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Comparing Coro/Coro.pm (file contents):
Revision 1.88 by root, Sun Nov 26 02:54:55 2006 UTC vs.
Revision 1.93 by root, Fri Dec 1 19:41:06 2006 UTC

8 8
9 async { 9 async {
10 # some asynchronous thread of execution 10 # some asynchronous thread of execution
11 }; 11 };
12 12
13 # alternatively create an async process like this: 13 # alternatively create an async coroutine like this:
14 14
15 sub some_func : Coro { 15 sub some_func : Coro {
16 # some more async code 16 # some more async code
17 } 17 }
18 18
43our $main; # main coroutine 43our $main; # main coroutine
44our $current; # current coroutine 44our $current; # current coroutine
45 45
46our $VERSION = '3.0'; 46our $VERSION = '3.0';
47 47
48our @EXPORT = qw(async cede schedule terminate current); 48our @EXPORT = qw(async cede schedule terminate current unblock_sub);
49our %EXPORT_TAGS = ( 49our %EXPORT_TAGS = (
50 prio => [qw(PRIO_MAX PRIO_HIGH PRIO_NORMAL PRIO_LOW PRIO_IDLE PRIO_MIN)], 50 prio => [qw(PRIO_MAX PRIO_HIGH PRIO_NORMAL PRIO_LOW PRIO_IDLE PRIO_MIN)],
51); 51);
52our @EXPORT_OK = @{$EXPORT_TAGS{prio}}; 52our @EXPORT_OK = @{$EXPORT_TAGS{prio}};
53 53
57 57
58 # this way of handling attributes simply is NOT scalable ;() 58 # this way of handling attributes simply is NOT scalable ;()
59 sub import { 59 sub import {
60 no strict 'refs'; 60 no strict 'refs';
61 61
62 Coro->export_to_level(1, @_); 62 Coro->export_to_level (1, @_);
63 63
64 my $old = *{(caller)[0]."::MODIFY_CODE_ATTRIBUTES"}{CODE}; 64 my $old = *{(caller)[0]."::MODIFY_CODE_ATTRIBUTES"}{CODE};
65 *{(caller)[0]."::MODIFY_CODE_ATTRIBUTES"} = sub { 65 *{(caller)[0]."::MODIFY_CODE_ATTRIBUTES"} = sub {
66 my ($package, $ref) = (shift, shift); 66 my ($package, $ref) = (shift, shift);
67 my @attrs; 67 my @attrs;
105C<Coro::current> function instead. 105C<Coro::current> function instead.
106 106
107=cut 107=cut
108 108
109# maybe some other module used Coro::Specific before... 109# maybe some other module used Coro::Specific before...
110if ($current) {
111 $main->{specific} = $current->{specific}; 110$main->{specific} = $current->{specific}
112} 111 if $current;
113 112
114$current = $main; 113_set_current $main;
115 114
116sub current() { $current } 115sub current() { $current }
117 116
118=item $idle 117=item $idle
119 118
120A callback that is called whenever the scheduler finds no ready coroutines 119A callback that is called whenever the scheduler finds no ready coroutines
121to run. The default implementation prints "FATAL: deadlock detected" and 120to run. The default implementation prints "FATAL: deadlock detected" and
122exits. 121exits, because the program has no other way to continue.
123 122
124This hook is overwritten by modules such as C<Coro::Timer> and 123This hook is overwritten by modules such as C<Coro::Timer> and
125C<Coro::Event> to wait on an external event that hopefully wakes up some 124C<Coro::Event> to wait on an external event that hopefully wake up a
126coroutine. 125coroutine so the scheduler can run it.
126
127Please note that if your callback recursively invokes perl (e.g. for event
128handlers), then it must be prepared to be called recursively.
127 129
128=cut 130=cut
129 131
130$idle = sub { 132$idle = sub {
131 print STDERR "FATAL: deadlock detected\n"; 133 print STDERR "FATAL: deadlock detected\n";
146 my $coro = pop @destroy; 148 my $coro = pop @destroy;
147 $coro->{status} ||= []; 149 $coro->{status} ||= [];
148 $_->ready for @{delete $coro->{join} || []}; 150 $_->ready for @{delete $coro->{join} || []};
149 151
150 # the next line destroys the coro state, but keeps the 152 # the next line destroys the coro state, but keeps the
151 # process itself intact (we basically make it a zombie 153 # coroutine itself intact (we basically make it a zombie
152 # process that always runs the manager thread, so it's possible 154 # coroutine that always runs the manager thread, so it's possible
153 # to transfer() to this process). 155 # to transfer() to this coroutine).
154 $coro->_clone_state_from ($manager); 156 $coro->_clone_state_from ($manager);
155 } 157 }
156 &schedule; 158 &schedule;
157 } 159 }
158}; 160};
161 163
162=back 164=back
163 165
164=head2 STATIC METHODS 166=head2 STATIC METHODS
165 167
166Static methods are actually functions that operate on the current process only. 168Static methods are actually functions that operate on the current coroutine only.
