SourcePro® 2022.1 |
SourcePro® API Reference Guide |
Last-in-first-out (LIFO) stack that provides producer-consumer synchronization semantics for exchanging prioritized values between cooperating threads. More...
#include <rw/itc/RWTPCValStackPrioritized.h>
Public Member Functions | |
RWTPCValStackPrioritized (void) | |
RWTPCValStackPrioritized (size_t maxCapacity) | |
RWTPCValStackPrioritized (size_t maxCapacity, bool isOpen) | |
~RWTPCValStackPrioritized (void) | |
Public Member Functions inherited from RWTPCValBufferBasePrioritized< Type, RWTPriorityDecorator< Type > > | |
virtual | ~RWTPCValBufferBasePrioritized (void) |
bool | tryWrite (long priority, const Type &value) |
void | write (long priority, const Type &value) |
RWWaitStatus | write (long priority, const Type &value, unsigned long milliseconds) |
Public Member Functions inherited from RWTPCValBufferBaseDecorated< Type, RWTPriorityDecorator< Type > > | |
virtual | ~RWTPCValBufferBaseDecorated (void) |
Type | peek (void) |
RWWaitStatus | peek (Type &result, unsigned long milliseconds) |
Type | read (void) |
RWWaitStatus | read (Type &result, unsigned long milliseconds) |
bool | tryPeek (Type &result) |
bool | tryRead (Type &result) |
bool | tryWrite (const Type &value) |
void | write (const Type &value) |
RWWaitStatus | write (const Type &value, unsigned long milliseconds) |
Additional Inherited Members | |
Protected Types inherited from RWTMonitor< RWMutexLock > | |
typedef RWTLockGuard< RWTMonitor< RWMutexLock > > | LockGuard |
typedef RWTTryLockGuard< RWTMonitor< RWMutexLock > > | TryLockGuard |
typedef RWTUnlockGuard< RWTMonitor< RWMutexLock > > | UnlockGuard |
Protected Member Functions inherited from RWTPCValBufferBase< RWTPriorityDecorator< Type > > | |
virtual | ~RWTPCValBufferBase (void) |
RWTPriorityDecorator< Type > | peek (void) |
RWWaitStatus | peek (RWTPriorityDecorator< Type > &result, unsigned long milliseconds) |
RWTPriorityDecorator< Type > | read (void) |
RWWaitStatus | read (RWTPriorityDecorator< Type > &result, unsigned long milliseconds) |
bool | tryPeek (RWTPriorityDecorator< Type > &result) |
bool | tryRead (RWTPriorityDecorator< Type > &result) |
bool | tryWrite (const RWTPriorityDecorator< Type > &value) |
void | write (const RWTPriorityDecorator< Type > &value) |
RWWaitStatus | write (const RWTPriorityDecorator< Type > &value, unsigned long milliseconds) |
virtual | ~RWPCBufferBase (void) |
bool | canRead (void) const |
bool | canWrite (void) const |
void | close (void) |
size_t | entries (void) const |
void | flush (void) |
size_t | getCapacity (void) const |
RWTFunctor< void()> | getCloseCallback (void) const |
RWTFunctor< void()> | getEmptyCallback (void) const |
RWTFunctor< void()> | getFullCallback (void) const |
RWTFunctor< void()> | getOpenCallback (void) const |
bool | isOpen (void) const |
void | open (void) |
size_t | setCapacity (size_t maxCapacity) |
void | setCloseCallback (const RWTFunctor< void()> &onCloseCallback) |
void | setEmptyCallback (const RWTFunctor< void()> &onEmptyCallback) |
void | setFullCallback (const RWTFunctor< void()> &onFullCallback) |
void | setOpenCallback (const RWTFunctor< void()> &onOpenCallback) |
Protected Member Functions inherited from RWTMonitor< RWMutexLock > | |
RWTMonitor () | |
RWTMonitor (RWStaticCtor) | |
RWTMonitor (const RWTMonitor< RWMutexLock > &second) | |
~RWTMonitor () | |
void | acquire () |
bool | isAcquired () const |
RWTMonitor< RWMutexLock > & | monitor () const |
RWMutexLock & | mutex () |
RWTMonitor< RWMutexLock > & | operator= (const RWTMonitor< RWMutexLock > &) |
void | release () |
bool | tryAcquire () |
RWTPCValStackPrioritized is a last-in-first-out (LIFO) stack that provides producer-consumer synchronization semantics for exchanging prioritized values between cooperating threads.
In the producer-consumer synchronization model, reader threads (consumers) are blocked while the stack is empty, and writer threads (producers) are blocked while the stack is full. The stack is considered full when the number of unread entries equals or exceeds some user-specified maximum capacity.
The write operations inherited by this class bind a priority value to each data value prior to storing that value in an internal buffer. The priority value is used during write operations to determine a value's insertion point within the stack, such that the set of unread values will be retrieved in priority order when they are eventually read from the stack. A new value is retrieved before any previously inserted values of the same priority.
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inline |
Constructs a value-based, prioritized, producer-consumer stack instance.
The stack is open on construction and enforces no limit on the number of items in the stack.
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inline |
Constructs a value-based, prioritized, producer-consumer stack instance.
The parameter maxCapacity specifies the maximum number of unread entries to allow to accumulate within the stack. Once the number of entries in the stack equals this number, any thread attempting to write an additional entry is blocked until an entry is removed by a read() operation, or until the capacity is increased. A capacity of zero is used to indicate that the stack has no size limit other than that imposed by memory limitations, and that all write() operations should complete without blocking.
The stack is open on construction.
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inline |
Constructs a value-based, prioritized, producer-consumer stack instance.
The parameter maxCapacity specifies the maximum number of unread entries to allow to accumulate within the stack. Once the number of entries in the stack equals this number, any thread attempting to write an additional entry is blocked until an entry is removed by a read() operation, or until the capacity is increased. A capacity of zero is used to indicate that the stack has no size limit other than that imposed by memory limitations, and that all write() operations should complete without blocking.
The parameter isOpen is a bool
value that specifies whether the stack should be initialized in the open state, true
, or the closed state, false
.
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inline |
Destructor.
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