reactify.transaction.Transaction.scala Maven / Gradle / Ivy
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package reactify.transaction
import reactify.Var
class Transaction {
private var map = Map.empty[Var[_], TransactionChange]
/**
* Called when the value of a Var changes
*/
def change[T](owner: Var[T], oldFunction: () => T, newFunction: () => T): Unit = {
val change = map.get(owner) match {
case Some(c) => c.copy(apply = () => owner := newFunction())
case None => TransactionChange(() => owner := oldFunction(), () => owner := newFunction())
}
map += owner -> change
}
/**
* Gets the `TransactionChange` for the supplied `Var` if one is defined
*/
def get[T](v: Var[T]): Option[TransactionChange] = map.get(v)
/**
* Returns the `TransactionChange` for the supplied `Var` or throws an exception if none exists
*/
def apply[T](v: Var[T]): TransactionChange = get(v).getOrElse(throw new RuntimeException(s"No reference in transaction for $v"))
/**
* Commits all changes in this Transaction and then clears the transaction
*/
def commit(): Unit = {
map.keys.foreach { v =>
commit(v.asInstanceOf[Var[Any]])
}
map = Map.empty
}
/**
* Reverts all changes in this Transaction and then clears the transaction
*/
def revert(): Unit = {
map.keys.foreach { v =>
revert(v.asInstanceOf[Var[Any]])
}
map = Map.empty
}
/**
* Undoes all changes that occurred within this Transaction. Unlike `revert`, this doesn't clear the transaction.
* This allows `redo` to run to re-apply the transaction in the future.
*/
def undo(): Unit = {
map.keys.foreach { v =>
undo(v.asInstanceOf[Var[Any]])
}
}
/**
* Redoes all changes that occurred within this Transaction. Unlike `commit`, this doesn't clear the transaction.
* This allows `undo` to un-apply the transaction in the future.
*/
def redo(): Unit = {
map.keys.foreach { v =>
redo(v.asInstanceOf[Var[Any]])
}
}
/**
* Redoes the transaction for this `Var` and then clears it from the transaction.
*
* @return true if a change was applied
*/
def commit[T](v: Var[T]): Boolean = if (redo(v)) {
map -= v
true
} else {
false
}
/**
* Undoes the transaction for this `Var` and then clears it from the transaction.
*
* @return true if a change was applied
*/
def revert[T](v: Var[T]): Boolean = if (undo(v)) {
map -= v
true
} else {
false
}
/**
* Undoes the transaction for this `Var`.
*/
def undo[T](v: Var[T]): Boolean = get(v) match {
case Some(change) => {
change.unapply()
true
}
case None => false
}
/**
* Redoes the transaction for this `Var`.
*/
def redo[T](v: Var[T]): Boolean = get(v) match {
case Some(change) => {
change.apply()
true
}
case None => false
}
}
/**
* Transaction allows access to undo, redo, revert, and commit changes to `Var`s
*/
object Transaction {
private val threadLocal = new ThreadLocal[Option[Transaction]] {
override def initialValue(): Option[Transaction] = None
}
/**
* True if a Transaction is currently active on the current thread
*/
def active: Boolean = threadLocal.get().nonEmpty
/**
* Creates a new Transaction if one isn't already active or re-uses an existing one if a Transaction is already
* in-progress for this thread.
*
* @param f the function to run within a Transaction
* @return Transaction
*/
def apply(f: => Unit): Transaction = {
val created = !active
val transaction = threadLocal.get().getOrElse {
val t = new Transaction
threadLocal.set(Some(t))
t
}
f
if (created) {
threadLocal.remove()
}
transaction
}
/**
* Called when the value of a Var changes
*/
def change[T](owner: Var[T], oldFunction: () => T, newFunction: () => T): Unit = {
threadLocal.get().foreach(_.change(owner, oldFunction, newFunction))
}
}