Coming back to C++ after years of C# I was wondering what the modern - read: C++11 - way of filtering an array would be, i.e. how can we achieve something similar to this Linq query:

var filteredElements = elements.Where(elm => elm.filterProperty == true);

In order to filter a vector of elements (strings for the sake of this question)?

I sincerely hope the old STL style algorithms (or even extensions like boost::filter_iterator) requiring explicit methods to be defined are superseded by now?

  • Does this retrieve all elements that have filterProperty set to true? – Joseph Mansfield Jan 18 '14 at 13:24
  • Sorry, yes. Some generic filter criterion.. – ATV Jan 18 '14 at 13:26
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    There are also some libraries which try to emulate the LINQ methods of .NET: Linq++ and cpplinq. I haven't worked with them but my guess would be that they support STL containers. – Dirk Jan 18 '14 at 13:33
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    You should be more clear about what you want, as the set of people competent at both C++ and C# is small. Describe what you want it to do. – Yakk - Adam Nevraumont Jan 18 '14 at 17:08

See the example from cplusplus.com for std::copy_if:

std::vector<int> foo = {25,15,5,-5,-15};
std::vector<int> bar;

// copy only positive numbers:
std::copy_if (foo.begin(), foo.end(), std::back_inserter(bar), [](int i){return i>=0;} );

std::copy_if evaluates the lambda expression for every element in foo here and if it returns true it copies the value to bar.

The std::back_inserter allows us to actually insert new elements at the end of bar (using push_back()) with an iterator without having to resize it to the required size first.

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    Is this really the closest to LINQ that C++ has to offer? This is eager (IOW not lazy), and very verbose. – usr Jan 18 '14 at 15:27
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    @usr Its IMO syntactic sugar, a simple for loop does the job aswell (and often allows one to avoid copying). – Sebastian Hoffmann Jan 18 '14 at 15:47
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    The OPs example does not use any LINQ syntactic sugar. The benefits are lazy evaluation and composability. – usr Jan 18 '14 at 17:33
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    @usr Which can still be achieved by a simple for-loop easily, std::copy_if is not more than a for-loop – Sebastian Hoffmann Jan 18 '14 at 22:48
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    @Paranaix Everything can be said to be just syntactic sugar over assembly. The point is, not to write for loops, when an algorithm can be clearly composed in a readable way using primitive operations (like filter). Many languages offer such feature - in C++ unfortunately it's still kludgy. – BartoszKP Nov 20 '14 at 20:55

A more efficient approach, if you don't actually need a new copy of the list, is remove_if, which actually removes the elements from the original container.

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    @ATV I like remove_if in particular because it's the way to use filter in the presence of mutation, which is faster than copying a whole new list. If I was doing filter in C++, I'd use this over copy_if, so I think it adds. – djhaskin987 Jan 16 '16 at 14:56
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    For vector, at least, remove_if doesn't change the size(). You'll need to chain it with erase for that. – rampion Aug 28 '17 at 13:21
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    @rampion Yeah.. erase/remove. Another beauty that frequently makes me feel like I'm punching holes in a tape when working in C++ (as opposed to modern languages) these days ;-) – ATV Oct 22 '17 at 15:08

I think Boost.Range deserves a mention too. The resulting code is pretty close to the original:

#include <boost/range/adaptors.hpp>

// ...

using boost::adaptors::filtered;
auto filteredElements = elements | filtered([](decltype(elements)::value_type const& elm)
    { return elm.filterProperty == true; });

The only downside is having to explicitly declare the lambda's parameter type. I used decltype(elements)::value_type because it avoids having to spell out the exact type, and also adds a grain of genericity. Alternatively, with C++14's polymorphic lambdas, the type could be simply specified as auto:

auto filteredElements = elements | filtered([](auto const& elm)
    { return elm.filterProperty == true; });

filteredElements would be a range, suitable for traversal, but it's basically a view of the original container. If what you need is another container filled with copies of the elements satisfying the criteria (so that it's independent from the lifetime of the original container), it could look like:

using std::back_inserter; using boost::copy; using boost::adaptors::filtered;
decltype(elements) filteredElements;
copy(elements | filtered([](decltype(elements)::value_type const& elm)
    { return elm.filterProperty == true; }), back_inserter(filteredElements));

In C++20, use filter view from the ranges library:

vec | view::filter([](int a){ return a % 2 == 0; })

lazily returns the even elements in vec.

(See [range.adaptor.object]/4 and [range.filter])


My suggestion for C++ equivalent of C#

var filteredElements = elements.Where(elm => elm.filterProperty == true);

Define a template function to which you pass a lambda predicate to do the filtering. The template function returns the filtered result. eg:

template<typename T>
vector<T> select_T(vector<T> inVec, function<bool(const T&)> predicate)
  vector<T> result;
  copy_if(inVec.begin(), inVec.end(), back_inserter(result), predicate);
  return result;

to use - giving a trivial examples:

std::vector<int> mVec = {1,4,7,8,9,0};

// filter out values > 5
auto gtFive = select_T<int>(mVec, [](auto a) {return (a > 5); });

// or > target
int target = 5;
auto gt = select_T<int>(mVec, [target](auto a) {return (a > target); });

Improved pjm code following underscore-d suggestions:

template <typename Cont, typename Pred>
Cont filter(const Cont &container, Pred predicate) {
    Cont result;
    std::copy_if(container.begin(), container.end(), std::back_inserter(result), predicate);
    return result;


std::vector<int> myVec = {1,4,7,8,9,0};

auto filteredVec = filter(myVec, [](int a) { return a > 5; });

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