[ViewVC] Diff of: cvs/AnyEvent/lib/AnyEvent.pm

Comparing AnyEvent/lib/AnyEvent.pm (file contents):
Revision 1.276 by root, Sun Aug 9 10:53:33 2009 UTC vs.
Revision 1.284 by root, Sun Aug 16 16:54:51 2009 UTC

…		…
666	one. For example, a function that pings many hosts in parallel might want	666	one. For example, a function that pings many hosts in parallel might want
667	to use a condition variable for the whole process.	667	to use a condition variable for the whole process.
668		668
669	Every call to C<< ->begin >> will increment a counter, and every call to	669	Every call to C<< ->begin >> will increment a counter, and every call to
670	C<< ->end >> will decrement it. If the counter reaches C<0> in C<< ->end	670	C<< ->end >> will decrement it. If the counter reaches C<0> in C<< ->end
671	>>, the (last) callback passed to C<begin> will be executed. That callback	671	>>, the (last) callback passed to C<begin> will be executed, passing the
672	is I<supposed> to call C<< ->send >>, but that is not required. If no	672	condvar as first argument. That callback is I<supposed> to call C<< ->send
673	callback was set, C<send> will be called without any arguments.	673	>>, but that is not required. If no group callback was set, C<send> will
		674	be called without any arguments.
674		675
675	You can think of C<< $cv->send >> giving you an OR condition (one call	676	You can think of C<< $cv->send >> giving you an OR condition (one call
676	sends), while C<< $cv->begin >> and C<< $cv->end >> giving you an AND	677	sends), while C<< $cv->begin >> and C<< $cv->end >> giving you an AND
677	condition (all C<begin> calls must be C<end>'ed before the condvar sends).	678	condition (all C<begin> calls must be C<end>'ed before the condvar sends).
678		679
…		…
705	begung can potentially be zero:	706	begung can potentially be zero:
706		707
707	my $cv = AnyEvent->condvar;	708	my $cv = AnyEvent->condvar;
708		709
709	my %result;	710	my %result;
710	$cv->begin (sub { $cv->send (\%result) });	711	$cv->begin (sub { shift->send (\%result) });
711		712
712	for my $host (@list_of_hosts) {	713	for my $host (@list_of_hosts) {
713	$cv->begin;	714	$cv->begin;
714	ping_host_then_call_callback $host, sub {	715	ping_host_then_call_callback $host, sub {
715	$result{$host} = ...;	716	$result{$host} = ...;
…		…
1115		1116
1116	BEGIN { AnyEvent::common_sense }	1117	BEGIN { AnyEvent::common_sense }
1117		1118
1118	use Carp ();	1119	use Carp ();
1119		1120
1120	our $VERSION = 4.92;	1121	our $VERSION = '5.111';
1121	our $MODEL;	1122	our $MODEL;
1122		1123
1123	our $AUTOLOAD;	1124	our $AUTOLOAD;
1124	our @ISA;	1125	our @ISA;
1125		1126
…		…
1168	[Prima:: => AnyEvent::Impl::POE::],	1169	[Prima:: => AnyEvent::Impl::POE::],
1169	# IO::Async is just too broken - we would need workarounds for its	1170	# IO::Async is just too broken - we would need workarounds for its
1170	# byzantine signal and broken child handling, among others.	1171	# byzantine signal and broken child handling, among others.
1171	# IO::Async is rather hard to detect, as it doesn't have any	1172	# IO::Async is rather hard to detect, as it doesn't have any
1172	# obvious default class.	1173	# obvious default class.
1173	# [0, IO::Async:: => AnyEvent::Impl::IOAsync::], # requires special main program	1174	[IO::Async:: => AnyEvent::Impl::IOAsync::], # requires special main program
1174	# [0, IO::Async::Loop:: => AnyEvent::Impl::IOAsync::], # requires special main program	1175	[IO::Async::Loop:: => AnyEvent::Impl::IOAsync::], # requires special main program
1175	# [0, IO::Async::Notifier:: => AnyEvent::Impl::IOAsync::], # requires special main program	1176	[IO::Async::Notifier:: => AnyEvent::Impl::IOAsync::], # requires special main program
		1177	[AnyEvent::Impl::IOAsync:: => AnyEvent::Impl::IOAsync::], # requires special main program
1176	);	1178	);
1177		1179
1178	our %method = map +($_ => 1),	1180	our %method = map +($_ => 1),
1179	qw(io timer time now now_update signal child idle condvar one_event DESTROY);	1181	qw(io timer time now now_update signal child idle condvar one_event DESTROY);
1180		1182
…		…
1287	# we assume CLOEXEC is already set by perl in all important cases	1289	# we assume CLOEXEC is already set by perl in all important cases
1288		1290
1289	($fh2, $rw)	1291	($fh2, $rw)
1290	}	1292	}
1291		1293
1292	#############################################################################	1294	=head1 SIMPLIFIED AE API
1293	# "new" API, currently only emulation of it	1295
