int main(int argc, char **argv) { /* argv[1]: sizeof(element type) argv[2]: number of elements argv[3]: buffer alignment argv[4]: test type */ /* Verify the correct number of command-line args have been specified. */ if (TEST_ARG_COUNT != argc) { blosc_test_print_bad_argcount_msg(TEST_ARG_COUNT, argc); return EXIT_FAILURE; } /* Parse arguments */ uint32_t type_size; if (!blosc_test_parse_uint32_t(argv[1], &type_size) || (type_size < 1)) { blosc_test_print_bad_arg_msg(1); return EXIT_FAILURE; } uint32_t num_elements; if (!blosc_test_parse_uint32_t(argv[2], &num_elements) || (num_elements < 1)) { blosc_test_print_bad_arg_msg(2); return EXIT_FAILURE; } uint32_t buffer_align_size; if (!blosc_test_parse_uint32_t(argv[3], &buffer_align_size) || (buffer_align_size & (buffer_align_size - 1)) || (buffer_align_size < sizeof(void*))) { blosc_test_print_bad_arg_msg(3); return EXIT_FAILURE; } uint32_t test_type; if (!blosc_test_parse_uint32_t(argv[4], &test_type) || (test_type > 2)) { blosc_test_print_bad_arg_msg(4); return EXIT_FAILURE; } /* Run the test. */ return test_shuffle_roundtrip_sse2(type_size, num_elements, buffer_align_size, test_type); }
int main(int argc, char** argv) { /* argv[1]: sizeof(element type) argv[2]: number of elements argv[3]: buffer alignment argv[4]: compression level argv[5]: shuffle enabled argv[6]: thread count */ /* Verify the correct number of command-line args have been specified. */ if (TEST_ARG_COUNT != argc) { blosc_test_print_bad_argcount_msg(TEST_ARG_COUNT, argc); return EXIT_FAILURE; } /* Parse arguments */ uint32_t type_size; if (!blosc_test_parse_uint32_t(argv[1], &type_size) || (type_size < 1)) { blosc_test_print_bad_arg_msg(1); return EXIT_FAILURE; } uint32_t num_elements; if (!blosc_test_parse_uint32_t(argv[2], &num_elements) || (num_elements < 1)) { blosc_test_print_bad_arg_msg(2); return EXIT_FAILURE; } uint32_t buffer_align_size; if (!blosc_test_parse_uint32_t(argv[3], &buffer_align_size) || (buffer_align_size & (buffer_align_size - 1)) || (buffer_align_size < sizeof(void*))) { blosc_test_print_bad_arg_msg(3); return EXIT_FAILURE; } uint32_t compression_level; if (!blosc_test_parse_uint32_t(argv[4], &compression_level) || (compression_level > 9)) { blosc_test_print_bad_arg_msg(4); return EXIT_FAILURE; } uint32_t shuffle_enabled; { if (!blosc_test_parse_uint32_t(argv[5], &shuffle_enabled) || (shuffle_enabled > 2)) { blosc_test_print_bad_arg_msg(5); return EXIT_FAILURE; } } uint32_t blosc_thread_count; if (!blosc_test_parse_uint32_t(argv[6], &blosc_thread_count) || (blosc_thread_count < 1)) { blosc_test_print_bad_arg_msg(6); return EXIT_FAILURE; } /* Initialize blosc before running tests. */ blosc_init(); blosc_set_nthreads(blosc_thread_count); /* Run the test. */ int result = test_getitem(type_size, num_elements, buffer_align_size, compression_level, shuffle_enabled); /* Cleanup blosc resources. */ blosc_destroy(); return result; }