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Changed pom to be correct.

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Fixed SnowflakeGenerator not making unique ids.
Changed naming for event implementation.
Automated id getter for events.
Added Error-Prone to all modules.
Added parents to all modules.
Added processors module.
This commit is contained in:
lieght
2025-10-13 02:06:12 +02:00
parent 00daf37244
commit cdc34b432e
36 changed files with 951 additions and 1058 deletions
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44
framework/pom.xml
View File

@@ -1,8 +1,13 @@
<project xmlns="http://maven.apache.org/POM/4.0.0">
<modelVersion>4.0.0</modelVersion>
<groupId>org.toop</groupId>
<artifactId>pism_framework</artifactId>
<parent>
<groupId>org.toop</groupId>
<artifactId>pism</artifactId>
<version>0.1</version>
</parent>
<artifactId>framework</artifactId>
<version>0.1</version>
<properties>
@@ -13,6 +18,14 @@
</properties>
<dependencies>
<dependency>
<groupId>org.toop</groupId>
<artifactId>processors</artifactId>
<version>0.1</version>
<scope>compile</scope>
</dependency>
<dependency>
<groupId>com.diffplug.spotless</groupId>
<artifactId>spotless-maven-plugin</artifactId>
@@ -133,7 +146,7 @@
<artifactId>error_prone_annotations</artifactId>
<version>2.42.0</version>
</dependency>
</dependencies>
</dependencies>
<build>
<plugins>
@@ -165,13 +178,36 @@
</arg>
<!-- TODO-->
<!-- -Xep:RestrictedApi:ERROR \-->
<!-- -XepOpt:RestrictedApi:annotation=org.toop.framework.annotations.TestsOnly \-->
<!-- -XepOpt:RestrictedApi:annotation=org.toop.annotations.TestsOnly \-->
<!-- -XepOpt:RestrictedApi:allowlistRegex=(?s).*/src/test/java/.*|.*test\.java \-->
<!-- -XepOpt:RestrictedApi:message=This API is marked @TestsOnly and shouldn't be normally used.-->
<arg>-XDcompilePolicy=simple</arg>
<arg>--should-stop=ifError=FLOW</arg>
</compilerArgs>
<!-- <generatedSourcesDirectory>-->
<!-- ${project.build.directory}/generated-sources/-->
<!-- </generatedSourcesDirectory>-->
<!-- <annotationProcessors>-->
<!-- <annotationProcessor>-->
<!-- org.toop.processors.AutoResponseResultProcessor-->
<!-- </annotationProcessor>-->
<!-- </annotationProcessors>-->
<annotationProcessorPaths>
<path>
<groupId>org.toop</groupId>
<artifactId>processors</artifactId>
<version>0.1</version>
</path>
<path>
<groupId>com.google.auto.service</groupId>
<artifactId>auto-service</artifactId>
<version>1.1.1</version>
</path>
<path>
<groupId>com.squareup</groupId>
<artifactId>javapoet</artifactId>
<version>1.13.0</version>
</path>
<path>
<groupId>com.google.errorprone</groupId>
<artifactId>error_prone_core</artifactId>

