Help me to solve this problem : Find minimal k which sum of k's digit's square equals to N where N<=5000. For example: if N=100 then k=68 || if N=345 then k=277999.
Note: I think this problem is DP, but i couldn't do it.
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Help me to solve this problem : Find minimal k which sum of k's digit's square equals to N where N<=5000. For example: if N=100 then k=68 || if N=345 then k=277999.
Note: I think this problem is DP, but i couldn't do it.
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I think you can make the dp D[i] = { (n, a1, a2, ... , a9) | n <= N }, a list of all the numbers that can be generated with the digits from 1 to i, with the digits they need (for your sample D[9] will contain (345, 0, 1, 0, 0, 0, 0, 2, 0, 3) ) So for each number i from 1 to 10 you have a list of all possible n you can obtain with numbers from 1 to i. We have D[0] = { (0, 0, 0, 0, 0, 0, 0, 0, 0, 0 } For passing from D[i] to D[i + 1], we first set D[i + 1] = D[i], and for each element in D[i + 1] (each pair of 10 numbers), we verify if by adding digit i + 1 we can create a new number, or optimize an existing one.
this works because: — it will calculate all possible numbers — it will only keep the ones with less digits — it will always try to minimise digits
You can solve it with DP by making DP[d][s] = is it possible to make a sum of s with a number of d digits?. The first step is to find the minimum digits that can lead to N. After that, you can perform greedily, assigning the smallest possible digit at each step. I attach code.
Let's denote dp[i] as the minimum number, which sum of digits' square is i. We can keep it as a string or a BigIntger, which length doesn't exceed 100 (ez to prove).
dp[0] = 0; others are infinity. Consider we are at dp[i]. Now let's iterate over the digits, we will add to the current, say j. Then we update dp[i + j * j] = min(dp[i + j * j], dp[i] * 10 + j)
The answer is dp[N].