int main(){
int from []= {0,0,0,1,4};
int to []= {1,3,4,2,5};
int len []= {10,10,100,10,5};
vector<int> f (from, from + sizeof(from)/sizeof(int));
vector<int> t (to, to + sizeof(to)/sizeof(int));
vector<int> l (len, len + sizeof(len)/sizeof(int));
PowerOutage p;
cout<< p.estimateTimeOut ( f,t,l)<< endl;
}
int main()
{
int fromJ[]={0,0,0,1,4};
int toJ[] = {1,3,4,2,5};
int ductL[] = {10,10,5,10,100};
vector<int> fromJunction (fromJ, fromJ+5);
vector<int> toJunction (toJ, toJ+5);
vector<int> ductLength(ductL, ductL+5);
PowerOutage p;
int dif = p.estimateTimeOut(fromJunction, toJunction, ductLength);
return 0;
}
// BEGIN CUT HERE
int main(){
PowerOutage test;
int fromJunction[] = {0,0,0,1,4};
int toJunction[] = {1,3,4,2,5};
int ductLength[] = {10,10,100,10,5};
vector<int> f,t,d;
for(int i=0; i<5; i++){
f.push_back(fromJunction[i]);
t.push_back(toJunction[i]);
d.push_back(ductLength[i]);
}
cout << test.estimateTimeOut(f, t, d) << endl;
}
int main()
{
int fjs[] =
{0,1,0};
int toJs[] =
{1,2,3};
int ductLs[] =
{10,10,10};
vector <int> fromJunction(fjs, fjs+sizeof(fjs)/sizeof(int));
vector <int> toJunction(toJs, toJs+sizeof(toJs)/sizeof(int));
vector <int> ductLength(ductLs, ductLs+sizeof(ductLs)/sizeof(int));
PowerOutage potage;
int esTime = potage.estimateTimeOut(fromJunction, toJunction, ductLength);
return 0;
}
bool do_test(vector<int> fromJunction, vector<int> toJunction, vector<int> ductLength, int __expected) {
time_t startClock = clock();
PowerOutage *instance = new PowerOutage();
int __result = instance->estimateTimeOut(fromJunction, toJunction, ductLength);
double elapsed = (double)(clock() - startClock) / CLOCKS_PER_SEC;
delete instance;
if (__result == __expected) {
cout << "PASSED!" << " (" << elapsed << " seconds)" << endl;
return true;
}
else {
cout << "FAILED!" << " (" << elapsed << " seconds)" << endl;
cout << " Expected: " << to_string(__expected) << endl;
cout << " Received: " << to_string(__result) << endl;
return false;
}
}
void testCase4() {
int fromJunction_[] = {0, 0, 0, 0, 0};
vector<int> fromJunction(fromJunction_, fromJunction_ + (sizeof(fromJunction_) / sizeof(fromJunction_[0])));
int toJunction_[] = {1, 2, 3, 4, 5};
vector<int> toJunction(toJunction_, toJunction_ + (sizeof(toJunction_) / sizeof(toJunction_[0])));
int ductLength_[] = {100, 200, 300, 400, 500};
vector<int> ductLength(ductLength_, ductLength_ + (sizeof(ductLength_) / sizeof(ductLength_[0])));
int expected_ = 2500;
assertEquals(4, expected_, solution.estimateTimeOut(fromJunction, toJunction, ductLength));
}
void testCase3() {
int fromJunction_[] = {0, 0, 0, 1, 4, 4, 6, 7, 7, 7, 20};
vector<int> fromJunction(fromJunction_, fromJunction_ + (sizeof(fromJunction_) / sizeof(fromJunction_[0])));
int toJunction_[] = {1, 3, 4, 2, 5, 6, 7, 20, 9, 10, 31};
vector<int> toJunction(toJunction_, toJunction_ + (sizeof(toJunction_) / sizeof(toJunction_[0])));
int ductLength_[] = {10, 10, 100, 10, 5, 1, 1, 100, 1, 1, 5};
vector<int> ductLength(ductLength_, ductLength_ + (sizeof(ductLength_) / sizeof(ductLength_[0])));
int expected_ = 281;
assertEquals(3, expected_, solution.estimateTimeOut(fromJunction, toJunction, ductLength));
}
void testCase2() {
int fromJunction_[] = {0, 0, 0, 1, 4};
vector<int> fromJunction(fromJunction_, fromJunction_ + (sizeof(fromJunction_) / sizeof(fromJunction_[0])));
int toJunction_[] = {1, 3, 4, 2, 5};
vector<int> toJunction(toJunction_, toJunction_ + (sizeof(toJunction_) / sizeof(toJunction_[0])));
int ductLength_[] = {10, 10, 100, 10, 5};
vector<int> ductLength(ductLength_, ductLength_ + (sizeof(ductLength_) / sizeof(ductLength_[0])));
int expected_ = 165;
assertEquals(2, expected_, solution.estimateTimeOut(fromJunction, toJunction, ductLength));
}
void testCase1() {
int fromJunction_[] = {0, 1, 0};
vector<int> fromJunction(fromJunction_, fromJunction_ + (sizeof(fromJunction_) / sizeof(fromJunction_[0])));
int toJunction_[] = {1, 2, 3};
vector<int> toJunction(toJunction_, toJunction_ + (sizeof(toJunction_) / sizeof(toJunction_[0])));
int ductLength_[] = {10, 10, 10};
vector<int> ductLength(ductLength_, ductLength_ + (sizeof(ductLength_) / sizeof(ductLength_[0])));
int expected_ = 40;
assertEquals(1, expected_, solution.estimateTimeOut(fromJunction, toJunction, ductLength));
}
int main()
{
PowerOutage so ;
vector<int> fromJunction;
fromJunction.push_back(0);
fromJunction.push_back(0);
fromJunction.push_back(0);
fromJunction.push_back(1);
fromJunction.push_back(4);
fromJunction.push_back(4);
fromJunction.push_back(6);
fromJunction.push_back(7);
fromJunction.push_back(7);
fromJunction.push_back(7);
fromJunction.push_back(20);
vector<int> toJunction;
toJunction.push_back(1);
toJunction.push_back(3);
toJunction.push_back(4);
toJunction.push_back(2);
toJunction.push_back(5);
toJunction.push_back(6);
toJunction.push_back(7);
toJunction.push_back(20);
toJunction.push_back(9);
toJunction.push_back(10);
toJunction.push_back(31);
vector<int> ductLength;
ductLength.push_back(10);
ductLength.push_back(10);
ductLength.push_back(100);
ductLength.push_back(10);
ductLength.push_back(5);
ductLength.push_back(1);
ductLength.push_back(1);
ductLength.push_back(100);
ductLength.push_back(1);
ductLength.push_back(1);
ductLength.push_back(5);
int result = so.estimateTimeOut(fromJunction, toJunction, ductLength);
cout<<result<<endl;
}
