#include "Engine.h" bool CreateDepthStencil(bool MSAA_Quality); bool CreateRenderTarget(); void SetViewPort(); class oysterPrivates { public: bool instance,swapChained; ID3D11DepthStencilView* depth; ID3D11RenderTargetView *rtv; ID3D11UnorderedAccessView *uav; ID3D11ShaderResourceView* depthTexture; DXGI_SAMPLE_DESC sampleDesc; D3D11_VIEWPORT viewPort; oysterPrivates():instance(false),swapChained(false),depth(NULL),rtv(NULL), depthTexture(NULL){}; int sizeX, sizeY; class State { public: int NrOfSamples; int SampleSpread; int NrOfPointlights; }States; }instance; Oyster::Engine::Engine() { } Oyster::Engine::~Engine() { } //Init bool Oyster::Engine::Init::IsInstanced() { return instance.instance; } bool Oyster::Engine::Init::Instance(bool SingleThreaded,bool Reference,bool ForceDX11) { if(!instance.instance) if(Oyster::Core::Init(SingleThreaded,Reference,ForceDX11)) instance.instance=true; return instance.instance; } bool Oyster::Engine::Init::HasSwapChain() { return instance.swapChained; } bool Oyster::Engine::Init::CreateSwapChain(HWND Window,int NrofBuffers,bool MSAA_Quality,bool Fullscreen) { RECT rc; GetClientRect( Window, &rc ); instance.sizeX = rc.right - rc.left; instance.sizeY = rc.bottom - rc.top; if(!instance.swapChained) { if(Oyster::Core::CreateSwapChain(Window,NrofBuffers,MSAA_Quality,Fullscreen)) instance.swapChained=true; } return instance.swapChained; } bool Oyster::Engine::Init::FullInit(const Setup& setup) { if(!Oyster::Engine::Init::Instance(setup.SingleThreaded,setup.Reference,setup.ForceDX11)) return false; if(!Oyster::Engine::Init::CreateSwapChain(setup.window,setup.NrOfBuffers,setup.MSAA_Quality,setup.Fullscreen)) return false; /// \todo Add Init Shaders to full Init Process if(setup.GenerateDepthStencil) if(!CreateDepthStencil(setup.MSAA_Quality)) return false; if(!CreateRenderTarget()) return false; if(!Oyster::Render::Textbox::Init()) return false; SetViewPort(); if(setup.BindDefault) Oyster::Engine::PrepareForRendering::BindRenderTargets(&instance.rtv,1,instance.depth); instance.States.NrOfSamples = 14; instance.States.SampleSpread = 4; instance.States.NrOfPointlights = 1024; Oyster::Resources::Buffers::Init(); Oyster::Resources::ShaderEffects::Init(); Oyster::Resources::PipeLineResourses::Init(instance.sizeX, instance.sizeY); return true; } Oyster::Buffer* Oyster::Engine::Init::Buffers::CreateBuffer(const Oyster::Buffer::BUFFER_INIT_DESC desc) { Oyster::Buffer *buffy = new Oyster::Buffer(); buffy->Init(desc); return buffy; } //PrepareForRendering void Oyster::Engine::PrepareForRendering::BindRenderTargets(ID3D11RenderTargetView** RenderTargets,int NrOfTargets,ID3D11DepthStencilView* depth) { Oyster::Core::DeviceContext->OMSetRenderTargets(NrOfTargets,RenderTargets,depth); } void Oyster::Engine::PrepareForRendering::BindRenderTargets(ID3D11RenderTargetView** RenderTargets,int NrOfTargets) { Oyster::Core::DeviceContext->OMSetRenderTargets(NrOfTargets,RenderTargets,instance.depth); } void Oyster::Engine::PrepareForRendering::BindBackBufferAsUAV() { Oyster::Core::DeviceContext->CSSetUnorderedAccessViews(0,1,&instance.uav,0); } void Oyster::Engine::PrepareForRendering::BindUAV(ID3D11UnorderedAccessView** uav, int