# Compute Absolute values of N integer combinations Combinations

For a N number (a..N) I am finding set of all combinations in the following way:

``````void create_print_combinations(int *t, int x, int n) {
if(x == 0) {
char p [2 * r + 2];
memset (p, 0, 2 * r +2);
for (int j=c;j>0;j--)
if(j == c)
sprintf(p, "%d", t[j]);
else
sprintf(p, "%s,%d", p,t[j]);
print_combi(p);
} else {
for (int i= n; i < r; i++) {
t[x] = a[i];
create_print_combinations(t, x-1, i+1);
}
}
}
``````

So a call to function like:

``````int main() {
unsigned long int start=0, end=0;
printf ("\nEnter the a positive integer N:");
scanf("%d", &r);
start=time(NULL);
a = new int[r];
for (int i = 0;i<r;i++)
a[i]=i+1;
for(int j=1;j<=r;j++) {
a1 = new int[j];
c=j;
create_print_combinations(a1, c, 0);
delete[] a1;
}
end=time(NULL);
printf("Total time taken = %llu\n" , end - start);
return 0;
}
``````

Gives me combinations like for N=4:

Enter the a positive integer N:4

``````Combo : [1]
Combo : [2]
Combo : [3]
Combo : [4]
Combo : [1,2]
Combo : [1,3]
Combo : [1,4]
Combo : [2,3]
Combo : [2,4]
Combo : [3,4]
Combo : [1,2,3]
Combo : [1,2,4]
Combo : [1,3,4]
Combo : [2,3,4]
Combo : [1,2,3,4]
``````

Now my tasks is to fond the absolute values of all combinations like:

For Combo [1,2,3,4] it should be:

``````1+2+3+4 = abs(1+2+3+4)
1+2+3-4 = abs(1+2+3-4)
1+2-3-4 = ..
1-2-3+4 = ...
``````

Ans so on

I am trying the below logic:

``````while(pos > 0)
{
for(int a=0; a < i; a++)
{
if(a==0)
sprintf(p,"%d", t[a]);
else if(a == pos)
sprintf(p,"%s%c%d",p, minus, t[a]);
else
sprintf(p,"%s%c%d",p, plus, t[a]);
}
print(p);
memset (p , 0, 2 * r +2);
pos --;
}
``````

But I beleiev I am doing something wrong as all sets are not getting printed. I am unable to frame the logic though I feel I am near to completion. Below is my whole program:

``````#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <ctype.h>
#include <time.h>

int *a;
int *a1;
int r;
int c;
unsigned long int no =1;

int stoi(char *var)
{
int n1 = 0;
int n2 = 0;
int n3 = 0;
char sign=0;
while(*var)
{
if(isspace(*var))
{
var++;
continue;
}
while(*var >= '0' && *var <= '9')
{
n1=(n1*10) + (*var - '0');
var++;
continue;
}
if(sign == '+')
{
n2=n2+n1;
n1=0;
}
else if(sign == '-')
{
n2=n2 - n1;
n1=0;
}
if(*var == '+' || *var == '-')
{
if(sign == 0)
{
n2=n1;
n1=0;
}
sign = *var;
}
var++;
}
if(sign == 0)
return abs(n1);
return abs(n2);
}

void print(char* var)
{
printf("[Combo %llu.] %s = %d\n" , no++, var, stoi(var));
}

void print_combi(char * a)
{
int t[c];
char *x = NULL;
char *y = a;
int i=0;
while((x=strchr(y, ',')) != NULL)
{
*x = '\0';
t[i++]=atoi(y);
y=x+1;
}
t[i++]=atoi(y);
int count =0;
int loop = 0;
char p [2 * r + 2];
memset (p , 0, 2 * r +2);
char plus = '+';
char minus = '-';
for(int k=0;k<2;k++)
{
if(k==1)
{
plus =  '-';
minus = '+';
}
if(i>1)
{
for(int a=0; a < i; a++)
{
if(a==0)
sprintf(p,"%d", t[a]);
else
sprintf(p,"%s%c%d",p, plus, t[a]);
}
}
else if(i==1)
{
sprintf(p,"%d", t[i-1]);
print(p);
break;
}
print(p);
memset (p , 0, 2 * r +2);
if(i==2)
continue;
if(i==3 && k ==1)
break;
int pos = i-1;
while(pos > 0)
{
for(int a=0; a < i; a++)
{
if(a==0)
sprintf(p,"%d", t[a]);
else if(a == pos)
sprintf(p,"%s%c%d",p, minus, t[a]);
else
sprintf(p,"%s%c%d",p, plus, t[a]);
}
print(p);
memset (p , 0, 2 * r +2);
pos --;
}
}
}

void create_print_combinations(int *t, int x, int n)
{
if(x == 0)
{
char p [2 * r + 2];
memset (p, 0, 2 * r +2);
for (int j=c;j>0;j--)
if(j == c)
sprintf(p, "%d", t[j]);
else
sprintf(p, "%s,%d", p,t[j]);
print_combi(p);
}
else
for (int i= n; i < r; i++)
{
t[x] = a[i];
create_print_combinations(t, x-1, i+1);
}
}
int main()
{
unsigned long int start=0, end=0;
printf ("\nEnter the a positive integer N:");
scanf("%d", &r);
start=time(NULL);
a = new int[r];
for (int i = 0;i<r;i++)
a[i]=i+1;
for(int j=1;j<=r;j++)
{
a1 = new int[j];
c=j;
create_print_combinations(a1, c, 0);
delete[] a1;
}
end=time(NULL);
printf("Total time taken = %llu\n" , end - start);
return 0;
}
``````

