| … | |
… | |
| 266 | C<LIBEV_FLAGS>. Otherwise (the default), this environment variable will |
266 | C<LIBEV_FLAGS>. Otherwise (the default), this environment variable will |
| 267 | override the flags completely if it is found in the environment. This is |
267 | override the flags completely if it is found in the environment. This is |
| 268 | useful to try out specific backends to test their performance, or to work |
268 | useful to try out specific backends to test their performance, or to work |
| 269 | around bugs. |
269 | around bugs. |
| 270 | |
270 | |
|
|
271 | =item C<EVFLAG_FORKCHECK> |
|
|
272 | |
|
|
273 | Instead of calling C<ev_default_fork> or C<ev_loop_fork> manually after |
|
|
274 | a fork, you can also make libev check for a fork in each iteration by |
|
|
275 | enabling this flag. |
|
|
276 | |
|
|
277 | This works by calling C<getpid ()> on every iteration of the loop, |
|
|
278 | and thus this might slow down your event loop if you do a lot of loop |
|
|
279 | iterations and little real work, but is usually not noticeable (on my |
|
|
280 | Linux system for example, C<getpid> is actually a simple 5-insn sequence |
|
|
281 | without a syscall and thus I<very> fast, but my Linux system also has |
|
|
282 | C<pthread_atfork> which is even faster). |
|
|
283 | |
|
|
284 | The big advantage of this flag is that you can forget about fork (and |
|
|
285 | forget about forgetting to tell libev about forking) when you use this |
|
|
286 | flag. |
|
|
287 | |
|
|
288 | This flag setting cannot be overriden or specified in the C<LIBEV_FLAGS> |
|
|
289 | environment variable. |
|
|
290 | |
| 271 | =item C<EVBACKEND_SELECT> (value 1, portable select backend) |
291 | =item C<EVBACKEND_SELECT> (value 1, portable select backend) |
| 272 | |
292 | |
| 273 | This is your standard select(2) backend. Not I<completely> standard, as |
293 | This is your standard select(2) backend. Not I<completely> standard, as |
| 274 | libev tries to roll its own fd_set with no limits on the number of fds, |
294 | libev tries to roll its own fd_set with no limits on the number of fds, |
| 275 | but if that fails, expect a fairly low limit on the number of fds when |
295 | but if that fails, expect a fairly low limit on the number of fds when |
| … | |
… | |
| 409 | =item ev_loop_fork (loop) |
429 | =item ev_loop_fork (loop) |
| 410 | |
430 | |
| 411 | Like C<ev_default_fork>, but acts on an event loop created by |
431 | Like C<ev_default_fork>, but acts on an event loop created by |
| 412 | C<ev_loop_new>. Yes, you have to call this on every allocated event loop |
432 | C<ev_loop_new>. Yes, you have to call this on every allocated event loop |
| 413 | after fork, and how you do this is entirely your own problem. |
433 | after fork, and how you do this is entirely your own problem. |
|
|
434 | |
|
|
435 | =item unsigned int ev_loop_count (loop) |
|
|
436 | |
|
|
437 | Returns the count of loop iterations for the loop, which is identical to |
|
|
438 | the number of times libev did poll for new events. It starts at C<0> and |
|
|
439 | happily wraps around with enough iterations. |
|
|
440 | |
|
|
441 | This value can sometimes be useful as a generation counter of sorts (it |
|
|
442 | "ticks" the number of loop iterations), as it roughly corresponds with |
|
|
443 | C<ev_prepare> and C<ev_check> calls. |
| 414 | |
444 | |
| 415 | =item unsigned int ev_backend (loop) |
445 | =item unsigned int ev_backend (loop) |
| 416 | |
446 | |
| 417 | Returns one of the C<EVBACKEND_*> flags indicating the event backend in |
447 | Returns one of the C<EVBACKEND_*> flags indicating the event backend in |
| 418 | use. |
448 | use. |
| … | |
… | |
| 714 | =item ev_cb_set (ev_TYPE *watcher, callback) |
744 | =item ev_cb_set (ev_TYPE *watcher, callback) |
| 715 | |
745 | |
| 716 | Change the callback. You can change the callback at virtually any time |
746 | Change the callback. You can change the callback at virtually any time |
| 717 | (modulo threads). |
747 | (modulo threads). |
| 718 | |
748 | |
|
|
