go/parser: fix type switch scoping

The variable declared by a TypeSwitchGuard must be
visible in each TypeCaseClause and must not conflict
with other variables declared by the initial SimpleStmt
of a type switch.

Also:
- explicitly detect type switches (as opposed to detecting
  regular (expression switches) and then do extra testing
  for type switches
- fix all outstanding TODOs in parser.go

R=rsc
CC=golang-dev
https://golang.org/cl/4896053

src/cmd/gotype/testdata/test1.go

@@ -4,3 +4,20 @@ func _() {
 	// the scope of a local type declaration starts immediately after the type name
 	type T struct{ _ *T }
 }
+
+func _(x interface{}) {
+	// the variable defined by a TypeSwitchGuard is declared in each TypeCaseClause
+	switch t := x.(type) {
+	case int:
+		_ = t
+	case float32:
+		_ = t
+	default:
+		_ = t
+	}
+
+	// the variable defined by a TypeSwitchGuard must not conflict with other
+	// variables declared in the initial simple statement
+	switch t := 0; t := x.(type) {
+	}
+}

src/pkg/go/parser/parser.go

@@ -587,7 +587,6 @@ func (p *parser) parseStructType() *ast.StructType {
 	}
 	rbrace := p.expect(token.RBRACE)
 
-	// TODO(gri): store struct scope in AST
 	return &ast.StructType{pos, &ast.FieldList{lbrace, list, rbrace}, false}
 }
 
@@ -800,7 +799,6 @@ func (p *parser) parseInterfaceType() *ast.InterfaceType {
 	}
 	rbrace := p.expect(token.RBRACE)
 
-	// TODO(gri): store interface scope in AST
 	return &ast.InterfaceType{pos, &ast.FieldList{lbrace, list, rbrace}, false}
 }
 
@@ -1436,14 +1434,14 @@ func (p *parser) parseSimpleStmt(mode int) (ast.Stmt, bool) {
 	case token.ARROW:
 		// send statement
 		arrow := p.pos
-		p.next() // consume "<-"
+		p.next()
 		y := p.parseRhs()
 		return &ast.SendStmt{x[0], arrow, y}, false
 
 	case token.INC, token.DEC:
 		// increment or decrement
 		s := &ast.IncDecStmt{x[0], p.pos, p.tok}
-		p.next() // consume "++" or "--"
+		p.next()
 		return s, false
 	}
 
@@ -1591,7 +1589,7 @@ func (p *parser) parseTypeList() (list []ast.Expr) {
 	return
 }
 
-func (p *parser) parseCaseClause(exprSwitch bool) *ast.CaseClause {
+func (p *parser) parseCaseClause(varName string) *ast.CaseClause {
 	if p.trace {
 		defer un(trace(p, "CaseClause"))
 	}
@@ -1600,10 +1598,12 @@ func (p *parser) parseCaseClause(exprSwitch bool) *ast.CaseClause {
 	var list []ast.Expr
 	if p.tok == token.CASE {
 		p.next()
-		if exprSwitch {
-			list = p.parseRhsList()
-		} else {
+		if varName != "" {
+			// type switch
 			list = p.parseTypeList()
+		} else {
+			// expression switch
+			list = p.parseRhsList()
 		}
 	} else {
 		p.expect(token.DEFAULT)
@@ -1611,21 +1611,31 @@ func (p *parser) parseCaseClause(exprSwitch bool) *ast.CaseClause {
 
 	colon := p.expect(token.COLON)
 	p.openScope()
+	// If we have a type switch declaring a variable in its TypeSwitchGuard,
+	// declare that variable in each of the TypeCaseClauses.
+	if varName != "" && varName != "_" {
+		ident := &ast.Ident{Name: varName} // dummy identifier
+		p.declare(nil, nil, p.topScope, ast.Var, ident)
+	}
 	body := p.parseStmtList()
 	p.closeScope()
 
 	return &ast.CaseClause{pos, list, colon, body}
 }
 
-func isExprSwitch(s ast.Stmt) bool {
-	if s == nil {
-		return true
-	}
-	if e, ok := s.(*ast.ExprStmt); ok {
-		if a, ok := e.X.(*ast.TypeAssertExpr); ok {
-			return a.Type != nil // regular type assertion
-		}
-		return true
+func isTypeSwitchAssert(x ast.Expr) bool {
+	a, ok := x.(*ast.TypeAssertExpr)
+	return ok && a.Type == nil
+}
+
+func isTypeSwitchGuard(s ast.Stmt) bool {
+	switch t := s.(type) {
+	case *ast.ExprStmt:
+		// x.(nil)
+		return isTypeSwitchAssert(t.X)
+	case *ast.AssignStmt:
+		// v := x.(nil)
+		return len(t.Lhs) == 1 && t.Tok == token.DEFINE && len(t.Rhs) == 1 && isTypeSwitchAssert(t.Rhs[0])
 	}
 	return false
 }
@@ -1640,39 +1650,65 @@ func (p *parser) parseSwitchStmt() ast.Stmt {
 	defer p.closeScope()
 
