| 1 | NAME |
1 | NAME |
| 2 | Coro - coroutine process abstraction |
2 | Coro - coroutine process abstraction |
| 3 | |
3 | |
| 4 | SYNOPSIS |
4 | SYNOPSIS |
| 5 | use Coro; |
5 | use Coro; |
| 6 | |
6 | |
| 7 | async { |
7 | async { |
| 8 | # some asynchronous thread of execution |
8 | # some asynchronous thread of execution |
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9 | print "2\n"; |
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10 | cede; # yield back to main |
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11 | print "4\n"; |
| 9 | }; |
12 | }; |
| 10 | |
13 | print "1\n"; |
| 11 | # alternatively create an async coroutine like this: |
14 | cede; # yield to coroutine |
| 12 | |
15 | print "3\n"; |
| 13 | sub some_func : Coro { |
16 | cede; # and again |
| 14 | # some more async code |
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| 15 | } |
17 | |
| 16 | |
18 | # use locking |
| 17 | cede; |
19 | my $lock = new Coro::Semaphore; |
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20 | my $locked; |
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21 | |
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22 | $lock->down; |
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23 | $locked = 1; |
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24 | $lock->up; |
| 18 | |
25 | |
| 19 | DESCRIPTION |
26 | DESCRIPTION |
| 20 | This module collection manages coroutines. Coroutines are similar to |
27 | This module collection manages coroutines. Coroutines are similar to |
| 21 | threads but don't run in parallel at the same time even on SMP machines. |
28 | threads but don't (in general) run in parallel at the same time even on |
| 22 | The specific flavor of coroutine use din this module also guarentees you |
29 | SMP machines. The specific flavor of coroutine used in this module also |
| 23 | that it will not switch between coroutines unless necessary, at |
30 | guarantees you that it will not switch between coroutines unless |
| 24 | easily-identified points in your program, so locking and parallel access |
31 | necessary, at easily-identified points in your program, so locking and |
| 25 | are rarely an issue, making coroutine programming much safer than |
32 | parallel access are rarely an issue, making coroutine programming much |
| 26 | threads programming. |
33 | safer and easier than threads programming. |
| 27 | |
34 | |
| 28 | (Perl, however, does not natively support real threads but instead does |
35 | Unlike a normal perl program, however, coroutines allow you to have |
| 29 | a very slow and memory-intensive emulation of processes using threads. |
36 | multiple running interpreters that share data, which is especially |
| 30 | This is a performance win on Windows machines, and a loss everywhere |
37 | useful to code pseudo-parallel processes and for event-based |
| 31 | else). |
38 | programming, such as multiple HTTP-GET requests running concurrently. |
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39 | See Coro::AnyEvent to learn more. |
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40 | |
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41 | Coroutines are also useful because Perl has no support for threads (the |
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42 | so called "threads" that perl offers are nothing more than the (bad) |
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43 | process emulation coming from the Windows platform: On standard |
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44 | operating systems they serve no purpose whatsoever, except by making |
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45 | your programs slow and making them use a lot of memory. Best disable |
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46 | them when building perl, or aks your software vendor/distributor to do |
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47 | it for you). |
| 32 | |
48 | |
| 33 | In this module, coroutines are defined as "callchain + lexical variables |
49 | In this module, coroutines are defined as "callchain + lexical variables |
| 34 | + @_ + $_ + $@ + $/ + C stack), that is, a coroutine has its own |
50 | + @_ + $_ + $@ + $/ + C stack), that is, a coroutine has its own |
| 35 | callchain, its own set of lexicals and its own set of perls most |
51 | callchain, its own set of lexicals and its own set of perls most |
| 36 | important global variables. |
52 | important global variables (see Coro::State for more configuration). |
| 37 | |
53 | |
| 38 | $main |
54 | $Coro::main |
| 39 | This coroutine represents the main program. |
55 | This variable stores the coroutine object that represents the main |
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56 | program. While you cna "ready" it and do most other things you can |
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57 | do to coroutines, it is mainly useful to compare again |
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58 | $Coro::current, to see wether you are running in the main program or |
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59 | not. |
| 40 | |
