KVP <ResourceViewBinding, IResourceView>(rvb, shaderResources.GetValue(rvb)));
Assure.False(
((BaseResourceView)shaderResources.GetValue(ResourceViewBindings[i])) != null &&
((BaseResourceView)shaderResources.GetValue(ResourceViewBindings[i])).Resource.PermittedBindings == GPUBindings.None,
"Underlying resource has no permitted GPU bindings."
);
}
commandQueue.QueueCommand(RenderCommand.SetShaderResourceViews(this, resViewValueDict));
}
}
internal virtual void RCQUpdateResources(RenderCommandQueue commandQueue)
{
for (int i = 0; i < ConstantBufferBindings.Length; i++)
{
commandQueue.QueueCommand(RenderCommand.DiscardWriteShaderConstantBuffer(
ConstantBufferBindings[i], ConstantBufferBindings[i].CurValuePtr
));
}
if (TextureSamplerBindings.Length > 0)
{
if (texSamplerValueDict == null)
{
texSamplerValueDict = new FastClearList <KVP <TextureSamplerBinding, TextureSampler> >();
}
texSamplerValueDict.Clear();
for (int i = 0; i < TextureSamplerBindings.Length; ++i)
{
texSamplerValueDict.Add(new KVP <TextureSamplerBinding, TextureSampler>(TextureSamplerBindings[i], TextureSamplerBindings[i].GetBoundResource()));
}
commandQueue.QueueCommand(RenderCommand.SetShaderTextureSamplers(this, texSamplerValueDict));
}
if (ResourceViewBindings.Length > 0)
{
if (resViewValueDict == null)
{
resViewValueDict = new FastClearList <KVP <ResourceViewBinding, IResourceView> >();
}
resViewValueDict.Clear();
for (int i = 0; i < ResourceViewBindings.Length; ++i)
{
resViewValueDict.Add(new KVP <ResourceViewBinding, IResourceView>(ResourceViewBindings[i], ResourceViewBindings[i].GetBoundResourceAsBaseResourceView()));
Assure.False(ResourceViewBindings[i].GetBoundResourceAsBaseResourceView().Resource.PermittedBindings == GPUBindings.None, "Underlying resource has no permitted GPU bindings.");
}
commandQueue.QueueCommand(RenderCommand.SetShaderResourceViews(this, resViewValueDict));
}
}
private void RenderCache_IterateMaterial(int materialIndex)
{
// Set up context variables
KeyValuePair <Material, ModelInstanceManager.MIDArray> currentKVP = currentInstanceData[materialIndex];
Material currentMaterial = currentKVP.Key;
ModelInstanceManager.MIDArray currentMID = currentKVP.Value;
// Skip this material if it or its shader are disposed
if (currentMaterial.IsDisposed || currentMaterial.Shader.IsDisposed)
{
return;
}
// Skip this material if we're not using it
bool inUse = false;
for (int i = 0; i < currentMID.Length; ++i)
{
if (currentMID.Data[i].InUse)
{
inUse = true;
break;
}
}
if (!inUse)
{
return;
}
// Prepare shader according to material params, and switch to it or update it
if (lastSetFragmentShader != currentMaterial.Shader || lastFrameNum != frameNum)
{
lastSetFragmentShader = currentMaterial.Shader;
lastFrameNum = frameNum;
QueueShaderSwitch(lastSetFragmentShader);
}
var queuedSRP = currentMaterial.FragmentShaderResourcePackage;
if (lastSetFragmentShader == geomFSWithShadowSupport)
{
if (modifiedSRP == null)
{
modifiedSRP = new ShaderResourcePackage();
}
modifiedSRP.CopyFrom(queuedSRP);
modifiedSRP.SetValue((ResourceViewBinding)lastSetFragmentShader.GetBindingByIdentifier("ShadowMap"), previousShadowBufferSRV);
queuedSRP = modifiedSRP;
}
QueueShaderResourceUpdate(lastSetFragmentShader, queuedSRP);
// Filter & sort
if (materialFilteringWorkspace == null || materialFilteringWorkspace.Length < currentCache.NumModels)
{
materialFilteringWorkspace = new FastClearList <Transform> [currentCache.NumModels];
for (int i = 0; i < materialFilteringWorkspace.Length; ++i)
{
materialFilteringWorkspace[i] = new FastClearList <Transform>();
}
}
for (int i = 0; i < materialFilteringWorkspace.Length; ++i)
{
materialFilteringWorkspace[i].Clear();
}
SortByProximityToCamera(currentMID);
uint numInstances = 0U;
for (uint i = 0U; i < currentMID.Length; ++i)
{
ModelInstanceData curMID = sortedModelData[i];
if (!curMID.InUse)
{
continue;
}
SceneLayer layer = currentSceneLayers[curMID.SceneLayerIndex];
if (layer == null || !layer.GetRenderingEnabled() || !addedSceneLayers.Contains(layer))
{
continue;
}
if (curMID.ModelIndex == __VEGG_MH.ModelIndex && currentCache.ID == __VEGG_MH.GeoCacheID)
{
int instanceIndex = 0;
for (int j = 0; j < currentMID.Length; ++j)
{
if (currentMID.Data[j].Transform == curMID.Transform)
{
instanceIndex = j;
break;
}
}
Quaternion rot = Quaternion.IDENTITY;
foreach (var kvp in __VEGG_MIH_ARR)
{
if (kvp.Key.InstanceIndex == instanceIndex)
{
rot = kvp.Value;
break;
}
}
materialFilteringWorkspace[curMID.ModelIndex].Add(curMID.Transform.RotateBy(rot));
