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base: leo:v0.7.0
Branches Tags
leo:main leo:dev leo:cleanup leo:javadoc leo:dev-ui-temp-merge leo:18-design-and-implement-ui leo:17-create-dashboardserver-process leo:16-integrate-threads-with-intersection-process leo:14-create-trafficlightthread-class leo:13-create-exit-node-process leo:12-implement-coordinatorgenerator-process leo:10-create-network-communication-classes leo:11-convert-intersection-to-standalone-process leo:9-design-message-protocol-specification leo:8-single-process-prototype leo:dash_test leo:leo leo:david leo:old
leo:v1.0.1 leo:v1.0.0 leo:v0.8.5 leo:v0.8.0 leo:v0.7.7 leo:snapshot-build leo:v0.7.6 leo:v0.7.5 leo:v0.7.0 leo:v0.6.5 leo:v0.2.3 leo:v0.2.2 leo:v0.2.1 leo:v0.2.0
...
compare: leo:v0.7.7
Branches Tags
leo:main leo:dev leo:cleanup leo:javadoc leo:dev-ui-temp-merge leo:18-design-and-implement-ui leo:17-create-dashboardserver-process leo:16-integrate-threads-with-intersection-process leo:14-create-trafficlightthread-class leo:13-create-exit-node-process leo:12-implement-coordinatorgenerator-process leo:10-create-network-communication-classes leo:11-convert-intersection-to-standalone-process leo:9-design-message-protocol-specification leo:8-single-process-prototype leo:dash_test leo:leo leo:david leo:old
leo:v1.0.1 leo:v1.0.0 leo:v0.8.5 leo:v0.8.0 leo:v0.7.7 leo:snapshot-build leo:v0.7.6 leo:v0.7.5 leo:v0.7.0 leo:v0.6.5 leo:v0.2.3 leo:v0.2.2 leo:v0.2.1 leo:v0.2.0

8 Commits
v0.7.0 ... v0.7.7

Author SHA1 Message Date
Leandro Afonso
173d9e54ce test: Reduce traffic light coordination test monitoring duration from 60s to 10s 2025-11-23 23:06:08 +00:00
Leandro Afonso
5202032471 feat: Dynamically set simulation log file path using OS temporary directory and remove isSimulationRunning method. 2025-11-23 23:03:07 +00:00
Leandro Afonso
46d148c9d5 Allow manual trigger for publish-release job 2025-11-23 22:23:13 +00:00
Leandro Afonso
0d85d010bf Sync CI with main branch 2025-11-23 22:14:10 +00:00
Leandro Afonso
906e958729 feat: Introduce Launcher class as the application entry point and update pom.xml to use it. 2025-11-23 21:53:52 +00:00
Leandro Afonso
19709f0d7a feat: update main class to sd.dashboard.DashboardUI in pom.xml configurations. 2025-11-23 21:29:38 +00:00
Leandro Afonso
13fa2f877d refactor: improve traffic light queue processing, add graceful intersection shutdown, and remove obsolete event and serialization classes. 2025-11-23 21:23:33 +00:00
Leandro Afonso
96c5680f41 moved start to dashboard + fixed holding queue - looped sleep might be fine in this case + better customization via CSS file 2025-11-22 23:52:51 +00:00
19 changed files with 1849 additions and 1093 deletions
Expand all files Collapse all files

69
.github/workflows/maven.yml vendored
View File

@@ -1,8 +1,9 @@
name: Java CI with Maven
on:
workflow_dispatch:
push:
branches: [ "main" ]
branches: [ "dev", "cleanup" ]
tags:
- 'v*.*.*'
pull_request:
@@ -11,51 +12,93 @@ on:
jobs:
build:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v4
- name: Set up JDK 17
uses: actions/setup-java@v4
with:
java-version: '17'
distribution: 'temurin'
cache: maven
- name: Build with Maven
run: mvn -B package
working-directory: main
- name: Upload built JAR
uses: actions/upload-artifact@v4
with:
name: package
path: main/target/*.jar
- name: Generate dependency graph
run: mvn -B -f main/pom.xml com.github.ferstl:depgraph-maven-plugin:4.0.1:graph
- name: Upload dependency graph artifact
uses: actions/upload-artifact@v4
with:
name: dependency-graph
path: main/target/**
build-windows:
runs-on: windows-latest
steps:
- uses: actions/checkout@v4
- name: Set up JDK 17
uses: actions/setup-java@v4
with:
java-version: '17'
distribution: 'temurin'
cache: maven
- name: Build with Maven (Skip Tests)
run: mvn -B package -DskipTests
working-directory: main
- name: Create JPackage App Image
shell: pwsh
run: |
New-Item -ItemType Directory -Force -Path "dist"
jpackage --name "DTSS" `
--input main/target `
--main-jar main-1.0-SNAPSHOT.jar `
--dest dist `
--type app-image `
--win-console
- name: Inject java.exe
shell: pwsh
run: |
$javaPath = (Get-Command java).Source
Copy-Item -Path $javaPath -Destination "dist/DTSS/runtime/bin/"
- name: Zip Windows Release
shell: pwsh
run: |
Compress-Archive -Path "dist/DTSS" -DestinationPath "dist/DTSS-Windows.zip"
- name: Upload Windows Artifact
uses: actions/upload-artifact@v4
with:
name: windows-package
path: dist/DTSS-Windows.zip
publish-release:
runs-on: ubuntu-latest
needs: [build]
if: startsWith(github.ref, 'refs/tags/')
needs: [build, build-windows]
if: startsWith(github.ref, 'refs/tags/') || github.event_name == 'workflow_dispatch'
permissions:
contents: write
steps:
- name: Download built JAR
- name: Download Linux JAR
uses: actions/download-artifact@v4
with:
name: package
path: main/target/
- name: Download Windows Zip
uses: actions/download-artifact@v4
with:
name: windows-package
path: windows-dist/
- name: Create GitHub Release
uses: softprops/action-gh-release@v2
with:
files: main/target/*.jar
tag_name: ${{ startsWith(github.ref, 'refs/tags/') && github.ref_name || 'snapshot-build' }}
name: ${{ startsWith(github.ref, 'refs/tags/') && github.ref_name || 'Manual Snapshot Build' }}
draft: false
prerelease: true
make_latest: false
files: |
main/target/*.jar
windows-dist/*.zip

6
main/pom.xml
View File

@@ -51,7 +51,7 @@
<artifactId>exec-maven-plugin</artifactId>
<version>3.1.0</version>
<configuration>
<mainClass>sd.Entry</mainClass>
<mainClass>sd.dashboard.Launcher</mainClass>
</configuration>
</plugin>
<!-- JavaFX Maven Plugin -->
@@ -60,7 +60,7 @@
<artifactId>javafx-maven-plugin</artifactId>
<version>0.0.8</version>
<configuration>
<mainClass>sd.dashboard.DashboardUI</mainClass>
<mainClass>sd.dashboard.Launcher</mainClass>
</configuration>
</plugin>
<plugin>
@@ -76,7 +76,7 @@
<configuration>
<transformers>
<transformer implementation="org.apache.maven.plugins.shade.resource.ManifestResourceTransformer">
<mainClass>sd.Entry</mainClass>
<mainClass>sd.dashboard.Launcher</mainClass>
</transformer>
</transformers>
</configuration>