1294	#############################################################################	1296	Starting with version 5.0, AnyEvent officially supports a second, much
		1297	simpler, API that is designed to reduce the calling, typing and memory
		1298	overhead.
		1299
		1300	See the L<AE> manpage for details.
		1301
		1302	=cut
1295		1303
1296	package AE;	1304	package AE;
1297		1305
1298	our $VERSION = $AnyEvent::VERSION;	1306	our $VERSION = $AnyEvent::VERSION;
1299		1307
1300	sub io($$$) {	1308	sub io($$$) {
1301	AnyEvent->io (fh => $_[0], poll => $_[1] ? "w" : "r", cb => $_[2])	1309	AnyEvent->io (fh => $_[0], poll => $_[1] ? "w" : "r", cb => $_[2])
1302	}	1310	}
1303		1311
1304	sub timer($$$) {	1312	sub timer($$$) {
1305	AnyEvent->timer (after => $_[0], interval => $_[1], cb => $_[2]);	1313	AnyEvent->timer (after => $_[0], interval => $_[1], cb => $_[2])
1306	}	1314	}
1307		1315
1308	sub signal($$) {	1316	sub signal($$) {
1309	AnyEvent->signal (signal => $_[0], cb => $_[1]);	1317	AnyEvent->signal (signal => $_[0], cb => $_[1])
1310	}	1318	}
1311		1319
1312	sub child($$) {	1320	sub child($$) {
1313	AnyEvent->child (pid => $_[0], cb => $_[1]);	1321	AnyEvent->child (pid => $_[0], cb => $_[1])
1314	}	1322	}
1315		1323
1316	sub idle($) {	1324	sub idle($) {
1317	AnyEvent->idle (cb => $_[0]);	1325	AnyEvent->idle (cb => $_[0])
1318	}	1326	}
1319		1327
1320	sub cv(;&) {	1328	sub cv(;&) {
1321	AnyEvent->condvar (@_ ? (cb => $_[0]) : ())	1329	AnyEvent->condvar (@_ ? (cb => $_[0]) : ())
1322	}	1330	}
…		…
2054	through AnyEvent. The benchmark creates a lot of timers (with a zero	2062	through AnyEvent. The benchmark creates a lot of timers (with a zero
2055	timeout) and I/O watchers (watching STDOUT, a pty, to become writable,	2063	timeout) and I/O watchers (watching STDOUT, a pty, to become writable,
2056	which it is), lets them fire exactly once and destroys them again.	2064	which it is), lets them fire exactly once and destroys them again.
2057		2065
2058	Source code for this benchmark is found as F<eg/bench> in the AnyEvent	2066	Source code for this benchmark is found as F<eg/bench> in the AnyEvent
2059	distribution.	2067	distribution. It uses the L<AE> interface, which makes a real difference
		2068	for the EV and Perl backends only.
2060		2069
2061	=head3 Explanation of the columns	2070	=head3 Explanation of the columns
2062		2071
2063	I<watcher> is the number of event watchers created/destroyed. Since	2072	I<watcher> is the number of event watchers created/destroyed. Since
2064	different event models feature vastly different performances, each event	2073	different event models feature vastly different performances, each event
…		…
2085	watcher.	2094	watcher.
2086		2095
2087	=head3 Results	2096	=head3 Results
2088		2097
2089	name watchers bytes create invoke destroy comment	2098	name watchers bytes create invoke destroy comment
2090	EV/EV 400000 224 0.47 0.35 0.27 EV native interface	2099	EV/EV 100000 223 0.47 0.43 0.27 EV native interface
2091	EV/Any 100000 224 2.88 0.34 0.27 EV + AnyEvent watchers	2100	EV/Any 100000 223 0.48 0.42 0.26 EV + AnyEvent watchers
2092	CoroEV/Any 100000 224 2.85 0.35 0.28 coroutines + Coro::Signal	2101	Coro::EV/Any 100000 223 0.47 0.42 0.26 coroutines + Coro::Signal
2093	Perl/Any 100000 452 4.13 0.73 0.95 pure perl implementation	2102	Perl/Any 100000 431 2.70 0.74 0.92 pure perl implementation
2094	Event/Event 16000 517 32.20 31.80 0.81 Event native interface	2103	Event/Event 16000 516 31.16 31.84 0.82 Event native interface
2095	Event/Any 16000 590 35.85 31.55 1.06 Event + AnyEvent watchers	2104	Event/Any 16000 1203 42.61 34.79 1.80 Event + AnyEvent watchers
2096	IOAsync/Any 16000 989 38.10 32.77 11.13 via IO::Async::Loop::IO_Poll	2105	IOAsync/Any 16000 1911 41.92 27.45 16.81 via IO::Async::Loop::IO_Poll
2097	IOAsync/Any 16000 990 37.59 29.50 10.61 via IO::Async::Loop::Epoll	2106	IOAsync/Any 16000 1726 40.69 26.37 15.25 via IO::Async::Loop::Epoll
2098	Glib/Any 16000 1357 102.33 12.31 51.00 quadratic behaviour	2107	Glib/Any 16000 1118 89.00 12.57 51.17 quadratic behaviour
2099	Tk/Any 2000 1860 27.20 66.31 14.00 SEGV with >> 2000 watchers	2108	Tk/Any 2000 1346 20.96 10.75 8.00 SEGV with >> 2000 watchers
2100	POE/Event 2000 6328 109.99 751.67 14.02 via POE::Loop::Event	2109	POE/Any 2000 6951 108.97 795.32 14.24 via POE::Loop::Event
2101	POE/Select 2000 6027 94.54 809.13 579.80 via POE::Loop::Select	2110	POE/Any 2000 6648 94.79 774.40 575.51 via POE::Loop::Select
2102		2111
