X-Git-Url: https://git.llucax.com/software/libev.git/blobdiff_plain/8d0f4d263d9a5601bb7d419e7db00970e288cb7e..7f61bc3d979ef53b867172664694f8fcf9e5bdd0:/ev.html diff --git a/ev.html b/ev.html index 08d84d5..efd79da 100644 --- a/ev.html +++ b/ev.html @@ -6,7 +6,7 @@ - +
@@ -121,6 +121,9 @@The newest version of this document is also available as a html-formatted +web page you might find easier to navigate when reading it for the first +time: http://cvs.schmorp.de/libev/ev.html.
Libev is an event loop: you register interest in certain events (such as a file descriptor being readable or a timeout occuring), and it will manage these event sources and provide your program with events.
@@ -327,6 +330,23 @@ or setgid) then libev will not look at the environment variable override the flags completely if it is found in the environment. This is useful to try out specific backends to test their performance, or to work around bugs. + +EVFLAG_FORKCHECK
Instead of calling ev_default_fork
or ev_loop_fork
manually after
+a fork, you can also make libev check for a fork in each iteration by
+enabling this flag.
This works by calling getpid ()
on every iteration of the loop,
+and thus this might slow down your event loop if you do a lot of loop
+iterations and little real work, but is usually not noticeable (on my
+Linux system for example, getpid
is actually a simple 5-insn sequence
+without a syscall and thus very fast, but my Linux system also has
+pthread_atfork
which is even faster).
The big advantage of this flag is that you can forget about fork (and +forget about forgetting to tell libev about forking) when you use this +flag.
+This flag setting cannot be overriden or specified in the LIBEV_FLAGS
+environment variable.
EVBACKEND_SELECT
(value 1, portable select backend)Like ev_default_fork
, but acts on an event loop created by
ev_loop_new
. Yes, you have to call this on every allocated event loop
after fork, and how you do this is entirely your own problem.
Returns the count of loop iterations for the loop, which is identical to
+the number of times libev did poll for new events. It starts at 0
and
+happily wraps around with enough iterations.
This value can sometimes be useful as a generation counter of sorts (it
+"ticks" the number of loop iterations), as it roughly corresponds with
+ev_prepare
and ev_check
calls.
free ()
it).
Change the callback. You can change the callback at virtually any time (modulo threads).
Set and query the priority of the watcher. The priority is a small
+integer between EV_MAXPRI
(default: 2
) and EV_MINPRI
+(default: -2
). Pending watchers with higher priority will be invoked
+before watchers with lower priority, but priority will not keep watchers
+from being executed (except for ev_idle
watchers).
This means that priorities are only used for ordering callback +invocation after new events have been received. This is useful, for +example, to reduce latency after idling, or more often, to bind two +watchers on the same event and make sure one is called first.
+If you need to suppress invocation when higher priority events are pending
+you need to look at ev_idle
watchers, which provide this functionality.
The default priority used by watchers when no priority has been set is
+always 0
, which is supposed to not be too high and not be too low :).
Setting a priority outside the range of EV_MINPRI
to EV_MAXPRI
is
+fine, as long as you do not mind that the priority value you query might
+or might not have been adjusted to be within valid range.
read
(2) returni
EAGAIN
is far preferable to a program hanging until some data arrives.
If you cannot run the fd in non-blocking mode (for example you should not play around with an Xlib connection), then you have to seperately re-test -wether a file descriptor is really ready with a known-to-be good interface +whether a file descriptor is really ready with a known-to-be good interface such as poll (fortunately in our Xlib example, Xlib already does this on its own, so its quite safe to use).
stat
ing the file.
ev_idle
- when you've got nothing better to do...Idle watchers trigger events when there are no other events are pending -(prepare, check and other idle watchers do not count). That is, as long -as your process is busy handling sockets or timeouts (or even signals, -imagine) it will not be triggered. But when your process is idle all idle -watchers are being called again and again, once per event loop iteration - -until stopped, that is, or your process receives more events and becomes -busy.
