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Comparing Coro/Coro.pm (file contents):
Revision 1.134 by root, Sat Sep 22 14:42:56 2007 UTC vs.
Revision 1.180 by root, Fri Apr 25 04:28:50 2008 UTC

2 2
3Coro - coroutine process abstraction 3Coro - coroutine process abstraction
4 4
5=head1 SYNOPSIS 5=head1 SYNOPSIS
6 6
7 use Coro; 7 use Coro;
8 8
9 async { 9 async {
10 # some asynchronous thread of execution 10 # some asynchronous thread of execution
11 print "2\n";
12 cede; # yield back to main
13 print "4\n";
11 }; 14 };
12 15 print "1\n";
13 # alternatively create an async coroutine like this: 16 cede; # yield to coroutine
14 17 print "3\n";
15 sub some_func : Coro { 18 cede; # and again
16 # some more async code 19
17 } 20 # use locking
18 21 my $lock = new Coro::Semaphore;
19 cede; 22 my $locked;
23
24 $lock->down;
25 $locked = 1;
26 $lock->up;
20 27
21=head1 DESCRIPTION 28=head1 DESCRIPTION
22 29
23This module collection manages coroutines. Coroutines are similar 30This module collection manages coroutines. Coroutines are similar
24to threads but don't run in parallel at the same time even on SMP 31to threads but don't run in parallel at the same time even on SMP
33is a performance win on Windows machines, and a loss everywhere else). 40is a performance win on Windows machines, and a loss everywhere else).
34 41
35In this module, coroutines are defined as "callchain + lexical variables + 42In this module, coroutines are defined as "callchain + lexical variables +
36@_ + $_ + $@ + $/ + C stack), that is, a coroutine has its own callchain, 43@_ + $_ + $@ + $/ + C stack), that is, a coroutine has its own callchain,
37its own set of lexicals and its own set of perls most important global 44its own set of lexicals and its own set of perls most important global
38variables. 45variables (see L<Coro::State> for more configuration).
39 46
40=cut 47=cut
41 48
42package Coro; 49package Coro;
43 50
50 57
51our $idle; # idle handler 58our $idle; # idle handler
52our $main; # main coroutine 59our $main; # main coroutine
53our $current; # current coroutine 60our $current; # current coroutine
54 61
55our $VERSION = '3.7'; 62our $VERSION = 4.6;
56 63
57our @EXPORT = qw(async async_pool cede schedule terminate current unblock_sub); 64our @EXPORT = qw(async async_pool cede schedule terminate current unblock_sub);
58our %EXPORT_TAGS = ( 65our %EXPORT_TAGS = (
59 prio => [qw(PRIO_MAX PRIO_HIGH PRIO_NORMAL PRIO_LOW PRIO_IDLE PRIO_MIN)], 66 prio => [qw(PRIO_MAX PRIO_HIGH PRIO_NORMAL PRIO_LOW PRIO_IDLE PRIO_MIN)],
60); 67);
61our @EXPORT_OK = (@{$EXPORT_TAGS{prio}}, qw(nready)); 68our @EXPORT_OK = (@{$EXPORT_TAGS{prio}}, qw(nready));
62 69
63{
64 my @async;
65 my $init;
66
67 # this way of handling attributes simply is NOT scalable ;()
68 sub import {
69 no strict 'refs';
70
71 Coro->export_to_level (1, @_);
72
73 my $old = *{(caller)[0]."::MODIFY_CODE_ATTRIBUTES"}{CODE};
74 *{(caller)[0]."::MODIFY_CODE_ATTRIBUTES"} = sub {
75 my ($package, $ref) = (shift, shift);
76 my @attrs;
77 for (@_) {
78 if ($_ eq "Coro") {
79 push @async, $ref;
80 unless ($init++) {
81 eval q{
82 sub INIT {
83 &async(pop @async) while @async;
84 }
85 };
86 }
87 } else {
88 push @attrs, $_;
89 }
90 }
91 return $old ? $old->($package, $ref, @attrs) : @attrs;
92 };
93 }
94
95}
96
97=over 4 70=over 4
98 71
99=item $main 72=item $main
100 73
101This coroutine represents the main program. 74This coroutine represents the main program.
116=cut 89=cut
117 90
118$main->{desc} = "[main::]"; 91$main->{desc} = "[main::]";
119 92
120# maybe some other module used Coro::Specific before... 93# maybe some other module used Coro::Specific before...