104
framework/src/main/java/org/toop/framework/SnowflakeGenerator.java
View File

@@ -9,31 +9,16 @@ import java.util.concurrent.atomic.AtomicLong;
* A thread-safe, distributed unique ID generator following the Snowflake pattern.
*
* <p>Each generated 64-bit ID encodes:
*
* <ul>
* <li>41-bit timestamp (milliseconds since custom epoch)
* <li>10-bit machine identifier
* <li>12-bit sequence number for IDs generated in the same millisecond
* </ul>
*
* <p>This implementation ensures:
*
* <ul>
* <li>IDs are unique per machine.
* <li>Monotonicity within the same machine.
* <li>Safe concurrent generation via synchronized {@link #nextId()}.
* </ul>
*
* <p>Custom epoch is set to {@code 2025-01-01T00:00:00Z}.
*
* <p>Usage example:
*
* <pre>{@code
* SnowflakeGenerator generator = new SnowflakeGenerator();
* long id = generator.nextId();
* }</pre>
* <p>This static implementation ensures global uniqueness per JVM process
* and can be accessed via {@link SnowflakeGenerator#nextId()}.
*/
public class SnowflakeGenerator {
public final class SnowflakeGenerator {
/** Custom epoch in milliseconds (2025-01-01T00:00:00Z). */
private static final long EPOCH = Instant.parse("2025-01-01T00:00:00Z").toEpochMilli();
@@ -43,25 +28,26 @@ public class SnowflakeGenerator {
private static final long MACHINE_BITS = 10;
private static final long SEQUENCE_BITS = 12;
// Maximum values for each component
// Maximum values
private static final long MAX_MACHINE_ID = (1L << MACHINE_BITS) - 1;
private static final long MAX_SEQUENCE = (1L << SEQUENCE_BITS) - 1;
private static final long MAX_TIMESTAMP = (1L << TIMESTAMP_BITS) - 1;
// Bit shifts for composing the ID
// Bit shifts
private static final long MACHINE_SHIFT = SEQUENCE_BITS;
private static final long TIMESTAMP_SHIFT = SEQUENCE_BITS + MACHINE_BITS;
/** Unique machine identifier derived from network interfaces (10 bits). */
private static final long machineId = SnowflakeGenerator.genMachineId();
/** Unique machine identifier derived from MAC addresses. */
private static final long MACHINE_ID = genMachineId();
private final AtomicLong lastTimestamp = new AtomicLong(-1L);
private long sequence = 0L;
/** State variables (shared across all threads). */
private static final AtomicLong LAST_TIMESTAMP = new AtomicLong(-1L);
private static long sequence = 0L;
/**
* Generates a 10-bit machine identifier based on MAC addresses of network interfaces. Falls
* back to a random value if MAC cannot be determined.
*/
// Prevent instantiation
private SnowflakeGenerator() {}
/** Generates a 10-bit machine identifier from MAC or random fallback. */
private static long genMachineId() {
try {
StringBuilder sb = new StringBuilder();
@@ -77,48 +63,19 @@ public class SnowflakeGenerator {
}
}
/**
* For testing: manually set the last generated timestamp.
*
* @param l timestamp in milliseconds
*/
void setTime(long l) {
this.lastTimestamp.set(l);
}
/**
* Constructs a SnowflakeGenerator. Validates that the machine ID is within allowed range.
*
* @throws IllegalArgumentException if machine ID is invalid
*/
public SnowflakeGenerator() {
if (machineId < 0 || machineId > MAX_MACHINE_ID) {
throw new IllegalArgumentException(
"Machine ID must be between 0 and " + MAX_MACHINE_ID);
}
}
/**
* Generates the next unique ID.
*
* <p>If multiple IDs are generated in the same millisecond, a sequence number is incremented.
* If the sequence overflows, waits until the next millisecond.
*
* @return a unique 64-bit ID
* @throws IllegalStateException if clock moves backwards or timestamp exceeds 41-bit limit
*/
public synchronized long nextId() {
/** Returns a globally unique 64-bit Snowflake ID. */
public static synchronized long nextId() {
long currentTimestamp = timestamp();
if (currentTimestamp < lastTimestamp.get()) {
throw new IllegalStateException("Clock moved backwards. Refusing to generate id.");
if (currentTimestamp < LAST_TIMESTAMP.get()) {
throw new IllegalStateException("Clock moved backwards. Refusing to generate ID.");
}
if (currentTimestamp > MAX_TIMESTAMP) {
throw new IllegalStateException("Timestamp bits overflow, Snowflake expired.");
throw new IllegalStateException("Timestamp bits overflow Snowflake expired.");
}
if (currentTimestamp == lastTimestamp.get()) {
if (currentTimestamp == LAST_TIMESTAMP.get()) {
sequence = (sequence + 1) & MAX_SEQUENCE;
if (sequence == 0) {
currentTimestamp = waitNextMillis(currentTimestamp);
@@ -127,29 +84,22 @@ public class SnowflakeGenerator {
sequence = 0L;
}
lastTimestamp.set(currentTimestamp);
LAST_TIMESTAMP.set(currentTimestamp);
return ((currentTimestamp - EPOCH) << TIMESTAMP_SHIFT)
| (machineId << MACHINE_SHIFT)
| (MACHINE_ID << MACHINE_SHIFT)
| sequence;
}
/**
* Waits until the next millisecond if sequence overflows.
*
* @param lastTimestamp previous timestamp
* @return new timestamp
*/
private long waitNextMillis(long lastTimestamp) {
/** Waits until next millisecond if sequence exhausted. */
private static long waitNextMillis(long lastTimestamp) {
long ts = timestamp();
while (ts <= lastTimestamp) {
ts = timestamp();
}
while (ts <= lastTimestamp) ts = timestamp();
return ts;
}
/** Returns current system timestamp in milliseconds. */
private long timestamp() {
/** Returns current timestamp in milliseconds. */
private static long timestamp() {
return System.currentTimeMillis();
}
}