60 | |
| 41 | $current (or as function: current) |
61 | $Coro::current |
| 42 | The current coroutine (the last coroutine switched to). The initial |
62 | The coroutine object representing the current coroutine (the last |
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63 | coroutine that the Coro scheduler switched to). The initial value is |
| 43 | value is $main (of course). |
64 | $main (of course). |
| 44 | |
65 | |
| 45 | This variable is strictly *read-only*. It is provided for |
66 | This variable is strictly *read-only*. You can take copies of the |
| 46 | performance reasons. If performance is not essentiel you are |
67 | value stored in it and use it as any other coroutine object, but you |
| 47 | encouraged to use the "Coro::current" function instead. |
68 | must not otherwise modify the variable itself. |
| 48 | |
69 | |
| 49 | $idle |
70 | $Coro::idle |
| 50 | A callback that is called whenever the scheduler finds no ready |
71 | This variable is mainly useful to integrate Coro into event loops. |
| 51 | coroutines to run. The default implementation prints "FATAL: |
72 | It is usually better to rely on Coro::AnyEvent or L"Coro::EV", as |
| 52 | deadlock detected" and exits, because the program has no other way |
73 | this is pretty low-level functionality. |
| 53 | to continue. |
74 | |
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75 | This variable stores a callback that is called whenever the |
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76 | scheduler finds no ready coroutines to run. The default |
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77 | implementation prints "FATAL: deadlock detected" and exits, because |
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78 | the program has no other way to continue. |
| 54 | |
79 | |
| 55 | This hook is overwritten by modules such as "Coro::Timer" and |
80 | This hook is overwritten by modules such as "Coro::Timer" and |
| 56 | "Coro::Event" to wait on an external event that hopefully wake up a |
81 | "Coro::AnyEvent" to wait on an external event that hopefully wake up |
| 57 | coroutine so the scheduler can run it. |
82 | a coroutine so the scheduler can run it. |
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83 | |
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84 | Note that the callback *must not*, under any circumstances, block |
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85 | the current coroutine. Normally, this is achieved by having an "idle |
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86 | coroutine" that calls the event loop and then blocks again, and then |
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87 | readying that coroutine in the idle handler. |
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88 | |
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89 | See Coro::Event or Coro::AnyEvent for examples of using this |
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90 | technique. |
| 58 | |
91 | |
| 59 | Please note that if your callback recursively invokes perl (e.g. for |
92 | Please note that if your callback recursively invokes perl (e.g. for |
| 60 | event handlers), then it must be prepared to be called recursively. |
93 | event handlers), then it must be prepared to be called recursively |
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94 | itself. |
| 61 | |
95 | |
| 62 | STATIC METHODS |
96 | SIMPLE COROUTINE CREATION |
| 63 | Static methods are actually functions that operate on the current |
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| 64 | coroutine only. |
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| 65 | |
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| 66 | async { ... } [@args...] |
97 | async { ... } [@args...] |
| 67 | Create a new asynchronous coroutine and return it's coroutine object |
98 | Create a new coroutine and return it's coroutine object (usually |
| 68 | (usually unused). When the sub returns the new coroutine is |
99 | unused). The coroutine will be put into the ready queue, so it will |
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100 | start running automatically on the next scheduler run. |
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101 | |
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102 | The first argument is a codeblock/closure that should be executed in |
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103 | the coroutine. When it returns argument returns the coroutine is |
| 69 | automatically terminated. |
104 | automatically terminated. |
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105 | |
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106 | The remaining arguments are passed as arguments to the closure. |
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107 | |
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108 | See the "Coro::State::new" constructor for info about the coroutine |
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109 | environment in which coroutines are executed. |
| 70 | |
110 | |
| 71 | Calling "exit" in a coroutine will do the same as calling exit |
