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|
//
// Copyright (c) 2013 The ANGLE Project Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
//
// Clear11.cpp: Framebuffer clear utility class.
#include "libANGLE/renderer/d3d/d3d11/Clear11.h"
#include <algorithm>
#include "libANGLE/FramebufferAttachment.h"
#include "libANGLE/formatutils.h"
#include "libANGLE/renderer/d3d/FramebufferD3D.h"
#include "libANGLE/renderer/d3d/d3d11/Renderer11.h"
#include "libANGLE/renderer/d3d/d3d11/renderer11_utils.h"
#include "libANGLE/renderer/d3d/d3d11/RenderTarget11.h"
#include "libANGLE/renderer/d3d/d3d11/formatutils11.h"
#include "third_party/trace_event/trace_event.h"
// Precompiled shaders
#include "libANGLE/renderer/d3d/d3d11/shaders/compiled/clearfloat11vs.h"
#include "libANGLE/renderer/d3d/d3d11/shaders/compiled/clearfloat11ps.h"
#include "libANGLE/renderer/d3d/d3d11/shaders/compiled/clearfloat11_fl9ps.h"
#include "libANGLE/renderer/d3d/d3d11/shaders/compiled/clearuint11vs.h"
#include "libANGLE/renderer/d3d/d3d11/shaders/compiled/clearuint11ps.h"
#include "libANGLE/renderer/d3d/d3d11/shaders/compiled/clearsint11vs.h"
#include "libANGLE/renderer/d3d/d3d11/shaders/compiled/clearsint11ps.h"
namespace rx
{
template <typename T>
static void ApplyVertices(const gl::Extents &framebufferSize,
const gl::Rectangle *scissor,
const gl::Color<T> &color,
float depth,
void *buffer)
{
d3d11::PositionDepthColorVertex<T> *vertices =
reinterpret_cast<d3d11::PositionDepthColorVertex<T> *>(buffer);
float depthClear = gl::clamp01(depth);
float left = -1.0f;
float right = 1.0f;
float top = -1.0f;
float bottom = 1.0f;
// Clip the quad coordinates to the scissor if needed
if (scissor != nullptr)
{
left = std::max(left, (scissor->x / float(framebufferSize.width)) * 2.0f - 1.0f);
right = std::min(
right, ((scissor->x + scissor->width) / float(framebufferSize.width)) * 2.0f - 1.0f);
top = std::max(top, ((framebufferSize.height - scissor->y - scissor->height) /
float(framebufferSize.height)) *
2.0f -
1.0f);
bottom = std::min(
bottom,
((framebufferSize.height - scissor->y) / float(framebufferSize.height)) * 2.0f - 1.0f);
}
d3d11::SetPositionDepthColorVertex<T>(vertices + 0, left, bottom, depthClear, color);
d3d11::SetPositionDepthColorVertex<T>(vertices + 1, left, top, depthClear, color);
d3d11::SetPositionDepthColorVertex<T>(vertices + 2, right, bottom, depthClear, color);
d3d11::SetPositionDepthColorVertex<T>(vertices + 3, right, top, depthClear, color);
}
Clear11::ClearShader::ClearShader(DXGI_FORMAT colorType,
const char *inputLayoutName,
const BYTE *vsByteCode,
size_t vsSize,
const char *vsDebugName,
const BYTE *psByteCode,
size_t psSize,
const char *psDebugName)
: inputLayout(nullptr),
vertexShader(vsByteCode, vsSize, vsDebugName),
pixelShader(psByteCode, psSize, psDebugName)
{
D3D11_INPUT_ELEMENT_DESC quadLayout[] = {
{"POSITION", 0, DXGI_FORMAT_R32G32B32_FLOAT, 0, 0, D3D11_INPUT_PER_VERTEX_DATA, 0},
{"COLOR", 0, colorType, 0, 12, D3D11_INPUT_PER_VERTEX_DATA, 0},
};
inputLayout = new d3d11::LazyInputLayout(quadLayout, 2, vsByteCode, vsSize, inputLayoutName);
}
Clear11::ClearShader::~ClearShader()
{
SafeDelete(inputLayout);
vertexShader.release();
pixelShader.release();
}
Clear11::Clear11(Renderer11 *renderer)
: mRenderer(renderer),
mClearBlendStates(StructLessThan<ClearBlendInfo>),
mFloatClearShader(nullptr),
