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I have a method to find number in range of iterator like below. I want it has reference parameter and return reference of iterator.

// find number in range of begin and end, if number found return reference of iterator, throw exception otherwise
vector<int>::iterator &find_int(vector<int>::iterator &begin, vector<int>::iterator &end, int &number)
    for (; begin != end; ++begin)
        if (*begin == number)
            return begin;

    throw "not found";

I want to call this method as following code but it can't compile.

vector<int>::iterator i5 = find_int(vi1.begin(), vi1.end(), 5);

I want to know how can I call find_int method ?

Update Error message when compile the code

C:\Windows\system32\cmd.exe /c g++ c:\cpp\ch9.cpp -o c:\cpp\ch9.exe
c:\cpp\ch9.cpp: In function 'int main()':
c:\cpp\ch9.cpp:41:63: error: invalid initialization of non-const reference of ty
pe 'std::vector<int>::iterator& {aka __gnu_cxx::__normal_iterator<int*, std::vec
tor<int> >&}' from an rvalue of type 'std::vector<int>::iterator {aka __gnu_cxx:
:__normal_iterator<int*, std::vector<int> >}'
c:\cpp\ch9.cpp:30:24: error: in passing argument 1 of 'std::vector<int>::iterato
r& find_int(std::vector<int>::iterator&, std::vector<int>::iterator&, int&)'
shell returned 1
Hit any key to close this window...
share|improve this question
How does that not work ? What error do you get ? – Ghita Nov 26 '11 at 7:31
@Ghita: I have updated my question, added error message. – Anonymous Nov 26 '11 at 7:41

3 Answers 3

up vote 2 down vote accepted

That function really shouldn't be taking iterator&'s (or the int&1) anyway. It should take the arguments by value, and return the iterator by value.

Even if you didn't get a compiler error because of the int literal you're trying to pass it (5) where it expects an int&1, the reason you can't call it the way you're doing is because you would be passing a reference to a temporary value, then getting a reference to that temporary through the return value of the function, and by the next line of code, the reference would refer to a destroyed object.

You can call it like this:

vector<int>::iterator beg = vi1.begin(), end = vi1.end();

vector<int>::iterator& pos = find_int(beg, end, 5);

Note that &pos == &beg.

However, if this isn't a didactic exercise, I would recommend to do what shuttle87 suggested, which is to use std::find.

1 Thanks Ghita for pointing this out.

share|improve this answer
Actually the compile error is because you pass a reference to a temporary (e.g. 5) and you don't have const int number& (as a function parameter) in your find_int implementation. Otherwise your code should work – Ghita Nov 26 '11 at 7:40
@Ghita ah, didn't see the & for the int parameter, didn't scroll to the right in his code block. Thanks. – Seth Carnegie Nov 26 '11 at 7:41
It's still not a good idea to pass integral types by reference in this case because you don't modify number in this case and it makes the intent of the function deceiving. – Ghita Nov 26 '11 at 7:41
Not a good practice to pass integral type by reference if you don't want it to be an output value because anyway the way function parameter passing in C/C++ is by coping the value of that int into that particular function and if you transmit a reference to an int or an int it's basically the same cost. Always pass by const Type & in case coping of that object is expensive or you want to make it clear that you have an input only parameter – Ghita Nov 26 '11 at 7:54
Or even worse cost, because you add a level of indirection, so you perhaps add the time of dereferencing a pointer, which is worse than just accessing it directly on the stack. – Seth Carnegie Nov 26 '11 at 7:55

Or use C++ 11 style:

auto res = std::find_if(vect.begin(), vect.end(), [num](int nb) -> bool {
        return (nb == num);

Make sure to include "algorithm" header

share|improve this answer
Why is this more C++11 style than std::find? It's also probably less efficient. – Seth Carnegie Nov 26 '11 at 7:37
Why would you say is less efficient ? It's more C++ 11 because you get to use lambdas – Ghita Nov 26 '11 at 7:44
This is probably less efficient because it involves calling a function on every iteration if the compiler can't optimise it, and it's way less efficient to type. Also that's not a very good reason for being more C++11, find is not a second class citizen. – Seth Carnegie Nov 26 '11 at 7:49
Any decent compiler will inline the lambda. It is not like that lambda function is used anywhere else so optimization aside don't see any reason not to use it. And it's quite efficient to type if you consider for example to find first element in a given range. – Ghita Nov 26 '11 at 7:59
Maybe, but for this case, auto i = find(begin(vi1), end(vi1), 5) is much better than auto i = std::find_if(begin(vi1), end(vi1), [num](int nb) -> bool { return (nb == num); });. Anyway, +1 to this answer for an alternative way to do it. – Seth Carnegie Nov 26 '11 at 8:00

Unless there's some reason you have to use your own code, I'd just use std::find like so:

  std::vector<int>::iterator it;
  // std::find returns iterator to vector element or end if not found:
  it = std::find (vi1.begin(), vi1.end(), 5);
  if(it == vi1.end()) throw "not found";
share|improve this answer

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