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5.4 Parallel Execution

GNU make knows how to execute several recipes at once. Normally, make will execute only one recipe at a time, waiting for it to finish before executing the next. However, the ‘-j’ or ‘--jobs’ option tells make to execute many recipes simultaneously. You can inhibit parallelism in a particular makefile with the .NOTPARALLEL pseudo-target (see section Special Built-in Target Names).

On MS-DOS, the ‘-j’ option has no effect, since that system doesn’t support multi-processing.

If the ‘-j’ option is followed by an integer, this is the number of recipes to execute at once; this is called the number of job slots. If there is nothing looking like an integer after the ‘-j’ option, there is no limit on the number of job slots. The default number of job slots is one, which means serial execution (one thing at a time).

One unpleasant consequence of running several recipes simultaneously is that output generated by the recipes appears whenever each recipe sends it, so messages from different recipes may be interspersed.

Another problem is that two processes cannot both take input from the same device; so to make sure that only one recipe tries to take input from the terminal at once, make will invalidate the standard input streams of all but one running recipe. This means that attempting to read from standard input will usually be a fatal error (a ‘Broken pipe’ signal) for most child processes if there are several.

It is unpredictable which recipe will have a valid standard input stream (which will come from the terminal, or wherever you redirect the standard input of make). The first recipe run will always get it first, and the first recipe started after that one finishes will get it next, and so on.

We will change how this aspect of make works if we find a better alternative. In the mean time, you should not rely on any recipe using standard input at all if you are using the parallel execution feature; but if you are not using this feature, then standard input works normally in all recipes.

Finally, handling recursive make invocations raises issues. For more information on this, see Communicating Options to a Sub-make.

If a recipe fails (is killed by a signal or exits with a nonzero status), and errors are not ignored for that recipe (see section Errors in Recipes), the remaining recipe lines to remake the same target will not be run. If a recipe fails and the ‘-k’ or ‘--keep-going’ option was not given (see section Summary of Options), make aborts execution. If make terminates for any reason (including a signal) with child processes running, it waits for them to finish before actually exiting.

When the system is heavily loaded, you will probably want to run fewer jobs than when it is lightly loaded. You can use the ‘-l’ option to tell make to limit the number of jobs to run at once, based on the load average. The ‘-l’ or ‘--max-load’ option is followed by a floating-point number. For example,

 
-l 2.5

will not let make start more than one job if the load average is above 2.5. The ‘-l’ option with no following number removes the load limit, if one was given with a previous ‘-l’ option.

More precisely, when make goes to start up a job, and it already has at least one job running, it checks the current load average; if it is not lower than the limit given with ‘-l’, make waits until the load average goes below that limit, or until all the other jobs finish.

By default, there is no load limit.


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