1 | =head1 NAME |
1 | =head1 NAME |
2 | |
2 | |
3 | Coro - create an manage coroutines |
3 | Coro - coroutine process abstraction |
4 | |
4 | |
5 | =head1 SYNOPSIS |
5 | =head1 SYNOPSIS |
6 | |
6 | |
7 | use Coro; |
7 | use Coro; |
8 | |
8 | |
9 | $new = new Coro sub { |
9 | async { |
10 | print "in coroutine, switching back\n"; |
10 | # some asynchronous thread of execution |
11 | $Coro::main->resume; |
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12 | print "in coroutine again, switching back\n"; |
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13 | $Coro::main->resume; |
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14 | }; |
11 | }; |
15 | |
12 | |
16 | print "in main, switching to coroutine\n"; |
13 | # alternatively create an async process like this: |
17 | $new->resume; |
14 | |
18 | print "back in main, switch to coroutine again\n"; |
15 | sub some_func : Coro { |
19 | $new->resume; |
16 | # some more async code |
20 | print "back in main\n"; |
17 | } |
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18 | |
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19 | cede; |
21 | |
20 | |
22 | =head1 DESCRIPTION |
21 | =head1 DESCRIPTION |
23 | |
22 | |
24 | This module implements coroutines. Coroutines, similar to continuations, |
23 | This module collection manages coroutines. Coroutines are similar to |
25 | allow you to run more than one "thread of execution" in parallel. Unlike |
24 | threads but don't run in parallel. |
26 | threads this, only voluntary switching is used so locking problems are |
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27 | greatly reduced. |
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28 | |
25 | |
29 | Although this is the "main" module of the Coro family it provides only |
26 | In this module, coroutines are defined as "callchain + lexical variables |
30 | low-level functionality. See L<Coro::Process> and related modules for a |
27 | + @_ + $_ + $@ + $^W + C stack), that is, a coroutine has it's own |
31 | more useful process abstraction including scheduling. |
28 | callchain, it's own set of lexicals and it's own set of perl's most |
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29 | important global variables. |
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30 | |
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31 | =cut |
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32 | |
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33 | package Coro; |
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34 | |
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35 | BEGIN { eval { require warnings } && warnings->unimport ("uninitialized") } |
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36 | |
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37 | use Coro::State; |
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38 | |
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39 | use vars qw($idle $main $current); |
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40 | |
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41 | use base Exporter; |
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42 | |
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43 | $VERSION = 1.11; |
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44 | |
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45 | @EXPORT = qw(async cede schedule terminate current); |
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46 | %EXPORT_TAGS = ( |
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47 | prio => [qw(PRIO_MAX PRIO_HIGH PRIO_NORMAL PRIO_LOW PRIO_IDLE PRIO_MIN)], |
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48 | ); |
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49 | @EXPORT_OK = @{$EXPORT_TAGS{prio}}; |
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50 | |
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51 | { |
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52 | my @async; |
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53 | my $init; |
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54 | |
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55 | # this way of handling attributes simply is NOT scalable ;() |
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56 | sub import { |
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57 | Coro->export_to_level(1, @_); |
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58 | my $old = *{(caller)[0]."::MODIFY_CODE_ATTRIBUTES"}{CODE}; |
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59 | *{(caller)[0]."::MODIFY_CODE_ATTRIBUTES"} = sub { |
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60 | my ($package, $ref) = (shift, shift); |
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61 | my @attrs; |
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62 | for (@_) { |
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63 | if ($_ eq "Coro") { |
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64 | push @async, $ref; |
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65 | unless ($init++) { |
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66 | eval q{ |
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67 | sub INIT { |
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68 | &async(pop @async) while @async; |
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69 | } |
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70 | }; |
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71 | } |
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72 | } else { |
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73 | push @attrs, $_; |
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74 | } |
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75 | } |
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76 | return $old ? $old->($package, $ref, @attrs) : @attrs; |
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77 | }; |
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78 | } |
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79 | |
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80 | } |
32 | |
81 | |
33 | =over 4 |
82 | =over 4 |
34 | |
83 | |
35 | =cut |
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36 | |
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37 | package Coro; |
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38 | |
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39 | BEGIN { |
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40 | $VERSION = 0.01; |
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41 | |
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42 | require XSLoader; |
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43 | XSLoader::load Coro, $VERSION; |
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44 | } |
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45 | |
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46 | =item $main |
84 | =item $main |
47 | |
85 | |
48 | This coroutine represents the main program. |
86 | This coroutine represents the main program. |
49 | |
87 | |
50 | =item $current |
