/*
- * Copyright (c) 2021 Samsung Electronics Co., Ltd.
+ * Copyright (c) 2023 Samsung Electronics Co., Ltd.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
#include <dali/graphics-api/graphics-types.h>
#include <dali/integration-api/debug.h>
#include <dali/internal/common/image-sampler.h>
+#include <dali/internal/common/matrix-utils.h>
+#include <dali/internal/common/memory-pool-object-allocator.h>
+#include <dali/internal/event/rendering/texture-impl.h>
#include <dali/internal/render/common/render-instruction.h>
#include <dali/internal/render/data-providers/node-data-provider.h>
#include <dali/internal/render/data-providers/uniform-map-data-provider.h>
+#include <dali/internal/render/renderers/pipeline-cache.h>
#include <dali/internal/render/renderers/render-sampler.h>
#include <dali/internal/render/renderers/render-texture.h>
#include <dali/internal/render/renderers/render-vertex-buffer.h>
#include <dali/internal/render/shaders/program.h>
#include <dali/internal/render/shaders/render-shader.h>
#include <dali/internal/update/common/uniform-map.h>
-#include <dali/internal/render/renderers/pipeline-cache.h>
+#include <dali/public-api/signals/render-callback.h>
namespace Dali::Internal
{
namespace
{
// Helper to get the property value getter by type
-typedef const float&(PropertyInputImpl::*FuncGetter )(BufferIndex) const;
+typedef const float& (PropertyInputImpl::*FuncGetter)(BufferIndex) const;
constexpr FuncGetter GetPropertyValueGetter(Property::Type type)
{
switch(type)
* Helper function that returns size of uniform datatypes based
* on property type.
*/
-constexpr int GetPropertyValueSizeForUniform( Property::Type type )
+constexpr int GetPropertyValueSizeForUniform(Property::Type type)
{
switch(type)
{
- case Property::Type::BOOLEAN:{ return sizeof(bool);}
- case Property::Type::FLOAT:{ return sizeof(float);}
- case Property::Type::INTEGER:{ return sizeof(int);}
- case Property::Type::VECTOR2:{ return sizeof(Vector2);}
- case Property::Type::VECTOR3:{ return sizeof(Vector3);}
- case Property::Type::VECTOR4:{ return sizeof(Vector4);}
- case Property::Type::MATRIX3:{ return sizeof(Matrix3);}
- case Property::Type::MATRIX:{ return sizeof(Matrix);}
+ case Property::Type::BOOLEAN:
+ {
+ return sizeof(bool);
+ }
+ case Property::Type::FLOAT:
+ {
+ return sizeof(float);
+ }
+ case Property::Type::INTEGER:
+ {
+ return sizeof(int);
+ }
+ case Property::Type::VECTOR2:
+ {
+ return sizeof(Vector2);
+ }
+ case Property::Type::VECTOR3:
+ {
+ return sizeof(Vector3);
+ }
+ case Property::Type::VECTOR4:
+ {
+ return sizeof(Vector4);
+ }
+ case Property::Type::MATRIX3:
+ {
+ return sizeof(Matrix3);
+ }
+ case Property::Type::MATRIX:
+ {
+ return sizeof(Matrix);
+ }
default:
{
return 0;
return ((dataSize / 256u) + ((dataSize % 256u) ? 1u : 0u)) * 256u;
}
+/**
+ * @brief Store latest binded RenderGeometry, and help that we can skip duplicated vertex attributes bind.
+ *
+ * @param[in] geometry Current geometry to be used, or nullptr if render finished
+ * @return True if we can reuse latest binded vertex attributes. False otherwise.
+ */
+inline bool ReuseLatestBindedVertexAttributes(const Render::Geometry* geometry)
+{
+ static const Render::Geometry* gLatestVertexBindedGeometry = nullptr;
+ if(gLatestVertexBindedGeometry == geometry)
+ {
+ return true;
+ }
+ gLatestVertexBindedGeometry = geometry;
+ return false;
+}
+
} // namespace
namespace Render
{
-Renderer* Renderer::New(SceneGraph::RenderDataProvider* dataProvider,
- Render::Geometry* geometry,
- uint32_t blendingBitmask,
- const Vector4& blendColor,
- FaceCullingMode::Type faceCullingMode,
- bool preMultipliedAlphaEnabled,
- DepthWriteMode::Type depthWriteMode,
- DepthTestMode::Type depthTestMode,
- DepthFunction::Type depthFunction,
- StencilParameters& stencilParameters)
+namespace
+{
+MemoryPoolObjectAllocator<Renderer> gRenderRendererMemoryPool;
+}
+
+void Renderer::PrepareCommandBuffer()
+{
+ // Reset latest geometry informations, So we can bind the first of geometry.