749 | =item ev_set_priority (ev_TYPE *watcher, priority) |
|
|
750 | |
|
|
751 | =item int ev_priority (ev_TYPE *watcher) |
|
|
752 | |
|
|
753 | Set and query the priority of the watcher. The priority is a small |
|
|
754 | integer between C<EV_MAXPRI> (default: C<2>) and C<EV_MINPRI> |
|
|
755 | (default: C<-2>). Pending watchers with higher priority will be invoked |
|
|
756 | before watchers with lower priority, but priority will not keep watchers |
|
|
757 | from being executed (except for C<ev_idle> watchers). |
|
|
758 | |
|
|
759 | This means that priorities are I<only> used for ordering callback |
|
|
760 | invocation after new events have been received. This is useful, for |
|
|
761 | example, to reduce latency after idling, or more often, to bind two |
|
|
762 | watchers on the same event and make sure one is called first. |
|
|
763 | |
|
|
764 | If you need to suppress invocation when higher priority events are pending |
|
|
765 | you need to look at C<ev_idle> watchers, which provide this functionality. |
|
|
766 | |
|
|
767 | The default priority used by watchers when no priority has been set is |
|
|
768 | always C<0>, which is supposed to not be too high and not be too low :). |
|
|
769 | |
|
|
770 | Setting a priority outside the range of C<EV_MINPRI> to C<EV_MAXPRI> is |
|
|
771 | fine, as long as you do not mind that the priority value you query might |
|
|
772 | or might not have been adjusted to be within valid range. |
|
|
773 | |
| 719 | =back |
774 | =back |
| 720 | |
775 | |
| 721 | |
776 | |
| 722 | =head2 ASSOCIATING CUSTOM DATA WITH A WATCHER |
777 | =head2 ASSOCIATING CUSTOM DATA WITH A WATCHER |
| 723 | |
778 | |
| … | |
… | |
| 828 | it is best to always use non-blocking I/O: An extra C<read>(2) returning |
883 | it is best to always use non-blocking I/O: An extra C<read>(2) returning |
| 829 | C<EAGAIN> is far preferable to a program hanging until some data arrives. |
884 | C<EAGAIN> is far preferable to a program hanging until some data arrives. |
| 830 | |
885 | |
| 831 | If you cannot run the fd in non-blocking mode (for example you should not |
886 | If you cannot run the fd in non-blocking mode (for example you should not |
| 832 | play around with an Xlib connection), then you have to seperately re-test |
887 | play around with an Xlib connection), then you have to seperately re-test |
| 833 | wether a file descriptor is really ready with a known-to-be good interface |
888 | whether a file descriptor is really ready with a known-to-be good interface |
| 834 | such as poll (fortunately in our Xlib example, Xlib already does this on |
889 | such as poll (fortunately in our Xlib example, Xlib already does this on |
| 835 | its own, so its quite safe to use). |
890 | its own, so its quite safe to use). |
| 836 | |
891 | |
| 837 | =over 4 |
892 | =over 4 |
| 838 | |
893 | |
| … | |
… | |
| 1321 | ev_stat_start (loop, &passwd); |
1376 | ev_stat_start (loop, &passwd); |
| 1322 | |
1377 | |
| 1323 | |
1378 | |
| 1324 | =head2 C<ev_idle> - when you've got nothing better to do... |
1379 | =head2 C<ev_idle> - when you've got nothing better to do... |
| 1325 | |
1380 | |
| 1326 | Idle watchers trigger events when there are no other events are pending |
1381 | Idle watchers trigger events when no other events of the same or higher |
| 1327 | (prepare, check and other idle watchers do not count). That is, as long |
1382 | priority are pending (prepare, check and other idle watchers do not |
| 1328 | as your process is busy handling sockets or timeouts (or even signals, |
1383 | count). |
| 1329 | imagine) it will not be triggered. But when your process is idle all idle |
1384 | |
| 1330 | watchers are being called again and again, once per event loop iteration - |
1385 | That is, as long as your process is busy handling sockets or timeouts |
|
|
1386 | (or even signals, imagine) of the same or higher priority it will not be |
|
|
1387 | triggered. But when your process is idle (or only lower-priority watchers |
|
|
