ardupilot/libraries/AP_HAL/Semaphores.h

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#pragma once
#include "AP_HAL_Namespace.h"
#include <AP_Common/AP_Common.h>
#define HAL_SEMAPHORE_BLOCK_FOREVER 0
class AP_HAL::Semaphore {
public:
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Semaphore() {}
// do not allow copying
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CLASS_NO_COPY(Semaphore);
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virtual bool take(uint32_t timeout_ms) WARN_IF_UNUSED = 0 ;
virtual bool take_nonblocking() WARN_IF_UNUSED = 0;
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// a variant that blocks forever
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wunused-result"
virtual void take_blocking() { take(HAL_SEMAPHORE_BLOCK_FOREVER); };
#pragma GCC diagnostic pop
virtual bool give() = 0;
virtual ~Semaphore(void) {}
};
/*
a method to make semaphores less error prone. The WITH_SEMAPHORE()
macro will block forever for a semaphore, and will automatically
release the semaphore when it goes out of scope
Note that we have two types of semaphores. A normal semaphore can
only be taken once. A recursive semaphore allows for the thread
holding the semaphore to take it again. It must be released the same
number of times it is taken.
The WITH_SEMAPHORE() macro can be used with either type of semaphore
*/
class WithSemaphore {
public:
WithSemaphore(AP_HAL::Semaphore *mtx, uint32_t line);
WithSemaphore(AP_HAL::Semaphore &mtx, uint32_t line);
~WithSemaphore();
private:
AP_HAL::Semaphore &_mtx;
};
// From: https://stackoverflow.com/questions/19666142/why-is-a-level-of-indirection-needed-for-this-concatenation-macro
#define WITH_SEMAPHORE( sem ) JOIN( sem, __AP_LINE__, __COUNTER__ )
#define JOIN( sem, line, counter ) _DO_JOIN( sem, line, counter )
#define _DO_JOIN( sem, line, counter ) WithSemaphore _getsem ## counter(sem, line)
/*
a binary semaphore
*/
class AP_HAL::BinarySemaphore {
public:
/*
create a binary semaphore. initial_state determines if a wait()
immediately after creation would block. If initial_state is true
then it won't block, if initial_state is false it will block
*/
BinarySemaphore(bool initial_state=false) {}
// do not allow copying
CLASS_NO_COPY(BinarySemaphore);
virtual bool wait(uint32_t timeout_us) WARN_IF_UNUSED = 0 ;
virtual bool wait_blocking() = 0;
virtual bool wait_nonblocking() { return wait(0); }
virtual void signal() = 0;
virtual void signal_ISR() { signal(); }
virtual ~BinarySemaphore(void) {}
};