… | |
… | |
53 | The newest version of this document is also available as a html-formatted |
53 | The newest version of this document is also available as a html-formatted |
54 | web page you might find easier to navigate when reading it for the first |
54 | web page you might find easier to navigate when reading it for the first |
55 | time: L<http://cvs.schmorp.de/libev/ev.html>. |
55 | time: L<http://cvs.schmorp.de/libev/ev.html>. |
56 | |
56 | |
57 | Libev is an event loop: you register interest in certain events (such as a |
57 | Libev is an event loop: you register interest in certain events (such as a |
58 | file descriptor being readable or a timeout occuring), and it will manage |
58 | file descriptor being readable or a timeout occurring), and it will manage |
59 | these event sources and provide your program with events. |
59 | these event sources and provide your program with events. |
60 | |
60 | |
61 | To do this, it must take more or less complete control over your process |
61 | To do this, it must take more or less complete control over your process |
62 | (or thread) by executing the I<event loop> handler, and will then |
62 | (or thread) by executing the I<event loop> handler, and will then |
63 | communicate events via a callback mechanism. |
63 | communicate events via a callback mechanism. |
… | |
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98 | Libev represents time as a single floating point number, representing the |
98 | Libev represents time as a single floating point number, representing the |
99 | (fractional) number of seconds since the (POSIX) epoch (somewhere near |
99 | (fractional) number of seconds since the (POSIX) epoch (somewhere near |
100 | the beginning of 1970, details are complicated, don't ask). This type is |
100 | the beginning of 1970, details are complicated, don't ask). This type is |
101 | called C<ev_tstamp>, which is what you should use too. It usually aliases |
101 | called C<ev_tstamp>, which is what you should use too. It usually aliases |
102 | to the C<double> type in C, and when you need to do any calculations on |
102 | to the C<double> type in C, and when you need to do any calculations on |
103 | it, you should treat it as such. |
103 | it, you should treat it as some floatingpoint value. Unlike the name |
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104 | component C<stamp> might indicate, it is also used for time differences |
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105 | throughout libev. |
104 | |
106 | |
105 | =head1 GLOBAL FUNCTIONS |
107 | =head1 GLOBAL FUNCTIONS |
106 | |
108 | |
107 | These functions can be called anytime, even before initialising the |
109 | These functions can be called anytime, even before initialising the |
108 | library in any way. |
110 | library in any way. |
… | |
… | |
112 | =item ev_tstamp ev_time () |
114 | =item ev_tstamp ev_time () |
113 | |
115 | |
114 | Returns the current time as libev would use it. Please note that the |
116 | Returns the current time as libev would use it. Please note that the |
115 | C<ev_now> function is usually faster and also often returns the timestamp |
117 | C<ev_now> function is usually faster and also often returns the timestamp |
116 | you actually want to know. |
118 | you actually want to know. |
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119 | |
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120 | =item ev_sleep (ev_tstamp interval) |
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121 | |
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122 | Sleep for the given interval: The current thread will be blocked until |
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123 | either it is interrupted or the given time interval has passed. Basically |
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124 | this is a subsecond-resolution C<sleep ()>. |
117 | |
125 | |
118 | =item int ev_version_major () |
126 | =item int ev_version_major () |
119 | |
127 | |
120 | =item int ev_version_minor () |
128 | =item int ev_version_minor () |
121 | |
129 | |
