/** Renders the SMAA-Effect */
XRESULT D3D11PfxRenderer::RenderSMAA()
{
D3D11GraphicsEngine* engine = (D3D11GraphicsEngine*)Engine::GraphicsEngine;
FX_SMAA->RenderPostFX(engine->GetHDRBackBuffer()->GetShaderResView());
return XR_SUCCESS;
}
/** Blurs the backbuffer and puts the result into TempBufferDS4_2*/
void D3D11PFX_HDR::CreateBloom(RenderToTextureBuffer* lum)
{
D3D11GraphicsEngine* engine = (D3D11GraphicsEngine *)Engine::GraphicsEngine;
INT2 dsRes = INT2(Engine::GraphicsEngine->GetResolution().x / 4, Engine::GraphicsEngine->GetResolution().y / 4);
engine->GetShaderManager()->GetVShader("VS_PFX")->Apply();
D3D11PShader* tonemapPS = engine->GetShaderManager()->GetPShader("PS_PFX_Tonemap");
tonemapPS->Apply();
HDRSettingsConstantBuffer hcb;
hcb.HDR_LumWhite = Engine::GAPI->GetRendererState()->RendererSettings.HDRLumWhite;
hcb.HDR_MiddleGray = Engine::GAPI->GetRendererState()->RendererSettings.HDRMiddleGray;
hcb.HDR_Threshold = Engine::GAPI->GetRendererState()->RendererSettings.BloomThreshold;
tonemapPS->GetConstantBuffer()[0]->UpdateBuffer(&hcb);
tonemapPS->GetConstantBuffer()[0]->BindToPixelShader(0);
lum->BindToPixelShader(engine->GetContext(), 1);
FxRenderer->CopyTextureToRTV(engine->GetHDRBackBuffer()->GetShaderResView(), FxRenderer->GetTempBufferDS4_1()->GetRenderTargetView(), dsRes, true);
D3D11PShader* gaussPS = engine->GetShaderManager()->GetPShader("PS_PFX_GaussBlur");
/** Pass 1: Blur-H */
// Apply PFX-VS
D3D11PShader* simplePS = engine->GetShaderManager()->GetPShader("PS_PFX_Simple");
// Apply blur-H shader
gaussPS->Apply();
// Update settings
BlurConstantBuffer bcb;
bcb.B_BlurSize = 1.0f;
bcb.B_PixelSize = float2(1.0f / FxRenderer->GetTempBufferDS4_1()->GetSizeX(), 0.0f);
gaussPS->GetConstantBuffer()[0]->UpdateBuffer(&bcb);
gaussPS->GetConstantBuffer()[0]->BindToPixelShader(0);
// Copy
FxRenderer->CopyTextureToRTV(FxRenderer->GetTempBufferDS4_1()->GetShaderResView(), FxRenderer->GetTempBufferDS4_2()->GetRenderTargetView(), dsRes, true);
/** Pass 2: Blur V */
// Update settings
bcb.B_BlurSize = 1.0f;
bcb.B_PixelSize = float2(0.0f, 1.0f / FxRenderer->GetTempBufferDS4_1()->GetSizeY());
bcb.B_Threshold = 0.0f;
gaussPS->GetConstantBuffer()[0]->UpdateBuffer(&bcb);
gaussPS->GetConstantBuffer()[0]->BindToPixelShader(0);
// Copy
FxRenderer->CopyTextureToRTV(FxRenderer->GetTempBufferDS4_2()->GetShaderResView(), FxRenderer->GetTempBufferDS4_1()->GetRenderTargetView(), dsRes, true);
}
/** Draws this effect to the given buffer */
XRESULT D3D11PFX_HDR::Render(RenderToTextureBuffer* fxbuffer)
{
D3D11GraphicsEngine* engine = (D3D11GraphicsEngine *)Engine::GraphicsEngine;
Engine::GAPI->GetRendererState()->BlendState.BlendEnabled = false;
Engine::GAPI->GetRendererState()->BlendState.SetDirty();
// Save old rendertargets
ID3D11RenderTargetView* oldRTV = NULL;
ID3D11DepthStencilView* oldDSV = NULL;
engine->GetContext()->OMGetRenderTargets(1, &oldRTV, &oldDSV);
RenderToTextureBuffer* lum = CalcLuminance();
CreateBloom(lum);
// Copy the original image to our temp-buffer
FxRenderer->CopyTextureToRTV(engine->GetHDRBackBuffer()->GetShaderResView(), FxRenderer->GetTempBuffer()->GetRenderTargetView(), engine->GetResolution());
// Bind scene and luminance
FxRenderer->GetTempBuffer()->BindToPixelShader(engine->GetContext(), 0);
lum->BindToPixelShader(engine->GetContext(), 1);
// Bind bloom
