package engine import ( "encoding/gob" "fmt" "io/fs" "reflect" "sync" "github.com/hajimehoshi/ebiten/v2" ) var _ interface { Disabler Hider Identifier Updater Scanner } = &Game{} func init() { gob.Register(&Game{}) } // Game implements the ebiten methods using a collection of components. One // component must be the designated root component - usually a scene of some // kind. type Game struct { Disabled Hidden ScreenWidth int ScreenHeight int Root DrawUpdater // typically a *Scene or SceneRef though dbmu sync.RWMutex db map[string]Identifier // Named components by ID dex map[dexKey][]interface{} // Ancestor/behaviour index } type dexKey struct { ancestor string behaviour reflect.Type } // Draw draws the entire thing, with default draw options. func (g *Game) Draw(screen *ebiten.Image) { if g.Hidden { return } g.Root.Draw(screen, ebiten.DrawImageOptions{}) } // Layout returns the configured screen width/height. func (g *Game) Layout(outsideWidth, outsideHeight int) (w, h int) { return g.ScreenWidth, g.ScreenHeight } // Update updates the scene. func (g *Game) Update() error { if g.Disabled { return nil } return g.Root.Update() } // Ident returns "__GAME__". func (g *Game) Ident() string { return "__GAME__" } // Component returns the component with a given ID, or nil if there is none. // This only returns sensible values after LoadAndPrepare. func (g *Game) Component(id string) Identifier { g.dbmu.RLock() defer g.dbmu.RUnlock() return g.db[id] } // Query looks for components having both a given ancestor and implementing // a given behaviour (see Behaviors in interface.go). This only returns sensible // values after LoadAndPrepare. Note that every component is its own ancestor. func (g *Game) Query(ancestorID string, behaviour reflect.Type) []interface{} { g.dbmu.RLock() defer g.dbmu.RUnlock() return g.dex[dexKey{ancestorID, behaviour}] } // Scan implements Scanner. func (g *Game) Scan() []interface{} { return []interface{}{g.Root} } // Walk calls v with every path of components reachable from c via Scan, for as // long as visit returns nil. func Walk(c interface{}, v func(interface{}, []interface{}) error) error { return walk(c, make([]interface{}, 0, 16), v) } func walk(c interface{}, p []interface{}, v func(interface{}, []interface{}) error) error { if err := v(c, p); err != nil { return err } sc, ok := c.(Scanner) if !ok { return nil } p = append(p, c) for _, c := range sc.Scan() { if err := walk(c, p, v); err != nil { return err } } return nil } // LoadAndPrepare first calls Load on all Loaders. Once loading is complete, it // builds the component databases and then calls Prepare on every Preparer. // LoadAndPrepare must be called before any calls to Component or Query. func (g *Game) LoadAndPrepare(assets fs.FS) error { // Load all the Loaders. if err := Walk(g, func(c interface{}, _ []interface{}) error { l, ok := c.(Loader) if !ok { return nil } return l.Load(assets) }); err != nil { return err } // Build the component databases g.dbmu.Lock() g.db = make(map[string]Identifier) g.dex = make(map[dexKey][]interface{}) if err := Walk(g, g.registerComponent); err != nil { return err } g.dbmu.Unlock() // Prepare all the Preppers for _, p := range g.Query(g.Ident(), PrepperType) { if err := p.(Prepper).Prepare(g); err != nil { return err } } return nil } func (g *Game) registerComponent(c interface{}, path []interface{}) error { // register in g.dex ct := reflect.TypeOf(c) for _, b := range Behaviours { if !ct.Implements(b) { continue } // TODO: sub-quadratic? for _, p := range append(path, c) { i, ok := p.(Identifier) if !ok || i.Ident() == "" { continue } k := dexKey{i.Ident(), b} g.dex[k] = append(g.dex[k], c) } } // register in g.db i, ok := c.(Identifier) if !ok { return nil } id := i.Ident() if id == "" { return nil } if _, exists := g.db[id]; exists { return fmt.Errorf("duplicate id %q", id) } g.db[id] = i return nil }