1388 | are pending), the idle watchers are being called once per event loop |
| 1331 | until stopped, that is, or your process receives more events and becomes |
1389 | iteration - until stopped, that is, or your process receives more events |
| 1332 | busy. |
1390 | and becomes busy again with higher priority stuff. |
| 1333 | |
1391 | |
| 1334 | The most noteworthy effect is that as long as any idle watchers are |
1392 | The most noteworthy effect is that as long as any idle watchers are |
| 1335 | active, the process will not block when waiting for new events. |
1393 | active, the process will not block when waiting for new events. |
| 1336 | |
1394 | |
| 1337 | Apart from keeping your process non-blocking (which is a useful |
1395 | Apart from keeping your process non-blocking (which is a useful |
| … | |
… | |
| 1437 | |
1495 | |
| 1438 | // create io watchers for each fd and a timer before blocking |
1496 | // create io watchers for each fd and a timer before blocking |
| 1439 | static void |
1497 | static void |
| 1440 | adns_prepare_cb (ev_loop *loop, ev_prepare *w, int revents) |
1498 | adns_prepare_cb (ev_loop *loop, ev_prepare *w, int revents) |
| 1441 | { |
1499 | { |
| 1442 | int timeout = 3600000;truct pollfd fds [nfd]; |
1500 | int timeout = 3600000; |
|
|
1501 | struct pollfd fds [nfd]; |
| 1443 | // actual code will need to loop here and realloc etc. |
1502 | // actual code will need to loop here and realloc etc. |
| 1444 | adns_beforepoll (ads, fds, &nfd, &timeout, timeval_from (ev_time ())); |
1503 | adns_beforepoll (ads, fds, &nfd, &timeout, timeval_from (ev_time ())); |
| 1445 | |
1504 | |
| 1446 | /* the callback is illegal, but won't be called as we stop during check */ |
1505 | /* the callback is illegal, but won't be called as we stop during check */ |
| 1447 | ev_timer_init (&tw, 0, timeout * 1e-3); |
1506 | ev_timer_init (&tw, 0, timeout * 1e-3); |
| … | |
… | |
| 1785 | |
1844 | |
| 1786 | |
1845 | |
| 1787 | =head1 MACRO MAGIC |
1846 | =head1 MACRO MAGIC |
| 1788 | |
1847 | |
| 1789 | Libev can be compiled with a variety of options, the most fundemantal is |
1848 | Libev can be compiled with a variety of options, the most fundemantal is |
| 1790 | C<EV_MULTIPLICITY>. This option determines wether (most) functions and |
1849 | C<EV_MULTIPLICITY>. This option determines whether (most) functions and |
| 1791 | callbacks have an initial C<struct ev_loop *> argument. |
1850 | callbacks have an initial C<struct ev_loop *> argument. |
| 1792 | |
1851 | |
| 1793 | To make it easier to write programs that cope with either variant, the |
1852 | To make it easier to write programs that cope with either variant, the |
| 1794 | following macros are defined: |
1853 | following macros are defined: |
| 1795 | |
1854 | |
| … | |
… | |
| 1828 | Similar to the other two macros, this gives you the value of the default |
1887 | Similar to the other two macros, this gives you the value of the default |
| 1829 | loop, if multiple loops are supported ("ev loop default"). |
1888 | loop, if multiple loops are supported ("ev loop default"). |
| 1830 | |
1889 | |
| 1831 | =back |
1890 | =back |
| 1832 | |
1891 | |
| 1833 | Example: Declare and initialise a check watcher, working regardless of |
1892 | Example: Declare and initialise a check watcher, utilising the above |
| 1834 | wether multiple loops are supported or not. |
1893 | macros so it will work regardless of whether multiple loops are supported |
|
|
1894 | or not. |
| 1835 | |
1895 | |
| 1836 | static void |
1896 | static void |
| 1837 | check_cb (EV_P_ ev_timer *w, int revents) |
1897 | check_cb (EV_P_ ev_timer *w, int revents) |
| 1838 | { |
1898 | { |
| 1839 | ev_check_stop (EV_A_ w); |
1899 | ev_check_stop (EV_A_ w); |
| … | |
… | |
| 1841 | |
1901 | |
| 1842 | ev_check check; |
1902 | ev_check check; |
| 1843 | ev_check_init (&check, check_cb); |
1903 | ev_check_init (&check, check_cb); |
| 1844 | ev_check_start (EV_DEFAULT_ &check); |
1904 | ev_check_start (EV_DEFAULT_ &check); |
| 1845 | ev_loop (EV_DEFAULT_ 0); |
1905 | ev_loop (EV_DEFAULT_ 0); |