NrOfUavs) { Oyster::Core::DeviceContext->CSSetUnorderedAccessViews(0,NrOfUavs,uav,0); } void Oyster::Engine::PrepareForRendering::ClearBackBuffer(Math::Float4 color) { Oyster::Core::DeviceContext->ClearRenderTargetView(instance.rtv,(float*)color); Oyster::Core::DeviceContext->ClearDepthStencilView(instance.depth,1,1,0); } void Oyster::Engine::PrepareForRendering::BindBackBuffer(ID3D11DepthStencilView* depth) { Oyster::Core::DeviceContext->OMSetRenderTargets(1,&instance.rtv,depth); } void Oyster::Engine::PrepareForRendering::BindBackBuffer() { Oyster::Core::DeviceContext->OMSetRenderTargets(1,&instance.rtv,instance.depth); } void Oyster::Engine::PrepareForRendering::Begin2DRender() { Oyster::Resources::Buffers::V2DSprites.Apply(); Oyster::Resources::Buffers::CBufferGs.Apply(); Core::ShaderManager::SetShaderEffect(Oyster::Resources::ShaderEffects::BasicSprite); } void Oyster::Engine::PrepareForRendering::Begin2DTextRender() { Oyster::Render::Textbox::TextBuffer.Apply(); Oyster::Resources::Buffers::CBufferGs.Apply(); Oyster::Core::ShaderManager::SetShaderEffect(Oyster::Resources::ShaderEffects::Text2DEffect); } //Render void Oyster::Engine::Render::PresentScene() { Core::SwapChain->Present(0,0); } void Oyster::Engine::Render::Geometry(const Oyster::Render::Model* models,int count,Oyster::Buffer* cBufferEveryObject, int slot) { if(cBufferEveryObject) cBufferEveryObject->Apply(slot); for(int i=0;iMap(); memcpy(data,&(models[i].World->GetTranspose()),64); cBufferEveryObject->Unmap(); } Oyster::Core::DeviceContext->PSSetShaderResources(0,models[i].info->Material.size(),&(models[i].info->Material[0])); models[i].info->Vertices.Apply(); if(models[i].info->Indexed) { models[i].info->Indecies.Apply(); Oyster::Core::DeviceContext->DrawIndexed(models[i].info->VertexCount,0,0); } else Oyster::Core::DeviceContext->Draw(models[i].info->VertexCount,0); } } } void Oyster::Engine::Render::Text(std::string text, Oyster::Math::Float2 size, Oyster::Math::Float3 Pos) { Pos.x -= instance.sizeX/2; Pos.x += size.x; Pos.y -= instance.sizeY/2; Pos.y += size.y; Matrix m; m = Math::Matrix::identity; float width = (1.0f/(instance.sizeX/2.0f)); float height = (1.0f/(instance.sizeY/2.0f)); m.m41=Pos.x * width; m.m42=-Pos.y * height; m.m43=Pos.z; m.m11=width*size.x; m.m22=height*size.y; void* dest = Resources::Buffers::CBufferGs.Map(); memcpy(dest,&m.GetTranspose(),64); Resources::Buffers::CBufferGs.Unmap(); Oyster::Render::Textbox::Update(text, size.x); Oyster::Engine::PrepareForRendering::Begin2DTextRender(); Oyster::Core::DeviceContext->PSSetShaderResources(0,1,&(Oyster::Render::Textbox::Texture)); //Should be able to be outside of the for loop. Keeping it here for now though. Oyster::Core::DeviceContext->Draw(Oyster::Render::Textbox::NumLetters, 0); } void Oyster::Engine::Render::ScreenQuad(ID3D11ShaderResourceView* srv, float ZPos) { Oyster::Core::DeviceContext->PSSetShaderResources(0,1,&srv); Matrix m; m = Math::Matrix::identity; m.m43=ZPos; void* dest = Resources::Buffers::CBufferGs.Map(); memcpy(dest,&m.GetTranspose(),64); Resources::Buffers::CBufferGs.Unmap(); Oyster::Core::DeviceContext->Draw(1,0); } void Oyster::Engine::Render::Sprite(ID3D11ShaderResourceView* srv, Oyster::Math::Float2 size, Oyster::Math::Float3 