… | |
… | |
311 | lot of inactive fds). It scales similarly to select, i.e. O(total_fds). |
319 | lot of inactive fds). It scales similarly to select, i.e. O(total_fds). |
312 | |
320 | |
313 | =item C<EVBACKEND_EPOLL> (value 4, Linux) |
321 | =item C<EVBACKEND_EPOLL> (value 4, Linux) |
314 | |
322 | |
315 | For few fds, this backend is a bit little slower than poll and select, |
323 | For few fds, this backend is a bit little slower than poll and select, |
316 | but it scales phenomenally better. While poll and select usually scale like |
324 | but it scales phenomenally better. While poll and select usually scale |
317 | O(total_fds) where n is the total number of fds (or the highest fd), epoll scales |
325 | like O(total_fds) where n is the total number of fds (or the highest fd), |
318 | either O(1) or O(active_fds). |
326 | epoll scales either O(1) or O(active_fds). The epoll design has a number |
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327 | of shortcomings, such as silently dropping events in some hard-to-detect |
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328 | cases and rewiring a syscall per fd change, no fork support and bad |
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329 | support for dup: |
319 | |
330 | |
320 | While stopping and starting an I/O watcher in the same iteration will |
331 | While stopping, setting and starting an I/O watcher in the same iteration |
321 | result in some caching, there is still a syscall per such incident |
332 | will result in some caching, there is still a syscall per such incident |
322 | (because the fd could point to a different file description now), so its |
333 | (because the fd could point to a different file description now), so its |
323 | best to avoid that. Also, dup()ed file descriptors might not work very |
334 | best to avoid that. Also, C<dup ()>'ed file descriptors might not work |
324 | well if you register events for both fds. |
335 | very well if you register events for both fds. |
325 | |
336 | |
326 | Please note that epoll sometimes generates spurious notifications, so you |
337 | Please note that epoll sometimes generates spurious notifications, so you |
327 | need to use non-blocking I/O or other means to avoid blocking when no data |
338 | need to use non-blocking I/O or other means to avoid blocking when no data |
328 | (or space) is available. |
339 | (or space) is available. |
329 | |
340 | |
330 | =item C<EVBACKEND_KQUEUE> (value 8, most BSD clones) |
341 | =item C<EVBACKEND_KQUEUE> (value 8, most BSD clones) |
331 | |
342 | |
332 | Kqueue deserves special mention, as at the time of this writing, it |
343 | Kqueue deserves special mention, as at the time of this writing, it |
333 | was broken on all BSDs except NetBSD (usually it doesn't work with |
344 | was broken on all BSDs except NetBSD (usually it doesn't work reliably |
334 | anything but sockets and pipes, except on Darwin, where of course its |
345 | with anything but sockets and pipes, except on Darwin, where of course |
335 | completely useless). For this reason its not being "autodetected" |
346 | it's completely useless). For this reason it's not being "autodetected" |
336 | unless you explicitly specify it explicitly in the flags (i.e. using |
347 | unless you explicitly specify it explicitly in the flags (i.e. using |
337 | C<EVBACKEND_KQUEUE>). |
348 | C<EVBACKEND_KQUEUE>) or libev was compiled on a known-to-be-good (-enough) |
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349 | system like NetBSD. |
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350 | |
|
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351 | You still can embed kqueue into a normal poll or select backend and use it |
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352 | only for sockets (after having made sure that sockets work with kqueue on |
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353 | the target platform). See C<ev_embed> watchers for more info. |
338 | |
354 | |
339 | It scales in the same way as the epoll backend, but the interface to the |