| 1846 | |
|
|
| 1847 | |
1906 | |
| 1848 | =head1 EMBEDDING |
1907 | =head1 EMBEDDING |
| 1849 | |
1908 | |
| 1850 | Libev can (and often is) directly embedded into host |
1909 | Libev can (and often is) directly embedded into host |
| 1851 | applications. Examples of applications that embed it include the Deliantra |
1910 | applications. Examples of applications that embed it include the Deliantra |
| … | |
… | |
| 1891 | ev_vars.h |
1950 | ev_vars.h |
| 1892 | ev_wrap.h |
1951 | ev_wrap.h |
| 1893 | |
1952 | |
| 1894 | ev_win32.c required on win32 platforms only |
1953 | ev_win32.c required on win32 platforms only |
| 1895 | |
1954 | |
| 1896 | ev_select.c only when select backend is enabled (which is by default) |
1955 | ev_select.c only when select backend is enabled (which is enabled by default) |
| 1897 | ev_poll.c only when poll backend is enabled (disabled by default) |
1956 | ev_poll.c only when poll backend is enabled (disabled by default) |
| 1898 | ev_epoll.c only when the epoll backend is enabled (disabled by default) |
1957 | ev_epoll.c only when the epoll backend is enabled (disabled by default) |
| 1899 | ev_kqueue.c only when the kqueue backend is enabled (disabled by default) |
1958 | ev_kqueue.c only when the kqueue backend is enabled (disabled by default) |
| 1900 | ev_port.c only when the solaris port backend is enabled (disabled by default) |
1959 | ev_port.c only when the solaris port backend is enabled (disabled by default) |
| 1901 | |
1960 | |
| … | |
… | |
| 2070 | |
2129 | |
| 2071 | If undefined or defined to be C<1>, then periodic timers are supported. If |
2130 | If undefined or defined to be C<1>, then periodic timers are supported. If |
| 2072 | defined to be C<0>, then they are not. Disabling them saves a few kB of |
2131 | defined to be C<0>, then they are not. Disabling them saves a few kB of |
| 2073 | code. |
2132 | code. |
| 2074 | |
2133 | |
|
|
2134 | =item EV_IDLE_ENABLE |
|
|
2135 | |
|
|
2136 | If undefined or defined to be C<1>, then idle watchers are supported. If |
|
|
2137 | defined to be C<0>, then they are not. Disabling them saves a few kB of |
|
|
2138 | code. |
|
|
2139 | |
| 2075 | =item EV_EMBED_ENABLE |
2140 | =item EV_EMBED_ENABLE |
| 2076 | |
2141 | |
| 2077 | If undefined or defined to be C<1>, then embed watchers are supported. If |
2142 | If undefined or defined to be C<1>, then embed watchers are supported. If |
| 2078 | defined to be C<0>, then they are not. |
2143 | defined to be C<0>, then they are not. |
| 2079 | |
2144 | |
| … | |
… | |
| 2143 | interface) and F<EV.xs> (implementation) files. Only the F<EV.xs> file |
2208 | interface) and F<EV.xs> (implementation) files. Only the F<EV.xs> file |
| 2144 | will be compiled. It is pretty complex because it provides its own header |
2209 | will be compiled. It is pretty complex because it provides its own header |
| 2145 | file. |
2210 | file. |
| 2146 | |
2211 | |
| 2147 | The usage in rxvt-unicode is simpler. It has a F<ev_cpp.h> header file |
2212 | The usage in rxvt-unicode is simpler. It has a F<ev_cpp.h> header file |
| 2148 | that everybody includes and which overrides some autoconf choices: |
2213 | that everybody includes and which overrides some configure choices: |
| 2149 | |
2214 | |
|
|
2215 | #define EV_MINIMAL 1 |
| 2150 | #define EV_USE_POLL 0 |
2216 | #define EV_USE_POLL 0 |
| 2151 | #define EV_MULTIPLICITY 0 |
2217 | #define EV_MULTIPLICITY 0 |
| 2152 | #define EV_PERIODICS 0 |
2218 | #define EV_PERIODIC_ENABLE 0 |
|
|
2219 | #define EV_STAT_ENABLE 0 |
|
|
2220 | #define EV_FORK_ENABLE 0 |
| 2153 | #define EV_CONFIG_H <config.h> |
2221 | #define EV_CONFIG_H <config.h> |
|
|
2222 | #define EV_MINPRI 0 |
|
|
2223 | #define EV_MAXPRI 0 |
| 2154 | |
2224 | |
| 2155 | #include "ev++.h" |
2225 | #include "ev++.h" |
| 2156 | |
2226 | |
| 2157 | And a F<ev_cpp.C> implementation file that contains libev proper and is compiled: |
2227 | And a F<ev_cpp.C> implementation file that contains libev proper and is compiled: |
| 2158 | |
2228 | |