Pos) { Oyster::Core::DeviceContext->PSSetShaderResources(0,1,&srv); Pos.x -= instance.sizeX/2; Pos.x += size.x/2; Pos.y -= instance.sizeY/2; Pos.y += size.y/2; Matrix m; m = Math::Matrix::identity; float width = (1.0f/(instance.sizeX/2.0f)); float height = (1.0f/(instance.sizeY/2.0f)); m.m41=Pos.x * width; m.m42=-Pos.y * height; m.m43=Pos.z; m.m11=width*size.x/2; m.m22=height*size.y/2; void* dest = Resources::Buffers::CBufferGs.Map(); memcpy(dest,&m.GetTranspose(),64); Resources::Buffers::CBufferGs.Unmap(); Oyster::Core::DeviceContext->Draw(1,0); } //Misc bool CreateDepthStencil(bool MSAA_Quality) { D3D11_TEXTURE2D_DESC desc; desc.MipLevels=1; desc.ArraySize=1; desc.Format = DXGI_FORMAT_D32_FLOAT; desc.Usage = D3D11_USAGE_DEFAULT; desc.BindFlags = D3D11_BIND_DEPTH_STENCIL; desc.CPUAccessFlags=0; desc.MiscFlags=0; desc.Height = instance.sizeY; desc.Width = instance.sizeX; //Check and Set multiSampling if(MSAA_Quality) { if(FAILED(Oyster::Core::Device->CheckMultisampleQualityLevels(DXGI_FORMAT_R8G8B8A8_UNORM,4,&desc.SampleDesc.Quality))) { //Log<< "Failed to check multisample quality levels (MSAAQuality).\n"; return false; } desc.SampleDesc.Count=4; --desc.SampleDesc.Quality; //Log << "Supported multisample quality levels (MSAAQuality): " << desc.SampleDesc.Quality+1 << "x\n"; } else { desc.SampleDesc.Count=1; desc.SampleDesc.Quality=0; } ID3D11Texture2D* depthstencil; if(FAILED(Oyster::Core::Device->CreateTexture2D(&desc,0,&depthstencil))) return false; if(FAILED(Oyster::Core::Device->CreateDepthStencilView(depthstencil,0,&instance.depth))) { depthstencil->Release(); return false; } depthstencil->Release(); return true; } bool CreateRenderTarget() { D3D11_UNORDERED_ACCESS_VIEW_DESC descView; ZeroMemory( &descView, sizeof(descView) ); descView.ViewDimension = D3D11_UAV_DIMENSION_TEXTURE2D; descView.Format = DXGI_FORMAT_R8G8B8A8_UNORM; descView.Texture2D.MipSlice=0; ID3D11Texture2D* backBuffer; if(FAILED(Oyster::Core::SwapChain->GetBuffer(0,__uuidof(ID3D11Texture2D),reinterpret_cast(&backBuffer)))) return false; if(FAILED(Oyster::Core::Device->CreateRenderTargetView(backBuffer,0,&instance.rtv))) { backBuffer->Release(); return false; } if(FAILED(Oyster::Core::Device->CreateUnorderedAccessView(backBuffer,0,&instance.uav))) { backBuffer->Release(); return false; } backBuffer->Release(); return true; } void SetViewPort() { instance.viewPort.TopLeftX = 0.0f; instance.viewPort.TopLeftY = 0.0f; instance.viewPort.Width = (float)instance.sizeX; instance.viewPort.Height = (float)instance.sizeY; instance.viewPort.MinDepth = 0.0f; instance.viewPort.MaxDepth = 1.0f; Oyster::Core::DeviceContext->RSSetViewports(1,&instance.viewPort); } void Blur(int target) { //TODO: proper size calculation //bind input Oyster::Core::DeviceContext->CSSetShaderResources(0,1,&Oyster::Resources::PipeLineResourses::LightOut[target]); Oyster::Engine::PrepareForRendering::BindUAV(&Oyster::Resources::PipeLineResourses::TempUav,1); //dispatch blurr horizontal Oyster::Core::ShaderManager::Set::Compute(Oyster::Core::ShaderManager::Get::Compute(L"BlurHorizontal")); Oyster::Core::DeviceContext->Dispatch(7,instance.sizeX,1); //clean Pipeline