package main import ( "bytes" "fmt" "go/format" "go/importer" "go/token" "go/types" "io" "log" "os" "path" "path/filepath" "reflect" "slices" "sort" "strings" "golang.org/x/tools/imports" ) // File a kind of AST element that represents a file. type File struct { Package string Imports []string Elements []Element } // Element is a simplified version of a symbol. type Element struct { Name string Value string } // Centrifuge a centrifuge. // Generate Go Structures from Go structures. type Centrifuge struct { IncludedImports []string ExcludedTypes []string ExcludedFiles []string TypeCleaner func(types.Type, string) string PackageCleaner func(string) string rootPkg string fileSet *token.FileSet pkg *types.Package } // NewCentrifuge creates a new Centrifuge. func NewCentrifuge(rootPkg string) (*Centrifuge, error) { fileSet := token.NewFileSet() pkg, err := importer.ForCompiler(fileSet, "source", nil).Import(rootPkg) if err != nil { return nil, err } return &Centrifuge{ fileSet: fileSet, pkg: pkg, rootPkg: rootPkg, TypeCleaner: func(typ types.Type, _ string) string { return typ.String() }, PackageCleaner: func(s string) string { return s }, }, nil } // Run runs the code extraction and the code generation. func (c Centrifuge) Run(dest string, pkgName string) error { files := c.run(c.pkg.Scope(), c.rootPkg, pkgName) err := fileWriter{baseDir: dest}.Write(files) if err != nil { return err } for _, p := range c.pkg.Imports() { if slices.Contains(c.IncludedImports, p.Path()) { fls := c.run(p.Scope(), p.Path(), p.Name()) err = fileWriter{baseDir: filepath.Join(dest, p.Name())}.Write(fls) if err != nil { return err } } } return err } func (c Centrifuge) run(sc *types.Scope, rootPkg string, pkgName string) map[string]*File { files := map[string]*File{} for _, name := range sc.Names() { if slices.Contains(c.ExcludedTypes, name) { continue } o := sc.Lookup(name) if !o.Exported() { continue } filename := filepath.Base(c.fileSet.File(o.Pos()).Name()) if slices.Contains(c.ExcludedFiles, path.Join(rootPkg, filename)) { continue } fl, ok := files[filename] if !ok { files[filename] = &File{Package: pkgName} fl = files[filename] } elt := Element{ Name: name, } switch ob := o.(type) { case *types.TypeName: switch obj := ob.Type().(*types.Named).Underlying().(type) { case *types.Struct: elt.Value = c.writeStruct(name, obj, rootPkg, fl) case *types.Map: elt.Value = fmt.Sprintf("type %s map[%s]%s\n", name, obj.Key().String(), c.TypeCleaner(obj.Elem(), rootPkg)) case *types.Slice: elt.Value = fmt.Sprintf("type %s []%v\n", name, c.TypeCleaner(obj.Elem(), rootPkg)) case *types.Basic: elt.Value = fmt.Sprintf("type %s %v\n", name, obj.Name()) default: log.Printf("OTHER TYPE::: %s %T\n", name, o.Type().(*types.Named).Underlying()) continue } default: log.Printf("OTHER::: %s %T\n", name, o) continue } if len(elt.Value) > 0 { fl.Elements = append(fl.Elements, elt) } } return files } func (c Centrifuge) writeStruct(name string, obj *types.Struct, rootPkg string, elt *File) string { b := strings.Builder{} b.WriteString(fmt.Sprintf("type %s struct {\n", name)) for i := 0; i < obj.NumFields(); i++ { field := obj.Field(i) if !field.Exported() { continue } fPkg := c.PackageCleaner(extractPackage(field.Type())) if fPkg != "" && fPkg != rootPkg { elt.Imports = append(elt.Imports, fPkg) } fType := c.TypeCleaner(field.Type(), rootPkg) if field.Embedded() { b.WriteString(fmt.Sprintf("\t%s\n", fType)) continue } values, ok := lookupTagValue(obj.Tag(i), "json") if len(values) > 0 && values[0] == "-" { continue } b.WriteString(fmt.Sprintf("\t%s %s", field.Name(), fType)) if ok { b.WriteString(fmt.Sprintf(" `json:\"%s\"`", strings.Join(values, ","))) } b.WriteString("\n") } b.WriteString("}\n") return b.String() } func lookupTagValue(raw, key string) ([]string, bool) { value, ok := reflect.StructTag(raw).Lookup(key) if !ok { return nil, ok } values := strings.Split(value, ",") if len(values) < 1 { return nil, true } return values, true } func extractPackage(t types.Type) string { switch tu := t.(type) { case *types.Named: return tu.Obj().Pkg().Path() case *types.Slice: if v, ok := tu.Elem().(*types.Named); ok { return v.Obj().Pkg().Path() } return "" case *types.Map: if v, ok := tu.Elem().(*types.Named); ok { return v.Obj().Pkg().Path() } return "" case *types.Pointer: return extractPackage(tu.Elem()) default: return "" } } type fileWriter struct { baseDir string } func (f fileWriter) Write(files map[string]*File) error { err := os.MkdirAll(f.baseDir, 0o755) if err != nil { return err } for name, file := range files { err = f.writeFile(name, file) if err != nil { return err } } return nil } func (f fileWriter) writeFile(name string, desc *File) error { if len(desc.Elements) == 0 { return nil } filename := filepath.Join(f.baseDir, name) file, err := os.Create(filename) if err != nil { return fmt.Errorf("failed to create file: %w", err) } defer func() { _ = file.Close() }() b := bytes.NewBufferString("package ") b.WriteString(desc.Package) b.WriteString("\n") b.WriteString("// Code generated by centrifuge. DO NOT EDIT.\n") b.WriteString("\n") f.writeImports(b, desc.Imports) b.WriteString("\n") for _, elt := range desc.Elements { b.WriteString(elt.Value) b.WriteString("\n") } // gofmt source, err := format.Source(b.Bytes()) if err != nil { log.Println(b.String()) return fmt.Errorf("failed to format sources: %w", err) } // goimports process, err := imports.Process(filename, source, nil) if err != nil { log.Println(string(source)) return fmt.Errorf("failed to format imports: %w", err) } _, err = file.Write(process) if err != nil { return err } return nil } func (f fileWriter) writeImports(b io.StringWriter, imports []string) { if len(imports) == 0 { return } uniq := map[string]struct{}{} sort.Strings(imports) _, _ = b.WriteString("import (\n") for _, s := range imports { if _, exist := uniq[s]; exist { continue } uniq[s] = struct{}{} _, _ = b.WriteString(fmt.Sprintf(` "%s"`+"\n", s)) } _, _ = b.WriteString(")\n") }