43
main/src/main/java/sd/IntersectionProcess.java
View File

@@ -8,6 +8,7 @@ import java.util.List;
import java.util.Map;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.Executors;
import java.util.concurrent.ScheduledExecutorService;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.locks.Lock;
import java.util.concurrent.locks.ReentrantLock;
@@ -47,6 +48,8 @@ public class IntersectionProcess {
private final ExecutorService trafficLightPool;
private ScheduledExecutorService statsExecutor;
private volatile boolean running; // Quando uma thread escreve um valor volatile, todas as outras
// threads veem a mudança imediatamente.
@@ -67,7 +70,6 @@ public class IntersectionProcess {
private SocketClient dashboardClient;
private volatile int totalArrivals = 0;
private volatile int totalDepartures = 0;
private long lastStatsUpdateTime;
/**
* Constructs a new IntersectionProcess.
@@ -83,8 +85,9 @@ public class IntersectionProcess {
this.outgoingConnections = new HashMap<>();
this.connectionHandlerPool = Executors.newCachedThreadPool();
this.trafficLightPool = Executors.newFixedThreadPool(4); // Max 4 directions
this.statsExecutor = Executors.newSingleThreadScheduledExecutor();
this.running = false;
this.trafficCoordinationLock = new ReentrantLock();
this.trafficCoordinationLock = new ReentrantLock(true); // Fair lock to prevent starvation
this.currentGreenDirection = null;
System.out.println("=".repeat(60));
@@ -148,7 +151,6 @@ public class IntersectionProcess {
dashboardClient.connect();
System.out.println("[" + intersectionId + "] Connected to dashboard.");
lastStatsUpdateTime = System.currentTimeMillis();
} catch (IOException e) {
System.err.println("[" + intersectionId + "] Failed to connect to dashboard: " +
@@ -365,6 +367,9 @@ public class IntersectionProcess {
// Start traffic light threads when running is true
startTrafficLights();
// Start stats updater
statsExecutor.scheduleAtFixedRate(this::sendStatsToDashboard, 1, 1, TimeUnit.SECONDS);
System.out.println("[" + intersectionId + "] Waiting for incoming connections...\n");
// Main accept loop
@@ -464,6 +469,12 @@ public class IntersectionProcess {
// Record arrival for statistics
recordVehicleArrival();
} else if (message.getType() == MessageType.SHUTDOWN) {
System.out.println(
"[" + intersectionId + "] Received SHUTDOWN command from " + message.getSourceNode());
running = false;
// Close this specific connection
break;
}
} catch (java.net.SocketTimeoutException e) {
@@ -507,6 +518,9 @@ public class IntersectionProcess {
System.out.println("\n[" + intersectionId + "] Shutting down...");
running = false;
// Send final stats before closing connections
sendStatsToDashboard();
// 1. Close ServerSocket first
if (serverSocket != null && !serverSocket.isClosed()) {
try {
@@ -523,6 +537,9 @@ public class IntersectionProcess {
if (connectionHandlerPool != null && !connectionHandlerPool.isShutdown()) {
connectionHandlerPool.shutdownNow();
}
if (statsExecutor != null && !statsExecutor.isShutdown()) {
statsExecutor.shutdownNow();
}
// 3. Wait briefly for termination (don't block forever)
try {
@@ -532,6 +549,9 @@ public class IntersectionProcess {
if (connectionHandlerPool != null) {
connectionHandlerPool.awaitTermination(1, TimeUnit.SECONDS);
}
if (statsExecutor != null) {
statsExecutor.awaitTermination(1, TimeUnit.SECONDS);
}
} catch (InterruptedException e) {
Thread.currentThread().interrupt();
}
@@ -572,7 +592,6 @@ public class IntersectionProcess {
*/
public void recordVehicleArrival() {
totalArrivals++;
checkAndSendStats();
}
/**
@@ -580,22 +599,6 @@ public class IntersectionProcess {
*/
public void recordVehicleDeparture() {
totalDepartures++;
checkAndSendStats();
}
/**
* Checks if it's time to send statistics to the dashboard and sends them if
* needed.
*/
private void checkAndSendStats() {
long now = System.currentTimeMillis();
long elapsed = now - lastStatsUpdateTime;
// Send stats every 5 seconds
if (elapsed >= 5000) {
sendStatsToDashboard();
lastStatsUpdateTime = now;
}
}
/**

10
main/src/main/java/sd/config/SimulationConfig.java
View File

@@ -227,6 +227,16 @@ public class SimulationConfig {
return Double.parseDouble(properties.getProperty("simulation.duration", "3600.0"));
}
/**
* Gets the drain time (in virtual seconds) to allow vehicles to exit after
* generation stops.
*
* @return The drain time.
*/
public double getDrainTime() {
return Double.parseDouble(properties.getProperty("simulation.drain.time", "60.0"));
}
/**
* Gets the vehicle arrival model ("POISSON" or "FIXED").
*

78
main/src/main/java/sd/coordinator/CoordinatorProcess.java
View File

@@ -82,7 +82,7 @@ public class CoordinatorProcess {
System.out.println("Connecting to intersection processes...");
String[] intersectionIds = {"Cr1", "Cr2", "Cr3", "Cr4", "Cr5"};
String[] intersectionIds = { "Cr1", "Cr2", "Cr3", "Cr4", "Cr5" };
for (String intersectionId : intersectionIds) {
try {
@@ -119,11 +119,30 @@ public class CoordinatorProcess {
nextGenerationTime = vehicleGenerator.getNextArrivalTime(currentTime);
final double TIME_STEP = 0.1;
while (running && currentTime < duration) {
if (currentTime >= nextGenerationTime) {
generateAndSendVehicle();
nextGenerationTime = vehicleGenerator.getNextArrivalTime(currentTime);
double drainTime = config.getDrainTime();
double totalDuration = duration + drainTime;
boolean draining = false;
while (running && currentTime < totalDuration) {
// Only generate vehicles during the main duration
if (currentTime < duration) {
if (currentTime >= nextGenerationTime) {
generateAndSendVehicle();
nextGenerationTime = vehicleGenerator.getNextArrivalTime(currentTime);
}
} else if (!draining) {
draining = true;
System.out.println("\n[t=" + String.format("%.2f", currentTime)
+ "] Generation complete. Entering DRAIN MODE for " + drainTime + "s...");
}
try {
Thread.sleep((long) (TIME_STEP * 1000));
} catch (InterruptedException e) {
Thread.currentThread().interrupt();
break;
}
currentTime += TIME_STEP;
}
@@ -138,7 +157,7 @@ public class CoordinatorProcess {
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());
// Send generation count to dashboard
sendGenerationStatsToDashboard();
@@ -162,11 +181,10 @@ public class CoordinatorProcess {
try {
Message message = new Message(
MessageType.VEHICLE_SPAWN,
"COORDINATOR",
intersectionId,
vehicle
);
MessageType.VEHICLE_SPAWN,
"COORDINATOR",
intersectionId,
vehicle);
client.send(message);
System.out.printf("->Sent to %s%n", intersectionId);
@@ -189,11 +207,10 @@ public class CoordinatorProcess {
try {
if (client.isConnected()) {
Message personalizedShutdown = new Message(
MessageType.SHUTDOWN,
"COORDINATOR",
intersectionId,
"Simulation complete"
);
MessageType.SHUTDOWN,
"COORDINATOR",
intersectionId,
"Simulation complete");
client.send(personalizedShutdown);
System.out.println("Sent shutdown message to " + intersectionId);
}
@@ -239,14 +256,13 @@ public class CoordinatorProcess {
payload.setTotalVehiclesGenerated(vehicleCounter);
Message message = new Message(
MessageType.STATS_UPDATE,
"COORDINATOR",
"Dashboard",
payload
);
MessageType.STATS_UPDATE,
"COORDINATOR",
"Dashboard",
payload);
dashboardClient.send(message);
} catch (Exception e) { //This is fine - can add IOException if need be
} catch (Exception e) { // This is fine - can add IOException if need be
// Don't crash if dashboard update fails
System.err.println("Failed to send stats to dashboard: " + e.getMessage());
}
@@ -259,11 +275,10 @@ public class CoordinatorProcess {
for (Map.Entry<String, SocketClient> entry : intersectionClients.entrySet()) {
try {
Message message = new Message(
MessageType.SIMULATION_START,
"COORDINATOR",
entry.getKey(),
startTimeMillis
);
MessageType.SIMULATION_START,
"COORDINATOR",
entry.getKey(),
startTimeMillis);
entry.getValue().send(message);
} catch (Exception e) { // Same thing here
System.err.println("Failed to send start time to " + entry.getKey() + ": " + e.getMessage());
@@ -274,11 +289,10 @@ public class CoordinatorProcess {
if (dashboardClient != null && dashboardClient.isConnected()) {
try {
Message message = new Message(
MessageType.SIMULATION_START,
"COORDINATOR",
"Dashboard",
startTimeMillis
);
MessageType.SIMULATION_START,
"COORDINATOR",
"Dashboard",
startTimeMillis);
dashboardClient.send(message);
} catch (Exception e) { // And here
// Don't crash

