slight sim change and engine code fomat

main/src/main/java/sd/engine/SimulationEngine.java

@@ -41,12 +41,14 @@ public class SimulationEngine {
     private final PriorityQueue<Event> eventQueue;
 
     /**
-     * A map storing all intersections in the simulation, keyed by their ID (e.g., "Cr1").
+     * A map storing all intersections in the simulation, keyed by their ID (e.g.,
+     * "Cr1").
      */
     private final Map<String, Intersection> intersections;
 
     /**
-     * Responsible for creating new vehicles according to the configured arrival model.
+     * Responsible for creating new vehicles according to the configured arrival
+     * model.
      */
     private final VehicleGenerator vehicleGenerator;
 
@@ -70,7 +72,7 @@ public class SimulationEngine {
      * Constructs a new SimulationEngine.
      *
      * @param config The {@link SimulationConfig} object containing all
-     * simulation parameters.
+     *               simulation parameters.
      */
     public SimulationEngine(SimulationConfig config) {
         this.config = config;
@@ -89,18 +91,18 @@ public class SimulationEngine {
      * @return The travel time in seconds.
      */
     private double calculateTravelTime(VehicleType vehicleType) {
-    double baseTime = config.getBaseTravelTime();
+        double baseTime = config.getBaseTravelTime();
 
-    switch (vehicleType) {
+        switch (vehicleType) {
-        case BIKE:
+            case BIKE:
-            return baseTime * config.getBikeTravelTimeMultiplier();
+                return baseTime * config.getBikeTravelTimeMultiplier();
-        case HEAVY:
+            case HEAVY:
-            return baseTime * config.getHeavyTravelTimeMultiplier();
+                return baseTime * config.getHeavyTravelTimeMultiplier();
-        case LIGHT:
+            case LIGHT:
-        default:
+            default:
-            return baseTime;
+                return baseTime;
+        }
     }
-}
 
     /**
      * Initializes the simulation. This involves:
@@ -128,9 +130,9 @@ public class SimulationEngine {
      * and adds their corresponding traffic lights.
      */
     private void setupIntersections() {
-        String[] intersectionIds = {"Cr1", "Cr2", "Cr3", "Cr4", "Cr5"};
+        String[] intersectionIds = { "Cr1", "Cr2", "Cr3", "Cr4", "Cr5" };
         // Note: "North" is commented out, so it won't be created.
-        String[] directions = {/*"North",*/ "South", "East", "West"};
+        String[] directions = { /* "North", */ "South", "East", "West" };
 
         for (String id : intersectionIds) {
             Intersection intersection = new Intersection(id);
@@ -141,11 +143,10 @@ public class SimulationEngine {
                 double redTime = config.getTrafficLightRedTime(id, direction);
 
                 TrafficLight light = new TrafficLight(
-                    id + "-" + direction,
+                        id + "-" + direction,
-                    direction,
+                        direction,
-                    greenTime,
+                        greenTime,
-                    redTime
+                        redTime);
-                );
 
                 intersection.addTrafficLight(light);
             }
@@ -157,7 +158,8 @@ public class SimulationEngine {
     /**
      * Configures how vehicles should be routed between intersections.
      * This hardcoded logic defines the "map" of the city.
-     * * For example, `intersections.get("Cr1").configureRoute("Cr2", "East");` means
+     * * For example, `intersections.get("Cr1").configureRoute("Cr2", "East");`
+     * means
      * "at intersection Cr1, any vehicle whose *next* destination is Cr2
      * should be sent to the 'East' traffic light queue."
      */
@@ -176,12 +178,12 @@ public class SimulationEngine {
         intersections.get("Cr3").configureRoute("S", "South"); // "S" is the exit
 
         // Cr4 routing
-        //intersections.get("Cr4").configureRoute("Cr1", "North");
+        // intersections.get("Cr4").configureRoute("Cr1", "North");
         intersections.get("Cr4").configureRoute("Cr5", "East");
 
