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I'm using istream_iterator to insert contents from my file. I use the std::copy algorithm too.

So we know istream_iterator takes a stream as an argument:

std::istream_iterator<int> it = file;

I can just pass the stream but why here doesn't it work?

#include <fstream>
#include <vector>

int main()
    std::ifstream infile("in.txt");
    std::vector<int> v;

    std::copy(infile, std::istream_iterator<int>(), std::back_inserter(v));

I have to do it like this:

std::copy(std::istream_iterator<int>(infile), std::istream_iterator<int>(), std::back_inserter(v));

But this looks very verbose and I feel like they're a better way to do what I'm doing...

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@juanchopanza infile but I made a typo. –  user2030677 Jan 7 '14 at 16:14
A call to a function template doesn't perform implicit user-defined conversions of arguments. std::copy is a function template, and stream-to-iterator is a user-defined conversion. –  n.m. Jan 7 '14 at 16:27
This is one of many downsides of C++ standard library using iterators instead of ranges. Everybody kind of knows it by now but it's difficult to change everything now with so much code already out there. –  Jan Hudec Jan 7 '14 at 16:41
@JanHudec Adding overloads like std::copy(std::basic_istream<T>, OutputIt) wouldn't really break code. And how much would they simplify code. –  leemes Jan 7 '14 at 16:44
@leemes: With istream it's really a corner case. And it's not obvious what you want to extract as you can extract many things from istream (no, it does not have to be the type of the container; you might want the copy to do implicit conversion too). –  Jan Hudec Jan 7 '14 at 18:50

3 Answers 3

up vote 2 down vote accepted

The problem is what std::copy expects from the object being passed. The algorithm std::copy expects iterators to operate on. To be more precise, the first two arguments have to be "InputIterator"s to read from (start and end), that is, the two objects have to satisfy some "concept".

Sadly, IO streams in C++ don't fulfill the InputIterator concept automatically (also, an end iterator would still be missing), but only if you wrap them in an instance of std::istream_iterator<T>, while the end iterator is symbolically defined using an instance without pointing to a stream.

You could wrap around std::copy which accepts an input stream instead of two iterators (so this also eliminates the need to name the end iterator):

template <class T,
          class OutputIt /* deduced */,
          class CharT    /* deduced */>
OutputIt  copy_from_istream(std::basic_istream<CharT> & stream, OutputIt out) {
    return std::copy(
        std::istream_iterator<T, CharT>(stream),

Using this is now very simple:

copy_from_istream<int>(infile, std::back_inserter(v));

Live Demo

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This is how the relevant overload of std::copy is declared:

template< class InputIt, class OutputIt >
OutputIt copy( InputIt first, InputIt last, OutputIt d_first );

This function is templatized and it will deduce the type by the argument given. In your case, the first argument is of type std::basic_ifstream<...>, so since the second argument didn't match, you get a compile time error.

That's why you need to be explicit with the type. The compiler won't know what you mean otherwise.

A shorter way of doing this would be to provide the actual template argument explicitly:

v.assign<std::istream_iterator<int>>(infile, {});
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Try using vector::assign() instead of copy() algorithm:

v.assign(std::istream_iterator<int>(infile), std::istream_iterator<int>())
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