111 | Calling "exit" in a coroutine will do the same as calling exit |
| 72 | outside the coroutine. Likewise, when the coroutine dies, the |
112 | outside the coroutine. Likewise, when the coroutine dies, the |
| 73 | program will exit, just as it would in the main program. |
113 | program will exit, just as it would in the main program. |
| 74 | |
114 | |
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115 | If you do not want that, you can provide a default "die" handler, or |
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116 | simply avoid dieing (by use of "eval"). |
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117 | |
| 75 | # create a new coroutine that just prints its arguments |
118 | Example: Create a new coroutine that just prints its arguments. |
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119 | |
| 76 | async { |
120 | async { |
| 77 | print "@_\n"; |
121 | print "@_\n"; |
| 78 | } 1,2,3,4; |
122 | } 1,2,3,4; |
| 79 | |
123 | |
| 80 | async_pool { ... } [@args...] |
124 | async_pool { ... } [@args...] |
| 81 | Similar to "async", but uses a coroutine pool, so you should not |
125 | Similar to "async", but uses a coroutine pool, so you should not |
| 82 | call terminate or join (although you are allowed to), and you get a |
126 | call terminate or join on it (although you are allowed to), and you |
| 83 | coroutine that might have executed other code already (which can be |
127 | get a coroutine that might have executed other code already (which |
| 84 | good or bad :). |
128 | can be good or bad :). |
| 85 | |
129 | |
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130 | On the plus side, this function is faster than creating (and |
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131 | destroying) a completely new coroutine, so if you need a lot of |
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132 | generic coroutines in quick successsion, use "async_pool", not |
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133 | "async". |
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134 | |
| 86 | Also, the block is executed in an "eval" context and a warning will |
135 | The code block is executed in an "eval" context and a warning will |
| 87 | be issued in case of an exception instead of terminating the |
136 | be issued in case of an exception instead of terminating the |
| 88 | program, as "async" does. As the coroutine is being reused, stuff |
137 | program, as "async" does. As the coroutine is being reused, stuff |
| 89 | like "on_destroy" will not work in the expected way, unless you call |
138 | like "on_destroy" will not work in the expected way, unless you call |
| 90 | terminate or cancel, which somehow defeats the purpose of pooling. |
139 | terminate or cancel, which somehow defeats the purpose of pooling |
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140 | (but is fine in the exceptional case). |
| 91 | |
141 | |
| 92 | The priority will be reset to 0 after each job, otherwise the |
142 | The priority will be reset to 0 after each run, tracing will be |
| 93 | coroutine will be re-used "as-is". |
143 | disabled, the description will be reset and the default output |
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144 | filehandle gets restored, so you can change all these. Otherwise the |
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145 | coroutine will be re-used "as-is": most notably if you change other |
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146 | per-coroutine global stuff such as $/ you *must needs* to revert |
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147 | that change, which is most simply done by using local as in: " local |
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148 | $/ ". |
| 94 | |
149 | |
| 95 | The pool size is limited to 8 idle coroutines (this can be adjusted |
150 | The pool size is limited to 8 idle coroutines (this can be adjusted |
| 96 | by changing $Coro::POOL_SIZE), and there can be as many non-idle |
151 | by changing $Coro::POOL_SIZE), and there can be as many non-idle |
| 97 | coros as required. |
152 | coros as required. |
| 98 | |
153 | |
| 99 | If you are concerned about pooled coroutines growing a lot because a |
154 | If you are concerned about pooled coroutines growing a lot because a |
| 100 | single "async_pool" used a lot of stackspace you can e.g. |
155 | single "async_pool" used a lot of stackspace you can e.g. |
| 101 | "async_pool { terminate }" once per second or so to slowly replenish |
156 | "async_pool { terminate }" once per second or so to slowly replenish |
| 102 | the pool. |
157 | the pool. In addition to that, when the stacks used by a handler |
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158 | grows larger than 16kb (adjustable via $Coro::POOL_RSS) it will also |
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159 | be destroyed. |
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160 | |
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161 | STATIC METHODS |
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162 | Static methods are actually functions that operate on the current |
