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Running
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Zero
/* | |
* Copyright (C) 2023, Inria | |
* GRAPHDECO research group, https://team.inria.fr/graphdeco | |
* All rights reserved. | |
* | |
* This software is free for non-commercial, research and evaluation use | |
* under the terms of the LICENSE.md file. | |
* | |
* For inquiries contact [email protected] | |
*/ | |
std::function<char*(size_t N)> resizeFunctional(torch::Tensor& t) { | |
auto lambda = [&t](size_t N) { | |
t.resize_({(long long)N}); | |
return reinterpret_cast<char*>(t.contiguous().data_ptr()); | |
}; | |
return lambda; | |
} | |
std::tuple<int, torch::Tensor, torch::Tensor, torch::Tensor, torch::Tensor, torch::Tensor, torch::Tensor, torch::Tensor> | |
RasterizeGaussiansCUDA( | |
const torch::Tensor& background, | |
const torch::Tensor& means3D, | |
const torch::Tensor& colors, | |
const torch::Tensor& opacity, | |
const torch::Tensor& scales, | |
const torch::Tensor& rotations, | |
const float scale_modifier, | |
const torch::Tensor& cov3D_precomp, | |
const torch::Tensor& viewmatrix, | |
const torch::Tensor& projmatrix, | |
const float tan_fovx, | |
const float tan_fovy, | |
const int image_height, | |
const int image_width, | |
const torch::Tensor& sh, | |
const int degree, | |
const torch::Tensor& campos, | |
const bool prefiltered, | |
const bool debug) | |
{ | |
if (means3D.ndimension() != 2 || means3D.size(1) != 3) { | |
AT_ERROR("means3D must have dimensions (num_points, 3)"); | |
} | |
const int P = means3D.size(0); | |
const int H = image_height; | |
const int W = image_width; | |
auto int_opts = means3D.options().dtype(torch::kInt32); | |
auto float_opts = means3D.options().dtype(torch::kFloat32); | |
torch::Tensor out_color = torch::full({NUM_CHANNELS, H, W}, 0.0, float_opts); | |
torch::Tensor out_depth = torch::full({1, H, W}, 0.0, float_opts); | |
torch::Tensor out_alpha = torch::full({1, H, W}, 0.0, float_opts); | |
torch::Tensor radii = torch::full({P}, 0, means3D.options().dtype(torch::kInt32)); | |
torch::Device device(torch::kCUDA); | |
torch::TensorOptions options(torch::kByte); | |
torch::Tensor geomBuffer = torch::empty({0}, options.device(device)); | |
torch::Tensor binningBuffer = torch::empty({0}, options.device(device)); | |
torch::Tensor imgBuffer = torch::empty({0}, options.device(device)); | |
std::function<char*(size_t)> geomFunc = resizeFunctional(geomBuffer); | |
std::function<char*(size_t)> binningFunc = resizeFunctional(binningBuffer); | |
std::function<char*(size_t)> imgFunc = resizeFunctional(imgBuffer); | |
int rendered = 0; | |
if(P != 0) | |
{ | |
int M = 0; | |
if(sh.size(0) != 0) | |
{ | |
M = sh.size(1); | |
} | |
rendered = CudaRasterizer::Rasterizer::forward( | |
geomFunc, | |
binningFunc, | |
imgFunc, | |
P, degree, M, | |
background.contiguous().data<float>(), | |
W, H, | |
means3D.contiguous().data<float>(), | |
sh.contiguous().data_ptr<float>(), | |
colors.contiguous().data<float>(), | |
opacity.contiguous().data<float>(), | |
scales.contiguous().data_ptr<float>(), | |
scale_modifier, | |
rotations.contiguous().data_ptr<float>(), | |
cov3D_precomp.contiguous().data<float>(), | |
viewmatrix.contiguous().data<float>(), | |
projmatrix.contiguous().data<float>(), | |
campos.contiguous().data<float>(), | |
tan_fovx, | |
tan_fovy, | |
prefiltered, | |
out_color.contiguous().data<float>(), | |
out_depth.contiguous().data<float>(), | |
out_alpha.contiguous().data<float>(), | |
radii.contiguous().data<int>(), | |
debug); | |
} | |
return std::make_tuple(rendered, out_color, out_depth, out_alpha, radii, geomBuffer, binningBuffer, imgBuffer); | |
} | |
std::tuple<torch::Tensor, torch::Tensor, torch::Tensor, torch::Tensor, torch::Tensor, torch::Tensor, torch::Tensor, torch::Tensor> | |