2103	=head3 Discussion	2112	=head3 Discussion
2104		2113
2105	The benchmark does I<not> measure scalability of the event loop very	2114	The benchmark does I<not> measure scalability of the event loop very
2106	well. For example, a select-based event loop (such as the pure perl one)	2115	well. For example, a select-based event loop (such as the pure perl one)
…		…
2118	benchmark machine, handling an event takes roughly 1600 CPU cycles with	2127	benchmark machine, handling an event takes roughly 1600 CPU cycles with
2119	EV, 3100 CPU cycles with AnyEvent's pure perl loop and almost 3000000 CPU	2128	EV, 3100 CPU cycles with AnyEvent's pure perl loop and almost 3000000 CPU
2120	cycles with POE.	2129	cycles with POE.
2121		2130
2122	C<EV> is the sole leader regarding speed and memory use, which are both	2131	C<EV> is the sole leader regarding speed and memory use, which are both
2123	maximal/minimal, respectively. Even when going through AnyEvent, it uses	2132	maximal/minimal, respectively. When using the L<AE> API there is zero
		2133	overhead (when going through the AnyEvent API create is about 5-6 times
		2134	slower, with other times being equal, so still uses far less memory than
2124	far less memory than any other event loop and is still faster than Event	2135	any other event loop and is still faster than Event natively).
2125	natively.
2126		2136
2127	The pure perl implementation is hit in a few sweet spots (both the	2137	The pure perl implementation is hit in a few sweet spots (both the
2128	constant timeout and the use of a single fd hit optimisations in the perl	2138	constant timeout and the use of a single fd hit optimisations in the perl
2129	interpreter and the backend itself). Nevertheless this shows that it	2139	interpreter and the backend itself). Nevertheless this shows that it
2130	adds very little overhead in itself. Like any select-based backend its	2140	adds very little overhead in itself. Like any select-based backend its
…		…
2204	In this benchmark, we use 10000 socket pairs (20000 sockets), of which 100	2214	In this benchmark, we use 10000 socket pairs (20000 sockets), of which 100
2205	(1%) are active. This mirrors the activity of large servers with many	2215	(1%) are active. This mirrors the activity of large servers with many
2206	connections, most of which are idle at any one point in time.	2216	connections, most of which are idle at any one point in time.
2207		2217
2208	Source code for this benchmark is found as F<eg/bench2> in the AnyEvent	2218	Source code for this benchmark is found as F<eg/bench2> in the AnyEvent
2209	distribution.	2219	distribution. It uses the L<AE> interface, which makes a real difference
		2220	for the EV and Perl backends only.
2210		2221
2211	=head3 Explanation of the columns	2222	=head3 Explanation of the columns
2212		2223
2213	I<sockets> is the number of sockets, and twice the number of "servers" (as	2224	I<sockets> is the number of sockets, and twice the number of "servers" (as
2214	each server has a read and write socket end).	2225	each server has a read and write socket end).
…		…
2222	a new one that moves the timeout into the future.	2233	a new one that moves the timeout into the future.
2223		2234
2224	=head3 Results	2235	=head3 Results
2225		2236
2226	name sockets create request	2237	name sockets create request
2227	EV 20000 69.01 11.16	2238	EV 20000 62.66 7.99
2228	Perl 20000 73.32 35.87	2239	Perl 20000 68.32 32.64
2229	IOAsync 20000 157.00 98.14 epoll	2240	IOAsync 20000 174.06 101.15 epoll
2230	IOAsync 20000 159.31 616.06 poll	2241	IOAsync 20000 174.67 610.84 poll
2231	Event 20000 212.62 257.32	2242	Event 20000 202.69 242.91
2232	Glib 20000 651.16 1896.30	2243	Glib 20000 557.01 1689.52
2233	POE 20000 349.67 12317.24 uses POE::Loop::Event	2244	POE 20000 341.54 12086.32 uses POE::Loop::Event
2234		2245
2235	=head3 Discussion	2246	=head3 Discussion
2236		2247
2237	This benchmark I<does> measure scalability and overall performance of the	2248	This benchmark I<does> measure scalability and overall performance of the
2238	particular event loop.	2249	particular event loop.

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Comparing AnyEvent/lib/AnyEvent.pm (file contents): Revision 1.276 by root, Sun Aug 9 10:53:33 2009 UTC vs. Revision 1.284 by root, Sun Aug 16 16:54:51 2009 UTC

Diff Legend

Comparing AnyEvent/lib/AnyEvent.pm (file contents):
Revision 1.276 by root, Sun Aug 9 10:53:33 2009 UTC vs.
Revision 1.284 by root, Sun Aug 16 16:54:51 2009 UTC