mUintClearShader(nullptr),
mIntClearShader(nullptr),
mClearDepthStencilStates(StructLessThan<ClearDepthStencilInfo>),
mVertexBuffer(nullptr),
mRasterizerState(nullptr)
{
TRACE_EVENT0("gpu.angle", "Clear11::Clear11");
HRESULT result;
ID3D11Device *device = renderer->getDevice();
D3D11_BUFFER_DESC vbDesc;
vbDesc.ByteWidth = sizeof(d3d11::PositionDepthColorVertex<float>) * 4;
vbDesc.Usage = D3D11_USAGE_DYNAMIC;
vbDesc.BindFlags = D3D11_BIND_VERTEX_BUFFER;
vbDesc.CPUAccessFlags = D3D11_CPU_ACCESS_WRITE;
vbDesc.MiscFlags = 0;
vbDesc.StructureByteStride = 0;
result = device->CreateBuffer(&vbDesc, nullptr, &mVertexBuffer);
ASSERT(SUCCEEDED(result));
d3d11::SetDebugName(mVertexBuffer, "Clear11 masked clear vertex buffer");
D3D11_RASTERIZER_DESC rsDesc;
rsDesc.FillMode = D3D11_FILL_SOLID;
rsDesc.CullMode = D3D11_CULL_NONE;
rsDesc.FrontCounterClockwise = FALSE;
rsDesc.DepthBias = 0;
rsDesc.DepthBiasClamp = 0.0f;
rsDesc.SlopeScaledDepthBias = 0.0f;
rsDesc.DepthClipEnable = TRUE;
rsDesc.ScissorEnable = FALSE;
rsDesc.MultisampleEnable = FALSE;
rsDesc.AntialiasedLineEnable = FALSE;
result = device->CreateRasterizerState(&rsDesc, &mRasterizerState);
ASSERT(SUCCEEDED(result));
d3d11::SetDebugName(mRasterizerState, "Clear11 masked clear rasterizer state");
if (mRenderer->getRenderer11DeviceCaps().featureLevel <= D3D_FEATURE_LEVEL_9_3)
{
mFloatClearShader =
new ClearShader(DXGI_FORMAT_R32G32B32A32_FLOAT, "Clear11 Float IL", g_VS_ClearFloat,
ArraySize(g_VS_ClearFloat), "Clear11 Float VS", g_PS_ClearFloat_FL9,
ArraySize(g_PS_ClearFloat_FL9), "Clear11 Float PS");
}
else
{
mFloatClearShader =
new ClearShader(DXGI_FORMAT_R32G32B32A32_FLOAT, "Clear11 Float IL", g_VS_ClearFloat,
ArraySize(g_VS_ClearFloat), "Clear11 Float VS", g_PS_ClearFloat,
ArraySize(g_PS_ClearFloat), "Clear11 Float PS");
}
if (renderer->isES3Capable())
{
mUintClearShader =
new ClearShader(DXGI_FORMAT_R32G32B32A32_UINT, "Clear11 UINT IL", g_VS_ClearUint,
ArraySize(g_VS_ClearUint), "Clear11 UINT VS", g_PS_ClearUint,
ArraySize(g_PS_ClearUint), "Clear11 UINT PS");
mIntClearShader =
new ClearShader(DXGI_FORMAT_R32G32B32A32_UINT, "Clear11 SINT IL", g_VS_ClearSint,
ArraySize(g_VS_ClearSint), "Clear11 SINT VS", g_PS_ClearSint,
ArraySize(g_PS_ClearSint), "Clear11 SINT PS");
}
}
Clear11::~Clear11()
{
for (ClearBlendStateMap::iterator i = mClearBlendStates.begin(); i != mClearBlendStates.end();
i++)
{
SafeRelease(i->second);
}
mClearBlendStates.clear();
SafeDelete(mFloatClearShader);
SafeDelete(mUintClearShader);
SafeDelete(mIntClearShader);
for (ClearDepthStencilStateMap::iterator i = mClearDepthStencilStates.begin();
i != mClearDepthStencilStates.end(); i++)
{
SafeRelease(i->second);
}
mClearDepthStencilStates.clear();
SafeRelease(mVertexBuffer);
SafeRelease(mRasterizerState);
}
gl::Error Clear11::clearFramebuffer(const ClearParameters &clearParams,
const gl::FramebufferState &fboData)
{
const auto &colorAttachments = fboData.getColorAttachments();
const auto &drawBufferStates = fboData.getDrawBufferStates();
const auto *depthAttachment = fboData.getDepthAttachment();
const auto *stencilAttachment = fboData.getStencilAttachment();
ASSERT(colorAttachments.size() == drawBufferStates.size());
// Iterate over the color buffers which require clearing and determine if they can be
// cleared with ID3D11DeviceContext::ClearRenderTargetView or ID3D11DeviceContext1::ClearView.