         // Cr5 routing
-        //intersections.get("Cr5").configureRoute("Cr2", "North");
+        // intersections.get("Cr5").configureRoute("Cr2", "North");
-        //intersections.get("Cr5").configureRoute("Cr4", "West");
+        // intersections.get("Cr5").configureRoute("Cr4", "West");
         intersections.get("Cr5").configureRoute("S", "East"); // "S" is the exit
     }
 
@@ -206,9 +208,10 @@ public class SimulationEngine {
      * Creates and schedules a new {@link EventType#TRAFFIC_LIGHT_CHANGE} event.
      * The event is scheduled to occur at {@code currentTime + delay}.
      *
-     * @param light The {@link TrafficLight} that will change state.
+     * @param light          The {@link TrafficLight} that will change state.
      * @param intersectionId The ID of the intersection where the light is located.
-     * @param delay The time (in seconds) from {@code currentTime} when the change should occur.
+     * @param delay          The time (in seconds) from {@code currentTime} when the
+     *                       change should occur.
      */
     private void scheduleTrafficLightChange(TrafficLight light, String intersectionId, double delay) {
         double changeTime = currentTime + delay;
@@ -220,7 +223,8 @@ public class SimulationEngine {
      * Schedules the next {@link EventType#VEHICLE_GENERATION} event.
      * The time of the next arrival is determined by the {@link VehicleGenerator}.
      *
-     * @param baseTime The time from which to calculate the next arrival (usually {@code currentTime}).
+     * @param baseTime The time from which to calculate the next arrival (usually
+     *                 {@code currentTime}).
      */
     private void scheduleNextVehicleGeneration(double baseTime) {
         // Get the absolute time for the next arrival.
@@ -278,7 +282,8 @@ public class SimulationEngine {
 
     /**
      * Main event processing logic.
-     * Delegates the event to the appropriate handler method based on its {@link EventType}.
+     * Delegates the event to the appropriate handler method based on its
+     * {@link EventType}.
      *
      * @param event The {@link Event} to be processed.
      */
@@ -308,13 +313,14 @@ public class SimulationEngine {
      * at its first destination intersection.
      * 4. Schedules the *next* {@link EventType#VEHICLE_GENERATION} event.
      * (Note: This line is commented out in the original, which might be a bug,
-     * as it implies only one vehicle is ever generated. It should likely be active.)
+     * as it implies only one vehicle is ever generated. It should likely be
+     * active.)
      */
     private void handleVehicleGeneration() {
         Vehicle vehicle = vehicleGenerator.generateVehicle("V" + (++vehicleCounter), currentTime);
 
         System.out.printf("[t=%.2f] Vehicle %s generated (type=%s, route=%s)%n",
-            currentTime, vehicle.getId(), vehicle.getType(), vehicle.getRoute());
+                currentTime, vehicle.getId(), vehicle.getType(), vehicle.getRoute());
 
         // Register with statistics collector
         statisticsCollector.recordVehicleGeneration(vehicle, currentTime);
@@ -344,7 +350,8 @@ public class SimulationEngine {
      * current intersection using {@link Intersection#receiveVehicle(Vehicle)}.
      * 5. Attempts to process the vehicle immediately if its light is green.
      *
-     * @param event The arrival event, containing the {@link Vehicle} and intersection ID.
+     * @param event The arrival event, containing the {@link Vehicle} and
+     *              intersection ID.
      */
     private void handleVehicleArrival(Event event) {
         Vehicle vehicle = (Vehicle) event.getData();
@@ -357,7 +364,7 @@ public class SimulationEngine {
         }
 
         System.out.printf("[t=%.2f] Vehicle %s arrived at %s%n",
-            currentTime, vehicle.getId(), intersectionId);
+                currentTime, vehicle.getId(), intersectionId);
 
         // Record arrival time (used to calculate waiting time later)
         statisticsCollector.recordVehicleArrival(vehicle, intersectionId, currentTime);
@@ -379,7 +386,8 @@ public class SimulationEngine {
             return;
         }
 
-        // Add vehicle to the appropriate traffic light queue based on its next destination
+        // Add vehicle to the appropriate traffic light queue based on its next
+        // destination
         intersection.receiveVehicle(vehicle);
 
