#define _GNU_SOURCE #include "../check_includes.h" #undef STLSEARCH #include #include #include #include #include #include #include #include /* #include #include */ #define LOG_NAME "check_lhtable.log" /** @test */ typedef struct { int a; int b; } tup; static int cmp_1(const void *ap, const void *bp, const void *ign) { const tup * a = ap; const tup * b = bp; return a->a < b->a ? -1 : ( a->a > b->a ? 1 : ( a->b < b->b ? -1 : ( a->b > b->b ? 1 : 0 ))); } static int cmp_2(const void *ap, const void *bp, const void *ign) { const tup * a = ap; const tup * b = bp; return a->b < b->b ? -1 : ( a->b > b->b ? 1 : ( a->a < b->a ? -1 : ( a->a > b->a ? 1 : 0 ))); } static void assert_equal(const void * rb_ret_1, const void * rb_ret_2, const void * stl_ret_1, const void * stl_ret_2) { if(rb_ret_1 != rb_ret_2 || rb_ret_1 != stl_ret_1 || rb_ret_1 != stl_ret_2) { printf("Inconsistency detected! libredblack 1: %llx, 2: %llx stl: 1: %llx 2: %llx\n", (unsigned long long)(intptr_t)rb_ret_1, (unsigned long long)(intptr_t)rb_ret_2, (unsigned long long)(intptr_t)stl_ret_1, (unsigned long long)(intptr_t)stl_ret_2); fflush(stdout); abort(); } } /* Create two libredblack trees and two stl trees. Use different orders with consistent == for each pair */ START_TEST(rbRandTest) { uint64_t NUM_OPERATIONS = 1000 * 1000; rbtree *rb_1 = rbinit(cmp_1, NULL); rbtree *rb_2 = rbinit(cmp_2, NULL); rbtree *stl_1 = stl_rbinit(cmp_1, NULL); rbtree *stl_2 = stl_rbinit(cmp_2, NULL); time_t seed = time(0); printf("\nSeed = %ld\n", seed); srandom(seed); uint64_t NUM_ENTRIES = myrandom(100 * 1000); uint64_t NUM_A = myrandom(200); uint64_t NUM_B = myrandom(50000); printf("NUM_OPERATIONS = %lld NUM_ENTRIES = %lld NUM_A = %lld NUM_B = %lld\n", (long long int)NUM_OPERATIONS, (long long int)NUM_ENTRIES, (long long int)NUM_A, (long long int)NUM_B); tup * entries = malloc(sizeof(tup) * NUM_ENTRIES); for(uint64_t i = 0; i < NUM_ENTRIES; i++) { entries[i].a = myrandom(NUM_A); entries[i].b = myrandom(NUM_B); } uint64_t num_found = 0; uint64_t num_collide = 0; for(uint64_t i = 0; i < NUM_OPERATIONS; i++) { uint64_t off = myrandom(NUM_ENTRIES); switch(myrandom(4)) { case 0: case 1: { // insert const void * rb_ret_1 = rbsearch(&entries[off], rb_1); const void * rb_ret_2 = rbsearch(&entries[off], rb_2); const void * stl_ret_1 = stl_rbsearch(&entries[off], stl_1); const void * stl_ret_2 = stl_rbsearch(&entries[off], stl_2); assert_equal(rb_ret_1, rb_ret_2, stl_ret_1, stl_ret_2); } break; case 2: { // lookup const void * rb_ret_1 = rbfind(&entries[off], rb_1); const void * rb_ret_2 = rbfind(&entries[off], rb_2); const void * stl_ret_1 = stl_rbfind(&entries[off], stl_1); const void * stl_ret_2 = stl_rbfind(&entries[off], stl_2); assert_equal(rb_ret_1, rb_ret_2, stl_ret_1, stl_ret_2); if(rb_ret_1) { num_found++; } if(rb_ret_1 && rb_ret_1 != &entries[off]) { num_collide++; } } break; case 3: { // delete const void * rb_ret_1 = rbdelete(&entries[off], rb_1); const void * rb_ret_2 = rbdelete(&entries[off], rb_2); const void * stl_ret_1 = stl_rbdelete(&entries[off], stl_1); const void * stl_ret_2 = stl_rbdelete(&entries[off], stl_2); assert_equal(rb_ret_1, rb_ret_2, stl_ret_1, stl_ret_2); if(rb_ret_1) { num_found++; } if(rb_ret_1 && rb_ret_1 != &entries[off]) { num_collide++; } } break; default: abort(); } } rbdestroy(rb_1); rbdestroy(rb_2); stl_rbdestroy(stl_1); stl_rbdestroy(stl_2); free(entries); printf("Num found: %lld (of %lld)\n", (long long int)num_found, (long long int)NUM_OPERATIONS); printf("Num collide: %lld\n", (long long int)num_collide); } END_TEST Suite * check_suite(void) { Suite *s = suite_create("redblack"); /* Begin a new test */ TCase *tc = tcase_create("redblack"); tcase_set_timeout(tc, 0); // disable timeouts /* Sub tests are added, one per line, here */ tcase_add_test(tc, rbRandTest); /* --------------------------------------------- */ tcase_add_checked_fixture(tc, setup, teardown); suite_add_tcase(s, tc); return s; } #include "../check_setup.h"