using concurrent::Actor
using concurrent::ActorPool
using concurrent::AtomicInt
using concurrent::Future
** Provides 'synchronized' access to a (non- 'const') mutable state object.
**
** 'SynchronizedState' creates the state object in its own thread and provides access to it via the
** 'sync()' and 'async()' methods. Note that by their nature, these methods are immutable
** boundaries. Meaning that while data in the State object can be mutable, data passed in and out
** of these these boundaries can not be.
**
** 'SynchronizedState' is designed to be *scope safe*, that is you cannot accidently call methods
** on your State object outside of the 'sync()' and 'async()' methods.
**
** Example usage:
**
** pre>
** syntax: fantom
**
** sync := SynchronizedState(ActorPool(), Mutable#)
** msg := "That's cool, dude!"
**
** val := sync.sync |Mutable state -> Int| {
** state.buf.writeChars(msg)
** return state.buf.size
** }
**
** class Mutable {
** Buf buf := Buf()
** }
** <pre
**
** Note 'SynchronizedState' overrides 'trap()' to make convenience calls to 'sync()' allowing dynamic calls:
**
** pre>
** syntax: fantom
** sync := SynchronizedState(ActorPool(), Mutable#)
**
** size := sync->buf->size //--> returns size of Mutable.buf
** <pre
const class SynchronizedState {
@NoDoc // advanced use only
const |->Obj?| stateFactory
@NoDoc // advanced use only
const LocalRef stateRef
** The 'lock' object should you need to 'synchronize' on the state.
const Synchronized lock
// Note we can't create a ctor(syncPool, type) 'cos that leads to ambiguous ctors in existing libs like afBedSheet / afParrotSdk2
@NoDoc // advanced use only - for setting own lock
new make(|This| f) {
f(this)
if (this.stateRef == null)
this.stateRef = LocalRef(SynchronizedState#.name)
}
** Creates a 'SynchronizedState' instance.
**
** The given state type must have a public no-args ctor as per [Type.make]`sys::Type.make`.
new makeWithType(ActorPool actorPool, Type stateType) {
this.lock = Synchronized(actorPool)
this.stateRef = LocalRef(stateType.name)
this.stateFactory = |->Obj?| { stateType.make }
}
** Creates a 'SynchronizedState' instance.
**
** The given (immutable) factory func is used to create the state object inside it's thread.
new makeWithFactory(ActorPool actorPool, |->Obj?| stateFactory) {
this.lock = Synchronized(actorPool)
this.stateRef = LocalRef(SynchronizedState#.name)
this.stateFactory = stateFactory
}
** Legacy alias for calling 'sync()'.
**
** Calls the given func synchronously, passing in the State object and returning the func's
** response.
**
** The given func should be immutable.
@NoDoc @Deprecated { msg="Use sync() instead" }
Obj? getState(|Obj state -> Obj?| func) {
sync(func)
}
** Legacy alias for calling 'async()'.
**
** Calls the given func asynchronously, passing in the State object.
**
** The given func should be immutable.
@NoDoc @Deprecated { msg="Use async() instead" }
Future withState(|Obj state -> Obj?| func) {
async(func)
}
** Calls the given func synchronously, passing in the State object and returning the func's
** response.
**
** The given func should be immutable.
Obj? sync(|Obj state -> Obj?| func) {
iFunc := func.toImmutable
return lock.synchronized |->Obj?| { callFunc(iFunc) }
}
** Calls the given func asynchronously, passing in the State object.
**
** The given func should be immutable.
Future async(|Obj state -> Obj?| func) {
iFunc := func.toImmutable
return lock.async |->Obj?| { callFunc(iFunc) }
}
** Calls the given func asynchronously, passing in the State object.
**
** The given func should be immutable.
Future asyncLater(Duration duration, |Obj state -> Obj?| func) {
iFunc := func.toImmutable
return lock.asyncLater(duration) |->Obj?| { callFunc(iFunc) }
}
** Routes trap() to the enclosed state object. Allows convenience calls for calling 'sync()'
** and returning state:
**
** pre>
** syntax: fantom
** sync := SynchronizedState(ActorPool(), Buf#)
**
** size := sync->size //--> returns size of Buf
** <pre
override Obj? trap(Str name, Obj?[]? args := null) {
iargs := args?.toImmutable
return sync |state->Obj?| {
state.trap(name, iargs)
}
}
private Obj? callFunc(|Obj?->Obj?| func) {
if (stateRef.val == null)
stateRef.val = stateFactory.call
return func.call(stateRef.val)
}
** Returns a string representation the state.
override Str toStr() {
sync { it.toStr }
}
}
