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

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//--------------------------------------------------------------------------------------
// File: AlphaTestEffect.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"
using namespace DirectX;
namespace
{
// Constant buffer layout. Must match the shader!
struct AlphaTestEffectConstants
{
XMVECTOR diffuseColor;
XMVECTOR alphaTest;
XMVECTOR fogColor;
XMVECTOR fogVector;
XMMATRIX worldViewProj;
};
static_assert((sizeof(AlphaTestEffectConstants) % 16) == 0, "CB size not padded correctly");
// Traits type describes our characteristics to the EffectBase template.
struct AlphaTestEffectTraits
{
using ConstantBufferType = AlphaTestEffectConstants;
static constexpr int VertexShaderCount = 4;
static constexpr int PixelShaderCount = 4;
static constexpr int ShaderPermutationCount = 8;
};
}
// Internal AlphaTestEffect implementation class.
class AlphaTestEffect::Impl : public EffectBase<AlphaTestEffectTraits>
{
public:
Impl(_In_ ID3D11Device* device);
D3D11_COMPARISON_FUNC alphaFunction;
int referenceAlpha;
bool vertexColorEnabled;
EffectColor color;
int GetCurrentShaderPermutation() const noexcept;
void Apply(_In_ ID3D11DeviceContext* deviceContext);
};
// Include the precompiled shader code.
namespace
{
#if defined(_XBOX_ONE) && defined(_TITLE)
#include "Shaders/Compiled/XboxOneAlphaTestEffect_VSAlphaTest.inc"
#include "Shaders/Compiled/XboxOneAlphaTestEffect_VSAlphaTestNoFog.inc"
#include "Shaders/Compiled/XboxOneAlphaTestEffect_VSAlphaTestVc.inc"
#include "Shaders/Compiled/XboxOneAlphaTestEffect_VSAlphaTestVcNoFog.inc"
#include "Shaders/Compiled/XboxOneAlphaTestEffect_PSAlphaTestLtGt.inc"
#include "Shaders/Compiled/XboxOneAlphaTestEffect_PSAlphaTestLtGtNoFog.inc"
#include "Shaders/Compiled/XboxOneAlphaTestEffect_PSAlphaTestEqNe.inc"
#include "Shaders/Compiled/XboxOneAlphaTestEffect_PSAlphaTestEqNeNoFog.inc"
#else
#include "Shaders/Compiled/AlphaTestEffect_VSAlphaTest.inc"
#include "Shaders/Compiled/AlphaTestEffect_VSAlphaTestNoFog.inc"
#include "Shaders/Compiled/AlphaTestEffect_VSAlphaTestVc.inc"
#include "Shaders/Compiled/AlphaTestEffect_VSAlphaTestVcNoFog.inc"
#include "Shaders/Compiled/AlphaTestEffect_PSAlphaTestLtGt.inc"
#include "Shaders/Compiled/AlphaTestEffect_PSAlphaTestLtGtNoFog.inc"
#include "Shaders/Compiled/AlphaTestEffect_PSAlphaTestEqNe.inc"
#include "Shaders/Compiled/AlphaTestEffect_PSAlphaTestEqNeNoFog.inc"
#endif
}
template<>
const ShaderBytecode EffectBase<AlphaTestEffectTraits>::VertexShaderBytecode[] =
{
{ AlphaTestEffect_VSAlphaTest, sizeof(AlphaTestEffect_VSAlphaTest) },
{ AlphaTestEffect_VSAlphaTestNoFog, sizeof(AlphaTestEffect_VSAlphaTestNoFog) },
{ AlphaTestEffect_VSAlphaTestVc, sizeof(AlphaTestEffect_VSAlphaTestVc) },
{ AlphaTestEffect_VSAlphaTestVcNoFog, sizeof(AlphaTestEffect_VSAlphaTestVcNoFog) },
};
template<>
const int EffectBase<AlphaTestEffectTraits>::VertexShaderIndices[] =
{
0, // lt/gt
1, // lt/gt, no fog
2, // lt/gt, vertex color
3, // lt/gt, vertex color, no fog
0, // eq/ne
1, // eq/ne, no fog
2, // eq/ne, vertex color
3, // eq/ne, vertex color, no fog
};
template<>
const ShaderBytecode EffectBase<AlphaTestEffectTraits>::PixelShaderBytecode[] =
{
{ AlphaTestEffect_PSAlphaTestLtGt, sizeof(AlphaTestEffect_PSAlphaTestLtGt) },
{ AlphaTestEffect_PSAlphaTestLtGtNoFog, sizeof(AlphaTestEffect_PSAlphaTestLtGtNoFog) },
{ AlphaTestEffect_PSAlphaTestEqNe, sizeof(AlphaTestEffect_PSAlphaTestEqNe) },
{ AlphaTestEffect_PSAlphaTestEqNeNoFog, sizeof(AlphaTestEffect_PSAlphaTestEqNeNoFog) },
};
template<>
const int EffectBase<AlphaTestEffectTraits>::PixelShaderIndices[] =
{
0, // lt/gt
1, // lt/gt, no fog
0, // lt/gt, vertex color
1, // lt/gt, vertex color, no fog
2, // eq/ne
3, // eq/ne, no fog
2, // eq/ne, vertex color
3, // eq/ne, vertex color, no fog
};
// Global pool of per-device AlphaTestEffect resources.
template<>
SharedResourcePool<ID3D11Device*, EffectBase<AlphaTestEffectTraits>::DeviceResources> EffectBase<AlphaTestEffectTraits>::deviceResourcesPool = {};
// Constructor.
