GiantsTools/Sdk/External/DirectXTK/Src/DGSLEffect.cpp

//--------------------------------------------------------------------------------------
// File: DGSLEffect.cpp
//
// Copyright (c) Microsoft Corporation. All rights reserved.
// Licensed under the MIT License.
//
// http://go.microsoft.com/fwlink/?LinkId=248929
//--------------------------------------------------------------------------------------

#include "pch.h"
#include "EffectCommon.h"
#include "DemandCreate.h"

//
// Based on the Visual Studio 3D Starter Kit
//
// http://aka.ms/vs3dkit
//

namespace DirectX
{
    namespace EffectDirtyFlags
    {
        constexpr int ConstantBufferMaterial = 0x10000;
        constexpr int ConstantBufferLight = 0x20000;
        constexpr int ConstantBufferObject = 0x40000;
        constexpr int ConstantBufferMisc = 0x80000;
        constexpr int ConstantBufferBones = 0x100000;
    }
}

using namespace DirectX;
using Microsoft::WRL::ComPtr;

namespace
{
    // Constant buffer layout. Must match the shader!
#pragma pack(push,1)

// Slot 0
    struct MaterialConstants
    {
        XMVECTOR    Ambient;
        XMVECTOR    Diffuse;
        XMVECTOR    Specular;
        XMVECTOR    Emissive;
        float       SpecularPower;
        float       Padding0;
        float       Padding1;
        float       Padding2;
    };

    // Slot 1
    struct LightConstants
    {
        XMVECTOR    Ambient;
        XMVECTOR    LightColor[DGSLEffect::MaxDirectionalLights];
        XMVECTOR    LightAttenuation[DGSLEffect::MaxDirectionalLights];
        XMVECTOR    LightDirection[DGSLEffect::MaxDirectionalLights];
        XMVECTOR    LightSpecularIntensity[DGSLEffect::MaxDirectionalLights];
        UINT        IsPointLight[DGSLEffect::MaxDirectionalLights];
        UINT        ActiveLights;
        float       Padding0;
        float       Padding1;
        float       Padding2;
    };

    // Note - DGSL does not appear to make use of LightAttenuation or IsPointLight. Not sure if it uses ActiveLights either.

    // Slot 2
    struct ObjectConstants
    {
        XMMATRIX    LocalToWorld4x4;
        XMMATRIX    LocalToProjected4x4;
        XMMATRIX    WorldToLocal4x4;
        XMMATRIX    WorldToView4x4;
        XMMATRIX    UvTransform4x4;
        XMVECTOR    EyePosition;
    };

    // Slot 3
    struct MiscConstants
    {
        float ViewportWidth;
        float ViewportHeight;
        float Time;
        float Padding1;
    };

    // Slot 4
    struct BoneConstants
    {
        XMVECTOR Bones[DGSLEffect::MaxBones][3];
    };

#pragma pack(pop)

    static_assert((sizeof(MaterialConstants) % 16) == 0, "CB size not padded correctly");
    static_assert((sizeof(LightConstants) % 16) == 0, "CB size not padded correctly");
    static_assert((sizeof(ObjectConstants) % 16) == 0, "CB size not padded correctly");
    static_assert((sizeof(MiscConstants) % 16) == 0, "CB size not padded correctly");
    static_assert((sizeof(BoneConstants) % 16) == 0, "CB size not padded correctly");

    __declspec(align(16)) struct DGSLEffectConstants
    {
        MaterialConstants   material;
        LightConstants      light;
        ObjectConstants     object;
        MiscConstants       misc;
        BoneConstants       bones;
    };

    struct DGSLEffectTraits
    {
        static constexpr int VertexShaderCount = 8;
        static constexpr int PixelShaderCount = 12;

        static const ShaderBytecode VertexShaderBytecode[VertexShaderCount];
        static const ShaderBytecode PixelShaderBytecode[PixelShaderCount];
    };
}

// Include the precompiled shader code.
namespace
{
#if defined(_XBOX_ONE) && defined(_TITLE)
    // VS
    #include "Shaders/Compiled/XboxOneDGSLEffect_main.inc"
    #include "Shaders/Compiled/XboxOneDGSLEffect_mainVc.inc"
    #include "Shaders/Compiled/XboxOneDGSLEffect_main1Bones.inc"
    #include "Shaders/Compiled/XboxOneDGSLEffect_main1BonesVc.inc"
    #include "Shaders/Compiled/XboxOneDGSLEffect_main2Bones.inc"
    #include "Shaders/Compiled/XboxOneDGSLEffect_main2BonesVc.inc"
    #include "Shaders/Compiled/XboxOneDGSLEffect_main4Bones.inc"
    #include "Shaders/Compiled/XboxOneDGSLEffect_main4BonesVc.inc"

