| // Copyright 2021 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 types2 |
| |
| import ( |
| "cmd/compile/internal/syntax" |
| "fmt" |
| ) |
| |
| // ---------------------------------------------------------------------------- |
| // API |
| |
| // A Signature represents a (non-builtin) function or method type. |
| // The receiver is ignored when comparing signatures for identity. |
| type Signature struct { |
| // We need to keep the scope in Signature (rather than passing it around |
| // and store it in the Func Object) because when type-checking a function |
| // literal we call the general type checker which returns a general Type. |
| // We then unpack the *Signature and use the scope for the literal body. |
| rparams *TParamList // receiver type parameters from left to right, or nil |
| tparams *TParamList // type parameters from left to right, or nil |
| scope *Scope // function scope, present for package-local signatures |
| recv *Var // nil if not a method |
| params *Tuple // (incoming) parameters from left to right; or nil |
| results *Tuple // (outgoing) results from left to right; or nil |
| variadic bool // true if the last parameter's type is of the form ...T (or string, for append built-in only) |
| } |
| |
| // NewSignature returns a new function type for the given receiver, parameters, |
| // and results, either of which may be nil. If variadic is set, the function |
| // is variadic, it must have at least one parameter, and the last parameter |
| // must be of unnamed slice type. |
| func NewSignature(recv *Var, params, results *Tuple, variadic bool) *Signature { |
| if variadic { |
| n := params.Len() |
| if n == 0 { |
| panic("variadic function must have at least one parameter") |
| } |
| if _, ok := params.At(n - 1).typ.(*Slice); !ok { |
| panic("variadic parameter must be of unnamed slice type") |
| } |
| } |
| return &Signature{recv: recv, params: params, results: results, variadic: variadic} |
| } |
| |
| // Recv returns the receiver of signature s (if a method), or nil if a |
| // function. It is ignored when comparing signatures for identity. |
| // |
| // For an abstract method, Recv returns the enclosing interface either |
| // as a *Named or an *Interface. Due to embedding, an interface may |
| // contain methods whose receiver type is a different interface. |
| func (s *Signature) Recv() *Var { return s.recv } |
| |
| // TParams returns the type parameters of signature s, or nil. |
| func (s *Signature) TParams() *TParamList { return s.tparams } |
| |
| // SetTParams sets the type parameters of signature s. |
| func (s *Signature) SetTParams(tparams []*TypeParam) { s.tparams = bindTParams(tparams) } |
| |
| // RParams returns the receiver type parameters of signature s, or nil. |
| func (s *Signature) RParams() *TParamList { return s.rparams } |
| |
| // SetRParams sets the receiver type params of signature s. |
| func (s *Signature) SetRParams(rparams []*TypeParam) { s.rparams = bindTParams(rparams) } |
| |
| // Params returns the parameters of signature s, or nil. |
| func (s *Signature) Params() *Tuple { return s.params } |
| |
| // Results returns the results of signature s, or nil. |
| func (s *Signature) Results() *Tuple { return s.results } |
| |
| // Variadic reports whether the signature s is variadic. |
| func (s *Signature) Variadic() bool { return s.variadic } |
| |
| func (s *Signature) Underlying() Type { return s } |
| func (s *Signature) String() string { return TypeString(s, nil) } |
| |
| // ---------------------------------------------------------------------------- |
| // Implementation |
| |
| // Disabled by default, but enabled when running tests (via types_test.go). |
| var acceptMethodTypeParams bool |
| |
| // funcType type-checks a function or method type. |
| func (check *Checker) funcType(sig *Signature, recvPar *syntax.Field, tparams []*syntax.Field, ftyp *syntax.FuncType) { |
| check.openScope(ftyp, "function") |
| check.scope.isFunc = true |
| check.recordScope(ftyp, check.scope) |
| sig.scope = check.scope |
| defer check.closeScope() |
| |
| var recvTyp syntax.Expr // rewritten receiver type; valid if != nil |
| if recvPar != nil { |
| // collect generic receiver type parameters, if any |
| // - a receiver type parameter is like any other type parameter, except that it is declared implicitly |
| // - the receiver specification acts as local declaration for its type parameters, which may be blank |
| _, rname, rparams := check.unpackRecv(recvPar.Type, true) |
| if len(rparams) > 0 { |
| // Blank identifiers don't get declared and regular type-checking of the instantiated |
| // parameterized receiver type expression fails in Checker.collectParams of receiver. |
| // Identify blank type parameters and substitute each with a unique new identifier named |
| // "n_" (where n is the parameter index) and which cannot conflict with any user-defined |
| // name. |
| var smap map[*syntax.Name]*syntax.Name // substitution map from "_" to "!n" identifiers |
| for i, p := range rparams { |
| if p.Value == "_" { |
| new := *p |
| new.Value = fmt.Sprintf("%d_", i) |
| rparams[i] = &new // use n_ identifier instead of _ so it can be looked up |
| if smap == nil { |
| smap = make(map[*syntax.Name]*syntax.Name) |
| } |
| smap[p] = &new |
| } |
| } |
| if smap != nil { |
| // blank identifiers were found => use rewritten receiver type |
| recvTyp = isubst(recvPar.Type, smap) |
| } |
| rlist := make([]*TypeParam, len(rparams)) |
| for i, rparam := range rparams { |
| rlist[i] = check.declareTypeParam(rparam) |
| } |
| sig.rparams = bindTParams(rlist) |
| // determine receiver type to get its type parameters |
| // and the respective type parameter bounds |
| var recvTParams []*TypeParam |
| if rname != nil { |
| // recv should be a Named type (otherwise an error is reported elsewhere) |
| // Also: Don't report an error via genericType since it will be reported |
| // again when we type-check the signature. |
| // TODO(gri) maybe the receiver should be marked as invalid instead? |
| if recv, _ := check.genericType(rname, false).(*Named); recv != nil { |
| recvTParams = recv.TParams().list() |
| } |
| } |
| // provide type parameter bounds |
| // - only do this if we have the right number (otherwise an error is reported elsewhere) |
| if sig.RParams().Len() == len(recvTParams) { |
| // We have a list of *TypeNames but we need a list of Types. |
| list := make([]Type, sig.RParams().Len()) |
| for i, t := range sig.RParams().list() { |
| list[i] = t |
| } |
| smap := makeSubstMap(recvTParams, list) |
| for i, tpar := range sig.RParams().list() { |
| bound := recvTParams[i].bound |
| // bound is (possibly) parameterized in the context of the |
| // receiver type declaration. Substitute parameters for the |
| // current context. |
| tpar.bound = check.subst(tpar.obj.pos, bound, smap, nil) |
| } |
| } |
| } |
| } |
| |
| if tparams != nil { |
| sig.tparams = check.collectTypeParams(tparams) |
| // Always type-check method type parameters but complain if they are not enabled. |
| // (A separate check is needed when type-checking interface method signatures because |
| // they don't have a receiver specification.) |
| if recvPar != nil && !acceptMethodTypeParams { |
| check.error(ftyp, "methods cannot have type parameters") |
| } |
| } |
| |
| // Value (non-type) parameters' scope starts in the function body. Use a temporary scope for their |
| // declarations and then squash that scope into the parent scope (and report any redeclarations at |
| // that time). |
| scope := NewScope(check.scope, nopos, nopos, "function body (temp. scope)") |
| var recvList []*Var // TODO(gri) remove the need for making a list here |
| if recvPar != nil { |
| recvList, _ = check.collectParams(scope, []*syntax.Field{recvPar}, recvTyp, false) // use rewritten receiver type, if any |
| } |
| params, variadic := check.collectParams(scope, ftyp.ParamList, nil, true) |
| results, _ := check.collectParams(scope, ftyp.ResultList, nil, false) |
| scope.Squash(func(obj, alt Object) { |
| var err error_ |
| err.errorf(obj, "%s redeclared in this block", obj.Name()) |
| err.recordAltDecl(alt) |
| check.report(&err) |
| }) |
| |
| if recvPar != nil { |
| // recv parameter list present (may be empty) |
| // spec: "The receiver is specified via an extra parameter section preceding the |
| // method name. That parameter section must declare a single parameter, the receiver." |
| var recv *Var |
| switch len(recvList) { |
| case 0: |
| // error reported by resolver |
| recv = NewParam(nopos, nil, "", Typ[Invalid]) // ignore recv below |
| default: |
| // more than one receiver |
| check.error(recvList[len(recvList)-1].Pos(), "method must have exactly one receiver") |
| fallthrough // continue with first receiver |
| case 1: |
| recv = recvList[0] |
| } |
| |
| // TODO(gri) We should delay rtyp expansion to when we actually need the |
| // receiver; thus all checks here should be delayed to later. |
| rtyp, _ := deref(recv.typ) |
| |
| // spec: "The receiver type must be of the form T or *T where T is a type name." |
| // (ignore invalid types - error was reported before) |
| if rtyp != Typ[Invalid] { |
| var err string |
| switch T := rtyp.(type) { |
| case *Named: |
| T.expand(nil) |
| // The receiver type may be an instantiated type referred to |
| // by an alias (which cannot have receiver parameters for now). |
| if T.TArgs() != nil && sig.RParams() == nil { |
| check.errorf(recv.pos, "cannot define methods on instantiated type %s", recv.typ) |
| break |
| } |
| // spec: "The type denoted by T is called the receiver base type; it must not |
| // be a pointer or interface type and it must be declared in the same package |
| // as the method." |