121$main->{specific} = $current->{specific} 94$main->{_specific} = $current->{_specific}
122 if $current; 95 if $current;
123 96
124_set_current $main; 97_set_current $main;
125 98
126sub current() { $current } 99sub current() { $current }
134This hook is overwritten by modules such as C<Coro::Timer> and 107This hook is overwritten by modules such as C<Coro::Timer> and
135C<Coro::Event> to wait on an external event that hopefully wake up a 108C<Coro::Event> to wait on an external event that hopefully wake up a
136coroutine so the scheduler can run it. 109coroutine so the scheduler can run it.
137 110
138Please note that if your callback recursively invokes perl (e.g. for event 111Please note that if your callback recursively invokes perl (e.g. for event
139handlers), then it must be prepared to be called recursively. 112handlers), then it must be prepared to be called recursively itself.
140 113
141=cut 114=cut
142 115
143$idle = sub { 116$idle = sub {
144 require Carp; 117 require Carp;
151 # free coroutine data and mark as destructed 124 # free coroutine data and mark as destructed
152 $self->_destroy 125 $self->_destroy
153 or return; 126 or return;
154 127
155 # call all destruction callbacks 128 # call all destruction callbacks
156 $_->(@{$self->{status}}) 129 $_->(@{$self->{_status}})
157 for @{(delete $self->{destroy_cb}) || []}; 130 for @{(delete $self->{_on_destroy}) || []};
158} 131}
159 132
160# this coroutine is necessary because a coroutine 133# this coroutine is necessary because a coroutine
161# cannot destroy itself. 134# cannot destroy itself.
162my @destroy; 135my @destroy;
171 } 144 }
172}; 145};
173$manager->desc ("[coro manager]"); 146$manager->desc ("[coro manager]");
174$manager->prio (PRIO_MAX); 147$manager->prio (PRIO_MAX);
175 148
176# static methods. not really.
177
178=back 149=back
179 150
180=head2 STATIC METHODS 151=head2 STATIC METHODS
181 152
182Static methods are actually functions that operate on the current coroutine only. 153Static methods are actually functions that operate on the current coroutine only.
186=item async { ... } [@args...] 157=item async { ... } [@args...]
187 158
188Create a new asynchronous coroutine and return it's coroutine object 159Create a new asynchronous coroutine and return it's coroutine object
189(usually unused). When the sub returns the new coroutine is automatically 160(usually unused). When the sub returns the new coroutine is automatically
190terminated. 161terminated.
162
163See the C<Coro::State::new> constructor for info about the coroutine
164environment in which coroutines run.
191 165
192Calling C<exit> in a coroutine will do the same as calling exit outside 166Calling C<exit> in a coroutine will do the same as calling exit outside
193the coroutine. Likewise, when the coroutine dies, the program will exit, 167the coroutine. Likewise, when the coroutine dies, the program will exit,
194just as it would in the main program. 168just as it would in the main program.
195 169
216issued in case of an exception instead of terminating the program, as 190issued in case of an exception instead of terminating the program, as
217C<async> does. As the coroutine is being reused, stuff like C<on_destroy> 191C<async> does. As the coroutine is being reused, stuff like C<on_destroy>
218will not work in the expected way, unless you call terminate or cancel, 192will not work in the expected way, unless you call terminate or cancel,
219which somehow defeats the purpose of pooling. 193which somehow defeats the purpose of pooling.
220 194
221The priority will be reset to C<0> after each job, otherwise the coroutine 195The priority will be reset to C<0> after each job, tracing will be
222will be re-used "as-is". 196disabled, the description will be reset and the default output filehandle
197gets restored, so you can change alkl these. Otherwise the coroutine will
198be re-used "as-is": most notably if you change other per-coroutine global
199stuff such as C<$/> you need to revert that change, which is most simply
200done by using local as in C< local $/ >.
223 201
224The pool size is limited to 8 idle coroutines (this can be adjusted by 202The pool size is limited to 8 idle coroutines (this can be adjusted by
225changing $Coro::POOL_SIZE), and there can be as many non-idle coros as 203changing $Coro::POOL_SIZE), and there can be as many non-idle coros as
226required. 204required.