 	var s1, s2 ast.Stmt
+	var scope *ast.Scope // scope for variable declared in TypeSwitchGuard, if any
 	if p.tok != token.LBRACE {
 		prevLev := p.exprLev
 		p.exprLev = -1
 		if p.tok != token.SEMICOLON {
 			s2, _ = p.parseSimpleStmt(basic)
+			scope = p.topScope
 		}
 		if p.tok == token.SEMICOLON {
 			p.next()
 			s1 = s2
 			s2 = nil
 			if p.tok != token.LBRACE {
+				// A TypeSwitchGuard may declare a variable in addition
+				// to the variable declared in the initial SimpleStmt.
+				// Put it into an extra scope to avoid redeclaration
+				// errors, as in:
+				//
+				//	switch t := 0; t := x.(T) { ... }
+				//
+				// (this code is still not valid Go because the first t
+				// will never be used - but the extra scope is needed
+				// for the correct error message).
+				//
+				// If we don't have a type switch, s2 must be an expression.
+				// Having the extra (empty) scope here won't affect it.
+				p.openScope()
 				s2, _ = p.parseSimpleStmt(basic)
+				scope = p.topScope
+				p.closeScope()
 			}
 		}
 		p.exprLev = prevLev
 	}
 
-	exprSwitch := isExprSwitch(s2)
+	// If varName != "", we have a type switch. If varName != "_" it
+	// is the name of the variable declared by the TypeSwitchGuard.
+	varName := ""
+	if isTypeSwitchGuard(s2) {
+		varName = "_"
+		// If s2 declared a variable, there is exactly one.
+		for varName = range scope.Objects {
+		}
+	}
+
 	lbrace := p.expect(token.LBRACE)
 	var list []ast.Stmt
 	for p.tok == token.CASE || p.tok == token.DEFAULT {
-		list = append(list, p.parseCaseClause(exprSwitch))
+		list = append(list, p.parseCaseClause(varName))
 	}
 	rbrace := p.expect(token.RBRACE)
 	p.expectSemi()
 	body := &ast.BlockStmt{lbrace, list, rbrace}
 
-	if exprSwitch {
-		return &ast.SwitchStmt{pos, s1, p.makeExpr(s2), body}
+	if varName != "" {
+		return &ast.TypeSwitchStmt{pos, s1, s2, body}
 	}
-	// type switch
-	// TODO(gri): do all the checks!
-	return &ast.TypeSwitchStmt{pos, s1, s2, body}
+
+	return &ast.SwitchStmt{pos, s1, p.makeExpr(s2), body}
 }
 
 func (p *parser) parseCommClause() *ast.CommClause {
@@ -2001,14 +2037,12 @@ func (p *parser) parseReceiver(scope *ast.Scope) *ast.FieldList {
 		defer un(trace(p, "Receiver"))
 	}
 
-	pos := p.pos
 	par := p.parseParameters(scope, false)
 
 	// must have exactly one receiver
 	if par.NumFields() != 1 {
-		p.errorExpected(pos, "exactly one receiver")
-		// TODO determine a better range for BadExpr below
-		par.List = []*ast.Field{&ast.Field{Type: &ast.BadExpr{pos, pos}}}
+		p.errorExpected(par.Opening, "exactly one receiver")
+		par.List = []*ast.Field{&ast.Field{Type: &ast.BadExpr{par.Opening, par.Closing + 1}}}
 		return par
 	}
 

src/pkg/go/parser/parser_test.go

@@ -26,6 +26,9 @@ var illegalInputs = []interface{}{
 	`package p; func f() { for _ = range x ; ; {} };`,
 	`package p; func f() { for ; ; _ = range x {} };`,
 	`package p; func f() { for ; _ = range x ; {} };`,
+	`package p; func f() { switch t = t.(type) {} };`,
+	`package p; func f() { switch t, t = t.(type) {} };`,
+	`package p; func f() { switch t = t.(type), t {} };`,
 	`package p; var a = [1]int; /* illegal expression */`,
 	`package p; var a = [...]int; /* illegal expression */`,
 	`package p; var a = struct{} /* illegal expression */`,