| if T.obj.pkg != check.pkg { |
| err = "type not defined in this package" |
| if check.conf.CompilerErrorMessages { |
| check.errorf(recv.pos, "cannot define new methods on non-local type %s", recv.typ) |
| err = "" |
| } |
| } else { |
| // The underlying type of a receiver base type can be a type parameter; |
| // e.g. for methods with a generic receiver T[P] with type T[P any] P. |
| underIs(T, func(u Type) bool { |
| switch u := u.(type) { |
| case *Basic: |
| // unsafe.Pointer is treated like a regular pointer |
| if u.kind == UnsafePointer { |
| err = "unsafe.Pointer" |
| return false |
| } |
| case *Pointer, *Interface: |
| err = "pointer or interface type" |
| return false |
| } |
| return true |
| }) |
| } |
| case *Basic: |
| err = "basic or unnamed type" |
| if check.conf.CompilerErrorMessages { |
| check.errorf(recv.pos, "cannot define new methods on non-local type %s", recv.typ) |
| err = "" |
| } |
| default: |
| check.errorf(recv.pos, "invalid receiver type %s", recv.typ) |
| } |
| if err != "" { |
| check.errorf(recv.pos, "invalid receiver type %s (%s)", recv.typ, err) |
| // ok to continue |
| } |
| } |
| sig.recv = recv |
| } |
| |
| sig.params = NewTuple(params...) |
| sig.results = NewTuple(results...) |
| sig.variadic = variadic |
| } |
| |
| // collectParams declares the parameters of list in scope and returns the corresponding |
| // variable list. If type0 != nil, it is used instead of the first type in list. |
| func (check *Checker) collectParams(scope *Scope, list []*syntax.Field, type0 syntax.Expr, variadicOk bool) (params []*Var, variadic bool) { |
| if list == nil { |
| return |
| } |
| |
| var named, anonymous bool |
| |
| var typ Type |
| var prev syntax.Expr |
| for i, field := range list { |
| ftype := field.Type |
| // type-check type of grouped fields only once |
| if ftype != prev { |
| prev = ftype |
| if i == 0 && type0 != nil { |
| ftype = type0 |
| } |
| if t, _ := ftype.(*syntax.DotsType); t != nil { |
| ftype = t.Elem |
| if variadicOk && i == len(list)-1 { |
| variadic = true |
| } else { |
| check.softErrorf(t, "can only use ... with final parameter in list") |
| // ignore ... and continue |
| } |
| } |
| typ = check.varType(ftype) |
| } |
| // The parser ensures that f.Tag is nil and we don't |
| // care if a constructed AST contains a non-nil tag. |
| if field.Name != nil { |
| // named parameter |
| name := field.Name.Value |
| if name == "" { |
| check.error(field.Name, invalidAST+"anonymous parameter") |
| // ok to continue |
| } |
| par := NewParam(field.Name.Pos(), check.pkg, name, typ) |
| check.declare(scope, field.Name, par, scope.pos) |
| params = append(params, par) |
| named = true |
| } else { |
| // anonymous parameter |
| par := NewParam(field.Pos(), check.pkg, "", typ) |
| check.recordImplicit(field, par) |
| params = append(params, par) |
| anonymous = true |
| } |
| } |
| |
| if named && anonymous { |
| check.error(list[0], invalidAST+"list contains both named and anonymous parameters") |
| // ok to continue |
| } |
| |
| // For a variadic function, change the last parameter's type from T to []T. |
| // Since we type-checked T rather than ...T, we also need to retro-actively |
| // record the type for ...T. |
| if variadic { |
| last := params[len(params)-1] |
| last.typ = &Slice{elem: last.typ} |
| check.recordTypeAndValue(list[len(list)-1].Type, typexpr, last.typ, nil) |
| } |
| |
| return |
| } |
| |
| // isubst returns an x with identifiers substituted per the substitution map smap. |
| // isubst only handles the case of (valid) method receiver type expressions correctly. |
| func isubst(x syntax.Expr, smap map[*syntax.Name]*syntax.Name) syntax.Expr { |
| switch n := x.(type) { |
| case *syntax.Name: |
| if alt := smap[n]; alt != nil { |
| return alt |
| } |
| // case *syntax.StarExpr: |
| // X := isubst(n.X, smap) |
| // if X != n.X { |
| // new := *n |
| // new.X = X |
| // return &new |
| // } |
| case *syntax.Operation: |
| if n.Op == syntax.Mul && n.Y == nil { |
| X := isubst(n.X, smap) |
| if X != n.X { |
| new := *n |
| new.X = X |
| return &new |
| } |
| } |
| case *syntax.IndexExpr: |
| Index := isubst(n.Index, smap) |
| if Index != n.Index { |
| new := *n |
| new.Index = Index |
| return &new |
| } |
| case *syntax.ListExpr: |
| var elems []syntax.Expr |
| for i, elem := range n.ElemList { |
| new := isubst(elem, smap) |
| if new != elem { |
| if elems == nil { |
| elems = make([]syntax.Expr, len(n.ElemList)) |
| copy(elems, n.ElemList) |
| } |
| elems[i] = new |
| } |
| } |
| if elems != nil { |
| new := *n |
| new.ElemList = elems |
| return &new |
| } |
| case *syntax.ParenExpr: |
| return isubst(n.X, smap) // no need to keep parentheses |
| default: |
| // Other receiver type expressions are invalid. |
| // It's fine to ignore those here as they will |
| // be checked elsewhere. |
| } |
| return x |
| } |