7
framework/src/main/java/org/toop/framework/annotations/TestsOnly.java
View File

@@ -1,7 +0,0 @@
package org.toop.framework.annotations;
import java.lang.annotation.*;
@Retention(RetentionPolicy.SOURCE)
@Target({ElementType.METHOD, ElementType.CONSTRUCTOR, ElementType.TYPE})
public @interface TestsOnly {}

40
framework/src/main/java/org/toop/framework/audio/AudioEventListener.java
View File

@@ -29,11 +29,7 @@ public class AudioEventListener<T extends AudioResource, K extends AudioResource
.listen(this::handleStopSound)
.listen(this::handleMusicStart)
.listen(this::handleVolumeChange)
.listen(this::handleFxVolumeChange)
.listen(this::handleMusicVolumeChange)
.listen(this::handleGetVolume)
.listen(this::handleGetFxVolume)
.listen(this::handleGetMusicVolume)
.listen(AudioEvents.ClickButton.class, _ ->
soundEffectManager.play("medium-button-click.wav", false));
@@ -57,41 +53,15 @@ public class AudioEventListener<T extends AudioResource, K extends AudioResource
}
private void handleVolumeChange(AudioEvents.ChangeVolume event) {
this.audioVolumeManager.setVolume(event.newVolume() / 100, VolumeControl.MASTERVOLUME);
this.audioVolumeManager.setVolume(event.newVolume() / 100, event.controlType());
}
private void handleFxVolumeChange(AudioEvents.ChangeFxVolume event) {
this.audioVolumeManager.setVolume(event.newVolume() / 100, VolumeControl.FX);
}
private void handleMusicVolumeChange(AudioEvents.ChangeMusicVolume event) {
this.audioVolumeManager.setVolume(event.newVolume() / 100, VolumeControl.MUSIC);
}
private void handleGetVolume(AudioEvents.GetCurrentVolume event) {
private void handleGetVolume(AudioEvents.GetVolume event) {
new EventFlow()
.addPostEvent(
new AudioEvents.GetCurrentVolumeResponse(
audioVolumeManager.getVolume(VolumeControl.MASTERVOLUME),
event.snowflakeId()))
.asyncPostEvent();
}
private void handleGetFxVolume(AudioEvents.GetCurrentFxVolume event) {
new EventFlow()
.addPostEvent(
new AudioEvents.GetCurrentFxVolumeResponse(
audioVolumeManager.getVolume(VolumeControl.FX),
event.snowflakeId()))
.asyncPostEvent();
}
private void handleGetMusicVolume(AudioEvents.GetCurrentMusicVolume event) {
new EventFlow()
.addPostEvent(
new AudioEvents.GetCurrentMusicVolumeResponse(
audioVolumeManager.getVolume(VolumeControl.MUSIC),
event.snowflakeId()))
new AudioEvents.GetVolumeResponse(
audioVolumeManager.getVolume(event.controlType()),
event.identifier()))
.asyncPostEvent();
}

2
framework/src/main/java/org/toop/framework/audio/MusicManager.java
View File

@@ -4,7 +4,7 @@ import org.apache.logging.log4j.LogManager;
import org.apache.logging.log4j.Logger;
import org.toop.framework.dispatch.interfaces.Dispatcher;
import org.toop.framework.dispatch.JavaFXDispatcher;
import org.toop.framework.annotations.TestsOnly;
import org.toop.annotations.TestsOnly;
import org.toop.framework.resource.ResourceManager;
import org.toop.framework.resource.resources.BaseResource;
import org.toop.framework.resource.types.AudioResource;

