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Instantiate more type variables to hard unions #15632

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6 changes: 6 additions & 0 deletions compiler/src/dotty/tools/dotc/core/Constraint.scala
Original file line number Diff line number Diff line change
Expand Up @@ -126,6 +126,12 @@ abstract class Constraint extends Showable {
*/
def subst(from: TypeLambda, to: TypeLambda)(using Context): This

/** Is `tv` marked as hard in the constraint? */
def isHard(tv: TypeVar): Boolean

/** The same as this constraint, but with `tv` marked as hard. */
def withHard(tv: TypeVar)(using Context): This

/** 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
Expand Down
39 changes: 31 additions & 8 deletions compiler/src/dotty/tools/dotc/core/ConstraintHandling.scala
Original file line number Diff line number Diff line change
Expand Up @@ -13,6 +13,7 @@ import typer.ProtoTypes.{newTypeVar, representedParamRef}
import UnificationDirection.*
import NameKinds.AvoidNameKind
import util.SimpleIdentitySet
import NullOpsDecorator.stripNull

/** Methods for adding constraints and solving them.
*
Expand Down Expand Up @@ -627,8 +628,11 @@ trait ConstraintHandling {
* 1. If `inst` is a singleton type, or a union containing some singleton types,
* widen (all) the singleton type(s), provided the result is a subtype of `bound`.
* (i.e. `inst.widenSingletons <:< bound` succeeds with satisfiable constraint)
* 2. If `inst` is a union type, approximate the union type from above by an intersection
* of all common base types, provided the result is a subtype of `bound`.
* 2a. If `inst` is a union type and `widenUnions` is true, approximate the union type
* from above by an intersection of all common base types, provided the result
* is a subtype of `bound`.
* 2b. If `inst` is a union type and `widenUnions` is false, turn it into a hard
* union type (except for unions | Null, which are kept in the state they were).
* 3. Widen some irreducible applications of higher-kinded types to wildcard arguments
* (see @widenIrreducible).
* 4. Drop transparent traits from intersections (see @dropTransparentTraits).
Expand All @@ -641,10 +645,12 @@ trait ConstraintHandling {
* At this point we also drop the @Repeated annotation to avoid inferring type arguments with it,
* as those could leak the annotation to users (see run/inferred-repeated-result).
*/
def widenInferred(inst: Type, bound: Type)(using Context): Type =
def widenInferred(inst: Type, bound: Type, widenUnions: Boolean)(using Context): Type =
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def widenOr(tp: Type) =
val tpw = tp.widenUnion
if (tpw ne tp) && (tpw <:< bound) then tpw else tp
if widenUnions then
val tpw = tp.widenUnion
if (tpw ne tp) && (tpw <:< bound) then tpw else tp
else tp.hardenUnions

def widenSingle(tp: Type) =
val tpw = tp.widenSingletons
Expand All @@ -664,6 +670,23 @@ trait ConstraintHandling {
wideInst.dropRepeatedAnnot
end widenInferred

/** Convert all toplevel union types in `tp` to hard unions */
extension (tp: Type) private def hardenUnions(using Context): Type = tp.widen match
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My original idea was to change https://github.com/lampepfl/dotty/blob/6540ad9154797164561281080b6a4e24a191691d/compiler/src/dotty/tools/dotc/core/ConstraintHandling.scala#L266 which currently uses | (and thus creates soft unions) to instead check a flag to decide whether to use a soft or hard union. This would avoid having to convert unions after creating them, and it means we can reset the flag after adding the constraint.

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The problem I see with this is that the lower bound might be a union with type variables in it. In that case the type variables would end up in the ordering constraint and there would be no union to harden until the time we instantiate the type variable.

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I see, so we couldn't reset the flag but could check hardVars in ConstraintHandling when we create the unions I think, that would cover unions created later from propagating constraints based on ordering.

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I think hardVars belongs in TyperState. If it's in ConstraintHandling we would lose it when we commit a constraint.

