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[dev.typeparams] go/types: move instance.go contents into named.go (cleanup)

This is a port of CL 338469 to go/types.

Change-Id: I3ee655fa2dc7e789f210c8dec171b3358c4ff132
Reviewed-on: https://go-review.googlesource.com/c/go/+/339677
Trust: Robert Findley <rfindley@google.com>
Run-TryBot: Robert Findley <rfindley@google.com>
TryBot-Result: Go Bot <gobot@golang.org>
Reviewed-by: Robert Griesemer <gri@golang.org>
This commit is contained in:
Rob Findley 2021-08-03 21:43:39 -04:00 committed by Robert Findley
parent b01e775e9c
commit d27a889119
4 changed files with 39 additions and 54 deletions

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@ -1,44 +0,0 @@
// Copyright 2011 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package types
// TODO(rfindley): move this code to named.go.
import "go/token"
// instance holds position information for use in lazy instantiation.
//
// TODO(rfindley): come up with a better name for this type, now that its usage
// has changed.
type instance struct {
pos token.Pos // position of type instantiation; for error reporting only
posList []token.Pos // position of each targ; for error reporting only
}
// expand ensures that the underlying type of n is instantiated.
// The underlying type will be Typ[Invalid] if there was an error.
// TODO(rfindley): expand would be a better name for this method, but conflicts
// with the existing concept of lazy expansion. Need to reconcile this.
func (n *Named) expand() {
if n.instance != nil {
// n must be loaded before instantiation, in order to have accurate
// tparams. This is done implicitly by the call to n.TParams, but making it
// explicit is harmless: load is idempotent.
n.load()
inst := n.check.instantiate(n.instance.pos, n.orig.underlying, n.TParams().list(), n.targs, n.instance.posList)
n.underlying = inst
n.fromRHS = inst
n.instance = nil
}
}
// expand expands uninstantiated named types and leaves all other types alone.
// expand does not recurse.
func expand(typ Type) Type {
if t, _ := typ.(*Named); t != nil {
t.expand()
}
return typ
}

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@ -4,7 +4,10 @@
package types package types
import "sync" import (
"go/token"
"sync"
)
// TODO(rfindley) Clean up Named struct below; specifically the fromRHS field (can we use underlying?). // TODO(rfindley) Clean up Named struct below; specifically the fromRHS field (can we use underlying?).
@ -252,3 +255,38 @@ func (n *Named) setUnderlying(typ Type) {
n.underlying = typ n.underlying = typ
} }
} }
// instance holds position information for use in lazy instantiation.
//
// TODO(rfindley): come up with a better name for this type, now that its usage
// has changed.
type instance struct {
pos token.Pos // position of type instantiation; for error reporting only
posList []token.Pos // position of each targ; for error reporting only
}
// expand ensures that the underlying type of n is instantiated.
// The underlying type will be Typ[Invalid] if there was an error.
// TODO(rfindley): expand would be a better name for this method, but conflicts
// with the existing concept of lazy expansion. Need to reconcile this.
func (n *Named) expand() {
if n.instance != nil {
// n must be loaded before instantiation, in order to have accurate
// tparams. This is done implicitly by the call to n.TParams, but making it
// explicit is harmless: load is idempotent.
n.load()
inst := n.check.instantiate(n.instance.pos, n.orig.underlying, n.TParams().list(), n.targs, n.instance.posList)
n.underlying = inst
n.fromRHS = inst
n.instance = nil
}
}
// expand expands uninstantiated named types and leaves all other types alone.
// expand does not recurse.
func expand(typ Type) Type {
if t, _ := typ.(*Named); t != nil {
t.expand()
}
return typ
}

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@ -57,9 +57,6 @@ func isNumericOrString(typ Type) bool { return is(typ, IsNumeric|IsString) }
func isTyped(typ Type) bool { func isTyped(typ Type) bool {
// isTyped is called with types that are not fully // isTyped is called with types that are not fully
// set up. Must not call asBasic()! // set up. Must not call asBasic()!
// A *Named or *instance type is always typed, so
// we only need to check if we have a true *Basic
// type.
t, _ := typ.(*Basic) t, _ := typ.(*Basic)
return t == nil || t.info&IsUntyped == 0 return t == nil || t.info&IsUntyped == 0
} }
@ -328,9 +325,6 @@ func identical(x, y Type, cmpTags bool, p *ifacePair) bool {
case *TypeParam: case *TypeParam:
// nothing to do (x and y being equal is caught in the very beginning of this function) // nothing to do (x and y being equal is caught in the very beginning of this function)
// case *instance:
// unreachable since types are expanded
case *top: case *top:
// Either both types are theTop in which case the initial x == y check // Either both types are theTop in which case the initial x == y check
// will have caught them. Otherwise they are not identical. // will have caught them. Otherwise they are not identical.

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@ -456,9 +456,6 @@ func (u *unifier) nify(x, y Type, p *ifacePair) bool {
// are identical if they originate in the same declaration. // are identical if they originate in the same declaration.
return x == y return x == y
// case *instance:
// unreachable since types are expanded
case nil: case nil:
// avoid a crash in case of nil type // avoid a crash in case of nil type