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I have two separate processes: a C program that outputs comma separated values followed by a newline every second, and a Perl program that accepts data (in the same format) and processes this data.

The C program outputs (via printf) values as such:

1, 2, 3, 4, 5, 6  
7, 8, 9, 10, 11, 12  

The Perl program sits in an infinite loop waiting on a line basis for STDIN in order to process this data:

while ($line = <STDIN>)
    chomp($line) # Line should now read "1,2,3,4,5,6"
    # Process data

I want these two processes to communicate in real time. Standard bash pipes do not work (e.g. process1 | process2) because the Perl program waits for the first program to finish before processing the input.

Does anyone have any ideas, suggestions, or insightd as to a solution to this problem? Thank you in advance!

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strictly speaking, this has nothing to do with "real time" –  andersoj Apr 3 '09 at 4:00
You're absolutely right, I wrote this in a rush and couldn't think of a better way to explain how I wanted these processes to work. Concurrent may have been a better choice. –  Ryan Van Antwerp Apr 3 '09 at 4:24
Concurrent is much better, and there is an edit button for you to fix it. –  derobert Apr 3 '09 at 5:01

2 Answers 2

up vote 16 down vote accepted

Pipes should be fine for this; you just need to control when the output of your C program is flushed to make it available to the perl script incrementally. You can do this in the C program using fflush(), which will force the buffer from your C program to be pushed out so the perl program can read it.

There is nothing inherent about pipes that would cause the perl program to wait for the C program to finish writing before processing its output. Your perl program is written so that it processes STDIN one line at a time:

while ($line = <STDIN>) { ... }

<> in this context reads one line from STDIN, but if there's not one available it will block until one is. A call to fflush() from the C program will make this happen.

Take a look at the Wikipedia article on Pipelines. The implementation section gives a brief description of how pipes are buffered, which should help you understand how your processes communicate. Pipes do allow concurrency between processes, and processes reading from and writing to pipes are managed by the scheduler just like other processes. Your problem here is with the buffering.

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I thought C programs flushed all output whenever they printed a newline. –  Chris Lutz Apr 3 '09 at 4:36
You were right on with this answer -- I had even explored fflush but I never thought to use it on stdout. And due to the nature of the perl program's behavior, I had mistook it for 'waiting' on the c program. I added fflush(stdout) after my printf statements and it worked flawlessly! Thanks!! –  Ryan Van Antwerp Apr 3 '09 at 4:39
@Chris Lutz, the automatic flush only happens if the stream is in line buffered mode, which is usually only true if the stream is open on a tty. Once stdout is a pipe, it defaults to fully buffered for best performance. –  RBerteig Apr 3 '09 at 5:03

The C program should fflush() its output buffers explictly, or use a pty. The latter is much more awkward but keeps the C code simpler. Try "man 3 fflush" if this is unfamiliar to you.

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Using a pty is overkill; flushing the output is important if using stdio in the C code (and not material if using write() directly). –  Jonathan Leffler Apr 3 '09 at 4:34
A pty is only necessary if the two processes must interact, and then really only if one or both must be oblivious to having a non-human as the interacting party. Ptys are also not very portable outside of unix-like platforms. –  RBerteig Apr 3 '09 at 5:06
I agree that pty is overkill, but it tricks the C program to autoflush after every newline. In that sense (and in that sense alone!) it makes the C program simpler at the expense of a more complicated environment. –  Chris Dolan Apr 3 '09 at 5:56

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