37

Hi I want to (multiply,add,etc) vector by scalar value for example myv1 * 3 , I know I can do a function with a forloop , but is there a way of doing this using STL function? Something like the {Algorithm.h :: transform function }?

82

Yes, using std::transform:

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

Before C++17 you could use std::bind1st(), which was deprecated in C++11.

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

For the placeholders;

#include <functional> 
  • 2
    std::bind1st is depreciated since C++11. – Knowledge Apr 2 '18 at 6:42
  • 3
    There is a small typo mistake, it should be std::placeholders::_1. With a "s" at the end. – Crapsy Jun 7 '18 at 20:32
  • Any illumination on what std::bind() is doing in the first example? – wcochran Jan 8 '19 at 23:41
  • 2
    Is this expected to be faster than a loop? – Cyrillm_44 Jul 25 '19 at 2:22
24

If you can use a valarray instead of a vector, it has builtin operators for doing a scalar multiplication.

v *= 3;

If you have to use a vector, you can indeed use transform to do the job:

transform(v.begin(), v.end(), v.begin(), _1 * 3);

(assuming you have something similar to Boost.Lambda that allows you to easily create anonymous function objects like _1 * 3 :-P)

  • 1
    Valarrays are the correct solution IMO. With luck, your implementation uses SSE instructions to implement the procedure, making it significantly faster. See pixelglow.com/macstl/valarray for one such implementation of valarray. Unfortunately, its not very widespread, so if you want the advantages of SSE instructions you'll probably have to use compiler intrinsics... – Dragontamer5788 Oct 7 '10 at 19:25
  • @Dragon: valarray is the best STL solution, but it's not very good for high-performance computing because it tends to copy data in memory a lot, and produces sequences of small loops containing single operations which have poor memory access patterns. It is easier to upgrade from valarray to a proper expression template system, though. – Potatoswatter Oct 7 '10 at 19:38
10

Mordern C++ solution for your question.

std::vector<double> myarray;
double myconstant{3.3};
std::transform(myarray.begin(), myarray.end(), myarray.begin(), [&myconstant](auto& c){return c*myconstant;});
  • 1
    lambda for the win !! – Karma Jan 20 '19 at 18:56
  • I'd make it simpler just an empty capture lambda, and get ride of the const object. After all, this id supposed to be a Kickstarter. – Red.Wave Jan 20 '19 at 19:05
-1

I know this not STL as you want, but it is something you can adapt as different needs arise.

Below is a template you can use to calculate; 'func' would be the function you want to do: multiply, add, and so on; 'parm' is the second parameter to the 'func'. You can easily extend this to take different func's with more parms of varied types.

template<typename _ITStart, typename _ITEnd, typename _Func , typename _Value >
_ITStart xform(_ITStart its, _ITEnd ite, _Func func, _Value parm)
{
    while (its != ite) { *its = func(*its, parm); its++; }
    return its;
}
...

int mul(int a, int b) { return a*b; }

vector< int > v;

xform(v.begin(), v.end(), mul, 3); /* will multiply each element of v by 3 */

Also, this is not a 'safe' function, you must do type/value-checking etc. before you use it.

  • This works, but is essentially reinventing the wheel, as std::transform already does this for you. – Oliver Charlesworth Oct 7 '10 at 20:58
  • Yes - saw in the accepted answer ... but do you realize what pleasure it is to reinvent a wheel that actually works ;) Anyway I'll shoot myself the day I become a conformist ;) – slashmais Oct 7 '10 at 21:03
-1

I think for_each is very apt when you want to traverse a vector and manipulate each element according to some pattern, in this case a simple lambda would suffice:

std::for_each(myv1.begin(), mtv1.end(), [](int &el){el *= 3; });

note that any variable you want to capture for the lambda function to use (say that you e.g. wanted to multiply with some predetermined scalar), goes into the bracket as a reference.

  • 3
    This is not the purpose of std::for_each. std::for_each applies some (probably stateful) function object to a range and then returns this function object. If you want to transform a range use std::transform to make your intent more clear. – sv90 Jan 3 '18 at 11:54

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