// Copyright 2012 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 contains the test for unkeyed struct literals. package main import ( "cmd/vet/whitelist" "flag" "go/ast" "strings" ) var compositeWhiteList = flag.Bool("compositewhitelist", true, "use composite white list; for testing only") func init() { register("composites", "check that composite literals used field-keyed elements", checkUnkeyedLiteral, compositeLit) } // checkUnkeyedLiteral checks if a composite literal is a struct literal with // unkeyed fields. func checkUnkeyedLiteral(f *File, node ast.Node) { c := node.(*ast.CompositeLit) typ := c.Type for { if typ1, ok := c.Type.(*ast.ParenExpr); ok { typ = typ1 continue } break } switch typ.(type) { case *ast.ArrayType: return case *ast.MapType: return case *ast.StructType: return // a literal struct type does not need to use keys case *ast.Ident: // A simple type name like t or T does not need keys either, // since it is almost certainly declared in the current package. // (The exception is names being used via import . "pkg", but // those are already breaking the Go 1 compatibility promise, // so not reporting potential additional breakage seems okay.) return } // Otherwise the type is a selector like pkg.Name. // We only care if pkg.Name is a struct, not if it's a map, array, or slice. isStruct, typeString := f.pkg.isStruct(c) if !isStruct { return } if typeString == "" { // isStruct doesn't know typeString = f.gofmt(typ) } // It's a struct, or we can't tell it's not a struct because we don't have types. // Check if the CompositeLit contains an unkeyed field. allKeyValue := true for _, e := range c.Elts { if _, ok := e.(*ast.KeyValueExpr); !ok { allKeyValue = false break } } if allKeyValue { return } // Check that the CompositeLit's type has the form pkg.Typ. s, ok := c.Type.(*ast.SelectorExpr) if !ok { return } pkg, ok := s.X.(*ast.Ident) if !ok { return } // Convert the package name to an import path, and compare to a whitelist. path := pkgPath(f, pkg.Name) if path == "" { f.Badf(c.Pos(), "unresolvable package for %s.%s literal", pkg.Name, s.Sel.Name) return } typeName := path + "." + s.Sel.Name if *compositeWhiteList && whitelist.UnkeyedLiteral[typeName] { return } f.Bad(c.Pos(), typeString+" composite literal uses unkeyed fields") } // pkgPath returns the import path "image/png" for the package name "png". // // This is based purely on syntax and convention, and not on the imported // package's contents. It will be incorrect if a package name differs from the // leaf element of the import path, or if the package was a dot import. func pkgPath(f *File, pkgName string) (path string) { for _, x := range f.file.Imports { s := strings.Trim(x.Path.Value, `"`) if x.Name != nil { // Catch `import pkgName "foo/bar"`. if x.Name.Name == pkgName { return s } } else { // Catch `import "pkgName"` or `import "foo/bar/pkgName"`. if s == pkgName || strings.HasSuffix(s, "/"+pkgName) { return s } } } return "" }