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Is there an algorithm in the standard library that can add a value to each element of a std::vector? Something like

std::vector<double> myvec(5,0.);
std::add_constant(myvec.begin(), myvec.end(), 1.);

that adds the value 1.0 to each element?

If there isn't a nice (e.g. short, beautiful, easy to read) way to do this in STL, how about boost?

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Thanks for the quick answers - I edited the question to represent what I am actually looking for better - an easy-to-read portable way to achieve this –  Hans Dec 16 '10 at 14:08
either answer you have so far will work on any C++03-conforming compiler. I think the reason std::add_constant doesn't exist is because it's pretty easy to write your own. C++ isn't a functional language, so doing stuff like this is a little clunky. –  Michael Kristofik Dec 16 '10 at 14:20
@Kristo, true, its easy to write it yourself, but the one you write yourself isn't going to be fast. I am looking for something that is similar to BLAS functionality: An easy-to-read interface hiding a complex algorithm which might for example use multithreading or other features. –  Hans Dec 16 '10 at 14:25
it's likely to be faster than a hand-rolled for loop for large vectors, thanks to compiler inlining. To parallelize the "add 1 to every element" operation you're going to need a separate library or custom solution tuned to your hardware. Remember: make sure you profile it before you decide it's too slow. –  Michael Kristofik Dec 16 '10 at 14:33
you should look at the uBlas library in boost, boost.org/doc/libs/1_45_0/libs/numeric/ublas/doc/index.htm, maybe you'll find something useful there... –  Nim Dec 16 '10 at 14:36

5 Answers 5

up vote 22 down vote accepted

Take a look at std::for_each and std::transform. The latter accepts three iterators (the begin and end of a sequence, and the start of the output sequence) and a function object. There are a couple of ways to write this. One way, using nothing but standard stuff, is:

transform(myvec.begin(), myvec.end(), myvec.begin(),
          bind2nd(std::plus<double>(), 1.0));              

You can do it with for_each as well, but the default behavior of std::plus won't write the answer back to the original vector. In that case you have to write your own functor. Simple example follows:

struct AddVal
    double val;
    AddVal(double v) : val(v);

    void operator()(double &elem) const
        elem += v;

std::for_each(myvec.begin(), myvec.end(), AddVal(1.0));
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That's a fast one! :) I'm late, so let me just drop cplusplus.com/reference/algorithm/transform . –  Kos Dec 16 '10 at 13:56
Cool. Faster than me, too. Also as page says, faster even than OP! "asked 1 min ago", "answered 2 mins ago" –  x13n Dec 16 '10 at 13:58
:) You made the same mistake I did, only one tweak, plus<double> –  Nim Dec 16 '10 at 14:01
hej! now you just added my answer to your answer! unfair :p –  ltjax Dec 16 '10 at 14:04
BTW, that's a fun approach - drop a very vague answer with the remark "I'm going to edit and elaborate", and then give the complete answer. Reminds me of saying "First! This question is MINE! Now just give me a few minutes to answer it!" :))) –  Kos Dec 16 '10 at 14:07

Even shorter, if you use C++0x:

std::for_each(myvec.begin(), myvec.end(), [](double& d) { d+=1.0;});
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+1! This answer indeed needs attention. –  Kos Dec 16 '10 at 21:07
std::transform( myvec.begin(), myvec.end(), 
                myvec.begin(), std::bind2nd( std::plus<double>(), 1.0 ) );
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You beat me to it by 30s, I've removed my answer! :) –  Nim Dec 16 '10 at 14:01
You can also use a lambda as the functor: like []( double x ) { return x + 1.0; } if you got c++0x, or boost::bind( std::plus<double>(), _1, 1.0 ) –  ltjax Dec 16 '10 at 14:12
Fun typing saver: thanks to Koenig Lookup, you can eliminate all but the innermost std:: in your code and it'll still work. –  Michael Kristofik Dec 16 '10 at 14:15

If you're interested in performing lots of math on vectors, you might want to look into the <valarray> part of the standard library. It's basically a std::vector<> designed for vectorial numerical computations (slices, math functions, point-wise operators, etc.).

The only part that really sucks is it doesn't have easy conversions to and from std::vector<>.

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Valarray ftw! It gets way too little attention for math-related stuff. –  rubenvb Sep 24 '11 at 16:44
@rubenvb: indeed, it's one of the least known parts of the library. Unfortunately, the interface is clumsy for anything that's not math. The standard comity could have at least added iterators and a range constructor for easy conversion to/from other containers. –  André Caron Sep 24 '11 at 17:28

The shortest way in plain C++0X is :

for(double& d : myvec)
  d += 1.0;

and with boost :

for_each(myvec, _1 += 1.0); // boost.range + boost.lambda
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