268
main/src/main/java/sd/dashboard/DashboardUI.java
View File

@@ -12,10 +12,10 @@ import javafx.geometry.Insets;
import javafx.geometry.Pos;
import javafx.scene.Scene;
import javafx.scene.control.Alert;
import javafx.scene.control.Button;
import javafx.scene.control.Label;
import javafx.scene.control.TableColumn;
import javafx.scene.control.TableView;
import javafx.scene.control.TitledPane;
import javafx.scene.control.cell.PropertyValueFactory;
import javafx.scene.layout.BorderPane;
import javafx.scene.layout.GridPane;
@@ -23,10 +23,7 @@ import javafx.scene.layout.HBox;
import javafx.scene.layout.Priority;
import javafx.scene.layout.Region;
import javafx.scene.layout.VBox;
import javafx.scene.paint.Color;
import javafx.scene.shape.Circle;
import javafx.scene.text.Font;
import javafx.scene.text.FontWeight;
import javafx.stage.Stage;
import sd.config.SimulationConfig;
import sd.model.VehicleType;
@@ -62,8 +59,8 @@ public class DashboardUI extends Application {
try {
// Initialize server
String configFile = getParameters().getRaw().isEmpty()
? "src/main/resources/simulation.properties"
: getParameters().getRaw().get(0);
? "src/main/resources/simulation.properties"
: getParameters().getRaw().get(0);
SimulationConfig config = new SimulationConfig(configFile);
server = new DashboardServer(config);
@@ -74,7 +71,7 @@ public class DashboardUI extends Application {
// Build UI
BorderPane root = new BorderPane();
root.setStyle("-fx-background-color: #f5f5f5;");
root.getStyleClass().add("root");
// Header
VBox header = createHeader();
@@ -89,7 +86,12 @@ public class DashboardUI extends Application {
root.setBottom(footer);
// Create scene
Scene scene = new Scene(root, 1200, 800);
Scene scene = new Scene(root, 1200, 850);
// Load CSS
String cssUrl = getClass().getResource("/dashboard.css").toExternalForm();
scene.getStylesheets().add(cssUrl);
primaryStage.setTitle("Traffic Simulation Dashboard - Real-time Statistics");
primaryStage.setScene(scene);
primaryStage.show();
@@ -102,153 +104,204 @@ public class DashboardUI extends Application {
shutdown();
});
} catch (IOException e) {
} catch (Exception e) {
showErrorAlert("Failed to start Dashboard Server", e.getMessage());
e.printStackTrace();
Platform.exit();
}
}
private VBox createHeader() {
VBox header = new VBox(10);
header.setPadding(new Insets(20));
header.setStyle("-fx-background-color: linear-gradient(to right, #2c3e50, #3498db);");
header.getStyleClass().add("header");
header.setAlignment(Pos.CENTER);
Label title = new Label("DISTRIBUTED TRAFFIC SIMULATION DASHBOARD");
title.setFont(Font.font("Arial", FontWeight.BOLD, 28));
title.setTextFill(Color.WHITE);
title.getStyleClass().add("header-title");
Label subtitle = new Label("Real-time Statistics and Monitoring");
subtitle.setFont(Font.font("Arial", FontWeight.NORMAL, 16));
subtitle.setTextFill(Color.web("#ecf0f1"));
subtitle.getStyleClass().add("header-subtitle");
header.getChildren().addAll(title, subtitle);
header.setAlignment(Pos.CENTER);
// Control Buttons
HBox controls = new HBox(15);
controls.setAlignment(Pos.CENTER);
Button btnStart = new Button("START SIMULATION");
btnStart.getStyleClass().add("button-start");
Button btnStop = new Button("STOP SIMULATION");
btnStop.getStyleClass().add("button-stop");
btnStop.setDisable(true);
SimulationProcessManager processManager = new SimulationProcessManager();
btnStart.setOnAction(e -> {
try {
processManager.startSimulation();
btnStart.setDisable(true);
btnStop.setDisable(false);
} catch (IOException ex) {
showErrorAlert("Start Failed", "Could not start simulation processes: " + ex.getMessage());
}
});
btnStop.setOnAction(e -> {
processManager.stopSimulation();
btnStart.setDisable(false);
btnStop.setDisable(true);
});
controls.getChildren().addAll(btnStart, btnStop);
header.getChildren().addAll(title, subtitle, controls);
return header;
}
private VBox createMainContent() {
VBox mainContent = new VBox(15);
VBox mainContent = new VBox(20);
mainContent.setPadding(new Insets(20));
// Global Statistics Panel
TitledPane globalStatsPane = createGlobalStatisticsPanel();
VBox globalStatsCard = createGlobalStatisticsPanel();
// Tables Container
HBox tablesContainer = new HBox(20);
tablesContainer.setAlignment(Pos.TOP_CENTER);
// Vehicle Type Statistics Panel
TitledPane vehicleTypePane = createVehicleTypePanel();
VBox vehicleTypeCard = createVehicleTypePanel();
HBox.setHgrow(vehicleTypeCard, Priority.ALWAYS);
// Intersection Statistics Panel
TitledPane intersectionPane = createIntersectionPanel();
VBox intersectionCard = createIntersectionPanel();
HBox.setHgrow(intersectionCard, Priority.ALWAYS);
mainContent.getChildren().addAll(globalStatsPane, vehicleTypePane, intersectionPane);
tablesContainer.getChildren().addAll(vehicleTypeCard, intersectionCard);
mainContent.getChildren().addAll(globalStatsCard, tablesContainer);
return mainContent;
}
private TitledPane createGlobalStatisticsPanel() {
private VBox createGlobalStatisticsPanel() {
VBox card = new VBox();
card.getStyleClass().add("card");
// Card Header
HBox cardHeader = new HBox();
cardHeader.getStyleClass().add("card-header");
Label cardTitle = new Label("Global Statistics");
cardTitle.getStyleClass().add("card-title");
cardHeader.getChildren().add(cardTitle);
// Card Content
GridPane grid = new GridPane();
grid.setPadding(new Insets(15));
grid.setHgap(20);
grid.getStyleClass().add("card-content");
grid.setHgap(40);
grid.setVgap(15);
grid.setStyle("-fx-background-color: white; -fx-border-radius: 5;");
grid.setAlignment(Pos.CENTER);
// Initialize labels
lblVehiclesGenerated = createStatLabel("0");
lblVehiclesCompleted = createStatLabel("0");
lblVehiclesInTransit = createStatLabel("0");
lblAvgSystemTime = createStatLabel("0.00 ms");
lblAvgWaitingTime = createStatLabel("0.00 ms");
lblVehiclesGenerated = createStatValueLabel("0");
lblVehiclesCompleted = createStatValueLabel("0");
lblVehiclesInTransit = createStatValueLabel("0");
lblAvgSystemTime = createStatValueLabel("0.00 s");
lblAvgWaitingTime = createStatValueLabel("0.00 s");
// Add labels with descriptions
addStatRow(grid, 0, "Total Vehicles Generated:", lblVehiclesGenerated);
addStatRow(grid, 1, "Total Vehicles Completed:", lblVehiclesCompleted);
addStatRow(grid, 2, "Vehicles In Transit:", lblVehiclesInTransit);
addStatRow(grid, 3, "Average System Time:", lblAvgSystemTime);
addStatRow(grid, 4, "Average Waiting Time:", lblAvgWaitingTime);
addStatRow(grid, 0, 0, "Total Vehicles Generated", lblVehiclesGenerated);
addStatRow(grid, 1, 0, "Total Vehicles Completed", lblVehiclesCompleted);
addStatRow(grid, 2, 0, "Vehicles In Transit", lblVehiclesInTransit);
addStatRow(grid, 0, 1, "Average System Time", lblAvgSystemTime);
addStatRow(grid, 1, 1, "Average Waiting Time", lblAvgWaitingTime);
TitledPane pane = new TitledPane("Global Statistics", grid);
pane.setCollapsible(false);
pane.setFont(Font.font("Arial", FontWeight.BOLD, 16));
return pane;
card.getChildren().addAll(cardHeader, grid);
return card;
}
private TitledPane createVehicleTypePanel() {
private VBox createVehicleTypePanel() {
VBox card = new VBox();
card.getStyleClass().add("card");
// Card Header
HBox cardHeader = new HBox();
cardHeader.getStyleClass().add("card-header");
Label cardTitle = new Label("Vehicle Type Statistics");
cardTitle.getStyleClass().add("card-title");
cardHeader.getChildren().add(cardTitle);
// Table
vehicleTypeTable = new TableView<>();
vehicleTypeTable.setColumnResizePolicy(TableView.CONSTRAINED_RESIZE_POLICY);
vehicleTypeTable.setPrefHeight(200);
vehicleTypeTable.setPrefHeight(300);
TableColumn<VehicleTypeRow, String> typeCol = new TableColumn<>("Vehicle Type");
typeCol.setCellValueFactory(new PropertyValueFactory<>("vehicleType"));
typeCol.setPrefWidth(200);
TableColumn<VehicleTypeRow, Integer> countCol = new TableColumn<>("Count");
countCol.setCellValueFactory(new PropertyValueFactory<>("count"));
countCol.setPrefWidth(150);
TableColumn<VehicleTypeRow, String> avgWaitCol = new TableColumn<>("Avg Wait Time");
avgWaitCol.setCellValueFactory(new PropertyValueFactory<>("avgWaitTime"));
avgWaitCol.setPrefWidth(150);
vehicleTypeTable.getColumns().addAll(typeCol, countCol, avgWaitCol);
TitledPane pane = new TitledPane("Vehicle Type Statistics", vehicleTypeTable);
pane.setCollapsible(false);
pane.setFont(Font.font("Arial", FontWeight.BOLD, 16));
return pane;
card.getChildren().addAll(cardHeader, vehicleTypeTable);
return card;
}
private TitledPane createIntersectionPanel() {
private VBox createIntersectionPanel() {
VBox card = new VBox();
card.getStyleClass().add("card");
// Card Header
HBox cardHeader = new HBox();
cardHeader.getStyleClass().add("card-header");
Label cardTitle = new Label("Intersection Statistics");
cardTitle.getStyleClass().add("card-title");
cardHeader.getChildren().add(cardTitle);
// Table
intersectionTable = new TableView<>();
intersectionTable.setColumnResizePolicy(TableView.CONSTRAINED_RESIZE_POLICY);
intersectionTable.setPrefHeight(250);
intersectionTable.setPrefHeight(300);
TableColumn<IntersectionRow, String> idCol = new TableColumn<>("Intersection ID");
idCol.setCellValueFactory(new PropertyValueFactory<>("intersectionId"));
idCol.setPrefWidth(200);
TableColumn<IntersectionRow, Integer> arrivalsCol = new TableColumn<>("Total Arrivals");
arrivalsCol.setCellValueFactory(new PropertyValueFactory<>("arrivals"));
arrivalsCol.setPrefWidth(150);
TableColumn<IntersectionRow, Integer> departuresCol = new TableColumn<>("Total Departures");
departuresCol.setCellValueFactory(new PropertyValueFactory<>("departures"));
departuresCol.setPrefWidth(150);
TableColumn<IntersectionRow, Integer> queueCol = new TableColumn<>("Current Queue");
queueCol.setCellValueFactory(new PropertyValueFactory<>("queueSize"));
queueCol.setPrefWidth(150);
intersectionTable.getColumns().addAll(idCol, arrivalsCol, departuresCol, queueCol);
TitledPane pane = new TitledPane("Intersection Statistics", intersectionTable);
pane.setCollapsible(false);
pane.setFont(Font.font("Arial", FontWeight.BOLD, 16));
return pane;
card.getChildren().addAll(cardHeader, intersectionTable);
return card;
}
private HBox createFooter() {
HBox footer = new HBox(10);
footer.setPadding(new Insets(10, 20, 10, 20));
footer.setStyle("-fx-background-color: #34495e;");
footer.getStyleClass().add("footer");
footer.setAlignment(Pos.CENTER_LEFT);
Label statusLabel = new Label("Status:");
statusLabel.setTextFill(Color.WHITE);
statusLabel.setFont(Font.font("Arial", FontWeight.BOLD, 12));
statusLabel.getStyleClass().add("footer-text");
statusLabel.setStyle("-fx-font-weight: bold;");
Circle statusIndicator = new Circle(6);
statusIndicator.setFill(Color.LIME);
statusIndicator.setFill(javafx.scene.paint.Color.LIME);
Label statusText = new Label("Connected and Receiving Data");
statusText.setTextFill(Color.WHITE);
statusText.setFont(Font.font("Arial", 12));
statusText.getStyleClass().add("footer-text");
lblLastUpdate = new Label("Last Update: --:--:--");
lblLastUpdate.setTextFill(Color.web("#ecf0f1"));
lblLastUpdate.setFont(Font.font("Arial", 12));
lblLastUpdate.getStyleClass().add("footer-text");
Region spacer = new Region();
HBox.setHgrow(spacer, Priority.ALWAYS);
@@ -258,20 +311,22 @@ public class DashboardUI extends Application {
return footer;
}
private Label createStatLabel(String initialValue) {
private Label createStatValueLabel(String initialValue) {
Label label = new Label(initialValue);
label.setFont(Font.font("Arial", FontWeight.BOLD, 20));
label.setTextFill(Color.web("#2980b9"));
label.getStyleClass().add("stat-value");
return label;
}
private void addStatRow(GridPane grid, int row, String description, Label valueLabel) {
Label descLabel = new Label(description);
descLabel.setFont(Font.font("Arial", FontWeight.NORMAL, 14));
descLabel.setTextFill(Color.web("#34495e"));
private void addStatRow(GridPane grid, int row, int colGroup, String description, Label valueLabel) {
VBox container = new VBox(5);
container.setAlignment(Pos.CENTER_LEFT);
grid.add(descLabel, 0, row);
grid.add(valueLabel, 1, row);
Label descLabel = new Label(description);
descLabel.getStyleClass().add("stat-label");
container.getChildren().addAll(descLabel, valueLabel);
grid.add(container, colGroup, row);
}
private void startPeriodicUpdates() {
@@ -286,9 +341,9 @@ public class DashboardUI extends Application {
lblVehiclesGenerated.setText(String.valueOf(statistics.getTotalVehiclesGenerated()));
lblVehiclesCompleted.setText(String.valueOf(statistics.getTotalVehiclesCompleted()));
lblVehiclesInTransit.setText(String.valueOf(
statistics.getTotalVehiclesGenerated() - statistics.getTotalVehiclesCompleted()));
lblAvgSystemTime.setText(String.format("%.2f ms", statistics.getAverageSystemTime()));
lblAvgWaitingTime.setText(String.format("%.2f ms", statistics.getAverageWaitingTime()));
statistics.getTotalVehiclesGenerated() - statistics.getTotalVehiclesCompleted()));
lblAvgSystemTime.setText(String.format("%.2f s", statistics.getAverageSystemTime() / 1000.0));
lblAvgWaitingTime.setText(String.format("%.2f s", statistics.getAverageWaitingTime() / 1000.0));
lblLastUpdate.setText(String.format("Last Update: %tT", statistics.getLastUpdateTime()));
// Update vehicle type table
@@ -297,20 +352,18 @@ public class DashboardUI extends Application {
int count = statistics.getVehicleTypeCount(type);
double avgWait = statistics.getAverageWaitingTimeByType(type);
vehicleTypeTable.getItems().add(new VehicleTypeRow(
type.toString(), count, String.format("%.2f ms", avgWait)));
type.toString(), count, String.format("%.2f s", avgWait / 1000.0)));
}
// Update intersection table
intersectionTable.getItems().clear();
Map<String, DashboardStatistics.IntersectionStats> intersectionStats =
statistics.getAllIntersectionStats();
Map<String, DashboardStatistics.IntersectionStats> intersectionStats = statistics.getAllIntersectionStats();
for (DashboardStatistics.IntersectionStats stats : intersectionStats.values()) {
intersectionTable.getItems().add(new IntersectionRow(
stats.getIntersectionId(),
stats.getTotalArrivals(),
stats.getTotalDepartures(),
stats.getCurrentQueueSize()
));
stats.getIntersectionId(),
stats.getTotalArrivals(),
stats.getTotalDepartures(),
stats.getCurrentQueueSize()));
}
}
@@ -352,9 +405,17 @@ public class DashboardUI extends Application {
this.avgWaitTime = avgWaitTime;
}
public String getVehicleType() { return vehicleType; }
public int getCount() { return count; }
public String getAvgWaitTime() { return avgWaitTime; }
public String getVehicleType() {
return vehicleType;
}
public int getCount() {
return count;
}
public String getAvgWaitTime() {
return avgWaitTime;
}
}
public static class IntersectionRow {
@@ -370,9 +431,20 @@ public class DashboardUI extends Application {
this.queueSize = queueSize;
}
public String getIntersectionId() { return intersectionId; }
public int getArrivals() { return arrivals; }
public int getDepartures() { return departures; }
public int getQueueSize() { return queueSize; }
public String getIntersectionId() {
return intersectionId;
}
public int getArrivals() {
return arrivals;
}
public int getDepartures() {
return departures;
}
public int getQueueSize() {
return queueSize;
}
}
}