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Right, I meant we could leave it in TyperState but check it in ConstraintHandling#addOneBound instead of checking it in TypeVar#instantiate, but I don't know if we're actually supposed to access the currrent TyperState from ConstraintHandling.

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But addOneBound does not necessarily create a union. The union might be created by fullBounds when we instantiate the variable.

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But as far as I can tell we don't use fullBounds to instantiate a type variable (except for GADTs but we know that's problematic: #14288)

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We do use fullLowerBound in approximation.

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Ah that's right, so we'd have to check hardVars both in addOneBound and fullLowerBound, I'm neutral on whether this is better than the current scheme.

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I think it's better to tie it to typevariable instantiation, since we do fullLowerBound also elsewhere. We could possibly add it to approximate, but maybe that mixes up things too much.

case tp: AndType =>
tp.derivedAndType(tp.tp1.hardenUnions, tp.tp2.hardenUnions)
case tp: RefinedType =>
tp.derivedRefinedType(tp.parent.hardenUnions, tp.refinedName, tp.refinedInfo)
case tp: RecType =>
tp.rebind(tp.parent.hardenUnions)
case tp: HKTypeLambda =>
tp.derivedLambdaType(resType = tp.resType.hardenUnions)
case tp: OrType =>
val tp1 = tp.stripNull
if tp1 ne tp then tp.derivedOrType(tp1.hardenUnions, defn.NullType)
else tp.derivedOrType(tp.tp1.hardenUnions, tp.tp2.hardenUnions, soft = false)
case _ =>
tp

/** The instance type of `param` in the current constraint (which contains `param`).
* If `fromBelow` is true, the instance type is the lub of the parameter's
* lower bounds; otherwise it is the glb of its upper bounds. However,
Expand All @@ -672,18 +695,18 @@ trait ConstraintHandling {
* The instance type is not allowed to contain references to types nested deeper
* than `maxLevel`.
*/
def instanceType(param: TypeParamRef, fromBelow: Boolean, maxLevel: Int)(using Context): Type = {
def instanceType(param: TypeParamRef, fromBelow: Boolean, widenUnions: Boolean, maxLevel: Int)(using Context): Type = {
val approx = approximation(param, fromBelow, maxLevel).simplified
if fromBelow then
val widened = widenInferred(approx, param)
val widened = widenInferred(approx, param, widenUnions)
// Widening can add extra constraints, in particular the widened type might
// be a type variable which is now instantiated to `param`, and therefore
// cannot be used as an instantiation of `param` without creating a loop.
// If that happens, we run `instanceType` again to find a new instantation.
// (we do not check for non-toplevel occurences: those should never occur
// since `addOneBound` disallows recursive lower bounds).
if constraint.occursAtToplevel(param, widened) then
instanceType(param, fromBelow, maxLevel)
instanceType(param, fromBelow, widenUnions, maxLevel)
else
widened
else
Expand Down
4 changes: 2 additions & 2 deletions compiler/src/dotty/tools/dotc/core/GadtConstraint.scala
Original file line number Diff line number Diff line change
Expand Up @@ -6,7 +6,7 @@ import Decorators._
import Contexts._
import Types._
import Symbols._
import util.SimpleIdentityMap
import util.{SimpleIdentitySet, SimpleIdentityMap}
import collection.mutable
import printing._

Expand Down Expand Up @@ -68,7 +68,7 @@ final class ProperGadtConstraint private(
import dotty.tools.dotc.config.Printers.{gadts, gadtsConstr}

def this() = this(
myConstraint = new OrderingConstraint(SimpleIdentityMap.empty, SimpleIdentityMap.empty, SimpleIdentityMap.empty),
myConstraint = new OrderingConstraint(SimpleIdentityMap.empty, SimpleIdentityMap.empty, SimpleIdentityMap.empty, SimpleIdentitySet.empty),
mapping = SimpleIdentityMap.empty,
reverseMapping = SimpleIdentityMap.empty,
wasConstrained = false
Expand Down
35 changes: 23 additions & 12 deletions compiler/src/dotty/tools/dotc/core/OrderingConstraint.scala
Original file line number Diff line number Diff line change
Expand Up @@ -3,7 +3,7 @@ package dotc
package core

