//-------------------------------------------------------------------------------------- // File: EffectCommon.h // // THIS CODE AND INFORMATION IS PROVIDED "AS IS" WITHOUT WARRANTY OF // ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING BUT NOT LIMITED TO // THE IMPLIED WARRANTIES OF MERCHANTABILITY AND/OR FITNESS FOR A // PARTICULAR PURPOSE. // // Copyright (c) Microsoft Corporation. All rights reserved. // // http://go.microsoft.com/fwlink/?LinkId=248929 //-------------------------------------------------------------------------------------- #pragma once #include #include "Effects.h" #include "PlatformHelpers.h" #include "ConstantBuffer.h" #include "SharedResourcePool.h" #include "AlignedNew.h" // BasicEffect, SkinnedEffect, et al, have many things in common, but also significant // differences (for instance, not all the effects support lighting). This header breaks // out common functionality into a set of helpers which can be assembled in different // combinations to build up whatever subset is needed by each effect. namespace DirectX { // Bitfield tracks which derived parameter values need to be recomputed. namespace EffectDirtyFlags { const int ConstantBuffer = 0x01; const int WorldViewProj = 0x02; const int WorldInverseTranspose = 0x04; const int EyePosition = 0x08; const int MaterialColor = 0x10; const int FogVector = 0x20; const int FogEnable = 0x40; const int AlphaTest = 0x80; } // Helper stores matrix parameter values, and computes derived matrices. struct EffectMatrices { EffectMatrices(); XMMATRIX world; XMMATRIX view; XMMATRIX projection; XMMATRIX worldView; void SetConstants(_Inout_ int& dirtyFlags, _Inout_ XMMATRIX& worldViewProjConstant); }; // Helper stores the current fog settings, and computes derived shader parameters. struct EffectFog { EffectFog(); bool enabled; float start; float end; void XM_CALLCONV SetConstants(_Inout_ int& dirtyFlags, _In_ FXMMATRIX worldView, _Inout_ XMVECTOR& fogVectorConstant); }; // Helper stores material color settings, and computes derived parameters for shaders that do not support realtime lighting. struct EffectColor { EffectColor(); XMVECTOR diffuseColor; float alpha; void SetConstants(_Inout_ int& dirtyFlags, _Inout_ XMVECTOR& diffuseColorConstant); }; // Helper stores the current light settings, and computes derived shader parameters. struct EffectLights : public EffectColor { EffectLights(); static const int MaxDirectionalLights = IEffectLights::MaxDirectionalLights; // Fields. XMVECTOR emissiveColor; XMVECTOR ambientLightColor; bool lightEnabled[MaxDirectionalLights]; XMVECTOR lightDiffuseColor[MaxDirectionalLights]; XMVECTOR lightSpecularColor[MaxDirectionalLights]; // Methods. void InitializeConstants(_Out_ XMVECTOR& specularColorAndPowerConstant, _Out_writes_all_(MaxDirectionalLights) XMVECTOR* lightDirectionConstant, _Out_writes_all_(MaxDirectionalLights) XMVECTOR* lightDiffuseConstant, _Out_writes_all_(MaxDirectionalLights) XMVECTOR* lightSpecularConstant); void SetConstants(_Inout_ int& dirtyFlags, _In_ EffectMatrices const& matrices, _Inout_ XMMATRIX& worldConstant, _Inout_updates_(3) XMVECTOR worldInverseTransposeConstant[3], _Inout_ XMVECTOR& eyePositionConstant, _Inout_ XMVECTOR& diffuseColorConstant, _Inout_ XMVECTOR& emissiveColorConstant, bool lightingEnabled); int SetLightEnabled(int whichLight, bool value, _Inout_updates_(MaxDirectionalLights) XMVECTOR* lightDiffuseConstant, _Inout_updates_(MaxDirectionalLights) XMVECTOR* lightSpecularConstant); int XM_CALLCONV SetLightDiffuseColor(int whichLight, FXMVECTOR value, _Inout_updates_(MaxDirectionalLights) XMVECTOR* lightDiffuseConstant); int XM_CALLCONV SetLightSpecularColor(int whichLight, FXMVECTOR value, _Inout_updates_(MaxDirectionalLights) XMVECTOR* lightSpecularConstant); static void ValidateLightIndex(int whichLight); static void EnableDefaultLighting(_In_ IEffectLights* effect); }; // Points to a precompiled vertex or pixel shader program. struct ShaderBytecode { void const* code; size_t length; }; // Factory for lazily instantiating shaders. BasicEffect supports many different // shader permutations, so we only bother creating the ones that are actually used. class EffectDeviceResources { public: EffectDeviceResources(_In_ ID3D11Device* device) : mDevice(device) { } ID3D11VertexShader* DemandCreateVertexShader(_Inout_ Microsoft::WRL::ComPtr& vertexShader, ShaderBytecode const& bytecode); ID3D11PixelShader * DemandCreatePixelShader (_Inout_ Microsoft::WRL::ComPtr & pixelShader, ShaderBytecode const& bytecode); ID3D11ShaderResourceView* GetDefaultTexture(); protected: Microsoft::WRL::ComPtr mDevice; Microsoft::WRL::ComPtr mDefaultTexture; std::mutex mMutex; }; // Templated base class provides functionality common to all the built-in effects. template class EffectBase : public AlignedNew { public: // Constructor. EffectBase(_In_ ID3D11Device* device) : dirtyFlags(INT_MAX), mConstantBuffer(device), mDeviceResources(deviceResourcesPool.DemandCreate(device)) { ZeroMemory(&constants, sizeof(constants)); } // Fields. typename Traits::ConstantBufferType constants; EffectMatrices matrices; EffectFog fog; Microsoft::WRL::ComPtr texture; int dirtyFlags; // Helper looks up the bytecode for the specified vertex shader permutation. // Client code needs this in order to create matching input layouts. void GetVertexShaderBytecode(int permutation, _Out_ void const** pShaderByteCode, _Out_ size_t* pByteCodeLength) { int shaderIndex = VertexShaderIndices[permutation]; ShaderBytecode const& bytecode = VertexShaderBytecode[shaderIndex]; *pShaderByteCode = bytecode.code; *pByteCodeLength = bytecode.length; } // Helper sets our shaders and constant buffers onto the D3D device. void ApplyShaders(_In_ ID3D11DeviceContext* deviceContext, int permutation) { // Set shaders. auto vertexShader = mDeviceResources->GetVertexShader(permutation); auto pixelShader = mDeviceResources->GetPixelShader(permutation); deviceContext->VSSetShader(vertexShader, nullptr, 0); deviceContext->PSSetShader(pixelShader, nullptr, 0); #if defined(_XBOX_ONE) && defined(_TITLE) void *grfxMemory; mConstantBuffer.SetData(deviceContext, constants, &grfxMemory); Microsoft::WRL::ComPtr deviceContextX; ThrowIfFailed(deviceContext->QueryInterface(IID_GRAPHICS_PPV_ARGS(deviceContextX.GetAddressOf()))); auto buffer = mConstantBuffer.GetBuffer(); deviceContextX->VSSetPlacementConstantBuffer(0, buffer, grfxMemory); deviceContextX->PSSetPlacementConstantBuffer(0, buffer, grfxMemory); #else // Make sure the constant buffer is up to date. if (dirtyFlags & EffectDirtyFlags::ConstantBuffer) { mConstantBuffer.SetData(deviceContext, constants); dirtyFlags &= ~EffectDirtyFlags::ConstantBuffer; } // Set the constant buffer. ID3D11Buffer* buffer = mConstantBuffer.GetBuffer(); deviceContext->VSSetConstantBuffers(0, 1, &buffer); deviceContext->PSSetConstantBuffers(0, 1, &buffer); #endif } // Helper returns the default texture. ID3D11ShaderResourceView* GetDefaultTexture() { return mDeviceResources->GetDefaultTexture(); } protected: // Static arrays hold all the precompiled shader permutations. static const ShaderBytecode VertexShaderBytecode[Traits::VertexShaderCount]; static const ShaderBytecode PixelShaderBytecode[Traits::PixelShaderCount]; static const int VertexShaderIndices[Traits::ShaderPermutationCount]; static const int PixelShaderIndices[Traits::ShaderPermutationCount]; private: // D3D constant buffer holds a copy of the same data as the public 'constants' field. ConstantBuffer mConstantBuffer; // Only one of these helpers is allocated per D3D device, even if there are multiple effect instances. class DeviceResources : protected EffectDeviceResources { public: DeviceResources(_In_ ID3D11Device* device) : EffectDeviceResources(device) { } // Gets or lazily creates the specified vertex shader permutation. ID3D11VertexShader* GetVertexShader(int permutation) { int shaderIndex = VertexShaderIndices[permutation]; return DemandCreateVertexShader(mVertexShaders[shaderIndex], VertexShaderBytecode[shaderIndex]); } // Gets or lazily creates the specified pixel shader permutation. ID3D11PixelShader* GetPixelShader(int permutation) { int shaderIndex = PixelShaderIndices[permutation]; return DemandCreatePixelShader(mPixelShaders[shaderIndex], PixelShaderBytecode[shaderIndex]); } // Gets or lazily creates the default texture ID3D11ShaderResourceView* GetDefaultTexture() { return EffectDeviceResources::GetDefaultTexture(); } private: Microsoft::WRL::ComPtr mVertexShaders[Traits::VertexShaderCount]; Microsoft::WRL::ComPtr mPixelShaders[Traits::PixelShaderCount]; }; // Per-device resources. std::shared_ptr mDeviceResources; static SharedResourcePool deviceResourcesPool; }; }