7
main/src/main/java/sd/dashboard/Launcher.java Normal file
View File

@@ -0,0 +1,7 @@
package sd.dashboard;
public class Launcher {
public static void main(String[] args) {
DashboardUI.main(args);
}
}

118
main/src/main/java/sd/dashboard/SimulationProcessManager.java Normal file
View File

@@ -0,0 +1,118 @@
package sd.dashboard;
import java.io.File;
import java.io.IOException;
import java.util.ArrayList;
import java.util.List;
/**
* Manages the lifecycle of simulation processes (Intersections, Exit Node,
* Coordinator).
* Allows starting and stopping the distributed simulation from within the Java
* application.
*/
public class SimulationProcessManager {
private final List<Process> runningProcesses;
private final String classpath;
public SimulationProcessManager() {
this.runningProcesses = new ArrayList<>();
this.classpath = System.getProperty("java.class.path");
}
/**
* Starts the full simulation: 5 Intersections, 1 Exit Node, and 1 Coordinator.
*
* @throws IOException If a process fails to start.
*/
public void startSimulation() throws IOException {
if (!runningProcesses.isEmpty()) {
stopSimulation();
}
System.out.println("Starting simulation processes...");
// 1. Start Intersections (Cr1 - Cr5)
String[] intersectionIds = { "Cr1", "Cr2", "Cr3", "Cr4", "Cr5" };
for (String id : intersectionIds) {
startProcess("sd.IntersectionProcess", id);
}
// 2. Start Exit Node
startProcess("sd.ExitNodeProcess", null);
// 3. Start Coordinator (Wait a bit for others to initialize)
try {
Thread.sleep(1000);
} catch (InterruptedException e) {
Thread.currentThread().interrupt();
}
startProcess("sd.coordinator.CoordinatorProcess", null);
System.out.println("All simulation processes started.");
}
/**
* Stops all running simulation processes.
*/
public void stopSimulation() {
System.out.println("Stopping simulation processes...");
for (Process process : runningProcesses) {
if (process.isAlive()) {
process.destroy(); // Try graceful termination first
}
}
// Wait a bit and force kill if necessary
try {
Thread.sleep(500);
} catch (InterruptedException e) {
Thread.currentThread().interrupt();
}
for (Process process : runningProcesses) {
if (process.isAlive()) {
process.destroyForcibly();
}
}
runningProcesses.clear();
System.out.println("All simulation processes stopped.");
}
/**
* Helper to start a single Java process.
*/
private void startProcess(String className, String arg) throws IOException {
String javaBin = System.getProperty("java.home") + File.separator + "bin" + File.separator + "java";
ProcessBuilder builder;
if (arg != null) {
builder = new ProcessBuilder(javaBin, "-cp", classpath, className, arg);
} else {
builder = new ProcessBuilder(javaBin, "-cp", classpath, className);
}
// get the OS temp folder
// Linux: /tmp/
// Windows: %AppData%\Local\Temp\
String tempDir = System.getProperty("java.io.tmpdir");
String logName = className.substring(className.lastIndexOf('.') + 1) + (arg != null ? "-" + arg : "") + ".log";
// use the (File parent, String child) constructor to handle slash/backslash
// automatically
File logFile = new File(tempDir, logName);
builder.redirectOutput(logFile);
builder.redirectError(logFile);
Process process = builder.start();
runningProcesses.add(process);
System.out.println("Started " + className + (arg != null ? " " + arg : ""));
// print where the logs are actually going
System.out.println("Logs redirected to: " + logFile.getAbsolutePath());
}
}

