Commit d26457f8 authored by Andrey Filippov's avatar Andrey Filippov

testing GC direct+inverse for 16 mono. Need to remove debayer

parent a01cbab2
...@@ -57,8 +57,8 @@ ...@@ -57,8 +57,8 @@
#define DBG_CAM 3 #define DBG_CAM 3
__device__ void printGeometryCorrection(struct gc * g); __device__ void printGeometryCorrection(struct gc * g, int num_cams);
__device__ void printExtrinsicCorrection(corr_vector * cv); __device__ void printExtrinsicCorrection(corr_vector * cv, int num_cams);
/** /**
...@@ -436,8 +436,8 @@ extern "C" __global__ void get_tiles_offsets( ...@@ -436,8 +436,8 @@ extern "C" __global__ void get_tiles_offsets(
if ((ncam == DBG_CAM) && (task_num == DBG_TILE)){ if ((ncam == DBG_CAM) && (task_num == DBG_TILE)){
printf("\nTile = %d, camera= %d\n", task_num, ncam); printf("\nTile = %d, camera= %d\n", task_num, ncam);
printf("\nget_tiles_offsets() threadIdx.x = %d, threadIdx.y = %d,blockIdx.x= %d\n", (int)threadIdx.x, (int)threadIdx.y, (int) blockIdx.x); printf("\nget_tiles_offsets() threadIdx.x = %d, threadIdx.y = %d,blockIdx.x= %d\n", (int)threadIdx.x, (int)threadIdx.y, (int) blockIdx.x);
printGeometryCorrection(&geometry_correction); printGeometryCorrection(&geometry_correction, num_cams);
printExtrinsicCorrection(&extrinsic_corr); printExtrinsicCorrection(&extrinsic_corr,num_cams);
} }
__syncthreads();// __syncwarp(); __syncthreads();// __syncwarp();
#endif // DEBUG21 #endif // DEBUG21
...@@ -852,7 +852,7 @@ inline __device__ float getRByRDist(float rDist, ...@@ -852,7 +852,7 @@ inline __device__ float getRByRDist(float rDist,
return result; return result;
} }
__device__ void printGeometryCorrection(struct gc * g){ __device__ void printGeometryCorrection(struct gc * g, int num_cams){
#ifndef JCUDA #ifndef JCUDA
printf("\nGeometry Correction\n------------------\n"); printf("\nGeometry Correction\n------------------\n");
printf("%22s: %f\n","pixelCorrectionWidth", g->pixelCorrectionWidth); printf("%22s: %f\n","pixelCorrectionWidth", g->pixelCorrectionWidth);
...@@ -874,39 +874,58 @@ __device__ void printGeometryCorrection(struct gc * g){ ...@@ -874,39 +874,58 @@ __device__ void printGeometryCorrection(struct gc * g){
printf("%22s: %f\n","elevation", g->elevation); printf("%22s: %f\n","elevation", g->elevation);
printf("%22s: %f\n","heading", g->heading); printf("%22s: %f\n","heading", g->heading);
printf("%22s: %f, %f, %f, %f \n","forward", g->forward[0], g->forward[1], g->forward[2], g->forward[3]); // printf("%22s: %f, %f, %f, %f \n","forward", g->forward[0], g->forward[1], g->forward[2], g->forward[3]);
printf("%22s: %f, %f, %f, %f \n","right", g->right[0], g->right[1], g->right[2], g->right[3]); // printf("%22s: %f, %f, %f, %f \n","right", g->right[0], g->right[1], g->right[2], g->right[3]);
printf("%22s: %f, %f, %f, %f \n","height", g->height[0], g->height[1], g->height[2], g->height[3]); // printf("%22s: %f, %f, %f, %f \n","height", g->height[0], g->height[1], g->height[2], g->height[3]);
printf("%22s: %f, %f, %f, %f \n","roll", g->roll[0], g->roll[1], g->roll[2], g->roll[3]); // printf("%22s: %f, %f, %f, %f \n","roll", g->roll[0], g->roll[1], g->roll[2], g->roll[3]);
printf("%22s: %f, %f \n", "pXY0[0]", g->pXY0[0][0], g->pXY0[0][1]); // printf("%22s: %f, %f \n", "pXY0[0]", g->pXY0[0][0], g->pXY0[0][1]);
printf("%22s: %f, %f \n", "pXY0[1]", g->pXY0[1][0], g->pXY0[1][1]); // printf("%22s: %f, %f \n", "pXY0[1]", g->pXY0[1][0], g->pXY0[1][1]);
printf("%22s: %f, %f \n", "pXY0[2]", g->pXY0[2][0], g->pXY0[2][1]); // printf("%22s: %f, %f \n", "pXY0[2]", g->pXY0[2][0], g->pXY0[2][1]);
printf("%22s: %f, %f \n", "pXY0[3]", g->pXY0[3][0], g->pXY0[3][1]); // printf("%22s: %f, %f \n", "pXY0[3]", g->pXY0[3][0], g->pXY0[3][1]);
printf("%22s:","forward"); for (int ncam = 0; ncam < num_cams; ncam++) printf(" %f,", g->forward[ncam]); printf("\n");
printf("%22s:","right"); for (int ncam = 0; ncam < num_cams; ncam++) printf(" %f,", g->right [ncam]); printf("\n");
printf("%22s:","height"); for (int ncam = 0; ncam < num_cams; ncam++) printf(" %f,", g->height [ncam]); printf("\n");
printf("%22s:","roll"); for (int ncam = 0; ncam < num_cams; ncam++) printf(" %f,", g->roll [ncam]); printf("\n");
for (int ncam = 0; ncam < num_cams; ncam++) {
printf("%19s%2d]: %f, %f \n", "pXY0[",ncam, g->pXY0[ncam][0], g->pXY0[ncam][1]);
}
printf("%22s: %f\n","common_right", g->common_right); printf("%22s: %f\n","common_right", g->common_right);