355 | It scales in the same way as the epoll backend, but the interface to the |
340 | kernel is more efficient (which says nothing about its actual speed, of |
356 | kernel is more efficient (which says nothing about its actual speed, of |
341 | course). While starting and stopping an I/O watcher does not cause an |
357 | course). While stopping, setting and starting an I/O watcher does never |
342 | extra syscall as with epoll, it still adds up to four event changes per |
358 | cause an extra syscall as with C<EVBACKEND_EPOLL>, it still adds up to |
343 | incident, so its best to avoid that. |
359 | two event changes per incident, support for C<fork ()> is very bad and it |
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|
360 | drops fds silently in similarly hard-to-detect cases. |
344 | |
361 | |
345 | =item C<EVBACKEND_DEVPOLL> (value 16, Solaris 8) |
362 | =item C<EVBACKEND_DEVPOLL> (value 16, Solaris 8) |
346 | |
363 | |
347 | This is not implemented yet (and might never be). |
364 | This is not implemented yet (and might never be). |
348 | |
365 | |
349 | =item C<EVBACKEND_PORT> (value 32, Solaris 10) |
366 | =item C<EVBACKEND_PORT> (value 32, Solaris 10) |
350 | |
367 | |
351 | This uses the Solaris 10 port mechanism. As with everything on Solaris, |
368 | This uses the Solaris 10 event port mechanism. As with everything on Solaris, |
352 | it's really slow, but it still scales very well (O(active_fds)). |
369 | it's really slow, but it still scales very well (O(active_fds)). |
353 | |
370 | |
354 | Please note that solaris ports can result in a lot of spurious |
371 | Please note that solaris event ports can deliver a lot of spurious |
355 | notifications, so you need to use non-blocking I/O or other means to avoid |
372 | notifications, so you need to use non-blocking I/O or other means to avoid |
356 | blocking when no data (or space) is available. |
373 | blocking when no data (or space) is available. |
357 | |
374 | |
358 | =item C<EVBACKEND_ALL> |
375 | =item C<EVBACKEND_ALL> |
359 | |
376 | |
… | |
… | |
402 | Destroys the default loop again (frees all memory and kernel state |
419 | Destroys the default loop again (frees all memory and kernel state |
403 | etc.). None of the active event watchers will be stopped in the normal |
420 | etc.). None of the active event watchers will be stopped in the normal |
404 | sense, so e.g. C<ev_is_active> might still return true. It is your |
421 | sense, so e.g. C<ev_is_active> might still return true. It is your |
405 | responsibility to either stop all watchers cleanly yoursef I<before> |
422 | responsibility to either stop all watchers cleanly yoursef I<before> |
406 | calling this function, or cope with the fact afterwards (which is usually |
423 | calling this function, or cope with the fact afterwards (which is usually |
407 | the easiest thing, youc na just ignore the watchers and/or C<free ()> them |
424 | the easiest thing, you can just ignore the watchers and/or C<free ()> them |
408 | for example). |
425 | for example). |
|
|
426 | |
|
|
427 | Note that certain global state, such as signal state, will not be freed by |
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428 | this function, and related watchers (such as signal and child watchers) |
|
|
429 | would need to be stopped manually. |
|
|
430 | |
|
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431 | In general it is not advisable to call this function except in the |
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432 | rare occasion where you really need to free e.g. the signal handling |
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433 | pipe fds. If you need dynamically allocated loops it is better to use |
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|
434 | C<ev_loop_new> and C<ev_loop_destroy>). |
409 | |
435 | |
410 | =item ev_loop_destroy (loop) |
436 | =item ev_loop_destroy (loop) |
411 | |
437 | |
412 | Like C<ev_default_destroy>, but destroys an event loop created by an |
438 | Like C<ev_default_destroy>, but destroys an event loop created by an |
413 | earlier call to C<ev_loop_new>. |