+ ReuseLatestBindedVertexAttributes(nullptr);
+
+ // todo : Fill here as many caches as we can store for reduce the number of command buffers
+}
+
+RendererKey Renderer::NewKey(SceneGraph::RenderDataProvider* dataProvider,
+ Render::Geometry* geometry,
+ uint32_t blendingBitmask,
+ const Vector4& blendColor,
+ FaceCullingMode::Type faceCullingMode,
+ bool preMultipliedAlphaEnabled,
+ DepthWriteMode::Type depthWriteMode,
+ DepthTestMode::Type depthTestMode,
+ DepthFunction::Type depthFunction,
+ StencilParameters& stencilParameters)
{
- return new Renderer(dataProvider, geometry, blendingBitmask, blendColor, faceCullingMode, preMultipliedAlphaEnabled, depthWriteMode, depthTestMode, depthFunction, stencilParameters);
+ void* ptr = gRenderRendererMemoryPool.AllocateRawThreadSafe();
+ auto key = gRenderRendererMemoryPool.GetKeyFromPtr(static_cast<Renderer*>(ptr));
+
+ // Use placement new to construct renderer.
+ new(ptr) Renderer(dataProvider, geometry, blendingBitmask, blendColor, faceCullingMode, preMultipliedAlphaEnabled, depthWriteMode, depthTestMode, depthFunction, stencilParameters);
+ return RendererKey(key);
}
Renderer::Renderer(SceneGraph::RenderDataProvider* dataProvider,
mRenderDataProvider(dataProvider),
mGeometry(geometry),
mProgramCache(nullptr),
- mUniformIndexMap(),
- mUniformsHash(),
mStencilParameters(stencilParameters),
mBlendingOptions(),
mIndexedDrawFirstElement(0),
mDepthWriteMode(depthWriteMode),
mDepthTestMode(depthTestMode),
mPremultipliedAlphaEnabled(preMultipliedAlphaEnabled),
- mShaderChanged(false),
- mUpdated(true)
+ mShaderChanged(false)
{
if(blendingBitmask != 0u)
{
Renderer::~Renderer() = default;
+void Renderer::operator delete(void* ptr)
+{
+ gRenderRendererMemoryPool.FreeThreadSafe(static_cast<Renderer*>(ptr));
+}
+
+Renderer* Renderer::Get(RendererKey::KeyType rendererKey)
+{
+ return gRenderRendererMemoryPool.GetPtrFromKey(rendererKey);
+}
+
void Renderer::SetGeometry(Render::Geometry* geometry)
{
- mGeometry = geometry;
- mUpdated = true;
+ mGeometry = geometry;
}
+
void Renderer::SetDrawCommands(Dali::DevelRenderer::DrawCommand* pDrawCommands, uint32_t size)
{
mDrawCommands.clear();
{
uint32_t textureUnit = 0;
- std::vector<Render::Sampler*>& samplers(mRenderDataProvider->GetSamplers());
- std::vector<Render::Texture*>& textures(mRenderDataProvider->GetTextures());
+ auto textures(mRenderDataProvider->GetTextures());
+ auto samplers(mRenderDataProvider->GetSamplers());
std::vector<Graphics::TextureBinding> textureBindings;
- for(uint32_t i = 0; i < static_cast<uint32_t>(textures.size()); ++i) // not expecting more than uint32_t of textures
+
+ if(textures != nullptr)
{
- if(textures[i] && textures[i]->GetGraphicsObject())
+ const std::uint32_t texturesCount(static_cast<std::uint32_t>(textures->Count()));
+ textureBindings.reserve(texturesCount);
+
+ for(uint32_t i = 0; i < texturesCount; ++i) // not expecting more than uint32_t of textures
{
- // if the sampler exists,
- // if it's default, delete the graphics object
- // otherwise re-initialize it if dirty
+ if((*textures)[i] && (*textures)[i]->GetGraphicsObject())
+ {
+ Graphics::Texture* graphicsTexture = (*textures)[i]->GetGraphicsObject();
+ // if the sampler exists,
+ // if it's default, delete the graphics object
+ // otherwise re-initialize it if dirty
- const Graphics::Sampler* graphicsSampler = (samplers[i] ? samplers[i]->GetGraphicsObject()
- : nullptr);
+ const Graphics::Sampler* graphicsSampler = samplers ? ((*samplers)[i] ? (*samplers)[i]->GetGraphicsObject()
+ : nullptr)
+ : nullptr;
- boundTextures.PushBack(textures[i]->GetGraphicsObject());
- const Graphics::TextureBinding textureBinding{textures[i]->GetGraphicsObject(), graphicsSampler, textureUnit};
- textureBindings.push_back(textureBinding);
+ boundTextures.PushBack(graphicsTexture);
+ const Graphics::TextureBinding textureBinding{graphicsTexture, graphicsSampler, textureUnit};
