![[LintCode] Parking Lot 停车场问题](https://image.shishitao.com:8440/aHR0cHM6Ly9ia3FzaW1nLmlrYWZhbi5jb20vdXBsb2FkL2NoYXRncHQtcy5wbmc%2FIQ%3D%3D.png?!?w=700&webp=1 "[LintCode] Parking Lot 停车场问题")
Design a parking lot.
see CC150 OO Design for details.
1) n levels, each level has m rows of spots and each row has k spots.So each level has m x k spots.
2) The parking lot can park motorcycles, cars and buses
3) The parking lot has motorcycle spots, compact spots, and large spots
4) Each row, motorcycle spots id is in range[0,k/4)(0 is included, k/4 is not included), compact spots id is in range [k/4,k/4*3) and large spots id is in range [k/4*3,k).
5) A motorcycle can park in any spot
6) A car park in single compact spot or large spot
7) A bus can park in five large spots that are consecutive and within same row. it can not park in small spots
level=1, num_rows=1, spots_per_row=11
parkVehicle("Motorcycle_1") // return true
parkVehicle("Car_1") // return true
parkVehicle("Car_2") // return true
parkVehicle("Car_3") // return true
parkVehicle("Car_4") // return true
parkVehicle("Car_5") // return true
parkVehicle("Bus_1") // return false
unParkVehicle("Car_5")
parkVehicle("Bus_1") // return true
CareerCup上的原题,请参见我之前的博客8.4 Parking Lot 停车场问题。
LintCode的这道题的C++的OJ应该有问题,因为我的代码在本地调试都正确,不知道为何通过不了OJ,有没有大神持有同样的观点?
// enum type for Vehicle
enum class VehicleSize {
Motorcycle,
Compact,
Large
}; class Vehicle {
public:
virtual VehicleSize size() {}
virtual int spot_num() {}
}; class Bus: public Vehicle {
public:
VehicleSize size() {
return VehicleSize::Large;
}
int spot_num() {
return ;
}
}; class Car: public Vehicle {
public:
VehicleSize size() {
return VehicleSize::Compact;
}
int spot_num() {
return ;
}
}; class Motorcycle: public Vehicle {
public:
VehicleSize size() {
return VehicleSize::Motorcycle;
}
int spot_num() {
return ;
}
}; class Level {
public:
Level(int num_rows, int spots_per_row) {
int moto = spots_per_row / ;
moto_spots.resize(moto);
int car = spots_per_row / * ;
compact_spots.resize(car - moto);
large_spots.resize(spots_per_row - car);
} bool park_vehicle(Vehicle* vehicle, VehicleSize size, int num) {
if (size == VehicleSize::Motorcycle) {
for (int i = ; i < moto_spots.size(); ++i) {
if (moto_spots[i] == NULL) {
moto_spots[i] = vehicle;
vehicle_to_spot[vehicle][VehicleSize::Motorcycle] = i;
return true;
}
}
return false;
} else if (size == VehicleSize::Compact) {
for (int i = ; i < compact_spots.size(); ++i) {
if (compact_spots[i] == NULL) {
compact_spots[i] = vehicle;
vehicle_to_spot[vehicle][VehicleSize::Compact] = i;
return true;
}
}
for (int i = ; i < large_spots.size(); ++i) {
if (large_spots[i] == NULL) {
large_spots[i] = vehicle;
vehicle_to_spot[vehicle][VehicleSize::Large] = i;
return true;
}
}
return false;
} else if (size == VehicleSize::Large) {
for (int i = ; i < large_spots.size(); ++i) {
if (large_spots[i] == NULL) {
bool can_park = true;
for (int j = i; j < i + num; ++j) {
if (large_spots[j] != NULL) {
can_park = false;
break;
}
}
if (can_park) {
for (int j = i; j < i + num; ++j) {
large_spots[j] = vehicle;
}
vehicle_to_spot[vehicle][VehicleSize::Large] = i;
return true;
}
}
}
return false;
}
} void unpark_vehicle(Vehicle *vehicle) {
map<VehicleSize, int> spot = vehicle_to_spot[vehicle];
VehicleSize size = vehicle->size();
if (spot.count(size)) {
int idx = spot[size];
if (size == VehicleSize::Motorcycle) {
moto_spots[idx] = NULL;
} else if (size == VehicleSize::Compact) {
compact_spots[idx] = NULL;
} else {
for (int i = idx; i < large_spots.size(); ++i) {
if (large_spots[i] == vehicle) {
large_spots[i] = NULL;
} else {
break;
}
}
}
} else if (size == VehicleSize::Compact && spot.count(VehicleSize::Large)) {
int idx = spot[VehicleSize::Large];
large_spots[idx] = NULL;
}
} private:
vector<Vehicle*> moto_spots;
vector<Vehicle*> compact_spots;
vector<Vehicle*> large_spots;
map<Vehicle*, map<VehicleSize, int>> vehicle_to_spot;
}; class ParkingLot {
public:
// @param n number of leves
// @param num_rows each level has num_rows rows of spots
// @param spots_per_row each row has spots_per_row spots
ParkingLot(int n, int num_rows, int spots_per_row) {
for (int i = ; i < n; ++i) {
Level *level = new Level(num_rows, spots_per_row);
levels.push_back(level);
}
} // Park the vehicle in a spot (or multiple spots)
// Return false if failed
bool parkVehicle(Vehicle &vehicle) {
for (int i = ; i < levels.size(); ++i) {
if (levels[i]->park_vehicle(&vehicle, vehicle.size(), vehicle.spot_num())) {
vehicle_to_level[&vehicle] = levels[i];
return true;
}
}
return false;
} // unPark the vehicle
void unParkVehicle(Vehicle &vehicle) {
Level *level = vehicle_to_level[&vehicle];
if (level) {
level->unpark_vehicle(&vehicle);
}
}
private:
vector<Level*> levels;
map<Vehicle*, Level*> vehicle_to_level;
};
参考资料: