static void TestSortSearch(vector *alphabet) { VectorSort(alphabet, CompareChar); // Sort into order again fprintf(stdout, "\nAfter sorting: "); VectorMap(alphabet, PrintChar, stdout); TestSearch(alphabet, 'J'); // Test searching capabilities TestSearch(alphabet, '$'); }
int main() { ModularHashingFunction hashingFunctionA(7); ModularHashingFunction hashingFunctionB(1597); NotReallyHash nrh; SeparateChainingHash schA(&hashingFunctionA, 7); SeparateChainingHash schB(&hashingFunctionB, 1597); LinearProbingHash lphA(&hashingFunctionA, ELEMENTS_IN_HASH); LinearProbingHash lphB(&hashingFunctionB, ELEMENTS_IN_HASH); // Fill the hashes with data std::cout << "Adding " << ELEMENTS_IN_HASH << " elements to the hashes\n"; for(size_t i = 0; i < ELEMENTS_IN_HASH; i++) { nrh.Add(i); schA.Add(i); schB.Add(i); lphA.Add(i); lphB.Add(i); std::cout << "\r" << (((double)i * 100) / ELEMENTS_IN_HASH) << "%"; } std::cout << std::endl << std::endl; nrh.PrintInfo(); schA.PrintInfo(); schB.PrintInfo(); lphA.PrintInfo(); lphB.PrintInfo(); std::cout << std::endl; // Now test the hashes for performance TestSearch(&nrh, "Regular linked list"); TestSearch(&schA, "SeparateChainingHash with 7 chains"); TestSearch(&schB, "SeparateChainingHash with 1597 chains"); TestSearch(&lphA, "LinearProbingHash with hashing function mod 7"); TestSearch(&lphB, "LinearProbingHash with hashing function mod 1597"); return 0; }
int main(int argc, char* argv[]) { nsresult rv; nsIServiceManager* servMgr; rv = NS_InitXPCOM2(&servMgr, NULL, NULL); if (NS_FAILED(rv)) return rv; if (argc > 1 && nsCRT::strcmp(argv[1], "-trace") == 0) gTrace = PR_TRUE; #ifdef DEBUG TestSegmentedBuffer(); #endif #if 0 // obsolete old implementation rv = NS_NewPipe(&in, &out, 4096 * 4); if (NS_FAILED(rv)) { printf("NewPipe failed\n"); return -1; } rv = TestPipe(in, out); NS_RELEASE(in); NS_RELEASE(out); if (NS_FAILED(rv)) { printf("TestPipe failed\n"); return -1; } #endif #if 0 TestSearch("foo", 8); TestSearch("bar", 6); TestSearch("baz", 2); #endif rv = TestChainedPipes(); NS_ASSERTION(NS_SUCCEEDED(rv), "TestChainedPipes failed"); RunTests(16, 1); RunTests(4096, 16); NS_RELEASE(servMgr); rv = NS_ShutdownXPCOM( NULL ); NS_ASSERTION(NS_SUCCEEDED(rv), "NS_ShutdownXPCOM failed"); return 0; }
int main( int argc, char *argv[] ) { #ifdef __SW_BW FILE *my_stdout; my_stdout = freopen( "tmp.log", "a", stdout ); if( my_stdout == NULL ) { fprintf( stderr, "Unable to redirect stdout\n" ); exit( -1 ); } #endif /*** Initialize ***/ strcpy( ProgramName, strlwr( argv[0] ) ); /* store filename */ /*** Test various functions ***/ TestCompare(); /* compare stuff */ TestMove(); /* moving data about */ TestCase(); /* upper/lowercase stuff */ TestSearch(); /* searching stuff */ TestSubstring(); /* substring stuff */ TestToken(); /* tokenizing stuff */ TestLocale(); /* locale stuff */ TestError(); /* error string stuff */ TestFormatted(); /* formatted I/O stuff */ TestBounded(); /* bounded string stuff */ #ifdef __X86__ TestCompareF(); TestMoveF(); TestCaseF(); TestSearchF(); TestSubstringF(); TestTokenF(); #endif /*** Print a pass/fail message and quit ***/ if( NumErrors != 0 ) { printf( "%s: FAILURE (%d errors).\n", ProgramName, NumErrors ); return( EXIT_FAILURE ); } printf( "Tests completed (%s).\n", strlwr( argv[0] ) ); #ifdef __SW_BW fprintf( stderr, "Tests completed (%s).\n", strlwr( argv[0] ) ); fclose( my_stdout ); _dwShutDown(); #endif return( 0 ); }