+ textureBindings.push_back(textureBinding);
- ++textureUnit;
+ ++textureUnit;
+ }
}
}
void Renderer::SetFaceCullingMode(FaceCullingMode::Type mode)
{
mFaceCullingMode = mode;
- mUpdated = true;
}
void Renderer::SetBlendingBitMask(uint32_t bitmask)
{
mBlendingOptions.SetBitmask(bitmask);
- mUpdated = true;
}
void Renderer::SetBlendColor(const Vector4& color)
{
mBlendingOptions.SetBlendColor(color);
- mUpdated = true;
}
void Renderer::SetIndexedDrawFirstElement(uint32_t firstElement)
{
mIndexedDrawFirstElement = firstElement;
- mUpdated = true;
}
void Renderer::SetIndexedDrawElementsCount(uint32_t elementsCount)
{
mIndexedDrawElementsCount = elementsCount;
- mUpdated = true;
}
void Renderer::EnablePreMultipliedAlpha(bool enable)
{
mPremultipliedAlphaEnabled = enable;
- mUpdated = true;
}
void Renderer::SetDepthWriteMode(DepthWriteMode::Type depthWriteMode)
{
mDepthWriteMode = depthWriteMode;
- mUpdated = true;
}
void Renderer::SetDepthTestMode(DepthTestMode::Type depthTestMode)
{
mDepthTestMode = depthTestMode;
- mUpdated = true;
}
DepthWriteMode::Type Renderer::GetDepthWriteMode() const
void Renderer::SetDepthFunction(DepthFunction::Type depthFunction)
{
mDepthFunction = depthFunction;
- mUpdated = true;
}
DepthFunction::Type Renderer::GetDepthFunction() const
void Renderer::SetRenderMode(RenderMode::Type renderMode)
{
mStencilParameters.renderMode = renderMode;
- mUpdated = true;
}
RenderMode::Type Renderer::GetRenderMode() const
void Renderer::SetStencilFunction(StencilFunction::Type stencilFunction)
{
mStencilParameters.stencilFunction = stencilFunction;
- mUpdated = true;
}
StencilFunction::Type Renderer::GetStencilFunction() const
void Renderer::SetStencilFunctionMask(int stencilFunctionMask)
{
mStencilParameters.stencilFunctionMask = stencilFunctionMask;
- mUpdated = true;
}
int Renderer::GetStencilFunctionMask() const
void Renderer::SetStencilFunctionReference(int stencilFunctionReference)
{
mStencilParameters.stencilFunctionReference = stencilFunctionReference;
- mUpdated = true;
}
int Renderer::GetStencilFunctionReference() const
void Renderer::SetStencilMask(int stencilMask)
{
mStencilParameters.stencilMask = stencilMask;
- mUpdated = true;
}
int Renderer::GetStencilMask() const
void Renderer::SetStencilOperationOnFail(StencilOperation::Type stencilOperationOnFail)
{
mStencilParameters.stencilOperationOnFail = stencilOperationOnFail;
- mUpdated = true;
}
StencilOperation::Type Renderer::GetStencilOperationOnFail() const
void Renderer::SetStencilOperationOnZFail(StencilOperation::Type stencilOperationOnZFail)
{
mStencilParameters.stencilOperationOnZFail = stencilOperationOnZFail;
- mUpdated = true;
}
StencilOperation::Type Renderer::GetStencilOperationOnZFail() const
void Renderer::SetStencilOperationOnZPass(StencilOperation::Type stencilOperationOnZPass)
{
mStencilParameters.stencilOperationOnZPass = stencilOperationOnZPass;
- mUpdated = true;
}
StencilOperation::Type Renderer::GetStencilOperationOnZPass() const
return false;
}
+ // Check if there is render callback
+ if(mRenderCallback)
+ {
+ if(!mRenderCallbackInput)
+ {
+ mRenderCallbackInput = std::unique_ptr<RenderCallbackInput>(new RenderCallbackInput);
+ }
+
+ Graphics::DrawNativeInfo info{};
+ info.api = Graphics::DrawNativeAPI::GLES;
+ info.callback = &static_cast<Dali::CallbackBase&>(*mRenderCallback);
+ info.userData = mRenderCallbackInput.get();
+
+ // Set storage for the context to be used
+ info.glesNativeInfo.eglSharedContextStoragePointer = &mRenderCallbackInput->eglContext;
+ info.reserved = nullptr;
+
+ auto& textureResources = mRenderCallback->GetTextureResources();
+
+ if(!textureResources.empty())
+ {
+ mRenderCallbackTextureBindings.clear();
+ mRenderCallbackInput->textureBindings.resize(textureResources.size());
+ auto i = 0u;
+ for(auto& texture : textureResources)
+ {
+ auto& textureImpl = GetImplementation(texture);
+ auto graphicsTexture = textureImpl.GetRenderTextureKey()->GetGraphicsObject();
