8

I can find no mention of a transform_n function in draft N4431 of the C++ standard.

Is this intentional? If not, how would one go about suggesting this for a future version of the standard?

Here is how I would implement it:

    template<typename _InputIterator, typename Size, typename _OutputIterator, typename _UnaryOperation>
_OutputIterator transform_n(_InputIterator __first, Size __n, _OutputIterator __result, _UnaryOperation __op) {
    for(Size i=0;i<__n;++i)
        *__result++ = __op(*__first++);
    return __result;
}


template<typename _InputIterator1, typename Size, typename _InputIterator2, typename _OutputIterator, typename _BinaryOperation>
_OutputIterator transform_n(_InputIterator1 __first1, Size __n, _InputIterator2 __first2, _OutputIterator __result, _BinaryOperation __binary_op) {
    for(Size i=0;i<__n;++i)
        *__result++ = __binary_op(*__first1++, *__first2++);
    return __result;
}
9
  • See isocpp.org/std/submit-a-proposal. Be sure to come up with some compelling use cases.
    – chris
    May 28, 2015 at 3:24
  • @TonyD: it's not just that it saves you an advance, since you can't pass through the same input iterator twice. But you could use std::generate_n with a lambda.
    – rici
    May 28, 2015 at 3:39
  • 5
    I would be more interested in encoding this in the iterators (or ranges) themselves, rather than having a _n version for every algorithm. For example, Eric Niebler's range library, which has the take(N) adaptor which takes the first N elements of a range. May 28, 2015 at 3:40
  • @rici: std::generate_n has mandatory in-order invocations of the generator, whereas std::transform can happen in any order, so a generate_n approach might be at a performance cost in some situations. May 28, 2015 at 3:49
  • @rici although generate_n uses a generator, so you'd have to capture the original range's iterators in the generator.
    – vsoftco
    May 28, 2015 at 3:50

1 Answer 1

4

Here's another possible implementation, which shows that there is already a library function with equivalent functionality:

template<typename _InputIterator,
         typename _OutputIterator,
         typename _UnaryOperation>
_OutputIterator transform_n(_InputIterator __first,
                            size_t __n,
                            _OutputIterator __result,
                            _UnaryOperation __op) {
      return std::generate_n(__result, __n,
                             [&__first, &__op]() -> decltype(auto) {
                                return __op(*__first++);
                             });
}

As @TonyD mentions in a comment, this has the effect of forcing the transformation to happen in order, but that would already be the case if the input iterator argument is really just an input iterator.

Edit: As per the suggestion by @T.C., I changed the lambda to have a return type of decltype(auto), which (if I understand correctly) could allow move semantics through the output iterator. That requires a recent compiler, since it's a C++14 feature.

3
  • 1
    The lambda should return decltype(auto).
    – T.C.
    May 28, 2015 at 4:05
  • @T.C.: OK. I also made it (correctly, I think) pass through the return value from generate_n.
    – rici
    May 28, 2015 at 4:31
  • 1
    The point of decltype(auto) is to make the lambda return exactly what the call to __op returns. If the call returns a reference to something, you don't want to make a copy - said something might not even be copyable! The C++11 equivalent is -> decltype(/* the expression returned */). TBH, getting the lambda right is sufficiently tricky that I can see an argument for a library solution.
    – T.C.
    May 28, 2015 at 6:22

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.