-- | -- Module : Control.Concurrent.Classy.STM.TSem -- Copyright : (c) 2018 Michael Walker -- License : MIT -- Maintainer : Michael Walker <mike@barrucadu.co.uk> -- Stability : stable -- Portability : portable -- -- 'TSem': transactional semaphores. -- -- __Deviations:__ There is no @Eq@ instance for @TSem@ type. module Control.Concurrent.Classy.STM.TSem ( TSem , newTSem , waitTSem , signalTSem , signalTSemN ) where import Control.Monad (when) import Control.Monad.STM.Class import Numeric.Natural (Natural) -- | 'TSem' is a transactional semaphore. It holds a certain number -- of units, and units may be acquired or released by 'waitTSem' and -- 'signalTSem' respectively. When the 'TSem' is empty, 'waitTSem' -- blocks. -- -- Note that 'TSem' has no concept of fairness, and there is no -- guarantee that threads blocked in `waitTSem` will be unblocked in -- the same order; in fact they will all be unblocked at the same time -- and will fight over the 'TSem'. Hence 'TSem' is not suitable if -- you expect there to be a high number of threads contending for the -- resource. However, like other STM abstractions, 'TSem' is -- composable. -- -- @since 1.6.1.0 newtype TSem stm = TSem (TVar stm Integer) -- | Construct new 'TSem' with an initial counter value. -- -- A positive initial counter value denotes availability of -- units 'waitTSem' can acquire. -- -- The initial counter value can be negative which denotes a resource -- \"debt\" that requires a respective amount of 'signalTSem' -- operations to counter-balance. -- -- @since 1.6.1.0 newTSem :: MonadSTM stm => Integer -> stm (TSem stm) newTSem i = fmap TSem (newTVar $! i) -- | Wait on 'TSem' (aka __P__ operation). -- -- This operation acquires a unit from the semaphore (i.e. decreases -- the internal counter) and blocks (via 'retry') if no units are -- available (i.e. if the counter is /not/ positive). -- -- @since 2.4.2 waitTSem :: MonadSTM stm => TSem stm -> stm () waitTSem (TSem t) = do i <- readTVar t when (i <= 0) retry writeTVar t $! (i-1) -- | Signal a 'TSem' (aka __V__ operation). -- -- This operation adds\/releases a unit back to the semaphore -- (i.e. increments the internal counter). -- -- @since 1.6.1.0 signalTSem :: MonadSTM stm => TSem stm -> stm () signalTSem (TSem t) = do i <- readTVar t writeTVar t $! i+1 -- | Multi-signal a 'TSem' -- -- This operation adds\/releases multiple units back to the semaphore -- (i.e. increments the internal counter). -- -- > signalTSem == signalTSemN 1 -- -- @since 1.6.1.0 signalTSemN :: MonadSTM stm => Natural -> TSem stm -> stm () signalTSemN 0 _ = pure () signalTSemN 1 s = signalTSem s signalTSemN n (TSem t) = do i <- readTVar t writeTVar t $! i + toInteger n