+
+ auto properties = mGraphicsController->GetTextureProperties(*graphicsTexture);
+
+ mRenderCallbackTextureBindings.emplace_back(graphicsTexture);
+ mRenderCallbackInput->textureBindings[i++] = properties.nativeHandle;
+ }
+ info.textureCount = mRenderCallbackTextureBindings.size();
+ info.textureList = mRenderCallbackTextureBindings.data();
+ }
+
+ // pass render callback input
+ mRenderCallbackInput->size = size;
+ mRenderCallbackInput->projection = projectionMatrix;
+
+ MatrixUtils::MultiplyProjectionMatrix(mRenderCallbackInput->mvp, modelViewMatrix, projectionMatrix);
+
+ // submit draw
+ commandBuffer.DrawNative(&info);
+ return true;
+ }
+
// Prepare commands
std::vector<DevelRenderer::DrawCommand*> commands;
for(auto& cmd : mDrawCommands)
}
// Create Program
- ShaderDataPtr shaderData = mRenderDataProvider->GetShader().GetShaderData();
+ ShaderDataPtr shaderData = mRenderDataProvider->GetShader().GetShaderData();
- Program* program = Program::New(*mProgramCache,
+ Program* program = Program::New(*mProgramCache,
shaderData,
*mGraphicsController);
if(!program)
{
- DALI_LOG_ERROR("Failed to get program for shader at address %p.\n", reinterpret_cast<void*>(&mRenderDataProvider->GetShader()));
+ DALI_LOG_ERROR("Failed to get program for shader at address %p.\n", reinterpret_cast<const void*>(&mRenderDataProvider->GetShader()));
return false;
}
// If program doesn't have Gfx program object assigned yet, prepare it.
if(!program->GetGraphicsProgramPtr())
{
- const std::vector<char> &vertShader = shaderData->GetShaderForPipelineStage(Graphics::PipelineStage::VERTEX_SHADER);
- const std::vector<char> &fragShader = shaderData->GetShaderForPipelineStage(Graphics::PipelineStage::FRAGMENT_SHADER);
- Dali::Graphics::Shader &vertexShader = mShaderCache->GetShader(
+ const std::vector<char>& vertShader = shaderData->GetShaderForPipelineStage(Graphics::PipelineStage::VERTEX_SHADER);
+ const std::vector<char>& fragShader = shaderData->GetShaderForPipelineStage(Graphics::PipelineStage::FRAGMENT_SHADER);
+ Dali::Graphics::Shader& vertexShader = mShaderCache->GetShader(
vertShader,
Graphics::PipelineStage::VERTEX_SHADER,
shaderData->GetSourceMode());
- Dali::Graphics::Shader &fragmentShader = mShaderCache->GetShader(
+ Dali::Graphics::Shader& fragmentShader = mShaderCache->GetShader(
fragShader,
Graphics::PipelineStage::FRAGMENT_SHADER,
shaderData->GetSourceMode());
BindTextures(commandBuffer, boundTextures);
- BuildUniformIndexMap(bufferIndex, node, size, *program);
+ std::size_t nodeIndex = BuildUniformIndexMap(bufferIndex, node, size, *program);
- WriteUniformBuffer(bufferIndex, commandBuffer, program, instruction, node, modelMatrix, modelViewMatrix, viewMatrix, projectionMatrix, size);
+ WriteUniformBuffer(bufferIndex, commandBuffer, program, instruction, node, modelMatrix, modelViewMatrix, viewMatrix, projectionMatrix, size, nodeIndex);
bool drawn = false; // Draw can fail if there are no vertex buffers or they haven't been uploaded yet
// @todo We should detect this case much earlier to prevent unnecessary work
- if(mDrawCommands.empty())
+ // Reuse latest binded vertex attributes location, or Bind buffers to attribute locations.
+ if(ReuseLatestBindedVertexAttributes(mGeometry) || mGeometry->BindVertexAttributes(commandBuffer))
{
- drawn = mGeometry->Draw(*mGraphicsController, commandBuffer, mIndexedDrawFirstElement, mIndexedDrawElementsCount);
+ if(mDrawCommands.empty())
+ {
+ drawn = mGeometry->Draw(*mGraphicsController, commandBuffer, mIndexedDrawFirstElement, mIndexedDrawElementsCount);
+ }
+ else
+ {
+ for(auto& cmd : commands)
+ {
+ drawn |= mGeometry->Draw(*mGraphicsController, commandBuffer, cmd->firstIndex, cmd->elementCount);
+ }
+ }
}
else
{
- for(auto& cmd : commands)
- {
- mGeometry->Draw(*mGraphicsController, commandBuffer, cmd->firstIndex, cmd->elementCount);
- }
+ // BindVertexAttributes failed. Reset cached geometry.
