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tf_nndistance.cu
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#if GOOGLE_CUDA
#define EIGEN_USE_GPU
// #include "third_party/eigen3/unsupported/Eigen/CXX11/Tensor"
__global__ void NmDistanceKernel(int b,int n,const float * xyz,int m,const float * xyz2,float * result,int * result_i){
const int batch=512;
__shared__ float buf[batch*3];
for (int i=blockIdx.x;i<b;i+=gridDim.x){
for (int k2=0;k2<m;k2+=batch){
int end_k=min(m,k2+batch)-k2;
for (int j=threadIdx.x;j<end_k*3;j+=blockDim.x){
buf[j]=xyz2[(i*m+k2)*3+j];
}
__syncthreads();
for (int j=threadIdx.x+blockIdx.y*blockDim.x;j<n;j+=blockDim.x*gridDim.y){
float x1=xyz[(i*n+j)*3+0];
float y1=xyz[(i*n+j)*3+1];
float z1=xyz[(i*n+j)*3+2];
int best_i=0;
float best=0;
int end_ka=end_k-(end_k&3);
if (end_ka==batch){
for (int k=0;k<batch;k+=4){
{
float x2=buf[k*3+0]-x1;
float y2=buf[k*3+1]-y1;
float z2=buf[k*3+2]-z1;
float d=x2*x2+y2*y2+z2*z2;
if (k==0 || d<best){
best=d;
best_i=k+k2;
}
}
{
float x2=buf[k*3+3]-x1;
float y2=buf[k*3+4]-y1;
float z2=buf[k*3+5]-z1;
float d=x2*x2+y2*y2+z2*z2;
if (d<best){
best=d;
best_i=k+k2+1;
}
}
{
float x2=buf[k*3+6]-x1;
float y2=buf[k*3+7]-y1;
float z2=buf[k*3+8]-z1;
float d=x2*x2+y2*y2+z2*z2;
if (d<best){
best=d;
best_i=k+k2+2;
}
}
{
float x2=buf[k*3+9]-x1;
float y2=buf[k*3+10]-y1;
float z2=buf[k*3+11]-z1;
float d=x2*x2+y2*y2+z2*z2;
if (d<best){
best=d;
best_i=k+k2+3;
}
}
}
}else{
for (int k=0;k<end_ka;k+=4){
{
float x2=buf[k*3+0]-x1;
float y2=buf[k*3+1]-y1;
float z2=buf[k*3+2]-z1;
float d=x2*x2+y2*y2+z2*z2;
if (k==0 || d<best){
best=d;
best_i=k+k2;
}
}
{
float x2=buf[k*3+3]-x1;
float y2=buf[k*3+4]-y1;
float z2=buf[k*3+5]-z1;
float d=x2*x2+y2*y2+z2*z2;
if (d<best){
best=d;
best_i=k+k2+1;
}
}
{
float x2=buf[k*3+6]-x1;
float y2=buf[k*3+7]-y1;
float z2=buf[k*3+8]-z1;
float d=x2*x2+y2*y2+z2*z2;
if (d<best){
best=d;
best_i=k+k2+2;
}
}
{
float x2=buf[k*3+9]-x1;
float y2=buf[k*3+10]-y1;
float z2=buf[k*3+11]-z1;
float d=x2*x2+y2*y2+z2*z2;
if (d<best){
best=d;
best_i=k+k2+3;
}
}
}
}
for (int k=end_ka;k<end_k;k++){
float x2=buf[k*3+0]-x1;
float y2=buf[k*3+1]-y1;
float z2=buf[k*3+2]-z1;
float d=x2*x2+y2*y2+z2*z2;
if (k==0 || d<best){
best=d;
best_i=k+k2;
}
}
if (k2==0 || result[(i*n+j)]>best){
result[(i*n+j)]=best;
result_i[(i*n+j)]=best_i;
}
}
__syncthreads();
}
}
}
void NmDistanceKernelLauncher(int b,int n,const float * xyz,int m,const float * xyz2,float * result,int * result_i,float * result2,int * result2_i){
NmDistanceKernel<<<dim3(32,16,1),512>>>(b,n,xyz,m,xyz2,result,result_i);
NmDistanceKernel<<<dim3(32,16,1),512>>>(b,m,xyz2,n,xyz,result2,result2_i);
}
__global__ void NmDistanceGradKernel(int b,int n,const float * xyz1,int m,const float * xyz2,const float * grad_dist1,const int * idx1,float * grad_xyz1,float * grad_xyz2){
for (int i=blockIdx.x;i<b;i+=gridDim.x){
for (int j=threadIdx.x+blockIdx.y*blockDim.x;j<n;j+=blockDim.x*gridDim.y){
float x1=xyz1[(i*n+j)*3+0];
float y1=xyz1[(i*n+j)*3+1];
float z1=xyz1[(i*n+j)*3+2];
int j2=idx1[i*n+j];
float x2=xyz2[(i*m+j2)*3+0];
float y2=xyz2[(i*m+j2)*3+1];
float z2=xyz2[(i*m+j2)*3+2];
float g=grad_dist1[i*n+j]*2;
atomicAdd(&(grad_xyz1[(i*n+j)*3+0]),g*(x1-x2));
atomicAdd(&(grad_xyz1[(i*n+j)*3+1]),g*(y1-y2));
atomicAdd(&(grad_xyz1[(i*n+j)*3+2]),g*(z1-z2));
atomicAdd(&(grad_xyz2[(i*m+j2)*3+0]),-(g*(x1-x2)));
atomicAdd(&(grad_xyz2[(i*m+j2)*3+1]),-(g*(y1-y2)));
atomicAdd(&(grad_xyz2[(i*m+j2)*3+2]),-(g*(z1-z2)));
}
}
}
void NmDistanceGradKernelLauncher(int b,int n,const float * xyz1,int m,const float * xyz2,const float * grad_dist1,const int * idx1,const float * grad_dist2,const int * idx2,float * grad_xyz1,float * grad_xyz2){
cudaMemset(grad_xyz1,0,b*n*3*4);
cudaMemset(grad_xyz2,0,b*m*3*4);
NmDistanceGradKernel<<<dim3(1,16,1),256>>>(b,n,xyz1,m,xyz2,grad_dist1,idx1,grad_xyz1,grad_xyz2);
NmDistanceGradKernel<<<dim3(1,16,1),256>>>(b,m,xyz2,n,xyz1,grad_dist2,idx2,grad_xyz2,grad_xyz1);
}
#endif