go/types, types2: factor out check for updated type arguments (cleanup)

Change-Id: I3e2668e4a24c145f121199a5f7f4278ff5d5f1da
Reviewed-on: https://go-review.googlesource.com/c/go/+/587676
Reviewed-by: Robert Griesemer <gri@google.com>
Reviewed-by: Robert Findley <rfindley@google.com>
Auto-Submit: Robert Griesemer <gri@google.com>
LUCI-TryBot-Result: Go LUCI <golang-scoped@luci-project-accounts.iam.gserviceaccount.com>

src/cmd/compile/internal/types2/subst.go

@@ -105,32 +105,19 @@ func (subst *subster) typ(typ Type) Type {
 		}
 
 		// TODO(gri) do we need this for Alias types?
-		var newTArgs []Type
 		if t.TypeArgs().Len() != n {
 			return Typ[Invalid] // error reported elsewhere
 		}
 
 		// already instantiated
-		// For each (existing) type argument targ, determine if it needs
+		// For each (existing) type argument determine if it needs
 		// to be substituted; i.e., if it is or contains a type parameter
 		// that has a type argument for it.
-		for i, targ := range t.TypeArgs().list() {
-			new_targ := subst.typ(targ)
-			if new_targ != targ {
-				if newTArgs == nil {
-					newTArgs = make([]Type, n)
-					copy(newTArgs, t.TypeArgs().list())
-				}
-				newTArgs[i] = new_targ
-			}
+		targs, updated := subst.typeList(t.TypeArgs().list())
+		if updated {
+			return subst.check.newAliasInstance(subst.pos, t.orig, targs, subst.ctxt)
 		}
 
-		if newTArgs == nil {
-			return t // nothing to substitute
-		}
-
-		return subst.check.newAliasInstance(subst.pos, t.orig, newTArgs, subst.ctxt)
-
 	case *Array:
 		elem := subst.typOrNil(t.elem)
 		if elem != t.elem {
@@ -245,18 +232,6 @@ func (subst *subster) typ(typ Type) Type {
 		}
 
 	case *Named:
-		// dump is for debugging
-		dump := func(string, ...interface{}) {}
-		if subst.check != nil && subst.check.conf.Trace {
-			subst.check.indent++
-			defer func() {
-				subst.check.indent--
-			}()
-			dump = func(format string, args ...interface{}) {
-				subst.check.trace(subst.pos, format, args...)
-			}
-		}
-
 		// subst is called during expansion, so in this function we need to be
 		// careful not to call any methods that would cause t to be expanded: doing
 		// so would result in deadlock.
@@ -265,44 +240,26 @@ func (subst *subster) typ(typ Type) Type {
 		orig := t.Origin()
 		n := orig.TypeParams().Len()
 		if n == 0 {
-			dump(">>> %s is not parameterized", t)
 			return t // type is not parameterized
 		}
 
-		var newTArgs []Type
 		if t.TypeArgs().Len() != n {
 			return Typ[Invalid] // error reported elsewhere
 		}
 
 		// already instantiated
-		dump(">>> %s already instantiated", t)
-		// For each (existing) type argument targ, determine if it needs
+		// For each (existing) type argument determine if it needs
 		// to be substituted; i.e., if it is or contains a type parameter
 		// that has a type argument for it.
-		for i, targ := range t.TypeArgs().list() {
-			dump(">>> %d targ = %s", i, targ)
-			new_targ := subst.typ(targ)
-			if new_targ != targ {
-				dump(">>> substituted %d targ %s => %s", i, targ, new_targ)
-				if newTArgs == nil {
-					newTArgs = make([]Type, n)
-					copy(newTArgs, t.TypeArgs().list())
-				}
-				newTArgs[i] = new_targ
-			}
+		targs, updated := subst.typeList(t.TypeArgs().list())
+		if updated {
+			// Create a new instance and populate the context to avoid endless
+			// recursion. The position used here is irrelevant because validation only
+			// occurs on t (we don't call validType on named), but we use subst.pos to
+			// help with debugging.
+			return subst.check.instance(subst.pos, orig, targs, subst.expanding, subst.ctxt)
 		}
 