         // Try to process the vehicle immediately if its light is already green
@@ -390,18 +398,18 @@ public class SimulationEngine {
      * Checks if a newly arrived vehicle (or a vehicle in a queue
      * that just turned green) can start crossing.
      *
-     * @param vehicle The vehicle to process.
+     * @param vehicle      The vehicle to process.
      * @param intersection The intersection where the vehicle is.
      */
-    private void tryProcessVehicle(Vehicle vehicle, Intersection intersection) { //FIXME
+    private void tryProcessVehicle(Vehicle vehicle, Intersection intersection) { // FIXME
         // Find the direction (and light) this vehicle is queued at
         // This logic is a bit flawed: it just finds the *first* non-empty queue
         // A better approach would be to get the light from the vehicle's route
         String direction = intersection.getTrafficLights().stream()
-            .filter(tl -> tl.getQueueSize() > 0)
+                .filter(tl -> tl.getQueueSize() > 0)
-            .map(TrafficLight::getDirection)
+                .map(TrafficLight::getDirection)
-            .findFirst()
+                .findFirst()
-            .orElse(null);
+                .orElse(null);
 
         if (direction != null) {
             TrafficLight light = intersection.getTrafficLight(direction);
@@ -423,7 +431,7 @@ public class SimulationEngine {
      * 1. Calculates and records the vehicle's waiting time.
      * 2. Schedules an immediate {@link EventType#CROSSING_START} event.
      *
-     * @param vehicle The {@link Vehicle} that is crossing.
+     * @param vehicle      The {@link Vehicle} that is crossing.
      * @param intersection The {@link Intersection} it is crossing.
      */
     private void scheduleCrossing(Vehicle vehicle, Intersection intersection) {
@@ -451,7 +459,7 @@ public class SimulationEngine {
         double crossingTime = getCrossingTime(vehicle.getType());
 
         System.out.printf("[t=%.2f] Vehicle %s started crossing at %s (duration=%.2fs)%n",
-            currentTime, vehicle.getId(), intersectionId, crossingTime);
+                currentTime, vehicle.getId(), intersectionId, crossingTime);
 
         // Schedule the *end* of the crossing
         double endTime = currentTime + crossingTime;
@@ -463,7 +471,8 @@ public class SimulationEngine {
      * Handles {@link EventType#CROSSING_END}.
      * 1. Updates intersection and vehicle statistics.
      * 2. Checks the vehicle's *next* destination.
-     * 3. If the next destination is the exit ("S"), call {@link #handleVehicleExit(Vehicle)}.
+     * 3. If the next destination is the exit ("S"), call
+     * {@link #handleVehicleExit(Vehicle)}.
      * 4. Otherwise, schedule a {@link EventType#VEHICLE_ARRIVAL} event at the
      * *next* intersection, after some travel time.
      *
@@ -483,13 +492,14 @@ public class SimulationEngine {
         vehicle.addCrossingTime(crossingTime);
 
         System.out.printf("[t=%.2f] Vehicle %s finished crossing at %s%n",
-            currentTime, vehicle.getId(), intersectionId);
+                currentTime, vehicle.getId(), intersectionId);
 
         // Decide what to do next
         String nextDest = vehicle.getCurrentDestination();
         if (nextDest != null && !nextDest.equals("S")) {
             // Route to the *next* intersection
-            // Travel time varies by vehicle type: tmoto = 0.5 × tcarro, tcaminhão = 4 × tmoto
+            // Travel time varies by vehicle type: tmoto = 0.5 × tcarro, tcaminhão = 4 ×
+            // tmoto
             double travelTime = calculateTravelTime(vehicle.getType());
             double arrivalTime = currentTime + travelTime;
             Event arrivalEvent = new Event(arrivalTime, EventType.VEHICLE_ARRIVAL, vehicle, nextDest);
@@ -508,9 +518,9 @@ public class SimulationEngine {
      */
     private void handleVehicleExit(Vehicle vehicle) {
         System.out.printf("[t=%.2f] Vehicle %s exited the system (wait=%.2fs, travel=%.2fs)%n",
-            currentTime, vehicle.getId(), 
+                currentTime, vehicle.getId(),
-            vehicle.getTotalWaitingTime(), 
+                vehicle.getTotalWaitingTime(),
-            vehicle.getTotalTravelTime(currentTime));
+                vehicle.getTotalTravelTime(currentTime));
 