// This requires:
// 1) The render target is being cleared to a float value (will be cast to integer when clearing
// integer
// render targets as expected but does not work the other way around)
// 2) The format of the render target has no color channels that are currently masked out.
// Clear the easy-to-clear buffers on the spot and accumulate the ones that require special
// work.
//
// If these conditions are met, and:
// - No scissored clear is needed, then clear using ID3D11DeviceContext::ClearRenderTargetView.
// - A scissored clear is needed then clear using ID3D11DeviceContext1::ClearView if available.
// Otherwise draw a quad.
//
// Also determine if the depth stencil can be cleared with
// ID3D11DeviceContext::ClearDepthStencilView
// by checking if the stencil write mask covers the entire stencil.
//
// To clear the remaining buffers, quads must be drawn containing an int, uint or float vertex
// color
// attribute.
gl::Extents framebufferSize;
const gl::FramebufferAttachment *colorAttachment = fboData.getFirstColorAttachment();
if (colorAttachment != nullptr)
{
framebufferSize = colorAttachment->getSize();
}
else if (depthAttachment != nullptr)
{
framebufferSize = depthAttachment->getSize();
}
else if (stencilAttachment != nullptr)
{
framebufferSize = stencilAttachment->getSize();
}
else
{
UNREACHABLE();
return gl::Error(GL_INVALID_OPERATION);
}
if (clearParams.scissorEnabled && (clearParams.scissor.x >= framebufferSize.width ||
clearParams.scissor.y >= framebufferSize.height ||
clearParams.scissor.x + clearParams.scissor.width <= 0 ||
clearParams.scissor.y + clearParams.scissor.height <= 0))
{
// Scissor is enabled and the scissor rectangle is outside the renderbuffer
return gl::Error(GL_NO_ERROR);
}
bool needScissoredClear =
clearParams.scissorEnabled &&
(clearParams.scissor.x > 0 || clearParams.scissor.y > 0 ||
clearParams.scissor.x + clearParams.scissor.width < framebufferSize.width ||
clearParams.scissor.y + clearParams.scissor.height < framebufferSize.height);
std::vector<MaskedRenderTarget> maskedClearRenderTargets;
RenderTarget11 *maskedClearDepthStencil = nullptr;
ID3D11DeviceContext *deviceContext = mRenderer->getDeviceContext();
ID3D11DeviceContext1 *deviceContext1 = mRenderer->getDeviceContext1IfSupported();
ID3D11Device *device = mRenderer->getDevice();
for (size_t colorAttachmentIndex = 0; colorAttachmentIndex < colorAttachments.size();
colorAttachmentIndex++)
{
const gl::FramebufferAttachment &attachment = colorAttachments[colorAttachmentIndex];
if (clearParams.clearColor[colorAttachmentIndex] && attachment.isAttached() &&
drawBufferStates[colorAttachmentIndex] != GL_NONE)
{
RenderTarget11 *renderTarget = nullptr;
ANGLE_TRY(attachment.getRenderTarget(&renderTarget));
const gl::InternalFormat &formatInfo = *attachment.getFormat().info;
if (clearParams.colorClearType == GL_FLOAT &&
!(formatInfo.componentType == GL_FLOAT ||
formatInfo.componentType == GL_UNSIGNED_NORMALIZED ||