+ ReuseLatestBindedVertexAttributes(nullptr);
}
- mUpdated = false;
return drawn;
}
-void Renderer::BuildUniformIndexMap(BufferIndex bufferIndex, const SceneGraph::NodeDataProvider& node, const Vector3& size, Program& program)
+std::size_t Renderer::BuildUniformIndexMap(BufferIndex bufferIndex, const SceneGraph::NodeDataProvider& node, const Vector3& size, Program& program)
{
// Check if the map has changed
DALI_ASSERT_DEBUG(mRenderDataProvider && "No Uniform map data provider available");
- const SceneGraph::UniformMapDataProvider& uniformMapDataProvider = mRenderDataProvider->GetUniformMap();
+ const SceneGraph::UniformMapDataProvider& uniformMapDataProvider = mRenderDataProvider->GetUniformMapDataProvider();
+ const SceneGraph::CollectedUniformMap& uniformMap = uniformMapDataProvider.GetCollectedUniformMap();
+ const SceneGraph::UniformMap& uniformMapNode = node.GetNodeUniformMap();
+
+ bool updateMaps;
+
+ // Usual case is to only have 1 node, however we do allow multiple nodes to reuse the same
+ // renderer, so we have to cache uniform map per render item (node / renderer pair).
- if(uniformMapDataProvider.GetUniformMapChanged(bufferIndex) ||
- node.GetUniformMapChanged(bufferIndex) ||
- mUniformIndexMap.Count() == 0 ||
- mShaderChanged)
+ // Specially, if node don't have uniformMap, we mark nodePtr as nullptr.
+ // So, all nodes without uniformMap will share same UniformIndexMap, contains only render data providers.
+ const auto nodePtr = uniformMapNode.Count() ? &node : nullptr;
+
+ const auto nodeChangeCounter = nodePtr ? uniformMapNode.GetChangeCounter() : 0;
+ const auto renderItemMapChangeCounter = uniformMap.GetChangeCounter();
+
+ auto iter = std::find_if(mNodeIndexMap.begin(), mNodeIndexMap.end(), [nodePtr](RenderItemLookup& element) { return element.node == nodePtr; });
+
+ std::size_t renderItemMapIndex;
+ if(iter == mNodeIndexMap.end())
+ {
+ renderItemMapIndex = mUniformIndexMaps.size();
+ RenderItemLookup renderItemLookup;
+ renderItemLookup.node = nodePtr;
+ renderItemLookup.index = renderItemMapIndex;
+ renderItemLookup.nodeChangeCounter = nodeChangeCounter;
+ renderItemLookup.renderItemMapChangeCounter = renderItemMapChangeCounter;
+ mNodeIndexMap.emplace_back(renderItemLookup);
+
+ updateMaps = true;
+ mUniformIndexMaps.resize(mUniformIndexMaps.size() + 1);
+ }
+ else
+ {
+ renderItemMapIndex = iter->index;
+
+ updateMaps = (nodeChangeCounter != iter->nodeChangeCounter) ||
+ (renderItemMapChangeCounter != iter->renderItemMapChangeCounter) ||
+ (mUniformIndexMaps[renderItemMapIndex].size() == 0);
+
+ iter->nodeChangeCounter = nodeChangeCounter;
+ iter->renderItemMapChangeCounter = renderItemMapChangeCounter;
+ }
+
+ if(updateMaps || mShaderChanged)
{
// Reset shader pointer
mShaderChanged = false;
- const SceneGraph::CollectedUniformMap& uniformMap = uniformMapDataProvider.GetUniformMap(bufferIndex);
- const SceneGraph::CollectedUniformMap& uniformMapNode = node.GetUniformMap(bufferIndex);
+ const uint32_t mapCount = uniformMap.Count();
+ const uint32_t mapNodeCount = uniformMapNode.Count();
- auto maxMaps = static_cast<uint32_t>(uniformMap.Count() + uniformMapNode.Count()); // 4,294,967,295 maps should be enough
- mUniformIndexMap.Clear(); // Clear contents, but keep memory if we don't change size
- mUniformIndexMap.Resize(maxMaps);
