35

How is this done in C++0x?

std::vector<double> myv1;
std::transform(myv1.begin(), myv1.end(), myv1.begin(),
               std::bind1st(std::multiplies<double>(),3));

Original question and solution is here.

8

6 Answers 6

42
std::transform(myv1.begin(), myv1.end(), myv1.begin(), 
   [](double d) -> double { return d * 3; });
3
  • 26
    -> double is unnecessary; it gets automatically deduced. Oct 7, 2010 at 19:56
  • 6
    @potato - it's supposed to, but current compilers sometimes ignore this fact. Better to just put it in all the time. Oct 7, 2010 at 21:19
  • 3
    An alternative way of that is: std::transform(myv1.begin(), myv1.end(),myv1.begin(),myv1.end(), std::bind(std::multiplies<double>(),_1,3)); Jun 2, 2016 at 15:10
32

The main original motivation for using that functional style for these cases in C++ was, "aaagh! iterator loops!", and C++0x removes that motivation with the range-based for statement. I know that part of the point of the question was to find out the lambda syntax, but I think the answer to the question "How is this done in C++0x?" is:

for(double &a : myv1) { a *= 3; }

There's no actual function object there, but if it helps you could pretend that { a *= 3; } is a highly abbreviated lambda. For usability it amounts to the same thing either way, although the draft standard defines range-based for in terms of an equivalent for loop.

4
  • Ah yah. I typically forget about that since I don't use a compiler that supports it. :( Definitely the best solution.
    – GManNickG
    Oct 7, 2010 at 20:44
  • what's the name for this construct? I am still not familiar with what's in C++0x. Oct 7, 2010 at 20:44
  • 1
    "range-based for statement", 6.5.4 in n3090. Added to the answer. Oct 7, 2010 at 20:50
  • Townsend. I think it's called 'ranged-based for-loop'. In Java this same construct is called foreach =/
    – KitsuneYMG
    Oct 7, 2010 at 20:52
28

Just do as Dario says:

for_each(begin(myv1), end(myv1), [](double& a) { a *= 3; });

for_each is allowed to modify elements, saying it cannot is a myth.

2
  • 1
    +1 because this seems a more natural fit to me in the original question Oct 7, 2010 at 20:06
  • +1 for "for_each is allowed to modify elements." I participated in a very heated debate about this years ago. Oct 7, 2010 at 20:07
8

Using a mutable approach, we can use for_each to directly update the sequence elements through references.

for_each(begin(myv1), end(myv1), [](double& a) { a *= 3; });


There has been some debate going on if for_each is actually allowed to modify elements as it's called a "non-mutating" algorithm.

What that means is for_each isn't allowed to alter the sequence it operates on (which refers to changes of the sequence structure - i.e. invalidating iterators). This doesn't mean we cannot modify the non-const elements of the vector as usual - the structure itself is left untouched by these operations.

6

Like this:

vector<double> myv1;
transform(myv1.begin(), myv1.end(), myv1.begin(), [](double v)
{
    return v*3.0;
});
1
  • 2
    To each his own, I suppose. Tho I hasten to point out that mine is the correct formatting. :) Oct 7, 2010 at 20:05
1

I'm using VS2012 which support the C++11 bind adaptor. To bind the first element of the binary function (as bind1st use to do) you need to add an _1 (placeholder argument). Need to include the functional for bind.

using namespace std::placeholders;
std::transform( myv1.begin(), myv1.end(), myv1.begin(),
                 std::bind( std::multiplies<double>(),3,_1));

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.