package engine import ( "encoding/gob" "image" ) // Ensure Actor satisfies interfaces. var _ interface { Bounder Prepper } = &Actor{} func init() { gob.Register(&Actor{}) } // Thorson-style movement: // https://maddythorson.medium.com/celeste-and-towerfall-physics-d24bd2ae0fc5 // Actor handles basic movement. type Actor struct { CollisionDomain string Pos image.Point Size image.Point collisionDomain []Collider xRem, yRem float64 } func (a *Actor) BoundingRect() image.Rectangle { return image.Rectangle{a.Pos, a.Pos.Add(a.Size)} } func (a *Actor) CollidesAt(p image.Point) bool { bounds := image.Rectangle{Min: p, Max: p.Add(a.Size)} for _, c := range a.collisionDomain { if c.CollidesWith(bounds) { return true } } return false } func (a *Actor) MoveX(dx float64, onCollide func()) { a.xRem += dx move := int(a.xRem + 0.5) // Note: math.Round can lead to vibration if move == 0 { return } a.xRem -= float64(move) sign := sign(move) for move != 0 { if a.CollidesAt(a.Pos.Add(image.Pt(sign, 0))) { if onCollide != nil { onCollide() } return } a.Pos.X += sign move -= sign } } func (a *Actor) MoveY(dy float64, onCollide func()) { a.yRem += dy move := int(a.yRem + 0.5) if move == 0 { return } a.yRem -= float64(move) sign := sign(move) for move != 0 { if a.CollidesAt(a.Pos.Add(image.Pt(0, sign))) { if onCollide != nil { onCollide() } return } a.Pos.Y += sign move -= sign } } func (a *Actor) Prepare(g *Game) error { cs := g.Query(a.CollisionDomain, ColliderType) a.collisionDomain = make([]Collider, 0, len(cs)) for _, c := range cs { a.collisionDomain = append(a.collisionDomain, c.(Collider)) } return nil } func sign(m int) int { if m < 0 { return -1 } return 1 }