// Copyright 2013 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. // This file implements initialization and assignment checks. package types import ( "go/ast" "go/token" ) // assignment reports whether x can be assigned to a variable of type T, // if necessary by attempting to convert untyped values to the appropriate // type. context describes the context in which the assignment takes place. // Use T == nil to indicate assignment to an untyped blank identifier. // x.mode is set to invalid if the assignment failed. func (check *Checker) assignment(x *operand, T Type, context string) { check.singleValue(x) switch x.mode { case invalid: return // error reported before case constant_, variable, mapindex, value, commaok: // ok default: unreachable() } if isUntyped(x.typ) { target := T // spec: "If an untyped constant is assigned to a variable of interface // type or the blank identifier, the constant is first converted to type // bool, rune, int, float64, complex128 or string respectively, depending // on whether the value is a boolean, rune, integer, floating-point, complex, // or string constant." if T == nil || IsInterface(T) { if T == nil && x.typ == Typ[UntypedNil] { check.errorf(x.pos(), "use of untyped nil in %s", context) x.mode = invalid return } target = Default(x.typ) } check.convertUntyped(x, target) if x.mode == invalid { return } } // x.typ is typed // spec: "If a left-hand side is the blank identifier, any typed or // non-constant value except for the predeclared identifier nil may // be assigned to it." if T == nil { return } if reason := ""; !x.assignableTo(check, T, &reason) { if reason != "" { check.errorf(x.pos(), "cannot use %s as %s value in %s: %s", x, T, context, reason) } else { check.errorf(x.pos(), "cannot use %s as %s value in %s", x, T, context) } x.mode = invalid } } func (check *Checker) initConst(lhs *Const, x *operand) { if x.mode == invalid || x.typ == Typ[Invalid] || lhs.typ == Typ[Invalid] { if lhs.typ == nil { lhs.typ = Typ[Invalid] } return } // rhs must be a constant if x.mode != constant_ { check.errorf(x.pos(), "%s is not constant", x) if lhs.typ == nil { lhs.typ = Typ[Invalid] } return } assert(isConstType(x.typ)) // If the lhs doesn't have a type yet, use the type of x. if lhs.typ == nil { lhs.typ = x.typ } check.assignment(x, lhs.typ, "constant declaration") if x.mode == invalid { return } lhs.val = x.val } func (check *Checker) initVar(lhs *Var, x *operand, context string) Type { if x.mode == invalid || x.typ == Typ[Invalid] || lhs.typ == Typ[Invalid] { if lhs.typ == nil { lhs.typ = Typ[Invalid] } return nil } // If the lhs doesn't have a type yet, use the type of x. if lhs.typ == nil { typ := x.typ if isUntyped(typ) { // convert untyped types to default types if typ == Typ[UntypedNil] { check.errorf(x.pos(), "use of untyped nil in %s", context) lhs.typ = Typ[Invalid] return nil } typ = Default(typ) } lhs.typ = typ } check.assignment(x, lhs.typ, context) if x.mode == invalid { return nil } return x.typ } func (check *Checker) assignVar(lhs ast.Expr, x *operand) Type { if x.mode == invalid || x.typ == Typ[Invalid] { return nil } // Determine if the lhs is a (possibly parenthesized) identifier. ident, _ := unparen(lhs).(*ast.Ident) // Don't evaluate lhs if it is the blank identifier. if ident != nil && ident.Name == "_" { check.recordDef(ident, nil) check.assignment(x, nil, "assignment to _ identifier") if x.mode == invalid { return nil } return x.typ } // If the lhs is an identifier denoting a variable v, this assignment // is not a 'use' of v. Remember current value of v.used and restore // after evaluating the lhs via check.expr. var v *Var var v_used bool if ident != nil { if obj := check.lookup(ident.Name); obj != nil { // It's ok to mark non-local variables, but ignore variables // from other packages to avoid potential race conditions with // dot-imported variables. if w, _ := obj.