+ mUniformIndexMaps[renderItemMapIndex].clear(); // Clear contents, but keep memory if we don't change size
+ mUniformIndexMaps[renderItemMapIndex].resize(mapCount + mapNodeCount);
// Copy uniform map into mUniformIndexMap
uint32_t mapIndex = 0;
- for(; mapIndex < uniformMap.Count(); ++mapIndex)
+ for(; mapIndex < mapCount; ++mapIndex)
{
- mUniformIndexMap[mapIndex].propertyValue = uniformMap[mapIndex].propertyPtr;
- mUniformIndexMap[mapIndex].uniformName = uniformMap[mapIndex].uniformName;
- mUniformIndexMap[mapIndex].uniformNameHash = uniformMap[mapIndex].uniformNameHash;
- mUniformIndexMap[mapIndex].uniformNameHashNoArray = uniformMap[mapIndex].uniformNameHashNoArray;
- mUniformIndexMap[mapIndex].arrayIndex = uniformMap[mapIndex].arrayIndex;
+ mUniformIndexMaps[renderItemMapIndex][mapIndex].propertyValue = uniformMap.mUniformMap[mapIndex].propertyPtr;
+ mUniformIndexMaps[renderItemMapIndex][mapIndex].uniformName = uniformMap.mUniformMap[mapIndex].uniformName;
+ mUniformIndexMaps[renderItemMapIndex][mapIndex].uniformNameHash = uniformMap.mUniformMap[mapIndex].uniformNameHash;
+ mUniformIndexMaps[renderItemMapIndex][mapIndex].uniformNameHashNoArray = uniformMap.mUniformMap[mapIndex].uniformNameHashNoArray;
+ mUniformIndexMaps[renderItemMapIndex][mapIndex].arrayIndex = uniformMap.mUniformMap[mapIndex].arrayIndex;
}
- for(uint32_t nodeMapIndex = 0; nodeMapIndex < uniformMapNode.Count(); ++nodeMapIndex)
+ for(uint32_t nodeMapIndex = 0; nodeMapIndex < mapNodeCount; ++nodeMapIndex)
{
auto hash = uniformMapNode[nodeMapIndex].uniformNameHash;
auto& name = uniformMapNode[nodeMapIndex].uniformName;
bool found(false);
- for(uint32_t i = 0; i < uniformMap.Count(); ++i)
+ for(uint32_t i = 0; i < mapCount; ++i)
{
- if(mUniformIndexMap[i].uniformNameHash == hash &&
- mUniformIndexMap[i].uniformName == name)
+ if(mUniformIndexMaps[renderItemMapIndex][i].uniformNameHash == hash &&
+ mUniformIndexMaps[renderItemMapIndex][i].uniformName == name)
{
- mUniformIndexMap[i].propertyValue = uniformMapNode[nodeMapIndex].propertyPtr;
- found = true;
+ mUniformIndexMaps[renderItemMapIndex][i].propertyValue = uniformMapNode[nodeMapIndex].propertyPtr;
+ found = true;
break;
}
}
if(!found)
{
- mUniformIndexMap[mapIndex].propertyValue = uniformMapNode[nodeMapIndex].propertyPtr;
- mUniformIndexMap[mapIndex].uniformName = uniformMapNode[nodeMapIndex].uniformName;
- mUniformIndexMap[mapIndex].uniformNameHash = uniformMapNode[nodeMapIndex].uniformNameHash;
- mUniformIndexMap[mapIndex].uniformNameHashNoArray = uniformMapNode[nodeMapIndex].uniformNameHashNoArray;
- mUniformIndexMap[mapIndex].arrayIndex = uniformMapNode[nodeMapIndex].arrayIndex;
+ mUniformIndexMaps[renderItemMapIndex][mapIndex].propertyValue = uniformMapNode[nodeMapIndex].propertyPtr;
+ mUniformIndexMaps[renderItemMapIndex][mapIndex].uniformName = uniformMapNode[nodeMapIndex].uniformName;
+ mUniformIndexMaps[renderItemMapIndex][mapIndex].uniformNameHash = uniformMapNode[nodeMapIndex].uniformNameHash;
+ mUniformIndexMaps[renderItemMapIndex][mapIndex].uniformNameHashNoArray = uniformMapNode[nodeMapIndex].uniformNameHashNoArray;
+ mUniformIndexMaps[renderItemMapIndex][mapIndex].arrayIndex = uniformMapNode[nodeMapIndex].arrayIndex;
++mapIndex;
}
}
- mUniformIndexMap.Resize(mapIndex);
+ mUniformIndexMaps[renderItemMapIndex].resize(mapIndex);
}
+ return renderItemMapIndex;
}
void Renderer::WriteUniformBuffer(
const Matrix& modelViewMatrix,