printf("%22s: %f\n","common_forward", g->common_forward); printf("%22s: %f\n","common_forward", g->common_forward);
printf("%22s: %f\n","common_height", g->common_height); printf("%22s: %f\n","common_height", g->common_height);
printf("%22s: %f\n","common_roll", g->common_roll); printf("%22s: %f\n","common_roll", g->common_roll);
printf("%22s: x=%f, y=%f\n","rXY[0]", g->rXY[0][0], g->rXY[0][1]); // printf("%22s: x=%f, y=%f\n","rXY[0]", g->rXY[0][0], g->rXY[0][1]);
printf("%22s: x=%f, y=%f\n","rXY[1]", g->rXY[1][0], g->rXY[1][1]); // printf("%22s: x=%f, y=%f\n","rXY[1]", g->rXY[1][0], g->rXY[1][1]);
printf("%22s: x=%f, y=%f\n","rXY[2]", g->rXY[2][0], g->rXY[2][1]); // printf("%22s: x=%f, y=%f\n","rXY[2]", g->rXY[2][0], g->rXY[2][1]);
printf("%22s: x=%f, y=%f\n","rXY[3]", g->rXY[3][0], g->rXY[3][1]); // printf("%22s: x=%f, y=%f\n","rXY[3]", g->rXY[3][0], g->rXY[3][1]);
for (int ncam = 0; ncam < num_cams; ncam++) {
printf("%19s%2d]: %f, %f \n", "rXY[", ncam, g->rXY[ncam][0], g->rXY[ncam][1]);
}
printf("%22s: %f\n","cameraRadius", g->cameraRadius); printf("%22s: %f\n","cameraRadius", g->cameraRadius);
printf("%22s: %f\n","disparityRadius", g->disparityRadius); printf("%22s: %f\n","disparityRadius", g->disparityRadius);
printf("%22s: %f, %f, %f, %f \n","woi_tops", g->woi_tops[0], g->woi_tops[1], g->woi_tops[2], g->woi_tops[3]);
// printf("%22s: %f, %f, %f, %f \n","woi_tops", g->woi_tops[0], g->woi_tops[1], g->woi_tops[2], g->woi_tops[3]);
printf("%22s:","woi_tops"); for (int ncam = 0; ncam < num_cams; ncam++) printf(" %f,", g->woi_tops[ncam]); printf("\n");
#endif //ifndef JCUDA #endif //ifndef JCUDA
} }
__device__ void printExtrinsicCorrection(corr_vector * cv) __device__ void printExtrinsicCorrection(corr_vector * cv, int num_cams)
{ {
#ifndef JCUDA #ifndef JCUDA
printf("\nExtrinsic Correction Vector\n---------------------------\n"); printf("\nExtrinsic Correction Vector\n---------------------------\n");
printf("%22s: %f, %f, %f\n", "tilt", cv->tilt[0], cv->tilt[1], cv->tilt[2]); // printf("%22s: %f, %f, %f\n", "tilt", cv->tilt[0], cv->tilt[1], cv->tilt[2]);
printf("%22s: %f, %f, %f\n", "azimuth", cv->azimuth[0], cv->azimuth[1], cv->azimuth[2]); // printf("%22s: %f, %f, %f\n", "azimuth", cv->azimuth[0], cv->azimuth[1], cv->azimuth[2]);
printf("%22s: %f, %f, %f, %f\n", "roll", cv->roll[0], cv->roll[1], cv->roll[2], cv->roll[3]); // printf("%22s: %f, %f, %f, %f\n", "roll", cv->roll[0], cv->roll[1], cv->roll[2], cv->roll[3]);
printf("%22s: %f, %f, %f\n", "zoom", cv->zoom[0], cv->zoom[1], cv->zoom[2]); // printf("%22s: %f, %f, %f\n", "zoom", cv->zoom[0], cv->zoom[1], cv->zoom[2]);
printf("%22s:","tilt"); for (int ncam = 0; ncam < (num_cams-1); ncam++) printf(" %f,", cv->tilt[ncam]); printf("\n");
printf("%22s:","azimuth"); for (int ncam = 0; ncam < (num_cams-1); ncam++) printf(" %f,", cv->azimuth[ncam]); printf("\n");
printf("%22s:","roll"); for (int ncam = 0; ncam < num_cams; ncam++) printf(" %f,", cv->roll[ncam]); printf("\n");
printf("%22s:","zoom"); for (int ncam = 0; ncam < (num_cams-1); ncam++) printf(" %f,", cv->zoom[ncam]); printf("\n");
printf("%22s: %f(t), %f(a), %f(r)\n", "imu_rot", cv->imu_rot[0], cv->imu_rot[1], cv->imu_rot[2]); printf("%22s: %f(t), %f(a), %f(r)\n", "imu_rot", cv->imu_rot[0], cv->imu_rot[1], cv->imu_rot[2]);
printf("%22s: %f(x), %f(y), %f(z)\n", "imu_move", cv->imu_move[0], cv->imu_move[1], cv->imu_move[2]); printf("%22s: %f(x), %f(y), %f(z)\n", "imu_move", cv->imu_move[0], cv->imu_move[1], cv->imu_move[2]);
......
...@@ -156,6 +156,8 @@ int get_file_size(std::string filename) // path to file ...@@ -156,6 +156,8 @@ int get_file_size(std::string filename) // path to file
int readFloatsFromFile(float * data, // allocated array int readFloatsFromFile(float * data, // allocated array
const char * path) // file path const char * path) // file path
{ {
printf("readFloatsFromFile(%s)\n", path);
int fsize = get_file_size(path); int fsize = get_file_size(path);
std::ifstream input(path, std::ios::binary ); std::ifstream input(path, std::ios::binary );
// copies all data into buffer // copies all data into buffer
...@@ -254,8 +256,128 @@ int main(int argc, char **argv) ...@@ -254,8 +256,128 @@ int main(int argc, char **argv)
//initialize CUDA //initialize CUDA
findCudaDevice(argc, (const char **)argv); findCudaDevice(argc, (const char **)argv);
// CLT testing #if TEST_LWIR
const char* kernel_file[] = {