         // Record the exit for final statistics calculation
         statisticsCollector.recordVehicleExit(vehicle, currentTime);
@@ -519,7 +529,8 @@ public class SimulationEngine {
     /**
      * Handles {@link EventType#TRAFFIC_LIGHT_CHANGE}.
      * 1. Toggles the light's state (RED to GREEN or GREEN to RED).
-     * 2. If the light just turned GREEN, call {@link #processGreenLight(TrafficLight, Intersection)}
+     * 2. If the light just turned GREEN, call
+     * {@link #processGreenLight(TrafficLight, Intersection)}
      * to process any waiting vehicles.
      * 3. Schedules the *next* state change for this light based on its
      * green/red time duration.
@@ -532,13 +543,13 @@ public class SimulationEngine {
 
         // Toggle state
         TrafficLightState newState = (light.getState() == TrafficLightState.RED)
-            ? TrafficLightState.GREEN 
+                ? TrafficLightState.GREEN
-            : TrafficLightState.RED;
+                : TrafficLightState.RED;
 
         light.changeState(newState);
 
         System.out.printf("[t=%.2f] Traffic light %s changed to %s%n",
-            currentTime, light.getId(), newState);
+                currentTime, light.getId(), newState);
 
         // If changed to GREEN, process waiting vehicles
         if (newState == TrafficLightState.GREEN) {
@@ -550,8 +561,8 @@ public class SimulationEngine {
 
         // Schedule the *next* state change for this same light
         double nextChangeDelay = (newState == TrafficLightState.GREEN)
-            ? light.getGreenTime() 
+                ? light.getGreenTime()
-            : light.getRedTime();
+                : light.getRedTime();
 
         scheduleTrafficLightChange(light, intersectionId, nextChangeDelay);
     }
@@ -566,7 +577,7 @@ public class SimulationEngine {
      * processes the entire queue "instantaneously" at the moment
      * the light turns green.
      *
-     * @param light The {@link TrafficLight} that just turned green.
+     * @param light        The {@link TrafficLight} that just turned green.
      * @param intersection The {@link Intersection} where the light is.
      */
     private void processGreenLight(TrafficLight light, Intersection intersection) {
@@ -592,7 +603,8 @@ public class SimulationEngine {
     }
 
     /**
-     * Utility method to get the configured crossing time for a given {@link VehicleType}.
+     * Utility method to get the configured crossing time for a given
+     * {@link VehicleType}.
      *
      * @param type The type of vehicle.
      * @return The crossing time in seconds.
@@ -623,6 +635,7 @@ public class SimulationEngine {
 
     /**
      * Gets the current simulation time.
+     * 
      * @return The time in virtual seconds.
      */
     public double getCurrentTime() {
@@ -632,6 +645,7 @@ public class SimulationEngine {
     /**
      * Gets a map of all intersections in the simulation.
      * Returns a copy to prevent external modification.
+     * 
      * @return A {@link Map} of intersection IDs to {@link Intersection} objects.
      */
     public Map<String, Intersection> getIntersections() {
@@ -640,6 +654,7 @@ public class SimulationEngine {
 
     /**
      * Gets the statistics collector instance.
+     * 
      * @return The {@link StatisticsCollector}.
      */
     public StatisticsCollector getStatisticsCollector() {

main/src/main/resources/simulation.properties

@@ -46,54 +46,54 @@ simulation.arrival.fixed.interval=2.0
 # === TRAFFIC LIGHT TIMINGS ===
 # Format: trafficlight.<intersection>.<direction>.<state>=<seconds>
 