formatInfo.componentType == GL_SIGNED_NORMALIZED))
{
ERR("It is undefined behaviour to clear a render buffer which is not normalized "
"fixed point or floating-"
"point to floating point values (color attachment %u has internal format "
"0x%X).",
colorAttachmentIndex, attachment.getFormat().asSized());
}
if ((formatInfo.redBits == 0 || !clearParams.colorMaskRed) &&
(formatInfo.greenBits == 0 || !clearParams.colorMaskGreen) &&
(formatInfo.blueBits == 0 || !clearParams.colorMaskBlue) &&
(formatInfo.alphaBits == 0 || !clearParams.colorMaskAlpha))
{
// Every channel either does not exist in the render target or is masked out
continue;
}
else if ((!(mRenderer->getRenderer11DeviceCaps().supportsClearView) &&
needScissoredClear) ||
clearParams.colorClearType != GL_FLOAT ||
(formatInfo.redBits > 0 && !clearParams.colorMaskRed) ||
(formatInfo.greenBits > 0 && !clearParams.colorMaskGreen) ||
(formatInfo.blueBits > 0 && !clearParams.colorMaskBlue) ||
(formatInfo.alphaBits > 0 && !clearParams.colorMaskAlpha))
{
// A masked clear is required, or a scissored clear is required and
// ID3D11DeviceContext1::ClearView is unavailable
MaskedRenderTarget maskAndRt;
bool clearColor = clearParams.clearColor[colorAttachmentIndex];
maskAndRt.colorMask[0] = (clearColor && clearParams.colorMaskRed);
maskAndRt.colorMask[1] = (clearColor && clearParams.colorMaskGreen);
maskAndRt.colorMask[2] = (clearColor && clearParams.colorMaskBlue);
maskAndRt.colorMask[3] = (clearColor && clearParams.colorMaskAlpha);
maskAndRt.renderTarget = renderTarget;
maskedClearRenderTargets.push_back(maskAndRt);
}
else
{
// ID3D11DeviceContext::ClearRenderTargetView or ID3D11DeviceContext1::ClearView is
// possible
ID3D11RenderTargetView *framebufferRTV = renderTarget->getRenderTargetView();
if (!framebufferRTV)
{
return gl::Error(GL_OUT_OF_MEMORY,
"Internal render target view pointer unexpectedly null.");
}
const auto &nativeFormat = renderTarget->getFormatSet().format();
// Check if the actual format has a channel that the internal format does not and
// set them to the default values
float clearValues[4] = {
((formatInfo.redBits == 0 && nativeFormat.redBits > 0)
? 0.0f
: clearParams.colorFClearValue.red),
((formatInfo.greenBits == 0 && nativeFormat.greenBits > 0)
? 0.0f
: clearParams.colorFClearValue.green),
((formatInfo.blueBits == 0 && nativeFormat.blueBits > 0)
? 0.0f
: clearParams.colorFClearValue.blue),
((formatInfo.alphaBits == 0 && nativeFormat.alphaBits > 0)
? 1.0f
: clearParams.colorFClearValue.alpha),
};
if (formatInfo.alphaBits == 1)
{
// Some drivers do not correctly handle calling Clear() on a format with 1-bit
// alpha. They can incorrectly round all non-zero values up to 1.0f. Note that
// WARP does not do this. We should handle the rounding for them instead.
clearValues[3] = (clearParams.colorFClearValue.alpha >= 0.5f) ? 1.0f : 0.0f;
}
if (needScissoredClear)
{
// We shouldn't reach here if deviceContext1 is unavailable.