439 | earlier call to C<ev_loop_new>. |
… | |
… | |
458 | |
484 | |
459 | Returns the current "event loop time", which is the time the event loop |
485 | Returns the current "event loop time", which is the time the event loop |
460 | received events and started processing them. This timestamp does not |
486 | received events and started processing them. This timestamp does not |
461 | change as long as callbacks are being processed, and this is also the base |
487 | change as long as callbacks are being processed, and this is also the base |
462 | time used for relative timers. You can treat it as the timestamp of the |
488 | time used for relative timers. You can treat it as the timestamp of the |
463 | event occuring (or more correctly, libev finding out about it). |
489 | event occurring (or more correctly, libev finding out about it). |
464 | |
490 | |
465 | =item ev_loop (loop, int flags) |
491 | =item ev_loop (loop, int flags) |
466 | |
492 | |
467 | Finally, this is it, the event handler. This function usually is called |
493 | Finally, this is it, the event handler. This function usually is called |
468 | after you initialised all your watchers and you want to start handling |
494 | after you initialised all your watchers and you want to start handling |
… | |
… | |
552 | Example: For some weird reason, unregister the above signal handler again. |
578 | Example: For some weird reason, unregister the above signal handler again. |
553 | |
579 | |
554 | ev_ref (loop); |
580 | ev_ref (loop); |
555 | ev_signal_stop (loop, &exitsig); |
581 | ev_signal_stop (loop, &exitsig); |
556 | |
582 | |
|
|
583 | =item ev_set_io_collect_interval (loop, ev_tstamp interval) |
|
|
584 | |
|
|
585 | =item ev_set_timeout_collect_interval (loop, ev_tstamp interval) |
|
|
586 | |
|
|
587 | These advanced functions influence the time that libev will spend waiting |
|
|
588 | for events. Both are by default C<0>, meaning that libev will try to |
|
|
589 | invoke timer/periodic callbacks and I/O callbacks with minimum latency. |
|
|
590 | |
|
|
591 | Setting these to a higher value (the C<interval> I<must> be >= C<0>) |
|
|
592 | allows libev to delay invocation of I/O and timer/periodic callbacks to |
|
|
593 | increase efficiency of loop iterations. |
|
|
594 | |
|
|
595 | The background is that sometimes your program runs just fast enough to |
|
|
596 | handle one (or very few) event(s) per loop iteration. While this makes |
|
|
597 | the program responsive, it also wastes a lot of CPU time to poll for new |
|
|
598 | events, especially with backends like C<select ()> which have a high |
|
|
599 | overhead for the actual polling but can deliver many events at once. |
|
|
600 | |
|
|
601 | By setting a higher I<io collect interval> you allow libev to spend more |
|
|
602 | time collecting I/O events, so you can handle more events per iteration, |
|
|
603 | at the cost of increasing latency. Timeouts (both C<ev_periodic> and |
|
|
604 | C<ev_timer>) will be not affected. Setting this to a non-null value will |
|
|
605 | introduce an additional C<ev_sleep ()> call into most loop iterations. |
|
|
606 | |
|
|
607 | Likewise, by setting a higher I<timeout collect interval> you allow libev |
|
|
608 | to spend more time collecting timeouts, at the expense of increased |
|
|
609 | latency (the watcher callback will be called later). C<ev_io> watchers |
|
|
610 | will not be affected. Setting this to a non-null value will not introduce |
|
|
611 | any overhead in libev. |
|
|
612 | |
|
|
613 | Many (busy) programs can usually benefit by setting the io collect |
|
|
614 | interval to a value near C<0.1> or so, which is often enough for |
|
|
615 | interactive servers (of course not for games), likewise for timeouts. It |
|
|
616 | usually doesn't make much sense to set it to a lower value than C<0.01>, |
|
|
617 | as this approsaches the timing granularity of most systems. |
|
|
618 | |
557 | =back |
619 | =back |
558 | |
620 | |
559 | |
621 | |
560 | =head1 ANATOMY OF A WATCHER |
622 | =head1 ANATOMY OF A WATCHER |
561 | |
623 | |
… | |
… | |
