function OnTriggerHeld(delta_time, hit_point, hit_surface): if fuel_level <= 0.0: PlaySound("engine_sputter") ShowWarning("Out of Fuel!") return if is_overheated == true: return // Block spraying until cooldown
// Soap effect: reduces dirt resistance for a few seconds if active_nozzle == NozzleType.SOAP: hit_surface.temp_dirt_resistance *= 0.7
// Clamp limits current_temp = Clamp(current_temp, 20.0, 100.0) Script do Simulador de Lavagem de Pressao
if is_overheated and current_temp <= 70.0: is_overheated = false ShowMessage("Machine cooled. Ready to spray.") function RefillResources(): // Called at refill stations fuel_level = 100.0 soap_level = 100.0 current_temp = 40.0 // Reset to warm but not hot PlaySound("refill_click") Each cleanable object (wall, floor, vehicle) follows this interface.
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 Conclusion This script provides a robust foundation for
if combo_counter >= 10: combo_multiplier = 1.5 if combo_counter >= 25: combo_multiplier = 2.0 if combo_counter >= 50: combo_multiplier = 3.0 else: // Called every frame: decrement timer combo_timer -= delta_time if combo_timer <= 0.0: combo_counter = 0 combo_multiplier = 1.0 function OnLevelComplete(): int bonus = player_score * (fuel_level / 100) // Fuel efficiency bonus int total = player_score + bonus UnlockNextLevel() ShowScoreScreen(total) class UpgradeManager: int coins = 0 // Upgrade paths float pressure_upgrade = 1.0 // Multiplier: 1.0, 1.2, 1.5, 2.0 float heat_upgrade = 1.0 // Max temp: 100, 120, 150°C float fuel_capacity = 1.0 // Multiplier
function PurchaseUpgrade(upgrade_id): int cost = GetUpgradeCost(upgrade_id) if coins >= cost: coins -= cost switch upgrade_id: case "Pressure+": pressure_upgrade += 0.2 current_psi = 1200 * pressure_upgrade case "Heater+": heat_upgrade += 0.25 max_temp = 100 * heat_upgrade case "Fuel Tank": fuel_capacity += 0.3 max_fuel = 100 * fuel_capacity SaveProgress() return true else: PlaySound("error_deny") return false // Called when a surface reaches 100% clean function OnSurfaceCleaned(surface): PlaySound("achievement_ding") SpawnParticles("sparkle", surface.center) player_score += 500 // Completion bonus CheckAllSurfaces() // See if level is done // Debug console commands function DebugCommand(command): if command == "refill": RefillResources() if command == "max_power": current_psi = 5000 if command == "complete_level": for each surface in scene_surfaces: surface.dirt_amount = 0.0 10. Conclusion This script provides a robust foundation for a Pressure Washer Simulator. It balances arcade feedback (combo system, score) with mechanical simulation (overheating, fuel, nozzle selection). The modular design allows easy expansion for new dirt types (chewing gum, graffiti) or power-ups (turbo boost, foam cannon). float temp_mod = 1
float temp_mod = 1.0 if current_temp > 60.0: // Hot water bonus temp_mod = 1.0 + (current_temp - 60.0) / 100.0