package main import ( "bytes" "flag" "go/ast" "io/ioutil" "log" "os" "path/filepath" "regexp" "runtime" "strconv" "strings" "text/template" common "github.com/go-kratos/kratos/tool/pkg" ) var ( encode = flag.String("encode", "", "encode type: json/pb/raw/gob/gzip") mcType = flag.String("type", "", "type: get/set/del/replace/only_add") key = flag.String("key", "", "key name method") expire = flag.String("expire", "", "expire time code") structName = flag.String("struct_name", "dao", "struct name") batchSize = flag.Int("batch", 0, "batch size") batchErr = flag.String("batch_err", "break", "batch err to continue or break") maxGroup = flag.Int("max_group", 0, "max group size") checkNullCode = flag.String("check_null_code", "", "check null code") nullExpire = flag.String("null_expire", "", "null cache expire time code") mcValidTypes = []string{"set", "replace", "del", "get", "only_add"} mcValidPrefix = []string{"set", "replace", "del", "get", "cache", "add"} optionNamesMap = map[string]bool{"batch": true, "max_group": true, "encode": true, "type": true, "key": true, "expire": true, "batch_err": true, "struct_name": true, "check_null_code": true, "null_expire": true} simpleTypes = []string{"int", "int8", "int16", "int32", "int64", "float32", "float64", "uint", "uint8", "uint16", "uint32", "uint64", "bool", "string", "[]byte"} lenTypes = []string{"[]", "map"} ) const ( _interfaceName = "_mc" _multiTpl = 1 _singleTpl = 2 _noneTpl = 3 _typeGet = "get" _typeSet = "set" _typeDel = "del" _typeReplace = "replace" _typeAdd = "only_add" ) func resetFlag() { *encode = "" *mcType = "" *batchSize = 0 *maxGroup = 0 *batchErr = "break" *checkNullCode = "" *nullExpire = "" *structName = "dao" } // options options type options struct { name string keyType string ValueType string template int SimpleValue bool // int float 类型 GetSimpleValue bool // string, []byte类型 GetDirectValue bool ConvertValue2Bytes string ConvertBytes2Value string GoValue bool ImportPackage string importPackages []string Args string PkgName string ExtraArgsType string ExtraArgs string MCType string KeyMethod string ExpireCode string Encode string UseMemcached bool OriginValueType string UseStrConv bool Comment string GroupSize int MaxGroup int EnableBatch bool BatchErrBreak bool LenType bool PointType bool StructName string CheckNullCode string ExpireNullCode string EnableNullCode bool } func getOptions(opt *options, comment string) { os.Args = []string{os.Args[0]} if regexp.MustCompile(`\s+//\s*mc:.+`).Match([]byte(comment)) { args := strings.Split(common.RegexpReplace(`//\s*mc:(?P.+)`, comment, "$arg"), " ") for _, arg := range args { arg = strings.TrimSpace(arg) if arg != "" { // validate option name argName := common.RegexpReplace(`-(?P[\w_-]+)=.+`, arg, "$name") if !optionNamesMap[argName] { log.Fatalf("选项:%s 不存在 请检查拼写\n", argName) } os.Args = append(os.Args, arg) } } } resetFlag() flag.Parse() if *mcType != "" { opt.MCType = *mcType } if *key != "" { opt.KeyMethod = *key } if *expire != "" { opt.ExpireCode = *expire } opt.EnableBatch = (*batchSize != 0) && (*maxGroup != 0) opt.BatchErrBreak = *batchErr == "break" opt.GroupSize = *batchSize opt.MaxGroup = *maxGroup opt.StructName = *structName opt.CheckNullCode = *checkNullCode if *nullExpire != "" { opt.ExpireNullCode = *nullExpire } if opt.CheckNullCode != "" { opt.EnableNullCode = true } } func getTypeFromPrefix(opt *options, params []*ast.Field, s *common.Source) { if opt.MCType == "" { for _, t := range mcValidPrefix { if strings.HasPrefix(strings.ToLower(opt.name), t) { if t == "add" { t = _typeSet } opt.MCType = t break } } if opt.MCType == "" { log.Fatalln(opt.name + "请指定方法类型(type=get/set/del...)") } } if opt.MCType == "cache" { opt.MCType = _typeGet } if len(params) == 0 { log.Fatalln(opt.name + "参数不足") } for _, p := range params { if len(p.Names) > 1 { log.Fatalln(opt.name + "不支持省略类型 请写全声明中的字段类型名称") } } if s.ExprString(params[0].Type) != "context.Context" { log.Fatalln(opt.name + "第一个参数必须为context") } for _, param := range params { if len(param.Names) > 1 { log.Fatalln(opt.name + "不支持省略类型") } } } func processList(s *common.Source, list *ast.Field) (opt options) { src := s.Src fset := s.Fset lines := strings.Split(src, "\n") opt = options{Args: s.GetDef(_interfaceName), UseMemcached: true, importPackages: s.Packages(list)} opt.name = list.Names[0].Name opt.KeyMethod = "key" + opt.name opt.ExpireCode = "d.mc" + opt.name + "Expire" opt.ExpireNullCode = "300" // 默认5分钟 // get comment line := fset.Position(list.Pos()).Line - 3 if len(lines)-1 >= line { comment := lines[line] opt.Comment = common.RegexpReplace(`\s+//(?P.+)`, comment, "$name") opt.Comment = strings.TrimSpace(opt.Comment) } // get options line = fset.Position(list.Pos()).Line - 2 comment := lines[line] getOptions(&opt, comment) // get type from prefix params := list.Type.(*ast.FuncType).Params.List getTypeFromPrefix(&opt, params, s) // get template if len(params) == 1 { opt.template = _noneTpl } else if (len(params) == 2) && (opt.MCType == _typeSet || opt.MCType == _typeAdd || opt.MCType == _typeReplace) { if _, ok := params[1].Type.(*ast.MapType); ok { opt.template = _multiTpl } else { opt.template = _noneTpl } } else { if _, ok := params[1].Type.(*ast.ArrayType); ok { opt.template = _multiTpl } else if _, ok := params[1].Type.(*ast.MapType); ok { opt.template = _multiTpl } else { opt.template = _singleTpl } } // extra args if len(params) > 2 { args := []string{""} allArgs := []string{""} var pos = 2 if (opt.MCType == _typeAdd) || (opt.MCType == _typeSet) || (opt.MCType == _typeReplace) { pos = 3 } if opt.template == _multiTpl && opt.MCType == _typeSet { pos = 2 } for _, pa := range params[pos:] { paType := s.ExprString(pa.Type) if len(pa.Names) == 0 { args = append(args, paType) allArgs = append(allArgs, paType) continue } var names []string for _, name := range pa.Names { names = append(names, name.Name) } allArgs = append(allArgs, strings.Join(names, ",")+" "+paType) args = append(args, strings.Join(names, ",")) } if len(args) > 1 { opt.ExtraArgs = strings.Join(args, ",") opt.ExtraArgsType = strings.Join(allArgs, ",") } } results := list.Type.(*ast.FuncType).Results.List getKeyValueType(&opt, params, results, s) return } func getKeyValueType(opt *options, params, results []*ast.Field, s *common.Source) { // check if s.ExprString(results[len(results)-1].Type) != "error" { log.Fatalln("最后返回值参数需为error") } for _, res := range results { if len(res.Names) > 1 { log.Fatalln(opt.name + "返回值不支持省略类型") } } if opt.MCType == _typeGet { if len(results) != 2 { log.Fatalln("参数个数不对") } } // get key type and value type if (opt.MCType == _typeAdd) || (opt.MCType == _typeSet) || (opt.MCType == _typeReplace) { if opt.template == _multiTpl { p, ok := params[1].Type.(*ast.MapType) if !ok { log.Fatalf("%s: 参数类型错误 批量设置数据时类型需为map类型\n", opt.name) } opt.keyType = s.ExprString(p.Key) opt.ValueType = s.ExprString(p.Value) } else if opt.template == _singleTpl { opt.keyType = s.ExprString(params[1].Type) opt.ValueType = s.ExprString(params[2].Type) } else { opt.ValueType = s.ExprString(params[1].Type) } } if opt.MCType == _typeGet { if opt.template == _multiTpl { if p, ok := results[0].Type.