913 | such as poll (fortunately in our Xlib example, Xlib already does this on |
975 | such as poll (fortunately in our Xlib example, Xlib already does this on |
914 | its own, so its quite safe to use). |
976 | its own, so its quite safe to use). |
915 | |
977 | |
916 | =head3 The special problem of disappearing file descriptors |
978 | =head3 The special problem of disappearing file descriptors |
917 | |
979 | |
918 | Some backends (e.g kqueue, epoll) need to be told about closing a file |
980 | Some backends (e.g. kqueue, epoll) need to be told about closing a file |
919 | descriptor (either by calling C<close> explicitly or by any other means, |
981 | descriptor (either by calling C<close> explicitly or by any other means, |
920 | such as C<dup>). The reason is that you register interest in some file |
982 | such as C<dup>). The reason is that you register interest in some file |
921 | descriptor, but when it goes away, the operating system will silently drop |
983 | descriptor, but when it goes away, the operating system will silently drop |
922 | this interest. If another file descriptor with the same number then is |
984 | this interest. If another file descriptor with the same number then is |
923 | registered with libev, there is no efficient way to see that this is, in |
985 | registered with libev, there is no efficient way to see that this is, in |
… | |
… | |
931 | descriptor even if the file descriptor number itself did not change. |
993 | descriptor even if the file descriptor number itself did not change. |
932 | |
994 | |
933 | This is how one would do it normally anyway, the important point is that |
995 | This is how one would do it normally anyway, the important point is that |
934 | the libev application should not optimise around libev but should leave |
996 | the libev application should not optimise around libev but should leave |
935 | optimisations to libev. |
997 | optimisations to libev. |
|
|
998 | |
|
|
999 | =head3 The special problem of dup'ed file descriptors |
|
|
1000 | |
|
|
1001 | Some backends (e.g. epoll), cannot register events for file descriptors, |
|
|
1002 | but only events for the underlying file descriptions. That menas when you |
|
|
1003 | have C<dup ()>'ed file descriptors and register events for them, only one |
|
|
1004 | file descriptor might actually receive events. |
|
|
1005 | |
|
|
1006 | There is no workaorund possible except not registering events |
|
|
1007 | for potentially C<dup ()>'ed file descriptors or to resort to |
|
|
1008 | C<EVBACKEND_SELECT> or C<EVBACKEND_POLL>. |
|
|
1009 | |
|
|
1010 | =head3 The special problem of fork |
|
|
1011 | |
|
|
1012 | Some backends (epoll, kqueue) do not support C<fork ()> at all or exhibit |
|
|
1013 | useless behaviour. Libev fully supports fork, but needs to be told about |
|
|
1014 | it in the child. |
|
|
1015 | |
|
|
1016 | To support fork in your programs, you either have to call |
|
|
1017 | C<ev_default_fork ()> or C<ev_loop_fork ()> after a fork in the child, |
|
|
1018 | enable C<EVFLAG_FORKCHECK>, or resort to C<EVBACKEND_SELECT> or |
|
|
1019 | C<EVBACKEND_POLL>. |
936 | |
1020 | |
937 | |
1021 | |
938 | =head3 Watcher-Specific Functions |
1022 | =head3 Watcher-Specific Functions |
939 | |
1023 | |
940 | =over 4 |
1024 | =over 4 |
… | |
… | |
1219 | =item ev_tstamp (*reschedule_cb)(struct ev_periodic *w, ev_tstamp now) [read-write] |
1303 | =item ev_tstamp (*reschedule_cb)(struct ev_periodic *w, ev_tstamp now) [read-write] |
1220 | |
1304 | |
1221 | The current reschedule callback, or C<0>, if this functionality is |
1305 | The current reschedule callback, or C<0>, if this functionality is |
1222 | switched off. Can be changed any time, but changes only take effect when |
1306 | switched off. Can be changed any time, but changes only take effect when |
1223 | the periodic timer fires or C<ev_periodic_again> is being called. |
1307 | the periodic timer fires or C<ev_periodic_again> is being called. |
|
|
1308 | |
|
|
1309 | =item ev_tstamp at [read-only] |
|
|
1310 | |
|
|
1311 | When active, contains the absolute time that the watcher is supposed to |
