Beispiel #1
0
// Declare inserts a named object of the given kind in scope.
func (p *gcParser) declare(scope *ast.Scope, kind ast.ObjKind, name string) *ast.Object {
	// a type may have been declared before - if it exists
	// already in the respective package scope, return that
	// type
	if kind == ast.Typ {
		if obj := scope.Lookup(name); obj != nil {
			assert(obj.Kind == ast.Typ)
			return obj
		}
	}

	// any other object must be a newly declared object -
	// create it and insert it into the package scope
	obj := ast.NewObj(kind, name)
	if scope.Insert(obj) != nil {
		p.errorf("already declared: %v %s", kind, obj.Name)
	}

	// a new type object is a named type and may be referred
	// to before the underlying type is known - set it up
	if kind == ast.Typ {
		obj.Type = &Name{Obj: obj}
	}

	return obj
}
Beispiel #2
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func insertToScope(scope *ast.Scope, obj *ast.Object) {
	if obj.Name == "_" {
		return
	}
	if obj.Kind == ast.Fun && obj.Name == "init" {
		return
	}
	scope.Insert(obj)
}
// declInScope declares an object of a given kind and name in scope and sets the object's Decl and N fields.
// It returns the newly allocated object. If an object with the same name already exists in scope, an error
// is reported and the object is not inserted.
// (Objects with _ name are always inserted into a scope without errors, but they cannot be found.)
func (tc *typechecker) declInScope(scope *ast.Scope, kind ast.Kind, name *ast.Ident, decl interface{}, n int) *ast.Object {
	obj := ast.NewObj(kind, name.Name)
	obj.Decl = decl
	obj.N = n
	name.Obj = obj
	if alt := scope.Insert(obj); alt != obj {
		tc.Errorf(name.Pos(), "%s already declared at %s", name.Name, objPos(alt))
	}
	return obj
}
Beispiel #4
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// declInScope declares an object of a given kind and name in scope and sets the object's Decl and N fields.
// It returns the newly allocated object. If an object with the same name already exists in scope, an error
// is reported and the object is not inserted.
func (tc *typechecker) declInScope(scope *ast.Scope, kind ast.ObjKind, name *ast.Ident, decl interface{}, n int) *ast.Object {
	obj := ast.NewObj(kind, name.Name)
	obj.Decl = decl
	//obj.N = n
	name.Obj = obj
	if name.Name != "_" {
		if alt := scope.Insert(obj); alt != nil {
			tc.Errorf(name.Pos(), "%s already declared at %s", name.Name, tc.fset.Position(alt.Pos()).String())
		}
	}
	return obj
}
Beispiel #5
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// declare declares an object of the given kind and name (ident) in scope;
// decl is the corresponding declaration in the AST. An error is reported
// if the object was declared before.
//
// TODO(gri) This is very similar to the declare function in go/parser; it
// is only used to associate methods with their respective receiver base types.
// In a future version, it might be simpler and cleaner to do all the resolution
// in the type-checking phase. It would simplify the parser, AST, and also
// reduce some amount of code duplication.
//
func (check *checker) declare(scope *ast.Scope, kind ast.ObjKind, ident *ast.Ident, decl ast.Decl) {
	assert(ident.Obj == nil) // identifier already declared or resolved
	obj := ast.NewObj(kind, ident.Name)
	obj.Decl = decl
	ident.Obj = obj
	if ident.Name != "_" {
		if alt := scope.Insert(obj); alt != nil {
			prevDecl := ""
			if pos := alt.Pos(); pos.IsValid() {
				prevDecl = fmt.Sprintf("\n\tprevious declaration at %s", check.fset.Position(pos))
			}
			check.errorf(ident.Pos(), fmt.Sprintf("%s redeclared in this block%s", ident.Name, prevDecl))
		}
	}
}
Beispiel #6
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// Signature = Parameters [ Result ] .
// Result    = Type | Parameters .
//
func (p *gcParser) parseSignature(scope *ast.Scope, isVariadic *bool) {
	p.parseParameters(scope, isVariadic)

	// optional result type
	switch p.tok {
	case scanner.Ident, scanner.String, '[', '*', '<':
		// single, unnamed result
		result := ast.NewObj(ast.Var, "_")
		result.Type = p.parseType()
		scope.Insert(result)
	case '(':
		// named or multiple result(s)
		p.parseParameters(scope, nil)
	}
}
Beispiel #7
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// Parameter = ( identifier | "?" ) [ "..." ] Type .
//
func (p *gcParser) parseParameter(scope *ast.Scope, isVariadic *bool) {
	name := p.parseName()
	if name == "" {
		name = "_" // cannot access unnamed identifiers
	}
	if isVariadic != nil {
		if *isVariadic {
			p.error("... not on final argument")
		}
		if p.tok == '.' {
			p.expectSpecial("...")
			*isVariadic = true
		}
	}
	ptyp := p.parseType()
	par := ast.NewObj(ast.Var, name)
	par.Type = ptyp
	scope.Insert(par)
}
Beispiel #8
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func (p *parser) declare(decl, data interface{}, scope *ast.Scope, kind ast.ObjKind, idents ...*ast.Ident) {
	for _, ident := range idents {
		assert(ident.Obj == nil, "identifier already declared or resolved")
		obj := ast.NewObj(kind, ident.Name)
		// remember the corresponding declaration for redeclaration
		// errors and global variable resolution/typechecking phase
		obj.Decl = decl
		obj.Data = data
		ident.Obj = obj
		if ident.Name != "_" {
			if alt := scope.Insert(obj); alt != nil && p.mode&DeclarationErrors != 0 {
				prevDecl := ""
				if pos := alt.Pos(); pos.IsValid() {
					prevDecl = fmt.Sprintf("\n\tprevious declaration at %s", p.file.Position(pos))
				}
				p.error(ident.Pos(), fmt.Sprintf("%s redeclared in this block%s", ident.Name, prevDecl))
			}
		}
	}
}
Beispiel #9
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// Declare inserts a named object of the given kind in scope.
func (p *gcParser) declare(scope *ast.Scope, kind ast.ObjKind, name string) *ast.Object {
	// the object may have been imported before - if it exists
	// already in the respective package scope, return that object
	if obj := scope.Lookup(name); obj != nil {
		assert(obj.Kind == kind)
		return obj
	}

	// otherwise create a new object and insert it into the package scope
	obj := ast.NewObj(kind, name)
	if scope.Insert(obj) != nil {
		p.errorf("already declared: %v %s", kind, obj.Name)
	}

	// if the new type object is a named type it may be referred
	// to before the underlying type is known - set it up
	if kind == ast.Typ {
		obj.Type = &NamedType{Obj: obj}
	}

	return obj
}
Beispiel #10
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// Field = Name Type [ ":" string_lit ] .
//
func (p *gcParser) parseField(scope *ast.Scope) {
	// TODO(gri) The code below is not correct for anonymous fields:
	//           The name is the type name; it should not be empty.
	name := p.parseName()
	ftyp := p.parseType()
	if name == "" {
		// anonymous field - ftyp must be T or *T and T must be a type name
		ftyp = Deref(ftyp)
		if ftyp, ok := ftyp.(*Name); ok {
			name = ftyp.Obj.Name
		} else {
			p.errorf("anonymous field expected")
		}
	}
	if p.tok == ':' {
		p.next()
		tag := p.expect(scanner.String)
		_ = tag // TODO(gri) store tag somewhere
	}
	fld := ast.NewObj(ast.Var, name)
	fld.Type = ftyp
	scope.Insert(fld)
}