const Matrix& viewMatrix,
const Matrix& projectionMatrix,
- const Vector3& size)
+ const Vector3& size,
+ std::size_t nodeIndex)
{
// Create the UBO
uint32_t uboOffset{0u};
- auto &reflection = mGraphicsController->GetProgramReflection(program->GetGraphicsProgram());
+ auto& reflection = mGraphicsController->GetProgramReflection(program->GetGraphicsProgram());
uint32_t uniformBlockAllocationBytes = program->GetUniformBlocksMemoryRequirements().totalSizeRequired;
if(uniformBlockAllocationBytes)
{
auto uboPoolView = mUniformBufferManager->GetUniformBufferViewPool(bufferIndex);
-
- uboView = uboPoolView->CreateUniformBufferView(uniformBlockAllocationBytes);
+ uboView = uboPoolView->CreateUniformBufferView(uniformBlockAllocationBytes);
}
// update the uniform buffer
if(mvpUniformInfo && !mvpUniformInfo->name.empty())
{
Matrix modelViewProjectionMatrix(false);
- Matrix::Multiply(modelViewProjectionMatrix, modelViewMatrix, projectionMatrix);
+ MatrixUtils::MultiplyProjectionMatrix(modelViewProjectionMatrix, modelViewMatrix, projectionMatrix);
WriteDefaultUniform(mvpUniformInfo, *uboView, modelViewProjectionMatrix);
}
WriteDefaultUniform(normalUniformInfo, *uboView, normalMatrix);
}
- Vector4 finalColor;
- const Vector4& color = node.GetRenderColor(bufferIndex);
+ Vector4 finalColor; ///< Applied renderer's opacity color
+ const Vector4& color = node.GetRenderColor(bufferIndex); ///< Actor's original color
if(mPremultipliedAlphaEnabled)
{
- float alpha = color.a * mRenderDataProvider->GetOpacity(bufferIndex);
- finalColor = Vector4(color.r * alpha, color.g * alpha, color.b * alpha, alpha);
+ const float& alpha = color.a * mRenderDataProvider->GetOpacity(bufferIndex);
+ finalColor = Vector4(color.r * alpha, color.g * alpha, color.b * alpha, alpha);
}
else
{
finalColor = Vector4(color.r, color.g, color.b, color.a * mRenderDataProvider->GetOpacity(bufferIndex));
}
WriteDefaultUniform(program->GetDefaultUniform(Program::DefaultUniformIndex::COLOR), *uboView, finalColor);
+ WriteDefaultUniform(program->GetDefaultUniform(Program::DefaultUniformIndex::ACTOR_COLOR), *uboView, color);
// Write uniforms from the uniform map
- FillUniformBuffer(*program, instruction, *uboView, bindings, uboOffset, bufferIndex);
+ FillUniformBuffer(*program, instruction, *uboView, bindings, uboOffset, bufferIndex, nodeIndex);
// Write uSize in the end, as it shouldn't be overridable by dynamic properties.
WriteDefaultUniform(program->GetDefaultUniform(Program::DefaultUniformIndex::SIZE), *uboView, size);
Render::UniformBufferView& ubo,
std::vector<Graphics::UniformBufferBinding>*& outBindings,
uint32_t& offset,
- BufferIndex updateBufferIndex)
+ BufferIndex updateBufferIndex,
+ std::size_t nodeIndex)
{
auto& reflection = mGraphicsController->GetProgramReflection(program.GetGraphicsProgram());
auto uboCount = reflection.GetUniformBlockCount();
dataOffset += GetUniformBufferDataAlignment(mUniformBufferBindings[i].dataSize);
mUniformBufferBindings[i].buffer = ubo.GetBuffer(&mUniformBufferBindings[i].offset);
- for(UniformIndexMappings::Iterator iter = mUniformIndexMap.Begin(),
- end = mUniformIndexMap.End();
+ for(auto iter = mUniformIndexMaps[nodeIndex].begin(),
+ end = mUniformIndexMaps[nodeIndex].end();
iter != end;
++iter)
{
- // @todo This means parsing the uniform string every frame. Instead, store the array index if present.