import Types._, Contexts._, Symbols._, Decorators._, TypeApplications._
import util.SimpleIdentityMap
import util.{SimpleIdentitySet, SimpleIdentityMap}
import collection.mutable
import printing.Printer
import printing.Texts._
Expand All @@ -24,12 +24,14 @@ object OrderingConstraint {
/** The type of `OrderingConstraint#lowerMap`, `OrderingConstraint#upperMap` */
type ParamOrdering = ArrayValuedMap[List[TypeParamRef]]

/** A new constraint with given maps */
private def newConstraint(boundsMap: ParamBounds, lowerMap: ParamOrdering, upperMap: ParamOrdering)(using Context) : OrderingConstraint =
/** A new constraint with given maps and given set of hard typevars */
private def newConstraint(
boundsMap: ParamBounds, lowerMap: ParamOrdering, upperMap: ParamOrdering,
hardVars: TypeVars)(using Context) : OrderingConstraint =
if boundsMap.isEmpty && lowerMap.isEmpty && upperMap.isEmpty then
empty
else
val result = new OrderingConstraint(boundsMap, lowerMap, upperMap)
val result = new OrderingConstraint(boundsMap, lowerMap, upperMap, hardVars)
if ctx.run != null then ctx.run.nn.recordConstraintSize(result, result.boundsMap.size)
result

Expand Down Expand Up @@ -91,28 +93,28 @@ object OrderingConstraint {
def entries(c: OrderingConstraint, poly: TypeLambda): Array[Type] | Null =
c.boundsMap(poly)
def updateEntries(c: OrderingConstraint, poly: TypeLambda, entries: Array[Type])(using Context): OrderingConstraint =
newConstraint(c.boundsMap.updated(poly, entries), c.lowerMap, c.upperMap)
newConstraint(c.boundsMap.updated(poly, entries), c.lowerMap, c.upperMap, c.hardVars)
def initial = NoType
}

val lowerLens: ConstraintLens[List[TypeParamRef]] = new ConstraintLens[List[TypeParamRef]] {
def entries(c: OrderingConstraint, poly: TypeLambda): Array[List[TypeParamRef]] | Null =
c.lowerMap(poly)
def updateEntries(c: OrderingConstraint, poly: TypeLambda, entries: Array[List[TypeParamRef]])(using Context): OrderingConstraint =
newConstraint(c.boundsMap, c.lowerMap.updated(poly, entries), c.upperMap)
newConstraint(c.boundsMap, c.lowerMap.updated(poly, entries), c.upperMap, c.hardVars)
def initial = Nil
}

val upperLens: ConstraintLens[List[TypeParamRef]] = new ConstraintLens[List[TypeParamRef]] {
def entries(c: OrderingConstraint, poly: TypeLambda): Array[List[TypeParamRef]] | Null =
c.upperMap(poly)
def updateEntries(c: OrderingConstraint, poly: TypeLambda, entries: Array[List[TypeParamRef]])(using Context): OrderingConstraint =
newConstraint(c.boundsMap, c.lowerMap, c.upperMap.updated(poly, entries))
newConstraint(c.boundsMap, c.lowerMap, c.upperMap.updated(poly, entries), c.hardVars)
def initial = Nil
}

