doodle/pkg/uix/canvas_wallpaper.go
Noah Petherbridge cb02feff1d Add Switches, Fire/Water Collision and Play Menu
* New doodads: Switches.
  * They come in four varieties: wall switch (background element, with
    "ON/OFF" text) and three side-profile switches for the floor, left
    or right walls.
  * On collision with the player, they flip their state from "OFF" to
    "ON" or vice versa. If the player walks away and then collides
    again, the switch flips again.
  * Can be used to open/close Electric Doors when turned on/off. Their
    default state is "off"
  * If a switch receives a power signal from another linked switch, it
    sets its own state to match. So, two "on/off" switches that are
    connected to a door AND to each other will both flip on/off when one
    of them flips.
* Update the Level Collision logic to support Decoration, Fire and Water
  pixel collisions.
  * Previously, ALL pixels in the level were acting as though solid.
  * Non-solid pixels don't count for collision detection, but their
    attributes (fire and water) are collected and returned.
* Updated the MenuScene to support loading a map file in Play Mode
  instead of Edit Mode. Updated the title screen menu to add a button
  for playing levels instead of editing them.
* Wrote some documentation.
2019-07-06 18:30:03 -07:00

222 lines
5.0 KiB
Go

package uix
import (
"git.kirsle.net/apps/doodle/lib/render"
"git.kirsle.net/apps/doodle/pkg/level"
"git.kirsle.net/apps/doodle/pkg/wallpaper"
)
// Wallpaper configures the wallpaper in a Canvas.
type Wallpaper struct {
pageType level.PageType
maxWidth int64
maxHeight int64
corner render.Texturer
top render.Texturer
left render.Texturer
repeat render.Texturer
}
// Valid returns whether the Wallpaper is configured. Only Levels should
// have wallpapers and Doodads will have nil ones.
func (wp *Wallpaper) Valid() bool {
return wp.repeat != nil
}
// Canvas Loop() task that keeps mobile actors constrained inside the borders
// of the world for bounded map types.
func (w *Canvas) loopContainActorsInsideLevel(a *Actor) {
// Infinite maps do not need to constrain the actors.
if w.wallpaper.pageType == level.Unbounded {
return
}
var (
orig = a.Position() // Actor's World Position
moveBy render.Point
size = a.Size()
)
// Bound it on the top left edges.
if orig.X < 0 {
moveBy.X = -orig.X
}
if orig.Y < 0 {
moveBy.Y = -orig.Y
}
// Bound it on the right bottom edges. XXX: downcast from int64!
if w.wallpaper.pageType >= level.Bounded {
if w.wallpaper.maxWidth > 0 {
if int64(orig.X+size.W) > w.wallpaper.maxWidth {
var delta = int32(w.wallpaper.maxWidth - int64(orig.X+size.W))
moveBy.X = delta
}
}
if w.wallpaper.maxHeight > 0 {
if int64(orig.Y+size.H) > w.wallpaper.maxHeight {
var delta = int32(w.wallpaper.maxHeight - int64(orig.Y+size.H))
moveBy.Y = delta
}
}
}
if !moveBy.IsZero() {
a.MoveBy(moveBy)
}
}
// PresentWallpaper draws the wallpaper.
func (w *Canvas) PresentWallpaper(e render.Engine, p render.Point) error {
var (
wp = w.wallpaper
S = w.Size()
size = wp.corner.Size()
Viewport = w.ViewportRelative()
origin = render.Point{
X: p.X + w.Scroll.X + w.BoxThickness(1),
Y: p.Y + w.Scroll.Y + w.BoxThickness(1),
}
limit = render.Point{
// NOTE: we add + the texture size so we would actually draw one
// full extra texture out-of-bounds for the repeating backgrounds.
// This is cuz for scrolling we offset the draw spot on a loop.
X: origin.X + S.W - w.BoxThickness(1) + size.W,
Y: origin.Y + S.H - w.BoxThickness(1) + size.H,
}
)
// For tiled textures, compute the offset amount. If we are scrolled away
// from the Origin (0,0) we find out by how far (subtract full tile sizes)
// and use the remainder as an offset for drawing the tiles.
var dx, dy int32
if origin.X > p.X {
for origin.X > p.X && origin.X > size.W {
origin.X -= size.W
}
dx = origin.X
origin.X = p.X
}
if origin.Y > p.Y {
for origin.Y > p.Y && origin.Y > size.H {
origin.Y -= size.H
}
dy = origin.Y
origin.Y = p.Y
}
// And capping the scroll delta in the other direction.
if limit.X < S.W {
limit.X = S.W
}
if limit.Y < S.H {
// TODO: slight flicker on bottom edge when scrolling down
limit.Y = S.H
}
limit.X += size.W
limit.Y += size.H
// Tile the repeat texture.
for x := origin.X - size.W; x < limit.X; x += size.W {
for y := origin.Y - size.H; y < limit.Y; y += size.H {
src := render.Rect{
W: size.W,
H: size.H,
}
dst := render.Rect{
X: x + dx,
Y: y + dy,
W: src.W,
H: src.H,
}
// Trim the edges of the destination box, like in canvas.go#Present
render.TrimBox(&src, &dst, p, S, w.BoxThickness(1))
e.Copy(wp.repeat, src, dst)
}
}
// The left edge corner tiled along the left edge.
if wp.pageType > level.Unbounded {
for y := origin.Y; y < limit.Y; y += size.H {
src := render.Rect{
W: size.W,
H: size.H,
}
dst := render.Rect{
X: origin.X,
Y: y + dy,
W: src.W,
H: src.H,
}
render.TrimBox(&src, &dst, p, S, w.BoxThickness(1))
e.Copy(wp.left, src, dst)
}
// The top edge tiled along the top edge.
for x := origin.X; x < limit.X; x += size.W {
src := render.Rect{
W: size.W,
H: size.H,
}
dst := render.Rect{
X: x,
Y: origin.Y,
W: src.W,
H: src.H,
}
render.TrimBox(&src, &dst, p, S, w.BoxThickness(1))
e.Copy(wp.top, src, dst)
}
// The top left corner for all page types except Unbounded.
if Viewport.Intersects(size) {
src := render.Rect{
W: size.W,
H: size.H,
}
dst := render.Rect{
X: origin.X,
Y: origin.Y,
W: src.W,
H: src.H,
}
render.TrimBox(&src, &dst, p, S, w.BoxThickness(1))
e.Copy(wp.corner, src, dst)
}
}
return nil
}
// Load the wallpaper settings from a level.
func (wp *Wallpaper) Load(e render.Engine, pageType level.PageType, v *wallpaper.Wallpaper) error {
wp.pageType = pageType
if tex, err := v.CornerTexture(e); err == nil {
wp.corner = tex
} else {
return err
}
if tex, err := v.TopTexture(e); err == nil {
wp.top = tex
} else {
return err
}
if tex, err := v.LeftTexture(e); err == nil {
wp.left = tex
} else {
return err
}
if tex, err := v.RepeatTexture(e); err == nil {
wp.repeat = tex
} else {
return err
}
return nil
}