39

Is there C++ equivalent for python Xrange generator in either STL or boost?

xrange basically generates incremented number with each call to ++ operator. the constructor is like this:

xrange(first, last, increment)

was hoping to do something like this using boost for each:

foreach(int i, xrange(N))

I. am aware of the for loop. in my opinion they are too much boilerplate.

Thanks

my reasons:

my main reason for wanting to do so is because i use speech to text software, and programming loop usual way is difficult, even if using code completion. It is much more efficient to have pronounceable constructs.

many loops start with zero and increment by one, which is default for range. I find python construct more intuitive

 for(int i = 0; i < N; ++i)
 foreach(int i, range(N))

functions which need to take range as argument:

 Function(int start, int and, int inc);
 function(xrange r);

I understand differences between languages, however if a particular construct in python is very useful for me and can be implemented efficiently in C++, I do not see a reason not to use it. For each construct is foreign to C++ as well however people use it.

I put my implementation at the bottom of the page as well the example usage.

in my domain i work with multidimensional arrays, often rank 4 tensor. so I would often end up with 4 nested loops with different ranges/increments to compute normalization, indexes, etc. those are not necessarily performance loops, and I am more concerned with correctness readability and ability to modify.

for example

int function(int ifirst, int ilast, int jfirst, int jlast, ...);
versus
int function(range irange, range jrange, ...);

In the above, if different strids are needed, you have to pass more variables, modify loops, etc. eventually you end up with a mass of integers/nearly identical loops.

foreach and range solve my problem exactly. familiarity to average C++ programmer is not high on my list of concerns - problem domain is a rather obscure, there is a lot of meta-programming, SSE intrinsic, generated code.

9
  • 3
    Most C++ programmers probably won't know what Xrange does - you should briefly describe it in your question.
    – anon
    Dec 29, 2009 at 22:36
  • 5
    As far as I can tell, you'd just use a for-loop: for (int i = 0; i < N; ++i) { /* use i */ }
    – GManNickG
    Dec 29, 2009 at 22:42
  • 7
    Your boilerplate argument is a bit hollow. for i in xrange(first, last, increment) is 40 chars. for(int i=first;i<last;i+=increment) is 37. 43 if you add spaces between operands and operators. And you would use either syntax in exactly the same situation in their respective languages. Don't try to turn C++ into Python, they both have different strengths and purposes. Dec 29, 2009 at 22:56
  • For each is not "foreign to C++ as well". It is part of the standard library.
    – jalf
    Dec 30, 2009 at 19:41
  • 2
    @jalf: std::for_each is a (near-useless, IMO) algorithm. We are talking about a real language construct (which will be added with C++0x, or is available as the BOOST_FOREACH macro.
    – UncleBens
    Dec 30, 2009 at 21:14

10 Answers 10

53

Boost irange should really be the answer (ThxPaul Brannan)

I'm adding my answer to provide a compelling example of very valid use-cases that are not served well by manual looping:

#include <boost/range/adaptors.hpp>
#include <boost/range/algorithm.hpp>
#include <boost/range/irange.hpp>

using namespace boost::adaptors;

static int mod7(int v) 
    { return v % 7; }

int main() 
{
    std::vector<int> v;

    boost::copy(
            boost::irange(1,100) | transformed(mod7), 
            std::back_inserter(v));

    boost::sort(v);

    boost::copy(
            v | reversed | uniqued, 
            std::ostream_iterator<int>(std::cout, ", "));
}

Output: 6, 5, 4, 3, 2, 1, 0,

Note how this resembles generators/comprehensions (functional languages) and enumerables (C#)

Update I just thought I'd mention the following (highly inflexible) idiom that C++11 allows:

for (int x : {1,2,3,4,5,6,7})
    std::cout << x << std::endl;

of course you could marry it with irange:

for (int x : boost::irange(1,8))
    std::cout << x << std::endl;
4
  • 2
    I changed your answer to use boost::irange instead of boost::make_integer_range. I hope you don't mind ;)
    – Mankarse
    Nov 13, 2011 at 10:49
  • @Mankarse I don't - Thanks for the update! I found out about that later and never came round to updating this answer (perhaps it was newer, AFAICT it was introduced with boost 1_43_0)
    – sehe
    Nov 13, 2011 at 11:40
  • Short and sweet and full of meat! Thanks for clearing the fog. Jan 7, 2014 at 21:23
  • @3noch Speaking of "sweet", I must confess to mentally reading irange as orange. ;-) Jan 26, 2016 at 13:36
21

Boost has counting_iterator as far as I know, which seems to allow only incrementing in steps of 1. For full xrange functionality you might need to implement a similar iterator yourself.

