package dotty.tools
package dotc
package core
import Types._
import Flags._
import Contexts._
import util.{SimpleMap, DotClass}
import reporting._
import printing.{Showable, Printer}
import printing.Texts._
import config.Config
import collection.mutable
class TyperState(r: Reporter) extends DotClass with Showable {
/** The current reporter */
def reporter = r
/** The current constraint set */
def constraint: Constraint =
new OrderingConstraint(SimpleMap.Empty, SimpleMap.Empty, SimpleMap.Empty)
def constraint_=(c: Constraint)(implicit ctx: Context): Unit = {}
/** The uninstantiated variables */
def uninstVars = constraint.uninstVars
/** The ephemeral flag is set as a side effect if an operation accesses
* the underlying type of a type variable. The reason we need this flag is
* that any such operation is not referentially transparent; it might logically change
* its value at the moment the type variable is instantiated. Caching code needs to
* check the ephemeral flag; If the flag is set during an operation, the result
* of that operation should not be cached.
*/
def ephemeral: Boolean = false
def ephemeral_=(x: Boolean): Unit = ()
/** Gives for each instantiated type var that does not yet have its `inst` field
* set, the instance value stored in the constraint. Storing instances in constraints
* is done only in a temporary way for contexts that may be retracted
* without also retracting the type var as a whole.
*/
def instType(tvar: TypeVar)(implicit ctx: Context): Type = constraint.entry(tvar.origin) match {
case _: TypeBounds => NoType
case tp: PolyParam =>
var tvar1 = constraint.typeVarOfParam(tp)
if (tvar1.exists) tvar1 else tp
case tp => tp
}
/** A fresh typer state with the same constraint as this one.
* @param isCommittable The constraint can be committed to an enclosing context.
*/
def fresh(isCommittable: Boolean): TyperState = this
/** A fresh type state with the same constraint as this one and the given reporter */
def withReporter(reporter: Reporter) = new TyperState(reporter)
/** Commit state so that it gets propagated to enclosing context */
def commit()(implicit ctx: Context): Unit = unsupported("commit")
/** The closest ancestor of this typer state (including possibly this typer state itself)
* which is not yet committed, or which does not have a parent.
*/
def uncommittedAncestor: TyperState = this
/** Make type variable instances permanent by assigning to `inst` field if
* type variable instantiation cannot be retracted anymore. Then, remove
* no-longer needed constraint entries.
*/
def gc()(implicit ctx: Context): Unit = ()
/** Is it allowed to commit this state? */
def isCommittable: Boolean = false
/** Can this state be transitively committed until the top-level? */
def isGlobalCommittable: Boolean = false
def tryWithFallback[T](op: => T)(fallback: => T)(implicit ctx: Context): T = unsupported("tryWithFallBack")
override def toText(printer: Printer): Text = "ImmutableTyperState"
/** A string showing the hashes of all nested mutable typerstates */
def hashesStr: String = ""
}
class MutableTyperState(previous: TyperState, r: Reporter, override val isCommittable: Boolean)
extends TyperState(r) {
private var myReporter = r
override def reporter = myReporter
private val previousConstraint = previous.constraint
private var myConstraint: Constraint = previousConstraint
override def constraint = myConstraint
override def constraint_=(c: Constraint)(implicit ctx: Context) = {
if (Config.debugCheckConstraintsClosed && isGlobalCommittable) c.checkClosed()
myConstraint = c
}
private var myEphemeral: Boolean = previous.ephemeral
override def ephemeral = myEphemeral
override def ephemeral_=(x: Boolean): Unit = { myEphemeral = x }
override def fresh(isCommittable: Boolean): TyperState =
new MutableTyperState(this, new StoreReporter(reporter), isCommittable)
override def withReporter(reporter: Reporter) =
new MutableTyperState(this, reporter, isCommittable)
override val isGlobalCommittable =
isCommittable &&
(!previous.isInstanceOf[MutableTyperState] || previous.isGlobalCommittable)
private var isCommitted = false
override def uncommittedAncestor: TyperState =
if (isCommitted) previous.uncommittedAncestor else this
/** Commit typer state so that its information is copied into current typer state
* In addition (1) the owning state of undetermined or temporarily instantiated
* type variables changes from this typer state to the current one. (2) Variables
* that were temporarily instantiated in the current typer state are permanently
* instantiated instead.
*
* A note on merging: An interesting test case is isApplicableSafe.scala. It turns out that this
* requires a context merge using the new `&' operator. Sequence of actions:
* 1) Typecheck argument in typerstate 1.
* 2) Cache argument.
* 3) Evolve same typer state (to typecheck other arguments, say)
* leading to a different constraint.
* 4) Take typechecked argument in same state.
*
* It turns out that the merge is needed not just for
* isApplicableSafe but also for (e.g. erased-lubs.scala) as well as
* many parts of dotty itself.
*/
override def commit()(implicit ctx: Context) = {
val targetState = ctx.typerState
assert(isCommittable)
targetState.constraint =
if (targetState.constraint eq previousConstraint) constraint
else targetState.constraint & constraint
constraint foreachTypeVar { tvar =>
if (tvar.owningState eq this)
tvar.owningState = targetState
}
targetState.ephemeral |= ephemeral
targetState.gc()
reporter.flush()
isCommitted = true
}
override def gc()(implicit ctx: Context): Unit = {
val toCollect = new mutable.ListBuffer[PolyType]
constraint foreachTypeVar { tvar =>
if (!tvar.inst.exists) {
val inst = instType(tvar)
if (inst.exists && (tvar.owningState eq this)) {
tvar.inst = inst
val poly = tvar.origin.binder
if (constraint.isRemovable(poly)) toCollect += poly
}
}
}
for (poly <- toCollect)
constraint = constraint.remove(poly)
}
/** Try operation `op`; if it produces errors, execute `fallback` with constraint and
* reporter as they were before `op` was executed. This is similar to `typer/tryEither`,
* but with one important difference: Any type variable instantiations produced by `op`
* are persisted even if `op` fails. This is normally not what one wants and therefore
* it is recommended to use
*
* tryEither { implicit ctx => op } { (_, _) => fallBack }
*
* instead of
*
* ctx.tryWithFallback(op)(fallBack)
*
* `tryWithFallback` is only used when an implicit parameter search fails
* and the whole expression is subsequently retype-checked with a Wildcard
* expected type (so as to allow an implicit conversion on the result and
* avoid over-constraining the implicit parameter search). In this case,
* the only type variables that might be falsely instantiated by `op` but
* not by `fallBack` are type variables in the typed expression itself, and
* these will be thrown away and new ones will be created on re-typing.
* So `tryWithFallback` is safe. It is also necessary because without it
* we do not propagate enough instantiation information into the implicit search
* and this might lead to a missing parameter type error. This is exhibited
* at several places in the test suite (for instance in `pos_typers`).
* Overall, this is rather ugly, but despite trying for 2 days I have not
* found a better solution.
*/
override def tryWithFallback[T](op: => T)(fallback: => T)(implicit ctx: Context): T = {
val storeReporter = new StoreReporter(myReporter)
val savedReporter = myReporter
myReporter = storeReporter
val savedConstraint = myConstraint
val result = try op finally myReporter = savedReporter
if (!storeReporter.hasErrors) result
else {
myConstraint = savedConstraint
fallback
}
}
override def toText(printer: Printer): Text = constraint.toText(printer)
override def hashesStr: String = hashCode.toString + " -> " + previous.hashesStr
}