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What are the good ways of finding the sum of all the elements in a std::vector?

Suppose I have a vector std::vector<int> vector with a few elements in it. Now I want to find the sum of all the elements. What are the different ways for the same?

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"How many"? Really? That seems an overly vague question. :p Might be more useful to ask for a good way to do it. – jalf Jul 11 '10 at 7:17
@jalf: Edited the question – Prasoon Saurav Jul 11 '10 at 7:45
What do you mean when you say "function similar to?" Are you looking for a replacement for std::accumulate in Boost? (If so, why?) Are you looking for functions that do something similar to std::accumulate? (If so, what?) – James McNellis Jul 13 '10 at 13:02
If you want something similar to std::accumulate, presumably you also want it to be different in some respect (otherwise you could just use std::accumulate); what difference(s) from std::accumulate are you looking for? – Charles Bailey Jul 14 '10 at 12:33
up vote 214 down vote accepted

Actually there are quite a few methods.

int sum_of_elems = 0;


  1. Classic for loop:

    for(std::vector<int>::iterator it = vector.begin(); it != vector.end(); ++it)
        sum_of_elems += *it;
  2. Using a standard algorithm:

    #include <numeric>
    sum_of_elems = std::accumulate(vector.begin(), vector.end(), 0);

    Be careful when summing values of different types. If you are summing floating-point numbers, change 0 to 0.0 or 0.0f (thanks to nneonneo).

C++11 and higher

  1. Using std::for_each:

    std::for_each(vector.begin(), vector.end(), [&] (int n) {
        sum_of_elems += n;
  2. Using a range-based for loop (thanks to Roger Pate):

    for (int n : vector)
        sum_of_elems += n;
share|improve this answer
Of course in C++03 you can use std::for_each with a functor, it just takes more lines of code to define than the C++0x lambda. – Ben Voigt Jul 11 '10 at 4:04
+1 for #2 as the most concise mechanism. – nas Jul 11 '10 at 4:05
Why do your lambda examples use for_each? accumulate would be more concise (even if it doesn't need the lambda) – jalf Jul 11 '10 at 7:15
@jalf: your point is correct, I should have used accumulate inside for_each but isn't this example useful(for learning purpose) as it shows that we can also have nested lambdas :-) – Prasoon Saurav Jul 11 '10 at 7:37
Be careful with accumulate. The last argument's type is used not just for the initial value, but for the type of the result. If you put an int there, it will accumulate ints even if the vector has float. The result can be subtly wrong, and the compiler will cast the result back up to a float without telling you. – nneonneo Feb 19 '13 at 3:30

Prasoon has already offered up a host of different (and good) ways to do this, none of which need repeating here. I'd like to suggest an alternative approach for speed however.

If you're going to be doing this quite a bit, you may want to consider "sub-classing" your vector so that a sum of elements is maintained separately (not actually sub-classing vector which is iffy due to the lack of a virtual destructor - I'm talking more of a class that contains the sum and a vector within it (has-a rather than is-a) and provides the vector-like methods).

For an empty vector, the sum is set to zero. On every insertion to the vector, add the element being inserted to the sum. On every deletion, subtract it. Basically, anything that can change the underlying vector is intercepted to ensure the sum is kept consistent.

That way, you have a very efficient O(1) method for "calculating" the sum at any point in time (just return the sum currently calculated). Insertion and deletion will take slightly longer as you adjust the total and you should take this performance hit into consideration.

Vectors where the sum is needed more often than the vector is changed are the ones likely to benefit from this scheme, since the cost of calculating the sum is amortised over all accesses. Obviously, if you only need the sum every hour and the vectors is changing three thousand times a second, it won't be suitable.

Something like this would suffice:

class UberVector:
    private Vector<int> vec;
    private int sum;

    public UberVector():
        vec = new Vector<int>();
        sum = 0;

    public getSum():
        return sum;

    public add (int val):
        rc = vec.add (val)
        if rc == OK:
            sum = sum + val
        return rc

    public delindex (int idx):
        val = 0
        if idx >= 0 and idx < vec.size:
            val = vec[idx]
        rc =  vec.delindex (idx)
        if rc == OK:
            sum = sum - val
        return rc

Obviously, that's pseudo-code and you may want to have a little more functionality and clean up the error checking, but it shows the basic concept.

