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Guido Van Rossum demonstrates the simplicity of Python in this article and makes use of this function for buffered reads of a file of unknown length:

def intsfromfile(f):
    while True:
        a = array.array('i')
        if not a:
        for x in a:
            yield x

I need to do the same thing in C++ for speed reasons! I have many files containing sorted lists of unsigned 64 bit integers that I need to merge. I have found this nice piece of code for merging vectors.

I am stuck on how to make an ifstream for a file of unknown length present itself as a vector which can be happily iterated over until the end of the file is reached. Any suggestions? Am I barking up the correct tree with an istreambuf_iterator?

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Are the integers in the file separated by newline characters, spaces, etc.? If so, the istream_iterator is your friend. –  Toolbox Jan 13 '11 at 22:10
@Toolbox thanks for the reply and the solution! The format of the files is binary, 64-bit little-endian unsigned integers with no separator. So looks like istreambuf_iterator is the way to go? Can you help with disguising istreambuf_iterator as a vector<unsigned long>? –  Donny Jan 13 '11 at 22:58
Sure! Give me a few moments to whip something up (and make sure it compiles). –  Toolbox Jan 13 '11 at 23:08
for future reference, generators can be seen as input iterators in C++. The syntax is not as nice, obviously, since you have to maintain the state yourself, but it does work :) –  Matthieu M. Jan 14 '11 at 7:44
Sorry! I totally forgot to post an example of the istreambuf_iterator's usage. I have edited one into my answer, though I'm not totally satisfied with it. –  Toolbox Jan 16 '11 at 10:22

1 Answer 1

up vote 7 down vote accepted

In order to disguise an ifstream (or really, any input stream) in a form that acts like an iterator, you want to use the istream_iterator or the istreambuf_iterator template class. The former is useful for files where the formatting is of concern. For example, a file full of whitespace-delimited integers can be read into the vector's iterator range constructor as follows:

#include <fstream>
#include <vector>
#include <iterator> // needed for istream_iterator

using namespace std;

int main(int argc, char** argv)
    ifstream infile("my-file.txt");

    // It isn't customary to declare these as standalone variables,
    // but see below for why it's necessary when working with
    // initializing containers.
    istream_iterator<int> infile_begin(infile);
    istream_iterator<int> infile_end;

    vector<int> my_ints(infile_begin, infile_end);

    // You can also do stuff with the istream_iterator objects directly:
    // Careful! If you run this program as is, this won't work because we
    // used up the input stream already with the vector.

    int total = 0;
    while (infile_begin != infile_end) {
        total += *infile_begin;

    return 0;

istreambuf_iterator is used to read through files a single character at a time, disregarding the formatting of the input. That is, it will return you all characters, including spaces, newline characters, and so on. Depending on your application, that may be more appropriate.

Note: Scott Meyers explains in Effective STL why the separate variable declarations for istream_iterator are needed above. Normally, you would do something like this:

ifstream infile("my-file.txt");
vector<int> my_ints(istream_iterator<int>(infile), istream_iterator<int>());

However, C++ actually parses the second line in an incredibly bizarre way. It sees it as the declaration of a function named my_ints that takes in two parameters and returns a vector<int>. The first parameter is of type istream_iterator<int> and is named infile (the parantheses are ignored). The second parameter is a function pointer with no name that takes zero arguments (because of the parantheses) and returns an object of type istream_iterator<int>.

Pretty cool, but also pretty aggravating if you're not watching out for it.


Here's an example using the istreambuf_iterator to read in a file of 64-bit numbers laid out end-to-end:

#include <fstream>
#include <vector>
#include <algorithm>
#include <iterator>

using namespace std;

int main(int argc, char** argv)
    ifstream input("my-file.txt");
    istreambuf_iterator<char> input_begin(input);
    istreambuf_iterator<char> input_end;

    // Fill a char vector with input file's contents:
    vector<char> char_input(input_begin, input_end);

    // Convert it to an array of unsigned long with a cast:
    unsigned long* converted = reinterpret_cast<unsigned long*>(&char_input[0]);
    size_t num_long_elements = char_input.size() * sizeof(char) / sizeof(unsigned long);

    // Put that information into a vector:
    vector<unsigned long> long_input(converted, converted + num_long_elements);

    return 0;

Now, I personally rather dislike this solution (using reinterpret_cast, exposing char_input's array), but I'm not familiar enough with istreambuf_iterator to comfortably use one templatized over 64-bit characters, which would make this much easier.

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I am currently out of votes for today, but if I had any left I'd upvote this. :-) This is an excellent explanation. –  templatetypedef Jan 13 '11 at 22:30
@templatetypedef don't worry, I'm not :P –  wheaties Jan 13 '11 at 22:33
IIRC there are also ways to add extra parentheses to get around the parsing ambiguity, but this is ugly and fails at explicitness. –  Karl Knechtel Jan 13 '11 at 22:41
because I love to name things --> the last part of your question is dealing with what is known as The Most Vexing Parse. Good answer by the way. –  Matthieu M. Jan 14 '11 at 7:46

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