File Coverage

blib/lib/Coro/Semaphore.pm

Criterion	Covered	Total	%
statement	8	9	88.8
branch			n/a
condition			n/a
subroutine	3	4	75.0
pod	1	1	100.0
total	12	14	85.7

line	stmt	sub	pod	time	code
1					=head1 NAME
2
3					Coro::Semaphore - counting semaphores
4
5					=head1 SYNOPSIS
6
7					use Coro;
8
9					$sig = new Coro::Semaphore [initial value];
10
11					$sig->down; # wait for signal
12
13					# ... some other "thread"
14
15					$sig->up;
16
17					=head1 DESCRIPTION
18
19					This module implements counting semaphores. You can initialize a mutex
20					with any level of parallel users, that is, you can initialize a sempahore
21					that can be Ced more than once until it blocks. There is no owner
22					associated with semaphores, so one thread can C it while another can
23					C it (or vice versa), C can be called before C and so on:
24					the semaphore is really just an integer counter that optionally blocks
25					when it is 0.
26
27					Counting semaphores are typically used to coordinate access to
28					resources, with the semaphore count initialized to the number of free
29					resources. Threads then increment the count when resources are added
30					and decrement the count when resources are removed.
31
32					You don't have to load C manually, it will be loaded
33					automatically when you C and call the C constructor.
34
35					=over 4
36
37					=cut
38
39					package Coro::Semaphore;
40
41	5	5		511	use common::sense;
	5			8
	5			28
42
43	5	5		198	use Coro ();
	5			8
	5			531
44
45					our $VERSION = 6.513;
46
47					=item new [initial count]
48
49					Creates a new sempahore object with the given initial lock count. The
50					default lock count is 1, which means it is unlocked by default. Zero (or
51					negative values) are also allowed, in which case the semaphore is locked
52					by default.
53
54					=item $sem->count
55
56					Returns the current semaphore count. The semaphore can be down'ed without
57					blocking when the count is strictly higher than C<0>.
58
59					=item $sem->adjust ($diff)
60
61					Atomically adds the amount given to the current semaphore count. If the
62					count becomes positive, wakes up any waiters. Does not block if the count
63					becomes negative, however.
64
65					=item $sem->down
66
67					Decrement the counter, therefore "locking" the semaphore. This method
68					waits until the semaphore is available if the counter is zero or less.
69
70					=item $sem->wait
71
72					Similar to C, but does not actually decrement the counter. Instead,
73					when this function returns, a following call to C or C is
74					guaranteed to succeed without blocking, until the next thread switch
75					(C etc.).
76
77					Note that using C is much less efficient than using C, so try
78					to prefer C whenever possible.
79
80					=item $sem->wait ($callback)
81
82					If you pass a callback argument to C, it will not wait, but
83					immediately return. The callback will be called as soon as the semaphore
84					becomes available (which might be instantly), and gets passed the
85					semaphore as first argument.
86
87					The callback might C the semaphore exactly once, might wake up other
88					threads, but is I allowed to block (switch to other threads).
89
90					=cut
91
92					#=item $status = $sem->timed_down ($timeout)
93					#
94					#Like C, but returns false if semaphore couldn't be acquired within
95					#$timeout seconds, otherwise true.
96
97					#sub timed_down {
98					# require Coro::Timer;
99					# my $timeout = Coro::Timer::timeout ($_[1]);
100					#
101					# while ($_[0][0] <= 0) {
102					# push @{$_[0][1]}, $Coro::current;
103					# &Coro::schedule;
104					# if ($timeout) {
105					# # ugly as hell. slow, too, btw!
106					# for (0..$#{$_[0][1]}) {
107					# if ($_[0][1][$_] == $Coro::current) {
108					# splice @{$_[0][1]}, $_, 1;
109					# return;
110					# }
111					# }
112					# die;
113					# }
114					# }
115					#
116					# --$_[0][0];
117					# return 1;
118					#}
119
120					=item $sem->up
121
122					Unlock the semaphore again.
123
124					=item $sem->try
125
126					Try to C the semaphore. Returns true when this was possible,
127					otherwise return false and leave the semaphore unchanged.
128
129					=item $sem->waiters
130
131					In scalar context, returns the number of threads waiting for this
132					semaphore. Might accidentally cause WW3 if called in other contexts, so
133					don't use these.
134
135					=item $guard = $sem->guard
136
137					This method calls C and then creates a guard object. When the guard
138					object is destroyed it automatically calls C.
139
140					=cut
141
142					sub guard {
143	9	9	1	163	&down;
144	2			7	bless [$_[0]], Coro::Semaphore::guard::
145					}
146
147					#=item $guard = $sem->timed_guard ($timeout)
148					#
149					#Like C, but returns undef if semaphore couldn't be acquired within
150					#$timeout seconds, otherwise the guard object.
151
152					#sub timed_guard {
153					# &timed_down
154					# ? bless \\$_[0], Coro::Semaphore::guard::
155					# : ();
156					#}
157
158					sub Coro::Semaphore::guard::DESTROY {
159	0	0			&up($_[0][0]);
160					}
161
162					=back
163
164					=head1 AUTHOR/SUPPORT/CONTACT
165
166					Marc A. Lehmann
167					http://software.schmorp.de/pkg/Coro.html
168
169					=cut
170
171					1
172