ASSERT(deviceContext1);
D3D11_RECT rect;
rect.left = clearParams.scissor.x;
rect.right = clearParams.scissor.x + clearParams.scissor.width;
rect.top = clearParams.scissor.y;
rect.bottom = clearParams.scissor.y + clearParams.scissor.height;
deviceContext1->ClearView(framebufferRTV, clearValues, &rect, 1);
if (mRenderer->getWorkarounds().callClearTwice)
{
deviceContext1->ClearView(framebufferRTV, clearValues, &rect, 1);
}
}
else
{
deviceContext->ClearRenderTargetView(framebufferRTV, clearValues);
if (mRenderer->getWorkarounds().callClearTwice)
{
deviceContext->ClearRenderTargetView(framebufferRTV, clearValues);
}
}
}
}
}
if (clearParams.clearDepth || clearParams.clearStencil)
{
const gl::FramebufferAttachment *attachment =
(depthAttachment != nullptr) ? depthAttachment : stencilAttachment;
ASSERT(attachment != nullptr);
RenderTarget11 *renderTarget = nullptr;
ANGLE_TRY(attachment->getRenderTarget(&renderTarget));
const auto &nativeFormat = renderTarget->getFormatSet().format();
unsigned int stencilUnmasked =
(stencilAttachment != nullptr) ? (1 << nativeFormat.stencilBits) - 1 : 0;
bool needMaskedStencilClear =
clearParams.clearStencil &&
(clearParams.stencilWriteMask & stencilUnmasked) != stencilUnmasked;
if (needScissoredClear || needMaskedStencilClear)
{
maskedClearDepthStencil = renderTarget;
}
else
{
ID3D11DepthStencilView *framebufferDSV = renderTarget->getDepthStencilView();
if (!framebufferDSV)
{
return gl::Error(GL_OUT_OF_MEMORY,
"Internal depth stencil view pointer unexpectedly null.");
}
UINT clearFlags = (clearParams.clearDepth ? D3D11_CLEAR_DEPTH : 0) |
(clearParams.clearStencil ? D3D11_CLEAR_STENCIL : 0);
FLOAT depthClear = gl::clamp01(clearParams.depthClearValue);
UINT8 stencilClear = clearParams.stencilClearValue & 0xFF;
deviceContext->ClearDepthStencilView(framebufferDSV, clearFlags, depthClear,
stencilClear);
}
}
if (maskedClearRenderTargets.empty() && !maskedClearDepthStencil)
{
return gl::NoError();
}
// To clear the render targets and depth stencil in one pass:
//
// Render a quad clipped to the scissor rectangle which draws the clear color and a blend
// state that will perform the required color masking.
//
// The quad's depth is equal to the depth clear value with a depth stencil state that
// will enable or disable depth test/writes if the depth buffer should be cleared or not.
//
// The rasterizer state's stencil is set to always pass or fail based on if the stencil
// should be cleared or not with a stencil write mask of the stencil clear value.
//
// ======================================================================================
//
// Luckily, the gl spec (ES 3.0.2 pg 183) states that the results of clearing a render-
// buffer that is not normalized fixed point or floating point with floating point values
// are undefined so we can just write floats to them and D3D11 will bit cast them to
// integers.
//
// Also, we don't have to worry about attempting to clear a normalized fixed/floating point
// buffer with integer values because there is no gl API call which would allow it,
// glClearBuffer* calls only clear a single renderbuffer at a time which is verified to
// be a compatible clear type.