45
main/src/main/java/sd/engine/TrafficLightThread.java
View File

@@ -44,14 +44,12 @@ public class TrafficLightThread implements Runnable {
light.changeState(TrafficLightState.GREEN);
System.out.println("[" + light.getId() + "] State: GREEN");
processGreenLightQueue();
// Process queue for the duration of the green light
long greenDurationMs = (long) (light.getGreenTime() * 1000);
processGreenLightQueue(greenDurationMs);
if (!running || Thread.currentThread().isInterrupted()) break;
// Wait for green duration
Thread.sleep((long) (light.getGreenTime() * 1000));
if (!running || Thread.currentThread().isInterrupted()) break;
if (!running || Thread.currentThread().isInterrupted())
break;
// --- RED Phase ---
light.changeState(TrafficLightState.RED);
@@ -74,21 +72,34 @@ public class TrafficLightThread implements Runnable {
}
}
private void processGreenLightQueue() throws InterruptedException {
private void processGreenLightQueue(long greenDurationMs) throws InterruptedException {
long startTime = System.currentTimeMillis();
while (running && !Thread.currentThread().isInterrupted()
&& light.getState() == TrafficLightState.GREEN
&& light.getQueueSize() > 0) {
&& light.getState() == TrafficLightState.GREEN) {
Vehicle vehicle = light.removeVehicle();
// Check if green time has expired
long elapsed = System.currentTimeMillis() - startTime;
if (elapsed >= greenDurationMs) {
break;
}
if (vehicle != null) {
double crossingTime = getCrossingTimeForVehicle(vehicle);
if (light.getQueueSize() > 0) {
Vehicle vehicle = light.removeVehicle();
Thread.sleep((long) (crossingTime * 1000));
if (vehicle != null) {
double crossingTime = getCrossingTimeForVehicle(vehicle);
long crossingTimeMs = (long) (crossingTime * 1000);
vehicle.addCrossingTime(crossingTime);
process.getIntersection().incrementVehiclesSent();
process.sendVehicleToNextDestination(vehicle);
Thread.sleep(crossingTimeMs);
vehicle.addCrossingTime(crossingTime);
process.getIntersection().incrementVehiclesSent();
process.sendVehicleToNextDestination(vehicle);
}
} else {
// Queue is empty, wait briefly for new vehicles or until time expires
Thread.sleep(50);
}
}
}

131
main/src/main/java/sd/model/Event.java
View File

@@ -1,131 +0,0 @@
package sd.model;
import java.io.Serializable;
/**
* Represents a single event in the discrete event simulation.
* * An Event is the fundamental unit of action in the simulation. It contains:
* - A {@code timestamp} (when the event should occur).
* - A {@link EventType} (what kind of event it is).
* - Associated {@code data} (e.g., the {@link Vehicle} or {@link TrafficLight} involved).
* - An optional {@code location} (e.g., the ID of the {@link Intersection}).
* * Events are {@link Comparable}, allowing them to be sorted in a
* {@link java.util.PriorityQueue}. The primary sorting key is the
* {@code timestamp}. If timestamps are equal, {@code EventType} is used
* as a tie-breaker to ensure a consistent, deterministic order.
* * Implements {@link Serializable} so events could (in theory) be sent
* across a network in a distributed simulation.
*/
public class Event implements Comparable<Event>, Serializable {
private static final long serialVersionUID = 1L;
/**
* The simulation time (in seconds) when this event is scheduled to occur.
*/
private final double timestamp;
/**
* The type of event (e.g., VEHICLE_ARRIVAL, TRAFFIC_LIGHT_CHANGE).
*/
private final EventType type;
/**
* The data payload associated with this event.
* This could be a {@link Vehicle}, {@link TrafficLight}, or null.
*/
private final Object data;
/**
* The ID of the location where the event occurs (e.g., "Cr1").
* Can be null if the event is not location-specific (like VEHICLE_GENERATION).
*/
private final String location;
/**
* Constructs a new Event.
*
* @param timestamp The simulation time when the event occurs.
* @param type The {@link EventType} of the event.
* @param data The associated data (e.g., a Vehicle object).
* @param location The ID of the location (e.g., an Intersection ID).
*/
public Event(double timestamp, EventType type, Object data, String location) {
this.timestamp = timestamp;
this.type = type;
this.data = data;
this.location = location;
}
/**
* Convenience constructor for an Event without a specific location.
*
* @param timestamp The simulation time when the event occurs.
* @param type The {@link EventType} of the event.
* @param data The associated data (e.g., a Vehicle object).
*/
public Event(double timestamp, EventType type, Object data) {
this(timestamp, type, data, null);
}
/**
* Compares this event to another event for ordering.
* * Events are ordered primarily by {@link #timestamp} (ascending).
* If timestamps are identical, they are ordered by {@link #type} (alphabetical)
* to provide a stable, deterministic tie-breaking mechanism.
*
* @param other The other Event to compare against.
* @return A negative integer if this event comes before {@code other},
* zero if they are "equal" in sorting (though this is rare),
* or a positive integer if this event comes after {@code other}.
*/
@Override
public int compareTo(Event other) {
// Primary sort: timestamp (earlier events come first)
int cmp = Double.compare(this.timestamp, other.timestamp);
if (cmp == 0) {
// Tie-breaker: event type (ensures deterministic order)
return this.type.compareTo(other.type);
}
return cmp;
}
// --- Getters ---
/**
* @return The simulation time when the event occurs.
*/
public double getTimestamp() {
return timestamp;
}
/**
* @return The {@link EventType} of the event.
*/
public EventType getType() {
return type;
}
/**
* @return The data payload (e.g., {@link Vehicle}, {@link TrafficLight}).
* The caller must cast this to the expected type.
*/
public Object getData() {
return data;
}
/**
* @return The location ID (e.g., "Cr1"), or null if not applicable.
*/
public String getLocation() {
return location;
}
/**
* @return A string representation of the event for logging.
*/
@Override
public String toString() {
return String.format("Event{t=%.2f, type=%s, loc=%s}",
timestamp, type, location);
}
}

45
main/src/main/java/sd/model/EventType.java
View File

@@ -1,45 +0,0 @@
package sd.model;
/**
* Enumeration representing all possible event types in the discrete event simulation.
* These types are used by the {@link sd.engine.SimulationEngine} to determine
* how to process a given {@link Event}.
*/
public enum EventType {
/**
* Fired when a {@link Vehicle} arrives at an {@link Intersection}.
* Data: {@link Vehicle}, Location: Intersection ID
*/
VEHICLE_ARRIVAL,
/**
* Fired when a {@link TrafficLight} is scheduled to change its state.
* Data: {@link TrafficLight}, Location: Intersection ID
*/
TRAFFIC_LIGHT_CHANGE,
/**
* Fired when a {@link Vehicle} begins to cross an {@link Intersection}.
* Data: {@link Vehicle}, Location: Intersection ID
*/
CROSSING_START,
/**
* Fired when a {@link Vehicle} finishes crossing an {@link Intersection}.
* Data: {@link Vehicle}, Location: Intersection ID
*/
CROSSING_END,
/**
* Fired when a new {@link Vehicle} should be created and added to the system.
* Data: null, Location: null
*/
VEHICLE_GENERATION,
/**
* Fired periodically to trigger the printing or sending of simulation statistics.
* Data: null, Location: null
*/
STATISTICS_UPDATE
}

