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145 lines
2.9 KiB
C++
145 lines
2.9 KiB
C++
#ifndef CCONDVAR_H
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#define CCONDVAR_H
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#include "CMutex.h"
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#include "BasicTypes.h"
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class CStopwatch;
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class CCondVarBase {
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public:
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// mutex must be supplied. all condition variables have an
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// associated mutex. the copy c'tor uses the same mutex as the
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// argument and is otherwise like the default c'tor.
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CCondVarBase(CMutex* mutex);
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~CCondVarBase();
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// manipulators
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// lock/unlock the mutex. see CMutex.
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void lock() const;
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void unlock() const;
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// signal the condition. Signal() wakes one waiting thread.
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// Broadcast() wakes all waiting threads.
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void signal();
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void broadcast();
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// accessors
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// wait on the condition. if timeout < 0 then wait until signalled,
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// otherwise up to timeout seconds or until signalled, whichever
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// comes first. since clients normally wait on condition variables
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// in a loop, clients can provide a CStopwatch that acts as the
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// timeout clock. using it, clients don't have to recalculate the
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// timeout on each iteration. passing a stopwatch with a negative
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// timeout is pointless but permitted.
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//
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// returns true if the object was signalled during the wait, false
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// otherwise.
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//
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// (cancellation point)
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bool wait(double timeout = -1.0) const;
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bool wait(CStopwatch&, double timeout) const;
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// get the mutex passed to the c'tor
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CMutex* getMutex() const;
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private:
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void init();
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void fini();
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// not implemented
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CCondVarBase(const CCondVarBase&);
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CCondVarBase& operator=(const CCondVarBase&);
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private:
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CMutex* m_mutex;
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void* m_cond;
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#if defined(CONFIG_PLATFORM_WIN32)
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enum { kSignal, kBroadcast };
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mutable UInt32 m_waitCount;
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CMutex m_waitCountMutex;
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#endif
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};
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template <class T>
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class CCondVar : public CCondVarBase {
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public:
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CCondVar(CMutex* mutex, const T&);
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CCondVar(const CCondVar&);
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~CCondVar();
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// manipulators
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// assigns the value of the variable
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CCondVar& operator=(const CCondVar&);
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// assign the value
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CCondVar& operator=(const T&);
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// accessors
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// get the const value. this object should be locked before
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// calling this method.
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operator const T&() const;
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private:
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T m_data;
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};
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template <class T>
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inline
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CCondVar<T>::CCondVar(CMutex* mutex, const T& data) :
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CCondVarBase(mutex), m_data(data)
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{
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// do nothing
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}
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template <class T>
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inline
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CCondVar<T>::CCondVar(const CCondVar& cv) :
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CCondVarBase(cv.getMutex()),
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m_data(cv.m_data)
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{
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// do nothing
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}
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template <class T>
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inline
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CCondVar<T>::~CCondVar()
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{
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// do nothing
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}
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template <class T>
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inline
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CCondVar<T>& CCondVar<T>::operator=(const CCondVar<T>& cv)
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{
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m_data = cv.m_data;
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return *this;
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}
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template <class T>
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inline
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CCondVar<T>& CCondVar<T>::operator=(const T& data)
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{
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m_data = data;
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return *this;
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}
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template <class T>
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inline
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CCondVar<T>::operator const T&() const
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{
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return m_data;
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}
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// force instantiation of these common types
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template class CCondVar<bool>;
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template class CCondVar<SInt32>;
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#endif
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