Script | Do Simulador De Lavagem De Pressao

class CleanableSurface: float dirt_map[1024][1024] // Virtual texture for dirt (0=clean, 1=mud) float base_resistance // 0.2 (dust) to 0.9 (caked mud) float stain_type // Enum: MUD, OIL, RUST, MOSS function Clean(power, hit_point, angle): // Convert world hit to UV coordinate Vector2 uv = WorldToUV(hit_point) float radius = CalculateSplashRadius(angle) // Inches float total_cleaned = 0.0 for x in -radius to +radius: for y in -radius to +radius: float current_dirt = dirt_map[uv.x + x][uv.y + y] if current_dirt > 0: // Effective cleaning per tick float cleaning_rate = power * delta_time * 0.01 if stain_type == OIL and current_temp > 70: cleaning_rate *= 2.0 // Hot water melts oil float removed = Min(current_dirt, cleaning_rate) dirt_map[uv.x + x][uv.y + y] -= removed total_cleaned += removed // Update visual mesh/material UpdateDecalTexture(dirt_map) return total_cleaned

// --- UI & Progression --- int player_score = 0 int current_level = 1 float combo_timer = 0.0 // Timer for consecutive cleaning bool is_overheated = false Executed when the level loads or the simulator resets. Script do Simulador de Lavagem de Pressao

// Overheat logic if current_temp >= 100.0: is_overheated = true ForceStopSpray() PlaySound("overheat_alarm") ShowMessage("Machine Overheated! Wait to cool down.") MOSS function Clean(power

// Soap effect: reduces dirt resistance for a few seconds if active_nozzle == NozzleType.SOAP: hit_surface.temp_dirt_resistance *= 0.7 Script do Simulador de Lavagem de Pressao

if IsSpraying(): current_temp += heat_generated else: current_temp -= cooling