    // PS
    #include "Shaders/Compiled/XboxOneDGSLUnlit_main.inc"
    #include "Shaders/Compiled/XboxOneDGSLLambert_main.inc"
    #include "Shaders/Compiled/XboxOneDGSLPhong_main.inc"

    #include "Shaders/Compiled/XboxOneDGSLUnlit_mainTk.inc"
    #include "Shaders/Compiled/XboxOneDGSLLambert_mainTk.inc"
    #include "Shaders/Compiled/XboxOneDGSLPhong_mainTk.inc"

    #include "Shaders/Compiled/XboxOneDGSLUnlit_mainTx.inc"
    #include "Shaders/Compiled/XboxOneDGSLLambert_mainTx.inc"
    #include "Shaders/Compiled/XboxOneDGSLPhong_mainTx.inc"

    #include "Shaders/Compiled/XboxOneDGSLUnlit_mainTxTk.inc"
    #include "Shaders/Compiled/XboxOneDGSLLambert_mainTxTk.inc"
    #include "Shaders/Compiled/XboxOneDGSLPhong_mainTxTk.inc"
#else
    // VS
    #include "Shaders/Compiled/DGSLEffect_main.inc"
    #include "Shaders/Compiled/DGSLEffect_mainVc.inc"
    #include "Shaders/Compiled/DGSLEffect_main1Bones.inc"
    #include "Shaders/Compiled/DGSLEffect_main1BonesVc.inc"
    #include "Shaders/Compiled/DGSLEffect_main2Bones.inc"
    #include "Shaders/Compiled/DGSLEffect_main2BonesVc.inc"
    #include "Shaders/Compiled/DGSLEffect_main4Bones.inc"
    #include "Shaders/Compiled/DGSLEffect_main4BonesVc.inc"

    // PS
    #include "Shaders/Compiled/DGSLUnlit_main.inc"
    #include "Shaders/Compiled/DGSLLambert_main.inc"
    #include "Shaders/Compiled/DGSLPhong_main.inc"

    #include "Shaders/Compiled/DGSLUnlit_mainTk.inc"
    #include "Shaders/Compiled/DGSLLambert_mainTk.inc"
    #include "Shaders/Compiled/DGSLPhong_mainTk.inc"

    #include "Shaders/Compiled/DGSLUnlit_mainTx.inc"
    #include "Shaders/Compiled/DGSLLambert_mainTx.inc"
    #include "Shaders/Compiled/DGSLPhong_mainTx.inc"

    #include "Shaders/Compiled/DGSLUnlit_mainTxTk.inc"
    #include "Shaders/Compiled/DGSLLambert_mainTxTk.inc"
    #include "Shaders/Compiled/DGSLPhong_mainTxTk.inc"
#endif
}


const ShaderBytecode DGSLEffectTraits::VertexShaderBytecode[] =
{
    { DGSLEffect_main, sizeof(DGSLEffect_main) },
    { DGSLEffect_mainVc, sizeof(DGSLEffect_mainVc) },
    { DGSLEffect_main1Bones, sizeof(DGSLEffect_main1Bones) },
    { DGSLEffect_main1BonesVc, sizeof(DGSLEffect_main1BonesVc) },
    { DGSLEffect_main2Bones, sizeof(DGSLEffect_main2Bones) },
    { DGSLEffect_main2BonesVc, sizeof(DGSLEffect_main2BonesVc) },
    { DGSLEffect_main4Bones, sizeof(DGSLEffect_main4Bones) },
    { DGSLEffect_main4BonesVc, sizeof(DGSLEffect_main4BonesVc) },
};


const ShaderBytecode DGSLEffectTraits::PixelShaderBytecode[] =
{
    { DGSLUnlit_main, sizeof(DGSLUnlit_main) },             // UNLIT (no texture)
    { DGSLLambert_main, sizeof(DGSLLambert_main) },         // LAMBERT (no texture)
    { DGSLPhong_main, sizeof(DGSLPhong_main) },             // PHONG (no texture)