(*ast.MapType); ok { opt.keyType = s.ExprString(p.Key) opt.ValueType = s.ExprString(p.Value) } else { log.Fatalf("%s: 返回值类型错误 批量获取数据时返回值需为map类型\n", opt.name) } } else if opt.template == _singleTpl { opt.keyType = s.ExprString(params[1].Type) opt.ValueType = s.ExprString(results[0].Type) } else { opt.ValueType = s.ExprString(results[0].Type) } } if opt.MCType == _typeDel { if opt.template == _multiTpl { p, ok := params[1].Type.(*ast.ArrayType) if !ok { log.Fatalf("%s: 类型错误 参数需为[]类型\n", opt.name) } opt.keyType = s.ExprString(p.Elt) } else if opt.template == _singleTpl { opt.keyType = s.ExprString(params[1].Type) } } for _, t := range simpleTypes { if t == opt.ValueType { opt.SimpleValue = true opt.GetSimpleValue = true opt.ConvertValue2Bytes = convertValue2Bytes(t) opt.ConvertBytes2Value = convertBytes2Value(t) break } } if opt.ValueType == "string" { opt.LenType = true } else { for _, t := range lenTypes { if strings.HasPrefix(opt.ValueType, t) { opt.LenType = true break } } } if opt.SimpleValue && (opt.ValueType == "[]byte" || opt.ValueType == "string") { opt.GetSimpleValue = false opt.GetDirectValue = true } if opt.MCType == _typeGet && opt.template == _multiTpl { opt.UseMemcached = false } if strings.HasPrefix(opt.ValueType, "*") { opt.PointType = true opt.OriginValueType = strings.Replace(opt.ValueType, "*", "", 1) } else { opt.OriginValueType = opt.ValueType } if *encode != "" { var flags []string for _, f := range strings.Split(*encode, "|") { switch f { case "gob": flags = append(flags, "memcache.FlagGOB") case "json": flags = append(flags, "memcache.FlagJSON") case "raw": flags = append(flags, "memcache.FlagRAW") case "pb": flags = append(flags, "memcache.FlagProtobuf") case "gzip": flags = append(flags, "memcache.FlagGzip") default: log.Fatalf("%s: encode类型无效\n", opt.name) } } opt.Encode = strings.Join(flags, " | ") } else { if opt.SimpleValue { opt.Encode = "memcache.FlagRAW" } else { opt.Encode = "memcache.FlagJSON" } } } func parse(s *common.Source) (opts []*options) { c := s.F.Scope.Lookup(_interfaceName) if (c == nil) || (c.Kind != ast.Typ) { log.Fatalln("无法找到缓存声明") } lists := c.Decl.(*ast.TypeSpec).Type.(*ast.InterfaceType).Methods.List for _, list := range lists { opt := processList(s, list) opt.Check() opts = append(opts, &opt) } return } func (option *options) Check() { var valid bool for _, x := range mcValidTypes { if x == option.MCType { valid = true break } } if !valid { log.Fatalf("%s: 类型错误 不支持%s类型\n", option.name, option.MCType) } if (option.MCType != _typeDel) && !option.SimpleValue && !strings.Contains(option.ValueType, "*") && !strings.Contains(option.ValueType, "[]") && !strings.Contains(option.ValueType, "map") { log.Fatalf("%s: 值类型只能为基本类型/slice/map/指针类型\n", option.name) } } func genHeader(opts []*options) (src string) { option := options{PkgName: os.Getenv("GOPACKAGE"), UseMemcached: false} var packages []string packagesMap := map[string]bool{`"context"`: true} for _, opt := range opts { if len(opt.importPackages) > 0 { for _, pkg := range opt.importPackages { if !packagesMap[pkg] { packages = append(packages, pkg) packagesMap[pkg] = true } } } if opt.Args != "" { option.Args = opt.Args } if opt.UseMemcached { option.UseMemcached = true } if opt.SimpleValue && !opt.GetDirectValue { option.UseStrConv = true } if opt.EnableBatch { option.EnableBatch = true } } option.ImportPackage = strings.Join(packages, "\n") src = _headerTemplate t := template.Must(template.New("header").Parse(src)) var buffer