27
main/src/main/java/sd/model/Vehicle.java
View File

@@ -12,7 +12,7 @@ import java.util.List;
* - Its complete, pre-determined {@code route} (a list of intersection IDs).
* - Its current position in the route ({@code currentRouteIndex}).
* - Metrics for total time spent waiting at red lights and time spent crossing.
* * This object is passed around the simulation, primarily inside {@link Event}
* * This object is passed around the simulation, primarily inside message
* payloads and stored in {@link TrafficLight} queues.
* * Implements {@link Serializable} so it can be sent between processes
* or nodes (e.g., over a socket in a distributed version of the simulation).
@@ -67,10 +67,11 @@ public class Vehicle implements Serializable {
/**
* Constructs a new Vehicle.
*
* @param id The unique ID for the vehicle.
* @param type The {@link VehicleType}.
* @param id The unique ID for the vehicle.
* @param type The {@link VehicleType}.
* @param entryTime The simulation time when the vehicle is created.
* @param route The complete list of destination IDs (e.t., ["Cr1", "Cr2", "S"]).
* @param route The complete list of destination IDs (e.t., ["Cr1", "Cr2",
* "S"]).
*/
public Vehicle(String id, VehicleType type, double entryTime, List<String> route) {
this.id = id;
@@ -90,8 +91,8 @@ public class Vehicle implements Serializable {
* to set its *next* destination before it is queued.
*
* @return {@code true} if there is still at least one more destination
* in the route, {@code false} if the vehicle has passed its
* final destination.
* in the route, {@code false} if the vehicle has passed its
* final destination.
*/
public boolean advanceRoute() {
currentRouteIndex++;
@@ -103,7 +104,7 @@ public class Vehicle implements Serializable {
* the vehicle is heading towards.
*
* @return The ID of the current destination (e.g., "Cr1"), or
* {@code null} if the route is complete.
* {@code null} if the route is complete.
*/
public String getCurrentDestination() {
return (currentRouteIndex < route.size()) ? route.get(currentRouteIndex) : null;
@@ -113,7 +114,7 @@ public class Vehicle implements Serializable {
* Checks if the vehicle has completed its entire route.
*
* @return {@code true} if the route index is at or past the end
* of the route list, {@code false} otherwise.
* of the route list, {@code false} otherwise.
*/
public boolean hasReachedEnd() {
return currentRouteIndex >= route.size();
@@ -151,7 +152,8 @@ public class Vehicle implements Serializable {
}
/**
* @return The current index pointing to the vehicle's destination in its route list.
* @return The current index pointing to the vehicle's destination in its route
* list.
*/
public int getCurrentRouteIndex() {
return currentRouteIndex;
@@ -199,7 +201,7 @@ public class Vehicle implements Serializable {
*
* @param currentTime The current simulation time.
* @return The total elapsed time (in seconds) since the vehicle
* was generated ({@code currentTime - entryTime}).
* was generated ({@code currentTime - entryTime}).
*/
public double getTotalTravelTime(double currentTime) {
return currentTime - entryTime;
@@ -211,8 +213,7 @@ public class Vehicle implements Serializable {
@Override
public String toString() {
return String.format(
"Vehicle{id='%s', type=%s, next='%s', route=%s}",
id, type, getCurrentDestination(), route
);
"Vehicle{id='%s', type=%s, next='%s', route=%s}",
id, type, getCurrentDestination(), route);
}
}

3
main/src/main/java/sd/protocol/SocketConnection.java
View File

@@ -4,7 +4,6 @@ import java.io.Closeable;
import java.io.DataInputStream;
import java.io.DataOutputStream;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.net.ConnectException;
@@ -127,7 +126,7 @@ public class SocketConnection implements Closeable {
* @param message The "envelope" (which contains the Vehicle) to be sent.
* @throws IOException If writing to the stream fails or socket is not connected.
*/
public void sendMessage(MessageProtocol message) throws IOException {
public synchronized void sendMessage(MessageProtocol message) throws IOException {
if (socket == null || !socket.isConnected()) {
throw new IOException("Socket is not connected");
}

134
main/src/main/java/sd/serialization/SerializationExample.java
View File

@@ -1,134 +0,0 @@
package sd.serialization;
import sd.model.Message;
import sd.model.MessageType;
import sd.model.Vehicle;
import sd.model.VehicleType;
import java.util.Arrays;
import java.util.List;
/**
* Demonstration of JSON serialization usage in the traffic simulation system.
*
* This class shows practical examples of how to use JSON (Gson) serialization
* for network communication between simulation processes.
*/
public class SerializationExample {
public static void main(String[] args) {
System.out.println("=== JSON Serialization Example ===\n");
// Create a sample vehicle
List<String> route = Arrays.asList("Cr1", "Cr2", "Cr5", "S");
Vehicle vehicle = new Vehicle("V001", VehicleType.LIGHT, 10.5, route);
vehicle.addWaitingTime(2.3);
vehicle.addCrossingTime(1.2);
// Create a message containing the vehicle
Message message = new Message(
MessageType.VEHICLE_TRANSFER,
"Cr1",
"Cr2",
vehicle
);
// ===== JSON Serialization =====
demonstrateJsonSerialization(message);
// ===== Factory Usage =====
demonstrateFactoryUsage(message);
// ===== Performance Test =====
performanceTest(message);
}
private static void demonstrateJsonSerialization(Message message) {
System.out.println("--- JSON Serialization ---");
try {
// Create JSON serializer with pretty printing for readability
MessageSerializer serializer = new JsonMessageSerializer(true);
// Serialize to bytes
byte[] data = serializer.serialize(message);
// Display the JSON
String json = new String(data);
System.out.println("Serialized JSON (" + data.length + " bytes):");
System.out.println(json);
// Deserialize back
Message deserialized = serializer.deserialize(data, Message.class);
System.out.println("\nDeserialized: " + deserialized);
System.out.println("✓ JSON serialization successful\n");
} catch (SerializationException e) {
System.err.println("❌ JSON serialization failed: " + e.getMessage());
}
}
private static void demonstrateFactoryUsage(Message message) {
System.out.println("--- Using SerializerFactory ---");
try {
// Get default serializer (JSON)
MessageSerializer serializer = SerializerFactory.createDefault();
System.out.println("Default serializer: " + serializer.getName());
// Use it
byte[] data = serializer.serialize(message);
Message deserialized = serializer.deserialize(data, Message.class);
System.out.println("Message type: " + deserialized.getType());
System.out.println("From: " + deserialized.getSenderId() +
" → To: " + deserialized.getDestinationId());
System.out.println("✓ Factory usage successful\n");
} catch (SerializationException e) {
System.err.println("❌ Factory usage failed: " + e.getMessage());
}
}
private static void performanceTest(Message message) {
System.out.println("--- Performance Test ---");
int iterations = 1000;
try {
MessageSerializer compactSerializer = new JsonMessageSerializer(false);
MessageSerializer prettySerializer = new JsonMessageSerializer(true);
// Warm up
for (int i = 0; i < 100; i++) {
compactSerializer.serialize(message);
}
// Test compact JSON
long compactStart = System.nanoTime();
byte[] compactData = null;
for (int i = 0; i < iterations; i++) {
compactData = compactSerializer.serialize(message);
}
long compactTime = System.nanoTime() - compactStart;
// Test pretty JSON
byte[] prettyData = prettySerializer.serialize(message);
// Results
System.out.println("Iterations: " + iterations);
System.out.println("\nJSON Compact:");
System.out.println(" Size: " + compactData.length + " bytes");
System.out.println(" Time: " + (compactTime / 1_000_000.0) + " ms total");
System.out.println(" Avg: " + (compactTime / iterations / 1_000.0) + " μs/operation");
System.out.println("\nJSON Pretty-Print:");
System.out.println(" Size: " + prettyData.length + " bytes");
System.out.println(" Size increase: " +
String.format("%.1f%%", ((double)prettyData.length / compactData.length - 1) * 100));
} catch (SerializationException e) {
System.err.println("❌ Performance test failed: " + e.getMessage());
}
}
}

