cpp
/
anki-3d-engine
зеркало из https://github.com/godlikepanos/anki-3d-engine.git


			
				
					
						
						
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							// Copyright (C) 2009-2021, Panagiotis Christopoulos Charitos and contributors.
// All rights reserved.
// Code licensed under the BSD License.
// http://www.anki3d.org/LICENSE

#include <AnKi/Renderer/Ssr.h>
#include <AnKi/Renderer/Renderer.h>
#include <AnKi/Renderer/GBuffer.h>
#include <AnKi/Renderer/DepthDownscale.h>
#include <AnKi/Renderer/DownscaleBlur.h>
#include <AnKi/Renderer/RenderQueue.h>
#include <AnKi/Core/ConfigSet.h>
#include <AnKi/Shaders/Include/SsrTypes.h>

namespace anki {

Ssr::~Ssr()
{
}

Error Ssr::init(const ConfigSet& cfg)
{
	const Error err = initInternal(cfg);
	if(err)
	{
		ANKI_R_LOGE("Failed to initialize SSR pass");
	}
	return err;
}

Error Ssr::initInternal(const ConfigSet& cfg)
{
	const U32 width = m_r->getInternalResolution().x();
	const U32 height = m_r->getInternalResolution().y();
	ANKI_R_LOGI("Initializing SSR pass (%ux%u)", width, height);
	m_maxSteps = cfg.getNumberU32("r_ssrMaxSteps");
	m_depthLod = cfg.getNumberU32("r_ssrDepthLod");
	m_firstStepPixels = 32;

	ANKI_CHECK(getResourceManager().loadResource("EngineAssets/BlueNoise_Rgba8_16x16.png", m_noiseImage));

	// Create RTs
	TextureInitInfo texinit = m_r->create2DRenderTargetInitInfo(
		width, height, Format::R16G16B16A16_SFLOAT,
		TextureUsageBit::IMAGE_COMPUTE_READ | TextureUsageBit::IMAGE_COMPUTE_WRITE | TextureUsageBit::SAMPLED_FRAGMENT,
		"SSR");
	texinit.m_initialUsage = TextureUsageBit::SAMPLED_FRAGMENT;
	m_rt = m_r->createAndClearRenderTarget(texinit);

	// Create shader
	ANKI_CHECK(getResourceManager().loadResource("Shaders/Ssr.ankiprog", m_prog));

	ShaderProgramResourceVariantInitInfo variantInitInfo(m_prog);
	variantInitInfo.addMutation("VARIANT", 0);

	const ShaderProgramResourceVariant* variant;
	m_prog->getOrCreateVariant(variantInitInfo, variant);
	m_grProg[0] = variant->getProgram();
	m_workgroupSize[0] = variant->getWorkgroupSizes()[0];
	m_workgroupSize[1] = variant->getWorkgroupSizes()[1];

	variantInitInfo.addMutation("VARIANT", 1);
	m_prog->getOrCreateVariant(variantInitInfo, variant);
	m_grProg[1] = variant->getProgram();

	return Error::NONE;
}

void Ssr::populateRenderGraph(RenderingContext& ctx)
{
	RenderGraphDescription& rgraph = ctx.m_renderGraphDescr;

	// Create RTs
	m_runCtx.m_rt = rgraph.importRenderTarget(m_rt, TextureUsageBit::SAMPLED_FRAGMENT);

	// Create pass
	ComputeRenderPassDescription& rpass = rgraph.newComputeRenderPass("SSR");
	rpass.setWork([this, &ctx](RenderPassWorkContext& rgraphCtx) {
		run(ctx, rgraphCtx);
	});

	rpass.newDependency({m_runCtx.m_rt, TextureUsageBit::IMAGE_COMPUTE_READ | TextureUsageBit::IMAGE_COMPUTE_WRITE});
	rpass.newDependency({m_r->getGBuffer().getColorRt(1), TextureUsageBit::SAMPLED_COMPUTE});
	rpass.newDependency({m_r->getGBuffer().getColorRt(2), TextureUsageBit::SAMPLED_COMPUTE});

	TextureSubresourceInfo hizSubresource;
	hizSubresource.m_firstMipmap = min(m_depthLod, m_r->getDepthDownscale().getMipmapCount() - 1);
	rpass.newDependency({m_r->getDepthDownscale().getHiZRt(), TextureUsageBit::SAMPLED_COMPUTE, hizSubresource});

	rpass.newDependency({m_r->getDownscaleBlur().getRt(), TextureUsageBit::SAMPLED_COMPUTE});
}

void Ssr::run(const RenderingContext& ctx, RenderPassWorkContext& rgraphCtx)
{
	CommandBufferPtr& cmdb = rgraphCtx.m_commandBuffer;
	cmdb->bindShaderProgram(m_grProg[m_r->getFrameCount() & 1u]);

	rgraphCtx.bindImage(0, 0, m_runCtx.m_rt, TextureSubresourceInfo());
	const U32 depthLod = min(m_depthLod, m_r->getDepthDownscale().getMipmapCount() - 1);

	// Bind uniforms
	SsrUniforms* unis = allocateAndBindUniforms<SsrUniforms*>(sizeof(SsrUniforms), cmdb, 0, 1);
	unis->m_depthBufferSize =
		UVec2(m_r->getInternalResolution().x(), m_r->getInternalResolution().y()) >> (depthLod + 1);
	unis->m_framebufferSize = UVec2(m_r->getInternalResolution().x(), m_r->getInternalResolution().y());
	unis->m_frameCount = m_r->getFrameCount() & MAX_U32;
	unis->m_depthMipCount = m_r->getDepthDownscale().getMipmapCount();
	unis->m_maxSteps = m_maxSteps;
	unis->m_lightBufferMipCount = m_r->getDownscaleBlur().getMipmapCount();
	unis->m_firstStepPixels = m_firstStepPixels;
	unis->m_prevViewProjMatMulInvViewProjMat =
		ctx.m_prevMatrices.m_viewProjection * ctx.m_matrices.m_viewProjectionJitter.getInverse();
	unis->m_projMat = ctx.m_matrices.m_projectionJitter;
	unis->m_invProjMat = ctx.m_matrices.m_projectionJitter.getInverse();
	unis->m_normalMat = Mat3x4(Vec3(0.0f), ctx.m_matrices.m_view.getRotationPart());

	// Bind all
	cmdb->bindSampler(0, 2, m_r->getSamplers().m_trilinearClamp);

	rgraphCtx.bindColorTexture(0, 3, m_r->getGBuffer().getColorRt(1));
	rgraphCtx.bindColorTexture(0, 4, m_r->getGBuffer().getColorRt(2));

	TextureSubresourceInfo hizSubresource;
	hizSubresource.m_firstMipmap = depthLod;
	rgraphCtx.bindTexture(0, 5, m_r->getDepthDownscale().getHiZRt(), hizSubresource);

	rgraphCtx.bindColorTexture(0, 6, m_r->getDownscaleBlur().getRt());

	cmdb->bindSampler(0, 7, m_r->getSamplers().m_trilinearRepeat);
	cmdb->bindTexture(0, 8, m_noiseImage->getTextureView());

	// Dispatch
	dispatchPPCompute(cmdb, m_workgroupSize[0], m_workgroupSize[1], m_r->getInternalResolution().x() / 2,
					  m_r->getInternalResolution().y());
}

} // end namespace anki