bytes.Buffer err := t.Execute(&buffer, option) if err != nil { log.Fatalf("execute template: %s", err) } // Format the output. src = strings.Replace(buffer.String(), "\t", "", -1) src = regexp.MustCompile("\n+").ReplaceAllString(src, "\n") src = strings.Replace(src, "NEWLINE", "", -1) src = strings.Replace(src, "ARGS", option.Args, -1) return } func getNewTemplate(option *options) (src string) { if option.template == _multiTpl { switch option.MCType { case _typeGet: src = _multiGetTemplate case _typeSet: src = _multiSetTemplate case _typeReplace: src = _multiReplaceTemplate case _typeDel: src = _multiDelTemplate case _typeAdd: src = _multiAddTemplate } } else if option.template == _singleTpl { switch option.MCType { case _typeGet: src = _singleGetTemplate case _typeSet: src = _singleSetTemplate case _typeReplace: src = _singleReplaceTemplate case _typeDel: src = _singleDelTemplate case _typeAdd: src = _singleAddTemplate } } else { switch option.MCType { case _typeGet: src = _noneGetTemplate case _typeSet: src = _noneSetTemplate case _typeReplace: src = _noneReplaceTemplate case _typeDel: src = _noneDelTemplate case _typeAdd: src = _noneAddTemplate } } return } func genBody(opts []*options) (res string) { for _, option := range opts { src := getNewTemplate(option) src = strings.Replace(src, "KEY", option.keyType, -1) src = strings.Replace(src, "NAME", option.name, -1) src = strings.Replace(src, "VALUE", option.ValueType, -1) src = strings.Replace(src, "GROUPSIZE", strconv.Itoa(option.GroupSize), -1) src = strings.Replace(src, "MAXGROUP", strconv.Itoa(option.MaxGroup), -1) if option.EnableNullCode { option.CheckNullCode = strings.Replace(option.CheckNullCode, "$", "val", -1) } t := template.Must(template.New("cache").Parse(src)) var buffer bytes.Buffer err := t.Execute(&buffer, option) if err != nil { log.Fatalf("execute template: %s", err) } // Format the output. src = strings.Replace(buffer.String(), "\t", "", -1) src = regexp.MustCompile("\n+").ReplaceAllString(src, "\n") res = res + "\n" + src } return } func main() { log.SetFlags(0) defer func() { if err := recover(); err != nil { buf := make([]byte, 64*1024) buf = buf[:runtime.Stack(buf, false)] log.Fatalf("程序解析失败, err: %+v stack: %s", err, buf) } }() options := parse(common.NewSource(common.SourceText())) header := genHeader(options) body := genBody(options) code := common.FormatCode(header + "\n" + body) // Write to file. dir := filepath.Dir(".") outputName := filepath.Join(dir, "mc.cache.go") err := ioutil.WriteFile(outputName, []byte(code), 0644) if err != nil { log.Fatalf("写入文件失败: %s", err) } log.Println("mc.cache.go: 生成成功") } func convertValue2Bytes(t string) string { switch t { case "int", "int8", "int16", "int32", "int64": return "[]byte(strconv.FormatInt(int64(val), 10))" case "uint", "uint8", "uint16", "uint32", "uint64": return "[]byte(strconv.FormatUInt(val, 10))" case "bool": return "[]byte(strconv.FormatBool(val))" case "float32": return "[]byte(strconv.FormatFloat(val, 'E', -1, 32))" case "float64": return "[]byte(strconv.FormatFloat(val, 'E', -1, 64))" case "string": return "[]byte(val)" case "[]byte": return "val" } return "" } func convertBytes2Value(t string) string { switch t { case "int", "int8", "int16", "int32", "int64": return "strconv.ParseInt(v, 10, 64)" case "uint", "uint8", "uint16", "uint32", "uint64": return "strconv.ParseUInt(v, 10, 64)" case "bool": return "strconv.ParseBool(v)" case "float32": return "float32(strconv.ParseFloat(v, 32))" case "float64": return "strconv.ParseFloat(v, 64)" } return "" }