doodle/pkg/uix/actor.go
Noah Petherbridge f0101ba048 The Window Manager Update
* Take advantage of the new Window Manager feature of the UI toolkit.
* Move the MenuScene's "New Level" and "Play/Edit Level" windows into
  stand-alone functions in new pkg/windows/ package. The 'windows'
  package is isolated from the rest of Doodle and communicates using
  config variables and callback functions to avoid circular dependency.
* MenuScene calls the window constructors from the new package.
* Add an "Options" button to the Menu Bar in the Editor Scene, which
  opens the "New Level" window to allow changing the wallpaper or
  bounding type of the level currently being edited.
* Move the cheat codes into their own file, cheats.go
2020-04-06 23:21:17 -07:00

337 lines
8.5 KiB
Go

package uix
import (
"errors"
"fmt"
"sort"
"sync"
"git.kirsle.net/apps/doodle/pkg/collision"
"git.kirsle.net/apps/doodle/pkg/doodads"
"git.kirsle.net/apps/doodle/pkg/level"
"git.kirsle.net/apps/doodle/pkg/log"
"git.kirsle.net/apps/doodle/pkg/physics"
"git.kirsle.net/go/render"
"github.com/google/uuid"
"github.com/robertkrimen/otto"
)
// Actor is an object that marries together the three things that make a
// Doodad instance "tick" while inside a Canvas:
//
// - uix.Actor is a doodads.Drawing so it fulfills doodads.Actor to be a
// dynamic object during gameplay.
// - It has a pointer to the level.Actor indicating its static level data
// as defined in the map: its spawn coordinate and configuration.
// - A uix.Canvas that can present the actor's graphics to the screen.
type Actor struct {
id string
Drawing *doodads.Drawing
Actor *level.Actor
Canvas *Canvas
activeLayer int // active drawing frame for display
flagDestroy bool // flag the actor for destruction
// Actor runtime variables.
hasGravity bool
isMobile bool // Mobile character, such as the player or an enemy
noclip bool // Disable collision detection
hitbox render.Rect
inventory map[string]int // item inventory. doodad name -> quantity, 0 for key item.
data map[string]string // arbitrary key/value store. DEPRECATED ??
// Movement data.
position render.Point
velocity physics.Vector
grounded bool
// Animation variables.
animations map[string]*Animation
activeAnimation *Animation
animationCallback otto.Value
// Mutex.
muInventory sync.RWMutex
muData sync.RWMutex
}
// NewActor sets up a uix.Actor.
// If the id is blank, a new UUIDv4 is generated.
func NewActor(id string, levelActor *level.Actor, doodad *doodads.Doodad) *Actor {
if id == "" {
id = uuid.Must(uuid.NewRandom()).String()
}
size := doodad.Layers[0].Chunker.Size
can := NewCanvas(int(size), false)
can.Name = id
// TODO: if the Background is render.Invisible it gets defaulted to
// White somewhere and the Doodad masks the level drawing behind it.
can.SetBackground(render.RGBA(0, 0, 1, 0))
can.LoadDoodad(doodad)
can.Resize(render.NewRect(size, size))
actor := &Actor{
Drawing: doodads.NewDrawing(id, doodad),
Actor: levelActor,
Canvas: can,
animations: map[string]*Animation{},
inventory: map[string]int{},
}
// Give the Canvas a pointer to its (parent) Actor so it can draw its debug
// label and show the World Position of the actor within the world.
can.actor = actor
return actor
}
// ID returns the actor's ID. This is the underlying doodle.Drawing.ID().
func (a *Actor) ID() string {
return a.Drawing.ID()
}
// Doodad offers access to the underlying Doodad object.
// Shortcut to the `.Drawing.Doodad` property path.
func (a *Actor) Doodad() *doodads.Doodad {
return a.Drawing.Doodad
}
// SetGravity configures whether the actor is affected by gravity.
func (a *Actor) SetGravity(v bool) {
a.hasGravity = v
}
// SetMobile configures whether the actor is a mobile character (i.e. is the
// player or a mobile enemy). Mobile characters can set off certain traps when
// touched but non-mobile actors don't set each other off if touching.
func (a *Actor) SetMobile(v bool) {
a.isMobile = v
}
// IsMobile returns whether the actor is a mobile character.
func (a *Actor) IsMobile() bool {
return a.isMobile
}
// Size returns the size of the actor, from the underlying doodads.Drawing.
func (a *Actor) Size() render.Rect {
return a.Drawing.Size()
}
// Velocity returns the actor's current velocity vector.
func (a *Actor) Velocity() physics.Vector {
return a.velocity
}
// SetVelocity updates the actor's velocity vector.
func (a *Actor) SetVelocity(v physics.Vector) {
a.velocity = v
}
// Position returns the actor's position.
func (a *Actor) Position() render.Point {
return a.position
}
// MoveTo sets the actor's position.
func (a *Actor) MoveTo(p render.Point) {
a.position = p
}
// MoveBy adjusts the actor's position.
func (a *Actor) MoveBy(p render.Point) {
a.position.Add(p)
}
// Grounded returns if the actor is touching a floor.
func (a *Actor) Grounded() bool {
return a.grounded
}
// SetGrounded sets the actor's grounded value.
func (a *Actor) SetGrounded(v bool) {
a.grounded = v
}
// SetNoclip sets the noclip setting for an actor. If true, the actor can
// clip through level geometry.
func (a *Actor) SetNoclip(v bool) {
a.noclip = v
}
// AddItem adds an item doodad to the actor's inventory.
