#include #include #include #include #include "profiler.h" #include "../containers/aligned_vector.h" #define MAX_PATH 256 typedef struct { char name[MAX_PATH]; uint64_t total_time_us; uint64_t total_calls; } ProfilerResult; typedef struct { AlignedVector stack; AlignedVector results; uint64_t start_time_in_us; } RootProfiler; static RootProfiler* root = NULL; static ProfilerResult* profiler_get_or_create_result(const char* name) { uint16_t i = 0; for(; i < root->results.size; ++i) { ProfilerResult* result = aligned_vector_at(&root->results, i); if(strcmp(result->name, name) == 0) { return result; } } ProfilerResult newResult; strcpy(newResult.name, name); newResult.total_calls = 0; newResult.total_time_us = 0; aligned_vector_push_back(&root->results, &newResult, 1); return aligned_vector_back(&root->results); } static uint64_t current_time_in_us() { return timer_us_gettime64(); } static void profiler_generate_path(const char* suffix, char* path) { uint16_t i = 0; for(; i < root->stack.size; ++i) { Profiler* prof = aligned_vector_at(&root->stack, i); strcat(path, prof->name); if(i != root->stack.size - 1) { strcat(path, "."); } } if(strlen(suffix)) { strcat(path, ":"); strcat(path, suffix); } } Profiler* profiler_push(const char* name) { if(!root) { root = (RootProfiler*) malloc(sizeof(RootProfiler)); aligned_vector_init( &root->stack, sizeof(Profiler) ); aligned_vector_init( &root->results, sizeof(ProfilerResult) ); aligned_vector_reserve(&root->stack, 32); aligned_vector_reserve(&root->results, 64); } Profiler profiler; strncpy(profiler.name, name, 64); profiler.start_time_in_us = current_time_in_us(); aligned_vector_push_back(&root->stack, &profiler, 1); return aligned_vector_back(&root->stack); } void profiler_checkpoint(const char* name) { Profiler* prof = aligned_vector_back(&root->stack); char path[MAX_PATH]; path[0] = '\0'; profiler_generate_path(name, path); uint64_t now = current_time_in_us(); uint64_t diff = now - prof->start_time_in_us; prof->start_time_in_us = now; ProfilerResult* result = profiler_get_or_create_result(path); result->total_calls++; result->total_time_us += diff; } void profiler_pop() { aligned_vector_resize(&root->stack, root->stack.size - 1); } void profiler_print_stats() { fprintf(stderr, "%-60s%-20s%-20s%-20s\n", "Path", "Average", "Total", "Calls"); uint16_t i = 0; for(; i < root->results.size; ++i) { ProfilerResult* result = aligned_vector_at(&root->results, i); float ms = ((float) result->total_time_us) / 1000.0f; float avg = ms / (float) result->total_calls; fprintf(stderr, "%-60s%-20f%-20f%d\n", result->name, avg, ms, result->total_calls); } }