2 digit sums and all combinations for each sum [closed]

Using the digits 1 though 9, without repeating the same digit, I made this table of sums comprised of adding two digits together and all possible combinations for each sum. I am trying to write a program in C to find all sums by adding 2 digits together and each of their combinations and then print out this chart. I am trying to use for loops to write this program and have become stuck. I can get the first initial sums to print out, but it is getting the combinations that has me stumped now. I do not know if I am on the right track or not. Any suggestions and help would be greatly appreciated. My chart, code written so far, and the print out for the current code is below.

This is what I want my program to do:

This chart lists all the sums comprised of 2 digits and all the possible combinations to make each sum.

``````    2 Digit Sums
Sum Combinations
3   1+2
4   1+3
5   1+4, 2+3
6   1+5, 2+4
7   1+6, 2+5, 3+4
8   1+7, 2+6, 3+5
9   1+8, 2+7, 3+6, 4+5
10  1+9, 2+8, 3+7, 4+6
11  2+9, 3+8, 4+7, 5+6
12  3+9, 4+8, 5+7
13  4+9, 5+8, 6+7
14  5+9, 6+8
15  6+9, 7+8
16  7+9
17  8+9
``````

This is the code I have been able to write successfully:

``````/* Thus program uses the digits 1 - 9 to find all possible sums composed of two
digits, non repeating, and all possible combinations of digits to obain the sums. */
#include<stdio.h>
int main(void)
{
int S, A, B;
A = 1;
B = A + 1;
S = A + B;
printf("\t\t2 Digit Sums\n\n");
printf("Sum\tCombinations\n");
for(B; B <= 8; ++B)
{
S = A + B;
printf("%d\t%d + %d\n", S, A, B);
}
for(A; (A < B && A !=B); ++A)
{
S = A + B;
printf("%d\t%d + %d\n", S, A, B);
}
return(0);
}
``````

This is the output of my code:

``````                2 Digit Sums
Sum     Combinations
3       1 + 2
4       1 + 3
5       1 + 4
6       1 + 5
7       1 + 6
8       1 + 7
9       1 + 8
10      1 + 9
11      2 + 9
12      3 + 9
13      4 + 9
14      5 + 9
15      6 + 9
16      7 + 9
17      8 + 9
Press any key to continue...
``````
-
Try recursion instead of loops. –  RonaldBarzell Nov 28 '12 at 16:56
If you plan on expanding the program, then you will have to do it using recursion –  AsheeshR Nov 28 '12 at 17:22

closed as not a real question by corsiKa, maerics, WhozCraig, Stefan Gehrig, alestanisNov 29 '12 at 9:40

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

If the scope of the problem is limited like this one, you can solve it through Brute Force -- just try them all out. There are only 17 * 9 * 9 variations to check which isn't a lot really.

With three loops (pseudo code):

``````for each value of possible_sum (2-17)

print possible_sum

for each value of addend1 (1-9)

for each value of addend2 (1-9)

then

end if