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OK, so this may be an odd situation but please bear with me.

I have a Python program which calls up a C++ class via a SWIG interface. I came to a point where I must asynchronously signal (to update a status) the Python code from the C++ library. Originally I had inefficient busy loops which polled a flag. I wanted to replace this by using SIGUSR1.

So, the problem is I discovered that even though these are separate 'threads', they share the same PID. That is the Python and C++ program both report the same PID. I have sent the signal using kill, and the Python code caught it in its handler, however it did not interrupt the code as I expected. I tried two methods of waiting for the signal in the Python code, first py calling Python's signal.pause which I read was supposed to be preempted on the reception of a signal. The other one was a simple time.sleep which was supposed to do basically the same thing - return when the signal comes through.

For some reason this isn't working - my C++ code sends the signal, the Python code receives it and calls the handler, however, the pause/sleep calls never return.

If it is possible to correctly signal the same process, how would you do it?

(and if this is just dumb forgive me and move on)

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NOTE: This is a GNU Radio program, so a main Python thread creates a flow-graph consisting of C++ signal processing blocks. I want to signal the main Python program from one of the C++ blocks. –  Mr. Shickadance Aug 4 '11 at 15:57

2 Answers 2

up vote 2 down vote accepted

Signals are not the right tool for the job here. Normally, this would be a job for inter-thread synchronization primitives, such as

  • the locks from the thread module
  • the Event objects from the threading module

However, it's not easy to manipulate Python thread locks from C++. So I would use the old-fashioned, but very simple, approach of

  • a pipe, which the Python thread reads from, and the C++ thread writes exactly one byte to when it wants to wake up the Python.
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Nice idea; a pipe probably is the easiest possible solution, even if using a posix lock of some sort is still a better idea. –  IfLoop Aug 4 '11 at 16:14
I like it, but I am not sure about the implementation. Most examples of piping that I've read involve forking a process and connecting one processes stdout to the others' stdin. A Unix filter. In my situation that doesn't seem very applicable since the C++ isn't a separate program. I need to find some examples of Python/C++ IPC using pipes. Thanks! –  Mr. Shickadance Aug 4 '11 at 17:49
Well, after another minute of thought I think a FIFO (named pipe) is what I need... –  Mr. Shickadance Aug 4 '11 at 17:51
You can use a regular (anonymous) pipe within a single program. Just read from the read end in the Python thread, and write to the write end in the C++ thread. The easiest way to inform the C++ thread what file descriptor it should write to is: create the pipe before spawning the thread, and then stash the descriptor number in a global variable. (C++ global, that is. Not Python global.) –  Zack Aug 4 '11 at 19:21
OK, I just got it working. Everything was pretty easy except for one glaring exception. I wasn't aware that opening a pipe for O_RDONLY or O_WRONLY would block until it was opened somewhere else for the opposite (e.g. open for WRONLY blocks until its opened somewhere else for RDONLY). This is documented behavior but apparently I am not the only one to think this changes the expected semantics of open. See stackoverflow.com/questions/5782279/… –  Mr. Shickadance Aug 4 '11 at 19:27

If you are in the same program I am not sure what you would need signals for in this case. Take a look at the observer pattern. If you have your python event handlers subscribe to events in your C++ library, you can avoid signals all together.

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