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163 | coroutine. |
| 103 | |
164 | |
| 104 | schedule |
165 | schedule |
| 105 | Calls the scheduler. Please note that the current coroutine will not |
166 | Calls the scheduler. The scheduler will find the next coroutine that |
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167 | is to be run from the ready queue and switches to it. The next |
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168 | coroutine to be run is simply the one with the highest priority that |
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169 | is longest in its ready queue. If there is no coroutine ready, it |
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170 | will clal the $Coro::idle hook. |
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171 | |
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172 | Please note that the current coroutine will *not* be put into the |
| 106 | be put into the ready queue, so calling this function usually means |
173 | ready queue, so calling this function usually means you will never |
| 107 | you will never be called again unless something else (e.g. an event |
174 | be called again unless something else (e.g. an event handler) calls |
| 108 | handler) calls ready. |
175 | "->ready", thus waking you up. |
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176 | |
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177 | This makes "schedule" *the* generic method to use to block the |
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178 | current coroutine and wait for events: first you remember the |
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179 | current coroutine in a variable, then arrange for some callback of |
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180 | yours to call "->ready" on that once some event happens, and last |
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181 | you call "schedule" to put yourself to sleep. Note that a lot of |
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182 | things can wake your coroutine up, so you need to check wether the |
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183 | event indeed happened, e.g. by storing the status in a variable. |
| 109 | |
184 | |
| 110 | The canonical way to wait on external events is this: |
185 | The canonical way to wait on external events is this: |
| 111 | |
186 | |
| 112 | { |
187 | { |
| 113 | # remember current coroutine |
188 | # remember current coroutine |
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… | |
| 118 | # wake up sleeping coroutine |
193 | # wake up sleeping coroutine |
| 119 | $current->ready; |
194 | $current->ready; |
| 120 | undef $current; |
195 | undef $current; |
| 121 | }; |
196 | }; |
| 122 | |
197 | |
| 123 | # call schedule until event occured. |
198 | # call schedule until event occurred. |
| 124 | # in case we are woken up for other reasons |
199 | # in case we are woken up for other reasons |
| 125 | # (current still defined), loop. |
200 | # (current still defined), loop. |
| 126 | Coro::schedule while $current; |
201 | Coro::schedule while $current; |
| 127 | } |
202 | } |
| 128 | |
203 | |
| 129 | cede |
204 | cede |
| 130 | "Cede" to other coroutines. This function puts the current coroutine |
205 | "Cede" to other coroutines. This function puts the current coroutine |
| 131 | into the ready queue and calls "schedule", which has the effect of |
206 | into the ready queue and calls "schedule", which has the effect of |
| 132 | giving up the current "timeslice" to other coroutines of the same or |
207 | giving up the current "timeslice" to other coroutines of the same or |
| 133 | higher priority. |
208 | higher priority. Once your coroutine gets its turn again it will |
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209 | automatically be resumed. |
| 134 | |
210 | |
| 135 | Returns true if at least one coroutine switch has happened. |
211 | This function is often called "yield" in other languages. |
| 136 | |
212 | |
| 137 | Coro::cede_notself |
213 | Coro::cede_notself |
| 138 | Works like cede, but is not exported by default and will cede to any |
214 | Works like cede, but is not exported by default and will cede to |
| 139 | coroutine, regardless of priority, once. |
215 | *any* coroutine, regardless of priority. This is useful sometimes to |
| 140 | |
216 | ensure progress is made. |
| 141 | Returns true if at least one coroutine switch has happened. |
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| 142 | |
217 | |
| 143 | terminate [arg...] |
218 | terminate [arg...] |
| 144 | Terminates the current coroutine with the given status values (see |
219 | Terminates the current coroutine with the given status values (see |
| 145 | cancel). |
220 | cancel). |
| 146 | |
221 | |
| 147 | # dynamic methods |
222 | killall |
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223 | Kills/terminates/cancels all coroutines except the currently running |
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224 | one. This is useful after a fork, either in the child or the parent, |
