// Copyright 2011-2020 David Robillard // SPDX-License-Identifier: ISC #include "bench.h" #include "warnings.h" #include "../test/test_data.h" #include "zix/attributes.h" #include "zix/btree.h" #include "zix/status.h" #include "zix/tree.h" ZIX_DISABLE_GLIB_WARNINGS #include ZIX_RESTORE_WARNINGS #include #include #include #include #include #include #ifndef MIN # define MIN(a, b) (((a) < (b)) ? (a) : (b)) #endif #ifndef MAX # define MAX(a, b) (((a) > (b)) ? (a) : (b)) #endif static int int_cmp(const void* a, const void* b, const void* ZIX_UNUSED(user_data)) { const intptr_t ia = (intptr_t)a; const intptr_t ib = (intptr_t)b; // note the (ia - ib) trick here would overflow if (ia == ib) { return 0; } if (ia < ib) { return -1; } return 1; } static int g_int_cmp(const void* a, const void* b, void* user_data) { return int_cmp(a, b, user_data); } ZIX_LOG_FUNC(1, 2) static int test_fail(const char* fmt, ...) { va_list args; va_start(args, fmt); fprintf(stderr, "error: "); vfprintf(stderr, fmt, args); va_end(args); return EXIT_FAILURE; } static void start_test(const char* name) { fprintf(stderr, "Benchmarking %s\n", name); } static int bench_zix_tree(size_t n_elems, FILE* insert_dat, FILE* search_dat, FILE* iter_dat, FILE* del_dat) { start_test("ZixTree"); uintptr_t r = 0; ZixTreeIter* ti = NULL; ZixTree* t = zix_tree_new(NULL, false, int_cmp, NULL, NULL, NULL); // Insert n_elems elements struct timespec insert_start = bench_start(); for (size_t i = 0; i < n_elems; i++) { r = unique_rand(i); ZixStatus status = zix_tree_insert(t, (void*)r, &ti); if (status) { return test_fail("Failed to insert %" PRIuPTR "\n", r); } } fprintf(insert_dat, "\t%lf", bench_end(&insert_start)); // Search for all elements struct timespec search_start = bench_start(); for (size_t i = 0; i < n_elems; i++) { r = unique_rand(i); if (zix_tree_find(t, (void*)r, &ti)) { return test_fail("Failed to find %" PRIuPTR "\n", r); } if ((uintptr_t)zix_tree_get(ti) != r) { return test_fail("Failed to get %" PRIuPTR "\n", r); } } fprintf(search_dat, "\t%lf", bench_end(&search_start)); // Iterate over all elements struct timespec iter_start = bench_start(); for (ZixTreeIter* iter = zix_tree_begin(t); !zix_tree_iter_is_end(iter); iter = zix_tree_iter_next(iter)) { volatile void* const value = zix_tree_get(iter); (void)value; } fprintf(iter_dat, "\t%lf", bench_end(&iter_start)); // Delete all elements struct timespec del_start = bench_start(); for (size_t i = 0; i < n_elems; i++) { r = unique_rand(i); ZixTreeIter* item = NULL; if (zix_tree_find(t, (void*)r, &item)) { return test_fail("Failed to find %" PRIuPTR " to delete\n", r); } if (zix_tree_remove(t, item)) { return test_fail("Failed to remove %" PRIuPTR "\n", r); } } fprintf(del_dat, "\t%lf", bench_end(&del_start)); zix_tree_free(t); return EXIT_SUCCESS; } static int bench_zix_btree(size_t n_elems, FILE* insert_dat, FILE* search_dat, FILE* iter_dat, FILE* del_dat) { start_test("ZixBTree"); uintptr_t r = 0U; ZixBTreeIter ti = zix_btree_end_iter; ZixBTree* t = zix_btree_new(NULL, int_cmp, NULL); // Insert n_elems elements struct timespec insert_start = bench_start(); for (size_t i = 0; i < n_elems; i++) { r = unique_rand(i); ZixStatus status = zix_btree_insert(t, (void*)r); if (status) { return test_fail("Failed to insert %" PRIuPTR "\n", r); } } fprintf(insert_dat, "\t%lf", bench_end(&insert_start)); // Search for all elements struct timespec search_start = bench_start(); for (size_t i = 0; i < n_elems; i++) { r = unique_rand(i); if (zix_btree_find(t, (void*)r, &ti)) { return test_fail("Failed to find %" PRIuPTR "\n", r); } if ((uintptr_t)zix_btree_get(ti) != r) { return test_fail("Failed to get %" PRIuPTR "\n", r); } } fprintf(search_dat, "\t%lf", bench_end(&search_start)); // Iterate over all elements struct timespec iter_start = bench_start(); ZixBTreeIter iter = zix_btree_begin(t); for (; !zix_btree_iter_is_end(iter); zix_btree_iter_increment(&iter)) { volatile void* const value = zix_btree_get(iter); (void)value; } fprintf(iter_dat, "\t%lf", bench_end(&iter_start)); // Delete all elements struct timespec del_start = bench_start(); for (size_t i = 0; i < n_elems; i++) { r = unique_rand(i); void* removed = NULL; ZixBTreeIter next = zix_btree_end(t); if (zix_btree_remove(t, (void*)r, &removed, &next)) { return test_fail("Failed to remove %" PRIuPTR "\n", r); } } fprintf(del_dat, "\t%lf", bench_end(&del_start)); zix_btree_free(t, NULL, NULL); return EXIT_SUCCESS; } static int bench_glib(size_t n_elems, FILE* insert_dat, FILE* search_dat, FILE* iter_dat, FILE* del_dat) { start_test("GSequence"); uintptr_t r = 0U; GSequence* t = g_sequence_new(NULL); // Insert n_elems elements struct timespec insert_start = bench_start(); for (size_t i = 0; i < n_elems; ++i) { r = unique_rand(i); GSequenceIter* iter = g_sequence_insert_sorted(t, (void*)r, g_int_cmp, NULL); if (!iter || g_sequence_iter_is_end(iter)) { return test_fail("Failed to insert %" PRIuPTR "\n", r); } } fprintf(insert_dat, "\t%lf", bench_end(&insert_start)); // Search for all elements struct timespec search_start = bench_start(); for (size_t i = 0; i < n_elems; ++i) { r = unique_rand(i); GSequenceIter* iter = g_sequence_lookup(t, (void*)r, g_int_cmp, NULL); if (!iter || g_sequence_iter_is_end(iter)) { return test_fail("Failed to find %" PRIuPTR "\n", r); } } fprintf(search_dat, "\t%lf", bench_end(&search_start)); // Iterate over all elements struct timespec iter_start = bench_start(); for (GSequenceIter* iter = g_sequence_get_begin_iter(t); !g_sequence_iter_is_end(iter); iter = g_sequence_iter_next(iter)) { g_sequence_get(iter); } fprintf(iter_dat, "\t%lf", bench_end(&iter_start)); // Delete all elements struct timespec del_start = bench_start(); for (size_t i = 0; i < n_elems; ++i) { r = unique_rand(i); GSequenceIter* iter = g_sequence_lookup(t, (void*)r, g_int_cmp, NULL); if (!iter || g_sequence_iter_is_end(iter)) { return test_fail("Failed to remove %" PRIuPTR "\n", r); } g_sequence_remove(iter); } fprintf(del_dat, "\t%lf", bench_end(&del_start)); g_sequence_free(t); return EXIT_SUCCESS; } int main(int argc, char** argv) { if (argc != 3) { fprintf(stderr, "USAGE: %s MIN_N MAX_N\n", argv[0]); return 1; } const size_t min_n = MAX(2U, MIN(1U << 29U, strtoul(argv[1], NULL, 10))); const size_t max_n = MAX(4U, MIN(1U << 30U, strtoul(argv[2], NULL, 10))); fprintf(stderr, "Benchmarking %zu .. %zu elements\n", min_n, max_n); #define HEADER "# n\tZixTree\tZixBTree\tGSequence\n" FILE* insert_dat = fopen("tree_insert.txt", "w"); FILE* search_dat = fopen("tree_search.txt", "w"); FILE* iter_dat = fopen("tree_iterate.txt", "w"); FILE* del_dat = fopen("tree_delete.txt", "w"); fprintf(insert_dat, HEADER); fprintf(search_dat, HEADER); fprintf(iter_dat, HEADER); fprintf(del_dat, HEADER); for (size_t n = min_n; n <= max_n; n *= 2) { fprintf(stderr, "n = %zu\n", n); fprintf(insert_dat, "%zu", n); fprintf(search_dat, "%zu", n); fprintf(iter_dat, "%zu", n); fprintf(del_dat, "%zu", n); bench_zix_tree(n, insert_dat, search_dat, iter_dat, del_dat); bench_zix_btree(n, insert_dat, search_dat, iter_dat, del_dat); bench_glib(n, insert_dat, search_dat, iter_dat, del_dat); fprintf(insert_dat, "\n"); fprintf(search_dat, "\n"); fprintf(iter_dat, "\n"); fprintf(del_dat, "\n"); } fclose(insert_dat); fclose(search_dat); fclose(iter_dat); fclose(del_dat); fprintf( stderr, "Wrote tree_insert.txt tree_search.txt tree_iterate.txt tree_del.txt\n"); return EXIT_SUCCESS; }