88 | =cut |
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89 | |
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90 | $main = new Coro; |
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91 | |
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92 | =item $current (or as function: current) |
51 | |
93 | |
52 | The current coroutine (the last coroutine switched to). The initial value is C<$main> (of course). |
94 | The current coroutine (the last coroutine switched to). The initial value is C<$main> (of course). |
53 | |
95 | |
54 | =cut |
96 | =cut |
55 | |
97 | |
56 | $main = $current = _newprocess { |
98 | # maybe some other module used Coro::Specific before... |
57 | # never being called |
99 | if ($current) { |
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100 | $main->{specific} = $current->{specific}; |
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101 | } |
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102 | |
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103 | $current = $main; |
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104 | |
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105 | sub current() { $current } |
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106 | |
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107 | =item $idle |
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108 | |
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109 | The coroutine to switch to when no other coroutine is running. The default |
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110 | implementation prints "FATAL: deadlock detected" and exits. |
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111 | |
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112 | =cut |
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113 | |
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114 | # should be done using priorities :( |
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115 | $idle = new Coro sub { |
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116 | print STDERR "FATAL: deadlock detected\n"; |
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117 | exit(51); |
58 | }; |
118 | }; |
59 | |
119 | |
60 | =item $error, $error_msg, $error_coro |
120 | # this coroutine is necessary because a coroutine |
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121 | # cannot destroy itself. |
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122 | my @destroy; |
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123 | my $manager; |
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124 | $manager = new Coro sub { |
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125 | while () { |
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126 | # by overwriting the state object with the manager we destroy it |
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127 | # while still being able to schedule this coroutine (in case it has |
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128 | # been readied multiple times. this is harmless since the manager |
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129 | # can be called as many times as neccessary and will always |
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130 | # remove itself from the runqueue |
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131 | while (@destroy) { |
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132 | my $coro = pop @destroy; |
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133 | $coro->{status} ||= []; |
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134 | $_->ready for @{delete $coro->{join} || []}; |
61 | |
135 | |
62 | This coroutine will be called on fatal errors. C<$error_msg> and |
136 | # the next line destroys the _coro_state, but keeps the |
63 | C<$error_coro> return the error message and the error-causing coroutine, |
137 | # process itself intact (we basically make it a zombie |
64 | respectively. |
138 | # process that always runs the manager thread, so it's possible |
65 | |
139 | # to transfer() to this process). |
66 | =cut |
140 | $coro->{_coro_state} = $manager->{_coro_state}; |
67 | |
141 | } |
68 | $error_msg = |
142 | &schedule; |
69 | $error_coro = undef; |
143 | } |
70 | |
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71 | $error = _newprocess { |
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72 | print STDERR "FATAL: $error_msg\nprogram aborted\n"; |
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73 | exit 250; |
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74 | }; |
144 | }; |
75 | |
145 | |
76 | =item $coro = new $coderef [, @args] |
146 | # static methods. not really. |
77 | |
147 | |
78 | Create a new coroutine and return it. The first C<resume> call to this |
148 | =back |
79 | coroutine will start execution at the given coderef. If it returns it |
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80 | should return a coroutine to switch to. If, after returning, the coroutine |
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81 | is C<resume>d again it starts execution again at the givne coderef. |
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82 | |
149 | |
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150 | =head2 STATIC METHODS |
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151 | |
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152 | Static methods are actually functions that operate on the current process only. |
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153 | |
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154 | =over 4 |
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155 | |
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156 | =item async { ... } [@args...] |
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157 | |
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158 | Create a new asynchronous process and return it's process object |
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159 | (usually unused). When the sub returns the new process is automatically |
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160 | terminated. |
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161 | |
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162 | # create a new coroutine that just prints its arguments |
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163 | async { |
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164 | print "@_\n"; |
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165 | } 1,2,3,4; |
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166 | |
83 | =cut |
167 | =cut |
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168 | |
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169 | sub async(&@) { |
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170 | my $pid = new Coro @_; |
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171 | $manager->ready; # this ensures that the stack is cloned from the manager |
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172 | $pid->ready; |
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173 | $pid; |
