add offline mode for solo play with local game state simulation
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Sebastian Unterschütz
@@ -185,9 +185,14 @@ func (g *Game) UpdateGame() {
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}
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// --- 5. INPUT SENDEN (MIT CLIENT PREDICTION, 20 TPS) ---
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if g.connected && time.Since(g.lastInputTime) >= physicsStep {
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if (g.connected || g.isOffline) && time.Since(g.lastInputTime) >= physicsStep {
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g.lastInputTime = time.Now()
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// Offline: Update Scroll & World logic locally
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if g.isOffline {
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g.updateOfflineLoop()
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}
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g.predictionMutex.Lock()
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wasOnGround := g.predictedGround
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g.predictionMutex.Unlock()
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@@ -27,8 +27,10 @@ func (g *Game) drawGameOverScreen(screen *ebiten.Image, myScore int) {
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screen.Fill(color.RGBA{20, 20, 30, 255})
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// Leaderboard immer beim ersten Mal anfordern (ohne Lock hier!)
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if !g.scoreSubmitted && g.gameMode == "solo" {
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if !g.scoreSubmitted && g.gameMode == "solo" && !g.isOffline {
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g.submitScore() // submitScore() ruft requestLeaderboard() auf
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} else if !g.scoreSubmitted && g.gameMode == "solo" && g.isOffline {
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// Offline-Solo: Keine automatische Submission
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} else {
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// Für Coop: Nur Leaderboard anfordern, nicht submitten
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g.leaderboardMutex.Lock()
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@@ -169,6 +171,9 @@ func (g *Game) drawGameOverScreen(screen *ebiten.Image, myScore int) {
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} else if g.gameMode == "solo" && g.scoreSubmitted {
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// Solo: Zeige Bestätigungsmeldung
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text.Draw(screen, "✓ Runde verifiziert & Score eingereicht!", basicfont.Face7x13, ScreenWidth/2-110, ScreenHeight-100, color.RGBA{0, 255, 0, 255})
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} else if g.gameMode == "solo" && g.isOffline {
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// Offline Solo
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text.Draw(screen, "Offline-Modus: Score lokal gespeichert.", basicfont.Face7x13, ScreenWidth/2-110, ScreenHeight-100, color.RGBA{200, 200, 0, 255})
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} else if g.gameMode == "coop" && !g.isHost {
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// Coop Non-Host: Warten auf Host
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text.Draw(screen, "Warte auf Host...", basicfont.Face7x13, ScreenWidth/2-70, ScreenHeight-100, color.Gray{180})
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@@ -73,6 +73,7 @@ type Game struct {
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roomID string
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activeField string // "name" oder "room" oder "teamname"
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gameMode string // "solo" oder "coop"
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isOffline bool // Läuft das Spiel lokal ohne Server?
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isHost bool
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teamName string // Team-Name für Coop beim Game Over
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@@ -351,15 +352,13 @@ func (g *Game) updateMenu() {
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btnY := ScreenHeight/2 - 20
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if isHit(soloX, btnY, btnW, btnH) {
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// SOLO MODE
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// SOLO MODE (Offline by default)
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if g.playerName == "" {
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g.playerName = "Player"
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}
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g.gameMode = "solo"
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g.roomID = fmt.Sprintf("solo_%d", time.Now().UnixNano())
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g.isHost = true
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g.appState = StateGame
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go g.connectAndStart()
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g.startOfflineGame()
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} else if isHit(coopX, btnY, btnW, btnH) {
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// CO-OP MODE
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if g.playerName == "" {
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@@ -926,6 +925,10 @@ func (g *Game) SendCommand(cmdType string) {
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func (g *Game) SendInputWithSequence(input InputState) {
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if !g.connected {
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// Im Offline-Modus den Jump-Sound trotzdem lokal abspielen
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if input.Jump && g.isOffline {
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g.audio.PlayJump()
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}
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return
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}
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128
cmd/client/offline_logic.go
Normal file
128
cmd/client/offline_logic.go
Normal file
@@ -0,0 +1,128 @@
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package main
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import (
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"log"
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"math/rand"
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"time"
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"git.zb-server.de/ZB-Server/EscapeFromTeacher/pkg/config"
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"git.zb-server.de/ZB-Server/EscapeFromTeacher/pkg/game"
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)
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// startOfflineGame initialisiert eine lokale Spielrunde ohne Server
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func (g *Game) startOfflineGame() {
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g.resetForNewGame()
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g.isOffline = true
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g.connected = false // Explizit offline
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g.appState = StateGame
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// Initialen GameState lokal erstellen
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g.stateMutex.Lock()
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g.gameState = game.GameState{
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Status: "RUNNING",
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RoomID: "offline_solo",
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Players: make(map[string]game.PlayerState),
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WorldChunks: []game.ActiveChunk{{ChunkID: "start", X: 0}},
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CurrentSpeed: config.RunSpeed,
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DifficultyFactor: 0,
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}
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// Lokalen Spieler hinzufügen
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g.gameState.Players[g.playerName] = game.PlayerState{
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ID: g.playerName,
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Name: g.playerName,
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X: 100,
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Y: 200,
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IsAlive: true,
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}
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g.stateMutex.Unlock()
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// Initialer Chunk-Library Check
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if len(g.world.ChunkLibrary) == 0 {
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log.Println("⚠️ Warnung: Keine Chunks in Library geladen!")