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn0_transposed.kernel",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn1_transposed.kernel",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn2_transposed.kernel",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn3_transposed.kernel",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn4_transposed.kernel",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn5_transposed.kernel",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn6_transposed.kernel",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn7_transposed.kernel",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn8_transposed.kernel",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn9_transposed.kernel",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn10_transposed.kernel",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn11_transposed.kernel",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn12_transposed.kernel",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn13_transposed.kernel",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn14_transposed.kernel",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn15_transposed.kernel"};
const char* kernel_offs_file[] = {
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn0_transposed.kernel_offsets",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn1_transposed.kernel_offsets",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn2_transposed.kernel_offsets",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn3_transposed.kernel_offsets",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn4_transposed.kernel_offsets",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn5_transposed.kernel_offsets",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn6_transposed.kernel_offsets",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn7_transposed.kernel_offsets",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn8_transposed.kernel_offsets",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn9_transposed.kernel_offsets",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn10_transposed.kernel_offsets",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn11_transposed.kernel_offsets",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn12_transposed.kernel_offsets",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn13_transposed.kernel_offsets",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn14_transposed.kernel_offsets",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn15_transposed.kernel_offsets"};
const char* image_files[] = {
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn0.bayer",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn1.bayer",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn2.bayer",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn3.bayer",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn4.bayer",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn5.bayer",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn6.bayer",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn7.bayer",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn8.bayer",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn9.bayer",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn10.bayer",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn11.bayer",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn12.bayer",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn13.bayer",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn14.bayer",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn15.bayer"};
const char* ports_offs_xy_file[] = {
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn0.portsxy",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn1.portsxy",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn2.portsxy",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn3.portsxy",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn4.portsxy",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn5.portsxy",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn6.portsxy",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn7.portsxy",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn8.portsxy",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn9.portsxy",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn10.portsxy",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn11.portsxy",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn12.portsxy",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn13.portsxy",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn14.portsxy",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn15.portsxy"};
