Let us take few examples.

sum(9) = 1 + 2 + 3 + 4 ........... + 9
= 9*10/2
= 45

sum(99) = 45 + (10 + 45) + (20 + 45) + ..... (90 + 45)
= 45*10 + (10 + 20 + 30 ... 90)
= 45*10 + 10(1 + 2 + ... 9)
= 45*10 + 45*10
= sum(9)*10 + 45*10

sum(999) = sum(99)*10 + 45*100

In general, we can compute sum(10d – 1) using below formula

sum(10d - 1) = sum(10d-1 - 1) * 10 + 45*(10d-1)

In below implementation, the above formula is implemented using dynamic programming as there are overlapping subproblems.
The above formula is one core step of the idea. Below is complete algorithm

Algorithm: sum(n)

1) Find number of digits minus one in n. Let this value be 'd'.

For 328, d is 2.

2) Compute some of digits in numbers from 1 to 10d - 1. Let this
sum be w. For 328, we compute sum of digits from 1 to 99 using
above formula.

3) Find Most significant digit (msd) in n. For 328, msd is 3.

4) Overall sum is sum of following terms

```
a) Sum of digits in 1 to "msd * 10d - 1". For 328, sum of
digits in numbers from 1 to 299.
For 328, we compute 3*sum(99) + (1 + 2)*100. Note that sum of
sum(299) is sum(99) + sum of digits from 100 to 199 + sum of digits
from 200 to 299.
Sum of 100 to 199 is sum(99) + 1*100 and sum of 299 is sum(99) + 2*100.
In general, this sum can be computed as w*msd + (msd*(msd-1)/2)*10d
b) Sum of digits in msd * 10d to n. For 328, sum of digits in
300 to 328.
For 328, this sum is computed as 3*29 + recursive call "sum(28)"
In general, this sum can be computed as msd * (n % (msd*10d) + 1)
+ sum(n % (10d))
```

Below is C++ implementation of above aglorithm.

```
// C++ program to compute sum of digits in numbers from 1 to n
#include<bits/stdc++.h>
using namespace std;
// Function to computer sum of digits in numbers from 1 to n
// Comments use example of 328 to explain the code
int sumOfDigitsFrom1ToN(int n)
{
// base case: if n<10 return sum of
// first n natural numbers
if (n<10)
return n*(n+1)/2;
// d = number of digits minus one in n. For 328, d is 2
int d = log10(n);
// computing sum of digits from 1 to 10^d-1,
// d=1 a[0]=0;
// d=2 a[1]=sum of digit from 1 to 9 = 45
// d=3 a[2]=sum of digit from 1 to 99 = a[1]*10 + 45*10^1 = 900
// d=4 a[3]=sum of digit from 1 to 999 = a[2]*10 + 45*10^2 = 13500
int *a = new int[d+1];
a[0] = 0, a[1] = 45;
for (int i=2; i<=d; i++)
a[i] = a[i-1]*10 + 45*ceil(pow(10,i-1));
// computing 10^d
int p = ceil(pow(10, d));
// Most significant digit (msd) of n,
// For 328, msd is 3 which can be obtained using 328/100
int msd = n/p;
// EXPLANATION FOR FIRST and SECOND TERMS IN BELOW LINE OF CODE
// First two terms compute sum of digits from 1 to 299
// (sum of digits in range 1-99 stored in a[d]) +
// (sum of digits in range 100-199, can be calculated as 1*100 + a[d]
// (sum of digits in range 200-299, can be calculated as 2*100 + a[d]
// The above sum can be written as 3*a[d] + (1+2)*100
// EXPLANATION FOR THIRD AND FOURTH TERMS IN BELOW LINE OF CODE
// The last two terms compute sum of digits in number from 300 to 328
// The third term adds 3*29 to sum as digit 3 occurs in all numbers
// from 300 to 328
// The fourth term recursively calls for 28
return msd*a[d] + (msd*(msd-1)/2)*p +
msd*(1+n%p) + sumOfDigitsFrom1ToN(n%p);
}
// Driver Program
int main()
{
int n = 328;
cout << "Sum of digits in numbers from 1 to " << n << " is "
<< sumOfDigitsFrom1ToN(n);
return 0;
}
```

Output

```
Sum of digits in numbers from 1 to 328 is 3241
```