    { DGSLUnlit_mainTx, sizeof(DGSLUnlit_mainTx) },         // UNLIT (textured)
    { DGSLLambert_mainTx, sizeof(DGSLLambert_mainTx) },     // LAMBERT (textured)
    { DGSLPhong_mainTx, sizeof(DGSLPhong_mainTx) },         // PHONG (textured)

    { DGSLUnlit_mainTk, sizeof(DGSLUnlit_mainTk) },         // UNLIT (no texture, discard)
    { DGSLLambert_mainTk, sizeof(DGSLLambert_mainTk) },     // LAMBERT (no texture, discard)
    { DGSLPhong_mainTk, sizeof(DGSLPhong_mainTk) },         // PHONG (no texture, discard)

    { DGSLUnlit_mainTxTk, sizeof(DGSLUnlit_mainTxTk) },     // UNLIT (textured, discard)
    { DGSLLambert_mainTxTk, sizeof(DGSLLambert_mainTxTk) }, // LAMBERT (textured, discard)
    { DGSLPhong_mainTxTk, sizeof(DGSLPhong_mainTxTk) },     // PHONG (textured, discard)
};


class DGSLEffect::Impl : public AlignedNew<DGSLEffectConstants>
{
public:
    Impl(_In_ ID3D11Device* device, _In_opt_ ID3D11PixelShader* pixelShader, _In_ bool enableSkinning) :
        constants{},
        dirtyFlags(INT_MAX),
        vertexColorEnabled(false),
        textureEnabled(false),
        specularEnabled(false),
        alphaDiscardEnabled(false),
        weightsPerVertex(enableSkinning ? 4 : 0),
        mCBMaterial(device),
        mCBLight(device),
        mCBObject(device),
        mCBMisc(device),
        mPixelShader(pixelShader),
        mDeviceResources(deviceResourcesPool.DemandCreate(device))
    {
        static_assert(_countof(DGSLEffectTraits::VertexShaderBytecode) == DGSLEffectTraits::VertexShaderCount, "array/max mismatch");
        static_assert(_countof(DGSLEffectTraits::PixelShaderBytecode) == DGSLEffectTraits::PixelShaderCount, "array/max mismatch");

        XMMATRIX id = XMMatrixIdentity();
        world = id;
        view = id;
        projection = id;
        constants.material.Diffuse = g_XMOne;
        constants.material.Specular = g_XMOne;
        constants.material.SpecularPower = 16;
        constants.object.UvTransform4x4 = id;

        static_assert(MaxDirectionalLights == 4, "Mismatch with DGSL pipline");
        for (int i = 0; i < MaxDirectionalLights; ++i)
        {
            lightEnabled[i] = (i == 0);
            lightDiffuseColor[i] = g_XMZero;
            lightSpecularColor[i] = g_XMOne;

            constants.light.LightDirection[i] = g_XMNegIdentityR1;
            constants.light.LightColor[i] = lightEnabled[i] ? lightDiffuseColor[i] : g_XMZero;
            constants.light.LightSpecularIntensity[i] = lightEnabled[i] ? lightSpecularColor[i] : g_XMZero;
        }

        if (enableSkinning)
        {
            mCBBone.Create(device);

            for (size_t j = 0; j < MaxBones; ++j)
            {
                constants.bones.Bones[j][0] = g_XMIdentityR0;
                constants.bones.Bones[j][1] = g_XMIdentityR1;
                constants.bones.Bones[j][2] = g_XMIdentityR2;
            }
        }
    }

    // Methods
    void Apply(_In_ ID3D11DeviceContext* deviceContext);
    void GetVertexShaderBytecode(_Out_ void const** pShaderByteCode, _Out_ size_t* pByteCodeLength) noexcept;

    // Fields
    DGSLEffectConstants constants;

    XMMATRIX world;
    XMMATRIX view;
    XMMATRIX projection;

    bool lightEnabled[MaxDirectionalLights];
    XMVECTOR lightDiffuseColor[MaxDirectionalLights];
    XMVECTOR lightSpecularColor[MaxDirectionalLights];

    ComPtr<ID3D11ShaderResourceView> textures[MaxTextures];

    int dirtyFlags;

    bool vertexColorEnabled;
    bool textureEnabled;
    bool specularEnabled;
    bool alphaDiscardEnabled;
    int weightsPerVertex;

private:
    ConstantBuffer<MaterialConstants>           mCBMaterial;
    ConstantBuffer<LightConstants>              mCBLight;
    ConstantBuffer<ObjectConstants>             mCBObject;
    ConstantBuffer<MiscConstants>               mCBMisc;
    ConstantBuffer<BoneConstants>               mCBBone;
    ComPtr<ID3D11PixelShader>                   mPixelShader;

    int GetCurrentVSPermutation() const noexcept;
    int GetCurrentPSPermutation() const noexcept;