// Bind all the render targets which need clearing
ASSERT(maskedClearRenderTargets.size() <= mRenderer->getNativeCaps().maxDrawBuffers);
std::vector<ID3D11RenderTargetView *> rtvs(maskedClearRenderTargets.size());
for (unsigned int i = 0; i < maskedClearRenderTargets.size(); i++)
{
RenderTarget11 *renderTarget = maskedClearRenderTargets[i].renderTarget;
ID3D11RenderTargetView *rtv = renderTarget->getRenderTargetView();
if (!rtv)
{
return gl::Error(GL_OUT_OF_MEMORY,
"Internal render target view pointer unexpectedly null.");
}
rtvs[i] = rtv;
}
ID3D11DepthStencilView *dsv =
maskedClearDepthStencil ? maskedClearDepthStencil->getDepthStencilView() : nullptr;
ID3D11BlendState *blendState = getBlendState(maskedClearRenderTargets);
const FLOAT blendFactors[4] = {1.0f, 1.0f, 1.0f, 1.0f};
const UINT sampleMask = 0xFFFFFFFF;
ID3D11DepthStencilState *dsState = getDepthStencilState(clearParams);
const UINT stencilClear = clearParams.stencilClearValue & 0xFF;
// Set the vertices
UINT vertexStride = 0;
const UINT startIdx = 0;
ClearShader *shader = nullptr;
D3D11_MAPPED_SUBRESOURCE mappedResource;
HRESULT result =
deviceContext->Map(mVertexBuffer, 0, D3D11_MAP_WRITE_DISCARD, 0, &mappedResource);
if (FAILED(result))
{
return gl::Error(GL_OUT_OF_MEMORY,
"Failed to map internal masked clear vertex buffer, HRESULT: 0x%X.",
result);
}
const gl::Rectangle *scissorPtr = clearParams.scissorEnabled ? &clearParams.scissor : nullptr;
switch (clearParams.colorClearType)
{
case GL_FLOAT:
ApplyVertices(framebufferSize, scissorPtr, clearParams.colorFClearValue,
clearParams.depthClearValue, mappedResource.pData);
vertexStride = sizeof(d3d11::PositionDepthColorVertex<float>);
shader = mFloatClearShader;
break;
case GL_UNSIGNED_INT:
ApplyVertices(framebufferSize, scissorPtr, clearParams.colorUIClearValue,
clearParams.depthClearValue, mappedResource.pData);
vertexStride = sizeof(d3d11::PositionDepthColorVertex<unsigned int>);
shader = mUintClearShader;
break;
case GL_INT:
ApplyVertices(framebufferSize, scissorPtr, clearParams.colorIClearValue,
clearParams.depthClearValue, mappedResource.pData);
vertexStride = sizeof(d3d11::PositionDepthColorVertex<int>);
shader = mIntClearShader;
break;
default:
UNREACHABLE();
break;
}
deviceContext->Unmap(mVertexBuffer, 0);
// Set the viewport to be the same size as the framebuffer
D3D11_VIEWPORT viewport;
viewport.TopLeftX = 0;
viewport.TopLeftY = 0;
viewport.Width = static_cast<FLOAT>(framebufferSize.width);
viewport.Height = static_cast<FLOAT>(framebufferSize.height);
viewport.MinDepth = 0;
viewport.MaxDepth = 1;
deviceContext->RSSetViewports(1, &viewport);
// Apply state
deviceContext->OMSetBlendState(blendState, blendFactors, sampleMask);
deviceContext->OMSetDepthStencilState(dsState, stencilClear);
deviceContext->RSSetState(mRasterizerState);
// Apply shaders
deviceContext->IASetInputLayout(shader->inputLayout->resolve(device));
deviceContext->VSSetShader(shader->vertexShader.resolve(device), nullptr, 0);
deviceContext->PSSetShader(shader->pixelShader.resolve(device), nullptr, 0);
deviceContext->GSSetShader(nullptr, nullptr, 0);
// Apply vertex buffer
deviceContext->IASetVertexBuffers(0, 1, &mVertexBuffer, &vertexStride, &startIdx);
deviceContext->IASetPrimitiveTopology(D3D_PRIMITIVE_TOPOLOGY_TRIANGLESTRIP);
// Apply render targets
mRenderer->getStateManager()->setOneTimeRenderTargets(rtvs, dsv);
// Draw the clear quad
deviceContext->Draw(4, 0);
// Clean up
mRenderer->markAllStateDirty();
