package engine import ( "encoding/gob" "math" "sort" "github.com/hajimehoshi/ebiten/v2" ) func init() { gob.Register(Scene{}) } // Drawer is a component that can draw itself. Draw is called often. type Drawer interface { Draw(screen *ebiten.Image, geom ebiten.GeoM) } // Updater is a component that can update. Update is called repeatedly. type Updater interface { Update() error } // ZPositioner is used to reorder layers. type ZPositioner interface { Z() float64 } // Scene manages drawing and updating a bunch of components. type Scene struct { Components []interface{} Transform ebiten.GeoM } // Draw draws all components in order. func (s *Scene) Draw(screen *ebiten.Image, geom ebiten.GeoM) { geom.Concat(s.Transform) for _, i := range s.Components { if d, ok := i.(Drawer); ok { d.Draw(screen, geom) } } } // sortByZ sorts the components by Z position. // Stable sort is used to avoid Z-fighting among layers without a Z, or // among those with equal Z. All non-ZPositioners are sorted first. func (s *Scene) sortByZ() { sort.SliceStable(s.Components, func(i, j int) bool { a, aok := s.Components[i].(ZPositioner) b, bok := s.Components[j].(ZPositioner) if aok && bok { return a.Z() < b.Z() } return !aok && bok }) } // Update calls Update on all Updater components. func (s *Scene) Update() error { needsSort := false curZ := -math.MaxFloat64 // this is min float64 for _, c := range s.Components { // Update each updater in turn if u, ok := c.(Updater); ok { if err := u.Update(); err != nil { return err } } if !needsSort { // Check if the update put the components out of order if z, ok := c.(ZPositioner); ok { if t := z.Z(); t < curZ { needsSort = true curZ = t } } } } if needsSort { s.sortByZ() } return nil }