# IO Monad Class Hierarchy This package provides a monad class hierarchy which is an interface for both the [`io-sim`] and [`IO`] monads. It was developed with the following constraints in mind: * be a drop-in replacement for `IO` monad; * `IO` instances do not alter its original semantics, providing a shallow bindings to [`async`], [`base`], [`stm`], and [`exceptions`] packages as well as timer API; * provide zero-cost abstractions. We provide also non-standard extensions of this API: * [`strict-stm`]: strict `TVar`'s, and other mutable `STM` variables, with support of the [`nothunks`] library; * [`si-timers`]: timers api: - 32-bit safe API using `DiffTime` measured in seconds (rather than time in microseconds represented as `Int` as in `base`) - cancellable timeouts. [`strict-stm`] and [`nothunks`] were successfully used in a large code base to eliminate space leaks and keep that property over long development cycles. ## Exception Class Hierarchy This package provides an alternative class hierarchy giving access to exceptions API. The [`exception`] package class hierarchy is also supported by [`io-sim`], so you can also use either one. The `MonadThrow` defined in this package allows working with exceptions without having explicit access to `catch` or `mask`. It only provides access to `throwIO`, `bracket`, `bracket_`, and `finally`. `MonadCatch` class provides API which allows working with exceptions, e.g. `catch` or `bracketOnError`, and `MonadMask` gives access to low-level `mask` and friends. This division makes code review process somewhat easier. Using only `MonadThrow` constraint, the reviewer can be sure that no low-level exception API is used, which usually requires more care. Still `MonadThrow` is general enough to do resource handling right. ## Time and Timer APIs The time and timer APIs of this package follows closely the API exposed by [`base`] and [`time`] packages. We separately packaged a more convenient API in [`si-timers`] (ref [SI]), which provides a monoidal action of `DiffTime` on monotonic time as well as exposes 32-bit safe timer API (on 32-bit systems time in microseconds represented as an `Int` can only hold timeouts of ~35 minutes). `Control.Monad.Class.MonadTimer.NonStandard.MonadTimeout` provides a low-level timeout abstraction. On systems that support a native timer manager, it's used to implement its API, which is very efficient even for low-latency timeouts. On other platforms (e.g. `Windows`), it's good enough for subsecond timeouts but it's not good enough for fine-grained timeouts (e.g. sub milliseconds) as it relays on the GHC thread scheduler. We support `MonadTimeout` on `Linux`, `MacOS`, `Windows`, and `IOSim` (and unofficially on `GHCJS`). `MonadDelay` and `MonadTimer` classes provide a well-established interface to delays & timers. ## Software Transactional Memory API We provide two interfaces to `stm` API: lazy, included in `io-classes`; and strict one provided by [`strict-stm`]. ## Threads API We draw a line between `base` API and `async` API. The former is provided by [MonadFork](https://hackage.haskell.org/package/io-classes/docs/Control-Monad-Class-MonadFork.html#t:MonadFork) the latter by [MonadAsync](https://hackage.haskell.org/package/io-classes/docs/Control-Monad-Class-MonadFork.html#t:MonadAsync). Both are shallow abstractions around APIs exposed by the `base` and `async` packages. ## Some other APIs * [MonadEventlog]: provides an API to the [Debug.Trace] event log interface. * [MonadST]: provides a way to lift `ST`-computations. * [MonadSay]: dummy debugging interface ## Debuging & Insepction We provide quite extended debugging & inspection API. This proved to be extremely helpful when analysing complex deadlocks or livelocks or writing complex quickcheck properties of a highly concurrent system. Some of this is only possible because we can control the execution environment of [`io-sim`]. * `labelThread` as part of `MonadThread` ([`IO`], [`io-sim`], which is also part of `GHC` API, ref [`labelThread`][labelThread-base]); * `MonadLabelledSTM` which allows to label of various `STM` mutable variables, e.g. `TVar`, `MVar`, etc. ([`io-sim`], not provided by `GHC`); * `MonadInspectSTM` which allows inspecting values of `STM` mutable variables when they are committed. ([`io-sim`], not provided by `GHC`). ## Monad Transformers We provide support for monad transformers (although at this stage it might have its limitations and so there might be some rough edges. PRs are welcomed, [contributing]). [SI]: https://www.wikiwand.com/en/International_System_of_Units [`DiffTime`]: https://hackage.haskell.org/package/time-1.10/docs/Data-Time-Clock.html#t:DiffTime [`IO`]: https://hackage.haskell.org/package/base-4.14.0.0/docs/GHC-IO.html#t:IO [`async`]: https://hackage.haskell.org/package/async [`base`]: https://hackage.haskell.org/package/base [`exceptions`]: https://hackage.haskell.org/package/exceptions [`io-sim`]: https://hackage.haskell.org/package/io-sim [`si-timers`]: https://hackage.haskell.org/package/si-timers [`stm`]: https://hackage.haskell.org/package/stm [`strict-stm`]: https://hackage.haskell.org/package/strict-stm [`threadDelay`]: https://hackage.haskell.org/package/io-classes/docs/Control-Monad-Class-MonadTimer.html#v:threadDela [`time`]: https://hackage.haskell.org/package/time [contributing]: https://www.github.com/input-output-hk/io-sim/tree/master/CONTRIBUTING.md [`nothunks`]: https://hackage.haskell.org/package/nothunks [labelThread-base]: https://hackage.haskell.org/package/base-4.17.0.0/docs/GHC-Conc-Sync.html#v:labelThread [MonadEventlog]: https://hackage.haskell.org/package/io-sim-classes/docs/Control-Monad-Class-MonadEventlog.html#t:MonadEventlog [Debug.Trace]: https://hackage.haskell.org/package/base/docs/Debug-Trace.html [MonadST]: https://hackage.haskell.org/package/io-classes/docs/Control-Monad-Class-MonadST.html#t:MonadST [MonadSay]: https://hackage.haskell.org/package/io-classes/docs/Control-Monad-Class-MonadSay.html#t:MonadSay