ref: 6959370835734d37d488136504db68b5b9a3277e
dir: /codegen/methods.go/
// Copyright 2019 The Hugo Authors. All rights reserved. // Some functions in this file (see comments) is based on the Go source code, // copyright The Go Authors and governed by a BSD-style license. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Package codegen contains helpers for code generation. package codegen import ( "fmt" "go/ast" "go/parser" "go/token" "os" "path" "path/filepath" "reflect" "regexp" "sort" "strings" "sync" ) // Make room for insertions const weightWidth = 1000 // NewInspector creates a new Inspector given a source root. func NewInspector(root string) *Inspector { return &Inspector{ProjectRootDir: root} } // Inspector provides methods to help code generation. It uses a combination // of reflection and source code AST to do the heavy lifting. type Inspector struct { ProjectRootDir string init sync.Once // Determines method order. Go's reflect sorts lexicographically, so // we must parse the source to preserve this order. methodWeight map[string]map[string]int } // MethodsFromTypes create a method set from the include slice, excluding any // method in exclude. func (c *Inspector) MethodsFromTypes(include []reflect.Type, exclude []reflect.Type) Methods { c.parseSource() var methods Methods excludes := make(map[string]bool) if len(exclude) > 0 { for _, m := range c.MethodsFromTypes(exclude, nil) { excludes[m.Name] = true } } // There may be overlapping interfaces in types. Do a simple check for now. seen := make(map[string]bool) nameAndPackage := func(t reflect.Type) (string, string) { var name, pkg string isPointer := t.Kind() == reflect.Ptr if isPointer { t = t.Elem() } pkgPrefix := "" if pkgPath := t.PkgPath(); pkgPath != "" { pkgPath = strings.TrimSuffix(pkgPath, "/") _, shortPath := path.Split(pkgPath) pkgPrefix = shortPath + "." pkg = pkgPath } name = t.Name() if name == "" { // interface{} name = t.String() } if isPointer { pkgPrefix = "*" + pkgPrefix } name = pkgPrefix + name return name, pkg } for _, t := range include { for i := 0; i < t.NumMethod(); i++ { m := t.Method(i) if excludes[m.Name] || seen[m.Name] { continue } seen[m.Name] = true if m.PkgPath != "" { // Not exported continue } numIn := m.Type.NumIn() ownerName, _ := nameAndPackage(t) method := Method{Owner: t, OwnerName: ownerName, Name: m.Name} for i := 0; i < numIn; i++ { in := m.Type.In(i) name, pkg := nameAndPackage(in) if pkg != "" { method.Imports = append(method.Imports, pkg) } method.In = append(method.In, name) } numOut := m.Type.NumOut() if numOut > 0 { for i := 0; i < numOut; i++ { out := m.Type.Out(i) name, pkg := nameAndPackage(out) if pkg != "" { method.Imports = append(method.Imports, pkg) } method.Out = append(method.Out, name) } } methods = append(methods, method) } } sort.SliceStable(methods, func(i, j int) bool { mi, mj := methods[i], methods[j] wi := c.methodWeight[mi.OwnerName][mi.Name] wj := c.methodWeight[mj.OwnerName][mj.Name] if wi == wj { return mi.Name < mj.Name } return wi < wj }) return methods } func (c *Inspector) parseSource() { c.init.Do(func() { if !strings.Contains(c.ProjectRootDir, "hugo") { panic("dir must be set to the Hugo root") } c.methodWeight = make(map[string]map[string]int) dirExcludes := regexp.MustCompile("docs|examples") fileExcludes := regexp.MustCompile("autogen") var filenames []string filepath.Walk(c.ProjectRootDir, func(path string, info os.FileInfo, err error) error { if info.IsDir() { if dirExcludes.MatchString(info.Name()) { return filepath.SkipDir } } if !strings.HasSuffix(path, ".go") || fileExcludes.MatchString(path) { return nil } filenames = append(filenames, path) return nil }) for _, filename := range filenames { pkg := c.packageFromPath(filename) fset := token.NewFileSet() node, err := parser.ParseFile(fset, filename, nil, parser.ParseComments) if err != nil { panic(err) } ast.Inspect(node, func(n ast.Node) bool { switch t := n.