210 lines
6.7 KiB
C
210 lines
6.7 KiB
C
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#include <stdio.h>
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#include <stdlib.h>
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#include <math.h>
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#ifdef __APPLE__
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#include <OpenCL/opencl.h>
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#else
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#include <CL/cl.h>
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#endif
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#include <SDL.h>
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#define MAX_SOURCE_SIZE (0x100000)
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int main(int argn, char **argv) {
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// Init SDL
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if(SDL_Init(SDL_INIT_VIDEO) != 0)
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fprintf(stderr, "Could not initialize SDL: %s\n", SDL_GetError());
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printf("SDL Initialized\n");
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// Create screen surface
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SDL_Surface *screen;
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int res_x = 800;
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int res_y = 600;
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int current_line = 0;
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int total_res = res_x * res_y;
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screen = SDL_SetVideoMode(res_x, res_y, 0, SDL_HWSURFACE|SDL_DOUBLEBUF);
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if(!screen)
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fprintf(stderr,"Could not set video mode: %s\n",SDL_GetError());
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// Prepare the resolution and sizes and colors...
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int i;
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int temp;
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const int ITERATIONS = 256;
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int *red_scale = (int*)malloc(sizeof(int)*ITERATIONS);
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int *blue_scale = (int*)malloc(sizeof(int)*ITERATIONS);
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for(i = 0; i < ITERATIONS; i++) {
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red_scale[i] = i;
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blue_scale[i] = 255 - i;
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}
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// Load the kernel source code into the array source_str
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FILE *fp;
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char *source_str;
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size_t source_size;
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fp = fopen("mandelbrot_kernel.cl", "r");
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if (!fp) {
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fprintf(stderr, "Failed to load kernel.\n");
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exit(1);
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}
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source_str = (char*)malloc(MAX_SOURCE_SIZE);
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source_size = fread( source_str, 1, MAX_SOURCE_SIZE, fp);
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fclose( fp );
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// Get platform and device information
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cl_platform_id platform_id = NULL;
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cl_device_id device_id = NULL;
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cl_uint ret_num_devices;
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cl_uint ret_num_platforms;
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cl_int ret = clGetPlatformIDs(1, &platform_id, &ret_num_platforms);
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ret = clGetDeviceIDs( platform_id, CL_DEVICE_TYPE_GPU, 1,
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&device_id, &ret_num_devices);
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// Create an OpenCL context
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cl_context context = clCreateContext( NULL, 1, &device_id, NULL, NULL, &ret);
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// Create a command queue
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cl_command_queue command_queue = clCreateCommandQueue(context, device_id, 0, &ret);
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// Create memory buffers on the device for returning iterations
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cl_mem kernel_res_x = clCreateBuffer(context, CL_MEM_READ_ONLY,
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sizeof(cl_int), NULL, &ret);
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cl_mem kernel_res_y = clCreateBuffer(context, CL_MEM_READ_ONLY,
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sizeof(cl_int), NULL, &ret);
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cl_mem kernel_current_line = clCreateBuffer(context, CL_MEM_READ_ONLY,
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sizeof(cl_int), NULL, &ret);
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cl_mem graph_mem_obj = clCreateBuffer(context, CL_MEM_WRITE_ONLY,
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res_x * sizeof(cl_int), NULL, &ret);
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// Copy resolution x and y for the kernel
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ret = clEnqueueWriteBuffer(command_queue, kernel_res_x, CL_TRUE, 0,
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sizeof(cl_int), &res_x, 0, NULL, NULL);
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ret = clEnqueueWriteBuffer(command_queue, kernel_res_y, CL_TRUE, 0,
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sizeof(cl_int), &res_y, 0, NULL, NULL);
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ret = clEnqueueWriteBuffer(command_queue, kernel_current_line, CL_TRUE, 0,
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sizeof(cl_int), ¤t_line, 0, NULL, NULL);
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// Create a program from the kernel source
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cl_program program = clCreateProgramWithSource(context, 1,
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(const char **)&source_str, (const size_t *)&source_size, &ret);
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// Build the program
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ret = clBuildProgram(program, 1, &device_id, NULL, NULL, NULL);
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// Create the OpenCL kernel
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cl_kernel kernel = clCreateKernel(program, "mandelbrot_point", &ret);