All in all it could look like this (edit: added an iterator for the third overload of xrange, to play around with boost's iterator facade):

#include <iostream>
#include <boost/iterator/counting_iterator.hpp>
#include <boost/range/iterator_range.hpp>
#include <boost/foreach.hpp>
#include <boost/iterator/iterator_facade.hpp>
#include <cassert>

template <class T>
boost::iterator_range<boost::counting_iterator<T> > xrange(T to)
{
    //these assertions are somewhat problematic:
    //might produce warnings, if T is unsigned
    assert(T() <= to);
    return boost::make_iterator_range(boost::counting_iterator<T>(0), boost::counting_iterator<T>(to));
}

template <class T>
boost::iterator_range<boost::counting_iterator<T> > xrange(T from, T to)
{
    assert(from <= to);
    return boost::make_iterator_range(boost::counting_iterator<T>(from), boost::counting_iterator<T>(to));
}

//iterator that can do increments in steps (positive and negative)
template <class T>
class xrange_iterator:
    public boost::iterator_facade<xrange_iterator<T>, const T, std::forward_iterator_tag>
{
    T value, incr;
public:
    xrange_iterator(T value, T incr = T()): value(value), incr(incr) {}
private:
    friend class boost::iterator_core_access;
    void increment() { value += incr; }
    bool equal(const xrange_iterator& other) const
    {
        //this is probably somewhat problematic, assuming that the "end iterator"
        //is always the right-hand value?
        return (incr >= 0 && value >= other.value) || (incr < 0 && value <= other.value);
    }
    const T& dereference() const { return value; }
};

template <class T>
boost::iterator_range<xrange_iterator<T> > xrange(T from, T to, T increment)
{
    assert((increment >= T() && from <= to) || (increment < T() && from >= to));
    return boost::make_iterator_range(xrange_iterator<T>(from, increment), xrange_iterator<T>(to));
}

int main()
{
    BOOST_FOREACH(int i, xrange(10)) {
        std::cout << i << ' ';
    }
    BOOST_FOREACH(int i, xrange(10, 20)) {
        std::cout << i << ' ';
    }
    std::cout << '\n';
    BOOST_FOREACH(int i, xrange(0, 46, 5)) {
        std::cout << i << ' ';
    }
    BOOST_FOREACH(int i, xrange(10, 0, -1)) {
        std::cout << i << ' ';
    }
}

As others are saying, I don't see this buying you much over a normal for loop.

4

C++ 20's ranges header has iota_view which does this:

#include <ranges>
#include <vector>
#include <iostream>

int main()
{
    for (int i : std::views::iota{1, 10})
        std::cout << i << ' ';

    std::cout << '\n';

    for (int i : std::views::iota(1) | std::views::take(9))
        std::cout << i << ' ';
}

Output:

1 2 3 4 5 6 7 8 9
1 2 3 4 5 6 7 8 9
3

std::iota (not yet standardized) is kinda like range. Doesn't make things any shorter or clearer than an explicit for loop, though.

#include <algorithm>
#include <iostream>
#include <iterator>
#include <numeric>
#include <vector>
int main() {
    std::vector<int> nums(5);
    std::iota(nums.begin(), nums.end(), 1);
    std::copy(nums.begin(), nums.end(),
            std::ostream_iterator<int>(std::cout, " "));
    std::cout << std::endl;
    return 0;
}

Compile with g++ -std=c++0x; this prints "1 2 3 4 5 \n".

2

well, here is what i wrote, since there does not seem to be one. the generator does not use any internal storage besides single integer. range object can be passed around and used in nested loops.

there is a small test case.

#include "iostream"
#include "foreach.hpp"

#include "boost/iterator/iterator_categories.hpp"

struct range {

  struct iterator_type {
    typedef int value_type;
    typedef int difference_type;
    typedef boost::single_pass_traversal_tag iterator_category;
    typedef const value_type* pointer;
    typedef const value_type & reference;

    mutable value_type value;
    const difference_type increment;

    iterator_type(value_type value, difference_type increment = 0)
      : value(value), increment(increment) {}

    bool operator==(const iterator_type &rhs) const {
      return value >= rhs.value;
    }
    value_type operator++() const { return value += increment; }
    operator pointer() const { return &value; }
  };

  typedef iterator_type iterator;
  typedef const iterator_type const_iterator;

  int first_, last_, increment_;

  range(int last) : first_(0), last_(last), increment_(1) {}
  range(int first, int last, int increment = 1)
    : first_(first), last_(last), increment_(increment) {}

  iterator begin() const {return iterator(first_, increment_);}
  iterator end() const {return iterator(last_);}
};

int test(const range & range0, const range & range1){
  foreach(int i, range0) {
    foreach(int j, range1) {
      std::cout << i << " " << j << "\n";
    }
  }
}

int main() {
  test(range(6), range(3, 10, 3));
}
1
  • how is foreach implemented? And I assume that the ??'s were meant to be <<, right?
    – jalf
    Dec 31, 2009 at 0:41
1

my main reason for wanting to do so is because i use speech to text software, and programming loop usual way is difficult, even if using code completion. It is much more efficient to have pronounceable constructs.