FxRenderer->GetTempBufferDS4_1()->BindToPixelShader(engine->GetContext(), 2);
// Draw the HDR-Shader
D3D11PShader* hps = engine->GetShaderManager()->GetPShader("PS_PFX_HDR");
hps->Apply();
HDRSettingsConstantBuffer hcb;
hcb.HDR_LumWhite = Engine::GAPI->GetRendererState()->RendererSettings.HDRLumWhite;
hcb.HDR_MiddleGray = Engine::GAPI->GetRendererState()->RendererSettings.HDRMiddleGray;
hcb.HDR_Threshold = Engine::GAPI->GetRendererState()->RendererSettings.BloomThreshold;
hcb.HDR_BloomStrength = Engine::GAPI->GetRendererState()->RendererSettings.BloomStrength;
hps->GetConstantBuffer()[0]->UpdateBuffer(&hcb);
hps->GetConstantBuffer()[0]->BindToPixelShader(0);
FxRenderer->CopyTextureToRTV(FxRenderer->GetTempBuffer()->GetShaderResView(), oldRTV, engine->GetResolution(), true);
// Show lumBuffer
//FxRenderer->CopyTextureToRTV(currentLum->GetShaderResView(), oldRTV, INT2(LUM_SIZE,LUM_SIZE), false);
// Restore rendertargets
ID3D11ShaderResourceView* srv = NULL;
engine->GetContext()->PSSetShaderResources(1,1,&srv);
engine->GetContext()->OMSetRenderTargets(1, &oldRTV, oldDSV);
if(oldRTV)oldRTV->Release();
if(oldDSV)oldDSV->Release();
return XR_SUCCESS;
}
/** Calcualtes the luminance */
RenderToTextureBuffer* D3D11PFX_HDR::CalcLuminance()
{
D3D11GraphicsEngine* engine = (D3D11GraphicsEngine *)Engine::GraphicsEngine;
RenderToTextureBuffer* lumRTV;
RenderToTextureBuffer* lastLum;
RenderToTextureBuffer* currentLum;
// Figure out which buffers to use where
switch(ActiveLumBuffer)
{
case 0:
lumRTV = LumBuffer1;
lastLum = LumBuffer2;
currentLum = LumBuffer3;
break;
case 1:
lumRTV = LumBuffer3;
lastLum = LumBuffer1;
currentLum = LumBuffer2;
break;
case 2:
lumRTV = LumBuffer2;
lastLum = LumBuffer3;
currentLum = LumBuffer1;
break;
}
D3D11PShader* lps = engine->GetShaderManager()->GetPShader("PS_PFX_LumConvert");
lps->Apply();
// Convert the backbuffer to our luminance buffer
FxRenderer->CopyTextureToRTV(engine->GetHDRBackBuffer()->GetShaderResView(), currentLum->GetRenderTargetView(), INT2(LUM_SIZE,LUM_SIZE), true);
// Create the average luminance
engine->GetContext()->GenerateMips(currentLum->GetShaderResView());
D3D11PShader* aps = engine->GetShaderManager()->GetPShader("PS_PFX_LumAdapt");
aps->Apply();
LumAdaptConstantBuffer lcb;
lcb.LC_DeltaTime = Engine::GAPI->GetDeltaTime();
aps->GetConstantBuffer()[0]->UpdateBuffer(&lcb);
aps->GetConstantBuffer()[0]->BindToPixelShader(0);
// Bind luminances
lastLum->BindToPixelShader(engine->GetContext(), 1);
currentLum->BindToPixelShader(engine->GetContext(), 2);
// Convert the backbuffer to our luminance buffer
FxRenderer->CopyTextureToRTV(NULL, lumRTV->GetRenderTargetView(), INT2(LUM_SIZE,LUM_SIZE), true);
// Create the average luminance
engine->GetContext()->GenerateMips(lumRTV->GetShaderResView());
// Increment
ActiveLumBuffer++;
ActiveLumBuffer = (ActiveLumBuffer == 3 ? 0 : ActiveLumBuffer);
return lumRTV;
}
/** Draws this effect to the given buffer */
XRESULT D3D11PFX_GodRays::Render(RenderToTextureBuffer* fxbuffer)
{
D3D11GraphicsEngine* engine = (D3D11GraphicsEngine *)Engine::GraphicsEngine;
D3DXVECTOR3 sunPosition = *Engine::GAPI->GetSky()->GetAtmosphereCB().AC_LightPos.toD3DXVECTOR3();
sunPosition *= Engine::GAPI->GetSky()->GetAtmosphereCB().AC_OuterRadius;
sunPosition += Engine::GAPI->GetCameraPosition(); // Maybe use cameraposition from sky?