@sharable
val empty = new OrderingConstraint(SimpleIdentityMap.empty, SimpleIdentityMap.empty, SimpleIdentityMap.empty)
val empty = new OrderingConstraint(SimpleIdentityMap.empty, SimpleIdentityMap.empty, SimpleIdentityMap.empty, SimpleIdentitySet.empty)
}

import OrderingConstraint._
Expand All @@ -134,10 +136,13 @@ import OrderingConstraint._
* @param upperMap a map from TypeLambdas to arrays. Each array entry corresponds
* to a parameter P of the type lambda; it contains all constrained parameters
* Q that are known to be greater than P, i.e. P <: Q.
* @param hardVars a set of type variables that are marked as hard and therefore will not
* undergo a `widenUnion` when instantiated to their lower bound.
*/
class OrderingConstraint(private val boundsMap: ParamBounds,
private val lowerMap : ParamOrdering,
private val upperMap : ParamOrdering) extends Constraint {
private val upperMap : ParamOrdering,
private val hardVars : TypeVars) extends Constraint {

import UnificationDirection.*

Expand Down Expand Up @@ -277,7 +282,7 @@ class OrderingConstraint(private val boundsMap: ParamBounds,
val entries1 = new Array[Type](nparams * 2)
poly.paramInfos.copyToArray(entries1, 0)
tvars.copyToArray(entries1, nparams)
newConstraint(boundsMap.updated(poly, entries1), lowerMap, upperMap).init(poly)
newConstraint(boundsMap.updated(poly, entries1), lowerMap, upperMap, hardVars).init(poly)
}

/** Split dependent parameters off the bounds for parameters in `poly`.
Expand Down Expand Up @@ -478,7 +483,8 @@ class OrderingConstraint(private val boundsMap: ParamBounds,
}
po.remove(pt).mapValuesNow(removeFromBoundss)
}
newConstraint(boundsMap.remove(pt), removeFromOrdering(lowerMap), removeFromOrdering(upperMap))
val hardVars1 = pt.paramRefs.foldLeft(hardVars)((hvs, param) => hvs - typeVarOfParam(param))
newConstraint(boundsMap.remove(pt), removeFromOrdering(lowerMap), removeFromOrdering(upperMap), hardVars1)
.checkNonCyclic()
}

Expand All @@ -505,7 +511,7 @@ class OrderingConstraint(private val boundsMap: ParamBounds,
def swapKey[T](m: ArrayValuedMap[T]) =
val info = m(from)
if info == null then m else m.remove(from).updated(to, info)
var current = newConstraint(swapKey(boundsMap), swapKey(lowerMap), swapKey(upperMap))
var current = newConstraint(swapKey(boundsMap), swapKey(lowerMap), swapKey(upperMap), hardVars)
def subst[T <: Type](x: T): T = x.subst(from, to).asInstanceOf[T]
current.foreachParam {(p, i) =>
current = boundsLens.map(this, current, p, i, subst)
Expand All @@ -515,6 +521,11 @@ class OrderingConstraint(private val boundsMap: ParamBounds,
constr.println(i"renamed $this to $current")
current.checkNonCyclic()

def isHard(tv: TypeVar) = hardVars.contains(tv)

def withHard(tv: TypeVar)(using Context) =
newConstraint(boundsMap, lowerMap, upperMap, hardVars + tv)

def instType(tvar: TypeVar): Type = entry(tvar.origin) match
case _: TypeBounds => NoType
case tp: TypeParamRef => typeVarOfParam(tp).orElse(tp)
Expand Down
69 changes: 39 additions & 30 deletions compiler/src/dotty/tools/dotc/core/TypeComparer.scala
Original file line number Diff line number Diff line change
Expand Up @@ -485,33 +485,42 @@ class TypeComparer(@constructorOnly initctx: Context) extends ConstraintHandling
false
}

// If LHS is a hard union, constrain any type variables of the RHS with it as lower bound
// before splitting the LHS into its constituents. That way, the RHS variables are
// constraint by the hard union and can be instantiated to it. If we just split and add
// the two parts of the LHS separately to the constraint, the lower bound would become
// a soft union.
def constrainRHSVars(tp2: Type): Boolean = tp2.dealiasKeepRefiningAnnots match
case tp2: TypeParamRef if constraint contains tp2 => compareTypeParamRef(tp2)
case AndType(tp21, tp22) => constrainRHSVars(tp21) && constrainRHSVars(tp22)
case _ => true
/** Mark toplevel type vars in `tp2` as hard in the current constraint */
def hardenTypeVars(tp2: Type): Unit = tp2.dealiasKeepRefiningAnnots match
case tvar: TypeVar if constraint.contains(tvar.origin) =>
constraint = constraint.withHard(tvar)
case tp2: TypeParamRef if constraint.contains(tp2) =>
hardenTypeVars(constraint.typeVarOfParam(tp2))
case tp2: AndOrType =>
hardenTypeVars(tp2.tp1)
hardenTypeVars(tp2.tp2)
case _ =>