That makes sense. But couldn't a simple macro solve this problem? #define for_i_to(N, body) for (int i = 0; i < N; ++i) { body }

or something similar. Or avoid the loop entirely and use the standard library algorithms. (std::for_each(range.begin(), rang.end(), myfunctor()) seems easier to pronounce)

many loops start with zero and increment by one, which is default for range. I find python construct more intuitive

You're wrong. The Python version is more intuitive to a Python programmer. And it may be more intuitive to a non-programmer. But you're writing C++ code. Your goal should be to make it intuitive to a C++ programmer. And C++ programmer know for-loops and they know the standard library algorithms. Stick to using those. (Or stick to writing Python)

functions which need to take range as argument:

Function(int start, int and, int inc);
function(xrange r);

Or the idiomatic C++ version:

template <typename iter_type>
void function(iter_type first, iter_type last);

In C++, ranges are represented by iterator pairs. Not integers. If you're going to write code in a new language, respect the conventions of that language. Even if it means you have to adapt and change some habits.

If you're not willing to do that, stick with the language you know.

Trying to turn language X into language Y is always the wrong thing to do. It own't work, and it'll confuse the language X programmers who are going to maintain (or just read) your code.

1
  • Actually, I think the original author of the STL (Alexander Stephanov) disagrees with the statement that there should only be semi-open ranges. In some algorithms, counted ranges are just useful to have. See his A9 lecture series on YouTube for plenty of examples. They did not actually ended up in the first stl standard, but there were many in the original draft (and also _back variants). In C++/11 and later, a few of them returned.
    – André
    May 13, 2015 at 13:45
1

Since I've started to use BOOST_FOREACH for all my iteration (probably a misguided idea, but that's another story), here's another use for aaa's range class:

std::vector<int> vec;
// ... fill the vector ...
BOOST_FOREACH(size_t idx, make_range(0, vec.size()))
{
  // ... do some stuff ...
}

(yes, range should be templatized so I can use user-defined integral types with it)

And here's make_range():

template<typename T>
range<T> make_range(T const & start, T const & end)
{
  return range<T>(start, end);
}

See also:

http://groups.google.com/group/boost-list/browse_thread/thread/3e11117be9639bd

and:

https://svn.boost.org/trac/boost/ticket/3469

which propose similar solutions.

And I've just found boost::integer_range; with the above example, the code would look like:

using namespace boost;
std::vector<int> vec;
// ... fill the vector ...
BOOST_FOREACH(size_t idx, make_integer_range(0, vec.size()))
{
  // ... do some stuff ...
}
1
  • +1 only for make_integer_range, which answers the question :) adding link
    – sehe
    Aug 31, 2011 at 10:30
0

Since we don't really know what you actually want to use this for, I'm assuming your test case is representative. And then plain simple for loops are a whole lot simpler and more readable:

int main() {
  for (int i = 0; i <= 6; ++i){
    for (int j = 3; j <= 10; j += 3){
      std::cout << i << " " << j << "\n";
    }
  }
}

A C++ programmer can walk in from the street and understand this function without having to look up complex classes elsewhere. And it's 5 lines instead of your 60. Of course if you have 400 loops exactly like these, then yes, you'd save some effort by using your range object. Or you could just wrap these two loops inside a helper function, and call that whenever you needed.

We don't really have enough information to say what's wrong with simple for loops, or what would be a suitable replacement. The loops here solve your problem with far less complexity and far fewer lines of code than your sample implementation. If this is a bad solution, tell us your requirements (as in what problem you need to solve, rather than "I want python-style loops in C++")

0
-1

Keep it simple, make a stupid macro;

#define for_range(VARNAME, START, STOP, INCREMENT) \
for(int VARNAME = START, int STOP_ = STOP, INCREMENT_ = INCREMENT; VARNAME != STOP_; VARNAME += INCREMENT_)

and use as;

for_range(i, 10, 5, -1)
  cout << i << endl;
-2

You're trying to bring a python idiom into C++. That's unncessary. Use

for(int i=initVal;i<range;i+=increment) 
{ 
    /*loop body*/
}

to achieve this. In Python, the for(i in xrange(init, rng, increment)) form is necessary because Python doesn't provide a simple for loop, only a for-each type construct. So you can iterate only over a sequence or a generator. This is simply unnecessary and almost certainly bad practice in a language that provides a for(;;) syntax.

EDIT: As a completely non-recommended aside, the closest I can get to the for i xrange(first, last, inc) syntax in C++ is:

#include <cstdio>

using namespace std;

int xrange(unsigned int last, unsigned int first=0, unsigned int inc=1)
{
    static int i = first;
    return (i<last)?i+=inc:i=0;
}

int main()
{
    while(int i=xrange(10, 0, 1))
        printf("in loop at i=%d\n",i);
}

Not that while this loops the correct number of times, i varies from first+inc to last and NOT first to last-inc as in Python. Also, the function can only work reliably with unsigned values, as when i==0, the while loop will exit. Do not use this function. I only added this code here to demonstrate that something of the sort is indeed possible. There are also several other caveats and gotchas (the code won't really work for first!=0 on subsequent function calls, for example)

4
  • 2
    ew... global static local variables
    – sehe
    Aug 31, 2011 at 9:54
  • @sehe: yes, it's extremely "ew..." ;) Aug 31, 2011 at 10:20
  • @ChinmayKanchi:I think you're essentially suggesting that boost range adaptors are unnecessary. Dec 25, 2012 at 14:52
  • You successfully vilified this approach in C++, but it can be easily done without a static (e.g. iterators). Jan 7, 2014 at 21:22

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