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The function std::shuffle has been introduced in C++11:

template< class RandomIt, class URNG >
void shuffle( RandomIt first, RandomIt last, URNG&& g );

and it has the same signature as one of the overloads of std::random_shuffle which was also introduced in C++11:

template< class RandomIt, class RandomFunc >
void random_shuffle( RandomIt first, RandomIt last, RandomFunc&& r );

The difference is in the third parameter where:

URNG must meet the requirements of UniformRandomNumberGenerator

Is this all? Is the difference just that shuffle performs an extra compile time check? Is the behavior otherwise the same?

share|improve this question
Btw, in the standard "X must meet the requirements of Y" doesn't mean that the implementation checks it. It means that behavior is undefined if X fails to meet the requirements of Y. In any template code there will be some compile-time checking, but usually only of the parts of interface Y that the implementation actually uses. – Steve Jessop Oct 7 '13 at 8:29
up vote 10 down vote accepted

If you read the documentation at cppreference.com closely, you will find that the RandomFunc passed to random_shuffle has a different interface. It is invoked as r(n). This existed before C++11.

std::shuffle uses a standardized way of getting random numbers and invokes g(). This standardized random number generators where introduced with C++11 together with std::shuffle.

share|improve this answer
+1, and <random> was a long-time-coming and I'm thoroughly glad it did. I was in the process of writing this up,sample code and all, but your brief covered it nicely. Note: r(n) returns a number between 0 and (n-1). – WhozCraig Oct 7 '13 at 8:19

std::random_shuffle uses std::rand() function to randomize the items, while the std::shuffle uses urng which is a better random generator, though with the particular overload of std::random_shuffle, you can get the same behavior (as with the std::shuffle) but that requires you to do some work to pass the third argument.

Watch this talk by Stephan T. Lavavej, in which he explains why std::rand is a bad function and what C++ programmers should use instead:

The gist is, std::shuffle is an improvement over std::random_shuffle, and C++ programmers should prefer using the former.

share|improve this answer
@MartinDrozdik It can (and the default does). – WhozCraig Oct 7 '13 at 8:18
@Grizzly read that again. The default does. I never said the default-provider is std::rand(). I said it does use it. Regarding the overload, whether "it" (i.e. the overload) does is entirely up to the provider (you), and thus it can. – WhozCraig Oct 7 '13 at 8:21
+1 and the real gist is <random> is the absolute cats pajamas and heads-and-tails better than rand(). – WhozCraig Oct 7 '13 at 8:29
std::random_shuffle uses the random source you pass it, and some implementation defined source if you don't pass it one. It doesn't necessarily use std::rand(). And std::rand() isn't necessarily a bad function; it's just not guaranteed to be a good one. – James Kanze Oct 7 '13 at 8:42
@TemplateRex: The deprecation of rand() was discussed at the Oct. 2013 meeting in Chicago. The proposal gained enough momentum to make it to the formal motions page. However it was so controversial that the motion was pulled without an official vote on it. "Will be deprecated" is something no one can say at this point. There is a possibility that it could be deprecated in C++14. However if I had to bet money one way or another, I'd put my money on it not being deprecated in C++14. – Howard Hinnant Oct 7 '13 at 15:03

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