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Are there open source C++ libraries that are similar or equivalent to the excellent Functional Java library?

Specific features would include:

  • map, fold/reduce, filter, etc on iterables or the like
  • option type
  • immutable data-structure implementations

(asked out of curiosity, having been away from C++ for some years)

Yes, some of these features have traditionally been thought to require garbage collection. But with modern C++ features and libraries, has anyone started passing managed pointers through the functional transformations or something?

UPDATE To be clear, I'm wondering the there's something similar to Functional Java, so that the following might be typical syntax:

// assumptions:
//   * my_list is a standard library iterable of ints
//   * f is a function of int that returns a std::string
//   * p is a predicate of std::string returning bool
//   * head_opt returns an option type

This is the idiom that Functional Java offers, and believe me it's really easy to get accustomed to it...

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C++ has a garbage collector, by the way. Not part of the standard, though. –  user405725 Feb 24 '12 at 23:49
The C++ standard library has functions which are essentially map and fold. They're just called std::transform and std::accumulate. Boost has an option type. I'm not sure what you mean by "managed pointers" though –  jalf Feb 24 '12 at 23:51
@Vlad Lazarenko: Yes, you've proved my point: "C++ implementations are capable of having a garbage collector". But C++ programs typically don't use garbage collectors. –  In silico Feb 25 '12 at 0:28
@ms-ati: yes? once again, the standard library has map/fold functions (and I suppose std::copy_if is basically filter). The syntax is different, but that's what the functions do –  jalf Feb 25 '12 at 1:02
@ms-tg: Your problem is your use of the word "similar". Because you don't mean "similar"; Xeo gave you something "similar". You mean "exact same semantics." That's different from "similar". You want something that offers functional semantics, not merely functional constructs. –  Nicol Bolas Feb 27 '12 at 16:37

3 Answers 3

up vote 7 down vote accepted

As @jalf said, map and fold are already in the standard, hidden behind different names:

  • map -> std::transform, found in header <algorithm>
  • fold -> std::accumulate, found in header <numeric>

Many more functional stuff can be found in Boost.Range, which is a pretty awesome library. Especially the range adaptors give a real functional feeling, as they create views over other ranges. With C++11, possible predicates are also easily created on-the-fly through lambdas.

Boost.Optional might be your "option type", depending on what exactly you mean with that.

Immutability in C++ can be achieved by simply declaring your object const. You can avoid copies using by-reference argument passing. Truth be told, this is of course no real equivalent to true functional immutability, since immutable containers in functional languages can be copied however your want and usually just share the internal representation. After all, copy-on-write is awesome if you never write.

On your managed pointers, I got no idea what you mean by them. In C++, you usually don't need pointers or dynamically allocated objects at all. Just create them "on the stack": Foo obj;.

If you mean shared ownership, there's std::shared_ptr. There even is a nice range adaptor if you store such a pointer in a container:

#include <boost/range/adaptor/indirected.hpp>
#include <boost/range/algorithm/generate.hpp>
#include <boost/range/algorithm/copy.hpp>
#include <vector>
#include <memory>
#include <algorithm>
#include <iterator>
#include <iostream>

int main(){
  std::vector<std::shared_ptr<int>> v(5);
  int i = 0;
  boost::generate(v, [&i]{ return std::make_shared<int>(i++); });
  boost::copy(v | boost::adaptors::indirected,

Your specific example

my_list.map(f).filter(p).head_opt.get_or_else("not found")

might be implemented like this (note that std::vector is the default container in C++):

// Warning, C++11 only!
// Boost.Range doesn't like lambdas without this:

#include <vector>
#include <string>
#include <iterator>
#include <iostream>
#include <boost/optional.hpp>
#include <boost/range/adaptor/filtered.hpp>
#include <boost/range/adaptor/transformed.hpp>
#include <boost/range/algorithm/generate.hpp> // only needed for filling the vector
#include <boost/range/algorithm/copy.hpp> // only needed for printing

// we need a little helper for the optional stuff
struct head_opt_gen{} head_opt; // just a tag type

template<class Range>
auto operator|(Range const& r, head_opt_gen)
  -> boost::optional<decltype(r.front())>
    return boost::none;
  return r.front();

int main(){
  using namespace boost::adaptors;
  std::vector<int> v(5);
  int i = 0;
  boost::generate(v, [&]()->int{ ++i; return i*i; });
  // first, without the optional stuff
  boost::copy(v | transformed([](int x){ return std::to_string(x); })
                | filtered([](std::string const& s){ return s.size() > 1; }),
      std::ostream_iterator<std::string>(std::cout, "\n"));
  std::cout << "=====================\n";
  // now with
  std::cout << boost::get_optional_value_or(
      v | transformed([](int x){ return std::to_string(x); })
        | filtered([](std::string const& s){ return s.size() > 2; }) // note: > 2
        | head_opt, "none");

