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sem.pod: toilet analogy added to explain semaphore.
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@ -1061,7 +1061,7 @@ sub parse_options {
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sub init_globals {
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# Defaults:
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$Global::version = 20150503;
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$Global::version = 20150509;
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$Global::progname = 'parallel';
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$Global::infinity = 2**31;
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$Global::debug = 0;
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@ -1243,7 +1243,11 @@ sub parse_semaphore {
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if(defined $opt::bg) { $Global::semaphore = 1; }
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if(defined $opt::wait) { $Global::semaphore = 1; }
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if($Global::semaphore) {
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if(@opt::a) {
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# A semaphore does not take input from neither stdin nor file
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::error("A semaphore does not take input from neither stdin nor a file\n");
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::wait_and_exit(255);
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}
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@opt::a = ("/dev/null");
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push(@Global::unget_argv, [Arg->new("")]);
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$Semaphore::timeout = $opt::semaphoretimeout || 0;
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@ -861,7 +861,7 @@ Number of jobslots on each machine. Run up to N jobs in parallel. 0
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means as many as possible. Default is 100% which will run one job per
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CPU core on each machine.
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If B<--semaphore> is set default is 1 thus making a mutex.
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If B<--semaphore> is set, the default is 1 thus making a mutex.
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=item B<--jobs> I<+N>
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97
src/sem.pod
97
src/sem.pod
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@ -12,11 +12,14 @@ B<sem> [--fg] [--id <id>] [--semaphoretimeout <secs>] [-j <num>] [--wait] comman
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GNU B<sem> is an alias for GNU B<parallel --semaphore>.
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It works as a tool for executing shell commands in parallel. GNU
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B<sem> acts as a counting semaphore. When GNU B<sem> is called with
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command it will start the command in the background. When I<num>
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number of commands are running in the background, GNU B<sem> will wait
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for one of these to complete before starting another command.
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GNU B<sem> acts as a counting semaphore. When GNU B<sem> is called
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with command it starts the command in the background. When I<num>
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number of commands are running in the background, GNU B<sem> waits for
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one of these to complete before starting the command.
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GNU B<sem> does not read any arguments to build the command (no -a,
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:::, and ::::). It simply waits for a semaphore to become available
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and then runs the command given.
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Before looking at the options you may want to check out the examples
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after the list of options. That will give you an idea of what GNU
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@ -28,23 +31,21 @@ B<sem> is capable of.
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=item I<command>
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Command to execute. The command may be followed by arguments for the command.
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Command to execute. The command may be followed by arguments for the
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command.
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=item B<--bg>
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Run command in background thus GNU B<parallel> will not wait for
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Run command in background thus GNU B<sem> will not wait for
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completion of the command before exiting. This is the default.
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In toilet analogy: GNU B<sem> waits for a toilet to be available,
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gives the toilet to a person, and exits immediately.
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See also: B<--fg>
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=item B<-j> I<N>
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Run up to N commands in parallel. Default is 1 thus acting like a
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mutex.
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=item B<--jobs> I<N>
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=item B<-j> I<N>
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@ -56,6 +57,8 @@ mutex.
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Run up to N commands in parallel. Default is 1 thus acting like a
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mutex.
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In toilet analogy: B<-j> is the number of toilets.
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=item B<--jobs> I<+N>
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@ -122,29 +125,70 @@ are often a good value.
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The semaphore is stored in ~/.parallel/semaphores/
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In toilet analogy the name corresponds to different types of toilets:
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e.g. male, female, customer, staff.
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=item B<--fg>
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Do not put command in background.
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In toilet analogy: GNU B<sem> waits for a toilet to be available,
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takes a person to the toilet, waits for the person to finish, and
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exits.
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=item B<--semaphoretimeout> I<secs> (alpha testing)
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=item B<--st> I<secs> (alpha testing)
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If I<secs> > 0: If the semaphore is not released within I<secs> seconds, take it anyway.
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If I<secs> > 0: If the semaphore is not released within I<secs>
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seconds, take it anyway.
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If I<secs> < 0: If the semaphore is not released within I<secs> seconds, exit.
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If I<secs> < 0: If the semaphore is not released within I<secs>
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seconds, exit.
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In toilet analogy: I<secs> > 0: If no toilet becomes available within
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I<secs> seconds, pee on the floor. I<secs> < 0: If no toilet becomes
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available within I<secs> seconds, exit without doing anything.
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=item B<--wait>
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=item B<-w>
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Wait for all commands to complete.
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In toilet analogy: Wait until all toilets are empty, then exit.
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=back
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=head1 UNDERSTANDING A SEMAPHORE
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Try the following example:
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sem -j 2 'sleep 1;echo 1 finished'; echo sem 1 exited
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sem -j 2 'sleep 2;echo 2 finished'; echo sem 2 exited
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sem -j 2 'sleep 3;echo 3 finished'; echo sem 3 exited
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sem -j 2 'sleep 4;echo 4 finished'; echo sem 4 exited
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sem --wait; echo sem --wait done
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In toilet analogy this uses 2 toilets (B<-j 2>). GNU B<sem> takes '1'
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to a toilet, and exits immediately. While '1' is sleeping, another GNU
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B<sem> takes '2' to a toilet, and exits immediately.
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While '1' and '2' are sleeping, another GNU B<sem> waits for a free
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toilet. When '1' finishes, a toilet becomes available, and this GNU
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B<sem> stops waiting, and takes '3' to a toilet, and exits
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immediately.
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While '2' and '3' are sleeping, another GNU B<sem> waits for a free
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toilet. When '2' finishes, a toilet becomes available, and this GNU
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B<sem> stops waiting, and takes '4' to a toilet, and exits
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immediately.
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Finally another GNU B<sem> waits for all toilets to become free.
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=head1 EXAMPLE: Gzipping *.log
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Run one gzip process per CPU core. Block until a CPU core becomes
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@ -165,15 +209,28 @@ you run multiple pod2html in parallel (e.g. in a Makefile with make
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write to the files at the same time:
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# This may fail due to shared pod2htmd.tmp/pod2htmi.tmp files
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pod2html foo.pod --outfile foo.html & pod2html bar.pod --outfile bar.html
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foo.html:
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pod2html foo.pod --outfile foo.html
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bar.html:
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pod2html bar.pod --outfile bar.html
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$ make -j foo.html bar.html
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You need to protect pod2html from running twice at the same time.
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B<sem> running as a mutex will make sure only one runs:
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foo.html:
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sem --id pod2html pod2html foo.pod --outfile foo.html
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sem --id pod2html pod2html bar.pod --outfile bar.html
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sem --fg --id pod2html rm -f pod2htmd.tmp pod2htmi.tmp
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bar.html:
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sem --id pod2html pod2html bar.pod --outfile bar.html
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clean: foo.html bar.html
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sem --id pod2html --wait
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rm -f pod2htmd.tmp pod2htmi.tmp
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$ make -j foo.html bar.html clean
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=head1 BUGS
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