Exemplo n.º 1
0
 void testCase3() {
     string dice_[] = {"1d2", "2d2", "4d2", "6d2", "8d2"};
     vector<string> dice(dice_, dice_ + (sizeof(dice_) / sizeof(dice_[0])));
     int expected__[] = {21, 42, 31};
     vector<int> expected_(expected__, expected__ + (sizeof(expected__) / sizeof(expected__[0])));
     assertEquals(3, expected_, solution.dieRolls(dice));
 }
Exemplo n.º 2
0
 void testCase1() {
     string dice_[] = {"3d4", "1d6"};
     vector<string> dice(dice_, dice_ + (sizeof(dice_) / sizeof(dice_[0])));
     int expected__[] = {4, 18, 11};
     vector<int> expected_(expected__, expected__ + (sizeof(expected__) / sizeof(expected__[0])));
     assertEquals(1, expected_, solution.dieRolls(dice));
 }
Exemplo n.º 3
0
 void testCase2() {
     string dice_[] = {"6d5", "10d10", "10d20"};
     vector<string> dice(dice_, dice_ + (sizeof(dice_) / sizeof(dice_[0])));
     int expected__[] = {26, 330, 178};
     vector<int> expected_(expected__, expected__ + (sizeof(expected__) / sizeof(expected__[0])));
     assertEquals(2, expected_, solution.dieRolls(dice));
 }
Exemplo n.º 4
0
double test1() {
	string t0[] = {"3d4","1d6"};
	vector <string> p0(t0, t0+sizeof(t0)/sizeof(string));
	RPG * obj = new RPG();
	clock_t start = clock();
	vector <int> my_answer = obj->dieRolls(p0);
	clock_t end = clock();
	delete obj;
	cout <<"Time: " <<(double)(end-start)/CLOCKS_PER_SEC <<" seconds" <<endl;
	int t1[] = { 4,  18,  11 };
	vector <int> p1(t1, t1+sizeof(t1)/sizeof(int));
	cout <<"Desired answer: " <<endl;
	cout <<"\t{ ";
	if (p1.size() > 0) {
		cout <<p1[0];
		for (int i=1; i<p1.size(); i++)
			cout <<", " <<p1[i];
		cout <<" }" <<endl;
	}
	else
		cout <<"}" <<endl;
	cout <<endl <<"Your answer: " <<endl;
	cout <<"\t{ ";
	if (my_answer.size() > 0) {
		cout <<my_answer[0];
		for (int i=1; i<my_answer.size(); i++)
			cout <<", " <<my_answer[i];
		cout <<" }" <<endl;
	}
	else
		cout <<"}" <<endl;
	if (my_answer != p1) {
		cout <<"DOESN'T MATCH!!!!" <<endl <<endl;
		return -1;
	}
	else {
		cout <<"Match :-)" <<endl <<endl;
		return (double)(end-start)/CLOCKS_PER_SEC;
	}
}