    // 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) noexcept
            : EffectDeviceResources(device),
            mVertexShaders{},
            mPixelShaders{}
        { }

        // Gets or lazily creates the vertex shader.
        ID3D11VertexShader* GetVertexShader(int permutation)
        {
            assert(permutation >= 0 && permutation < DGSLEffectTraits::VertexShaderCount);

            return DemandCreateVertexShader(mVertexShaders[permutation], DGSLEffectTraits::VertexShaderBytecode[permutation]);
        }

        // Gets or lazily creates the specified pixel shader permutation.
        ID3D11PixelShader* GetPixelShader(int permutation)
        {
            assert(permutation >= 0 && permutation < DGSLEffectTraits::PixelShaderCount);

            return DemandCreatePixelShader(mPixelShaders[permutation], DGSLEffectTraits::PixelShaderBytecode[permutation]);
        }

        // Gets or lazily creates the default texture
        ID3D11ShaderResourceView* GetDefaultTexture() { return EffectDeviceResources::GetDefaultTexture(); }


    private:
        ComPtr<ID3D11VertexShader> mVertexShaders[DGSLEffectTraits::VertexShaderCount];
        ComPtr<ID3D11PixelShader> mPixelShaders[DGSLEffectTraits::PixelShaderCount];
    };

    // Per-device resources.
    std::shared_ptr<DeviceResources> mDeviceResources;

    static SharedResourcePool<ID3D11Device*, DeviceResources> deviceResourcesPool;
};


// Global pool of per-device DGSLEffect resources.
SharedResourcePool<ID3D11Device*, DGSLEffect::Impl::DeviceResources> DGSLEffect::Impl::deviceResourcesPool;


void DGSLEffect::Impl::Apply(_In_ ID3D11DeviceContext* deviceContext)
{
    auto vertexShader = mDeviceResources->GetVertexShader(GetCurrentVSPermutation());
    auto pixelShader = mPixelShader.Get();
    if (!pixelShader)
    {
        pixelShader = mDeviceResources->GetPixelShader(GetCurrentPSPermutation());
    }

    deviceContext->VSSetShader(vertexShader, nullptr, 0);
    deviceContext->PSSetShader(pixelShader, nullptr, 0);

    // Check for any required matrices updates
    if (dirtyFlags & EffectDirtyFlags::WorldViewProj)
    {
        constants.object.LocalToWorld4x4 = XMMatrixTranspose(world);
        constants.object.WorldToView4x4 = XMMatrixTranspose(view);

        XMMATRIX worldView = XMMatrixMultiply(world, view);

        constants.object.LocalToProjected4x4 = XMMatrixTranspose(XMMatrixMultiply(worldView, projection));

        dirtyFlags &= ~EffectDirtyFlags::WorldViewProj;
        dirtyFlags |= EffectDirtyFlags::ConstantBufferObject;
    }

    if (dirtyFlags & EffectDirtyFlags::WorldInverseTranspose)
    {
        XMMATRIX worldInverse = XMMatrixInverse(nullptr, world);

        constants.object.WorldToLocal4x4 = XMMatrixTranspose(worldInverse);

        dirtyFlags &= ~EffectDirtyFlags::WorldInverseTranspose;
        dirtyFlags |= EffectDirtyFlags::ConstantBufferObject;
    }

    if (dirtyFlags & EffectDirtyFlags::EyePosition)
    {
        XMMATRIX viewInverse = XMMatrixInverse(nullptr, view);

        constants.object.EyePosition = viewInverse.r[3];

        dirtyFlags &= ~EffectDirtyFlags::EyePosition;
        dirtyFlags |= EffectDirtyFlags::ConstantBufferObject;
    }

#if defined(_XBOX_ONE) && defined(_TITLE)
    void* grfxMemoryMaterial;
    mCBMaterial.SetData(deviceContext, constants.material, &grfxMemoryMaterial);

    void* grfxMemoryLight;
    mCBLight.SetData(deviceContext, constants.light, &grfxMemoryLight);

    void* grfxMemoryObject;
    mCBObject.SetData(deviceContext, constants.object, &grfxMemoryObject);

    void *grfxMemoryMisc;
    mCBMisc.SetData(deviceContext, constants.misc, &grfxMemoryMisc);