(*Var); w != nil && w.pkg == check.pkg { v = w v_used = v.used } } } var z operand check.expr(&z, lhs) if v != nil { v.used = v_used // restore v.used } if z.mode == invalid || z.typ == Typ[Invalid] { return nil } // spec: "Each left-hand side operand must be addressable, a map index // expression, or the blank identifier. Operands may be parenthesized." switch z.mode { case invalid: return nil case variable, mapindex: // ok default: if sel, ok := z.expr.(*ast.SelectorExpr); ok { var op operand check.expr(&op, sel.X) if op.mode == mapindex { check.errorf(z.pos(), "cannot assign to struct field %s in map", ExprString(z.expr)) return nil } } check.errorf(z.pos(), "cannot assign to %s", &z) return nil } check.assignment(x, z.typ, "assignment") if x.mode == invalid { return nil } return x.typ } // If returnPos is valid, initVars is called to type-check the assignment of // return expressions, and returnPos is the position of the return statement. func (check *Checker) initVars(lhs []*Var, rhs []ast.Expr, returnPos token.Pos) { l := len(lhs) get, r, commaOk := unpack(func(x *operand, i int) { check.multiExpr(x, rhs[i]) }, len(rhs), l == 2 && !returnPos.IsValid()) if get == nil || l != r { // invalidate lhs and use rhs for _, obj := range lhs { if obj.typ == nil { obj.typ = Typ[Invalid] } } if get == nil { return // error reported by unpack } check.useGetter(get, r) if returnPos.IsValid() { check.errorf(returnPos, "wrong number of return values (want %d, got %d)", l, r) return } check.errorf(rhs[0].Pos(), "cannot initialize %d variables with %d values", l, r) return } context := "assignment" if returnPos.IsValid() { context = "return statement" } var x operand if commaOk { var a [2]Type for i := range a { get(&x, i) a[i] = check.initVar(lhs[i], &x, context) } check.recordCommaOkTypes(rhs[0], a) return } for i, lhs := range lhs { get(&x, i) check.initVar(lhs, &x, context) } } func (check *Checker) assignVars(lhs, rhs []ast.Expr) { l := len(lhs) get, r, commaOk := unpack(func(x *operand, i int) { check.multiExpr(x, rhs[i]) }, len(rhs), l == 2) if get == nil { check.useLHS(lhs...) return // error reported by unpack } if l != r { check.useGetter(get, r) check.errorf(rhs[0].Pos(), "cannot assign %d values to %d variables", r, l) return } var x operand if commaOk { var a [2]Type for i := range a { get(&x, i) a[i] = check.assignVar(lhs[i], &x) } check.recordCommaOkTypes(rhs[0], a) return } for i, lhs := range lhs { get(&x, i) check.assignVar(lhs, &x) } } func (check *Checker) shortVarDecl(pos token.Pos, lhs, rhs []ast.Expr) { top := len(check.delayed) scope := check.scope // collect lhs variables var newVars []*Var var lhsVars = make([]*Var, len(lhs)) for i, lhs := range lhs { var obj *Var if ident, _ := lhs.(*ast.Ident); ident != nil { // Use the correct obj if the ident is redeclared. The // variable's scope starts after the declaration; so we // must use Scope.Lookup here and call Scope.Insert // (via check.declare) later. name := ident.Name if alt := scope.Lookup(name); alt != nil { // redeclared object must be a variable if alt, _ := alt.(*Var); alt != nil { obj = alt } else { check.errorf(lhs.Pos(), "cannot assign to %s", lhs) } check.recordUse(ident, alt) } else { // declare new variable, possibly a blank (_) variable obj = NewVar(ident.Pos(), check.pkg, name, nil) if name != "_" { newVars = append(newVars, obj) } check.recordDef(ident, obj) } } else { check.useLHS(lhs) check.errorf(lhs.Pos(), "cannot declare %s", lhs) } if obj == nil { obj = NewVar(lhs.Pos(), check.pkg, "_", nil) // dummy variable } lhsVars[i] = obj } check.initVars(lhsVars, rhs, token.NoPos) // process function literals in rhs expressions before scope changes check.processDelayed(top) // declare new variables if len(newVars) > 0 { // spec: "The scope of a constant or variable identifier declared inside // a function begins at the end of the ConstSpec or VarSpec (ShortVarDecl // for short variable declarations) and ends at the end of the innermost // containing block." scopePos := rhs[len(rhs)-1].End() for _, obj := range newVars { check.declare(scope, nil, obj, scopePos) // recordObject already called } } else { check.softErrorf(pos, "no new variables on left side of :=") } }