Compiled with Clang 3.1 Trunk, this results in the following output:

share|improve this answer
@ms-tg: I'm sorry, but we answer questions to the best of our ability. If you are not satisfied with our answers, then the logical conclusion is that your question should be improved, and not "everyone who took the time to try and answer my question should intead learn 4 new languages, and then write me an answer –  jalf Feb 27 '12 at 15:07
Finally, apart from that ,I do know some functional languages. As you say, I know what map/reduce are, and yes, in my comments I hinted at how to do the same in an imperative style, because as I read the question, that was the best advice I could think of. The bottom line is that *C++ is not a functional language. It can be approximated, and @Xeo has shown *one such possible approximation. If you want a different approximation, then write a better question, which specifies exactly what the answer should provide. "Something like this other language/library" is extremely vague. –  jalf Feb 27 '12 at 15:08
@ms-tg: You did specify the interface, and Xeo gave you a pretty good approximation of that interface. No, it's not word-for-word identical. But it's more or less what you asked to be able to do. –  Nicol Bolas Feb 27 '12 at 16:29
@ms-tg: As far as I can see, boost::optional is exactly what is described in that Wikipedia "Option type" article. It contains either nothing or one value and get_optional_value_or is exactly your get_or_else. Also, I have to admit that I only looked at functional languages from afar, but what exactly do you mean with "imperative style"? The filling of the vector? Please give a specific example. –  Xeo Feb 27 '12 at 16:55
@ms-tg: Here's a 1:1 translation from the Optional bind example to C++. Note that I needed to write the "bind"(bad name, apply would be better) and print function myself, since boost::optional doesn't provide those out of the box. However, I don't even need to specify what exactly I want to print. :P Note that you could theoretically "range-ify" the boost::optional and just use the Boost.Range adaptors on a 1 element range, which saves you from writing transform/filter/etc yourself. –  Xeo Feb 27 '12 at 18:13

I don't think there are any libraries that explicitly feature immutable data structures. Though nobody's stopping you from simply not changing data structures outside of certain contexts.

But you can build some of what you want out of Boost.Range. It has powerful range-based constructs, filtering, and so forth. You'll have to deal with the memory management yourself, though.

Your question seems to be, "Is there a library in C++ that exactly implements the behavior of strict functional programming constructs?" The answer is no. To my knowledge, there is no C++ library that has as its fundamental purpose to explicitly and directly implement strict functional programming constructs. C++ is ultimately not a functional language.

There are many approximations of various functional constructs. But there is no library that implements them exactly according to the rules of strict functional programming.

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I think you misunderstand what an immutable data structure is. They are generally able to keep their history. For instance, adding a node to an immutable red/black tree would only update log(n) nodes, and any reference to the old tree would make that invisible. –  Joel Feb 25 '12 at 1:00
@Joel: Err... adding to an immutable tree? That sounds so wrong, I think you should clarify... Also, there is no "updating" when something is not changeable at all, aka exactly what immutability means. –  Xeo Feb 25 '12 at 1:34
Calling an add function from an immutable tree. I felt that to be somewhat pedantic, so didn't spell it out. Just as Java has a + operator on their immutable strings. The point is that although a new tree appears to be returned, in reality that's rarely the case. Most of the tree is reused. –  Joel Feb 25 '12 at 1:46
@Xeo Please see this link for an explanation of persistant immutable data structures in Scala -- it's a common feature in functional languages: stackoverflow.com/questions/3107151/… –  ms-tg Feb 27 '12 at 14:53
@ms-tg: See my edit. –  Nicol Bolas Feb 27 '12 at 16:33

FC++ appears to be an older library (2001-era, last modified in 2007 on SourceForge) offering some functional programming features in C++.

Hmmm, FC++ was submitted as a potential Boost library in 2003?

Elsewhere on StackOverflow, the primary original developer of FC++ indicated that modern C++ and Boost have superceded some of FC++'s use cases, but that others are still not available in a modern C++ library?

It also appears that someone got as far as writing a README for a github project that describes essentially exactly what I was asking for, but doesn't appear to have gotten any further with the project.

Hope this helps someone...

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