share|improve this answer
Interesting approach, +1 :) – Prasoon Saurav Jul 11 '10 at 4:21
interesting, but be careful as std::vector isn't meant for subclassing. – Evan Teran Jul 11 '10 at 4:50
Sorry, I should have been clearer - you could create your own class with the same methods as vector which maintained a has-a vector within it, rather than being a proper subclass (is-a). – paxdiablo Jul 11 '10 at 5:08
@paxdiablo: Very nice with the has-a. – Matt Joiner Nov 14 '10 at 7:02
This is problematic unless you disable the accessors into the data, including but not limited to operator[](int), non-const iterators... – David Rodríguez - dribeas Dec 2 '10 at 19:25

Why perform the summation forwards when you can do it backwards? Given:

std::vector<int> v;     // vector to be summed
int sum_of_elements(0); // result of the summation

We can use subscripting, counting backwards:

for (int i(v.size()); i > 0; --i)
    sum_of_elements += v[i-1];

We can use range-checked "subscripting," counting backwards (just in case):

for (int i(v.size()); i > 0; --i)
    sum_of_elements +=;

We can use reverse iterators in a for loop:

for(std::vector<int>::const_reverse_iterator i(v.rbegin()); i != v.rend(); ++i)
    sum_of_elements += *i;

We can use forward iterators, iterating backwards, in a for loop (oooh, tricky!):

for(std::vector<int>::const_iterator i(v.end()); i != v.begin(); --i)
    sum_of_elements += *(i - 1);

We can use accumulate with reverse iterators:

sum_of_elems = std::accumulate(v.rbegin(), v.rend(), 0);

We can use for_each with a lambda expression using reverse iterators:

std::for_each(v.rbegin(), v.rend(), [&](int n) { sum_of_elements += n; });

So, as you can see, there are just as many ways to sum the vector backwards as there are to sum the vector forwards, and some of these are much more exciting and offer far greater opportunity for off-by-one errors.

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And why not also cycle through the vector by adding a prime number with the modulus operator for wraparound? :-) – paxdiablo Jul 11 '10 at 5:17
@paxdiablo You only really need to be relatively prime to v.size(). – msandiford Jul 13 '10 at 4:55
msandiford: not only. @paxdiablo: you need to be realtively prime if you want to access all elements. stepping +7 in a vector of size 7 wont give you much... – Moberg Feb 5 '14 at 10:06
-1: vector::size() returns an unsigned value, making expressions like (v.size() - 1) generate warnings, or a minefield in worst cases. – Julien Guertault Apr 23 '14 at 6:19
int sum = boost::accumulate(vector, 0);
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Thanks for the answer. BTW what is the difference between std::accumulate and boost::accumulate in time complexity? – Prasoon Saurav Aug 15 '10 at 8:56
The time complexity is the same for std's and boost's accumulate -- linear. In this case, boost::accumulate is just easier to type than sending in the begin and end manually. There's no real difference. – metal Sep 11 '10 at 15:16
boost::accumulate is just a wrapper around std::accumulate. – rafak Sep 15 '10 at 10:15

C++0x only:

vector<int> v; // and fill with data
int sum {}; // or = 0 ... :)
for (int n : v) sum += n;

This is similar to the BOOST_FOREACH mentioned elsewhere and has the same benefit of clarity in more complex situations, compared to stateful functors used with accumulate or for_each.

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If you change for (int n : v) sum += n; into for (auto n : v) sum += n; it will work with any vector template. I known OP referes to vector<int>, but this way is slightly more general :-) – Jonas Oct 20 '14 at 12:10

I'm a Perl user, an a game we have is to find every different ways to increment a variable... that's not really different here. The answer to how many ways to find the sum of the elements of a vector in C++ is probably an infinity...

My 2 cents:

Using BOOST_FOREACH, to get free of the ugly iterator syntax:

sum = 0;
BOOST_FOREACH(int & x, myvector){
  sum += x;

iterating on indices (really easy to read).

int i, sum = 0;
for (i=0; i<myvector.size(); i++){
  sum += myvector[i];

This other one is destructive, accessing vector like a stack:

while (!myvector.empty()){
share|improve this answer
"I'm a Perl user" - that's okay, we forgive you :-) – paxdiablo Jul 11 '10 at 10:39
Why do you say iterating on indices is inefficient? What's your basis for saying that? – bobobobo Aug 20 '10 at 12:53
@bobobobo: well, inefficient is probably excessive. You have both to compute effective data position from vector and increment counter but one of these two operations should be enough, but cost of dereferencing iterators may even be worse. Hence I will remove the word. – kriss Aug 20 '10 at 13:28

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