    ComPtr<ID3D11DeviceContextX> deviceContextX;
    ThrowIfFailed(deviceContext->QueryInterface(IID_GRAPHICS_PPV_ARGS(deviceContextX.GetAddressOf())));

    auto buffer = mCBMaterial.GetBuffer();
    deviceContextX->VSSetPlacementConstantBuffer(0, buffer, grfxMemoryMaterial);
    deviceContextX->PSSetPlacementConstantBuffer(0, buffer, grfxMemoryMaterial);

    buffer = mCBLight.GetBuffer();
    deviceContextX->VSSetPlacementConstantBuffer(1, buffer, grfxMemoryMaterial);
    deviceContextX->PSSetPlacementConstantBuffer(1, buffer, grfxMemoryMaterial);

    buffer = mCBObject.GetBuffer();
    deviceContextX->VSSetPlacementConstantBuffer(2, buffer, grfxMemoryObject);
    deviceContextX->PSSetPlacementConstantBuffer(2, buffer, grfxMemoryObject);

    buffer = mCBMisc.GetBuffer();
    deviceContextX->VSSetPlacementConstantBuffer(3, buffer, grfxMemoryMisc);
    deviceContextX->PSSetPlacementConstantBuffer(3, buffer, grfxMemoryMisc);

    if (weightsPerVertex > 0)
    {
        void* grfxMemoryBone;
        mCBBone.SetData(deviceContext, constants.bones, &grfxMemoryBone);

        deviceContextX->VSSetPlacementConstantBuffer(4, mCBBone.GetBuffer(), grfxMemoryBone);
    }
#else
    // Make sure the constant buffers are up to date.
    if (dirtyFlags & EffectDirtyFlags::ConstantBufferMaterial)
    {
        mCBMaterial.SetData(deviceContext, constants.material);

        dirtyFlags &= ~EffectDirtyFlags::ConstantBufferMaterial;
    }

    if (dirtyFlags & EffectDirtyFlags::ConstantBufferLight)
    {
        mCBLight.SetData(deviceContext, constants.light);

        dirtyFlags &= ~EffectDirtyFlags::ConstantBufferLight;
    }

    if (dirtyFlags & EffectDirtyFlags::ConstantBufferObject)
    {
        mCBObject.SetData(deviceContext, constants.object);

        dirtyFlags &= ~EffectDirtyFlags::ConstantBufferObject;
    }

    if (dirtyFlags & EffectDirtyFlags::ConstantBufferMisc)
    {
        mCBMisc.SetData(deviceContext, constants.misc);

        dirtyFlags &= ~EffectDirtyFlags::ConstantBufferMisc;
    }

    if (weightsPerVertex > 0)
    {
        if (dirtyFlags & EffectDirtyFlags::ConstantBufferBones)
        {
            mCBBone.SetData(deviceContext, constants.bones);

            dirtyFlags &= ~EffectDirtyFlags::ConstantBufferBones;
        }

        ID3D11Buffer* buffers[5] = { mCBMaterial.GetBuffer(), mCBLight.GetBuffer(), mCBObject.GetBuffer(),
                                     mCBMisc.GetBuffer(), mCBBone.GetBuffer() };

        deviceContext->VSSetConstantBuffers(0, 5, buffers);
        deviceContext->PSSetConstantBuffers(0, 4, buffers);
    }
    else
    {
        ID3D11Buffer* buffers[4] = { mCBMaterial.GetBuffer(), mCBLight.GetBuffer(), mCBObject.GetBuffer(), mCBMisc.GetBuffer() };

        deviceContext->VSSetConstantBuffers(0, 4, buffers);
        deviceContext->PSSetConstantBuffers(0, 4, buffers);
    }
#endif