AlphaTestEffect::Impl::Impl(_In_ ID3D11Device* device)
: EffectBase(device),
alphaFunction(D3D11_COMPARISON_GREATER),
referenceAlpha(0),
vertexColorEnabled(false)
{
static_assert(_countof(EffectBase<AlphaTestEffectTraits>::VertexShaderIndices) == AlphaTestEffectTraits::ShaderPermutationCount, "array/max mismatch");
static_assert(_countof(EffectBase<AlphaTestEffectTraits>::VertexShaderBytecode) == AlphaTestEffectTraits::VertexShaderCount, "array/max mismatch");
static_assert(_countof(EffectBase<AlphaTestEffectTraits>::PixelShaderBytecode) == AlphaTestEffectTraits::PixelShaderCount, "array/max mismatch");
static_assert(_countof(EffectBase<AlphaTestEffectTraits>::PixelShaderIndices) == AlphaTestEffectTraits::ShaderPermutationCount, "array/max mismatch");
}
int AlphaTestEffect::Impl::GetCurrentShaderPermutation() const noexcept
{
int permutation = 0;
// Use optimized shaders if fog is disabled.
if (!fog.enabled)
{
permutation += 1;
}
// Support vertex coloring?
if (vertexColorEnabled)
{
permutation += 2;
}
// Which alpha compare mode?
if (alphaFunction == D3D11_COMPARISON_EQUAL ||
alphaFunction == D3D11_COMPARISON_NOT_EQUAL)
{
permutation += 4;
}
return permutation;
}
// Sets our state onto the D3D device.
void AlphaTestEffect::Impl::Apply(_In_ ID3D11DeviceContext* deviceContext)
{
// Compute derived parameter values.
matrices.SetConstants(dirtyFlags, constants.worldViewProj);
fog.SetConstants(dirtyFlags, matrices.worldView, constants.fogVector);
color.SetConstants(dirtyFlags, constants.diffuseColor);
// Recompute the alpha test settings?
if (dirtyFlags & EffectDirtyFlags::AlphaTest)
{
// Convert reference alpha from 8 bit integer to 0-1 float format.
auto reference = static_cast<float>(referenceAlpha) / 255.0f;
// Comparison tolerance of half the 8 bit integer precision.
const float threshold = 0.5f / 255.0f;
// What to do if the alpha comparison passes or fails. Positive accepts the pixel, negative clips it.
static const XMVECTORF32 selectIfTrue = { { { 1, -1 } } };
static const XMVECTORF32 selectIfFalse = { { { -1, 1 } } };
static const XMVECTORF32 selectNever = { { { -1, -1 } } };
static const XMVECTORF32 selectAlways = { { { 1, 1 } } };
float compareTo;
XMVECTOR resultSelector;
switch (alphaFunction)
{
case D3D11_COMPARISON_LESS:
// Shader will evaluate: clip((a < x) ? z : w)
compareTo = reference - threshold;
resultSelector = selectIfTrue;
break;
case D3D11_COMPARISON_LESS_EQUAL:
// Shader will evaluate: clip((a < x) ? z : w)
compareTo = reference + threshold;
resultSelector = selectIfTrue;
break;
case D3D11_COMPARISON_GREATER_EQUAL:
// Shader will evaluate: clip((a < x) ? z : w)
compareTo = reference - threshold;
resultSelector = selectIfFalse;
break;
case D3D11_COMPARISON_GREATER:
// Shader will evaluate: clip((a < x) ? z : w)
compareTo = reference + threshold;
resultSelector = selectIfFalse;
break;
case D3D11_COMPARISON_EQUAL:
// Shader will evaluate: clip((abs(a - x) < y) ? z : w)
compareTo = reference;
resultSelector = selectIfTrue;
break;
case D3D11_COMPARISON_NOT_EQUAL:
// Shader will evaluate: clip((abs(a - x) < y) ? z : w)
compareTo = reference;
resultSelector = selectIfFalse;
break;
case D3D11_COMPARISON_NEVER:
// Shader will evaluate: clip((a < x) ? z : w)
compareTo = 0;
resultSelector = selectNever;
break;
case D3D11_COMPARISON_ALWAYS:
// Shader will evaluate: clip((a < x) ? z : w)
compareTo = 0;
resultSelector = selectAlways;
break;
default:
throw std::exception("Unknown alpha test function");
}
// x = compareTo, y = threshold, zw = resultSelector.
constants.alphaTest = XMVectorPermute<0, 1, 4, 5>(XMVectorSet(compareTo, threshold, 0, 0), resultSelector);
dirtyFlags &= ~EffectDirtyFlags::AlphaTest;
dirtyFlags |= EffectDirtyFlags::ConstantBuffer;
}
// Set the texture.