D3DXMATRIX& view = Engine::GAPI->GetRendererState()->TransformState.TransformView;
D3DXMATRIX& proj = Engine::GAPI->GetProjectionMatrix();
D3DXMATRIX viewProj = proj * view;
D3DXMatrixTranspose(&viewProj, &viewProj);
D3DXMatrixTranspose(&view, &view);
D3DXVECTOR3 sunViewPosition;
D3DXVec3TransformCoord(&sunViewPosition, &sunPosition, &view); // This is for checking if the light is behind the camera
D3DXVec3TransformCoord(&sunPosition, &sunPosition, &viewProj);
if(sunViewPosition.z < 0.0f)
return XR_SUCCESS; // Don't render the godrays when the sun is behind the camera
GodRayZoomConstantBuffer gcb;
gcb.GR_Weight = 1.0f;
gcb.GR_Decay = Engine::GAPI->GetRendererState()->RendererSettings.GodRayDecay;
gcb.GR_Weight = Engine::GAPI->GetRendererState()->RendererSettings.GodRayWeight;
gcb.GR_Density = Engine::GAPI->GetRendererState()->RendererSettings.GodRayDensity;
gcb.GR_Center.x = sunPosition.x/2.0f +0.5f;
gcb.GR_Center.y = sunPosition.y/-2.0f +0.5f;
gcb.GR_ColorMod = Engine::GAPI->GetRendererState()->RendererSettings.GodRayColorMod;
if(abs(gcb.GR_Center.x - 0.5f) > 0.5f)
gcb.GR_Weight *= std::max(0.0f, 1.0f - (abs(gcb.GR_Center.x - 0.5f) - 0.5f) / 0.5f);
if(abs(gcb.GR_Center.y - 0.5f) > 0.5f)
gcb.GR_Weight *= std::max(0.0f, 1.0f - (abs(gcb.GR_Center.y - 0.5f) - 0.5f) / 0.5f);
ID3D11RenderTargetView* oldRTV=NULL;
ID3D11DepthStencilView* oldDSV=NULL;
engine->GetContext()->OMGetRenderTargets(1, &oldRTV, &oldDSV);
D3D11VShader* vs = engine->GetShaderManager()->GetVShader("VS_PFX");
D3D11PShader* maskPS = engine->GetShaderManager()->GetPShader("PS_PFX_GodRayMask");
D3D11PShader* zoomPS = engine->GetShaderManager()->GetPShader("PS_PFX_GodRayZoom");
maskPS->Apply();
vs->Apply();
// Draw downscaled mask
engine->GetContext()->OMSetRenderTargets(1, FxRenderer->GetTempBufferDS4_1()->GetRenderTargetViewPtr(), NULL);
engine->GetHDRBackBuffer()->BindToPixelShader(engine->GetContext(), 0);
engine->GetGBuffer1()->BindToPixelShader(engine->GetContext(), 1);
D3D11_VIEWPORT vp;
vp.TopLeftX = 0.0f;
vp.TopLeftY = 0.0f;
vp.MinDepth = 0.0f;
vp.MaxDepth = 1.0f;
vp.Width = (float)FxRenderer->GetTempBufferDS4_1()->GetSizeX();
vp.Height = (float)FxRenderer->GetTempBufferDS4_1()->GetSizeY();
engine->GetContext()->RSSetViewports(1, &vp);
FxRenderer->DrawFullScreenQuad();
// Zoom
zoomPS->Apply();
zoomPS->GetConstantBuffer()[0]->UpdateBuffer(&gcb);
zoomPS->GetConstantBuffer()[0]->BindToPixelShader(0);
FxRenderer->CopyTextureToRTV(FxRenderer->GetTempBufferDS4_1()->GetShaderResView(), FxRenderer->GetTempBufferDS4_2()->GetRenderTargetView(), INT2(0,0), true);
// Upscale and blend
Engine::GAPI->GetRendererState()->BlendState.SetAdditiveBlending();
Engine::GAPI->GetRendererState()->BlendState.SetDirty();
FxRenderer->CopyTextureToRTV(FxRenderer->GetTempBufferDS4_2()->GetShaderResView(), oldRTV, INT2(engine->GetResolution().x, engine->GetResolution().y));
vp.Width = (float)engine->GetResolution().x;
vp.Height = (float)engine->GetResolution().y;
engine->GetContext()->RSSetViewports(1, &vp);
engine->GetContext()->OMSetRenderTargets(1, &oldRTV, oldDSV);
if(oldRTV)oldRTV->Release();
if(oldDSV)oldDSV->Release();
return XR_SUCCESS;
}