//#ifndef DBG_TILE
/*
const char* ports_clt_file[] = { // never referenced
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn0.clt",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn1.clt",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn2.clt",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn3.clt",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn4.clt",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn5.clt",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn6.clt",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn7.clt",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn8.clt",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn9.clt",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn10.clt",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn11.clt",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn12.clt",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn13.clt",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn14.clt",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn15.clt"};
*/
const char* result_rbg_file[] = {
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn0.rbg",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn1.rbg",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn2.rbg",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn3.rbg",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn4.rbg",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn5.rbg",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn6.rbg",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn7.rbg",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn8.rbg",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn9.rbg",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn10.rbg",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn11.rbg",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn12.rbg",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn13.rbg",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn14.rbg",
"/home/eyesis/git/tile_processor_gpu/clt/aux_chn15.rbg"};
//#endif
const char* result_corr_file = "/home/eyesis/git/tile_processor_gpu/clt/aux_corr.corr";
const char* result_corr_quad_file = "/home/eyesis/git/tile_processor_gpu/clt/aux_corr-quad.corr";
/// const char* result_corr_cross_file = "/home/eyesis/git/tile_processor_gpu/clt/aux_corr-cross.corr";
const char* result_textures_file = "/home/eyesis/git/tile_processor_gpu/clt/texture_aux.rgba";
const char* result_textures_rgba_file = "/home/eyesis/git/tile_processor_gpu/clt/texture_rgba_aux.rgba";
const char* rByRDist_file = "/home/eyesis/git/tile_processor_gpu/clt/aux.rbyrdist";
const char* correction_vector_file = "/home/eyesis/git/tile_processor_gpu/clt/aux.correction_vector";
const char* geometry_correction_file = "/home/eyesis/git/tile_processor_gpu/clt/aux.geometry_correction";
#else
const char* kernel_file[] = { const char* kernel_file[] = {
"/home/eyesis/git/tile_processor_gpu/clt/main_chn0_transposed.kernel", "/home/eyesis/git/tile_processor_gpu/clt/main_chn0_transposed.kernel",
"/home/eyesis/git/tile_processor_gpu/clt/main_chn1_transposed.kernel", "/home/eyesis/git/tile_processor_gpu/clt/main_chn1_transposed.kernel",
...@@ -303,6 +425,10 @@ int main(int argc, char **argv) ...@@ -303,6 +425,10 @@ int main(int argc, char **argv)
const char* rByRDist_file = "/home/eyesis/git/tile_processor_gpu/clt/main.rbyrdist"; const char* rByRDist_file = "/home/eyesis/git/tile_processor_gpu/clt/main.rbyrdist";
const char* correction_vector_file = "/home/eyesis/git/tile_processor_gpu/clt/main.correction_vector"; const char* correction_vector_file = "/home/eyesis/git/tile_processor_gpu/clt/main.correction_vector";
const char* geometry_correction_file = "/home/eyesis/git/tile_processor_gpu/clt/main.geometry_correction"; const char* geometry_correction_file = "/home/eyesis/git/tile_processor_gpu/clt/main.geometry_correction";
#endif
int sel_pairs[4]; int sel_pairs[4];
#if TEST_LWIR #if TEST_LWIR
...@@ -490,7 +616,8 @@ int main(int argc, char **argv) ...@@ -490,7 +616,8 @@ int main(int argc, char **argv)
gpu_corr_images_h[ncam] = alloc_image_gpu( gpu_corr_images_h[ncam] = alloc_image_gpu(
&dstride_rslt, // size_t* dstride, // in bytes!! &dstride_rslt, // size_t* dstride, // in bytes!!