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225 | as usually only one of them should inherit the running coroutines. |
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226 | |
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227 | Note that while this will try to free some of the main programs |
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228 | resources, you cnanot free all of them, so if a coroutine that is |
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229 | not the main program calls this function, there will be some |
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230 | one-time resource leak. |
| 148 | |
231 | |
| 149 | COROUTINE METHODS |
232 | COROUTINE METHODS |
| 150 | These are the methods you can call on coroutine objects. |
233 | These are the methods you can call on coroutine objects (or to create |
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234 | them). |
| 151 | |
235 | |
| 152 | new Coro \&sub [, @args...] |
236 | new Coro \&sub [, @args...] |
| 153 | Create a new coroutine and return it. When the sub returns the |
237 | Create a new coroutine and return it. When the sub returns, the |
| 154 | coroutine automatically terminates as if "terminate" with the |
238 | coroutine automatically terminates as if "terminate" with the |
| 155 | returned values were called. To make the coroutine run you must |
239 | returned values were called. To make the coroutine run you must |
| 156 | first put it into the ready queue by calling the ready method. |
240 | first put it into the ready queue by calling the ready method. |
| 157 | |
241 | |
| 158 | See "async" for additional discussion. |
242 | See "async" and "Coro::State::new" for additional info about the |
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243 | coroutine environment. |
| 159 | |
244 | |
| 160 | $success = $coroutine->ready |
245 | $success = $coroutine->ready |
| 161 | Put the given coroutine into the ready queue (according to it's |
246 | Put the given coroutine into the end of its ready queue (there is |
| 162 | priority) and return true. If the coroutine is already in the ready |
247 | one queue for each priority) and return true. If the coroutine is |
| 163 | queue, do nothing and return false. |
248 | already in the ready queue, do nothing and return false. |
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249 | |
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250 | This ensures that the scheduler will resume this coroutine |
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251 | automatically once all the coroutines of higher priority and all |
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252 | coroutines of the same priority that were put into the ready queue |
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253 | earlier have been resumed. |
| 164 | |
254 | |
| 165 | $is_ready = $coroutine->is_ready |
255 | $is_ready = $coroutine->is_ready |
| 166 | Return wether the coroutine is currently the ready queue or not, |
256 | Return wether the coroutine is currently the ready queue or not, |
| 167 | |
257 | |
| 168 | $coroutine->cancel (arg...) |
258 | $coroutine->cancel (arg...) |
| … | |
… | |
| 170 | arguments as status (default: the empty list). Never returns if the |
260 | arguments as status (default: the empty list). Never returns if the |
| 171 | coroutine is the current coroutine. |
261 | coroutine is the current coroutine. |
| 172 | |
262 | |
| 173 | $coroutine->join |
263 | $coroutine->join |
| 174 | Wait until the coroutine terminates and return any values given to |
264 | Wait until the coroutine terminates and return any values given to |
| 175 | the "terminate" or "cancel" functions. "join" can be called multiple |
265 | the "terminate" or "cancel" functions. "join" can be called |
| 176 | times from multiple coroutine. |
266 | concurrently from multiple coroutines, and all will be resumed and |
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267 | given the status return once the $coroutine terminates. |
| 177 | |
268 | |
| 178 | $coroutine->on_destroy (\&cb) |
269 | $coroutine->on_destroy (\&cb) |
| 179 | Registers a callback that is called when this coroutine gets |
270 | Registers a callback that is called when this coroutine gets |
| 180 | destroyed, but before it is joined. The callback gets passed the |
271 | destroyed, but before it is joined. The callback gets passed the |
| 181 | terminate arguments, if any. |
272 | terminate arguments, if any, and *must not* die, under any |
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273 | circumstances. |
| 182 | |
274 | |
| 183 | $oldprio = $coroutine->prio ($newprio) |
275 | $oldprio = $coroutine->prio ($newprio) |
| 184 | Sets (or gets, if the argument is missing) the priority of the |
276 | Sets (or gets, if the argument is missing) the priority of the |
| 185 | coroutine. Higher priority coroutines get run before lower priority |
277 | coroutine. Higher priority coroutines get run before lower priority |
| 186 | coroutines. Priorities are small signed integers (currently -4 .. |
278 | coroutines. Priorities are small signed integers (currently -4 .. |