-		if newTArgs == nil {
-			dump(">>> nothing to substitute in %s", t)
-			return t // nothing to substitute
-		}
-
-		// Create a new instance and populate the context to avoid endless
-		// recursion. The position used here is irrelevant because validation only
-		// occurs on t (we don't call validType on named), but we use subst.pos to
-		// help with debugging.
-		return subst.check.instance(subst.pos, orig, newTArgs, subst.expanding, subst.ctxt)
-
 	case *TypeParam:
 		return subst.smap.lookup(t)
 

src/go/types/subst.go

@@ -108,32 +108,19 @@ func (subst *subster) typ(typ Type) Type {
 		}
 
 		// TODO(gri) do we need this for Alias types?
-		var newTArgs []Type
 		if t.TypeArgs().Len() != n {
 			return Typ[Invalid] // error reported elsewhere
 		}
 
 		// already instantiated
-		// For each (existing) type argument targ, determine if it needs
+		// For each (existing) type argument determine if it needs
 		// to be substituted; i.e., if it is or contains a type parameter
 		// that has a type argument for it.
-		for i, targ := range t.TypeArgs().list() {
-			new_targ := subst.typ(targ)
-			if new_targ != targ {
-				if newTArgs == nil {
-					newTArgs = make([]Type, n)
-					copy(newTArgs, t.TypeArgs().list())
-				}
-				newTArgs[i] = new_targ
-			}
+		targs, updated := subst.typeList(t.TypeArgs().list())
+		if updated {
+			return subst.check.newAliasInstance(subst.pos, t.orig, targs, subst.ctxt)
 		}
 
-		if newTArgs == nil {
-			return t // nothing to substitute
-		}
-
-		return subst.check.newAliasInstance(subst.pos, t.orig, newTArgs, subst.ctxt)
-
 	case *Array:
 		elem := subst.typOrNil(t.elem)
 		if elem != t.elem {
@@ -248,18 +235,6 @@ func (subst *subster) typ(typ Type) Type {
 		}
 
 	case *Named:
-		// dump is for debugging
-		dump := func(string, ...interface{}) {}
-		if subst.check != nil && subst.check.conf._Trace {
-			subst.check.indent++
-			defer func() {
-				subst.check.indent--
-			}()
-			dump = func(format string, args ...interface{}) {
-				subst.check.trace(subst.pos, format, args...)
-			}
-		}
-
 		// subst is called during expansion, so in this function we need to be
 		// careful not to call any methods that would cause t to be expanded: doing
 		// so would result in deadlock.
@@ -268,44 +243,26 @@ func (subst *subster) typ(typ Type) Type {
 		orig := t.Origin()
 		n := orig.TypeParams().Len()
 		if n == 0 {
-			dump(">>> %s is not parameterized", t)
 			return t // type is not parameterized
 		}
 
-		var newTArgs []Type
 		if t.TypeArgs().Len() != n {
 			return Typ[Invalid] // error reported elsewhere
 		}
 
 		// already instantiated
-		dump(">>> %s already instantiated", t)
-		// For each (existing) type argument targ, determine if it needs
+		// For each (existing) type argument determine if it needs
 		// to be substituted; i.e., if it is or contains a type parameter
 		// that has a type argument for it.
-		for i, targ := range t.TypeArgs().list() {
-			dump(">>> %d targ = %s", i, targ)
-			new_targ := subst.typ(targ)
-			if new_targ != targ {
-				dump(">>> substituted %d targ %s => %s", i, targ, new_targ)
-				if newTArgs == nil {
-					newTArgs = make([]Type, n)
-					copy(newTArgs, t.TypeArgs().list())
-				}
-				newTArgs[i] = new_targ
-			}
+		targs, updated := subst.typeList(t.TypeArgs().list())
+		if updated {
+			// Create a new instance and populate the context to avoid endless
+			// recursion. The position used here is irrelevant because validation only
+			// occurs on t (we don't call validType on named), but we use subst.pos to
+			// help with debugging.
+			return subst.check.instance(subst.pos, orig, targs, subst.expanding, subst.ctxt)
 		}
 
-		if newTArgs == nil {
-			dump(">>> nothing to substitute in %s", t)
-			return t // nothing to substitute
-		}
-
-		// Create a new instance and populate the context to avoid endless
-		// recursion. The position used here is irrelevant because validation only
-		// occurs on t (we don't call validType on named), but we use subst.pos to
-		// help with debugging.
-		return subst.check.instance(subst.pos, orig, newTArgs, subst.expanding, subst.ctxt)
-
 	case *TypeParam:
 		return subst.smap.lookup(t)