430 lines
10 KiB
Go
430 lines
10 KiB
Go
package main
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import (
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"bytes"
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"embed"
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"fmt"
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"image/color"
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"image/png"
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"log"
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"math"
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"math/rand"
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"sort"
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"github.com/hajimehoshi/ebiten/v2"
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"github.com/hajimehoshi/ebiten/v2/inpututil"
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"github.com/hajimehoshi/ebiten/v2/text/v2"
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"github.com/hajimehoshi/ebiten/v2/vector"
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"golang.org/x/image/font/gofont/gobold"
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)
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const (
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// Logical screen matches the bezel artwork (assets/background.png) 1:1.
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screenW = 1200
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screenH = 896
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// Game world is rendered to this offscreen, then scaled into the LCD cutout.
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lcdW = 240
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lcdH = 136
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// Olive LCD screen rectangle within the bezel image (measured from the PNG).
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lcdScreenX = 331
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lcdScreenY = 203
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lcdScreenW = 537
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lcdScreenH = 399
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nLanes = 5
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horizonY = 28.0
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horizonX = 120.0
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playerY = 116.0
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maxMiss = 3
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)
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var laneX = [nLanes]float32{40, 80, 120, 160, 200}
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// How the lcdW×lcdH world maps onto the bezel's LCD cutout (uniform fit, centered).
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var (
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lcdScale = float64(lcdScreenW) / float64(lcdW)
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lcdDrawX = float64(lcdScreenX)
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lcdDrawY = float64(lcdScreenY) + (float64(lcdScreenH)-float64(lcdH)*lcdScale)/2
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)
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// LCD palette — lcdBg matches the bezel's printed screen olive so the
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// letterboxed margins blend into the case art.
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var (
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lcdBg = color.RGBA{0xbf, 0xc2, 0xa3, 0xff} // bezel screen olive
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lcdFg = color.RGBA{0x1a, 0x1c, 0x2c, 0xff}
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lcdDim = color.RGBA{0x6a, 0x76, 0x6e, 0xff}
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)
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//go:embed assets/background.png assets/scooter.png assets/rabbit_f0.png assets/rabbit_f1.png assets/rabbit_f2.png assets/rabbit_f3.png
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var assetsFS embed.FS
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var (
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bgImg *ebiten.Image
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scooterImg *ebiten.Image
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rabbitImgs [4]*ebiten.Image
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)
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var bezelFontSource *text.GoTextFaceSource
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func loadImg(name string) *ebiten.Image {
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f, err := assetsFS.Open(name)
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if err != nil {
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log.Fatal(err)
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}
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defer f.Close()
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img, err := png.Decode(f)
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if err != nil {
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log.Fatal(err)
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}
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return ebiten.NewImageFromImage(img)
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}
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func init() {
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s, err := text.NewGoTextFaceSource(bytes.NewReader(gobold.TTF))
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if err != nil {
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log.Fatal(err)
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}
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bezelFontSource = s
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bgImg = loadImg("assets/background.png")
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scooterImg = loadImg("assets/scooter.png")
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for i := range rabbitImgs {
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rabbitImgs[i] = loadImg(fmt.Sprintf("assets/rabbit_f%d.png", i))
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}
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}
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type stateKind int
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const (
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stateTitle stateKind = iota
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statePlay
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stateOver
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)
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type rabbit struct {
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lane int
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t float64
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speed float64
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}
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type Game struct {
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state stateKind
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playerLane int
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score int
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miss int
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rabbits []*rabbit
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spawnTimer int
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frame int
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flash int
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lcdImg *ebiten.Image
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hudFont *text.GoTextFace
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}
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func newGame() *Game {
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return &Game{
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state: stateTitle,
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playerLane: 2,
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lcdImg: ebiten.NewImage(lcdW, lcdH),
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hudFont: &text.GoTextFace{Source: bezelFontSource, Size: 8},
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}
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}
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func (g *Game) reset() {
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g.playerLane = 2
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g.score = 0
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g.miss = 0
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g.rabbits = g.rabbits[:0]
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g.spawnTimer = 0
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g.flash = 0
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}
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// btnp(key, hold, period): fires on press, then every `period` frames after held for `hold` frames.