IMG_WIDTH + DTT_SIZE, // int width, IMG_WIDTH + DTT_SIZE, // int width,
3*(IMG_HEIGHT + DTT_SIZE)); // int height); // 3*(IMG_HEIGHT + DTT_SIZE)); // int height);
num_colors*(IMG_HEIGHT + DTT_SIZE)); // int height);
} }
// allocates one correlation kernel per line (15x15 floats), number of rows - number of tiles * number of pairs // allocates one correlation kernel per line (15x15 floats), number of rows - number of tiles * number of pairs
gpu_corrs = alloc_image_gpu( gpu_corrs = alloc_image_gpu(
...@@ -1083,7 +1210,8 @@ int main(int argc, char **argv) ...@@ -1083,7 +1210,8 @@ int main(int argc, char **argv)
gpu_corr_images_h[ncam], gpu_corr_images_h[ncam],
dstride_rslt, dstride_rslt,
(IMG_WIDTH + DTT_SIZE) * sizeof(float), (IMG_WIDTH + DTT_SIZE) * sizeof(float),
3* (IMG_HEIGHT + DTT_SIZE), // 3* (IMG_HEIGHT + DTT_SIZE),
num_colors* (IMG_HEIGHT + DTT_SIZE),
cudaMemcpyDeviceToHost)); cudaMemcpyDeviceToHost));
///#ifndef DBG_TILE ///#ifndef DBG_TILE
......
...@@ -41,7 +41,7 @@ ...@@ -41,7 +41,7 @@
#ifndef JCUDA #ifndef JCUDA
#include <stdio.h> #include <stdio.h>
#define THREADSX (DTT_SIZE) #define THREADSX (DTT_SIZE)
#define TEST_LWIR 0 #define TEST_LWIR 1
#define NUM_CAMS 16 // now maximal number of cameras #define NUM_CAMS 16 // now maximal number of cameras
//#define NUM_PAIRS 6 //#define NUM_PAIRS 6
#define NUM_COLORS 1 //3 #define NUM_COLORS 1 //3
...@@ -86,7 +86,7 @@ ...@@ -86,7 +86,7 @@
#define THREADS_DYNAMIC_BITS 5 // treads in block for CDP creation of the texture list #define THREADS_DYNAMIC_BITS 5 // treads in block for CDP creation of the texture list
#define DBG_DISPARITY 0.0 // 56.0// 0.0 // 56.0 // disparity for which to calculate offsets (not needed in Java) #define DBG_DISPARITY 0.0 // 56.0// 0.0 // 56.0 // disparity for which to calculate offsets (not needed in Java)
#define RBYRDIST_LEN 5001 // for doubles 10001 - floats // length of rByRDist to allocate shared memory #define RBYRDIST_LEN 5001 // for doubles 10001 - floats // length of rByRDist to allocate shared memory
#define RBYRDIST_STEP 0.0004 // for doubles, 0.0002 - floats // to fit into GPU shared memory (was 0.001); #define RBYRDIST_STEP 0.0004 // for doubles, 0.0002 - floats // to fit into GPU shared memory (was 0.001);
#define TILES_PER_BLOCK_GEOM (32/NUM_CAMS) // each tile has NUM_CAMS threads #define TILES_PER_BLOCK_GEOM (32/NUM_CAMS) // each tile has NUM_CAMS threads
...@@ -105,12 +105,16 @@ ...@@ -105,12 +105,16 @@
//#define DBG_TILE_X 40 //#define DBG_TILE_X 40
//#define DBG_TILE_Y 80 //#define DBG_TILE_Y 80
#define DBG_TILE_X 32 // 162 // 151 // 161 // 49 #if TEST_LWIR
#define DBG_TILE_Y 88 // 121 // 69 // 111 // 66 #define DBG_TILE_X 32 // 162 // 151 // 161 // 49
#define DBG_TILE_Y 36 // 88 // 121 // 69 // 111 // 66
#define DBG_TILE (DBG_TILE_Y * 324 + DBG_TILE_X) #define DBG_TILE (DBG_TILE_Y * 80 + DBG_TILE_X)
#else
#define DBG_TILE_X 32 // 162 // 151 // 161 // 49
#define DBG_TILE_Y 88 // 121 // 69 // 111 // 66
#define DBG_TILE (DBG_TILE_Y * 324 + DBG_TILE_X)
#endif
#undef DBG_MARK_DBG_TILE #undef DBG_MARK_DBG_TILE
//#undef DBG_TILE //#undef DBG_TILE
//#undef HAS_PRINTF //#undef HAS_PRINTF
...@@ -137,6 +141,7 @@ ...@@ -137,6 +141,7 @@
//#define DEBUG20 1 //#define DEBUG20 1
#if (DBG_TILE_X >= 0) && (DBG_TILE_Y >= 0) #if (DBG_TILE_X >= 0) && (DBG_TILE_Y >= 0)
#define DEBUG20 1 // Geometry Correction
#define DEBUG21 1 // Geometry Correction #define DEBUG21 1 // Geometry Correction
//#define DEBUG210 1 //#define DEBUG210 1
......
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