ID3D11ShaderResourceView* textures[1] = { texture.Get() };
deviceContext->PSSetShaderResources(0, 1, textures);
// Set shaders and constant buffers.
ApplyShaders(deviceContext, GetCurrentShaderPermutation());
}
// Public constructor.
AlphaTestEffect::AlphaTestEffect(_In_ ID3D11Device* device)
: pImpl(std::make_unique<Impl>(device))
{
}
// Move constructor.
AlphaTestEffect::AlphaTestEffect(AlphaTestEffect&& moveFrom) noexcept
: pImpl(std::move(moveFrom.pImpl))
{
}
// Move assignment.
AlphaTestEffect& AlphaTestEffect::operator= (AlphaTestEffect&& moveFrom) noexcept
{
pImpl = std::move(moveFrom.pImpl);
return *this;
}
// Public destructor.
AlphaTestEffect::~AlphaTestEffect()
{
}
// IEffect methods.
void AlphaTestEffect::Apply(_In_ ID3D11DeviceContext* deviceContext)
{
pImpl->Apply(deviceContext);
}
void AlphaTestEffect::GetVertexShaderBytecode(_Out_ void const** pShaderByteCode, _Out_ size_t* pByteCodeLength)
{
pImpl->GetVertexShaderBytecode(pImpl->GetCurrentShaderPermutation(), pShaderByteCode, pByteCodeLength);
}
// Camera settings.
void XM_CALLCONV AlphaTestEffect::SetWorld(FXMMATRIX value)
{
pImpl->matrices.world = value;
pImpl->dirtyFlags |= EffectDirtyFlags::WorldViewProj | EffectDirtyFlags::WorldInverseTranspose | EffectDirtyFlags::FogVector;
}
void XM_CALLCONV AlphaTestEffect::SetView(FXMMATRIX value)
{
pImpl->matrices.view = value;
pImpl->dirtyFlags |= EffectDirtyFlags::WorldViewProj | EffectDirtyFlags::EyePosition | EffectDirtyFlags::FogVector;
}
void XM_CALLCONV AlphaTestEffect::SetProjection(FXMMATRIX value)
{
pImpl->matrices.projection = value;
pImpl->dirtyFlags |= EffectDirtyFlags::WorldViewProj;
}
void XM_CALLCONV AlphaTestEffect::SetMatrices(FXMMATRIX world, CXMMATRIX view, CXMMATRIX projection)
{
pImpl->matrices.world = world;
pImpl->matrices.view = view;
pImpl->matrices.projection = projection;
pImpl->dirtyFlags |= EffectDirtyFlags::WorldViewProj | EffectDirtyFlags::WorldInverseTranspose | EffectDirtyFlags::EyePosition | EffectDirtyFlags::FogVector;
}
// Material settings
void XM_CALLCONV AlphaTestEffect::SetDiffuseColor(FXMVECTOR value)
{
pImpl->color.diffuseColor = value;
pImpl->dirtyFlags |= EffectDirtyFlags::MaterialColor;
}
void AlphaTestEffect::SetAlpha(float value)
{
pImpl->color.alpha = value;
pImpl->dirtyFlags |= EffectDirtyFlags::MaterialColor;
}
void XM_CALLCONV AlphaTestEffect::SetColorAndAlpha(FXMVECTOR value)
{
pImpl->color.diffuseColor = value;
pImpl->color.alpha = XMVectorGetW(value);
pImpl->dirtyFlags |= EffectDirtyFlags::MaterialColor;
}
// Fog settings.
void AlphaTestEffect::SetFogEnabled(bool value)
{
pImpl->fog.enabled = value;
pImpl->dirtyFlags |= EffectDirtyFlags::FogEnable;
}
void AlphaTestEffect::SetFogStart(float value)
{
pImpl->fog.start = value;
pImpl->dirtyFlags |= EffectDirtyFlags::FogVector;
}
void AlphaTestEffect::SetFogEnd(float value)
{
pImpl->fog.end = value;
pImpl->dirtyFlags |= EffectDirtyFlags::FogVector;
}
void XM_CALLCONV AlphaTestEffect::SetFogColor(FXMVECTOR value)
{
pImpl->constants.fogColor = value;
pImpl->dirtyFlags |= EffectDirtyFlags::ConstantBuffer;
}
// Vertex color setting.
void AlphaTestEffect::SetVertexColorEnabled(bool value)
{
pImpl->vertexColorEnabled = value;
}
// Texture settings.
void AlphaTestEffect::SetTexture(_In_opt_ ID3D11ShaderResourceView* value)
{
pImpl->texture = value;
}
void AlphaTestEffect::SetAlphaFunction(D3D11_COMPARISON_FUNC value)
{
pImpl->alphaFunction = value;
pImpl->dirtyFlags |= EffectDirtyFlags::AlphaTest;
}
void AlphaTestEffect::SetReferenceAlpha(int value)
{
pImpl->referenceAlpha = value;
pImpl->dirtyFlags |= EffectDirtyFlags::AlphaTest;
}