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I've implemented a working multithreaded merge sort in C++, but I've hit a wall.

In my implementation, I recursively split an input vector into two parts, and then thread these two parts:

void MergeSort(vector<int> *in)
{
if(in->size() < 2)
    return;

vector<int>::iterator ite = in->begin();
vector<int> left = vector<int> (ite, ite + in->size()/2);
vector<int> right = vector<int> (ite + in->size()/2, in->end() );

//current thread spawns 2 threads HERE
thread t1 = thread(MergeSort, &left);
thread t2 = thread(MergeSort, &right);

t1.join();
t2.join();

vector<int> ret;
ret.reserve(in->size() );

ret = MergeSortMerge(left, right);

in->clear();
in->insert(in->begin(), ret.begin(), ret.end() );

return;
}

The code appears to be pretty, but it's one of the most vicious codes I've ever written. Trying to sort an array of more than 1000 int values causes so many threads to spawn, that I run out of stack space, and my computer BSODs :( Consistently.

I am well aware of the reason why this code spawns so many threads, which isn't so good, but technically (if not theoretically), is this not a proper implementation?

Based on a bit of Googling, I seem to have found the need for a threadpool. Would the use of a threadpool resolve the fundamental issue I am running into, the fact that I am trying to spawn too many threads? If so, do you have any recommendations on libraries?

Thank you for the advice and help!

share|improve this question
4  
One reason to use threads is to use all the cores in your computer. In this case, there is no value in making more threads than cores. – brian beuning Jan 21 '14 at 1:46
1  
Even if this worked, it would be slow and recursively spawning threads sure sounds like a recipe for a disaster. As mentioned by Brian, one idea would be to limit threads to value of std::thread::hardware_concurrency, but even then I'm not sure this would be faster than std::sort. – user2802841 Jan 21 '14 at 1:51
    
You shouldn't be able to cause a BSOD from this... what operating system? Assuming Windows... what version? (For my own curiosity. I agree with the answers already posted.) – TypeIA Jan 21 '14 at 1:59
    
@user2802841 I completely agree that this is not the fastest implementation (flawed in design). Do you have any references to some better ones? – lululoo Jan 21 '14 at 2:22
    
@dvnrrs I am running Windows 7 Ultimate, version 6.1, SP1. That's interesting. What do you expect to happen if you were to run the above code on your Windows env? i.e. What happens when you run out of stack space (...is this what's really happening)? – lululoo Jan 21 '14 at 2:23
up vote 1 down vote accepted

As zdan explained, you shall limit the number of threads. There are two things to consider to determine what's the limit,

  1. The number of CPU cores. In C++11, you can use std::thread::hardware_concurrency() to determine the hardware cores. However, this function may return 0 meaning that the program doesn't know how many cores, in this case, you may assume this value to be 2 or 4.

  2. Limited by the number of data to be processed. You can divide the data to be processed by threads until 1 data per thread, but it will cost too much for only 1 data and it's not cost efficient. For example, you can probably say, when the number of data is smaller than 50, you don't want to divide anymore. So you can determine the maximum number of threads required based on something like total_data_number / 50 + 1.

Then, you choose a minimum number between case 1 & case 2 to determine the limit.

In your case, because you are generating thread by recursion, you can try to determine the recursion depth in similar ways.

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Ah, so I would manually set the number of recursion depths, and then let each thread work with however much data that is. Thank you for the explanation, it was very helpful. – lululoo Jan 21 '14 at 4:44

I don't think a threadpool is going to help you. Since your algorithm is recursive you'll get to a point where all threads in your pool are consumed and the pool won't want to create any more threads and your algorithm will block.

You could probably just limit your thread creation recursion depth to 2 or 3 (unless you've got a LOT of CPU's it won't make any difference in performance).

share|improve this answer
    
I see... so my design would have to take into account that I have a limited number of simultaneous threads, as I'm trying to utilize multiple threads. T_T Actually, do you know how I would go about limiting the recursion depth for this sort of computation? – lululoo Jan 21 '14 at 2:25

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