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174 | } |
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175 | |
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176 | =item schedule |
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177 | |
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178 | Calls the scheduler. Please note that the current process will not be put |
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179 | into the ready queue, so calling this function usually means you will |
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180 | never be called again. |
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181 | |
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182 | =cut |
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183 | |
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184 | =item cede |
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185 | |
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186 | "Cede" to other processes. This function puts the current process into the |
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187 | ready queue and calls C<schedule>, which has the effect of giving up the |
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188 | current "timeslice" to other coroutines of the same or higher priority. |
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189 | |
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190 | =cut |
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191 | |
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192 | =item terminate [arg...] |
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193 | |
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194 | Terminates the current process with the given status values (see L<cancel>). |
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195 | |
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196 | =cut |
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197 | |
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198 | sub terminate { |
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199 | $current->cancel (@_); |
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200 | } |
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201 | |
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202 | =back |
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203 | |
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204 | # dynamic methods |
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205 | |
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206 | =head2 PROCESS METHODS |
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207 | |
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208 | These are the methods you can call on process objects. |
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209 | |
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210 | =over 4 |
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211 | |
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212 | =item new Coro \&sub [, @args...] |
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213 | |
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214 | Create a new process and return it. When the sub returns the process |
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215 | automatically terminates as if C<terminate> with the returned values were |
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216 | called. To make the process run you must first put it into the ready queue |
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217 | by calling the ready method. |
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218 | |
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219 | =cut |
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220 | |
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221 | sub _newcoro { |
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222 | terminate &{+shift}; |
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223 | } |
84 | |
224 | |
85 | sub new { |
225 | sub new { |
86 | my $class = $_[0]; |
226 | my $class = shift; |
87 | my $proc = $_[1]; |
227 | bless { |
88 | bless _newprocess { |
228 | _coro_state => (new Coro::State $_[0] && \&_newcoro, @_), |
89 | do { |
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90 | eval { &$proc->resume }; |
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91 | if ($@) { |
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92 | ($error_msg, $error_coro) = ($@, $current); |
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93 | $error->resume; |
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94 | } |
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95 | } while (); |
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96 | }, $class; |
229 | }, $class; |
97 | } |
230 | } |
98 | |
231 | |
99 | =item $coro->resume |
232 | =item $process->ready |
100 | |
233 | |
101 | Resume execution at the given coroutine. |
234 | Put the given process into the ready queue. |
102 | |
235 | |
103 | =cut |
236 | =cut |
104 | |
237 | |
105 | my $prev; |
238 | =item $process->cancel (arg...) |
106 | |
239 | |
107 | sub resume { |
240 | Temrinates the given process and makes it return the given arguments as |
108 | $prev = $current; $current = $_[0]; |
241 | status (default: the empty list). |
109 | _transfer($prev, $current); |
242 | |
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243 | =cut |
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244 | |
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245 | sub cancel { |
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246 | my $self = shift; |
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247 | $self->{status} = [@_]; |
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248 | push @destroy, $self; |
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249 | $manager->ready; |
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250 | &schedule if $current == $self; |
110 | } |
251 | } |
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252 | |
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253 | =item $process->join |
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254 | |
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255 | Wait until the coroutine terminates and return any values given to the |
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256 | C<terminate> or C<cancel> functions. C<join> can be called multiple times |
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257 | from multiple processes. |
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258 | |
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259 | =cut |
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260 | |
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261 | sub join { |
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262 | my $self = shift; |
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263 | unless ($self->{status}) { |
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264 | push @{$self->{join}}, $current; |
