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I have an assignment that is the following:

For a given integer array, find the sum of its elements and print out the final result, but to get the sum, you need to execute the function for_each() in STL only once (without a loop).

As of now this is my code:

void myFunction (int i) {
cout << " " << i << " " <<  endl;
} 


int main() {

int array[] = { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 };

vector<int> v(array[0], array[10]);

for_each( v.begin(), v.end(), myFunction);

return 0;
}

But for some reason the output shows up as 4198853, at first I thought it was a memory address but I figured out that was wrong. Any idea's as to what I might be doing wrong?

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1  
A side note: It's possible to do this problem on the int[] array directly, without building a separate vector or other container at all. –  aschepler Oct 28 '10 at 17:04
    
just fyi, it's usually "functor" or "function object", not "object function". :) –  jalf Oct 28 '10 at 17:13

10 Answers 10

up vote 2 down vote accepted

why not just:

for_each( array, array+10, myFunction);

I'm quite sure that int* can be used as iterator

EDIT: just checked this, it can indeed

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1  
As for "why not...", the answer is: "because for_each is the wrong tool for the job -- he should probably be using std::copy. Good uses for std::for_each are almost amazingly rare. –  Jerry Coffin Oct 28 '10 at 17:11
1  
Because it doesn't print out the sum of values in the array. –  Crazy Eddie Oct 28 '10 at 17:27
2  
@Jerry: You probably mean std::accumulate, not std::copy –  Nemanja Trifunovic Oct 28 '10 at 17:30
    
@Nemanja: Yes and no -- for the assigned task, std::accumulate is the right tool. For what he's trying to do right now, std::copy is the right tool. std::for_each isn't much good for either one though. –  Jerry Coffin Oct 28 '10 at 17:32
    
@Jerry and @Nemanja: Except this is a homework assignment which appears to be about understanding and using STL algorithms, and explicitly says the student should use for_each. Sure, given the choice, I'd use copy with ostream_iterator for printing and accumulate for adding, but it's not hard to use for_each for either to get familiar with it. –  aschepler Oct 28 '10 at 17:38
vector<int> v(array[0], array[10]);

This doesn't do what you want. array[0] is the first value (1). array[10] is in invalid access past the end of your array. To pass pointers to the vector constructor, you want:

vector<int> v(array, array+10);
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beat me to it! :) –  Nim Oct 28 '10 at 16:59

Well, there's a couple problems beyond what people have said so far. One is your fault and the other is, in my opinion, a problem with the assignment.

You're printing out the elements, not the sum. The assignment asks for the sum so...you're doing it wrong. You need some call X that sums up all the values and sticks that into a variable for later printing.

The other problem is that std::for_each is not the appropriate algorithm for this task. In fact, it's so much not the appropriate algorithm that it's not even guaranteed to work without a lot of funky hacks to make all copies of the functor you pass in to for_each share the same counter. Maybe this is what your teacher wants you to figure out how to do, but I have a feeling (having experienced the common ability of programming instructors) that he/she doesn't actually know that they're teaching you wrong. The main gist of the problem is that implementations of std::for_each are free to make any number of copies of the function object passed in to recursive or utility calls to produce the standard behavior of for_each.

The appropriate algorithm to use is std::accumulate. In any production code I'd refuse to write, or accept from another team member, use of std::for_each to produce sums. However, I'd probably respond to this situation with a fugly hack and comment mentioning that for_each is the wrong algorithm. Something like so:

struct fugly_functor
{
  int * summation_variable; // using a local copy will result in correct answer, or a completely wrong answer depending on implementation of for_each

  fugly_functor(int * c) : counter(c) {}
  void operator(int x) { *summation_variable += x; }
};
...
int my_sum;
std::for_each(array, array+ELEM_COUNT, fugly_functor(&my_sum));
std::cout << my_sum << std::endl;

Then I'd suggest my teacher familiarize himself with the complete set of standard C++ algorithms.

The correct way would look something like so:

int my_sum = std::accumulate(array, array+ELEM_COUNT, 0);
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2  
+1: I was starting to write almost the same thing (though you did miss my line about: "for_each can be made to work, but it's about like using a screwdriver to pound a square peg into a round hole.") std::accumulate is definitely the right tool for this job. –  Jerry Coffin Oct 28 '10 at 17:29
    
@Noah, @Jerry: Interesting, so are you saying that Function g = f; while (first !=last) { g(*first); ++first; }; return f; is a valid implementation of for_each? Of course for_each can copy the function object, indeed it has to return a copy, but I always understood that the return would be a value resulting from the application to each iterand in turn . Certainly it's the explicit intention of the original STL that the function object can have state: that's the rationale for returning it. One example given is to count the number of items. Has the standard abandoned this? –  Steve Jessop Oct 28 '10 at 18:27
    
FWIW, I think the following is defined to work: struct Adder() { int i; Adder() : i(0) {} void operator()(int x) { i += x; }; int total = for_each(first, last, Adder()).i;, although I concede that the actual definition of for_each in the standard is very terse, and perhaps arguably does fail to require this. std::accumulate is still better for the job, of course. –  Steve Jessop Oct 28 '10 at 18:31
    
@Steve: Unfortunately, all it requires is that it return a copy of the input functor. Yes, it clearly should return a copy post-operations, but nothing requires it (and I believe at least one real implementation did the wrong thing, at least for a while). –  Jerry Coffin Oct 28 '10 at 18:53
    
@Jerry: hmm, sounds like a defect in the standard, though, if the intention is clear but the text is too ambiguous to express it. Any idea whether that real implementation was discovered and "fixed" before or after C++03? –  Steve Jessop Oct 28 '10 at 22:19

In this line:

vector<int> v(array[0], array[10]);

You've indexed out of bounds of your array. This causes undefined behavior.

Also, the constructor for vector you used doesn't do what you think. You've used:

vector(initial value, count);
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+1 for pointing out the overload that OP actually got by mistake –  Steve Townsend Oct 28 '10 at 17:03

array has indexes 0..9, so array[9] = 10

if array[10] doesnt throw an error it will contain erroneous data, causing this problem.

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The array has 10 elements so 10 is not a valid array index.

vector<int> v(array[0], array[10]);
                              ^^

What you want is:

vector<int> v(array, array + sizeof(array) / sizeof(int) );
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You need to take the address of array[0] and array[sizeof(array) / sizeof(*array)]. Vector constructor takes iterator types (i.e. pointers in this context), it can't magically determine the value of array[1] from the value of array[0].

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You're not constructing the vector right. The constructor that takes two integers is

vector(size_type _Count, const Type& _Val);

So _Count is 1 and _Value is an undefined value past the end of the array.

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If you really want to compute the sum, std::accucumulate is what you want, not for_each

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I know you were told to use for_each, but I would actually do this - perhaps an alternative for extra credit ;-)

#include <numeric>
using namespace std;

int array[] = { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 };

int sum = accumulate(array, array + (sizeof(array) / sizeof(int)), 0);

accumulate is expressly designed for summing the elements of an iterable range.

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