# Summing struct members inside a vector

Consider the following:

``````typedef struct {
int a;
int b;
int c;
int d;
} ABCD;

typedef std::vector<ABCD> VecABCD;
``````

Say I wanted to add up every 'a' member in a vector of type VecABCD. Easy! I just loop through the vector, and sum as I go.

``````int CalcSumOfA(const VecABCD &vec)
{
int sumOfA = 0;
VecABCD::const_iterator it;
for(it=vec.begin();it!=vec.end();it++)
sumOfA += it->a;
return sumOfA;
}
``````

Say I wanted to do the same thing with 'b'? Easy! I'd write....essentially the same function, but with only trivial changes. Same with 'c' and 'd'.

So, is there a more concise, less repetitive way of doing this? I'd like to do something like:

``````int sumOfA = SumOfMembers(myVec, a);
``````

but I can't conceive of how I'd put such a function together. Ideally, it'd be a template, and I could use it with a vector of any kind of structure, not specifically bound to VecABCD. Anyone have any ideas?

-

STL summations can be done with `std::accumulate`

``````#include <functional>

accumulate(v.begin(), v.end(), 0, bind(plus<int>(), _1, bind(&ABCD::a, _2)))
``````

If you wanted this to be more generic, you could take a tr1::function to the member you want to bind:

``````int sum_over_vec(const vector<ABCD>& v, const tr1::function<int (const ABCD&)>& member)
{
return accumulate(v.begin(), v.end(),
0,
bind(plus<int>(),
_1,
bind(member, _2)));
};

// ...

int sum_a = sum_over_vec(vec, bind(&ABCD::a, _1));
``````

Another way to do it, rather than putting your logic in the functor, would be to put the logic in the iterator, using a boost::transform iterator:

``````tr1::function<int (const ABCD&)> member(bind(&ABCD::a, _1));
accumulate(make_transform_iterator(v.begin(), member),
make_transform_iterator(v.end(),   member),
0);
``````

EDITED TO ADD: C++11 lambda syntax

This becomes somewhat clearer with the C++11 lambdas (though unfortunately not shorter):

``````accumulate(v.begin(), v.end(), 0,
[](int sum, const ABCD& curr) { return sum + curr.a });
``````

and

``````int sum_over_vec(const vector<ABCD>& v, const std::function<int (const ABCD&)>& member)
{
return accumulate(v.begin(), v.end(), 0,
[&](int sum, const ABCD& curr) { return sum + member(curr}); });
};
``````

Usage:

``````// Use a conversion from member function ptr to std::function.
int sum_a = sum_over_vec(vec, &ABCD::a);
// Or using a custom lambda sum the squares.
int sum_a_squared = sum_over_vec(vec,
[](const ABCD& curr) { return curr.a * curr.a; });
``````
-
+1 for accumulate. What about int overflow? Some error check needed. –  Kirill V. Lyadvinsky Jun 23 '09 at 4:49
Int overflow (or underflow) would depend on the use case for this; I would probably employ the ostrich algorithm until I had reason to suspect otherwise. –  Todd Gardner Jun 23 '09 at 4:55
Is bind() in STL or only in Boost? –  Ari Jun 23 '09 at 13:21
Bind is in boost, but it is also in TR1, which is a new set of standard libraries (but isn't the STL). Many popular compilers are already supporting it: msdn.microsoft.com/en-us/library/bb982702.aspx –  Todd Gardner Jun 23 '09 at 13:32

Another option would be to use pointer-to-members:

``````int CalcSumOf(const VecABCD & vec, int ABCD::*member)
{
int sum = 0;
for(VecABCD::const_iterator it = vec.begin(), end = vec.end(); it != end; ++it)
sum += (*it).*member;
return sum;
}
...
int sumA = CalcSumOf(myVec, &ABCD::a);  // find sum of .a members
int sumB = CalcSumOf(myVec, &ABCD::b);  // find sum of .b members
// etc.
``````
-
+1. To me, this looks like a better solution. –  Igor Krivokon Jun 23 '09 at 5:23
+1. I didn't know that! –  Nick Dandoulakis Jun 23 '09 at 6:23

You could use for_each. Its an option.

``````#include <iostream>
#include <algorithm>
#include <vector>

using namespace std;
typedef struct{
int a;

}ABCD;

typedef vector<ABCD> vecABCD;

struct sum  : public unary_function<ABCD, void>
{
sum(){count.a=count.b=count.c=count.d=0;}
void operator() (ABCD x) {
count.a+=x.a;
count.b+=x.b;
count.c+=x.c;
count.d+=x.d;
}
ABCD count;
};

int main()
{

ABCD s1={1,2,3,4};
ABCD s2={5,6,7,8};

vecABCD v;
v.push_back(s1);
v.push_back(s2);
sum s = for_each(v.begin(), v.end(), sum());
cout<<s.count.a<<endl;

}
``````

output:

``````4
``````
-
...how is for_each going to give you a count? –  Peter Jun 23 '09 at 4:43
@Peter. Added an example. Analog to the one in the for_each link provided. –  Tom Jun 23 '09 at 4:54
How would you this to calculate the sum of all b's?? –  Naveen Jun 23 '09 at 4:58
@Naveen: I see your point. Edited my answer to sum all a,b,c,d. Still, clearly for_each is not the best alternative. –  Tom Jun 23 '09 at 5:13