package engine import ( "bufio" "fmt" "io" "io/fs" "os" "reflect" "strings" ) // REPL runs a read-evaluate-print-loop. Commands are taken from src and output // is written to dst. assets is needed for commands like reload. func (g *Game) REPL(src io.Reader, dst io.Writer, assets fs.FS) error { const prompt = "game> " fmt.Fprint(dst, prompt) sc := bufio.NewScanner(src) for sc.Scan() { argv := strings.Split(sc.Text(), " ") if len(argv) == 0 { continue } switch argv[0] { case "quit": os.Exit(0) case "pause": g.Disable() case "resume", "unpause": g.Enable() case "save": g.cmdSave(dst, argv) case "reload": g.cmdReload(dst, assets) case "tree": g.cmdTree(dst, argv) case "query": g.cmdQuery(dst, argv) } fmt.Fprint(dst, prompt) } return sc.Err() } func (g *Game) cmdSave(dst io.Writer, argv []string) { if len(argv) != 2 { fmt.Fprintln(dst, "Usage: save ID") return } id := argv[1] c := g.Component(id) if c == nil { fmt.Fprintf(dst, "Component %q not found\n", id) return } s, ok := c.(Saver) if !ok { fmt.Fprintf(dst, "Component %q not a Saver (type %T)\n", id, c) return } if err := s.Save(); err != nil { fmt.Fprintf(dst, "Couldn't save %q: %v\n", id, err) } } func (g *Game) cmdReload(dst io.Writer, assets fs.FS) { g.Disable() g.Hide() if err := g.LoadAndPrepare(assets); err != nil { fmt.Fprintf(dst, "Couldn't load: %v\n", err) return } g.Enable() g.Show() } func (g *Game) cmdTree(dst io.Writer, argv []string) { if len(argv) < 1 || len(argv) > 2 { fmt.Println(dst, "Usage: tree [ID]") return } c := interface{}(g) if len(argv) == 2 { // subtree id := argv[1] c = g.Component(id) if c == nil { fmt.Fprintf(dst, "Component %q not found\n", id) return } } Walk(c, func(c interface{}, p []interface{}) error { indent := "" if len(p) > 0 { indent = strings.Repeat(" ", len(p)-1) + "↳ " } i, ok := c.(Identifier) if ok { fmt.Fprintf(dst, "%s%T %q\n", indent, c, i.Ident()) } else { fmt.Fprintf(dst, "%s%T\n", indent, c) } return nil }) } func (g *Game) cmdQuery(dst io.Writer, argv []string) { if len(argv) < 2 || len(argv) > 3 { fmt.Fprintln(dst, "Usage: query BEHAVIOUR [ANCESTOR_ID]") fmt.Fprint(dst, "Behaviours:") for _, b := range Behaviours { fmt.Fprintf(dst, " %s", b.Name()) } return } var behaviour reflect.Type for _, b := range Behaviours { if b.Name() == argv[1] { behaviour = b } } if behaviour == nil { fmt.Fprintf(dst, "Unknown behaviour %q\n", argv[1]) } ancestor := g.Ident() if len(argv) == 3 { ancestor = argv[2] } x := g.Query(ancestor, behaviour) if len(x) == 0 { fmt.Fprintln(dst, "No results") return } for c := range x { i, ok := c.(Identifier) if ok { fmt.Fprintf(dst, "%T %q\n", c, i.Ident()) } else { fmt.Fprintf(dst, "%T\n", c) } } }