Oyster::Core::DeviceContext->CSSetShaderResources(0,16,&Oyster::Resources::PipeLineResourses::SrvNulls[0]); Oyster::Core::DeviceContext->CSSetUnorderedAccessViews(0,8,&Oyster::Resources::PipeLineResourses::uavNULL[0],0); //bind input Oyster::Core::DeviceContext->CSSetShaderResources(0,1,&Oyster::Resources::PipeLineResourses::TempSrv); Oyster::Engine::PrepareForRendering::BindUAV(&Oyster::Resources::PipeLineResourses::LightTarget[target],1); //dispatch blurr vertical Oyster::Core::ShaderManager::Set::Compute(Oyster::Core::ShaderManager::Get::Compute(L"BlurVertical")); Oyster::Core::DeviceContext->Dispatch(instance.sizeY,5,1); //clean Pipeline Oyster::Core::DeviceContext->CSSetShaderResources(0,16,&Oyster::Resources::PipeLineResourses::SrvNulls[0]); Oyster::Core::DeviceContext->CSSetUnorderedAccessViews(0,8,&Oyster::Resources::PipeLineResourses::uavNULL[0],0); } //Pipeline Render void Oyster::Engine::Pipeline::Deffered_Lightning::NewFrame(const Float4& col, const Matrix& View, const Matrix& Projection) { //diffuse Oyster::Core::DeviceContext->ClearRenderTargetView( Oyster::Resources::PipeLineResourses::GeometryTarget[0], col); //Specular Oyster::Core::DeviceContext->ClearRenderTargetView( Oyster::Resources::PipeLineResourses::GeometryTarget[1], col); //Glow Oyster::Core::DeviceContext->ClearRenderTargetView( Oyster::Resources::PipeLineResourses::GeometryTarget[2], col); //Pos Oyster::Core::DeviceContext->ClearRenderTargetView( Oyster::Resources::PipeLineResourses::GeometryTarget[3], col); //Normal Oyster::Core::DeviceContext->ClearRenderTargetView( Oyster::Resources::PipeLineResourses::GeometryTarget[4], col); Oyster::Engine::PrepareForRendering::ClearBackBuffer(col); //Upload Camera to Resources Matrix P = Oyster::Math::Float4x4(Projection); Matrix V = Oyster::Math::Float4x4(View); Matrix VP = V*P; Oyster::Resources::PipeLineResourses::LightData.projectionMatrix = P.GetTranspose(); Oyster::Resources::PipeLineResourses::LightData.viewMatrix = V; //Oyster::Collision3D::Frustrum( VP ).Split(Oyster::Resources::PipeLineResourses::SubFrustrums, Oyster::Resources::PipeLineResourses::FrustrumDimensions.x, Oyster::Resources::PipeLineResourses::FrustrumDimensions.y, Oyster::Resources::PipeLineResourses::FrustrumDimensions.z ); void* dest = Oyster::Resources::ShaderEffects::ModelEffect.CBuffers.Vertex[0]->Map(); memcpy(dest,&VP.GetTranspose(),64); Oyster::Resources::ShaderEffects::ModelEffect.CBuffers.Vertex[0]->Unmap(); dest= Oyster::Resources::ShaderEffects::ModelEffect.CBuffers.Vertex[1]->Map(); memcpy(dest,&V.GetTranspose(),64); Oyster::Resources::ShaderEffects::ModelEffect.CBuffers.Vertex[1]->Unmap(); dest = Oyster::Resources::PipeLineResourses::Resources[0]->Map(); unsigned int bytes=0; for(int i=0;iUnmap(); dest = Oyster::Resources::Buffers::CBufferPipelineCs.Map(); memcpy(dest, &Oyster::Resources::PipeLineResourses::LightData, sizeof( Oyster::Resources::BufferDefinitions::LightStructureBuffer ) ); Oyster::Resources::Buffers::CBufferPipelineCs.Unmap(); } void Oyster::Engine::Pipeline::Deffered_Lightning::BeginRenderGeometry() { Oyster::Engine::PrepareForRendering::BindRenderTargets( Oyster::Resources::PipeLineResourses::GeometryTarget, 5 ); Oyster::Core::ShaderManager::SetShaderEffect( Oyster::Resources::ShaderEffects::ModelEffect ); } void