4be6cc791e
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- Remove unused `StartWebSocketGateway` function from `websocket_gateway.go`. - Add security checks to track player-room mapping, enforce valid input, and prevent ID spoofing in `gateway.go`. - Refactor touch control logic to dynamically position joystick and buttons above gameplay floor. - Introduce dynamic floor Y-coordinate calculation (`GetFloorYFromHeight`) for better scaling across different screen sizes. - Adjust rendering logic to align assets, particles, and debug visuals with dynamic screen height transformations. - Update canvas CSS to support fullscreen scaling without center alignment.
186 lines
6.0 KiB
Go
186 lines
6.0 KiB
Go
package main
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import (
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"image/color"
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"math"
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"math/rand"
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"github.com/hajimehoshi/ebiten/v2"
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"github.com/hajimehoshi/ebiten/v2/vector"
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)
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// GroundTile repräsentiert ein Boden-Segment
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type GroundTile struct {
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X float64
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DirtVariants []DirtPatch
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Stones []Stone
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}
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// DirtPatch ist ein Dirt-Fleck im Boden
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type DirtPatch struct {
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OffsetX float64
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OffsetY float64
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Width float64
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Height float64
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Color color.RGBA
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}
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// Stone ist ein Stein auf dem Boden
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type Stone struct {
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X float64
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Y float64
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Size float64
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Color color.RGBA
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Shape int // 0=rund, 1=eckig
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}
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// GroundCache speichert generierte Tiles
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var groundCache = make(map[int]GroundTile)
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// ClearGroundCache leert den Cache (z.B. bei Änderungen)
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func ClearGroundCache() {
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groundCache = make(map[int]GroundTile)
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}
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// GenerateGroundTile generiert ein prozedurales Boden-Segment (gecacht)
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func GenerateGroundTile(tileIdx int) GroundTile {
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// Prüfe Cache
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if cached, exists := groundCache[tileIdx]; exists {
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return cached
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}
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// Deterministischer Seed basierend auf Tile-Index
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rng := rand.New(rand.NewSource(int64(tileIdx * 12345)))
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tile := GroundTile{
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X: float64(tileIdx) * 128.0,
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DirtVariants: make([]DirtPatch, 0),
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Stones: make([]Stone, 0),
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}
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// Zufällige Dirt-Patches generieren (15-25 pro Tile, kompakt)
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numDirt := 15 + rng.Intn(10)
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maxDirtHeight := 100.0 // Kompakte Erde-Tiefe (100px)
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for i := 0; i < numDirt; i++ {
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darkness := uint8(70 + rng.Intn(40)) // Verschiedene Brauntöne
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tile.DirtVariants = append(tile.DirtVariants, DirtPatch{
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OffsetX: rng.Float64() * 128,
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OffsetY: rng.Float64()*maxDirtHeight + 20, // Nur im sichtbaren Bereich
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Width: 10 + rng.Float64()*30,
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Height: 10 + rng.Float64()*25,
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Color: color.RGBA{darkness, darkness - 10, darkness - 20, 255},
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})
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}
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// Steine IN der Erde generieren (20-30 pro Tile, nur eckig, kompakt)
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numStones := 20 + rng.Intn(10)
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for i := 0; i < numStones; i++ {
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tile.Stones = append(tile.Stones, Stone{
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X: rng.Float64() * 128,
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Y: rng.Float64()*maxDirtHeight + 20, // Nur im sichtbaren Bereich
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Size: 4 + rng.Float64()*8, // Verschiedene Größen
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Color: color.RGBA{100 + uint8(rng.Intn(50)), 100 + uint8(rng.Intn(50)), 100 + uint8(rng.Intn(50)), 255},
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Shape: 1, // Nur eckig (keine runden Steine mehr)
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})
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}
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// In Cache speichern
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groundCache[tileIdx] = tile
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return tile
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}
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// RenderGround rendert den Boden mit Bewegung
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func (g *Game) RenderGround(screen *ebiten.Image, cameraX float64) {
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// Tatsächliche Canvas-Größe verwenden
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canvasW, canvasH := screen.Size()
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// Gameplay-Boden-Position (wo Spieler laufen) - mit echter Canvas-Höhe!