}
else
{
materialFilteringWorkspace[curMID.ModelIndex].Add(curMID.Transform);
}
++numInstances;
}
// Concatenate & queue render commands
if (instanceConcatWorkspace == null || instanceConcatWorkspace.Length < numInstances)
{
instanceConcatWorkspace = new Matrix[numInstances << 1]; // x2 so we don't create loads of garbage if the count keeps increasing by 1
}
uint instanceStartOffset = RenderCache_IterateMaterial_ConcatReserve(numInstances);
uint nextWorkspaceIndex = 0;
uint outVBStartIndex, outIBStartIndex, outVBCount, outIBCount;
for (uint mI = 0U; mI < materialFilteringWorkspace.Length; ++mI)
{
FastClearList <Transform> filteredTransformList = materialFilteringWorkspace[mI];
int numFilteredTransforms = filteredTransformList.Count;
if (numFilteredTransforms == 0)
{
continue;
}
currentCache.GetModelBufferValues(mI, out outVBStartIndex, out outIBStartIndex, out outVBCount, out outIBCount);
QueueRenderCommand(RenderCommand.DrawIndexedInstanced(
(int)outVBStartIndex,
outIBStartIndex,
outIBCount,
nextWorkspaceIndex + instanceStartOffset,
(uint)numFilteredTransforms
));
for (int iI = 0; iI < numFilteredTransforms; ++iI)
{
if (mI == __EGGHACK_MH.ModelIndex && currentCache.ID == __EGGHACK_MH.GeoCacheID)
{
instanceConcatWorkspace[nextWorkspaceIndex++] = filteredTransformList[iI].RotateBy(__EGGHACK_ROT).AsMatrixTransposed;
}
else
{
instanceConcatWorkspace[nextWorkspaceIndex++] = filteredTransformList[iI].AsMatrixTransposed;
}
}
}
RenderCache_IterateMaterial_Concat(instanceConcatWorkspace, instanceStartOffset, numInstances);
}
private void RenderCache_IterateMaterial(int materialIndex)
{
// Set up context variables
KeyValuePair <Material, ModelInstanceManager.MIDArray> currentKVP = currentInstanceData[materialIndex];
Material currentMaterial = currentKVP.Key;
ModelInstanceManager.MIDArray currentMID = currentKVP.Value;
// Skip this material if it or its shader are disposed
if (currentMaterial.IsDisposed || currentMaterial.Shader.IsDisposed)
{
return;
}
// Prepare shader according to material params, and switch to it or update it
if (lastSetFragmentShader != currentMaterial.Shader || lastFrameNum != frameNum)
{
lastSetFragmentShader = currentMaterial.Shader;
lastFrameNum = frameNum;
QueueShaderSwitch(lastSetFragmentShader);
}
QueueShaderResourceUpdate(lastSetFragmentShader, currentMaterial.FragmentShaderResourcePackage);
// Filter & sort
if (materialFilteringWorkspace == null || materialFilteringWorkspace.Length < currentCache.NumModels)
{
materialFilteringWorkspace = new FastClearList <Transform> [currentCache.NumModels];
for (int i = 0; i < materialFilteringWorkspace.Length; ++i)
{
materialFilteringWorkspace[i] = new FastClearList <Transform>();
}
}
for (int i = 0; i < materialFilteringWorkspace.Length; ++i)
{
materialFilteringWorkspace[i].Clear();
}
ModelInstanceData *midData = currentMID.Data;
uint numInstances = 0U;
for (uint i = 0U; i < currentMID.Length; ++i)
{
ModelInstanceData curMID = midData[i];
if (!curMID.InUse)
{
continue;
}
SceneLayer layer = currentSceneLayers[curMID.SceneLayerIndex];
if (layer == null || !layer.GetRenderingEnabled() || !addedSceneLayers.Contains(layer))
{
continue;
}
materialFilteringWorkspace[curMID.ModelIndex].Add(curMID.Transform);
++numInstances;
}
// Concatenate & queue render commands
if (instanceConcatWorkspace == null || instanceConcatWorkspace.Length < numInstances)
{
instanceConcatWorkspace = new Matrix[numInstances << 1]; // x2 so we don't create loads of garbage if the count keeps increasing by 1
}
uint instanceStartOffset = RenderCache_IterateMaterial_ConcatReserve(numInstances);
uint nextWorkspaceIndex = 0;
uint outVBStartIndex, outIBStartIndex, outVBCount, outIBCount;
for (uint mI = 0U; mI < materialFilteringWorkspace.Length; ++mI)
{
FastClearList <Transform> filteredTransformList = materialFilteringWorkspace[mI];
int numFilteredTransforms = filteredTransformList.Count;
if (numFilteredTransforms == 0)
{
continue;
}
currentCache.GetModelBufferValues(mI, out outVBStartIndex, out outIBStartIndex, out outVBCount, out outIBCount);
QueueRenderCommand(RenderCommand.DrawIndexedInstanced(
(int)outVBStartIndex,
outIBStartIndex,
outIBCount,
nextWorkspaceIndex + instanceStartOffset,
(uint)numFilteredTransforms
));
for (int iI = 0; iI < numFilteredTransforms; ++iI)
{
instanceConcatWorkspace[nextWorkspaceIndex++] = filteredTransformList[iI].AsMatrixTransposed;
}
}
RenderCache_IterateMaterial_Concat(instanceConcatWorkspace, instanceStartOffset, numInstances);
}