381
main/src/main/java/sd/util/StatisticsCollector.java
View File

@@ -1,381 +0,0 @@
package sd.util;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import sd.config.SimulationConfig;
import sd.model.Intersection;
import sd.model.Vehicle;
import sd.model.VehicleType;
/**
* Collects, manages, and reports statistics throughout the simulation.
* * This class acts as the central bookkeeper for simulation metrics. It
* tracks:
* - Overall system statistics (total vehicles, completion time, wait time).
* - Per-vehicle-type statistics (counts, average wait time by type).
* - Per-intersection statistics (arrivals, departures).
* * It also maintains "in-flight" data, such as the arrival time of a
* vehicle at its *current* intersection, which is necessary to
* calculate waiting time when the vehicle later departs.
*/
public class StatisticsCollector {
// --- Vehicle tracking (for in-flight vehicles) ---
/**
* Tracks the simulation time when a vehicle arrives at its *current*
* intersection.
* This is used later to calculate waiting time (Depart_Time - Arrive_Time).
* Key: Vehicle ID (String)
* Value: Arrival Time (Double)
*/
private final Map<String, Double> vehicleArrivalTimes;
/**
* Tracks the sequence of intersections a vehicle has visited.
* Key: Vehicle ID (String)
* Value: List of Intersection IDs (String)
*/
private final Map<String, List<String>> vehicleIntersectionHistory;
// --- Overall system statistics ---
/** Total number of vehicles created by the {@link VehicleGenerator}. */
private int totalVehiclesGenerated;
/** Total number of vehicles that have reached their final destination ("S"). */
private int totalVehiclesCompleted;
/**
* The sum of all *completed* vehicles' total travel times. Used for averaging.
*/
private double totalSystemTime;
/**
* The sum of all *completed* vehicles' total waiting times. Used for averaging.
*/
private double totalWaitingTime;
// --- Per-vehicle-type statistics ---
/**
* Tracks the total number of vehicles generated, broken down by type.
* Key: {@link VehicleType}
* Value: Count (Integer)
*/
private final Map<VehicleType, Integer> vehicleTypeCount;
/**
* Tracks the total waiting time, broken down by vehicle type.
* Key: {@link VehicleType}
* Value: Total Wait Time (Double)
*/
private final Map<VehicleType, Double> vehicleTypeWaitTime;
// --- Per-intersection statistics ---
/**
* A map to hold statistics objects for each intersection.
* Key: Intersection ID (String)
* Value: {@link IntersectionStats} object
*/
private final Map<String, IntersectionStats> intersectionStats;
/**
* Constructs a new StatisticsCollector.
* Initializes all maps and counters.
*
* @param config The {@link SimulationConfig} (not currently used, but
* could be for configuration-dependent stats).
*/
public StatisticsCollector(SimulationConfig config) {
this.vehicleArrivalTimes = new HashMap<>();
this.vehicleIntersectionHistory = new HashMap<>();
this.totalVehiclesGenerated = 0;
this.totalVehiclesCompleted = 0;
this.totalSystemTime = 0.0;
this.totalWaitingTime = 0.0;
this.vehicleTypeCount = new HashMap<>();
this.vehicleTypeWaitTime = new HashMap<>();
this.intersectionStats = new HashMap<>();
// Initialize vehicle type counters to 0
for (VehicleType type : VehicleType.values()) {
vehicleTypeCount.put(type, 0);
vehicleTypeWaitTime.put(type, 0.0);
}
}
/**
* Records that a new vehicle has been generated.
* This is called by the vehicle generation component
* during a {@code VEHICLE_GENERATION} event.
*
* @param vehicle The {@link Vehicle} that was just created.
* @param currentTime The simulation time of the event.
*/
public void recordVehicleGeneration(Vehicle vehicle, double currentTime) {
totalVehiclesGenerated++;
// Track by vehicle type
VehicleType type = vehicle.getType();
vehicleTypeCount.put(type, vehicleTypeCount.get(type) + 1);
// Initialize history tracking for this vehicle
vehicleIntersectionHistory.put(vehicle.getId(), new ArrayList<>());
}
/**
* Records that a vehicle has arrived at an intersection queue.
* This is called by the vehicle generation component
* during a {@code VEHICLE_ARRIVAL} event.
*
* @param vehicle The {@link Vehicle} that arrived.
* @param intersectionId The ID of the intersection it arrived at.
* @param currentTime The simulation time of the arrival.
*/
public void recordVehicleArrival(Vehicle vehicle, String intersectionId, double currentTime) {
// Store arrival time - this is the "start waiting" time
vehicleArrivalTimes.put(vehicle.getId(), currentTime);
// Track intersection history
List<String> history = vehicleIntersectionHistory.get(vehicle.getId());
if (history != null) {
history.add(intersectionId);
}
// Update per-intersection statistics
getOrCreateIntersectionStats(intersectionId).recordArrival();
}
/**
* Records that a vehicle has completed its route and exited the system.
* This is where final metrics for the vehicle are aggregated.
* This is called by the vehicle generation component
* when a vehicle reaches destination "S".
*
* @param vehicle The {@link Vehicle} that is exiting.
* @param currentTime The simulation time of the exit.
*/
public void recordVehicleExit(Vehicle vehicle, double currentTime) {
totalVehiclesCompleted++;
// Calculate and aggregate total system time
double systemTime = vehicle.getTotalTravelTime(currentTime);
totalSystemTime += systemTime;
// Aggregate waiting time
double waitTime = vehicle.getTotalWaitingTime();
totalWaitingTime += waitTime;
// Aggregate waiting time by vehicle type
VehicleType type = vehicle.getType();
vehicleTypeWaitTime.put(type, vehicleTypeWaitTime.get(type) + waitTime);
// Clean up tracking maps to save memory
vehicleArrivalTimes.remove(vehicle.getId());
vehicleIntersectionHistory.remove(vehicle.getId());
}
/**
* Gets the time a vehicle arrived at its *current* intersection.
* This is used by the intersection component to calculate
* wait time just before the vehicle crosses.
*
* @param vehicle The {@link Vehicle} to check.
* @return The arrival time, or 0.0 if not found.
*/
public double getArrivalTime(Vehicle vehicle) {
return vehicleArrivalTimes.getOrDefault(vehicle.getId(), 0.0);
}
/**
* Prints a "snapshot" of the current simulation statistics.
* This is called periodically by the simulation components
* during a {@code STATISTICS_UPDATE} event.
*
* @param intersections A map of all intersections (to get queue data).
* @param currentTime The current simulation time.
*/
public void printCurrentStatistics(Map<String, Intersection> intersections, double currentTime) {
System.out.printf("--- Statistics at t=%.2f ---%n", currentTime);
System.out.printf("Vehicles: Generated=%d, Completed=%d, In-System=%d%n",
totalVehiclesGenerated,
totalVehiclesCompleted,
totalVehiclesGenerated - totalVehiclesCompleted);
if (totalVehiclesCompleted > 0) {
System.out.printf("Average System Time (so far): %.2fs%n", totalSystemTime / totalVehiclesCompleted);
System.out.printf("Average Waiting Time (so far): %.2fs%n", totalWaitingTime / totalVehiclesCompleted);
}
// Print per-intersection queue sizes
System.out.println("\nIntersection Queues:");
for (Map.Entry<String, Intersection> entry : intersections.entrySet()) {
String id = entry.getKey();
Intersection intersection = entry.getValue();
System.out.printf(" %s: Queue=%d, Received=%d, Sent=%d%n",
id,
intersection.getTotalQueueSize(),
intersection.getTotalVehiclesReceived(),
intersection.getTotalVehiclesSent());
}
}
/**
* Prints the final simulation summary statistics at the end of the run.
*
* @param intersections A map of all intersections.
* @param currentTime The final simulation time.
*/
public void printFinalStatistics(Map<String, Intersection> intersections, double currentTime) {
System.out.println("\n=== SIMULATION SUMMARY ===");
System.out.printf("Duration: %.2f seconds%n", currentTime);
System.out.printf("Total Vehicles Generated: %d%n", totalVehiclesGenerated);
System.out.printf("Total Vehicles Completed: %d%n", totalVehiclesCompleted);
System.out.printf("Vehicles Still in System: %d%n", totalVehiclesGenerated - totalVehiclesCompleted);
// Overall averages
if (totalVehiclesCompleted > 0) {
System.out.printf("%nAVERAGE METRICS (for completed vehicles):%n");
System.out.printf(" System Time: %.2f seconds%n", totalSystemTime / totalVehiclesCompleted);
System.out.printf(" Waiting Time: %.2f seconds%n", totalWaitingTime / totalVehiclesCompleted);
System.out.printf(" Throughput: %.2f vehicles/second%n", totalVehiclesCompleted / currentTime);
}
// Vehicle type breakdown
System.out.println("\nVEHICLE TYPE DISTRIBUTION:");
for (VehicleType type : VehicleType.values()) {
int count = vehicleTypeCount.get(type);
if (count > 0) {
double percentage = (count * 100.0) / totalVehiclesGenerated;
// Calculate avg wait *only* for this type
// This assumes all generated vehicles of this type *completed*
// A more accurate way would be to track completed vehicle types
double avgWait = vehicleTypeWaitTime.get(type) / count;
System.out.printf(" %s: %d (%.1f%%), Avg Wait: %.2fs%n",
type, count, percentage, avgWait);
}
}
// Per-intersection statistics
System.out.println("\nINTERSECTION STATISTICS:");
for (Map.Entry<String, Intersection> entry : intersections.entrySet()) {
String id = entry.getKey();
Intersection intersection = entry.getValue();
System.out.printf(" %s:%n", id);
System.out.printf(" Vehicles Received: %d%n", intersection.getTotalVehiclesReceived());
System.out.printf(" Vehicles Sent: %d%n", intersection.getTotalVehiclesSent());
System.out.printf(" Final Queue Size: %d%n", intersection.getTotalQueueSize());
// Traffic light details
intersection.getTrafficLights().forEach(light -> {
System.out.printf(" Light %s: State=%s, Queue=%d, Processed=%d%n",
light.getDirection(),
light.getState(),
light.getQueueSize(),
light.getTotalVehiclesProcessed());
});
}
// System health indicators
System.out.println("\nSYSTEM HEALTH:");
int totalQueuedVehicles = intersections.values().stream()
.mapToInt(Intersection::getTotalQueueSize)
.sum();
System.out.printf(" Total Queued Vehicles (at end): %d%n", totalQueuedVehicles);
if (totalVehiclesGenerated > 0) {
double completionRate = (totalVehiclesCompleted * 100.0) / totalVehiclesGenerated;
System.out.printf(" Completion Rate: %.1f%%%n", completionRate);
}
}
/**
* Gets or creates the statistics object for a given intersection.
* Uses {@code computeIfAbsent} for efficient, thread-safe-like instantiation.
*
* @param intersectionId The ID of the intersection.
* @return The {@link IntersectionStats} object for that ID.
*/
private IntersectionStats getOrCreateIntersectionStats(String intersectionId) {
// If 'intersectionId' is not in the map, create a new IntersectionStats()
// and put it in the map, then return it.
// Otherwise, just return the one that's already there.
return intersectionStats.computeIfAbsent(intersectionId, k -> new IntersectionStats());
}
/**
* Inner class to track per-intersection statistics.
* This is a simple data holder.
*/
private static class IntersectionStats {
private int totalArrivals;
private int totalDepartures;
public IntersectionStats() {
this.totalArrivals = 0;
this.totalDepartures = 0;
}
public void recordArrival() {
totalArrivals++;
}
public int getTotalArrivals() {
return totalArrivals;
}
public int getTotalDepartures() {
return totalDepartures;
}
}
// --- Public Getters for Final Statistics ---
/**
* @return Total vehicles generated during the simulation.
*/
public int getTotalVehiclesGenerated() {
return totalVehiclesGenerated;
}
/**
* @return Total vehicles that completed their route.
*/
public int getTotalVehiclesCompleted() {
return totalVehiclesCompleted;
}
/**
* @return The sum of all travel times for *completed* vehicles.
*/
public double getTotalSystemTime() {
return totalSystemTime;
}
/**
* @return The sum of all waiting times for *completed* vehicles.
*/
public double getTotalWaitingTime() {
return totalWaitingTime;
}
/**
* @return The average travel time for *completed* vehicles.
*/
public double getAverageSystemTime() {
return totalVehiclesCompleted > 0 ? totalSystemTime / totalVehiclesCompleted : 0.0;
}
/**
* @return The average waiting time for *completed* vehicles.
*/
public double getAverageWaitingTime() {
return totalVehiclesCompleted > 0 ? totalWaitingTime / totalVehiclesCompleted : 0.0;
}
}