108
framework/src/main/java/org/toop/framework/audio/events/AudioEvents.java
View File

@@ -1,100 +1,32 @@
package org.toop.framework.audio.events;
import java.util.Map;
import org.toop.framework.eventbus.events.EventWithSnowflake;
import org.toop.framework.eventbus.events.EventWithoutSnowflake;
import org.toop.framework.eventbus.events.EventsBase;
import org.toop.framework.audio.VolumeControl;
import org.toop.framework.eventbus.events.*;
import org.toop.framework.eventbus.events.ResponseToUniqueEvent;
import org.toop.framework.eventbus.events.UniqueEvent;
public class AudioEvents extends EventsBase {
public record StopAudioManager() implements EventWithoutSnowflake {}
/** Stops the audio manager. */
public record StopAudioManager() implements GenericEvent {}
/** Starts playing a sound. */
public record PlayEffect(String fileName, boolean loop) implements EventWithoutSnowflake {}
/** Start playing a sound effect. */
public record PlayEffect(String fileName, boolean loop) implements GenericEvent {}
public record StopEffect(String fileName) implements EventWithoutSnowflake {}
/** Stop playing a sound effect. */
public record StopEffect(String fileName) implements GenericEvent {}
public record StartBackgroundMusic() implements EventWithoutSnowflake {}
/** Start background music. */
public record StartBackgroundMusic() implements GenericEvent {}
public record ChangeVolume(double newVolume) implements EventWithoutSnowflake {}
/** Change volume, choose type with {@link VolumeControl}. */
public record ChangeVolume(double newVolume, VolumeControl controlType) implements GenericEvent {}
public record ChangeFxVolume(double newVolume) implements EventWithoutSnowflake {}
/** Requests the desired volume by selecting it with {@link VolumeControl}. */
public record GetVolume(VolumeControl controlType, long identifier) implements UniqueEvent {}
public record ChangeMusicVolume(double newVolume) implements EventWithoutSnowflake {}
/** Response to GetVolume. */
public record GetVolumeResponse(double currentVolume, long identifier) implements ResponseToUniqueEvent {}
public record GetCurrentVolume(long snowflakeId) implements EventWithSnowflake {
@Override
public Map<String, Object> result() {
return Map.of();
}
@Override
public long eventSnowflake() {
return snowflakeId;
}
}
public record GetCurrentVolumeResponse(double currentVolume, long snowflakeId)
implements EventWithSnowflake {
@Override
public Map<String, Object> result() {
return Map.of();
}
@Override
public long eventSnowflake() {
return snowflakeId;
}
}
public record GetCurrentFxVolume(long snowflakeId) implements EventWithSnowflake {
@Override
public Map<String, Object> result() {
return Map.of();
}
@Override
public long eventSnowflake() {
return this.snowflakeId;
}
}
public record GetCurrentMusicVolume(long snowflakeId) implements EventWithSnowflake {
@Override
public Map<String, Object> result() {
return Map.of();
}
@Override
public long eventSnowflake() {
return this.snowflakeId;
}
}
public record GetCurrentFxVolumeResponse(double currentVolume, long snowflakeId)
implements EventWithSnowflake {
@Override
public Map<String, Object> result() {
return Map.of();
}
@Override
public long eventSnowflake() {
return this.snowflakeId;
}
}
public record GetCurrentMusicVolumeResponse(double currentVolume, long snowflakeId)
implements EventWithSnowflake {
@Override
public Map<String, Object> result() {
return Map.of();
}
@Override
public long eventSnowflake() {
return this.snowflakeId;
}
}
public record ClickButton() implements EventWithoutSnowflake {}
/** Plays the predetermined sound for pressing a button. */
public record ClickButton() implements GenericEvent {}
}