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265 | &schedule; |
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266 | } |
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267 | wantarray ? @{$self->{status}} : $self->{status}[0]; |
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268 | } |
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269 | |
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270 | =item $oldprio = $process->prio($newprio) |
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271 | |
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272 | Sets (or gets, if the argument is missing) the priority of the |
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273 | process. Higher priority processes get run before lower priority |
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274 | processes. Priorities are small signed integers (currently -4 .. +3), |
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275 | that you can refer to using PRIO_xxx constants (use the import tag :prio |
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276 | to get then): |
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277 | |
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278 | PRIO_MAX > PRIO_HIGH > PRIO_NORMAL > PRIO_LOW > PRIO_IDLE > PRIO_MIN |
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279 | 3 > 1 > 0 > -1 > -3 > -4 |
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280 | |
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281 | # set priority to HIGH |
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282 | current->prio(PRIO_HIGH); |
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283 | |
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284 | The idle coroutine ($Coro::idle) always has a lower priority than any |
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285 | existing coroutine. |
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286 | |
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287 | Changing the priority of the current process will take effect immediately, |
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288 | but changing the priority of processes in the ready queue (but not |
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289 | running) will only take effect after the next schedule (of that |
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290 | process). This is a bug that will be fixed in some future version. |
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291 | |
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292 | =cut |
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293 | |
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294 | sub prio { |
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295 | my $old = $_[0]{prio}; |
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296 | $_[0]{prio} = $_[1] if @_ > 1; |
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297 | $old; |
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298 | } |
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299 | |
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300 | =item $newprio = $process->nice($change) |
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301 | |
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302 | Similar to C<prio>, but subtract the given value from the priority (i.e. |
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303 | higher values mean lower priority, just as in unix). |
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304 | |
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305 | =cut |
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306 | |
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307 | sub nice { |
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308 | $_[0]{prio} -= $_[1]; |
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309 | } |
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310 | |
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311 | =item $olddesc = $process->desc($newdesc) |
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312 | |
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313 | Sets (or gets in case the argument is missing) the description for this |
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314 | process. This is just a free-form string you can associate with a process. |
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315 | |
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316 | =cut |
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317 | |
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318 | sub desc { |
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319 | my $old = $_[0]{desc}; |
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320 | $_[0]{desc} = $_[1] if @_ > 1; |
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321 | $old; |
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322 | } |
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323 | |
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324 | =back |
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325 | |
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326 | =cut |
111 | |
327 | |
112 | 1; |
328 | 1; |
113 | |
329 | |
114 | =back |
330 | =head1 BUGS/LIMITATIONS |
115 | |
331 | |
116 | =head1 BUGS |
332 | - you must make very sure that no coro is still active on global |
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333 | destruction. very bad things might happen otherwise (usually segfaults). |
117 | |
334 | |
118 | This module has not yet been extensively tested. |
335 | - this module is not thread-safe. You should only ever use this module |
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336 | from the same thread (this requirement might be losened in the future |
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337 | to allow per-thread schedulers, but Coro::State does not yet allow |
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338 | this). |
119 | |
339 | |
120 | =head1 SEE ALSO |
340 | =head1 SEE ALSO |
121 | |
341 | |
122 | L<Coro::Process>, L<Coro::Signal>. |
342 | Support/Utility: L<Coro::Cont>, L<Coro::Specific>, L<Coro::State>, L<Coro::Util>. |
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343 | |
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344 | Locking/IPC: L<Coro::Signal>, L<Coro::Channel>, L<Coro::Semaphore>, L<Coro::SemaphoreSet>, L<Coro::RWLock>. |
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345 | |
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346 | Event/IO: L<Coro::Timer>, L<Coro::Event>, L<Coro::Handle>, L<Coro::Socket>, L<Coro::Select>. |
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347 | |
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348 | Embedding: L<Coro:MakeMaker> |
123 | |
349 | |
124 | =head1 AUTHOR |
350 | =head1 AUTHOR |
125 | |
351 | |
126 | Marc Lehmann <pcg@goof.com> |
352 | Marc Lehmann <schmorp@schmorp.de> |
127 | http://www.goof.com/pcg/marc/ |
353 | http://home.schmorp.de/ |
128 | |
354 | |
129 | =cut |
355 | =cut |
130 | |
356 | |