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}
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g.roundStartTime = time.Now()
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g.predictedX = 100
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g.predictedY = 200
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g.currentSpeed = config.RunSpeed
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g.audio.PlayMusic()
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g.notifyGameStarted()
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log.Println("🕹️ Offline-Modus gestartet")
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}
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// updateOfflineLoop simuliert die Server-Logik lokal
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func (g *Game) updateOfflineLoop() {
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if !g.isOffline || g.gameState.Status != "RUNNING" {
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return
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}
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g.stateMutex.Lock()
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defer g.stateMutex.Unlock()
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elapsed := time.Since(g.roundStartTime).Seconds()
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// 1. Schwierigkeit & Speed (analog zu pkg/server/room.go)
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g.gameState.DifficultyFactor = elapsed / config.MaxDifficultySeconds
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if g.gameState.DifficultyFactor > 1.0 {
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g.gameState.DifficultyFactor = 1.0
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}
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speedIncrease := g.gameState.DifficultyFactor * g.gameState.DifficultyFactor * 18.0
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g.gameState.CurrentSpeed = config.RunSpeed + speedIncrease
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g.currentSpeed = g.gameState.CurrentSpeed
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// 2. Scrolling
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g.gameState.ScrollX += g.currentSpeed
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// 3. Chunks nachladen
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// Wenn das Ende der Map nah am rechten Rand ist, neuen Chunk spawnen
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mapEnd := 0.0
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for _, c := range g.gameState.WorldChunks {
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chunkDef := g.world.ChunkLibrary[c.ChunkID]
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end := c.X + float64(chunkDef.Width*config.TileSize)
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if end > mapEnd {
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mapEnd = end
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}
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}
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if mapEnd < g.gameState.ScrollX+2500 {
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g.spawnOfflineChunk(mapEnd)
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}
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// 4. Entferne alte Chunks (links aus dem Bild)
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if len(g.gameState.WorldChunks) > 5 {
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// Behalte immer mindestens die letzten paar Chunks
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if g.gameState.WorldChunks[0].X < g.gameState.ScrollX-2000 {
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g.gameState.WorldChunks = g.gameState.WorldChunks[1:]
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}
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}
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// 5. Score Update (Distanz)
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p, ok := g.gameState.Players[g.playerName]
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if ok && p.IsAlive {
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// Grobe Score-Simulation
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p.Score = int(g.gameState.ScrollX / 10)
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g.gameState.Players[g.playerName] = p
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}
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}
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func (g *Game) spawnOfflineChunk(atX float64) {
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// Zufälligen Chunk wählen
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var pool []string
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for id := range g.world.ChunkLibrary {
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if id != "start" {
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pool = append(pool)
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pool = append(pool, id)
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}
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}
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if len(pool) > 0 {
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randomID := pool[rand.Intn(len(pool))]
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g.gameState.WorldChunks = append(g.gameState.WorldChunks, game.ActiveChunk{
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ChunkID: randomID,
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X: atX,
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})
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}
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}
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