RasterizeGaussiansBackwardCUDA( | |
const torch::Tensor& background, | |
const torch::Tensor& means3D, | |
const torch::Tensor& radii, | |
const torch::Tensor& colors, | |
const torch::Tensor& scales, | |
const torch::Tensor& rotations, | |
const float scale_modifier, | |
const torch::Tensor& cov3D_precomp, | |
const torch::Tensor& viewmatrix, | |
const torch::Tensor& projmatrix, | |
const float tan_fovx, | |
const float tan_fovy, | |
const torch::Tensor& dL_dout_color, | |
const torch::Tensor& dL_dout_depth, | |
const torch::Tensor& dL_dout_alpha, | |
const torch::Tensor& sh, | |
const int degree, | |
const torch::Tensor& campos, | |
const torch::Tensor& geomBuffer, | |
const int R, | |
const torch::Tensor& binningBuffer, | |
const torch::Tensor& imageBuffer, | |
const torch::Tensor& alphas, | |
const bool debug) | |
{ | |
const int P = means3D.size(0); | |
const int H = dL_dout_color.size(1); | |
const int W = dL_dout_color.size(2); | |
int M = 0; | |
if(sh.size(0) != 0) | |
{ | |
M = sh.size(1); | |
} | |
torch::Tensor dL_dmeans3D = torch::zeros({P, 3}, means3D.options()); | |
torch::Tensor dL_dmeans2D = torch::zeros({P, 3}, means3D.options()); | |
torch::Tensor dL_dcolors = torch::zeros({P, NUM_CHANNELS}, means3D.options()); | |
torch::Tensor dL_ddepths = torch::zeros({P, 1}, means3D.options()); | |
torch::Tensor dL_dconic = torch::zeros({P, 2, 2}, means3D.options()); | |
torch::Tensor dL_dopacity = torch::zeros({P, 1}, means3D.options()); | |
torch::Tensor dL_dcov3D = torch::zeros({P, 6}, means3D.options()); | |
torch::Tensor dL_dsh = torch::zeros({P, M, 3}, means3D.options()); | |
torch::Tensor dL_dscales = torch::zeros({P, 3}, means3D.options()); | |
torch::Tensor dL_drotations = torch::zeros({P, 4}, means3D.options()); | |
if(P != 0) | |
{ | |
CudaRasterizer::Rasterizer::backward(P, degree, M, R, | |
background.contiguous().data<float>(), | |
W, H, | |
means3D.contiguous().data<float>(), | |
sh.contiguous().data<float>(), | |
colors.contiguous().data<float>(), | |
alphas.contiguous().data<float>(), | |
scales.data_ptr<float>(), | |
scale_modifier, | |
rotations.data_ptr<float>(), | |
cov3D_precomp.contiguous().data<float>(), | |
viewmatrix.contiguous().data<float>(), | |
projmatrix.contiguous().data<float>(), | |
campos.contiguous().data<float>(), | |
tan_fovx, | |
tan_fovy, | |
radii.contiguous().data<int>(), | |
reinterpret_cast<char*>(geomBuffer.contiguous().data_ptr()), | |
reinterpret_cast<char*>(binningBuffer.contiguous().data_ptr()), | |
reinterpret_cast<char*>(imageBuffer.contiguous().data_ptr()), | |
dL_dout_color.contiguous().data<float>(), | |
dL_dout_depth.contiguous().data<float>(), | |
dL_dout_alpha.contiguous().data<float>(), | |
dL_dmeans2D.contiguous().data<float>(), | |
dL_dconic.contiguous().data<float>(), | |
dL_dopacity.contiguous().data<float>(), | |
dL_dcolors.contiguous().data<float>(), | |
dL_ddepths.contiguous().data<float>(), | |
dL_dmeans3D.contiguous().data<float>(), | |
dL_dcov3D.contiguous().data<float>(), | |
dL_dsh.contiguous().data<float>(), | |
dL_dscales.contiguous().data<float>(), | |
dL_drotations.contiguous().data<float>(), | |
debug); | |
} | |
return std::make_tuple(dL_dmeans2D, dL_dcolors, dL_dopacity, dL_dmeans3D, dL_dcov3D, dL_dsh, dL_dscales, dL_drotations); | |
} | |
torch::Tensor markVisible( | |
torch::Tensor& means3D, | |
torch::Tensor& viewmatrix, | |
torch::Tensor& projmatrix) | |
{ | |
const int P = means3D.size(0); | |
torch::Tensor present = torch::full({P}, false, means3D.options().dtype(at::kBool)); | |
if(P != 0) | |
{ | |
CudaRasterizer::Rasterizer::markVisible(P, | |
means3D.contiguous().data<float>(), | |
viewmatrix.contiguous().data<float>(), | |
projmatrix.contiguous().data<float>(), | |
present.contiguous().data<bool>()); | |
} | |
return present; | |
} |