(type) { case *ast.TypeSpec: if t.Name.IsExported() { switch it := t.Type.(type) { case *ast.InterfaceType: iface := pkg + "." + t.Name.Name methodNames := collectMethodsRecursive(pkg, it.Methods.List) weights := make(map[string]int) weight := weightWidth for _, name := range methodNames { weights[name] = weight weight += weightWidth } c.methodWeight[iface] = weights } } } return true }) } // Complement for _, v1 := range c.methodWeight { for k2, w := range v1 { if v, found := c.methodWeight[k2]; found { for k3, v3 := range v { v1[k3] = (v3 / weightWidth) + w } } } } }) } func (c *Inspector) packageFromPath(p string) string { p = filepath.ToSlash(p) base := path.Base(p) if !strings.Contains(base, ".") { return base } return path.Base(strings.TrimSuffix(p, base)) } // Method holds enough information about it to recreate it. type Method struct { // The interface we extracted this method from. Owner reflect.Type // String version of the above, on the form PACKAGE.NAME, e.g. // page.Page OwnerName string // Method name. Name string // Imports needed to satisfy the method signature. Imports []string // Argument types, including any package prefix, e.g. string, int, interface{}, // net.Url In []string // Return types. Out []string } // Declaration creates a method declaration (without any body) for the given receiver. func (m Method) Declaration(receiver string) string { return fmt.Sprintf("func (%s %s) %s%s %s", receiverShort(receiver), receiver, m.Name, m.inStr(), m.outStr()) } // DeclarationNamed creates a method declaration (without any body) for the given receiver // with named return values. func (m Method) DeclarationNamed(receiver string) string { return fmt.Sprintf("func (%s %s) %s%s %s", receiverShort(receiver), receiver, m.Name, m.inStr(), m.outStrNamed()) } // Delegate creates a delegate call string. func (m Method) Delegate(receiver, delegate string) string { ret := "" if len(m.Out) > 0 { ret = "return " } return fmt.Sprintf("%s%s.%s.%s%s", ret, receiverShort(receiver), delegate, m.Name, m.inOutStr()) } func (m Method) String() string { return m.Name + m.inStr() + " " + m.outStr() + "\n" } func (m Method) inOutStr() string { if len(m.In) == 0 { return "()" } args := make([]string, len(m.In)) for i := 0; i < len(args); i++ { args[i] = fmt.Sprintf("arg%d", i) } return "(" + strings.Join(args, ", ") + ")" } func (m Method) inStr() string { if len(m.In) == 0 { return "()" } args := make([]string, len(m.In)) for i := 0; i < len(args); i++ { args[i] = fmt.Sprintf("arg%d %s", i, m.In[i]) } return "(" + strings.Join(args, ", ") + ")" } func (m Method) outStr() string { if len(m.Out) == 0 { return "" } if len(m.Out) == 1 { return m.Out[0] } return "(" + strings.Join(m.Out, ", ") + ")" } func (m Method) outStrNamed() string { if len(m.Out) == 0 { return "" } outs := make([]string, len(m.Out)) for i := 0; i < len(outs); i++ { outs[i] = fmt.Sprintf("o%d %s", i, m.Out[i]) } return "(" + strings.Join(outs, ", ") + ")" } // Methods represents a list of methods for one or more interfaces. // The order matches the defined order in their source file(s). type Methods []Method // Imports returns a sorted list of package imports needed to satisfy the // signatures of all methods. func (m Methods) Imports() []string { var pkgImports []string for _, method := range m { pkgImports = append(pkgImports, method.Imports...) } if len(pkgImports) > 0 { pkgImports = uniqueNonEmptyStrings(pkgImports) sort.Strings(pkgImports) } return pkgImports } // ToMarshalJSON creates a MarshalJSON