return gl::NoError();
}
ID3D11BlendState *Clear11::getBlendState(const std::vector<MaskedRenderTarget> &rts)
{
ClearBlendInfo blendKey = {};
for (unsigned int i = 0; i < D3D11_SIMULTANEOUS_RENDER_TARGET_COUNT; i++)
{
if (i < rts.size())
{
RenderTarget11 *rt = rts[i].renderTarget;
const gl::InternalFormat &formatInfo =
gl::GetInternalFormatInfo(rt->getInternalFormat());
blendKey.maskChannels[i][0] = (rts[i].colorMask[0] && formatInfo.redBits > 0);
blendKey.maskChannels[i][1] = (rts[i].colorMask[1] && formatInfo.greenBits > 0);
blendKey.maskChannels[i][2] = (rts[i].colorMask[2] && formatInfo.blueBits > 0);
blendKey.maskChannels[i][3] = (rts[i].colorMask[3] && formatInfo.alphaBits > 0);
}
else
{
blendKey.maskChannels[i][0] = false;
blendKey.maskChannels[i][1] = false;
blendKey.maskChannels[i][2] = false;
blendKey.maskChannels[i][3] = false;
}
}
ClearBlendStateMap::const_iterator i = mClearBlendStates.find(blendKey);
if (i != mClearBlendStates.end())
{
return i->second;
}
else
{
D3D11_BLEND_DESC blendDesc = {0};
blendDesc.AlphaToCoverageEnable = FALSE;
blendDesc.IndependentBlendEnable = (rts.size() > 1) ? TRUE : FALSE;
for (unsigned int j = 0; j < D3D11_SIMULTANEOUS_RENDER_TARGET_COUNT; j++)
{
blendDesc.RenderTarget[j].BlendEnable = FALSE;
blendDesc.RenderTarget[j].RenderTargetWriteMask = gl_d3d11::ConvertColorMask(
blendKey.maskChannels[j][0], blendKey.maskChannels[j][1],
blendKey.maskChannels[j][2], blendKey.maskChannels[j][3]);
}
ID3D11Device *device = mRenderer->getDevice();
ID3D11BlendState *blendState = nullptr;
HRESULT result = device->CreateBlendState(&blendDesc, &blendState);
if (FAILED(result) || !blendState)
{
ERR("Unable to create a ID3D11BlendState, HRESULT: 0x%X.", result);
return nullptr;
}
mClearBlendStates[blendKey] = blendState;
return blendState;
}
}
ID3D11DepthStencilState *Clear11::getDepthStencilState(const ClearParameters &clearParams)
{
ClearDepthStencilInfo dsKey = {0};
dsKey.clearDepth = clearParams.clearDepth;
dsKey.clearStencil = clearParams.clearStencil;
dsKey.stencilWriteMask = clearParams.stencilWriteMask & 0xFF;
ClearDepthStencilStateMap::const_iterator i = mClearDepthStencilStates.find(dsKey);
if (i != mClearDepthStencilStates.end())
{
return i->second;
}
else
{
D3D11_DEPTH_STENCIL_DESC dsDesc = {0};
dsDesc.DepthEnable = dsKey.clearDepth ? TRUE : FALSE;
dsDesc.DepthWriteMask =
dsKey.clearDepth ? D3D11_DEPTH_WRITE_MASK_ALL : D3D11_DEPTH_WRITE_MASK_ZERO;
dsDesc.DepthFunc = D3D11_COMPARISON_ALWAYS;
dsDesc.StencilEnable = dsKey.clearStencil ? TRUE : FALSE;
dsDesc.StencilReadMask = 0;
dsDesc.StencilWriteMask = dsKey.stencilWriteMask;
dsDesc.FrontFace.StencilFailOp = D3D11_STENCIL_OP_REPLACE;
dsDesc.FrontFace.StencilDepthFailOp = D3D11_STENCIL_OP_REPLACE;
dsDesc.FrontFace.StencilPassOp = D3D11_STENCIL_OP_REPLACE;
dsDesc.FrontFace.StencilFunc = D3D11_COMPARISON_ALWAYS;
dsDesc.BackFace.StencilFailOp = D3D11_STENCIL_OP_REPLACE;
dsDesc.BackFace.StencilDepthFailOp = D3D11_STENCIL_OP_REPLACE;
dsDesc.BackFace.StencilPassOp = D3D11_STENCIL_OP_REPLACE;
dsDesc.BackFace.StencilFunc = D3D11_COMPARISON_ALWAYS;
ID3D11Device *device = mRenderer->getDevice();
ID3D11DepthStencilState *dsState = nullptr;
HRESULT result = device->CreateDepthStencilState(&dsDesc, &dsState);
if (FAILED(result) || !dsState)
{
ERR("Unable to create a ID3D11DepthStencilState, HRESULT: 0x%X.", result);
return nullptr;
}
mClearDepthStencilStates[dsKey] = dsState;
return dsState;
}
}
}
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