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1 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
2 %% Name: semaphore.tex
3 %% Purpose: wxSemaphore documentation
4 %% Author: Vadim Zeitlin
5 %% Modified by:
6 %% Created: 02.04.02
7 %% RCS-ID: $Id$
8 %% Copyright: (c) 2002 Vadim Zeitlin
9 %% License: wxWindows license
10 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
11
12 \section{\class{wxSemaphore}}\label{wxsemaphore}
13
14 wxSemaphore is a counter limiting the number of threads concurrently accessing
15 a shared resource. This counter is always between $0$ and the maximum value
16 specified during the semaphore creation. When the counter is strictly greater
17 than $0$, a call to \helpref{Wait}{wxsemaphorewait} returns immediately and
18 decrements the counter. As soon as it reaches $0$, any subsequent calls to
19 \helpref{Wait}{wxsemaphorewait} block and only return when the semaphore
20 counter becomes strictly positive again as the result of calling
21 \helpref{Post}{wxsemaphorepost} which increments the counter.
22
23 In general, the semaphores are useful to restict access to a shared resource
24 which can only be accessed by some fixed number of clients at once. For
25 example, when modeling a hotel reservation system a semaphore with the counter
26 equal to the total number of available rooms could be created. Each time a room
27 is reserved, the semaphore should be acquired by calling
28 \helpref{Wait}{wxsemaphorewait} and each time a room is freed it should be
29 released by calling \helpref{Post}{wxsemaphorepost}.
30
31 \wxheading{Derived from}
32
33 No base class
34
35 \wxheading{Include files}
36
37 <wx/thread.h>
38
39 \latexignore{\rtfignore{\wxheading{Members}}}
40
41 \membersection{wxSemaphore::wxSemaphore}\label{wxsemaphorewxsemaphore}
42
43 \func{}{wxSemaphore}{\param{int }{initialcount = 0}, \param{int }{maxcount = 0}}
44
45 Specifying a {\it maxcount} of $0$ actually makes wxSemaphore behave as if
46 there is no upper limit. If maxcount is $1$ the semaphore behaves exactly as a
47 mutex.
48
49 {\it initialcount} is the initial value of the semaphore which must be between
50 $0$ and {\it maxcount} (if it is not set to $0$).
51
52 \membersection{wxSemaphore::\destruct{wxSemaphore}}\label{wxsemaphoredtor}
53
54 \func{}{\destruct{wxSemaphore}}{\void}
55
56 Destructor is not virtual, don't use this class polymorphically.
57
58 \membersection{wxSemaphore::Post}\label{wxsemaphorepost}
59
60 \func{void}{Post}{\void}
61
62 Increments the semaphore count and signals one of the waiting threads in an
63 atomic way.
64
65 \membersection{wxSemaphore::TryWait}\label{wxsemaphoretrywait}
66
67 \func{bool}{TryWait}{\void}
68
69 Same as \helpref{Wait()}{wxsemaphorewait}, but does not block, returns
70 {\tt TRUE} if the semaphore was successfully acquired and {\tt FALSE} if the
71 count is zero and it couldn't be done.
72
73 \membersection{wxSemaphore::Wait}\label{wxsemaphorewait}
74
75 \func{void}{Wait}{\void}
76
77 Wait indefinitely until the semaphore count becomes strictly positive
78 and then decrement it and return.
79
80 \func{bool}{Wait}{\param{unsigned long }{timeout\_millis}}
81
82 Same as the version above, but with a timeout limit: returns {\tt TRUE} if the
83 semaphore was acquired and {\tt FALSE} if the timeout has ellapsed
84