    // Set the textures
    if (textureEnabled)
    {
        ID3D11ShaderResourceView* txt[MaxTextures] = { textures[0].Get(), textures[1].Get(), textures[2].Get(), textures[3].Get(),
                                                       textures[4].Get(), textures[5].Get(), textures[6].Get(), textures[7].Get() };
        deviceContext->PSSetShaderResources(0, MaxTextures, txt);
    }
    else
    {
        ID3D11ShaderResourceView* txt[MaxTextures] = { mDeviceResources->GetDefaultTexture(), nullptr };
        deviceContext->PSSetShaderResources(0, MaxTextures, txt);
    }
}


void DGSLEffect::Impl::GetVertexShaderBytecode(_Out_ void const** pShaderByteCode, _Out_ size_t* pByteCodeLength) noexcept
{
    int permutation = GetCurrentVSPermutation();

    assert(permutation < DGSLEffectTraits::VertexShaderCount);
    _Analysis_assume_(permutation < DGSLEffectTraits::VertexShaderCount);

    auto shader = DGSLEffectTraits::VertexShaderBytecode[permutation];
    *pShaderByteCode = shader.code;
    *pByteCodeLength = shader.length;
}


int DGSLEffect::Impl::GetCurrentVSPermutation() const noexcept
{
    int permutation = (vertexColorEnabled) ? 1 : 0;

    if (weightsPerVertex > 0)
    {
        // Evaluate 1, 2, or 4 weights per vertex?
        permutation += 2;

        if (weightsPerVertex == 2)
        {
            permutation += 2;
        }
        else if (weightsPerVertex == 4)
        {
            permutation += 4;
        }
    }

    return permutation;
}


int DGSLEffect::Impl::GetCurrentPSPermutation() const noexcept
{
    int permutation = 0;

    if (constants.light.ActiveLights > 0)
    {
        permutation = (specularEnabled) ? 2 : 1;
    }

    if (textureEnabled)
        permutation += 3;

    if (alphaDiscardEnabled)
        permutation += 6;

    return permutation;
}



//--------------------------------------------------------------------------------------
// DGSLEffect
//--------------------------------------------------------------------------------------

DGSLEffect::DGSLEffect(_In_ ID3D11Device* device, _In_opt_ ID3D11PixelShader* pixelShader, _In_ bool enableSkinning)
    : pImpl(std::make_unique<Impl>(device, pixelShader, enableSkinning))
{
}


DGSLEffect::DGSLEffect(DGSLEffect&& moveFrom) noexcept
    : pImpl(std::move(moveFrom.pImpl))
{
}


DGSLEffect& DGSLEffect::operator= (DGSLEffect&& moveFrom) noexcept
{
    pImpl = std::move(moveFrom.pImpl);
    return *this;
}


DGSLEffect::~DGSLEffect()
{
}


// IEffect methods.
void DGSLEffect::Apply(_In_ ID3D11DeviceContext* deviceContext)
{
    pImpl->Apply(deviceContext);
}


void DGSLEffect::GetVertexShaderBytecode(_Out_ void const** pShaderByteCode, _Out_ size_t* pByteCodeLength)
{
    pImpl->GetVertexShaderBytecode(pShaderByteCode, pByteCodeLength);
}


// Camera settings.
void XM_CALLCONV DGSLEffect::SetWorld(FXMMATRIX value)
{
    pImpl->world = value;

    pImpl->dirtyFlags |= EffectDirtyFlags::WorldViewProj | EffectDirtyFlags::WorldInverseTranspose;
}


void XM_CALLCONV DGSLEffect::SetView(FXMMATRIX value)
{
    pImpl->view = value;

    pImpl->dirtyFlags |= EffectDirtyFlags::WorldViewProj | EffectDirtyFlags::EyePosition;
}


void XM_CALLCONV DGSLEffect::SetProjection(FXMMATRIX value)
{
    pImpl->projection = value;

    pImpl->dirtyFlags |= EffectDirtyFlags::WorldViewProj;
}


void XM_CALLCONV DGSLEffect::SetMatrices(FXMMATRIX world, CXMMATRIX view, CXMMATRIX projection)
{
    pImpl->world = world;
    pImpl->view = view;
    pImpl->projection = projection;

    pImpl->dirtyFlags |= EffectDirtyFlags::WorldViewProj | EffectDirtyFlags::WorldInverseTranspose | EffectDirtyFlags::EyePosition;
}


