# Use of threads in C++

Can you tell me how can I use threads in C++ programs, and how can I compile it as it will be multithreaded? Can you tell me some good site where I can start from root?

Thanks

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I made the edit to my answer after talking to my prof about sharing his library here. –  caglarozdag Dec 2 '08 at 18:20

I haven't used it myself, but I'm told that the Boost thread libraries make it incredibly easy.

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They make it VERY easy. :) –  Rob Dec 2 '08 at 7:52
Threads are never easy, regardless of the library/API –  Nemanja Trifunovic Dec 2 '08 at 18:13

For Unix/Linux/BSD, there's pthread library: tutorial.

I guess there are equivalent in Win32 API.

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I also use tbb, good stuff –  Robert Gould Dec 2 '08 at 9:52

There are many threads libraries wich are compatible with c++. So at first you must select one. I prefer OpenMP or POSIX threads (also known as pthreads). How to compile it depends on library you have choose.

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I use a library my university prof wrote. It is very simple to implement and works really well (used it for quite some time now). I will ask his permission to share it with you.

Sorry for the wait ahead, but gotta check :)

++++++EDIT+++++++

Ok, so I talked to my prof and he doesn't mind if I share it here. Below are the .h and .cpp files for the 'RT Library' written by Paul Davies

http://www.filefactory.com/file/7efbeb/n/rt_h

http://www.filefactory.com/file/40d9a6/n/rt_cpp

0) This tutorial will explain thread creation and use on a windows platform.

1) Threads in c++ are usually coded as part of the same source (unlike processes where each process has its own source file and function main() )

2) When a process is up and running, it can create other threads by making appropriate Kernel calls.

3) Multiple threads run faster than multiple processes since they are a part of the same process which results in less of an overhead for the OS, and reduced memory requirements.

4) What you will be using in your case is the CThread class in the rt library.

5) (Make sure rt.h and rt.cpp are a part of your 'solution' and make sure to include rt.h in your main.cpp)

6) Below is a part of code from your future main thread (in main.cpp, of course) where you will create the thread using the CThread class.

void main()
{
. . .

}


The arguments of t1 in order are: Name of the function acting as our thread, the thread status (it can be either ACTIVE or SUSPENDED - depending on what you want), and last, a pointer to an optional data you may want to pass to the thread at creation. After you execute some code, you'll want to call the WaitForThread() function.

7) Below is a part of code from your future main thread (in main.cpp, of course) where you will describe what the child thread does.

UINT  _ _stdcall  ChildThread1(void *args)
{

. . .
}


The odd looking thing there is Microsoft's thread signature. I'm sure with a bit of research you can figure out how to do this in other OSs. The argument is the optional data that could be passed to the child at creation.

8) You can find the detailed descriptions of the member functions in the rt.cpp file. Here are the summaries:

Suspend() - Suspends a child thread effectively pausing it.

Resume() - Wakes up a suspended child thread

SetPriority(int value) - Changes the priority of a child thread to the value specified

Post(int message) - Posts a message to a child thread

9) Below is an example of a sample complete program. A clever thing you can do is create multiple instantiations of a single thread.

    #include “..\wherever\it\is\rt.h” //notice the windows notation

{

for ( int i = 0; i < 100; i ++)

return 0 ;
}
int     main()
{

// Create 8 instances of the above thread code and let each thread know which number it is.

for ( int i = 0; i < 8; i ++) {
printf ("Parent Thread: Creating Child Thread %d in Active State\n", i) ;
}

// wait for threads to terminate, then delete thread objects we created above

for( i = 0; i < 8; i ++) {
delete Threads[i] ;	// delete the object created by ‘new’
}
return 0 ;
}


10) That's it! The rt library includes a bunch of classes that enables you to work with processes and threads and other concurrent programming techniques. Discover the rest ;)

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You may want to read my earlier posting on SO.

(In hindsight, that posting is a little one-sided towards pthreads. But I'm a Unix/Linux kind of guy. And that approach seemed best with respect to the original topic.)

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Check the threading tutorial at msdn (for c#)

http://msdn.microsoft.com/en-us/library/aa645740(VS.71).aspx

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