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I have several threads which all run the same function. In each of these they generate a different random number several times. We tried to do this by putting srand(time(0)) at the start of the function, but it seems that they all get the same number.

Do we need to call srand(time(0)) only once per program, i.e at the start of main (for example), at the start of each function that is called several times, or something else?

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You are probably better off with the new random number generators coming in C++0x. What compiler are you using? –  FredOverflow May 28 '11 at 11:37
What OS are you using windows/linux ?? –  obounaim May 28 '11 at 11:45
if all the treads use the same srand() you will get the same random numbers –  obounaim May 28 '11 at 11:46
Don't call rand() from multiple threads. Use the random number generators in C++0x. These are also available in Boost. –  user763305 May 28 '11 at 13:18

8 Answers 8

up vote 19 down vote accepted

srand() seeds the random number generator. You should only have to call srand(time(NULL)) once during startup.

That said, the documentation states:

The function rand() is not reentrant or thread-safe, since it uses hidden state that is modified on each call. This might just be the seed value to be used by the next call, or it might be something more elaborate. In order to get reproducible behaviour in a threaded application, this state must be made explicit. The function rand_r() is supplied with a pointer to an unsigned int, to be used as state. This is a very small amount of state, so this function will be a weak pseudo-random generator. Try drand48_r(3) instead.

The emphasized part of the above is probably the reason why all your threads get the same number.

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If you are launching the threads all at the same time, the time sent to srand is probably the same for each thread. Since they all have the same seed, they all return the same sequence. Try using something else like a memory address from a local variable.

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As you are using C++, rather than C, you may be able to avoid the threading problems often associated with srand/rand by using c++11. This depends on using a recent compiler which supports these features. You would use a separate engine and distribution on each thread. The example acts like a dice.

#include <random>
#include <functional>

std::uniform_int_distribution<int> dice_distribution(1, 6);
std::mt19937 random_number_engine; // pseudorandom number generator
auto dice_roller = std::bind(dice_distribution, random_number_engine);
int random_roll = dice_roller();  // Generate one of the integers 1,2,3,4,5,6.

I referred to Wikipedia C++11 and Boost random when answering this question.

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C was not designed for multithreading, so behavior of srand() with multithreading is not defined and depends on the C runtime library.

Many Unix/Linux C runtime libraries use single static state, which is not safe to access from multiple threads, so with these C runtimes you can't use srand() and rand() from multiple threads at all. Other Unix C runtimes may behave differently.

Visual C++ runtime uses per-thread internal state, so it is safe to call srand() for each thread. But as Neil pointed out, you will likely seed all threads with same value - so seed with (time + thread-id) instead.

Of course, for portability, use Random objects rather than rand function, and then you would not depend on hidden state at all. You still need one object per thread, and seeding each object with (time + thread-id) is still a good idea.

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They all get the same number because you presumably start all the threads at the same time, or they are all using the same static seed, in which case you are a bit stuffed. You need a better source of entropy than time(). However, a quick hack would be to seed with (time * thread-id) where thread-id is the id of each worker thread.

Fo course, the correct solution in C++ is is not to use random number generator functions, but to use random number generator objects, like those provided by the Boost random number library, which by their very nature (because they are stack based) are thread-safe. See this answer I prepared earlier for an example. However, there may still be a problem providing sufficient entropy in an MT program, as using time() will still have the problem I mentioned above.

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that's not sufficient given that rand is not thread-safe (has static internal data) as pointed out in other responses. –  Mat May 28 '11 at 11:32
@Mat You mean like I said in my first sentence? And there is nothing in the C++ Standard that says that rand is not thread safe. –  nbt May 28 '11 at 11:39
@Neil: yes, which means your quick hack doesn't work, and having a different entropy source than time wouldn't work either as long as rand is used. –  Mat May 28 '11 at 11:42
@Mat Hence my use of the expression "you are a bit stuffed". Please take the trouble to read what I actually wrote. –  nbt May 28 '11 at 11:45
@Neil: I understand what you wrote. I'm just pointing out that your answer as it is doesn't solve the issue reported by Ilya Melamed. Which is a shame IMO because you'd simply need to point out the use of rand_r and your answer would be applicable. [OT: regarding "a bit stuffed" - I'm not a native English speaker and only knew of "to be stuffed" as meaning "to have eaten too much", so I did not originally see how that fit in there.] –  Mat May 28 '11 at 11:52

If you are using linux try taking some data from the file /dev/random for every thread


sorry for my english

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That's a good question. I can't directly answer it because I think there are bigger issues. It doesn't even seem to be clear that rand is thread safe at all anyway. It maintains internals state and it doesn't seem to be well defined if that's per process or per thread, and if it's per process if it's thread safe.

To be sure I would lock a mutex around each access.

Or preferably use a better defined generate such as one from boost

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From the rand man page:

The function rand() is not reentrant or thread-safe, since it uses hidden state that is modified on each call.

So don't use it with threaded code. Use rand_r (or drand48_r if you're on linux/glibc). Seed each RNG with a different value (you could seed a first RNG in the main thread to produce random seeds for the ones in each thread).

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