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cmd/compile/internal/types2: add Named.SetTParams and Named.Orig methods
Named.SetTParams sets the type parameters for a named type. Named.Orig returns the original generic type an instantiated type is derived from. Added a new field orig for that purpose and renamed the already existing orig field to fromRHS. Finally, updated various comments. Change-Id: Ic9d173e42740422d195713d8bdc62a54dc8c5f54 Reviewed-on: https://go-review.googlesource.com/c/go/+/309832 Trust: Robert Griesemer <gri@golang.org> Reviewed-by: Robert Findley <rfindley@google.com>
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@ -333,7 +333,7 @@ func (check *Checker) validType(typ Type, path []Object) typeInfo {
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switch t.info {
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case unknown:
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t.info = marked
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t.info = check.validType(t.orig, append(path, t.obj)) // only types of current package added to path
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t.info = check.validType(t.fromRHS, append(path, t.obj)) // only types of current package added to path
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case marked:
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// cycle detected
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for i, tn := range path {
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@ -611,9 +611,8 @@ func (check *Checker) typeDecl(obj *TypeName, tdecl *syntax.TypeDecl, def *Named
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} else {
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// defined type declaration
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named := &Named{check: check, obj: obj}
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named := check.newNamed(obj, nil, nil, nil, nil)
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def.setUnderlying(named)
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obj.typ = named // make sure recursive type declarations terminate
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if tdecl.TParamList != nil {
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check.openScope(tdecl, "type parameters")
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@ -622,7 +621,7 @@ func (check *Checker) typeDecl(obj *TypeName, tdecl *syntax.TypeDecl, def *Named
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}
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// determine underlying type of named
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named.orig = check.definedType(tdecl.Type, named)
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named.fromRHS = check.definedType(tdecl.Type, named)
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// The underlying type of named may be itself a named type that is
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// incomplete:
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@ -637,7 +636,7 @@ func (check *Checker) typeDecl(obj *TypeName, tdecl *syntax.TypeDecl, def *Named
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// and which has as its underlying type the named type B.
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// Determine the (final, unnamed) underlying type by resolving
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// any forward chain.
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// TODO(gri) Investigate if we can just use named.origin here
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// TODO(gri) Investigate if we can just use named.fromRHS here
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// and rely on lazy computation of the underlying type.
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named.underlying = under(named)
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}
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@ -195,7 +195,7 @@ L7 uses var z int`
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}
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}
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// This tests that the package associated with the types.Object.Pkg method
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// This tests that the package associated with the types2.Object.Pkg method
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// is the type's package independent of the order in which the imports are
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// listed in the sources src1, src2 below.
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// The actual issue is in go/internal/gcimporter which has a corresponding
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@ -126,8 +126,8 @@ func (s sanitizer) typ(typ Type) Type {
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}
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case *Named:
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if orig := s.typ(t.orig); orig != t.orig {
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t.orig = orig
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if orig := s.typ(t.fromRHS); orig != t.fromRHS {
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t.fromRHS = orig
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}
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if under := s.typ(t.underlying); under != t.underlying {
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t.underlying = under
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@ -2,7 +2,7 @@
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// This file tests types.Check by using it to
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// This file tests types2.Check by using it to
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// typecheck the standard library and tests.
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package types2_test
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@ -385,8 +385,7 @@ func (subst *subster) typ(typ Type) Type {
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// create a new named type and populate caches to avoid endless recursion
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tname := NewTypeName(subst.pos, t.obj.pkg, t.obj.name, nil)
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named := subst.check.NewNamed(tname, t.underlying, t.methods) // method signatures are updated lazily
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named.tparams = t.tparams // new type is still parameterized
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named := subst.check.newNamed(tname, t, t.underlying, t.tparams, t.methods) // method signatures are updated lazily
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named.targs = new_targs
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subst.check.typMap[h] = named
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subst.cache[t] = named
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@ -394,7 +393,7 @@ func (subst *subster) typ(typ Type) Type {
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// do the substitution
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dump(">>> subst %s with %s (new: %s)", t.underlying, subst.smap, new_targs)
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named.underlying = subst.typOrNil(t.underlying)
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named.orig = named.underlying // for cycle detection (Checker.validType)
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named.fromRHS = named.underlying // for cycle detection (Checker.validType)
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return named
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@ -224,10 +224,10 @@ func NewSignature(recv *Var, params, results *Tuple, variadic bool) *Signature {
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if variadic {
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n := params.Len()
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if n == 0 {
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panic("types.NewSignature: variadic function must have at least one parameter")
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panic("types2.NewSignature: variadic function must have at least one parameter")
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}
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if _, ok := params.At(n - 1).typ.(*Slice); !ok {
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panic("types.NewSignature: variadic parameter must be of unnamed slice type")
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panic("types2.NewSignature: variadic parameter must be of unnamed slice type")
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}
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}
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return &Signature{recv: recv, params: params, results: results, variadic: variadic}
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@ -645,12 +645,15 @@ func (c *Chan) Dir() ChanDir { return c.dir }
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// Elem returns the element type of channel c.