+Idle watchers trigger events when no other events of the same or higher +priority are pending (prepare, check and other idle watchers do not +count).
+That is, as long as your process is busy handling sockets or timeouts +(or even signals, imagine) of the same or higher priority it will not be +triggered. But when your process is idle (or only lower-priority watchers +are pending), the idle watchers are being called once per event loop +iteration - until stopped, that is, or your process receives more events +and becomes busy again with higher priority stuff.
The most noteworthy effect is that as long as any idle watchers are active, the process will not block when waiting for new events.
Apart from keeping your process non-blocking (which is a useful @@ -1449,7 +1500,8 @@ pseudo-code only of course:
static void adns_prepare_cb (ev_loop *loop, ev_prepare *w, int revents) { - int timeout = 3600000;truct pollfd fds [nfd]; + int timeout = 3600000; + struct pollfd fds [nfd]; // actual code will need to loop here and realloc etc. adns_beforepoll (ads, fds, &nfd, &timeout, timeval_from (ev_time ())); @@ -1686,11 +1738,19 @@ the callback model to a model using method callbacks on objects.#include <ev++.h>-
(it is not installed by default). This automatically includes ev.h
-and puts all of its definitions (many of them macros) into the global
-namespace. All C++ specific things are put into the ev
namespace.
It should support all the same embedding options as ev.h, most notably
-EV_MULTIPLICITY
.
This automatically includes ev.h and puts all of its definitions (many
+of them macros) into the global namespace. All C++ specific things are
+put into the ev
namespace. It should support all the same embedding
+options as ev.h, most notably EV_MULTIPLICITY
.
Care has been taken to keep the overhead low. The only data member added
+to the C-style watchers is the event loop the watcher is associated with
+(or no additional members at all if you disable EV_MULTIPLICITY
when
+embedding libev).
Currently, functions and static and non-static member functions can be +used as callbacks. Other types should be easy to add as long as they only +need one additional pointer for context. If you need support for other +types of functors please contact the author (preferably after implementing +it).
Here is a list of things available in the ev
namespace:
ev::READ
, ev::WRITE
etc.All of those classes have these methods:
The constructor takes a pointer to an object and a method pointer to
-the event handler callback to call in this class. The constructor calls
-ev_init
for you, which means you have to call the set
method
-before starting it. If you do not specify a loop then the constructor
-automatically associates the default loop with this watcher.
The constructor (optionally) takes an event loop to associate the watcher
+with. If it is omitted, it will use EV_DEFAULT
.
The constructor calls ev_init
for you, which means you have to call the
+set
method before starting it.
It will not set a callback, however: You have to call the templated set
+method to set a callback before you can start the watcher.
(The reason why you have to use a method is a limitation in C++ which does +not allow explicit template arguments for constructors).
The destructor automatically stops the watcher if it is active.
This method sets the callback method to call. The method has to have a
+signature of void (*)(ev_TYPE &, int)
, it receives the watcher as
+first argument and the revents
as second. The object must be given as
+parameter and is stored in the data
member of the watcher.
This method synthesizes efficient thunking code to call your method from
+the C callback that libev requires. If your compiler can inline your
+callback (i.e. it is visible to it at the place of the set
call and
+your compiler is good :), then the method will be fully inlined into the
+thunking function, making it as fast as a direct C callback.
Example: simple class declaration and watcher initialisation
+struct myclass + { + void io_cb (ev::io &w, int revents) { } + } + + myclass obj; + ev::io iow; + iow.set <myclass, &myclass::io_cb> (&obj); + ++
Also sets a callback, but uses a static method or plain function as
+callback. The optional data
argument will be stored in the watcher's
+data
member and is free for you to use.
See the method-set
above for more details.
Associates a different struct ev_loop
with this watcher. You can only
@@ -1730,13 +1823,14 @@ do this when the watcher is inactive (and not pending either).
Basically the same as ev_TYPE_set
, with the same args. Must be
-called at least once. Unlike the C counterpart, an active watcher gets
-automatically stopped and restarted.