// Material settings.
void XM_CALLCONV DGSLEffect::SetAmbientColor(FXMVECTOR value)
{
    pImpl->constants.material.Ambient = value;

    pImpl->dirtyFlags |= EffectDirtyFlags::ConstantBufferMaterial;
}


void XM_CALLCONV DGSLEffect::SetDiffuseColor(FXMVECTOR value)
{
    pImpl->constants.material.Diffuse = XMVectorSelect(pImpl->constants.material.Diffuse, value, g_XMSelect1110);

    pImpl->dirtyFlags |= EffectDirtyFlags::ConstantBufferMaterial;
}


void XM_CALLCONV DGSLEffect::SetEmissiveColor(FXMVECTOR value)
{
    pImpl->constants.material.Emissive = value;

    pImpl->dirtyFlags |= EffectDirtyFlags::ConstantBufferMaterial;
}


void XM_CALLCONV DGSLEffect::SetSpecularColor(FXMVECTOR value)
{
    pImpl->specularEnabled = true;
    pImpl->constants.material.Specular = value;

    pImpl->dirtyFlags |= EffectDirtyFlags::ConstantBufferMaterial;
}


void DGSLEffect::SetSpecularPower(float value)
{
    pImpl->specularEnabled = true;
    pImpl->constants.material.SpecularPower = value;

    pImpl->dirtyFlags |= EffectDirtyFlags::ConstantBufferMaterial;
}


void DGSLEffect::DisableSpecular()
{
    pImpl->specularEnabled = false;
    pImpl->constants.material.Specular = g_XMZero;
    pImpl->constants.material.SpecularPower = 1.f;

    pImpl->dirtyFlags |= EffectDirtyFlags::ConstantBufferMaterial;
}


void DGSLEffect::SetAlpha(float value)
{
    // Set w to new value, but preserve existing xyz (diffuse color).
    pImpl->constants.material.Diffuse = XMVectorSetW(pImpl->constants.material.Diffuse, value);

    pImpl->dirtyFlags |= EffectDirtyFlags::ConstantBufferMaterial;
}


void XM_CALLCONV DGSLEffect::SetColorAndAlpha(FXMVECTOR value)
{
    pImpl->constants.material.Diffuse = value;

    pImpl->dirtyFlags |= EffectDirtyFlags::ConstantBufferMaterial;
}


// Additional settings.
void XM_CALLCONV DGSLEffect::SetUVTransform(FXMMATRIX value)
{
    pImpl->constants.object.UvTransform4x4 = XMMatrixTranspose(value);

    pImpl->dirtyFlags |= EffectDirtyFlags::ConstantBufferObject;
}


void DGSLEffect::SetViewport(float width, float height)
{
    pImpl->constants.misc.ViewportWidth = width;
    pImpl->constants.misc.ViewportHeight = height;

    pImpl->dirtyFlags |= EffectDirtyFlags::ConstantBufferMisc;
}


void DGSLEffect::SetTime(float time)
{
    pImpl->constants.misc.Time = time;

    pImpl->dirtyFlags |= EffectDirtyFlags::ConstantBufferMisc;
}


void DGSLEffect::SetAlphaDiscardEnable(bool value)
{
    pImpl->alphaDiscardEnabled = value;
}


// Light settings.
void DGSLEffect::SetLightingEnabled(bool value)
{
    if (value)
    {
        if (!pImpl->constants.light.ActiveLights)
            pImpl->constants.light.ActiveLights = 1;
    }
    else
    {
        pImpl->constants.light.ActiveLights = 0;
    }

    pImpl->dirtyFlags |= EffectDirtyFlags::ConstantBufferLight;
}


void DGSLEffect::SetPerPixelLighting(bool)
{
    // Unsupported interface method.
}


void XM_CALLCONV DGSLEffect::SetAmbientLightColor(FXMVECTOR value)
{
    pImpl->constants.light.Ambient = value;

    pImpl->dirtyFlags |= EffectDirtyFlags::ConstantBufferLight;
}


void DGSLEffect::SetLightEnabled(int whichLight, bool value)
{
    if (whichLight < 0 || whichLight >= MaxDirectionalLights)
        throw std::out_of_range("whichLight parameter out of range");

    if (pImpl->lightEnabled[whichLight] == value)
        return;

    pImpl->lightEnabled[whichLight] = value;

    if (value)
    {
        if (whichLight >= static_cast<int>(pImpl->constants.light.ActiveLights))
            pImpl->constants.light.ActiveLights = static_cast<UINT>(whichLight + 1);

        pImpl->constants.light.LightColor[whichLight] = pImpl->lightDiffuseColor[whichLight];
        pImpl->constants.light.LightSpecularIntensity[whichLight] = pImpl->lightSpecularColor[whichLight];
    }
    else
    {
        pImpl->constants.light.LightColor[whichLight] =
            pImpl->constants.light.LightSpecularIntensity[whichLight] = g_XMZero;
    }

    pImpl->dirtyFlags |= EffectDirtyFlags::ConstantBufferLight;
}


void XM_CALLCONV DGSLEffect::SetLightDirection(int whichLight, FXMVECTOR value)
{
    if (whichLight < 0 || whichLight >= MaxDirectionalLights)
        throw std::out_of_range("whichLight parameter out of range");