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func (c *Chan) Elem() Type { return c.elem }
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// TODO(gri) Clean up Named struct below; specifically the fromRHS field (can we use underlying?).
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// A Named represents a named (defined) type.
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type Named struct {
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check *Checker // for Named.under implementation
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info typeInfo // for cycle detection
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obj *TypeName // corresponding declared object
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orig Type // type (on RHS of declaration) this *Named type is derived of (for cycle reporting)
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orig *Named // original, uninstantiated type
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fromRHS Type // type (on RHS of declaration) this *Named type is derived from (for cycle reporting)
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underlying Type // possibly a *Named during setup; never a *Named once set up completely
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tparams []*TypeName // type parameters, or nil
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targs []Type // type arguments (after instantiation), or nil
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@ -662,17 +665,17 @@ type Named struct {
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// The underlying type must not be a *Named.
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func NewNamed(obj *TypeName, underlying Type, methods []*Func) *Named {
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if _, ok := underlying.(*Named); ok {
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panic("types.NewNamed: underlying type must not be *Named")
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panic("types2.NewNamed: underlying type must not be *Named")
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}
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typ := &Named{obj: obj, orig: underlying, underlying: underlying, methods: methods}
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if obj.typ == nil {
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obj.typ = typ
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}
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return typ
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return (*Checker)(nil).newNamed(obj, nil, underlying, nil, methods)
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}
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func (check *Checker) NewNamed(obj *TypeName, underlying Type, methods []*Func) *Named {
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typ := &Named{check: check, obj: obj, orig: underlying, underlying: underlying, methods: methods}
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// newNamed is like NewNamed but with a *Checker receiver and additional orig argument.
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func (check *Checker) newNamed(obj *TypeName, orig *Named, underlying Type, tparams []*TypeName, methods []*Func) *Named {
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typ := &Named{check: check, obj: obj, orig: orig, fromRHS: underlying, underlying: underlying, tparams: tparams, methods: methods}
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if typ.orig == nil {
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typ.orig = typ
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}
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if obj.typ == nil {
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obj.typ = typ
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}
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@ -682,6 +685,10 @@ func (check *Checker) NewNamed(obj *TypeName, underlying Type, methods []*Func)
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// Obj returns the type name for the named type t.
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func (t *Named) Obj() *TypeName { return t.obj }
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// Orig returns the original generic type an instantiated type is derived from.
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// If t is not an instantiated type, the result is t.
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func (t *Named) Orig() *Named { return t.orig }
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// TODO(gri) Come up with a better representation and API to distinguish
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// between parameterized instantiated and non-instantiated types.
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@ -689,10 +696,13 @@ func (t *Named) Obj() *TypeName { return t.obj }
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// The result is non-nil for an (originally) parameterized type even if it is instantiated.
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func (t *Named) TParams() []*TypeName { return t.tparams }
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// SetTParams sets the type parameters of the named type t.
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func (t *Named) SetTParams(tparams []*TypeName) { t.tparams = tparams }
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// TArgs returns the type arguments after instantiation of the named type t, or nil if not instantiated.
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func (t *Named) TArgs() []Type { return t.targs }
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// SetTArgs sets the type arguments of Named.
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// SetTArgs sets the type arguments of the named type t.
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func (t *Named) SetTArgs(args []Type) { t.targs = args }
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// NumMethods returns the number of explicit methods whose receiver is named type t.
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@ -704,10 +714,10 @@ func (t *Named) Method(i int) *Func { return t.methods[i] }
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// SetUnderlying sets the underlying type and marks t as complete.
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func (t *Named) SetUnderlying(underlying Type) {
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if underlying == nil {
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panic("types.Named.SetUnderlying: underlying type must not be nil")
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panic("types2.Named.SetUnderlying: underlying type must not be nil")
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}
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if _, ok := underlying.(*Named); ok {
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panic("types.Named.SetUnderlying: underlying type must not be *Named")
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panic("types2.Named.SetUnderlying: underlying type must not be *Named")
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}
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t.underlying = underlying
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}
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@ -731,9 +741,9 @@ func nextId() uint64 { return uint64(atomic.AddUint32(&lastId, 1)) }
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// A TypeParam represents a type parameter type.
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type TypeParam struct {
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check *Checker // for lazy type bound completion
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id uint64 // unique id
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id uint64 // unique id, for debugging only
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obj *TypeName // corresponding type name
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index int // parameter index
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index int // type parameter index in source order, starting at 0
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bound Type // *Named or *Interface; underlying type is always *Interface
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}
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@ -431,9 +431,9 @@ func (check *Checker) funcType(sig *Signature, recvPar *syntax.Field, tparams []
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}
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// goTypeName returns the Go type name for typ and
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// removes any occurrences of "types." from that name.
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// removes any occurrences of "types2." from that name.
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func goTypeName(typ Type) string {
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return strings.Replace(fmt.Sprintf("%T", typ), "types.", "", -1) // strings.ReplaceAll is not available in Go 1.4
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return strings.Replace(fmt.Sprintf("%T", typ), "types2.", "", -1) // strings.ReplaceAll is not available in Go 1.4
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}
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// typInternal drives type checking of types.
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