/* * Test for ECC-604: GRIB decoding/encoding sequentially and parallel with POSIX threads */ #include #include #include #include #include "grib_api.h" /* These are passed in via argv */ static size_t NUM_THREADS = 0; static size_t FILES_PER_ITERATION = 0; static char* INPUT_FILE = NULL; int opt_dump = 0; /* If 1 then dump handle to /dev/null */ int opt_clone = 0; /* If 1 then clone source handle */ int opt_write = 0; /* If 1 write handle to file */ static int encode_file(char* template_file, char* output_file) { FILE *in, *out = NULL; grib_handle* source_handle = NULL; const void* buffer = NULL; size_t size = 0; int err = 0; double* values; in = fopen(template_file, "rb"); assert(in); if (opt_write && output_file) { out = fopen(output_file, "wb"); assert(out); } /* loop over the messages in the source GRIB and clone them */ while ((source_handle = grib_handle_new_from_file(0, in, &err)) != NULL) { int i; size_t values_len = 0; size_t str_len = 20; grib_handle* h = source_handle; if (opt_clone) { h = grib_handle_clone(source_handle); assert(h); } GRIB_CHECK(grib_get_size(h, "values", &values_len), 0); values = (double*)malloc(values_len * sizeof(double)); GRIB_CHECK(grib_get_double_array(h, "values", values, &values_len), 0); for (i = 0; i < values_len; i++) { values[i] *= 0.9; } GRIB_CHECK(grib_set_string(h, "stepUnits", "s", &str_len), 0); GRIB_CHECK(grib_set_long(h, "startStep", 43200), 0); GRIB_CHECK(grib_set_long(h, "endStep", 86400), 0); GRIB_CHECK(grib_set_long(h, "bitsPerValue", 16), 0); /* set data values */ GRIB_CHECK(grib_set_double_array(h, "values", values, values_len), 0); GRIB_CHECK(grib_get_message(h, &buffer, &size), 0); if (opt_write) { if (fwrite(buffer, 1, size, out) != size) { perror(output_file); return 1; } } if (opt_dump) { FILE* devnull = fopen("/dev/null", "w"); grib_dump_content(source_handle, devnull, "debug", 0, NULL); } grib_handle_delete(source_handle); if (opt_clone) grib_handle_delete(h); free(values); } if (opt_write) fclose(out); fclose(in); return 0; } void do_stuff(void* data); /* Structure for passing data to threads */ struct v { size_t number; char* data; }; void* runner(void* ptr); /* the thread */ int main(int argc, char** argv) { size_t i; int thread_counter = 0; int parallel = 1, index = 0, c = 0; const char* prog = argv[0]; char* mode; if (argc < 5 || argc > 8) { fprintf(stderr, "Usage:\n\t%s [options] seq file numRuns numIter\nOr\n\t%s [options] par file numThreads numIter\n", prog, prog); return 1; } while ((c = getopt(argc, argv, "dcw")) != -1) { switch (c) { case 'd': opt_dump = 1; break; case 'c': opt_clone = 1; break; case 'w': opt_write = 1; break; } } index = optind; mode = argv[index]; INPUT_FILE = argv[index + 1]; NUM_THREADS = atol(argv[index + 2]); FILES_PER_ITERATION = atol(argv[index + 3]); if (strcmp(mode, "seq") == 0) { parallel = 0; } if (parallel) { printf("Running parallel in %ld threads. %ld iterations (prod=%ld)\n", NUM_THREADS, FILES_PER_ITERATION, NUM_THREADS * FILES_PER_ITERATION); printf("Options: dump=%d, clone=%d, write=%d\n", opt_dump, opt_clone, opt_write); } else { printf("Running sequentially in %ld runs. %ld iterations\n", NUM_THREADS, FILES_PER_ITERATION); } { pthread_t* workers = malloc(NUM_THREADS * sizeof(pthread_t)); for (i = 0; i < NUM_THREADS; i++) { struct v* data = (struct v*)malloc(sizeof(struct v)); data->number = i; data->data = NULL; if (parallel) { /* Now we will create the thread passing it data as an argument */ pthread_create(&workers[thread_counter], NULL, runner, data); /*pthread_join(workers[thread_counter], NULL);*/ thread_counter++; } else { do_stuff(data); } } if (parallel) { for (i = 0; i < NUM_THREADS; i++) { pthread_join(workers[i], NULL); } } free(workers); } return 0; } void* runner(void* ptr) { do_stuff(ptr); free(ptr); pthread_exit(0); } void do_stuff(void* ptr) { /* Cast argument to struct v pointer */ struct v* data = ptr; size_t i; char output_file[50]; time_t ltime; struct tm result; char stime[32]; for (i = 0; i < FILES_PER_ITERATION; i++) { if (opt_write) { sprintf(output_file, "output/output_file_%ld-%ld.grib", data->number, i); encode_file(INPUT_FILE, output_file); } else { encode_file(INPUT_FILE, NULL); } } ltime = time(NULL); localtime_r(<ime, &result); strftime(stime, 32, "%H:%M:%S", &result); /* Try to get milliseconds here too*/ /* asctime_r(&result, stime); */ printf("%s: Worker %ld finished.\n", stime, data->number); }