| … | |
… | |
| 209 | $olddesc = $coroutine->desc ($newdesc) |
301 | $olddesc = $coroutine->desc ($newdesc) |
| 210 | Sets (or gets in case the argument is missing) the description for |
302 | Sets (or gets in case the argument is missing) the description for |
| 211 | this coroutine. This is just a free-form string you can associate |
303 | this coroutine. This is just a free-form string you can associate |
| 212 | with a coroutine. |
304 | with a coroutine. |
| 213 | |
305 | |
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306 | This method simply sets the "$coroutine->{desc}" member to the given |
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307 | string. You can modify this member directly if you wish. |
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308 | |
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309 | $coroutine->throw ([$scalar]) |
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310 | If $throw is specified and defined, it will be thrown as an |
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311 | exception inside the coroutine at the next convinient point in time |
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312 | (usually after it gains control at the next schedule/transfer/cede). |
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313 | Otherwise clears the exception object. |
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314 | |
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315 | The exception object will be thrown "as is" with the specified |
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316 | scalar in $@, i.e. if it is a string, no line number or newline will |
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317 | be appended (unlike with "die"). |
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318 | |
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319 | This can be used as a softer means than "cancel" to ask a coroutine |
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320 | to end itself, although there is no guarentee that the exception |
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321 | will lead to termination, and if the exception isn't caught it might |
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322 | well end the whole program. |
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323 | |
| 214 | GLOBAL FUNCTIONS |
324 | GLOBAL FUNCTIONS |
| 215 | Coro::nready |
325 | Coro::nready |
| 216 | Returns the number of coroutines that are currently in the ready |
326 | Returns the number of coroutines that are currently in the ready |
| 217 | state, i.e. that can be swicthed to. The value 0 means that the only |
327 | state, i.e. that can be switched to by calling "schedule" directory |
| 218 | runnable coroutine is the currently running one, so "cede" would |
328 | or indirectly. The value 0 means that the only runnable coroutine is |
| 219 | have no effect, and "schedule" would cause a deadlock unless there |
329 | the currently running one, so "cede" would have no effect, and |
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330 | "schedule" would cause a deadlock unless there is an idle handler |
| 220 | is an idle handler that wakes up some coroutines. |
331 | that wakes up some coroutines. |
| 221 | |
332 | |
| 222 | my $guard = Coro::guard { ... } |
333 | my $guard = Coro::guard { ... } |
| 223 | This creates and returns a guard object. Nothing happens until the |
334 | This creates and returns a guard object. Nothing happens until the |
| 224 | object gets destroyed, in which case the codeblock given as argument |
335 | object gets destroyed, in which case the codeblock given as argument |
| 225 | will be executed. This is useful to free locks or other resources in |
336 | will be executed. This is useful to free locks or other resources in |
| … | |
… | |
| 238 | # do something that requires $busy to be true |
349 | # do something that requires $busy to be true |
| 239 | } |
350 | } |
| 240 | |
351 | |
| 241 | unblock_sub { ... } |
352 | unblock_sub { ... } |
| 242 | This utility function takes a BLOCK or code reference and "unblocks" |
353 | This utility function takes a BLOCK or code reference and "unblocks" |
| 243 | it, returning the new coderef. This means that the new coderef will |
354 | it, returning a new coderef. Unblocking means that calling the new |
| 244 | return immediately without blocking, returning nothing, while the |
355 | coderef will return immediately without blocking, returning nothing, |
| 245 | original code ref will be called (with parameters) from within its |
356 | while the original code ref will be called (with parameters) from |
| 246 | own coroutine. |
357 | within another coroutine. |
| 247 | |
358 | |
| 248 | The reason this fucntion exists is that many event libraries (such |
359 | The reason this function exists is that many event libraries (such |
| 249 | as the venerable Event module) are not coroutine-safe (a weaker form |
360 | as the venerable Event module) are not coroutine-safe (a weaker form |
| 250 | of thread-safety). This means you must not block within event |