|
|
1312 | trigger next. |
1224 | |
1313 | |
1225 | =back |
1314 | =back |
1226 | |
1315 | |
1227 | Example: Call a callback every hour, or, more precisely, whenever the |
1316 | Example: Call a callback every hour, or, more precisely, whenever the |
1228 | system clock is divisible by 3600. The callback invocation times have |
1317 | system clock is divisible by 3600. The callback invocation times have |
… | |
… | |
1537 | |
1626 | |
1538 | It is recommended to give C<ev_check> watchers highest (C<EV_MAXPRI>) |
1627 | It is recommended to give C<ev_check> watchers highest (C<EV_MAXPRI>) |
1539 | priority, to ensure that they are being run before any other watchers |
1628 | priority, to ensure that they are being run before any other watchers |
1540 | after the poll. Also, C<ev_check> watchers (and C<ev_prepare> watchers, |
1629 | after the poll. Also, C<ev_check> watchers (and C<ev_prepare> watchers, |
1541 | too) should not activate ("feed") events into libev. While libev fully |
1630 | too) should not activate ("feed") events into libev. While libev fully |
1542 | supports this, they will be called before other C<ev_check> watchers did |
1631 | supports this, they will be called before other C<ev_check> watchers |
1543 | their job. As C<ev_check> watchers are often used to embed other event |
1632 | did their job. As C<ev_check> watchers are often used to embed other |
1544 | loops those other event loops might be in an unusable state until their |
1633 | (non-libev) event loops those other event loops might be in an unusable |
1545 | C<ev_check> watcher ran (always remind yourself to coexist peacefully with |
1634 | state until their C<ev_check> watcher ran (always remind yourself to |
1546 | others). |
1635 | coexist peacefully with others). |
1547 | |
1636 | |
1548 | =head3 Watcher-Specific Functions and Data Members |
1637 | =head3 Watcher-Specific Functions and Data Members |
1549 | |
1638 | |
1550 | =over 4 |
1639 | =over 4 |
1551 | |
1640 | |
… | |
… | |
1775 | |
1864 | |
1776 | Make a single, non-blocking sweep over the embedded loop. This works |
1865 | Make a single, non-blocking sweep over the embedded loop. This works |
1777 | similarly to C<ev_loop (embedded_loop, EVLOOP_NONBLOCK)>, but in the most |
1866 | similarly to C<ev_loop (embedded_loop, EVLOOP_NONBLOCK)>, but in the most |
1778 | apropriate way for embedded loops. |
1867 | apropriate way for embedded loops. |
1779 | |
1868 | |
1780 | =item struct ev_loop *loop [read-only] |
1869 | =item struct ev_loop *other [read-only] |
1781 | |
1870 | |
1782 | The embedded event loop. |
1871 | The embedded event loop. |
1783 | |
1872 | |
1784 | =back |
1873 | =back |
1785 | |
1874 | |
… | |
… | |
1792 | event loop blocks next and before C<ev_check> watchers are being called, |
1881 | event loop blocks next and before C<ev_check> watchers are being called, |
1793 | and only in the child after the fork. If whoever good citizen calling |
1882 | and only in the child after the fork. If whoever good citizen calling |
1794 | C<ev_default_fork> cheats and calls it in the wrong process, the fork |
1883 | C<ev_default_fork> cheats and calls it in the wrong process, the fork |
1795 | handlers will be invoked, too, of course. |
1884 | handlers will be invoked, too, of course. |
1796 | |
1885 | |
|
|
1886 | =head3 Watcher-Specific Functions and Data Members |
|
|
1887 | |
1797 | =over 4 |
1888 | =over 4 |
1798 | |
1889 | |
1799 | =item ev_fork_init (ev_signal *, callback) |
1890 | =item ev_fork_init (ev_signal *, callback) |
1800 | |
1891 | |
1801 | Initialises and configures the fork watcher - it has no parameters of any |
1892 | Initialises and configures the fork watcher - it has no parameters of any |
… | |
… | |
2017 | |
2108 | |
2018 | =item w->stop () |
2109 | =item w->stop () |
2019 | |
2110 | |
2020 | Stops the watcher if it is active. Again, no C<loop> argument. |
2111 | Stops the watcher if it is active. Again, no C<loop> argument. |
2021 | |
2112 | |
2022 | =item w->again () C<ev::timer>, C<ev::periodic> only |
2113 | =item w->again () (C<ev::timer>, C<ev::periodic> only) |