Oyster::Engine::Pipeline::Deffered_Lightning::RenderGeometry(const Oyster::Render::Model* models,int count) { //TODO: Add sorting to minimiza state changes Render::Geometry( models, count, &Oyster::Resources::Buffers::CbufferVS, 2 ); } void Oyster::Engine::Pipeline::Deffered_Lightning::EndRenderGeometry() { //TODO: Actualy Render data from previous pass Oyster::Engine::PrepareForRendering::BindRenderTargets( Oyster::Resources::PipeLineResourses::RtvNulls, 8, NULL ); Oyster::Core::DeviceContext->PSSetShaderResources(0, 16, Oyster::Resources::PipeLineResourses::SrvNulls); } void Oyster::Engine::Pipeline::Deffered_Lightning::InputPointLights(Oyster::Resources::BufferDefinitions::PointLightDescription *p, int nr) { void* dest = Oyster::Resources::PipeLineResourses::Resources[1]->Map(); memcpy(dest, p, sizeof(Oyster::Resources::BufferDefinitions::PointLightDescription) * nr ); Oyster::Resources::PipeLineResourses::Resources[1]->Unmap(); } void Oyster::Engine::Pipeline::Deffered_Lightning::RenderLightning() { Oyster::Engine::PrepareForRendering::BindUAV( Oyster::Resources::PipeLineResourses::LightTarget, 4 ); Oyster::Core::DeviceContext->CSSetShaderResources(0,5, Oyster::Resources::PipeLineResourses::GeometryOut); Oyster::Resources::Buffers::CBufferPipelineCs.Apply(); Oyster::Core::DeviceContext->CSSetShaderResources( 6, 4, Oyster::Resources::PipeLineResourses::ComputeResources ); Oyster::Core::ShaderManager::Set::Compute( Oyster::Core::ShaderManager::Get::Compute(L"Pass0") ); Oyster::Core::DeviceContext->Dispatch( 49, 36, 1 ); //clean Pipeline Oyster::Core::DeviceContext->CSSetShaderResources( 0, 16, Oyster::Resources::PipeLineResourses::SrvNulls ); Oyster::Core::DeviceContext->CSSetUnorderedAccessViews( 0, 8, Oyster::Resources::PipeLineResourses::uavNULL, 0 ); //Blurr //Blur( 2 ); //Blur( 3 ); //clean Pipeline Oyster::Core::DeviceContext->CSSetShaderResources( 0, 16, Oyster::Resources::PipeLineResourses::SrvNulls ); Oyster::Core::DeviceContext->CSSetUnorderedAccessViews( 0, 8, Oyster::Resources::PipeLineResourses::uavNULL, 0 ); //prepare and render final pass Oyster::Engine::PrepareForRendering::BindBackBufferAsUAV(); Oyster::Core::ShaderManager::Set::Compute( Oyster::Core::ShaderManager::Get::Compute(L"Pass1") ); Oyster::Core::DeviceContext->CSSetShaderResources( 0, 4, Oyster::Resources::PipeLineResourses::LightOut ); Oyster::Core::DeviceContext->Dispatch( 49, 36, 1 ); //clean Pipeline Oyster::Core::DeviceContext->CSSetShaderResources( 0, 16, Oyster::Resources::PipeLineResourses::SrvNulls ); Oyster::Core::DeviceContext->CSSetUnorderedAccessViews( 0, 8, Oyster::Resources::PipeLineResourses::uavNULL, 0 ); } //States int Oyster::Engine::States::GetNrOfSSAOSamples() { return instance.States.NrOfSamples; } void Oyster::Engine::States::SetNrOfSSAOSamples(int nr) { instance.States.NrOfSamples = nr; } int Oyster::Engine::States::GetSSAOSampleSpread() { return instance.States.SampleSpread; } void Oyster::Engine::States::SetSSAOSampleSpread(int spread) { instance.States.SampleSpread = spread; } int Oyster::Engine::States::GetMaxPointlights() { return instance.States.NrOfPointlights; } void Oyster::Engine::States::SetMaxPointlights(int nr) { instance.States.NrOfPointlights = nr; }