// Item name is usually the doodad filename.
func (a *Actor) AddItem(itemName string, quantity int) {
a.muInventory.Lock()
a.inventory[itemName] = quantity
a.muInventory.Unlock()
}
// RemoveItem removes a quantity of an item from the actor's inventory.
//
// Provide a quantity of 0 to remove the item completely.
// Otherwise provides a number greater than zero and you will subtract this
// quantity from the item. If the item then is at <= zero, it is removed from
// inventory.
func (a *Actor) RemoveItem(itemName string, quantity int) bool {
a.muInventory.RLock()
defer a.muInventory.RUnlock()
if _, ok := a.inventory[itemName]; ok {
// If quantity is zero, remove the item entirely.
if quantity <= 0 {
delete(a.inventory, itemName)
} else {
// Subtract the quantity from inventory. If we have run down to
// zero left, remove the item entirely.
a.inventory[itemName] -= quantity
if a.inventory[itemName] <= 0 {
delete(a.inventory, itemName)
}
}
return true
}
return false
}
// ClearInventory removes all items from the actor's inventory.
func (a *Actor) ClearInventory() {
a.muInventory.Lock()
a.inventory = map[string]int{}
a.muInventory.Unlock()
}
// HasItem checks the actor's inventory for the item and returns the quantity.
//
// A return value of -1 means the item was not found.
// The value 0 indicates a key item (one with no quantity).
// Values >= 1 would be consumable items.
func (a *Actor) HasItem(itemName string) int {
a.muInventory.RLock()
defer a.muInventory.RUnlock()
if quantity, ok := a.inventory[itemName]; ok {
return quantity
}
return -1
}
// ListItems returns a sorted list of the items in the actor's inventory.
func (a *Actor) ListItems() []string {
a.muInventory.RLock()
defer a.muInventory.RUnlock()
var (
result = make([]string, len(a.inventory))
i = 0
)
for k := range a.inventory {
result[i] = k
i++
}
sort.Strings(result)
return result
}
// Inventory returns a copy of the actor's inventory struct.
func (a *Actor) Inventory() map[string]int {
a.muInventory.RLock()
defer a.muInventory.RUnlock()
var result = map[string]int{}
for k, v := range a.inventory {
result[k] = v
}
return result
}
// GetBoundingRect gets the bounding box of the actor's doodad.
func (a *Actor) GetBoundingRect() render.Rect {
return collision.GetBoundingRect(a)
}
// SetHitbox sets the actor's elected hitbox.
func (a *Actor) SetHitbox(x, y, w, h int) {
a.hitbox = render.Rect{
X: x,
Y: y,
W: w,
H: h,
}
}
// Hitbox returns the actor's elected hitbox.
func (a *Actor) Hitbox() render.Rect {
return a.hitbox
}
// SetData sets an arbitrary field in the actor's K/V storage.
func (a *Actor) SetData(key, value string) {
if a.data == nil {
a.data = map[string]string{}
}
a.muData.Lock()
a.data[key] = value
a.muData.Unlock()
}
// GetData gets an arbitrary field from the actor's K/V storage.
// Missing keys just return a blank string (friendly to the JavaScript
// environment).
func (a *Actor) GetData(key string) string {
if a.data == nil {
return ""
}
a.muData.RLock()
v, _ := a.data[key]
a.muData.RUnlock()
return v
}
// LayerCount returns the number of layers in this actor's drawing.
func (a *Actor) LayerCount() int {
return len(a.Doodad().Layers)
}
// ShowLayer sets the actor's ActiveLayer to the index given.
func (a *Actor) ShowLayer(index int) error {
if index < 0 {
return errors.New("layer index must be 0 or greater")
} else if index > len(a.Doodad().Layers) {
return fmt.Errorf("layer %d out of range for doodad's layers", index)
}
a.activeLayer = index
a.Canvas.Load(a.Doodad().Palette, a.Doodad().Layers[index].Chunker)
return nil
}
// ShowLayerNamed sets the actor's ActiveLayer to the one named.
func (a *Actor) ShowLayerNamed(name string) error {
// Find the layer.
for i, layer := range a.Doodad().Layers {
if layer.Name == name {
return a.ShowLayer(i)
}
}
log.Warn("Actor(%s) ShowLayerNamed(%s): layer not found",
a.Actor.Filename,
name,
)
return fmt.Errorf("the layer named %s was not found", name)
}
// Destroy deletes the actor from the running level.
func (a *Actor) Destroy() {
a.flagDestroy = true
}