package codegen import ( "fmt" "path/filepath" "sort" "strings" "cuelang.org/go/cue" "cuelang.org/go/cue/errors" "github.com/grafana/codejen" "github.com/grafana/cuetsy" "github.com/grafana/cuetsy/ts" "github.com/grafana/cuetsy/ts/ast" "github.com/grafana/grafana/pkg/codegen/generators" ) // TSVeneerIndexJenny generates an index.gen.ts file with references to all // generated TS types. Elements with the attribute @grafana(TSVeneer="type") are // exported from a handwritten file, rather than the raw generated types. // // The provided dir is the path, relative to the grafana root, to the directory // that should contain the generated index. // // Implicitly depends on output patterns in TSTypesJenny. // TODO this is wasteful; share-nothing generator model entails re-running the cuetsy gen that TSTypesJenny already did func TSVeneerIndexJenny(dir string) ManyToOne { return &genTSVeneerIndex{ dir: dir, } } type genTSVeneerIndex struct { dir string } func (gen *genTSVeneerIndex) JennyName() string { return "TSVeneerIndexJenny" } func (gen *genTSVeneerIndex) Generate(sfg ...SchemaForGen) (*codejen.File, error) { tsf := new(ast.File) for _, def := range sfg { f, err := generators.GenerateTypesTS(def.CueFile, &generators.TSConfig{ CuetsyConfig: &cuetsy.Config{ ImportMapper: MapCUEImportToTS, }, RootName: def.Name, IsGroup: def.IsGroup, }) if err != nil { return nil, fmt.Errorf("%s: %w", def.Name, err) } // The obvious approach would be calling renameSpecNode() here, same as in the ts resource jenny, // to rename the "spec" field to the name of the kind. But that was causing extra // default elements to generate that didn't actually exist. Instead, // findDeclNode() is aware of "spec" and does the change on the fly. Preserving this // as a reminder in case we want to switch back, though. // renameSpecNode(def.Props().Common().Name, f) elems, err := gen.extractTSIndexVeneerElements(def, f) if err != nil { return nil, fmt.Errorf("%s: %w", def.Name, err) } tsf.Nodes = append(tsf.Nodes, elems...) } return codejen.NewFile(filepath.Join(gen.dir, "index.gen.ts"), []byte(tsf.String()), gen), nil } func (gen *genTSVeneerIndex) extractTSIndexVeneerElements(def SchemaForGen, tf *ast.File) ([]ast.Decl, error) { // Check the root, then walk the tree rootv := def.CueFile.LookupPath(cue.ParsePath("lineage.schemas[0].schema")) var raw, custom, rawD, customD ast.Idents var terr errors.Error visit := func(p cue.Path, wv cue.Value) bool { var name string sels := p.Selectors() switch len(sels) { case 0: return true case 1: // Only deal with subpaths that are definitions, for now // TODO incorporate smarts about grouped lineages here if name == "" { if !(sels[0].IsDefinition() || sels[0].String() == "spec") { return false } // It might seem to make sense that we'd strip out the leading # here for // definitions. However, cuetsy's tsast actually has the # still present in its // Ident types, stripping it out on the fly when stringifying. name = sels[0].String() } // Search the generated TS AST for the type and default def nodes pair := findDeclNode(name, def.Name, tf) if pair.T == nil { // No generated type for this item, skip it return false } cust, perr := getCustomVeneerAttr(wv) if perr != nil { terr = errors.Append(terr, errors.Promote(perr, fmt.Sprintf("%s: ", p.String()))) } var has bool for _, tgt := range cust { has = has || tgt.target == "type" } if has { // enums can't use 'export type' if pair.isEnum { customD = append(customD, *pair.T) } else { custom = append(custom, *pair.T) } if pair.D != nil { customD = append(customD, *pair.D) } } else { // enums can't use 'export type' if pair.isEnum { rawD = append(rawD, *pair.T) } else { raw = append(raw, *pair.T) } if pair.D != nil { rawD = append(rawD, *pair.D) } } } return true } walk(rootv, visit, nil) if len(errors.Errors(terr)) != 0 { return nil, terr } vpath := "x" machineName := strings.ToLower(def.Name) ret := make([]ast.Decl, 0) if len(raw) > 0 { ret = append(ret, ast.ExportSet{ CommentList: []ast.Comment{ts.CommentFromString(fmt.Sprintf("Raw generated types from %s kind.", def.Name), 80, false)}, TypeOnly: true, Exports: raw, From: ast.Str{Value: fmt.Sprintf("./raw/%s/%s/%s_types.gen", machineName, vpath, machineName)}, }) } if len(rawD) > 0 { ret = append(ret, ast.ExportSet{ CommentList: []ast.Comment{ts.CommentFromString(fmt.Sprintf("Raw generated enums and default consts from %s kind.", machineName), 