doodle/pkg/uix/actor.go
Noah Petherbridge 837960c477 Doodads: Small Key Door + Bigger Crumbly Floor
* The crumbly floor doodad was made 50% larger.
* New doodad: Small Key and Small Key Door. These work like the colored
  doors and locks except each Small Key is consumed when it unlocks a
  door. The door's appearance is of iron bars.
* The inventory HUD displays a small quantity label in the lower-right
  corner of items that have a quantity, such as the Small Key. This is
  done as a Canvas.CornerLabel string attribute on uix.Canvas.
* The "give all keys" cheat adds 99 Small Keys to your inventory.
2021-01-03 17:06:33 -08:00

381 lines
9.6 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 {
Drawing *doodads.Drawing
Actor *level.Actor
Canvas *Canvas
activeLayer int // active drawing frame for display
flagDestroy bool // flag the actor for destruction
flagUsing bool // flag that the (player) has pressed the Use key.
// Actor runtime variables.
hasGravity bool
isMobile bool // Mobile character, such as the player or an enemy
noclip bool // Disable collision detection
hidden bool // invisible, via Hide() and Show()
frozen bool // Frozen, via Freeze() and Unfreeze()
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
}
// IsPlayer returns whether the actor is the player character.
// It's true when the Actor ID is "PLAYER"
func (a *Actor) IsPlayer() bool {
return a.Canvas.Name == "PLAYER"
}
// 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
}
// Hide makes the actor invisible.
func (a *Actor) Hide() {
a.hidden = true
}
// Show a hidden actor.
func (a *Actor) Show() {
a.hidden = false
}
// Freeze an actor. For the player character, this means arrow key inputs
// will stop moving the actor.
func (a *Actor) Freeze() {
a.frozen = true
}
// Unfreeze an actor.
func (a *Actor) Unfreeze() {
a.frozen = false
}
// IsFrozen returns true if the actor is frozen.
func (a *Actor) IsFrozen() bool {
return a.frozen
}
// SetUsing enables the "Use Key" flag, mainly for the player character to activate
// certain doodads in the level.
func (a *Actor) SetUsing(v bool) {
a.flagUsing = 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()
if _, ok := a.inventory[itemName]; ok {
a.inventory[itemName] += quantity
} else {
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
}