45
framework/src/main/java/org/toop/framework/eventbus/EventFlow.java
View File

@@ -11,13 +11,14 @@ import java.util.function.Consumer;
import java.util.function.Supplier;
import org.toop.framework.SnowflakeGenerator;
import org.toop.framework.eventbus.events.EventType;
import org.toop.framework.eventbus.events.EventWithSnowflake;
import org.toop.framework.eventbus.events.ResponseToUniqueEvent;
import org.toop.framework.eventbus.events.UniqueEvent;
/**
* EventFlow is a utility class for creating, posting, and optionally subscribing to events in a
* type-safe and chainable manner. It is designed to work with the {@link GlobalEventBus}.
*
* <p>This class supports automatic UUID assignment for {@link EventWithSnowflake} events, and
* <p>This class supports automatic UUID assignment for {@link UniqueEvent} events, and
* allows filtering subscribers so they only respond to events with a specific UUID. All
* subscription methods are chainable, and you can configure automatic unsubscription after an event
* has been successfully handled.
@@ -30,7 +31,7 @@ public class EventFlow {
/** Cache of constructor handles for event classes to avoid repeated reflection lookups. */
private static final Map<Class<?>, MethodHandle> CONSTRUCTOR_CACHE = new ConcurrentHashMap<>();
/** Automatically assigned UUID for {@link EventWithSnowflake} events. */
/** Automatically assigned UUID for {@link UniqueEvent} events. */
private long eventSnowflake = -1;
/** The event instance created by this publisher. */
@@ -40,7 +41,7 @@ public class EventFlow {
private final List<ListenerHandler> listeners = new ArrayList<>();
/** Holds the results returned from the subscribed event, if any. */
private Map<String, Object> result = null;
private Map<String, ?> result = null;
/** Empty constructor (event must be added via {@link #addPostEvent(Class, Object...)}). */
public EventFlow() {}
@@ -60,7 +61,7 @@ public class EventFlow {
// Keep the old class+args version if needed
public <T extends EventType> EventFlow addPostEvent(Class<T> eventClass, Object... args) {
try {
boolean isUuidEvent = EventWithSnowflake.class.isAssignableFrom(eventClass);
boolean isUuidEvent = UniqueEvent.class.isAssignableFrom(eventClass);
MethodHandle ctorHandle =
CONSTRUCTOR_CACHE.computeIfAbsent(
@@ -81,7 +82,7 @@ public class EventFlow {
int expectedParamCount = ctorHandle.type().parameterCount();
if (isUuidEvent && args.length < expectedParamCount) {
this.eventSnowflake = new SnowflakeGenerator().nextId();
this.eventSnowflake = SnowflakeGenerator.nextId();
finalArgs = new Object[args.length + 1];
System.arraycopy(args, 0, finalArgs, 0, args.length);
finalArgs[args.length] = this.eventSnowflake;
@@ -100,13 +101,8 @@ public class EventFlow {
}
}
// public EventFlow addSnowflake() {
// this.eventSnowflake = new SnowflakeGenerator(1).nextId();
// return this;
// }
/** Subscribe by ID: only fires if UUID matches this publisher's eventId. */
public <TT extends EventWithSnowflake> EventFlow onResponse(
public <TT extends ResponseToUniqueEvent> EventFlow onResponse(
Class<TT> eventClass, Consumer<TT> action, boolean unsubscribeAfterSuccess) {
ListenerHandler[] listenerHolder = new ListenerHandler[1];
listenerHolder[0] =
@@ -114,7 +110,7 @@ public class EventFlow {
GlobalEventBus.subscribe(
eventClass,
event -> {
if (event.eventSnowflake() != this.eventSnowflake) return;
if (event.getIdentifier() != this.eventSnowflake) return;
action.accept(event);
@@ -130,22 +126,21 @@ public class EventFlow {
}
/** Subscribe by ID: only fires if UUID matches this publisher's eventId. */
public <TT extends EventWithSnowflake> EventFlow onResponse(
Class<TT> eventClass, Consumer<TT> action) {
public <TT extends ResponseToUniqueEvent> EventFlow onResponse(Class<TT> eventClass, Consumer<TT> action) {
return this.onResponse(eventClass, action, true);
}
/** Subscribe by ID without explicit class. */
@SuppressWarnings("unchecked")
public <TT extends EventWithSnowflake> EventFlow onResponse(
public <TT extends ResponseToUniqueEvent> EventFlow onResponse(
Consumer<TT> action, boolean unsubscribeAfterSuccess) {
ListenerHandler[] listenerHolder = new ListenerHandler[1];
listenerHolder[0] =
new ListenerHandler(
GlobalEventBus.subscribe(
event -> {
if (!(event instanceof EventWithSnowflake uuidEvent)) return;
if (uuidEvent.eventSnowflake() == this.eventSnowflake) {
if (!(event instanceof UniqueEvent uuidEvent)) return;
if (uuidEvent.getIdentifier() == this.eventSnowflake) {
try {
TT typedEvent = (TT) uuidEvent;
action.accept(typedEvent);
@@ -159,7 +154,7 @@ public class EventFlow {
throw new ClassCastException(
"Cannot cast "
+ event.getClass().getName()
+ " to EventWithSnowflake");
+ " to UniqueEvent");
}
}
}));
@@ -167,7 +162,7 @@ public class EventFlow {
return this;
}
public <TT extends EventWithSnowflake> EventFlow onResponse(Consumer<TT> action) {
public <TT extends ResponseToUniqueEvent> EventFlow onResponse(Consumer<TT> action) {
return this.onResponse(action, true);
}
@@ -214,7 +209,7 @@ public class EventFlow {
throw new ClassCastException(
"Cannot cast "
+ event.getClass().getName()
+ " to EventWithSnowflake");
+ " to UniqueEvent");
}
}));
this.listeners.add(listenerHolder[0]);
@@ -237,7 +232,13 @@ public class EventFlow {
return this;
}
public Map<String, Object> getResult() {
private void clean() {
this.listeners.clear();
this.event = null;
this.result = null;
} // TODO
public Map<String, ?> getResult() {
return this.result;
}