As per the program logic I am computing the combinations as strings and the generating the absolute values of the expression.

-

Some code for @SteveC's solution:

``````#include <iostream>
#include <sstream>
using namespace std;
void print_sum(int N, int sum_so_far, string as_a_string) {
if(N) {
ostringstream oss; oss << N;
print_sum(N-1, sum_so_far+N, as_a_string + "+" + oss.str() + " ");
print_sum(N-1, sum_so_far-N, as_a_string + "-" + oss.str() + " ");
print_sum(N-1, sum_so_far, as_a_string);
} else {
if (sum_so_far < 0) sum_so_far *= -1;
cout << as_a_string << "\t= " << sum_so_far << endl;            }
}

int main() {
print_sum(4, 0, "");
}
``````

The output begins:

``````+4 +3 +2 +1     = 10
+4 +3 +2 -1     = 8
+4 +3 +2        = 9
+4 +3 -2 +1     = 6
+4 +3 -2 -1     = 4
+4 +3 -2        = 5
+4 +3 +1        = 8
+4 +3 -1        = 6
# .. and so on
``````
-
Just pass N at the top and N-1 in the recursive call. No need for x. Also need to print absolute value on result. –  Steve C Dec 19 '11 at 18:52
@SteveC, +1 good points. Feel free to copy my code into your answer, including those changes. You should get the accepted answer! I'll be offline for the next few hours anyway. –  Aaron McDaid Dec 19 '11 at 18:56
I justedited your solution. Looks good. –  Steve C Dec 19 '11 at 19:25

There is a simpler way to what you are doing. You want to add up a vector of N integers:

[ 1*k1, 2*k2, 3*k3 ... N*kN ]

where kx = -1, 0, +1.

There are 3^N combinations of kx for x=1..N.

-
I would like to understand the concept / approach you came up logically and required code implementation mapped to it [as provided below]. I think these are the things that I need to skill upon. Please provide some inputs in explicit manner and is there some details that talks about it. I have also seen concept like O(lonN) .. etc but really do not understand much of it. –  Prakash Dec 20 '11 at 13:14
You start with a vector [ 1, 2, 3, ... N ] You took all combinations of the N elements which is equivalent to multiplying by 0 or +1. Then you took all of the +1 elements and either add or subtract, which is the same as multiplying by +1 or -1. I just noticed you could do this in one step. –  Steve C Dec 20 '11 at 15:31

What you are trying to do is very similar to enumerating all combinations from "N choose 1" to "N choose N". I would suggest you search in google under the terms "Enumerate Combinations"

Here is one of the link I have found:

http://www.codeproject.com/KB/recipes/CombC.aspx

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Yes, I am able to generate the combinations via create_print_combinations method coded - my issues is that I am not able to get the logic to print the absolute sums of all combinations: Like for Combi 1,2,3 : 1+2+3, 1+2-3, 1-2+3, 1-2-3. My logic breaks for a larger values say n = 10; –  Prakash Dec 19 '11 at 6:14

Here is a logic on how to do it. Print all the binary digits of size `n-1` where `n` is the size (number of elements) of the respective combo. For example to do what you want to do for the combo [1,2,3,4] create all the binary combinations of `3` (n-1 = 3, here n = 4 elements). i.e.

``````when n = 3, the possible combinations are:
000
001
010
011
100
101
110
111
``````

Now run your combo in a for loop and inside it whenever you find a `0` do addition and whenever you find `1` do a subtraction. For example `000` would mean `1+2+3+4` and `101` would mean `1-2+3-4`.

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