concurrent-extra-0.7.0.12: Extra concurrency primitives

Copyright(c) 2010-2011 Bas van Dijk & Roel van Dijk
LicenseBSD3 (see the file LICENSE)
MaintainerBas van Dijk <v.dijk.bas@gmail.com> , Roel van Dijk <vandijk.roel@gmail.com>
Safe HaskellSafe
LanguageHaskell98

Control.Concurrent.RLock

Contents

Description

This module provides the RLock synchronisation mechanism. It was inspired by the Python RLock and Java ReentrantLock objects and should behave in a similar way. See:

http://docs.python.org/3.1/library/threading.html#rlock-objects

and:

http://java.sun.com/javase/7/docs/api/java/util/concurrent/locks/ReentrantLock.html

All functions are exception safe. Throwing asynchronous exceptions will not compromise the internal state of an RLock.

This module is intended to be imported qualified. We suggest importing it like:

import           Control.Concurrent.RLock          ( RLock )
import qualified Control.Concurrent.RLock as RLock ( ... )

Synopsis

Documentation

data RLock Source #

A reentrant lock is in one of two states: "locked" or "unlocked". When the lock is in the "locked" state it has two additional properties:

  • Its owner: the thread that acquired the lock.
  • Its acquired count: how many times its owner acquired the lock.

Instances

Eq RLock Source # 

Methods

(==) :: RLock -> RLock -> Bool #

(/=) :: RLock -> RLock -> Bool #

Creating reentrant locks

new :: IO RLock Source #

Create a reentrant lock in the "unlocked" state.

newAcquired :: IO RLock Source #

Create a reentrant lock in the "locked" state (with the current thread as owner and an acquired count of 1).

Locking and unlocking

acquire :: RLock -> IO () Source #

Acquires the RLock. Blocks if another thread has acquired the RLock.

acquire behaves as follows:

  • When the state is "unlocked", acquire changes the state to "locked" with the current thread as owner and an acquired count of 1.
  • When the state is "locked" and the current thread owns the lock acquire only increments the acquired count.
  • When the state is "locked" and the current thread does not own the lock acquire blocks until the owner releases the lock. If the thread that called acquire is woken upon release of the lock it will take ownership and change the state to "locked" with an acquired count of 1.

There are two further important properties of acquire:

  • acquire is single-wakeup. That is, if there are multiple threads blocked on acquire, and the lock is released, only one thread will be woken up. The runtime guarantees that the woken thread completes its acquire operation.
  • When multiple threads are blocked on acquire they are woken up in FIFO order. This is useful for providing fairness properties of abstractions built using locks. (Note that this differs from the Python implementation where the wake-up order is undefined.)

tryAcquire :: RLock -> IO Bool Source #

A non-blocking acquire.

  • When the state is "unlocked" tryAcquire changes the state to "locked" (with the current thread as owner and an acquired count of 1) and returns True.
  • When the state is "locked" tryAcquire leaves the state unchanged and returns False.

release :: RLock -> IO () Source #

release decrements the acquired count. When a lock is released with an acquired count of 1 its state is changed to "unlocked".

Note that it is both an error to release a lock in the "unlocked" state and to release a lock that is not owned by the current thread.

If there are any threads blocked on acquire the thread that first called acquire will be woken up.

Convenience functions

with :: RLock -> IO a -> IO a Source #

A convenience function which first acquires the lock and then performs the computation. When the computation terminates, whether normally or by raising an exception, the lock is released.

Note that: with = liftA2 bracket_ acquire release.

tryWith :: RLock -> IO a -> IO (Maybe a) Source #

A non-blocking with. tryWith is a convenience function which first tries to acquire the lock. If that fails, Nothing is returned. If it succeeds, the computation is performed. When the computation terminates, whether normally or by raising an exception, the lock is released and Just the result of the computation is returned.

wait :: RLock -> IO () Source #

  • When the state is "locked" wait blocks until a call to release in another thread changes it to "unlocked".
  • When the state is "unlocked" wait returns immediately.

wait does not alter the state of the lock.

Note that wait is just a convenience function defined as:

wait l = block $ acquire l >> release l

Querying reentrant locks

type State = Maybe (ThreadId, Integer) Source #

The state of an RLock.

  • Nothing indicates an "unlocked" state.
  • Just (tid, n) indicates a "locked" state where the thread identified by tid acquired the lock n times.

state :: RLock -> IO State Source #

Determine the state of the reentrant lock.

Note that this is only a snapshot of the state. By the time a program reacts on its result it may already be out of date.