361 | of thread-safety). This means you must not block within event |
| 251 | callbacks, otherwise you might suffer from crashes or worse. |
362 | callbacks, otherwise you might suffer from crashes or worse. The |
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363 | only event library currently known that is safe to use without |
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364 | "unblock_sub" is EV. |
| 252 | |
365 | |
| 253 | This function allows your callbacks to block by executing them in |
366 | This function allows your callbacks to block by executing them in |
| 254 | another coroutine where it is safe to block. One example where |
367 | another coroutine where it is safe to block. One example where |
| 255 | blocking is handy is when you use the Coro::AIO functions to save |
368 | blocking is handy is when you use the Coro::AIO functions to save |
| 256 | results to disk. |
369 | results to disk, for example. |
| 257 | |
370 | |
| 258 | In short: simply use "unblock_sub { ... }" instead of "sub { ... }" |
371 | In short: simply use "unblock_sub { ... }" instead of "sub { ... }" |
| 259 | when creating event callbacks that want to block. |
372 | when creating event callbacks that want to block. |
| 260 | |
373 | |
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374 | If your handler does not plan to block (e.g. simply sends a message |
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375 | to another coroutine, or puts some other coroutine into the ready |
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376 | queue), there is no reason to use "unblock_sub". |
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377 | |
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378 | Note that you also need to use "unblock_sub" for any other callbacks |
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379 | that are indirectly executed by any C-based event loop. For example, |
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380 | when you use a module that uses AnyEvent (and you use |
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381 | Coro::AnyEvent) and it provides callbacks that are the result of |
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382 | some event callback, then you must not block either, or use |
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383 | "unblock_sub". |
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384 | |
| 261 | BUGS/LIMITATIONS |
385 | BUGS/LIMITATIONS |
| 262 | - you must make very sure that no coro is still active on global |
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| 263 | destruction. very bad things might happen otherwise (usually segfaults). |
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| 264 | |
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| 265 | - this module is not thread-safe. You should only ever use this module |
386 | This module is not perl-pseudo-thread-safe. You should only ever use |
| 266 | from the same thread (this requirement might be losened in the future |
387 | this module from the same thread (this requirement might be removed in |
| 267 | to allow per-thread schedulers, but Coro::State does not yet allow |
388 | the future to allow per-thread schedulers, but Coro::State does not yet |
| 268 | this). |
389 | allow this). I recommend disabling thread support and using processes, |
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390 | as this is much faster and uses less memory. |
| 269 | |
391 | |
| 270 | SEE ALSO |
392 | SEE ALSO |
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393 | Event-Loop integration: Coro::AnyEvent, Coro::EV, Coro::Event. |
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394 | |
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395 | Debugging: Coro::Debug. |
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396 | |
| 271 | Support/Utility: Coro::Cont, Coro::Specific, Coro::State, Coro::Util. |
397 | Support/Utility: Coro::Specific, Coro::Util. |
| 272 | |
398 | |
| 273 | Locking/IPC: Coro::Signal, Coro::Channel, Coro::Semaphore, |
399 | Locking/IPC: Coro::Signal, Coro::Channel, Coro::Semaphore, |
| 274 | Coro::SemaphoreSet, Coro::RWLock. |
400 | Coro::SemaphoreSet, Coro::RWLock. |
| 275 | |
401 | |
| 276 | Event/IO: Coro::Timer, Coro::Event, Coro::Handle, Coro::Socket, |
402 | IO/Timers: Coro::Timer, Coro::Handle, Coro::Socket, Coro::AIO. |
| 277 | Coro::Select. |
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| 278 | |
403 | |
| 279 | Embedding: <Coro:MakeMaker> |
404 | Compatibility: Coro::LWP, Coro::BDB, Coro::Storable, Coro::Select. |
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405 | |
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406 | XS API: Coro::MakeMaker. |
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407 | |
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408 | Low level Configuration, Coroutine Environment: Coro::State. |
| 280 | |
409 | |
| 281 | AUTHOR |
410 | AUTHOR |
| 282 | Marc Lehmann <schmorp@schmorp.de> |
411 | Marc Lehmann <schmorp@schmorp.de> |
| 283 | http://home.schmorp.de/ |
412 | http://home.schmorp.de/ |
| 284 | |
413 | |
