mirror of
https://github.com/DrBeef/Raze.git
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9071949a46
* Vulkan SDK and dependencies updated. * better interface for buffers in the render backend.
149 lines
4.4 KiB
C++
149 lines
4.4 KiB
C++
//
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//---------------------------------------------------------------------------
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//
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// Copyright(C) 2014-2016 Christoph Oelckers
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// All rights reserved.
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//
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// This program is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Lesser General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// This program is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Lesser General Public License for more details.
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//
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// You should have received a copy of the GNU Lesser General Public License
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// along with this program. If not, see http://www.gnu.org/licenses/
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//
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//--------------------------------------------------------------------------
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//
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/*
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** gl_lightbuffer.cpp
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** Buffer data maintenance for dynamic lights
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**
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**/
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#include "hw_lightbuffer.h"
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#include "hw_dynlightdata.h"
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#include "shaderuniforms.h"
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static const int ELEMENTS_PER_LIGHT = 4; // each light needs 4 vec4's.
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static const int ELEMENT_SIZE = (4*sizeof(float));
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FLightBuffer::FLightBuffer(int pipelineNbr):
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mPipelineNbr(pipelineNbr)
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{
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int maxNumberOfLights = 80000;
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mBufferSize = maxNumberOfLights * ELEMENTS_PER_LIGHT;
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mByteSize = mBufferSize * ELEMENT_SIZE;
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// Hack alert: On Intel's GL driver SSBO's perform quite worse than UBOs.
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// We only want to disable using SSBOs for lights but not disable the feature entirely.
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// Note that using an uniform buffer here will limit the number of lights per surface so it isn't done for NVidia and AMD.
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if (screen->IsVulkan() || screen->IsPoly() || ((screen->hwcaps & RFL_SHADER_STORAGE_BUFFER) && screen->allowSSBO() && !strstr(screen->vendorstring, "Intel")))
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{
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mBufferType = true;
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mBlockAlign = 0;
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mBlockSize = mBufferSize;
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mMaxUploadSize = mBlockSize;
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}
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else
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{
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mBufferType = false;
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mBlockSize = screen->maxuniformblock / ELEMENT_SIZE;
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mBlockAlign = screen->uniformblockalignment / ELEMENT_SIZE;
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mMaxUploadSize = (mBlockSize - mBlockAlign);
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//mByteSize += screen->maxuniformblock; // to avoid mapping beyond the end of the buffer. REMOVED this...This can try to allocate 100's of MB..
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}
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for (int n = 0; n < mPipelineNbr; n++)
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{
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mBufferPipeline[n] = screen->CreateDataBuffer(LIGHTBUF_BINDINGPOINT, mBufferType, false);
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mBufferPipeline[n]->SetData(mByteSize, nullptr, BufferUsageType::Persistent);
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}
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Clear();
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}
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FLightBuffer::~FLightBuffer()
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{
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delete mBuffer;
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}
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void FLightBuffer::Clear()
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{
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mIndex = 0;
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mPipelinePos++;
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mPipelinePos %= mPipelineNbr;
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mBuffer = mBufferPipeline[mPipelinePos];
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}
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int FLightBuffer::UploadLights(FDynLightData &data)
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{
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// All meaasurements here are in vec4's.
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int size0 = data.arrays[0].Size()/4;
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int size1 = data.arrays[1].Size()/4;
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int size2 = data.arrays[2].Size()/4;
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int totalsize = size0 + size1 + size2 + 1;
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if (totalsize > (int)mMaxUploadSize)
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{
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int diff = totalsize - (int)mMaxUploadSize;
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size2 -= diff;
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if (size2 < 0)
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{
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size1 += size2;
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size2 = 0;
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}
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if (size1 < 0)
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{
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size0 += size1;
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size1 = 0;
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}
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totalsize = size0 + size1 + size2 + 1;
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}
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float *mBufferPointer = (float*)mBuffer->Memory();
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assert(mBufferPointer != nullptr);
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if (mBufferPointer == nullptr) return -1;
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if (totalsize <= 1) return -1; // there are no lights
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unsigned thisindex = mIndex.fetch_add(totalsize);
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float parmcnt[] = { 0, float(size0), float(size0 + size1), float(size0 + size1 + size2) };
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if (thisindex + totalsize <= mBufferSize)
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{
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float *copyptr = mBufferPointer + thisindex*4;
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memcpy(©ptr[0], parmcnt, ELEMENT_SIZE);
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memcpy(©ptr[4], &data.arrays[0][0], size0 * ELEMENT_SIZE);
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memcpy(©ptr[4 + 4*size0], &data.arrays[1][0], size1 * ELEMENT_SIZE);
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memcpy(©ptr[4 + 4*(size0 + size1)], &data.arrays[2][0], size2 * ELEMENT_SIZE);
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return thisindex;
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}
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else
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{
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return -1; // Buffer is full. Since it is being used live at the point of the upload we cannot do much here but to abort.
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}
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}
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int FLightBuffer::GetBinding(unsigned int index, size_t* pOffset, size_t* pSize)
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{
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// this function will only get called if a uniform buffer is used. For a shader storage buffer we only need to bind the buffer once at the start.
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unsigned int offset = (index / mBlockAlign) * mBlockAlign;
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*pOffset = offset * ELEMENT_SIZE;
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*pSize = mBlockSize * ELEMENT_SIZE;
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return (index - offset);
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}
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