int run_test_case( int casenum ) { switch( casenum ) { case 0: { string grid[] = {".o", "o."}; int expected__ = 1; clock_t start__ = clock(); int received__ = DucksAlignment().minimumTime( vector <string>( grid, grid + ( sizeof grid / sizeof grid[0] ) ) ); return verify_case( casenum, expected__, received__, clock()-start__ ); } case 1: { string grid[] = {".o...", "..o..", "....o"}; int expected__ = 3; clock_t start__ = clock(); int received__ = DucksAlignment().minimumTime( vector <string>( grid, grid + ( sizeof grid / sizeof grid[0] ) ) ); return verify_case( casenum, expected__, received__, clock()-start__ ); } case 2: { string grid[] = {"o..........", "..o........", ".......o...", "...........", "...........", "...........", "........o..", "..........."}; int expected__ = 16; clock_t start__ = clock(); int received__ = DucksAlignment().minimumTime( vector <string>( grid, grid + ( sizeof grid / sizeof grid[0] ) ) ); return verify_case( casenum, expected__, received__, clock()-start__ ); } case 3: { string grid[] = {".........", "....o....", "........."}; int expected__ = 0; clock_t start__ = clock(); int received__ = DucksAlignment().minimumTime( vector <string>( grid, grid + ( sizeof grid / sizeof grid[0] ) ) ); return verify_case( casenum, expected__, received__, clock()-start__ ); } case 4: { string grid[] = {"...o..........................", "............................o.", ".o............................", "............o.................", ".................o............", "......................o.......", "......o.......................", "....o.........................", "...............o..............", ".......................o......", "...........................o..", ".......o......................"}; int expected__ = 99; clock_t start__ = clock(); int received__ = DucksAlignment().minimumTime( vector <string>( grid, grid + ( sizeof grid / sizeof grid[0] ) ) ); return verify_case( casenum, expected__, received__, clock()-start__ ); } // custom cases /* case 5: { string grid[] = ; int expected__ = ; clock_t start__ = clock(); int received__ = DucksAlignment().minimumTime( vector <string>( grid, grid + ( sizeof grid / sizeof grid[0] ) ) ); return verify_case( casenum, expected__, received__, clock()-start__ ); }*/ /* case 6: { string grid[] = ; int expected__ = ; clock_t start__ = clock(); int received__ = DucksAlignment().minimumTime( vector <string>( grid, grid + ( sizeof grid / sizeof grid[0] ) ) ); return verify_case( casenum, expected__, received__, clock()-start__ ); }*/ /* case 7: { string grid[] = ; int expected__ = ; clock_t start__ = clock(); int received__ = DucksAlignment().minimumTime( vector <string>( grid, grid + ( sizeof grid / sizeof grid[0] ) ) ); return verify_case( casenum, expected__, received__, clock()-start__ ); }*/ default: return -1; } }
int run_test_case( int casenum__ ) { long long starttime__ = get_time(); switch( casenum__ ) { case 0: { string grid[] = {".o", "o."}; int expected__ = 1; return verify_case( casenum__, starttime__, expected__, DucksAlignment().minimumTime( vector <string>( grid, grid + ( sizeof grid / sizeof(string) ) ) ) ); } case 1: { string grid[] = {".o...", "..o..", "....o"}; int expected__ = 3; return verify_case( casenum__, starttime__, expected__, DucksAlignment().minimumTime( vector <string>( grid, grid + ( sizeof grid / sizeof(string) ) ) ) ); } case 2: { string grid[] = {"o..........", "..o........", ".......o...", "...........", "...........", "...........", "........o..", "..........."}; int expected__ = 16; return verify_case( casenum__, starttime__, expected__, DucksAlignment().minimumTime( vector <string>( grid, grid + ( sizeof grid / sizeof(string) ) ) ) ); } case 3: { string grid[] = {".........", "....o....", "........."}; int expected__ = 0; return verify_case( casenum__, starttime__, expected__, DucksAlignment().minimumTime( vector <string>( grid, grid + ( sizeof grid / sizeof(string) ) ) ) ); } case 4: { string grid[] = {"...o..........................", "............................o.", ".o............................", "............o.................", ".................o............", "......................o.......", "......o.......................", "....o.........................", "...............o..............", ".......................o......", "...........................o..", ".......o......................"}; int expected__ = 99; return verify_case( casenum__, starttime__, expected__, DucksAlignment().minimumTime( vector <string>( grid, grid + ( sizeof grid / sizeof(string) ) ) ) ); } // custom cases /* case 5: { string grid[] = ; int expected__ = ; return verify_case( casenum__, starttime__, expected__, DucksAlignment().minimumTime( vector <string>( grid, grid + ( sizeof grid / sizeof(string) ) ) ) ); } */ /* case 6: { string grid[] = ; int expected__ = ; return verify_case( casenum__, starttime__, expected__, DucksAlignment().minimumTime( vector <string>( grid, grid + ( sizeof grid / sizeof(string) ) ) ) ); } */ /* case 7: { string grid[] = ; int expected__ = ; return verify_case( casenum__, starttime__, expected__, DucksAlignment().minimumTime( vector <string>( grid, grid + ( sizeof grid / sizeof(string) ) ) ) ); } */ default: return -1; } }