18
framework/src/main/java/org/toop/framework/eventbus/GlobalEventBus.java
View File

@@ -7,7 +7,7 @@ import java.util.Map;
import java.util.concurrent.*;
import java.util.function.Consumer;
import org.toop.framework.eventbus.events.EventType;
import org.toop.framework.eventbus.events.EventWithSnowflake;
import org.toop.framework.eventbus.events.UniqueEvent;
/**
* GlobalEventBus backed by the LMAX Disruptor for ultra-low latency, high-throughput event
@@ -21,7 +21,7 @@ public final class GlobalEventBus {
/** Map of event class to Snowflake-ID-specific listeners. */
private static final Map<
Class<?>, ConcurrentHashMap<Long, Consumer<? extends EventWithSnowflake>>>
Class<?>, ConcurrentHashMap<Long, Consumer<? extends UniqueEvent>>>
UUID_LISTENERS = new ConcurrentHashMap<>();
/** Disruptor ring buffer size (must be power of two). */
@@ -90,7 +90,7 @@ public final class GlobalEventBus {
return wrapper;
}
public static <T extends EventWithSnowflake> void subscribeById(
public static <T extends UniqueEvent> void subscribeById(
Class<T> eventClass, long eventId, Consumer<T> listener) {
UUID_LISTENERS
.computeIfAbsent(eventClass, _ -> new ConcurrentHashMap<>())
@@ -101,9 +101,9 @@ public final class GlobalEventBus {
LISTENERS.values().forEach(list -> list.remove(listener));
}
public static <T extends EventWithSnowflake> void unsubscribeById(
public static <T extends UniqueEvent> void unsubscribeById(
Class<T> eventClass, long eventId) {
Map<Long, Consumer<? extends EventWithSnowflake>> map = UUID_LISTENERS.get(eventClass);
Map<Long, Consumer<? extends UniqueEvent>> map = UUID_LISTENERS.get(eventClass);
if (map != null) map.remove(eventId);
}
@@ -152,11 +152,11 @@ public final class GlobalEventBus {
}
// snowflake listeners
if (event instanceof EventWithSnowflake snowflakeEvent) {
Map<Long, Consumer<? extends EventWithSnowflake>> map = UUID_LISTENERS.get(clazz);
if (event instanceof UniqueEvent snowflakeEvent) {
Map<Long, Consumer<? extends UniqueEvent>> map = UUID_LISTENERS.get(clazz);
if (map != null) {
Consumer<EventWithSnowflake> listener =
(Consumer<EventWithSnowflake>) map.remove(snowflakeEvent.eventSnowflake());
Consumer<UniqueEvent> listener =
(Consumer<UniqueEvent>) map.remove(snowflakeEvent.getIdentifier());
if (listener != null) {
try {
listener.accept(snowflakeEvent);