227 205
241 my $cb; 219 my $cb;
242 220
243 while () { 221 while () {
244 eval { 222 eval {
245 while () { 223 while () {
246 $cb = &_pool_1 224 _pool_1 $cb;
247 or return;
248
249 &$cb; 225 &$cb;
250 226 _pool_2 $cb;
251 return if &_pool_2;
252
253 undef $cb;
254 schedule; 227 &schedule;
255 } 228 }
256 }; 229 };
257 230
231 last if $@ eq "\3async_pool terminate\2\n";
258 warn $@ if $@; 232 warn $@ if $@;
259 } 233 }
260} 234}
261 235
262sub async_pool(&@) { 236sub async_pool(&@) {
263 # this is also inlined into the unlock_scheduler 237 # this is also inlined into the unlock_scheduler
264 my $coro = (pop @async_pool) || new Coro \&pool_handler;; 238 my $coro = (pop @async_pool) || new Coro \&pool_handler;
265 239
266 $coro->{_invoke} = [@_]; 240 $coro->{_invoke} = [@_];
267 $coro->ready; 241 $coro->ready;
268 242
269 $coro 243 $coro
299 273
300"Cede" to other coroutines. This function puts the current coroutine into the 274"Cede" to other coroutines. This function puts the current coroutine into the
301ready queue and calls C<schedule>, which has the effect of giving up the 275ready queue and calls C<schedule>, which has the effect of giving up the
302current "timeslice" to other coroutines of the same or higher priority. 276current "timeslice" to other coroutines of the same or higher priority.
303 277
304Returns true if at least one coroutine switch has happened.
305
306=item Coro::cede_notself 278=item Coro::cede_notself
307 279
308Works like cede, but is not exported by default and will cede to any 280Works like cede, but is not exported by default and will cede to any
309coroutine, regardless of priority, once. 281coroutine, regardless of priority, once.
310 282
311Returns true if at least one coroutine switch has happened.
312
313=item terminate [arg...] 283=item terminate [arg...]
314 284
315Terminates the current coroutine with the given status values (see L<cancel>). 285Terminates the current coroutine with the given status values (see L<cancel>).
286
287=item killall
288
289Kills/terminates/cancels all coroutines except the currently running
290one. This is useful after a fork, either in the child or the parent, as
291usually only one of them should inherit the running coroutines.
316 292
317=cut 293=cut
318 294
319sub terminate { 295sub terminate {
320 $current->cancel (@_); 296 $current->cancel (@_);
321} 297}
322 298
299sub killall {
300 for (Coro::State::list) {
301 $_->cancel
302 if $_ != $current && UNIVERSAL::isa $_, "Coro";
303 }
304}
305
323=back 306=back
324
325# dynamic methods
326 307
327=head2 COROUTINE METHODS 308=head2 COROUTINE METHODS
328 309
329These are the methods you can call on coroutine objects. 310These are the methods you can call on coroutine objects.
330 311
335Create a new coroutine and return it. When the sub returns the coroutine 316Create a new coroutine and return it. When the sub returns the coroutine
336automatically terminates as if C<terminate> with the returned values were 317automatically terminates as if C<terminate> with the returned values were
337called. To make the coroutine run you must first put it into the ready queue 318called. To make the coroutine run you must first put it into the ready queue
338by calling the ready method. 319by calling the ready method.
339 320
340See C<async> for additional discussion. 321See C<async> and C<Coro::State::new> for additional info about the
322coroutine environment.
341 323
342=cut 324=cut
343 325
344sub _run_coro { 326sub _run_coro {
345 terminate &{+shift}; 327 terminate &{+shift};
369 351
370=cut 352=cut
371 353
372sub cancel { 354sub cancel {
373 my $self = shift; 355 my $self = shift;
374 $self->{status} = [@_]; 356 $self->{_status} = [@_];
375 357
376 if ($current == $self) { 358 if ($current == $self) {
377 push @destroy, $self; 359 push @destroy, $self;
378 $manager->ready; 360 $manager->ready;
379 &schedule while 1; 361 &schedule while 1;
383} 365}
384 366
385=item $coroutine->join 367=item $coroutine->join
386 368
387Wait until the coroutine terminates and return any values given to the 369Wait until the coroutine terminates and return any values given to the
388C<terminate> or C<cancel> functions. C<join> can be called multiple times 370C<terminate> or C<cancel> functions. C<join> can be called concurrently
389from multiple coroutine. 371from multiple coroutines.