-# Intersection 1
+# Intersection 1 (Entry point - balanced)
-trafficlight.Cr1.North.green=30.0
+trafficlight.Cr1.North.green=20.0
-trafficlight.Cr1.North.red=30.0
+trafficlight.Cr1.North.red=40.0
-trafficlight.Cr1.South.green=30.0
+trafficlight.Cr1.South.green=20.0
-trafficlight.Cr1.South.red=30.0
+trafficlight.Cr1.South.red=40.0
-trafficlight.Cr1.East.green=30.0
+trafficlight.Cr1.East.green=20.0
-trafficlight.Cr1.East.red=30.0
+trafficlight.Cr1.East.red=40.0
-trafficlight.Cr1.West.green=30.0
+trafficlight.Cr1.West.green=20.0
-trafficlight.Cr1.West.red=30.0
+trafficlight.Cr1.West.red=40.0
 
-# Intersection 2
+# Intersection 2 (Main hub - shorter cycles, favor East-West)
-trafficlight.Cr2.North.green=25.0
+trafficlight.Cr2.North.green=12.0
-trafficlight.Cr2.North.red=35.0
+trafficlight.Cr2.North.red=36.0
-trafficlight.Cr2.South.green=25.0
+trafficlight.Cr2.South.green=12.0
-trafficlight.Cr2.South.red=35.0
+trafficlight.Cr2.South.red=36.0
-trafficlight.Cr2.East.green=35.0
+trafficlight.Cr2.East.green=18.0
-trafficlight.Cr2.East.red=25.0
+trafficlight.Cr2.East.red=30.0
-trafficlight.Cr2.West.green=35.0
+trafficlight.Cr2.West.green=18.0
-trafficlight.Cr2.West.red=25.0
+trafficlight.Cr2.West.red=30.0
 
-# Intersection 3
+# Intersection 3 (Path to exit - favor East)
-trafficlight.Cr3.North.green=30.0
+trafficlight.Cr3.North.green=15.0
 trafficlight.Cr3.North.red=30.0
-trafficlight.Cr3.South.green=30.0
+trafficlight.Cr3.South.green=15.0
 trafficlight.Cr3.South.red=30.0
-trafficlight.Cr3.East.green=30.0
+trafficlight.Cr3.East.green=20.0
-trafficlight.Cr3.East.red=30.0
+trafficlight.Cr3.East.red=25.0
-trafficlight.Cr3.West.green=30.0
+trafficlight.Cr3.West.green=15.0
 trafficlight.Cr3.West.red=30.0
 
-# Intersection 4
+# Intersection 4 (Favor East toward Cr5)
-trafficlight.Cr4.North.green=30.0
+trafficlight.Cr4.North.green=15.0
 trafficlight.Cr4.North.red=30.0
-trafficlight.Cr4.South.green=30.0
+trafficlight.Cr4.South.green=15.0
 trafficlight.Cr4.South.red=30.0
-trafficlight.Cr4.East.green=30.0
+trafficlight.Cr4.East.green=20.0
-trafficlight.Cr4.East.red=30.0
+trafficlight.Cr4.East.red=25.0
-trafficlight.Cr4.West.green=30.0
+trafficlight.Cr4.West.green=15.0
 trafficlight.Cr4.West.red=30.0
 
-# Intersection 5
+# Intersection 5 (Near exit - favor East)
-trafficlight.Cr5.North.green=30.0
+trafficlight.Cr5.North.green=15.0
 trafficlight.Cr5.North.red=30.0
-trafficlight.Cr5.South.green=30.0
+trafficlight.Cr5.South.green=15.0
 trafficlight.Cr5.South.red=30.0
-trafficlight.Cr5.East.green=30.0
+trafficlight.Cr5.East.green=22.0
-trafficlight.Cr5.East.red=30.0
+trafficlight.Cr5.East.red=23.0
-trafficlight.Cr5.West.green=30.0
+trafficlight.Cr5.West.green=15.0
 trafficlight.Cr5.West.red=30.0
 
 # === VEHICLE CONFIGURATION ===
@@ -118,4 +118,4 @@ vehicle.travel.time.heavy.multiplier=2.0
 # === STATISTICS ===
 
 # Interval between dashboard updates (seconds)
-statistics.update.interval=10.0
+statistics.update.interval=1.0