widenOK
|| joinOK
|| (tp1.isSoft || constrainRHSVars(tp2)) && recur(tp11, tp2) && recur(tp12, tp2)
|| containsAnd(tp1)
&& !joined
&& {
joined = true
try inFrozenGadt(recur(tp1.join, tp2))
finally joined = false
}
// An & on the left side loses information. We compensate by also trying the join.
// This is less ad-hoc than it looks since we produce joins in type inference,
// and then need to check that they are indeed supertypes of the original types
// under -Ycheck. Test case is i7965.scala.
// On the other hand, we could get a combinatorial explosion by applying such joins
// recursively, so we do it only once. See i14870.scala as a test case, which would
// loop for a very long time without the recursion brake.
val res = widenOK || joinOK
|| recur(tp11, tp2) && recur(tp12, tp2)
|| containsAnd(tp1)
&& !joined
&& {
joined = true
try inFrozenGadt(recur(tp1.join, tp2))
finally joined = false
}
// An & on the left side loses information. We compensate by also trying the join.
// This is less ad-hoc than it looks since we produce joins in type inference,
// and then need to check that they are indeed supertypes of the original types
// under -Ycheck. Test case is i7965.scala.
// On the other hand, we could get a combinatorial explosion by applying such joins
// recursively, so we do it only once. See i14870.scala as a test case, which would
// loop for a very long time without the recursion brake.

if res && !tp1.isSoft && state.isCommittable then
// We use a heuristic here where every toplevel type variable on the right hand side
// is marked so that it converts all soft unions in its lower bound to hard unions
// before it is instantiated. The reason is that the variable's instance type will
// be a supertype of (decomposed and reconstituted) `tp1`.
hardenTypeVars(tp2)

res

case CapturingType(parent1, refs1) =>
if subCaptures(refs1, tp2.captureSet, frozenConstraint).isOK && sameBoxed(tp1, tp2, refs1)
Expand Down Expand Up @@ -2960,8 +2969,8 @@ object TypeComparer {
def subtypeCheckInProgress(using Context): Boolean =
comparing(_.subtypeCheckInProgress)

def instanceType(param: TypeParamRef, fromBelow: Boolean, maxLevel: Int = Int.MaxValue)(using Context): Type =
comparing(_.instanceType(param, fromBelow, maxLevel))
def instanceType(param: TypeParamRef, fromBelow: Boolean, widenUnions: Boolean, maxLevel: Int = Int.MaxValue)(using Context): Type =
comparing(_.instanceType(param, fromBelow, widenUnions, maxLevel))

def approximation(param: TypeParamRef, fromBelow: Boolean, maxLevel: Int = Int.MaxValue)(using Context): Type =
comparing(_.approximation(param, fromBelow, maxLevel))
Expand All @@ -2981,8 +2990,8 @@ object TypeComparer {
def addToConstraint(tl: TypeLambda, tvars: List[TypeVar])(using Context): Boolean =
comparing(_.addToConstraint(tl, tvars))

def widenInferred(inst: Type, bound: Type)(using Context): Type =
comparing(_.widenInferred(inst, bound))
def widenInferred(inst: Type, bound: Type, widenUnions: Boolean)(using Context): Type =
comparing(_.widenInferred(inst, bound, widenUnions))