167 169
168=over 4 170=over 4
169 171
170=item async { ... } [@args...] 172=item async { ... } [@args...]
171 173
172Create a new asynchronous process and return it's process object 174Create a new asynchronous coroutine and return it's coroutine object
173(usually unused). When the sub returns the new process is automatically 175(usually unused). When the sub returns the new coroutine is automatically
174terminated. 176terminated.
177
178Calling C<exit> in a coroutine will not work correctly, so do not do that.
175 179
176When the coroutine dies, the program will exit, just as in the main 180When the coroutine dies, the program will exit, just as in the main
177program. 181program.
178 182
179 # create a new coroutine that just prints its arguments 183 # create a new coroutine that just prints its arguments
189 $pid 193 $pid
190} 194}
191 195
192=item schedule 196=item schedule
193 197
194Calls the scheduler. Please note that the current process will not be put 198Calls the scheduler. Please note that the current coroutine will not be put
195into the ready queue, so calling this function usually means you will 199into the ready queue, so calling this function usually means you will
196never be called again. 200never be called again unless something else (e.g. an event handler) calls
201ready.
197 202
198=cut 203The canonical way to wait on external events is this:
204
205 {
206 # remember current coroutine
207 my $current = $Coro::current;
208
209 # register a hypothetical event handler
210 on_event_invoke sub {
211 # wake up sleeping coroutine
212 $current->ready;
213 undef $current;
214 };
215
216 # call schedule until event occured.
217 # in case we are woken up for other reasons
218 # (current still defined), loop.
219 Coro::schedule while $current;
220 }
199 221
200=item cede 222=item cede
201 223
202"Cede" to other processes. This function puts the current process into the 224"Cede" to other coroutines. This function puts the current coroutine into the
203ready queue and calls C<schedule>, which has the effect of giving up the 225ready queue and calls C<schedule>, which has the effect of giving up the
204current "timeslice" to other coroutines of the same or higher priority. 226current "timeslice" to other coroutines of the same or higher priority.
205 227
206=cut
207
208=item terminate [arg...] 228=item terminate [arg...]
209 229
210Terminates the current process with the given status values (see L<cancel>). 230Terminates the current coroutine with the given status values (see L<cancel>).
211 231
212=cut 232=cut
213 233
214sub terminate { 234sub terminate {
215 $current->cancel (@_); 235 $current->cancel (@_);
217 237
218=back 238=back
219 239
220# dynamic methods 240# dynamic methods
221 241
222=head2 PROCESS METHODS 242=head2 COROUTINE METHODS
223 243
224These are the methods you can call on process objects. 244These are the methods you can call on coroutine objects.
225 245
226=over 4 246=over 4
227 247
228=item new Coro \&sub [, @args...] 248=item new Coro \&sub [, @args...]
229 249
230Create a new process and return it. When the sub returns the process 250Create a new coroutine and return it. When the sub returns the coroutine
231automatically terminates as if C<terminate> with the returned values were 251automatically terminates as if C<terminate> with the returned values were
232called. To make the process run you must first put it into the ready queue 252called. To make the coroutine run you must first put it into the ready queue
233by calling the ready method. 253by calling the ready method.
254
255Calling C<exit> in a coroutine will not work correctly, so do not do that.
234 256
235=cut 257=cut
236 258
237sub _new_coro { 259sub _new_coro {
238 terminate &{+shift}; 260 terminate &{+shift};
242 my $class = shift; 264 my $class = shift;
243 265
244 $class->SUPER::new (\&_new_coro, @_) 266 $class->SUPER::new (\&_new_coro, @_)
245} 267}
246 268
247=item $process->ready 269=item $success = $coroutine->ready
248 270
249Put the given process into the ready queue. 271Put the given coroutine into the ready queue (according to it's priority)
272and return true. If the coroutine is already in the ready queue, do nothing
273and return false.
250 274
251=cut 275=item $is_ready = $coroutine->is_ready
252 276
277Return wether the coroutine is currently the ready queue or not,
278
253=item $process->cancel (arg...) 279=item $coroutine->cancel (arg...)
254 280
255Terminates the given process and makes it return the given arguments as 281Terminates the given coroutine and makes it return the given arguments as
256status (default: the empty list). 282status (default: the empty list).
257 283
258=cut 284=cut
259 285
260sub cancel { 286sub cancel {
263 push @destroy, $self; 289 push @destroy, $self;
264 $manager->ready; 290 $manager->ready;
265 &schedule if $current == $self; 291 &schedule if $current == $self;
266} 292}
267 293
268=item $process->join 294=item $coroutine->join
269 295
270Wait until the coroutine terminates and return any values given to the 296Wait until the coroutine terminates and return any values given to the
271C<terminate> or C<cancel> functions. C<join> can be called multiple times 297C<terminate> or C<cancel> functions. C<join> can be called multiple times
272from multiple processes. 298from multiple coroutine.
