You are a poor person in an island. There is only one shop in this island, this shop is open on all days of the week except for Sunday. Consider following constraints:
- N – Maximum unit of food you can buy each day.
- S – Number of days you are required to survive.
- M – Unit of food required each day to survive.
Currently, it’s Monday, and you need to survive for the next S days.
Find the minimum number of days on which you need to buy food from the shop so that you can survive the next S days, or determine that it isn’t possible to survive.
Input : S = 10 N = 16 M = 2
Output : Yes 2
Explanation 1: One possible solution is to buy a box on the first day (Monday), it’s sufficient to eat from this box up to 8th day (Monday) inclusive. Now, on the 9th day (Tuesday), you buy another box and use the chocolates in it to survive the 9th and 10th day.
Input : 10 20 30
Output : No
Explanation 2: You can’t survive even if you buy food because the maximum number of units you can buy in one day is less the required food for one day.
In this problem, the greedy approach of buying the food for some consecutive early days is the right direction.
If we can survive for the first 7 days then we can survive any number of days for that we need to check two things
-> Check whether we can survive one day or not.
-> (S >= 7) If we buy food in the first 6 days of the week and we can survive for the week i.e. total food we can buy in a week (6*N) is greater then or equal to total food we require to survive in a week (7*M) then we can survive.
If any of the above conditions are not true then we can’t survive else the minimum number of days required to buy food will be = ceil(total food required/units of food we can buy each day)
Time Complexity: O(1)
Space Complexity: O(1)
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