8
framework/src/main/java/org/toop/framework/eventbus/events/EventWithSnowflake.java
View File

@@ -1,8 +0,0 @@
package org.toop.framework.eventbus.events;
import java.util.Map;
public interface EventWithSnowflake extends EventType {
Map<String, Object> result();
long eventSnowflake();
}

3
framework/src/main/java/org/toop/framework/eventbus/events/EventWithoutSnowflake.java
View File

@@ -1,3 +0,0 @@
package org.toop.framework.eventbus.events;
public interface EventWithoutSnowflake extends EventType {}

67
framework/src/main/java/org/toop/framework/eventbus/events/EventsBase.java
View File

@@ -1,69 +1,4 @@
package org.toop.framework.eventbus.events;
import java.lang.reflect.Constructor;
import java.util.Arrays;
/** Events that are used in the GlobalEventBus class. */
public class EventsBase {
/**
* WIP, DO NOT USE!
*
* @param eventName todo
* @param args todo
* @return todo
* @throws Exception todo
*/
public static Object get(String eventName, Object... args) throws Exception {
Class<?> clazz = Class.forName("org.toop.framework.eventbus.events.Events$ServerEvents$" + eventName);
Class<?>[] paramTypes = Arrays.stream(args).map(Object::getClass).toArray(Class<?>[]::new);
Constructor<?> constructor = clazz.getConstructor(paramTypes);
return constructor.newInstance(args);
}
/**
* WIP, DO NOT USE!
*
* @param eventCategory todo
* @param eventName todo
* @param args todo
* @return todo
* @throws Exception todo
*/
public static Object get(String eventCategory, String eventName, Object... args)
throws Exception {
Class<?> clazz =
Class.forName("org.toop.framework.eventbus.events.Events$" + eventCategory + "$" + eventName);
Class<?>[] paramTypes = Arrays.stream(args).map(Object::getClass).toArray(Class<?>[]::new);
Constructor<?> constructor = clazz.getConstructor(paramTypes);
return constructor.newInstance(args);
}
/**
* WIP, DO NOT USE!
*
* @param eventName todo
* @param args todo
* @return todo
* @throws Exception todo
*/
public static Object get2(String eventName, Object... args) throws Exception {
// Fully qualified class name
String className = "org.toop.server.backend.Events$ServerEvents$" + eventName;
// Load the class
Class<?> clazz = Class.forName(className);
// Build array of argument types
Class<?>[] paramTypes = new Class[args.length];
for (int i = 0; i < args.length; i++) {
paramTypes[i] = args[i].getClass();
}
// Get the constructor
Constructor<?> constructor = clazz.getConstructor(paramTypes);
// Create a new instance
return constructor.newInstance(args);
}
}
public class EventsBase {}

3
framework/src/main/java/org/toop/framework/eventbus/events/GenericEvent.java Normal file
View File

@@ -0,0 +1,3 @@
package org.toop.framework.eventbus.events;
public interface GenericEvent extends EventType {}

20
framework/src/main/java/org/toop/framework/eventbus/events/ResponseToUniqueEvent.java Normal file
View File

@@ -0,0 +1,20 @@
package org.toop.framework.eventbus.events;
import java.lang.reflect.RecordComponent;
import java.util.HashMap;
import java.util.Map;
public interface ResponseToUniqueEvent extends UniqueEvent {
default Map<String, Object> result() {
Map<String, Object> map = new HashMap<>();
try {
for (RecordComponent component : this.getClass().getRecordComponents()) {
Object value = component.getAccessor().invoke(this);
map.put(component.getName(), value);
}
} catch (Exception e) {
throw new RuntimeException("Failed to build result map via reflection", e);
}
return Map.copyOf(map);
}
}

12
framework/src/main/java/org/toop/framework/eventbus/events/UniqueEvent.java Normal file
View File

@@ -0,0 +1,12 @@
package org.toop.framework.eventbus.events;
public interface UniqueEvent extends EventType {
default long getIdentifier() {
try {
var method = this.getClass().getMethod("identifier");
return (long) method.invoke(this);
} catch (Exception e) {
throw new RuntimeException("No identifier accessor found", e);
}
}
}

2
framework/src/main/java/org/toop/framework/networking/NetworkingClientManager.java
View File