273 299
274=cut 300=cut
275 301
276sub join { 302sub join {
277 my $self = shift; 303 my $self = shift;
280 &schedule; 306 &schedule;
281 } 307 }
282 wantarray ? @{$self->{status}} : $self->{status}[0]; 308 wantarray ? @{$self->{status}} : $self->{status}[0];
283} 309}
284 310
285=item $oldprio = $process->prio ($newprio) 311=item $oldprio = $coroutine->prio ($newprio)
286 312
287Sets (or gets, if the argument is missing) the priority of the 313Sets (or gets, if the argument is missing) the priority of the
288process. Higher priority processes get run before lower priority 314coroutine. Higher priority coroutines get run before lower priority
289processes. Priorities are small signed integers (currently -4 .. +3), 315coroutines. Priorities are small signed integers (currently -4 .. +3),
290that you can refer to using PRIO_xxx constants (use the import tag :prio 316that you can refer to using PRIO_xxx constants (use the import tag :prio
291to get then): 317to get then):
292 318
293 PRIO_MAX > PRIO_HIGH > PRIO_NORMAL > PRIO_LOW > PRIO_IDLE > PRIO_MIN 319 PRIO_MAX > PRIO_HIGH > PRIO_NORMAL > PRIO_LOW > PRIO_IDLE > PRIO_MIN
294 3 > 1 > 0 > -1 > -3 > -4 320 3 > 1 > 0 > -1 > -3 > -4
297 current->prio(PRIO_HIGH); 323 current->prio(PRIO_HIGH);
298 324
299The idle coroutine ($Coro::idle) always has a lower priority than any 325The idle coroutine ($Coro::idle) always has a lower priority than any
300existing coroutine. 326existing coroutine.
301 327
302Changing the priority of the current process will take effect immediately, 328Changing the priority of the current coroutine will take effect immediately,
303but changing the priority of processes in the ready queue (but not 329but changing the priority of coroutines in the ready queue (but not
304running) will only take effect after the next schedule (of that 330running) will only take effect after the next schedule (of that
305process). This is a bug that will be fixed in some future version. 331coroutine). This is a bug that will be fixed in some future version.
306 332
307=item $newprio = $process->nice ($change) 333=item $newprio = $coroutine->nice ($change)
308 334
309Similar to C<prio>, but subtract the given value from the priority (i.e. 335Similar to C<prio>, but subtract the given value from the priority (i.e.
310higher values mean lower priority, just as in unix). 336higher values mean lower priority, just as in unix).
311 337
312=item $olddesc = $process->desc ($newdesc) 338=item $olddesc = $coroutine->desc ($newdesc)
313 339
314Sets (or gets in case the argument is missing) the description for this 340Sets (or gets in case the argument is missing) the description for this
315process. This is just a free-form string you can associate with a process. 341coroutine. This is just a free-form string you can associate with a coroutine.
316 342
317=cut 343=cut
318 344
319sub desc { 345sub desc {
320 my $old = $_[0]{desc}; 346 my $old = $_[0]{desc};
322 $old; 348 $old;
323} 349}
324 350
325=back 351=back
326 352
353=head2 UTILITY FUNCTIONS
354
355=over 4
356
357=item unblock_sub { ... }
358
359This utility function takes a BLOCK or code reference and "unblocks" it,
360returning the new coderef. This means that the new coderef will return
361immediately without blocking, returning nothing, while the original code
362ref will be called (with parameters) from within its own coroutine.
363
364The reason this fucntion exists is that many event libraries (such as the
365venerable L<Event|Event> module) are not coroutine-safe (a weaker form
366of thread-safety). This means you must not block within event callbacks,
367otherwise you might suffer from crashes or worse.
368
369This function allows your callbacks to block by executing them in another
370coroutine where it is safe to block. One example where blocking is handy
371is when you use the L<Coro::AIO|Coro::AIO> functions to save results to
372disk.
373
374In short: simply use C<unblock_sub { ... }> instead of C<sub { ... }> when
375creating event callbacks that want to block.
376
377=cut
378
379our @unblock_pool;
380our @unblock_queue;
381our $UNBLOCK_POOL_SIZE = 2;
382
383sub unblock_handler_ {
384 while () {
385 my ($cb, @arg) = @{ delete $Coro::current->{arg} };
386 $cb->(@arg);
387
388 last if @unblock_pool >= $UNBLOCK_POOL_SIZE;
389 push @unblock_pool, $Coro::current;
390 schedule;
391 }
392}
393
394our $unblock_scheduler = async {
395 while () {
396 while (my $cb = pop @unblock_queue) {
397 my $handler = (pop @unblock_pool or new Coro \&unblock_handler_);
398 $handler->{arg} = $cb;
399 $handler->ready;
400 cede;
401 }
402
403 schedule;
404 }
405};
406
407sub unblock_sub(&) {
408 my $cb = shift;
409
410 sub {
411 push @unblock_queue, [$cb, @_];
412 $unblock_scheduler->ready;
413 }
414}
415
416=back
417
327=cut 418=cut
328 419
3291; 4201;
330 421
331=head1 BUGS/LIMITATIONS 422=head1 BUGS/LIMITATIONS

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