2023 | |
2114 | |
2024 | For C<ev::timer> and C<ev::periodic>, this invokes the corresponding |
2115 | For C<ev::timer> and C<ev::periodic>, this invokes the corresponding |
2025 | C<ev_TYPE_again> function. |
2116 | C<ev_TYPE_again> function. |
2026 | |
2117 | |
2027 | =item w->sweep () C<ev::embed> only |
2118 | =item w->sweep () (C<ev::embed> only) |
2028 | |
2119 | |
2029 | Invokes C<ev_embed_sweep>. |
2120 | Invokes C<ev_embed_sweep>. |
2030 | |
2121 | |
2031 | =item w->update () C<ev::stat> only |
2122 | =item w->update () (C<ev::stat> only) |
2032 | |
2123 | |
2033 | Invokes C<ev_stat_stat>. |
2124 | Invokes C<ev_stat_stat>. |
2034 | |
2125 | |
2035 | =back |
2126 | =back |
2036 | |
2127 | |
… | |
… | |
2056 | } |
2147 | } |
2057 | |
2148 | |
2058 | |
2149 | |
2059 | =head1 MACRO MAGIC |
2150 | =head1 MACRO MAGIC |
2060 | |
2151 | |
2061 | Libev can be compiled with a variety of options, the most fundemantal is |
2152 | Libev can be compiled with a variety of options, the most fundamantal |
2062 | C<EV_MULTIPLICITY>. This option determines whether (most) functions and |
2153 | of which is C<EV_MULTIPLICITY>. This option determines whether (most) |
2063 | callbacks have an initial C<struct ev_loop *> argument. |
2154 | functions and callbacks have an initial C<struct ev_loop *> argument. |
2064 | |
2155 | |
2065 | To make it easier to write programs that cope with either variant, the |
2156 | To make it easier to write programs that cope with either variant, the |
2066 | following macros are defined: |
2157 | following macros are defined: |
2067 | |
2158 | |
2068 | =over 4 |
2159 | =over 4 |
… | |
… | |
2122 | Libev can (and often is) directly embedded into host |
2213 | Libev can (and often is) directly embedded into host |
2123 | applications. Examples of applications that embed it include the Deliantra |
2214 | applications. Examples of applications that embed it include the Deliantra |
2124 | Game Server, the EV perl module, the GNU Virtual Private Ethernet (gvpe) |
2215 | Game Server, the EV perl module, the GNU Virtual Private Ethernet (gvpe) |
2125 | and rxvt-unicode. |
2216 | and rxvt-unicode. |
2126 | |
2217 | |
2127 | The goal is to enable you to just copy the neecssary files into your |
2218 | The goal is to enable you to just copy the necessary files into your |
2128 | source directory without having to change even a single line in them, so |
2219 | source directory without having to change even a single line in them, so |
2129 | you can easily upgrade by simply copying (or having a checked-out copy of |
2220 | you can easily upgrade by simply copying (or having a checked-out copy of |
2130 | libev somewhere in your source tree). |
2221 | libev somewhere in your source tree). |
2131 | |
2222 | |
2132 | =head2 FILESETS |
2223 | =head2 FILESETS |
… | |
… | |
2222 | |
2313 | |
2223 | If defined to be C<1>, libev will try to detect the availability of the |
2314 | If defined to be C<1>, libev will try to detect the availability of the |
2224 | monotonic clock option at both compiletime and runtime. Otherwise no use |
2315 | monotonic clock option at both compiletime and runtime. Otherwise no use |
2225 | of the monotonic clock option will be attempted. If you enable this, you |
2316 | of the monotonic clock option will be attempted. If you enable this, you |
2226 | usually have to link against librt or something similar. Enabling it when |
2317 | usually have to link against librt or something similar. Enabling it when |
2227 | the functionality isn't available is safe, though, althoguh you have |
2318 | the functionality isn't available is safe, though, although you have |
2228 | to make sure you link against any libraries where the C<clock_gettime> |
2319 | to make sure you link against any libraries where the C<clock_gettime> |
2229 | function is hiding in (often F<-lrt>). |
2320 | function is hiding in (often F<-lrt>). |
2230 | |
2321 | |
2231 | =item EV_USE_REALTIME |
2322 | =item EV_USE_REALTIME |
2232 | |
2323 | |
2233 | If defined to be C<1>, libev will try to detect the availability of the |