- int arrayIndex = (*iter).arrayIndex;
+ auto& uniform = *iter;
+ int arrayIndex = uniform.arrayIndex;
+
+ if(!uniform.uniformFunc)
+ {
+ auto uniformInfo = Graphics::UniformInfo{};
+ auto uniformFound = program.GetUniform(uniform.uniformName.GetStringView(),
+ uniform.uniformNameHash,
+ uniform.uniformNameHashNoArray,
+ uniformInfo);
+
+ uniform.uniformOffset = uniformInfo.offset;
+ uniform.uniformLocation = uniformInfo.location;
- auto uniformInfo = Graphics::UniformInfo{};
- auto uniformFound = program.GetUniform((*iter).uniformName.GetCString(),
- (*iter).uniformNameHashNoArray ? (*iter).uniformNameHashNoArray
- : (*iter).uniformNameHash,
- uniformInfo);
+ if(uniformFound)
+ {
+ auto dst = ubo.GetOffset() + uniformInfo.offset;
+ const auto typeSize = GetPropertyValueSizeForUniform((*iter).propertyValue->GetType());
+ const auto dest = dst + static_cast<uint32_t>(typeSize) * arrayIndex;
+ const auto func = GetPropertyValueGetter((*iter).propertyValue->GetType());
+
+ ubo.Write(&((*iter).propertyValue->*func)(updateBufferIndex),
+ typeSize,
+ dest);
- if(uniformFound)
+ uniform.uniformSize = typeSize;
+ uniform.uniformFunc = func;
+ }
+ }
+ else
{
- auto dst = ubo.GetOffset() + uniformInfo.offset;
- const auto typeSize = GetPropertyValueSizeForUniform( (*iter).propertyValue->GetType() );
- const auto dest = dst + static_cast<uint32_t>(typeSize) * arrayIndex;
- const auto func = GetPropertyValueGetter((*iter).propertyValue->GetType());
+ auto dst = ubo.GetOffset() + uniform.uniformOffset;
+ const auto typeSize = uniform.uniformSize;
+ const auto dest = dst + static_cast<uint32_t>(typeSize) * arrayIndex;
+ const auto func = uniform.uniformFunc;
+
ubo.Write(&((*iter).propertyValue->*func)(updateBufferIndex),
typeSize,
dest);
mShaderChanged = value;
}
-bool Renderer::Updated(BufferIndex bufferIndex, const SceneGraph::NodeDataProvider* node)
+bool Renderer::Updated(BufferIndex bufferIndex)
{
- if(mUpdated)
- {
- mUpdated = false;
- return true;
- }
-
- if(mShaderChanged || mGeometry->AttributesChanged())
+ if(mRenderCallback || mShaderChanged || mGeometry->AttributesChanged() || mRenderDataProvider->IsUpdated())
{
return true;
}
- for(const auto& texture : mRenderDataProvider->GetTextures())
+ auto* textures = mRenderDataProvider->GetTextures();
+ if(textures)
{
- if(texture && texture->IsNativeImage())
+ for(auto iter = textures->Begin(), end = textures->End(); iter < end; ++iter)
{
- return true;
+ auto texture = *iter;
+ if(texture && texture->Updated())
+ {
+ return true;
+ }
}
}
-
- uint64_t hash = 0xc70f6907UL;
- const SceneGraph::CollectedUniformMap& uniformMapNode = node->GetUniformMap(bufferIndex);
- for(const auto& uniformProperty : uniformMapNode)
- {
- hash = uniformProperty.propertyPtr->Hash(bufferIndex, hash);
- }
-
- const SceneGraph::UniformMapDataProvider& uniformMapDataProvider = mRenderDataProvider->GetUniformMap();
- const SceneGraph::CollectedUniformMap& uniformMap = uniformMapDataProvider.GetUniformMap(bufferIndex);
- for(const auto& uniformProperty : uniformMap)
- {
- hash = uniformProperty.propertyPtr->Hash(bufferIndex, hash);
- }
-
- if(mUniformsHash != hash)
- {
- mUniformsHash = hash;
- return true;
- }
-
return false;
}
+Vector4 Renderer::GetVisualTransformedUpdateArea(BufferIndex bufferIndex, const Vector4& originalUpdateArea) const noexcept
+{
+ return mRenderDataProvider->GetVisualTransformedUpdateArea(bufferIndex, originalUpdateArea);
+}
+
Graphics::Pipeline& Renderer::PrepareGraphicsPipeline(
Program& program,
const Dali::Internal::SceneGraph::RenderInstruction& instruction,
const SceneGraph::NodeDataProvider& node,
bool blend)
{
- if(mGeometry->AttributesChanged())
- {
- mUpdated = true;
- }
-
// Prepare query info
PipelineCacheQueryInfo queryInfo{};
- queryInfo.program = &program;
- queryInfo.renderer = this;
- queryInfo.geometry = mGeometry;
- queryInfo.blendingEnabled = blend;
- queryInfo.blendingOptions = &mBlendingOptions;
- queryInfo.alphaPremultiplied = mPremultipliedAlphaEnabled;
+ queryInfo.program = &program;
+ queryInfo.renderer = this;
+ queryInfo.geometry = mGeometry;
+ queryInfo.blendingEnabled = blend;
+ queryInfo.blendingOptions = &mBlendingOptions;
+ queryInfo.alphaPremultiplied = mPremultipliedAlphaEnabled;
queryInfo.cameraUsingReflection = instruction.GetCamera()->GetReflectionUsed();
- auto pipelineResult = mPipelineCache->GetPipeline( queryInfo, true );
+ auto pipelineResult = mPipelineCache->GetPipeline(queryInfo, true);
// should be never null?
return *pipelineResult.pipeline;
}
+void Renderer::SetRenderCallback(RenderCallback* callback)
+{
+ mRenderCallback = callback;
+}
+
} // namespace Render
} // namespace Dali::Internal
projects / platform / core / uifw / dali-core.git / blobdiff