Location:
e32std.h
Link against: euser.lib
class RCriticalSection : private RSemaphore;
A handle to a critical section.
A critical section itself is a kernel object, and is implemented using a semaphore. The class RCriticalSection inherits privately
from RSemaphore
as a matter of implementation and this is, in effect, equivalent to using a semaphore.
The public functions of RSemaphore
are not part of the public API of this class.
As with all handles, they should be closed after use. This class provides the necessary Close()
function, which should be called when the handle is no longer required.
RHandleBase
- A handle to an object
RSemaphore
- A handle to a semaphore
RCriticalSection
- A handle to a critical section
Defined in RCriticalSection
:
Close()
, CreateLocal()
, IsBlocked()
, RCriticalSection()
, Signal()
, Wait()
Inherited from RHandleBase
:
Attributes()
,
Duplicate()
,
FullName()
,
Handle()
,
HandleInfo()
,
Name()
,
SetHandle()
,
SetHandleNC()
,
SetReturnedHandle()
,
iHandle
Inherited from RSemaphore
:
CreateGlobal()
,
Open()
,
OpenGlobal()
IMPORT_C TInt CreateLocal(TOwnerType aType=EOwnerProcess);
Creates a critical section and opens this handle to the critical section.
The kernel side object representing the critical section is unnamed. This means that it is not possible to search for the critical section, which makes it local to the current process.
By default, any thread in the process can use this instance of RCriticalSection to access the critical section. However, specifying EOwnerThread as the parameter to this function, means that only the creating thread can use this instance of RCriticalSection to access the critical section; any other thread in this process that wants to access the critical section must duplicate this handle.
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IMPORT_C void Close();
Closes the handle to the critical section.
As a critical section object is implemented using a semaphore, this has the effect of closing the handle to the semaphore.
IMPORT_C void Wait();
Waits for the critical section to become free.
If no other thread is in the critical section, control returns immediately and the current thread can continue into the section.
If another thread is already in the critical section, the current thread is marked as waiting (on a semaphore); the current thread is added to a queue of threads maintained by this critical section.
IMPORT_C void Signal();
Signals an exit from the critical section.
A thread calls this function when it exits from the critical section. The first eligible thread waiting on the critical section's queue of threads is removed from that queue and, provided that it is not suspended for any other reason, is marked as ready to run. That thread will, therefore, be the next to proceed into the critical section.
inline TBool IsBlocked() const;
Tests whether the critical section is occupied by another thread.
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