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func pressedRepeat(key ebiten.Key, hold, period int) bool {
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if inpututil.IsKeyJustPressed(key) {
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return true
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}
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d := inpututil.KeyPressDuration(key)
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if d > hold && (d-hold)%period == 0 {
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return true
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}
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return false
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}
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func startPressed() bool {
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return inpututil.IsKeyJustPressed(ebiten.KeyZ) ||
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inpututil.IsKeyJustPressed(ebiten.KeySpace) ||
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inpututil.IsKeyJustPressed(ebiten.KeyEnter)
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}
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func (g *Game) spawnRabbit() {
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r := &rabbit{
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lane: rand.Intn(nLanes),
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t: 0,
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speed: 0.010 + rand.Float64()*0.006 + math.Min(float64(g.score), 60)*0.0002,
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}
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g.rabbits = append(g.rabbits, r)
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}
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func rabbitPos(r *rabbit) (float32, float32) {
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endX := float64(laneX[r.lane])
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endY := playerY - 6.0
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x := horizonX + (endX-horizonX)*(r.t*r.t)
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y := horizonY + (endY-horizonY)*r.t
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hop := math.Abs(math.Sin(r.t*14)) * (2 + r.t*4)
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return float32(x), float32(y - hop)
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}
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func (g *Game) updatePlay() {
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if pressedRepeat(ebiten.KeyLeft, 12, 6) && g.playerLane > 0 {
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g.playerLane--
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}
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if pressedRepeat(ebiten.KeyRight, 12, 6) && g.playerLane < nLanes-1 {
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g.playerLane++
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}
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g.spawnTimer++
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interval := 70 - g.score/2
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if interval < 22 {
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interval = 22
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}
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if g.spawnTimer >= interval {
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g.spawnTimer = 0
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g.spawnRabbit()
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}
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for i := len(g.rabbits) - 1; i >= 0; i-- {
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r := g.rabbits[i]
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r.t += r.speed
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if r.t >= 1 {
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if r.lane == g.playerLane {
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g.miss++
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g.flash = 12
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if g.miss >= maxMiss {
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g.state = stateOver
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}
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} else {
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g.score++
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}
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g.rabbits = append(g.rabbits[:i], g.rabbits[i+1:]...)
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}
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}
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if g.flash > 0 {
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g.flash--
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}
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}
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// --- drawing primitives wrapping ebiten/vector ---
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func px(dst *ebiten.Image, x, y float32, c color.Color) {
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vector.DrawFilledRect(dst, x, y, 1, 1, c, false)
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}
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func line(dst *ebiten.Image, x1, y1, x2, y2 float32, c color.Color) {
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vector.StrokeLine(dst, x1, y1, x2, y2, 1, c, false)
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}
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func rectFill(dst *ebiten.Image, x, y, w, h float32, c color.Color) {
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vector.DrawFilledRect(dst, x, y, w, h, c, false)
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}
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func rectStroke(dst *ebiten.Image, x, y, w, h float32, c color.Color) {
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vector.StrokeRect(dst, x, y, w, h, 1, c, false)
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}
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func circFill(dst *ebiten.Image, cx, cy, r float32, c color.Color) {
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vector.DrawFilledCircle(dst, cx, cy, r, c, false)
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}
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func circStroke(dst *ebiten.Image, cx, cy, r float32, c color.Color) {
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vector.StrokeCircle(dst, cx, cy, r, 1, c, false)
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}
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func drawText(dst *ebiten.Image, s string, x, y float64, face text.Face, c color.Color) {
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opts := &text.DrawOptions{}
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opts.GeoM.Translate(x, y)
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opts.ColorScale.ScaleWithColor(c)
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text.Draw(dst, s, face, opts)
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}
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func drawTextCentered(dst *ebiten.Image, s string, cx, y float64, face text.Face, c color.Color) {
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w, _ := text.Measure(s, face, 0)
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drawText(dst, s, cx-w/2, y, face, c)
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}
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func drawTextRight(dst *ebiten.Image, s string, rx, y float64, face text.Face, c color.Color) {
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w, _ := text.Measure(s, face, 0)
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drawText(dst, s, rx-w, y, face, c)
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}
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// --- scene drawing ---
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func (g *Game) drawRoad(dst *ebiten.Image) {
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// trapezoidal road outline
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line(dst, horizonX-20, horizonY, 0, 136, lcdFg)
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line(dst, horizonX+20, horizonY, 239, 136, lcdFg)
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// shoulder hash marks (perspective)
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for i := 1; i <= 6; i++ {
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t := float32(i) / 7.0
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y := float32(horizonY) + (136-float32(horizonY))*t
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lx := (float32(horizonX) - 20) + (0-(float32(horizonX)-20))*t
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rx := (float32(horizonX) + 20) + (239-(float32(horizonX)+20))*t
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px(dst, lx-1, y, lcdDim)
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px(dst, rx+1, y, lcdDim)
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}
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// LCD tree silhouette on the left shoulder
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drawLcdTree(dst, 14, 70)
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}
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func drawLcdTree(dst *ebiten.Image, x, y float32) {
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// trunk
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rectFill(dst, x+3, y, 3, 10, lcdFg)
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// blobby canopy
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circFill(dst, x+4, y-3, 5, lcdFg)
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circFill(dst, x+8, y-1, 4, lcdFg)
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circFill(dst, x, y-1, 4, lcdFg)
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circFill(dst, x+5, y-7, 3, lcdFg)
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}
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func (g *Game) drawHud(dst *ebiten.Image) {
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drawText(dst, "PONT", 4, 2, g.hudFont, lcdFg)
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drawText(dst, fmt.Sprintf("%03d", g.score), 32, 2, g.hudFont, lcdFg)
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// Reserve fixed slot for miss markers on the right
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missSlotRight := float64(lcdW - 4)
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missSlotX := missSlotRight - float64(maxMiss*8)
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drawTextRight(dst, "HIBA", missSlotX-2, 2, g.hudFont, lcdFg)
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for i := 0; i < g.miss; i++ {
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drawText(dst, "X", missSlotX+float64(i*8), 2, g.hudFont, lcdFg)
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}
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}
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// blitH draws img scaled to targetH pixels tall, anchored so (cx,cy) is the
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// horizontal center / vertical bottom of the sprite. Nearest filtering keeps
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// the LCD pixels crisp.