2324 | If defined to be C<1>, libev will try to detect the availability of the |
2234 | realtime clock option at compiletime (and assume its availability at |
2325 | realtime clock option at compiletime (and assume its availability at |
2235 | runtime if successful). Otherwise no use of the realtime clock option will |
2326 | runtime if successful). Otherwise no use of the realtime clock option will |
2236 | be attempted. This effectively replaces C<gettimeofday> by C<clock_get |
2327 | be attempted. This effectively replaces C<gettimeofday> by C<clock_get |
2237 | (CLOCK_REALTIME, ...)> and will not normally affect correctness. See tzhe note about libraries |
2328 | (CLOCK_REALTIME, ...)> and will not normally affect correctness. See the |
2238 | in the description of C<EV_USE_MONOTONIC>, though. |
2329 | note about libraries in the description of C<EV_USE_MONOTONIC>, though. |
|
|
2330 | |
|
|
2331 | =item EV_USE_NANOSLEEP |
|
|
2332 | |
|
|
2333 | If defined to be C<1>, libev will assume that C<nanosleep ()> is available |
|
|
2334 | and will use it for delays. Otherwise it will use C<select ()>. |
2239 | |
2335 | |
2240 | =item EV_USE_SELECT |
2336 | =item EV_USE_SELECT |
2241 | |
2337 | |
2242 | If undefined or defined to be C<1>, libev will compile in support for the |
2338 | If undefined or defined to be C<1>, libev will compile in support for the |
2243 | C<select>(2) backend. No attempt at autodetection will be done: if no |
2339 | C<select>(2) backend. No attempt at autodetection will be done: if no |
… | |
… | |
2422 | |
2518 | |
2423 | =item ev_set_cb (ev, cb) |
2519 | =item ev_set_cb (ev, cb) |
2424 | |
2520 | |
2425 | Can be used to change the callback member declaration in each watcher, |
2521 | Can be used to change the callback member declaration in each watcher, |
2426 | and the way callbacks are invoked and set. Must expand to a struct member |
2522 | and the way callbacks are invoked and set. Must expand to a struct member |
2427 | definition and a statement, respectively. See the F<ev.v> header file for |
2523 | definition and a statement, respectively. See the F<ev.h> header file for |
2428 | their default definitions. One possible use for overriding these is to |
2524 | their default definitions. One possible use for overriding these is to |
2429 | avoid the C<struct ev_loop *> as first argument in all cases, or to use |
2525 | avoid the C<struct ev_loop *> as first argument in all cases, or to use |
2430 | method calls instead of plain function calls in C++. |
2526 | method calls instead of plain function calls in C++. |
|
|
2527 | |
|
|
2528 | =head2 EXPORTED API SYMBOLS |
|
|
2529 | |
|
|
2530 | If you need to re-export the API (e.g. via a dll) and you need a list of |
|
|
2531 | exported symbols, you can use the provided F<Symbol.*> files which list |
|
|
2532 | all public symbols, one per line: |
|
|
2533 | |
|
|
2534 | Symbols.ev for libev proper |
|
|
2535 | Symbols.event for the libevent emulation |
|
|
2536 | |
|
|
2537 | This can also be used to rename all public symbols to avoid clashes with |
|
|
2538 | multiple versions of libev linked together (which is obviously bad in |
|
|
2539 | itself, but sometimes it is inconvinient to avoid this). |
|
|
2540 | |
|
|
2541 | A sed command like this will create wrapper C<#define>'s that you need to |
|
|
2542 | include before including F<ev.h>: |
|
|
2543 | |
|
|
2544 | <Symbols.ev sed -e "s/.*/#define & myprefix_&/" >wrap.h |
|
|
2545 | |
|
|
2546 | This would create a file F<wrap.h> which essentially looks like this: |
|
|
2547 | |
|
|
2548 | #define ev_backend myprefix_ev_backend |
|
|
2549 | #define ev_check_start myprefix_ev_check_start |
|
|
2550 | #define ev_check_stop myprefix_ev_check_stop |
|
|
2551 | ... |
2431 | |
2552 | |
2432 | =head2 EXAMPLES |
2553 | =head2 EXAMPLES |
2433 | |
2554 | |
2434 | For a real-world example of a program the includes libev |
2555 | For a real-world example of a program the includes libev |
2435 | verbatim, you can have a look at the EV perl module |
2556 | verbatim, you can have a look at the EV perl module |