80, false)}, TypeOnly: false, Exports: rawD, From: ast.Str{Value: fmt.Sprintf("./raw/%s/%s/%s_types.gen", machineName, vpath, machineName)}, }) } vtfile := fmt.Sprintf("./veneer/%s.types", machineName) version, err := getVersion(def.CueFile) if err != nil { return nil, err } customstr := fmt.Sprintf(`// The following exported declarations correspond to types in the %s@%s kind's // schema with attribute @grafana(TSVeneer="type"). // // The handwritten file for these type and default veneers is expected to be at // %s.ts. // This re-export declaration enforces that the handwritten veneer file exists, // and exports all the symbols in the list. // // TODO generate code such that tsc enforces type compatibility between raw and veneer decls`, machineName, strings.ReplaceAll(version, "-", "."), filepath.ToSlash(filepath.Join(gen.dir, vtfile))) customComments := []ast.Comment{{Text: customstr}} if len(custom) > 0 { ret = append(ret, ast.ExportSet{ CommentList: customComments, TypeOnly: true, Exports: custom, From: ast.Str{Value: vtfile}, }) } if len(customD) > 0 { ret = append(ret, ast.ExportSet{ CommentList: customComments, TypeOnly: false, Exports: customD, From: ast.Str{Value: vtfile}, }) } // TODO emit a def in the index.gen.ts that ensures any custom veneer types are "compatible" with current version raw types return ret, nil } type declPair struct { T, D *ast.Ident isEnum bool } type tsVeneerAttr struct { target string } func findDeclNode(name, basename string, tf *ast.File) declPair { var p declPair if name == basename { return declPair{} } for _, def := range tf.Nodes { // Peer through export keywords if ex, is := def.(ast.ExportKeyword); is { def = ex.Decl } switch x := def.(type) { case ast.TypeDecl: if x.Name.Name == name { p.T = &x.Name _, p.isEnum = x.Type.(ast.EnumType) if name == "spec" { p.T.Name = basename } } case ast.VarDecl: if x.Names.Idents[0].Name == "default"+name { p.D = &x.Names.Idents[0] if name == "spec" { p.D.Name = "default" + basename } } } } return p } func walk(v cue.Value, before func(cue.Path, cue.Value) bool, after func(cue.Path, cue.Value)) { innerWalk(cue.MakePath(), v, before, after) } func innerWalk(p cue.Path, v cue.Value, before func(cue.Path, cue.Value) bool, after func(cue.Path, cue.Value)) { switch v.Kind() { default: if before != nil && !before(p, v) { return } case cue.StructKind: if before != nil && !before(p, v) { return } iter, err := v.Fields(cue.All()) if err != nil { panic(err) } for iter.Next() { innerWalk(appendPath(p, iter.Selector()), iter.Value(), before, after) } if lv := v.LookupPath(cue.MakePath(cue.AnyString)); lv.Exists() { innerWalk(appendPath(p, cue.AnyString), lv, before, after) } case cue.ListKind: if before != nil && !before(p, v) { return } list, err := v.List() if err != nil { panic(err) } for i := 0; list.Next(); i++ { innerWalk(appendPath(p, cue.Index(i)), list.Value(), before, after) } if lv := v.LookupPath(cue.MakePath(cue.AnyIndex)); lv.Exists() { innerWalk(appendPath(p, cue.AnyString), lv, before, after) } } if after != nil { after(p, v) } } func appendPath(p cue.Path, sel cue.Selector) cue.Path { return cue.MakePath(append(p.Selectors(), sel)...) } func getCustomVeneerAttr(v cue.Value) ([]tsVeneerAttr, error) { var attrs []tsVeneerAttr for _, a := range v.Attributes(cue.ValueAttr) { if a.Name() != "grafana" { continue } for i := 0; i < a.NumArgs(); i++ { key, av := a.Arg(i) if key != "TSVeneer" { return nil, valError(v, "attribute 'grafana' only allows the arg 'TSVeneer'") } aterr := valError(v, "@grafana(TSVeneer=\"x\") requires one or more of the following separated veneer types for x: %s", allowedTSVeneersString()) var some bool for _, tgt := range strings.Split(av, "|") { some = true if !allowedTSVeneers[tgt] { return nil, aterr } attrs = append(attrs, tsVeneerAttr{ target: tgt, }) } if !some { return nil, aterr } } } sort.Slice(attrs, func(i, j int) bool { return attrs[i].target < attrs[j].target }) return attrs, nil } var allowedTSVeneers = map[string]bool{ "type": true, } func allowedTSVeneersString() string { list := make([]string, 0, len(allowedTSVeneers)) for tgt := range allowedTSVeneers { list = append(list, tgt) } sort.Strings(list) return strings.Join(list, "|") } func valError(v cue.Value, format string, args ...any) error { s := v.Source() if s == nil { return fmt.Errorf(format, args...) } return errors.Newf(s.Pos(), format, args...) }