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func blitH(dst, img *ebiten.Image, cx, cy, targetH float32) {
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b := img.Bounds()
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s := float64(targetH) / float64(b.Dy())
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op := &ebiten.DrawImageOptions{}
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op.GeoM.Scale(s, s)
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op.GeoM.Translate(float64(cx)-float64(b.Dx())*s/2, float64(cy)-float64(b.Dy())*s)
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dst.DrawImage(img, op)
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}
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func drawRabbit(dst *ebiten.Image, x, y float32, t float64) {
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// Grows from far (small) to near (large); the hop cycle picks one of 4 frames.
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h := float32(6 + t*22)
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frame := rabbitImgs[int(t*16)%len(rabbitImgs)]
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blitH(dst, frame, x, y+h/2, h)
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}
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func (g *Game) drawScooter(dst *ebiten.Image, x, y float32, blink bool) {
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if blink && (g.frame/4)%2 == 0 {
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return
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}
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blitH(dst, scooterImg, x, y+8, 24)
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}
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func (g *Game) drawPlay(dst *ebiten.Image) {
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dst.Fill(lcdBg)
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g.drawRoad(dst)
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g.drawHud(dst)
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// draw far rabbits first
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sort.Slice(g.rabbits, func(i, j int) bool { return g.rabbits[i].t < g.rabbits[j].t })
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for _, r := range g.rabbits {
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x, y := rabbitPos(r)
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drawRabbit(dst, x, y, r.t)
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}
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g.drawScooter(dst, laneX[g.playerLane], playerY, g.flash > 0)
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}
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func (g *Game) drawTitle(dst *ebiten.Image) {
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dst.Fill(lcdBg)
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g.drawRoad(dst)
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// preview scooters
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for i := 0; i < nLanes; i++ {
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g.drawScooter(dst, laneX[i], playerY, false)
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}
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// demo rabbits
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for i := 1; i <= 3; i++ {
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fake := &rabbit{
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lane: (g.frame/30 + i) % nLanes,
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t: float64((g.frame+i*25)%90) / 90.0,
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}
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x, y := rabbitPos(fake)
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drawRabbit(dst, x, y, fake.t)
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}
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if (g.frame/30)%2 == 0 {
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drawTextCentered(dst, "NYOMJ Z-T A KEZDÉSHEZ", 120, 56, g.hudFont, lcdFg)
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}
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drawTextCentered(dst, "NYILAK MOZGÁS Z START", 120, 72, g.hudFont, lcdFg)
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}
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func (g *Game) drawOver(dst *ebiten.Image) {
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g.drawPlay(dst)
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rectFill(dst, 60, 50, 120, 36, lcdBg)
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rectStroke(dst, 60, 50, 120, 36, lcdFg)
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drawTextCentered(dst, "VÉGE", 120, 54, g.hudFont, lcdFg)
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drawTextCentered(dst, fmt.Sprintf("PONT %03d", g.score), 120, 66, g.hudFont, lcdFg)
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if (g.frame/30)%2 == 0 {
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drawTextCentered(dst, "Z = ÚJRA", 120, 76, g.hudFont, lcdFg)
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}
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}
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// --- ebiten Game interface ---
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func (g *Game) Update() error {
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g.frame++
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switch g.state {
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case stateTitle:
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if startPressed() {
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g.reset()
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g.state = statePlay
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}
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case statePlay:
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g.updatePlay()
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case stateOver:
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if startPressed() {
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g.reset()
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g.state = statePlay
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}
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}
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return nil
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}
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func (g *Game) Draw(screen *ebiten.Image) {
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// Bezel artwork fills the whole logical screen 1:1.
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screen.DrawImage(bgImg, nil)
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switch g.state {
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case stateTitle:
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g.drawTitle(g.lcdImg)
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case statePlay:
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g.drawPlay(g.lcdImg)
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case stateOver:
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g.drawOver(g.lcdImg)
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}
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// Scale the game world into the bezel's LCD cutout.
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opts := &ebiten.DrawImageOptions{}
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opts.GeoM.Scale(lcdScale, lcdScale)
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opts.GeoM.Translate(lcdDrawX, lcdDrawY)
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screen.DrawImage(g.lcdImg, opts)
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}
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func (g *Game) Layout(_, _ int) (int, int) {
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return screenW, screenH
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}
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func main() {
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ebiten.SetWindowSize(900, 672)
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ebiten.SetWindowTitle("Rabbit Roller")
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ebiten.SetWindowResizingMode(ebiten.WindowResizingModeEnabled)
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if err := ebiten.RunGame(newGame()); err != nil {
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log.Fatal(err)
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}
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}
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