double test1() { int p0 = 3; int p1 = 4; int t2[] = {4}; vector <int> p2(t2, t2+sizeof(t2)/sizeof(int)); Jumping * obj = new Jumping(); clock_t start = clock(); string my_answer = obj->ableToGet(p0, p1, p2); clock_t end = clock(); delete obj; cout <<"Time: " <<(double)(end-start)/CLOCKS_PER_SEC <<" seconds" <<endl; string p3 = "Not able"; cout <<"Desired answer: " <<endl; cout <<"\t\"" << p3 <<"\"" <<endl; cout <<"Your answer: " <<endl; cout <<"\t\"" << my_answer<<"\"" <<endl; if (p3 != my_answer) { cout <<"DOESN'T MATCH!!!!" <<endl <<endl; return -1; } else { cout <<"Match :-)" <<endl <<endl; return (double)(end-start)/CLOCKS_PER_SEC; } }
bool KawigiEdit_RunTest(int testNum, int p0, int p1, vector <int> p2, bool hasAnswer, string p3) { cout << "Test " << testNum << ": [" << p0 << "," << p1 << "," << "{"; for (int i = 0; int(p2.size()) > i; ++i) { if (i > 0) { cout << ","; } cout << p2[i]; } cout << "}"; cout << "]" << endl; Jumping *obj; string answer; obj = new Jumping(); clock_t startTime = clock(); answer = obj->ableToGet(p0, p1, p2); clock_t endTime = clock(); delete obj; bool res; res = true; cout << "Time: " << double(endTime - startTime) / CLOCKS_PER_SEC << " seconds" << endl; if (hasAnswer) { cout << "Desired answer:" << endl; cout << "\t" << "\"" << p3 << "\"" << endl; } cout << "Your answer:" << endl; cout << "\t" << "\"" << answer << "\"" << endl; if (hasAnswer) { res = answer == p3; } if (!res) { cout << "DOESN'T MATCH!!!!" << endl; } else if (double(endTime - startTime) / CLOCKS_PER_SEC >= 2) { cout << "FAIL the timeout" << endl; res = false; } else if (hasAnswer) { cout << "Match :-)" << endl; } else { cout << "OK, but is it right?" << endl; } cout << "" << endl; return res; }
int main( int argc, char* argv[] ) { { int jumpLengthsARRAY[] = {2, 5}; vector <int> jumpLengths( jumpLengthsARRAY, jumpLengthsARRAY+ARRSIZE(jumpLengthsARRAY) ); Jumping theObject; eq(0, theObject.ableToGet(5, 4, jumpLengths),"Able"); } { int jumpLengthsARRAY[] = {4}; vector <int> jumpLengths( jumpLengthsARRAY, jumpLengthsARRAY+ARRSIZE(jumpLengthsARRAY) ); Jumping theObject; eq(1, theObject.ableToGet(3, 4, jumpLengths),"Not able"); } { int jumpLengthsARRAY[] = {6}; vector <int> jumpLengths( jumpLengthsARRAY, jumpLengthsARRAY+ARRSIZE(jumpLengthsARRAY) ); Jumping theObject; eq(2, theObject.ableToGet(3, 4, jumpLengths),"Not able"); } { int jumpLengthsARRAY[] = {100, 100}; vector <int> jumpLengths( jumpLengthsARRAY, jumpLengthsARRAY+ARRSIZE(jumpLengthsARRAY) ); Jumping theObject; eq(3, theObject.ableToGet(0, 1, jumpLengths),"Able"); } { int jumpLengthsARRAY[] = {500}; vector <int> jumpLengths( jumpLengthsARRAY, jumpLengthsARRAY+ARRSIZE(jumpLengthsARRAY) ); Jumping theObject; eq(4, theObject.ableToGet(300, 400, jumpLengths),"Able"); } { int jumpLengthsARRAY[] = {1,2,3,4,5,6,7,8,9,10}; vector <int> jumpLengths( jumpLengthsARRAY, jumpLengthsARRAY+ARRSIZE(jumpLengthsARRAY) ); Jumping theObject; eq(5, theObject.ableToGet(11, 12, jumpLengths),"Able"); } { int jumpLengthsARRAY[] = {1,2,3,4,5,6,7,8,9,100}; vector <int> jumpLengths( jumpLengthsARRAY, jumpLengthsARRAY+ARRSIZE(jumpLengthsARRAY) ); Jumping theObject; eq(6, theObject.ableToGet(11, 12, jumpLengths),"Not able"); } return 0; }