# A puzzle related to nested loops

For a given input N, how many times does the enclosed statement executes?

``````for i in 1 … N loop
for j in 1 … i loop
for k in 1 … j loop
sum = sum + i ;
end loop;
end loop;
end loop;
``````

Can anyone figure out an easy way or a formula to do this in general. Please explain.

• What exactly are you trying to achieve?
– Rhys
Nov 29 '12 at 8:31
• @Rhys For programs like this, every time you need to go through the entire program or write a dry run table to calculate the number of times the enclosed statement executes. But is there a general way to figure this out, by just looking at the conditions of the for-loops? Nov 29 '12 at 8:59
• Adding very similar question link: "Nested loops result" Oct 20 '13 at 19:31

• First, I written a `C` code to generate sum:
``````int main(){
int i =0, k =0, j =0, n =0;
int N =0;
int sum =0;
N =10;
for (n=1; n <= N; n++){
// unindented code here
sum =0;
for (i=1; i<=n; i++)
for (j=1; j<=i; j++)
for (k=1; k<=j; k++)
sum++;

printf("\n N=%d  sum = %d",n, sum);
}
printf("\n");
}
``````
• Simple compile and generate result for `N=1 to N=10` :

`\$ gcc sum.c`
`\$ ./a.out`

`````` N=1  sum = 1
N=2  sum = 4
N=3  sum = 10
N=4  sum = 20
N=5  sum = 35
N=6  sum = 56
N=7  sum = 84
N=8  sum = 120
N=9  sum = 165
N=10  sum = 220
``````
• Then, Tried to explore `How this works?` with some diagrams:

For, `N=1`:

``````i<=N,     (i=1)
|
j<=i,     (j=1)
|
k<=j,     (K=1)
|
sum=0.    sum++       ---> sum = 1
``````

That is (1) = 1

For, `N=2`:

``````i<=N,     (i=1)-------(i=2)
|     |-----|-----|
j<=i,     (j=1) (j=1)      (j=2)
|     |     |----|----|
k<=j,     (K=1) (K=1) (K=1)    (K=2)
|     |     |        |
sum=0,    sum++  sum++ sum++   sum++  --> sum = 4
``````

That is (1) + (1 + 2) = 4

For, `N=3`:

``````i<=N,     (i=1)-------(i=2)--------------------(i=3)
|     |-----|-----|        |---------|-------------|
j<=i,     (j=1) (j=1)      (j=2)     (j=1)      (j=2)        (j=3)
|     |     |----|----|    |     |----|----|    |-----|-----|
k<=j,     (K=1) (K=1) (K=1)    (K=2) (K=1) (K=1)    (K=2) (K=1) (K=2) (K=3)
|     |     |        |     |     |        |     |     |        |
sum=0,    sum++  sum++ sum++  sum++ sum++  sum++    sum++  sum++ sum++  sum++
--> sum = 10
``````

That is (1) + (1 + 2) + ( 1 + 2 + 3 ) = 10

``````N = 1, (1)    = 1

N = 2, (1) + (1 + 2)    = 4

N = 3, (1) + (1 + 2) + (1 + 2 + 3)  = 10

N = 4, (1) + (1 + 2) + (1 + 2 + 3) + (1 + 2 + 3 + 4)  = 20

N = 5, (1) + (1 + 2) + (1 + 2 + 3) + (1 + 2 + 3 + 4) + (1 + 2 + 3 + 4 + 5)  = 35
``````

Finally, I could understood that sum of `N` in three loop is:

(1) + (sum 0f 1 to 2) + ... + (sum of 1 to (N-2)) + (sum of 1 to (N-1) ) + (sum of 1 to N)

or we can write it as:

=> (1) + (1 + 2) + ...+ (1 + 2 +....+ i) + ... + (1 + 2 + ....+ N-1) + (1 + 2 + ....+ N)

=> ( N * 1 ) + ( (N-1) * 2) + ( (N-2) * 3) +...+ ( (N -i+1) * i ) +... + ( 1 * N)

You can refer here for simplification calculations: (I asked HERE )

`= ( ((N) * (N+1) * (N+2)) / 6 )`

And, I think its correct. I checked as follows:

``````N = 1,    (1 * 2 * 3)/6  = 1

N = 2,    (2 * 3 * 4)/6 = 4

N = 3,    (3 * 4 * 5)/6 = 6

N = 4,    (4 * 5 * 6)/6 = 10

N = 5,    (5 * 6 * 7)/6 = 35
``````

Also, The complexity of this algorithm is O(n3)

EDIT:

The following loop also has same numbers of count, that is `= ( ((N) * (N+1) * (N+2)) / 6 )`

``````for i in 1 … N loop
for j in i … N loop
for k in j … N loop
sum = sum + i ;
end loop;
end loop;
end loop;
``````