390 372
391=cut 373=cut
392 374
393sub join { 375sub join {
394 my $self = shift; 376 my $self = shift;
395 377
396 unless ($self->{status}) { 378 unless ($self->{_status}) {
397 my $current = $current; 379 my $current = $current;
398 380
399 push @{$self->{destroy_cb}}, sub { 381 push @{$self->{_on_destroy}}, sub {
400 $current->ready; 382 $current->ready;
401 undef $current; 383 undef $current;
402 }; 384 };
403 385
404 &schedule while $current; 386 &schedule while $current;
405 } 387 }
406 388
407 wantarray ? @{$self->{status}} : $self->{status}[0]; 389 wantarray ? @{$self->{_status}} : $self->{_status}[0];
408} 390}
409 391
410=item $coroutine->on_destroy (\&cb) 392=item $coroutine->on_destroy (\&cb)
411 393
412Registers a callback that is called when this coroutine gets destroyed, 394Registers a callback that is called when this coroutine gets destroyed,
416=cut 398=cut
417 399
418sub on_destroy { 400sub on_destroy {
419 my ($self, $cb) = @_; 401 my ($self, $cb) = @_;
420 402
421 push @{ $self->{destroy_cb} }, $cb; 403 push @{ $self->{_on_destroy} }, $cb;
422} 404}
423 405
424=item $oldprio = $coroutine->prio ($newprio) 406=item $oldprio = $coroutine->prio ($newprio)
425 407
426Sets (or gets, if the argument is missing) the priority of the 408Sets (or gets, if the argument is missing) the priority of the
450 432
451=item $olddesc = $coroutine->desc ($newdesc) 433=item $olddesc = $coroutine->desc ($newdesc)
452 434
453Sets (or gets in case the argument is missing) the description for this 435Sets (or gets in case the argument is missing) the description for this
454coroutine. This is just a free-form string you can associate with a coroutine. 436coroutine. This is just a free-form string you can associate with a coroutine.
437
438This method simply sets the C<< $coroutine->{desc} >> member to the given string. You
439can modify this member directly if you wish.
440
441=item $coroutine->throw ([$scalar])
442
443If C<$throw> is specified and defined, it will be thrown as an exception
444inside the coroutine at the next convinient point in time (usually after
445it gains control at the next schedule/transfer/cede). Otherwise clears the
446exception object.
447
448The exception object will be thrown "as is" with the specified scalar in
449C<$@>, i.e. if it is a string, no line number or newline will be appended
450(unlike with C<die>).
451
452This can be used as a softer means than C<cancel> to ask a coroutine to
453end itself, although there is no guarentee that the exception will lead to
454termination, and if the exception isn't caught it might well end the whole
455program.
455 456
456=cut 457=cut
457 458
458sub desc { 459sub desc {
459 my $old = $_[0]{desc}; 460 my $old = $_[0]{desc};
577 to allow per-thread schedulers, but Coro::State does not yet allow 578 to allow per-thread schedulers, but Coro::State does not yet allow
578 this). 579 this).
579 580
580=head1 SEE ALSO 581=head1 SEE ALSO
581 582
583Lower level Configuration, Coroutine Environment: L<Coro::State>.
584
585Debugging: L<Coro::Debug>.
586
582Support/Utility: L<Coro::Cont>, L<Coro::Specific>, L<Coro::State>, L<Coro::Util>. 587Support/Utility: L<Coro::Specific>, L<Coro::Util>.
583 588
584Locking/IPC: L<Coro::Signal>, L<Coro::Channel>, L<Coro::Semaphore>, L<Coro::SemaphoreSet>, L<Coro::RWLock>. 589Locking/IPC: L<Coro::Signal>, L<Coro::Channel>, L<Coro::Semaphore>, L<Coro::SemaphoreSet>, L<Coro::RWLock>.
585 590
586Event/IO: L<Coro::Timer>, L<Coro::Event>, L<Coro::Handle>, L<Coro::Socket>, L<Coro::Select>. 591Event/IO: L<Coro::Timer>, L<Coro::Event>, L<Coro::Handle>, L<Coro::Socket>.
587 592
593Compatibility: L<Coro::LWP>, L<Coro::Storable>, L<Coro::Select>.
594
588Embedding: L<Coro:MakeMaker> 595Embedding: L<Coro::MakeMaker>.
589 596
590=head1 AUTHOR 597=head1 AUTHOR
591 598
592 Marc Lehmann <schmorp@schmorp.de> 599 Marc Lehmann <schmorp@schmorp.de>
593 http://home.schmorp.de/ 600 http://home.schmorp.de/

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