package memoproperty import ( "context" "log/slog" "slices" "time" "github.com/pkg/errors" "github.com/usememos/gomark/ast" "github.com/usememos/gomark/parser" "github.com/usememos/gomark/parser/tokenizer" storepb "github.com/usememos/memos/proto/gen/store" "github.com/usememos/memos/store" ) type Runner struct { Store *store.Store } func NewRunner(store *store.Store) *Runner { return &Runner{ Store: store, } } // Schedule runner every 12 hours. const runnerInterval = time.Hour * 12 func (r *Runner) Run(ctx context.Context) { ticker := time.NewTicker(runnerInterval) defer ticker.Stop() for { select { case <-ticker.C: r.RunOnce(ctx) case <-ctx.Done(): return } } } func (r *Runner) RunOnce(ctx context.Context) { emptyPayload := "{}" memos, err := r.Store.ListMemos(ctx, &store.FindMemo{ PayloadFind: &store.FindMemoPayload{ Raw: &emptyPayload, }, }) if err != nil { slog.Error("failed to list memos", "err", err) return } for _, memo := range memos { property, err := GetMemoPropertyFromContent(memo.Content) if err != nil { slog.Error("failed to get memo property", "err", err) continue } memo.Payload.Property = property if err := r.Store.UpdateMemo(ctx, &store.UpdateMemo{ ID: memo.ID, Payload: memo.Payload, }); err != nil { slog.Error("failed to update memo", "err", err) } } } func GetMemoPropertyFromContent(content string) (*storepb.MemoPayload_Property, error) { nodes, err := parser.Parse(tokenizer.Tokenize(content)) if err != nil { return nil, errors.Wrap(err, "failed to parse content") } property := &storepb.MemoPayload_Property{} TraverseASTNodes(nodes, func(node ast.Node) { switch n := node.(type) { case *ast.Tag: tag := n.Content if !slices.Contains(property.Tags, tag) { property.Tags = append(property.Tags, tag) } case *ast.Link, *ast.AutoLink: property.HasLink = true case *ast.TaskList: property.HasTaskList = true if !n.Complete { property.HasIncompleteTasks = true } case *ast.Code, *ast.CodeBlock: property.HasCode = true } }) return property, nil } func TraverseASTNodes(nodes []ast.Node, fn func(ast.Node)) { for _, node := range nodes { fn(node) switch n := node.(type) { case *ast.Paragraph: TraverseASTNodes(n.Children, fn) case *ast.Heading: TraverseASTNodes(n.Children, fn) case *ast.Blockquote: TraverseASTNodes(n.Children, fn) case *ast.OrderedList: TraverseASTNodes(n.Children, fn) case *ast.UnorderedList: TraverseASTNodes(n.Children, fn) case *ast.TaskList: TraverseASTNodes(n.Children, fn) case *ast.Bold: TraverseASTNodes(n.Children, fn) } } }