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// Our screen in a linear array
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int *graph_dots = (int*)malloc(total_res * sizeof(int));
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cl_int *graph_line = (cl_int*)malloc(res_x * sizeof(cl_int));
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for (current_line = 0; current_line < 600; current_line++)
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{
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// Set the arguments of the kernel
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ret = clEnqueueWriteBuffer(command_queue, kernel_current_line, CL_TRUE, 0,
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sizeof(cl_int), ¤t_line, 0, NULL, NULL);
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ret = clSetKernelArg(kernel, 0, sizeof(cl_mem), &kernel_res_x);
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ret = clSetKernelArg(kernel, 1, sizeof(cl_mem), &kernel_res_y);
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ret = clSetKernelArg(kernel, 2, sizeof(cl_mem), &kernel_current_line);
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ret = clSetKernelArg(kernel, 3, sizeof(cl_mem), graph_mem_obj);
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// Execute the OpenCL kernel on the list
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size_t global_item_size = res_x; // Process the entire screen
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size_t local_item_size = 64; // Process in groups of 64
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ret = clEnqueueNDRangeKernel(command_queue, kernel, 1, NULL,
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&global_item_size, &local_item_size, 0, NULL, NULL);
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// Read the memory buffer graph_mem_obj on the device to the local variable graph_dots
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ret = clEnqueueReadBuffer(command_queue, graph_mem_obj, CL_TRUE, 0,
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res_x * sizeof(cl_int), graph_line, 0, NULL, NULL);
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for (i = 0; i < 800; i++)
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{
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graph_dots[(current_line * 800) + i] = graph_line[i];
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}
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}
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// Display the result to the screen
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/* for(i = 0; i < 3078; i++)
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printf("Linear: %d -> %d\n", i, graph_dots[i]); */
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printf("Rendering...\n");
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int iteration;
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Uint32 *pixel;
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// Lock surface
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SDL_LockSurface(screen);
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// rank = screen->pitch/sizeof(Uint32);
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pixel = (Uint32*)screen->pixels;
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/* Draw all dots */
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for(i = 0;i < total_res;i++)
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{
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// Get the iterations for the point
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// printf("Point %d\n", i);
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iteration = graph_dots[i];
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if ((iteration < 1000) && (iteration >= 0)) {
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pixel[i] = SDL_MapRGBA(screen->format,
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red_scale[iteration],
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0,
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blue_scale[iteration],
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255);
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}
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else
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{
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pixel[i] = SDL_MapRGBA(screen->format,
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0,
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0,
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0,
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255);
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}
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}
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// Unlock surface
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SDL_UnlockSurface(screen);
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// Draw to the scree
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SDL_Flip(screen);
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// Clean up
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ret = clFlush(command_queue);
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ret = clFinish(command_queue);
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ret = clReleaseKernel(kernel);
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ret = clReleaseProgram(program);
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// ret = clReleaseMemObject(a_mem_obj);
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// ret = clReleaseMemObject(b_mem_obj);
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ret = clReleaseMemObject(graph_mem_obj);
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ret = clReleaseCommandQueue(command_queue);
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ret = clReleaseContext(context);
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// free(A);
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// free(B);
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free(graph_dots);
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SDL_Event ev;
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int active;
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active = 1;
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while(active)
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{
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/* Handle events */
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while(SDL_PollEvent(&ev))
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{
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if(ev.type == SDL_QUIT)
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active = 0; /* End */
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}
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}
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SDL_Quit();
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return 0;
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}
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