Starts the watcher. Note that there is no loop
argument as the
-constructor already takes the loop.
Starts the watcher. Note that there is no loop
argument, as the
+constructor already stores the event loop.
Libev can be compiled with a variety of options, the most fundemantal is
-EV_MULTIPLICITY
. This option determines wether (most) functions and
+EV_MULTIPLICITY
. This option determines whether (most) functions and
callbacks have an initial struct ev_loop *
argument.
To make it easier to write programs that cope with either variant, the following macros are defined:
@@ -1824,8 +1919,9 @@ suitable for use withEV_A
.
loop, if multiple loops are supported ("ev loop default").
-Example: Declare and initialise a check watcher, working regardless of -wether multiple loops are supported or not.
+Example: Declare and initialise a check watcher, utilising the above +macros so it will work regardless of whether multiple loops are supported +or not.
static void check_cb (EV_P_ ev_timer *w, int revents) { @@ -1837,9 +1933,6 @@ wether multiple loops are supported or not. ev_check_start (EV_DEFAULT_ &check); ev_loop (EV_DEFAULT_ 0); - - -
struct ev_loop *
as first argument, and you can creat
additional independent event loops. Otherwise there will be no support
for multiple event loops and there is no first event loop pointer
argument. Instead, all functions act on the single default loop.
+ The range of allowed priorities. EV_MINPRI
must be smaller or equal to
+EV_MAXPRI
, but otherwise there are no non-obvious limitations. You can
+provide for more priorities by overriding those symbols (usually defined
+to be -2
and 2
, respectively).
When doing priority-based operations, libev usually has to linearly search +all the priorities, so having many of them (hundreds) uses a lot of space +and time, so using the defaults of five priorities (-2 .. +2) is usually +fine.
+If your embedding app does not need any priorities, defining these both to
+0
will save some memory and cpu.
If undefined or defined to be 1
, then periodic timers are supported. If
defined to be 0
, then they are not. Disabling them saves a few kB of
+code.
If undefined or defined to be 1
, then idle watchers are supported. If
+defined to be 0
, then they are not. Disabling them saves a few kB of
code.
The usage in rxvt-unicode is simpler. It has a ev_cpp.h header file -that everybody includes and which overrides some autoconf choices:
-#define EV_USE_POLL 0 +that everybody includes and which overrides some configure choices: +#define EV_MINIMAL 1 + #define EV_USE_POLL 0 #define EV_MULTIPLICITY 0 - #define EV_PERIODICS 0 + #define EV_PERIODIC_ENABLE 0 + #define EV_STAT_ENABLE 0 + #define EV_FORK_ENABLE 0 #define EV_CONFIG_H <config.h> + #define EV_MINPRI 0 + #define EV_MAXPRI 0 #include "ev++.h" @@ -2166,16 +2284,48 @@ that everybody includes and which overrides some autoconf choices:In this section the complexities of (many of) the algorithms used inside libev will be explained. For complexity discussions about backends see the documentation for
+ev_default_init
.All of the following are about amortised time: If an array needs to be +extended, libev needs to realloc and move the whole array, but this +happens asymptotically never with higher number of elements, so O(1) might +mean it might do a lengthy realloc operation in rare cases, but on average +it is much faster and asymptotically approaches constant time.
This means that, when you have a watcher that triggers in one hour and +there are 100 watchers that would trigger before that then inserting will +have to skip those 100 watchers.
+That means that for changing a timer costs less than removing/adding them +as only the relative motion in the event queue has to be paid for.
+These just add the watcher into an array or at the head of a list. +=item Stopping check/prepare/idle watchers: O(1)
+These watchers are stored in lists then need to be walked to find the +correct watcher to remove. The lists are usually short (you don't usually +have many watchers waiting for the same fd or signal).
+A change means an I/O watcher gets started or stopped, which requires +libev to recalculate its status (and possibly tell the kernel).
+Priorities are implemented by allocating some space for each +priority. When doing priority-based operations, libev usually has to +linearly search all the priorities.
+