def dropTransparentTraits(tp: Type, bound: Type)(using Context): Type =
comparing(_.dropTransparentTraits(tp, bound))
Expand Down
4 changes: 3 additions & 1 deletion compiler/src/dotty/tools/dotc/core/TypeOps.scala
Original file line number Diff line number Diff line change
Expand Up @@ -537,7 +537,9 @@ object TypeOps:
override def apply(tp: Type): Type = tp match
case tp: TypeVar if mapCtx.typerState.constraint.contains(tp) =>
val lo = TypeComparer.instanceType(
tp.origin, fromBelow = variance > 0 || variance == 0 && tp.hasLowerBound)(using mapCtx)
tp.origin,
fromBelow = variance > 0 || variance == 0 && tp.hasLowerBound,
widenUnions = tp.widenUnions)(using mapCtx)
val lo1 = apply(lo)
if (lo1 ne lo) lo1 else tp
case _ =>
Expand Down
5 changes: 4 additions & 1 deletion compiler/src/dotty/tools/dotc/core/TyperState.scala
Original file line number Diff line number Diff line change
Expand Up @@ -229,7 +229,10 @@ class TyperState() {
constraint.contains(tl) || other.isRemovable(tl) || {
val tvars = tl.paramRefs.map(other.typeVarOfParam(_)).collect { case tv: TypeVar => tv }
if this.isCommittable then
tvars.foreach(tvar => if !tvar.inst.exists && !isOwnedAnywhere(this, tvar) then includeVar(tvar))
tvars.foreach(tvar =>
if !tvar.inst.exists then
if !isOwnedAnywhere(this, tvar) then includeVar(tvar)
if constraint.isHard(tvar) then constraint = constraint.withHard(tvar))
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typeComparer.addToConstraint(tl, tvars)
}) &&
// Integrate the additional constraints on type variables from `other`
Expand Down
5 changes: 4 additions & 1 deletion compiler/src/dotty/tools/dotc/core/Types.scala
Original file line number Diff line number Diff line change
Expand Up @@ -4714,12 +4714,15 @@ object Types {
* is also a singleton type.
*/
def instantiate(fromBelow: Boolean)(using Context): Type =
val tp = TypeComparer.instanceType(origin, fromBelow, nestingLevel)
val tp = TypeComparer.instanceType(origin, fromBelow, widenUnions, nestingLevel)
if myInst.exists then // The line above might have triggered instantiation of the current type variable
myInst
else
instantiateWith(tp)

/** Widen unions when instantiating this variable in the current context? */
def widenUnions(using Context): Boolean = !ctx.typerState.constraint.isHard(this)

/** For uninstantiated type variables: the entry in the constraint (either bounds or
* provisional instance value)
*/
Expand Down
2 changes: 1 addition & 1 deletion compiler/src/dotty/tools/dotc/typer/Namer.scala
Original file line number Diff line number Diff line change
Expand Up @@ -1888,7 +1888,7 @@ class Namer { typer: Typer =>
TypeOps.simplify(tp.widenTermRefExpr,
if defaultTp.exists then TypeOps.SimplifyKeepUnchecked() else null) match
case ctp: ConstantType if sym.isInlineVal => ctp
case tp => TypeComparer.widenInferred(tp, pt)
case tp => TypeComparer.widenInferred(tp, pt, widenUnions = true)

// Replace aliases to Unit by Unit itself. If we leave the alias in
// it would be erased to BoxedUnit.
Expand Down
2 changes: 1 addition & 1 deletion compiler/src/dotty/tools/dotc/typer/Synthesizer.scala
Original file line number Diff line number Diff line change
Expand Up @@ -514,7 +514,7 @@ class Synthesizer(typer: Typer)(using @constructorOnly c: Context):
val tparams = poly.paramRefs
val variances = childClass.typeParams.map(_.paramVarianceSign)
val instanceTypes = tparams.lazyZip(variances).map((tparam, variance) =>
TypeComparer.instanceType(tparam, fromBelow = variance < 0)
TypeComparer.instanceType(tparam, fromBelow = variance < 0, widenUnions = true)
)
val instanceType = resType.substParams(poly, instanceTypes)
// this is broken in tests/run/i13332intersection.scala,
Expand Down
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