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gameFloorY := float32(GetFloorYFromHeight(canvasH))
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// Erde-Tiefe - kompakt (100px) damit Gameplay optimal Platz hat
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maxDirtDepth := float32(100.0)
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// Berechne wie viel Erde sichtbar sein soll (bis zum Bildschirmrand)
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remainingSpace := float32(canvasH) - gameFloorY
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visibleDirtHeight := maxDirtDepth
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if remainingSpace < maxDirtDepth {
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visibleDirtHeight = remainingSpace
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}
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// 1. Basis Gras-Schicht (volle Canvas-Breite, nur dünne Grasnarbe)
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vector.DrawFilledRect(screen, 0, gameFloorY, float32(canvasW), 20, ColGrass, false)
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// 2. Dirt-Schicht (Basis, volle Canvas-Breite, nur sichtbarer Bereich)
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if visibleDirtHeight > 20 {
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vector.DrawFilledRect(screen, 0, gameFloorY+20, float32(canvasW), visibleDirtHeight-20, ColDirt, false)
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}
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// 3. Prozedurale Dirt-Patches und Steine (bewegen sich mit Kamera)
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// Berechne welche Tiles sichtbar sind (basierend auf Canvas-Breite)
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tileWidth := 128.0
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startTile := int(math.Floor(cameraX / tileWidth))
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endTile := int(math.Ceil((cameraX + float64(canvasW)) / tileWidth))
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// Tiles rendern
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for tileIdx := startTile; tileIdx <= endTile; tileIdx++ {
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tile := GenerateGroundTile(tileIdx)
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// Dirt-Patches rendern
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for _, dirt := range tile.DirtVariants {
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worldX := tile.X + dirt.OffsetX
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screenX := float32(worldX - cameraX)
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screenY := gameFloorY + float32(dirt.OffsetY)
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// Nur rendern wenn im sichtbaren Bereich (Canvas-Breite verwenden)
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if screenX+float32(dirt.Width) > 0 && screenX < float32(canvasW) {
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vector.DrawFilledRect(screen, screenX, screenY, float32(dirt.Width), float32(dirt.Height), dirt.Color, false)
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}
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}
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// Steine rendern (in der Erde)
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for _, stone := range tile.Stones {
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worldX := tile.X + stone.X
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screenX := float32(worldX - cameraX)
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screenY := gameFloorY + float32(stone.Y)
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// Nur rendern wenn im sichtbaren Bereich (Canvas-Breite verwenden)
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if screenX > -20 && screenX < float32(canvasW)+20 {
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if stone.Shape == 0 {
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// Runder Stein
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vector.DrawFilledCircle(screen, screenX, screenY, float32(stone.Size/2), stone.Color, false)
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// Highlight für 3D-Effekt
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highlightCol := color.RGBA{
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uint8(math.Min(float64(stone.Color.R)+40, 255)),
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uint8(math.Min(float64(stone.Color.G)+40, 255)),
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uint8(math.Min(float64(stone.Color.B)+40, 255)),
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200,
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}
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vector.DrawFilledCircle(screen, screenX-float32(stone.Size*0.15), screenY-float32(stone.Size*0.15), float32(stone.Size/4), highlightCol, false)
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} else {
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// Eckiger Stein
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vector.DrawFilledRect(screen, screenX-float32(stone.Size/2), screenY-float32(stone.Size/2), float32(stone.Size), float32(stone.Size), stone.Color, false)
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// Schatten für 3D-Effekt
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shadowCol := color.RGBA{
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uint8(float64(stone.Color.R) * 0.6),
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uint8(float64(stone.Color.G) * 0.6),
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uint8(float64(stone.Color.B) * 0.6),
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150,
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}
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vector.DrawFilledRect(screen, screenX-float32(stone.Size/2)+2, screenY-float32(stone.Size/2)+2, float32(stone.Size), float32(stone.Size), shadowCol, false)
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// Original drüber
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vector.DrawFilledRect(screen, screenX-float32(stone.Size/2), screenY-float32(stone.Size/2), float32(stone.Size), float32(stone.Size), stone.Color, false)
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}
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}
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}
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}
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// Cache aufräumen (nur Tiles außerhalb des Sichtbereichs entfernen)
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if len(groundCache) > 100 {
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for idx := range groundCache {
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if idx < startTile-10 || idx > endTile+10 {
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delete(groundCache, idx)
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}
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}
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}
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}
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