method for these methods. Any method name // matchin any of the regexps in excludes will be ignored. func (m Methods) ToMarshalJSON(receiver, pkgPath string, excludes ...string) (string, []string) { var sb strings.Builder r := receiverShort(receiver) what := firstToUpper(trimAsterisk(receiver)) pgkName := path.Base(pkgPath) fmt.Fprintf(&sb, "func Marshal%sToJSON(%s %s) ([]byte, error) {\n", what, r, receiver) var methods Methods excludeRes := make([]*regexp.Regexp, len(excludes)) for i, exclude := range excludes { excludeRes[i] = regexp.MustCompile(exclude) } for _, method := range m { // Exclude methods with arguments and incompatible return values if len(method.In) > 0 || len(method.Out) == 0 || len(method.Out) > 2 { continue } if len(method.Out) == 2 { if method.Out[1] != "error" { continue } } for _, re := range excludeRes { if re.MatchString(method.Name) { continue } } methods = append(methods, method) } for _, method := range methods { varn := varName(method.Name) if len(method.Out) == 1 { fmt.Fprintf(&sb, "\t%s := %s.%s()\n", varn, r, method.Name) } else { fmt.Fprintf(&sb, "\t%s, err := %s.%s()\n", varn, r, method.Name) fmt.Fprint(&sb, "\tif err != nil {\n\t\treturn nil, err\n\t}\n") } } fmt.Fprint(&sb, "\n\ts := struct {\n") for _, method := range methods { fmt.Fprintf(&sb, "\t\t%s %s\n", method.Name, typeName(method.Out[0], pgkName)) } fmt.Fprint(&sb, "\n\t}{\n") for _, method := range methods { varn := varName(method.Name) fmt.Fprintf(&sb, "\t\t%s: %s,\n", method.Name, varn) } fmt.Fprint(&sb, "\n\t}\n\n") fmt.Fprint(&sb, "\treturn json.Marshal(&s)\n}") pkgImports := append(methods.Imports(), "encoding/json") if pkgPath != "" { // Exclude self for i, pkgImp := range pkgImports { if pkgImp == pkgPath { pkgImports = append(pkgImports[:i], pkgImports[i+1:]...) } } } return sb.String(), pkgImports } func collectMethodsRecursive(pkg string, f []*ast.Field) []string { var methodNames []string for _, m := range f { if m.Names != nil { methodNames = append(methodNames, m.Names[0].Name) continue } if ident, ok := m.Type.(*ast.Ident); ok && ident.Obj != nil { // Embedded interface methodNames = append( methodNames, collectMethodsRecursive( pkg, ident.Obj.Decl.(*ast.TypeSpec).Type.(*ast.InterfaceType).Methods.List)...) } else { // Embedded, but in a different file/package. Return the // package.Name and deal with that later. name := packageName(m.Type) if !strings.Contains(name, ".") { // Assume current package name = pkg + "." + name } methodNames = append(methodNames, name) } } return methodNames } func firstToLower(name string) string { return strings.ToLower(name[:1]) + name[1:] } func firstToUpper(name string) string { return strings.ToUpper(name[:1]) + name[1:] } func packageName(e ast.Expr) string { switch tp := e.(type) { case *ast.Ident: return tp.Name case *ast.SelectorExpr: return fmt.Sprintf("%s.%s", packageName(tp.X), packageName(tp.Sel)) } return "" } func receiverShort(receiver string) string { return strings.ToLower(trimAsterisk(receiver))[:1] } func trimAsterisk(name string) string { return strings.TrimPrefix(name, "*") } func typeName(name, pkg string) string { return strings.TrimPrefix(name, pkg+".") } func uniqueNonEmptyStrings(s []string) []string { var unique []string set := map[string]interface{}{} for _, val := range s { if val == "" { continue } if _, ok := set[val]; !ok { unique = append(unique, val) set[val] = val } } return unique } func varName(name string) string { name = firstToLower(name) // Adjust some reserved keywords, see https://golang.org/ref/spec#Keywords switch name { case "type": name = "typ" case "package": name = "pkg" // Not reserved, but syntax highlighters has it as a keyword. case "len": name = "length" } return name }