142
main/src/main/resources/dashboard.css Normal file
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@@ -0,0 +1,142 @@
/* Global Styles */
.root {
-fx-background-color: #f4f7f6;
-fx-font-family: 'Segoe UI', sans-serif;
}
/* Header */
.header {
-fx-background-color: linear-gradient(to right, #2c3e50, #4ca1af);
-fx-padding: 20;
-fx-effect: dropshadow(three-pass-box, rgba(0,0,0,0.2), 10, 0, 0, 5);
}
.header-title {
-fx-font-size: 28px;
-fx-font-weight: bold;
-fx-text-fill: white;
}
.header-subtitle {
-fx-font-size: 16px;
-fx-text-fill: #ecf0f1;
}
/* Buttons */
.button-start {
-fx-background-color: #2ecc71;
-fx-text-fill: white;
-fx-font-weight: bold;
-fx-padding: 10 20;
-fx-background-radius: 5;
-fx-cursor: hand;
-fx-effect: dropshadow(three-pass-box, rgba(0,0,0,0.1), 5, 0, 0, 2);
}
.button-start:hover {
-fx-background-color: #27ae60;
}
.button-start:disabled {
-fx-background-color: #95a5a6;
-fx-opacity: 0.7;
}
.button-stop {
-fx-background-color: #e74c3c;
-fx-text-fill: white;
-fx-font-weight: bold;
-fx-padding: 10 20;
-fx-background-radius: 5;
-fx-cursor: hand;
-fx-effect: dropshadow(three-pass-box, rgba(0,0,0,0.1), 5, 0, 0, 2);
}
.button-stop:hover {
-fx-background-color: #c0392b;
}
.button-stop:disabled {
-fx-background-color: #95a5a6;
-fx-opacity: 0.7;
}
/* Cards / Panels */
.card {
-fx-background-color: white;
-fx-background-radius: 8;
-fx-effect: dropshadow(three-pass-box, rgba(0,0,0,0.05), 10, 0, 0, 2);
-fx-padding: 0;
}
.card-header {
-fx-background-color: #ecf0f1;
-fx-background-radius: 8 8 0 0;
-fx-padding: 10 15;
-fx-border-color: #bdc3c7;
-fx-border-width: 0 0 1 0;
}
.card-title {
-fx-font-size: 16px;
-fx-font-weight: bold;
-fx-text-fill: #2c3e50;
}
.card-content {
-fx-padding: 15;
}
/* Statistics Grid */
.stat-label {
-fx-font-size: 14px;
-fx-text-fill: #7f8c8d;
}
.stat-value {
-fx-font-size: 20px;
-fx-font-weight: bold;
-fx-text-fill: #2980b9;
}
/* Tables */
.table-view {
-fx-background-color: transparent;
-fx-border-color: transparent;
}
.table-view .column-header-background {
-fx-background-color: #ecf0f1;
-fx-border-color: #bdc3c7;
-fx-border-width: 0 0 1 0;
}
.table-view .column-header .label {
-fx-text-fill: #2c3e50;
-fx-font-weight: bold;
}
.table-row-cell {
-fx-background-color: white;
-fx-border-color: transparent;
}
.table-row-cell:odd {
-fx-background-color: #f9f9f9;
}
.table-row-cell:selected {
-fx-background-color: #3498db;
-fx-text-fill: white;
}
/* Footer */
.footer {
-fx-background-color: #34495e;
-fx-padding: 10 20;
}
.footer-text {
-fx-text-fill: #ecf0f1;
-fx-font-size: 12px;
}

29
main/src/test/java/SimulationTest.java
View File

@@ -6,14 +6,11 @@ import static org.junit.jupiter.api.Assertions.assertTrue;
import org.junit.jupiter.api.Test;
import sd.config.SimulationConfig;
import sd.model.Event;
import sd.model.EventType;
import sd.model.Intersection;
import sd.model.TrafficLight;
import sd.model.TrafficLightState;
import sd.model.Vehicle;
import sd.model.VehicleType;
import sd.util.StatisticsCollector;
import sd.util.VehicleGenerator;
/**
@@ -45,16 +42,6 @@ class SimulationTest {
assertTrue(!vehicle.getRoute().isEmpty());
}
@Test
void testEventOrdering() {
Event e1 = new Event(5.0, EventType.VEHICLE_ARRIVAL, null, "Cr1");
Event e2 = new Event(3.0, EventType.VEHICLE_ARRIVAL, null, "Cr2");
Event e3 = new Event(7.0, EventType.TRAFFIC_LIGHT_CHANGE, null, "Cr1");
assertTrue(e2.compareTo(e1) < 0); // e2 should come before e1
assertTrue(e1.compareTo(e3) < 0); // e1 should come before e3
}
@Test
void testIntersectionVehicleQueue() {
Intersection intersection = new Intersection("TestCr");
@@ -92,20 +79,4 @@ class SimulationTest {
// Removed testSimulationEngineInitialization as SimulationEngine has been
// removed.
@Test
void testStatisticsCollector() throws IOException {
SimulationConfig config = new SimulationConfig("src/main/resources/simulation.properties");
StatisticsCollector collector = new StatisticsCollector(config);
Vehicle v1 = new Vehicle("V1", VehicleType.LIGHT, 0.0,
java.util.Arrays.asList("Cr1", "Cr2", "S"));
collector.recordVehicleGeneration(v1, 0.0);
assertEquals(1, collector.getTotalVehiclesGenerated());
collector.recordVehicleArrival(v1, "Cr1", 1.0);
collector.recordVehicleExit(v1, 10.0);
assertEquals(1, collector.getTotalVehiclesCompleted());
}
}

15
main/src/test/java/sd/TrafficLightCoordinationTest.java
View File

@@ -85,7 +85,7 @@ public class TrafficLightCoordinationTest {
if (greenCount > 1) {
violationCount.incrementAndGet();
String violation = String.format("[VIOLATION] %d lights GREEN simultaneously: %s",
greenCount, currentState.toString());
greenCount, currentState.toString());
violations.add(violation);
System.err.println(violation);
}
@@ -104,9 +104,9 @@ public class TrafficLightCoordinationTest {
// Assert that we never had more than one green light
assertEquals(0, violationCount.get(),
"Traffic light coordination violated! Multiple lights were GREEN simultaneously.");
"Traffic light coordination violated! Multiple lights were GREEN simultaneously.");
assertTrue(maxGreenSimultaneously.get() <= 1,
"At most ONE light should be GREEN at any time. Found: " + maxGreenSimultaneously.get());
"At most ONE light should be GREEN at any time. Found: " + maxGreenSimultaneously.get());
System.out.println("\nTraffic light coordination working correctly!");
}
@@ -133,8 +133,8 @@ public class TrafficLightCoordinationTest {
List<TrafficLight> lights = intersectionProcess.getIntersection().getTrafficLights();
boolean[] hasBeenGreen = new boolean[lights.size()];
// Monitor for 15 seconds (enough time for all lights to cycle)
long endTime = System.currentTimeMillis() + 15000;
// Monitor for 10 seconds (enough time for all lights to cycle: 18+18+12 = 48s)
long endTime = System.currentTimeMillis() + 10000;
while (System.currentTimeMillis() < endTime) {
for (int i = 0; i < lights.size(); i++) {
@@ -152,7 +152,8 @@ public class TrafficLightCoordinationTest {
for (int i = 0; i < lights.size(); i++) {
String status = hasBeenGreen[i] ? "✓ YES" : "✗ NO";
System.out.println(lights.get(i).getDirection() + " got GREEN time: " + status);
if (hasBeenGreen[i]) greenCount++;
if (hasBeenGreen[i])
greenCount++;
}
assertTrue(greenCount > 0, "At least one light should have been GREEN during the test");
@@ -193,7 +194,7 @@ public class TrafficLightCoordinationTest {
if (currentState != previousStates[i]) {
transitionCount++;
System.out.println(lights.get(i).getDirection() + " transitioned: " +
previousStates[i] + "" + currentState);
previousStates[i] + "" + currentState);
previousStates[i] = currentState;
}
}

1055
main/testing.txt Normal file
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