How is this done in C++0x?

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

Original question and solution is here.

std::transform(myv1.begin(), myv1.end(), myv1.begin(), 
   [](double d) -> double { return d * 3; });
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    -> double is unnecessary; it gets automatically deduced. – Potatoswatter Oct 7 '10 at 19:56
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    @potato - it's supposed to, but current compilers sometimes ignore this fact. Better to just put it in all the time. – Edward Strange Oct 7 '10 at 21:19
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    An alternative way of that is: std::transform(myv1.begin(), myv1.end(),myv1.begin(),myv1.end(), std::bind(std::multiplies<double>(),_1,3)); – Davide Spataro Jun 2 '16 at 15:10

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.

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  • Ah yah. I typically forget about that since I don't use a compiler that supports it. :( Definitely the best solution. – GManNickG Oct 7 '10 at 20:44
  • what's the name for this construct? I am still not familiar with what's in C++0x. – Steve Townsend Oct 7 '10 at 20:44
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    "range-based for statement", 6.5.4 in n3090. Added to the answer. – Steve Jessop Oct 7 '10 at 20:50
  • Townsend. I think it's called 'ranged-based for-loop'. In Java this same construct is called foreach =/ – KitsuneYMG Oct 7 '10 at 20:52

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.

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    +1 because this seems a more natural fit to me in the original question – Steve Townsend Oct 7 '10 at 20:06
  • +1 for "for_each is allowed to modify elements." I participated in a very heated debate about this years ago. – John Dibling Oct 7 '10 at 20:07

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.

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Like this:

vector<double> myv1;
transform(myv1.begin(), myv1.end(), myv1.begin(), [](double v)
    return v*3.0;
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    To each his own, I suppose. Tho I hasten to point out that mine is the correct formatting. :) – John Dibling Oct 7 '10 at 20:05

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));
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