    // DGSL effects lights do not negate the direction like BasicEffect
    pImpl->constants.light.LightDirection[whichLight] = XMVectorNegate(value);

    pImpl->dirtyFlags |= EffectDirtyFlags::ConstantBufferLight;
}


void XM_CALLCONV DGSLEffect::SetLightDiffuseColor(int whichLight, FXMVECTOR value)
{
    if (whichLight < 0 || whichLight >= MaxDirectionalLights)
        throw std::out_of_range("whichLight parameter out of range");

    pImpl->lightDiffuseColor[whichLight] = value;

    if (pImpl->lightEnabled[whichLight])
    {
        pImpl->constants.light.LightColor[whichLight] = value;

        pImpl->dirtyFlags |= EffectDirtyFlags::ConstantBufferLight;
    }
}


void XM_CALLCONV DGSLEffect::SetLightSpecularColor(int whichLight, FXMVECTOR value)
{
    if (whichLight < 0 || whichLight >= MaxDirectionalLights)
        throw std::out_of_range("whichLight parameter out of range");

    pImpl->lightSpecularColor[whichLight] = value;

    if (pImpl->lightEnabled[whichLight])
    {
        pImpl->constants.light.LightSpecularIntensity[whichLight] = value;

        pImpl->dirtyFlags |= EffectDirtyFlags::ConstantBufferLight;
    }
}


void DGSLEffect::EnableDefaultLighting()
{
    EffectLights::EnableDefaultLighting(this);
}


// Vertex color setting.
void DGSLEffect::SetVertexColorEnabled(bool value)
{
    pImpl->vertexColorEnabled = value;
}


// Texture settings.
void DGSLEffect::SetTextureEnabled(bool value)
{
    pImpl->textureEnabled = value;
}


void DGSLEffect::SetTexture(_In_opt_ ID3D11ShaderResourceView* value)
{
    pImpl->textures[0] = value;
}

void DGSLEffect::SetTexture(int whichTexture, _In_opt_ ID3D11ShaderResourceView* value)
{
    if (whichTexture < 0 || whichTexture >= MaxTextures)
        throw std::out_of_range("whichTexture parameter out of range");

    pImpl->textures[whichTexture] = value;
}


// Animation settings.
void DGSLEffect::SetWeightsPerVertex(int value)
{
    if (!pImpl->weightsPerVertex)
    {
        // Safe to ignore since it's only an optimization hint
        return;
    }

    if ((value != 1) &&
        (value != 2) &&
        (value != 4))
    {
        throw std::out_of_range("WeightsPerVertex must be 1, 2, or 4");
    }

    pImpl->weightsPerVertex = value;
}


void DGSLEffect::SetBoneTransforms(_In_reads_(count) XMMATRIX const* value, size_t count)
{
    if (!pImpl->weightsPerVertex)
        throw std::exception("Skinning not enabled for this effect");

    if (count > MaxBones)
        throw std::out_of_range("count parameter out of range");

    auto boneConstant = pImpl->constants.bones.Bones;

    for (size_t i = 0; i < count; i++)
    {
        XMMATRIX boneMatrix = XMMatrixTranspose(value[i]);

        boneConstant[i][0] = boneMatrix.r[0];
        boneConstant[i][1] = boneMatrix.r[1];
        boneConstant[i][2] = boneMatrix.r[2];
    }

    pImpl->dirtyFlags |= EffectDirtyFlags::ConstantBufferBones;
}


void DGSLEffect::ResetBoneTransforms()
{
    if (!pImpl->weightsPerVertex)
    {
        // Safe to ignore since it just returns things back to default settings
        return;
    }

    auto boneConstant = pImpl->constants.bones.Bones;

    for (size_t i = 0; i < MaxBones; ++i)
    {
        boneConstant[i][0] = g_XMIdentityR0;
        boneConstant[i][1] = g_XMIdentityR1;
        boneConstant[i][2] = g_XMIdentityR2;
    }

    pImpl->dirtyFlags |= EffectDirtyFlags::ConstantBufferBones;
}