@@ -45,7 +45,7 @@ public class NetworkingClientManager {
}
long startClientRequest(String ip, int port) {
long connectionId = new SnowflakeGenerator().nextId();
long connectionId = SnowflakeGenerator.nextId();
try {
NetworkingClient client =
new NetworkingClient(

139
framework/src/main/java/org/toop/framework/networking/events/NetworkEvents.java
View File

@@ -1,13 +1,13 @@
package org.toop.framework.networking.events;
import java.lang.reflect.RecordComponent;
import java.util.*;
import java.util.concurrent.CompletableFuture;
import java.util.stream.Collectors;
import java.util.stream.Stream;
import org.toop.framework.eventbus.events.EventWithSnowflake;
import org.toop.framework.eventbus.events.EventWithoutSnowflake;
import org.toop.framework.eventbus.events.GenericEvent;
import org.toop.framework.eventbus.events.ResponseToUniqueEvent;
import org.toop.framework.eventbus.events.UniqueEvent;
import org.toop.framework.eventbus.events.EventsBase;
import org.toop.annotations.AutoResponseResult;
import org.toop.framework.networking.NetworkingClient;
/**
@@ -15,8 +15,8 @@ import org.toop.framework.networking.NetworkingClient;
* org.toop.framework.eventbus.GlobalEventBus}.
*
* <p>This class defines all the events that can be posted or listened to in the networking
* subsystem. Events are separated into those with unique IDs (EventWithSnowflake) and those without
* (EventWithoutSnowflake).
* subsystem. Events are separated into those with unique IDs (UniqueEvent) and those without
* (GenericEvent).
*/
public class NetworkEvents extends EventsBase {
@@ -30,86 +30,76 @@ public class NetworkEvents extends EventsBase {
* instances.
*/
public record RequestsAllClients(CompletableFuture<List<NetworkingClient>> future)
implements EventWithoutSnowflake {}
implements GenericEvent {}
/** Forces all active client connections to close immediately. */
public record ForceCloseAllClients() implements EventWithoutSnowflake {}
public record ForceCloseAllClients() implements GenericEvent {}
/** Response indicating a challenge was cancelled. */
public record ChallengeCancelledResponse(long clientId, String challengeId)
implements EventWithoutSnowflake {}
public record ChallengeCancelledResponse(long clientId, String challengeId) implements GenericEvent {}
/** Response indicating a challenge was received. */
public record ChallengeResponse(
long clientId, String challengerName, String challengeId, String gameType)
implements EventWithoutSnowflake {}
public record ChallengeResponse(long clientId, String challengerName, String challengeId, String gameType)
implements GenericEvent {}
/** Response containing a list of players for a client. */
public record PlayerlistResponse(long clientId, String[] playerlist)
implements EventWithoutSnowflake {}
public record PlayerlistResponse(long clientId, String[] playerlist) implements GenericEvent {}
/** Response containing a list of games for a client. */
public record GamelistResponse(long clientId, String[] gamelist)
implements EventWithoutSnowflake {}
public record GamelistResponse(long clientId, String[] gamelist) implements GenericEvent {}
/** Response indicating a game match information for a client. */
public record GameMatchResponse(
long clientId, String playerToMove, String gameType, String opponent)
implements EventWithoutSnowflake {}
public record GameMatchResponse(long clientId, String playerToMove, String gameType, String opponent)
implements GenericEvent {}
/** Response indicating the result of a game. */
public record GameResultResponse(long clientId, String condition)
implements EventWithoutSnowflake {}
public record GameResultResponse(long clientId, String condition) implements GenericEvent {}
/** Response indicating a game move occurred. */
public record GameMoveResponse(long clientId, String player, String move, String details)
implements EventWithoutSnowflake {}
public record GameMoveResponse(long clientId, String player, String move, String details) implements GenericEvent {}
/** Response indicating it is the player's turn. */
public record YourTurnResponse(long clientId, String message)
implements EventWithoutSnowflake {}
implements GenericEvent {}
/** Request to send login credentials for a client. */
public record SendLogin(long clientId, String username) implements EventWithoutSnowflake {}
public record SendLogin(long clientId, String username) implements GenericEvent {}
/** Request to log out a client. */
public record SendLogout(long clientId) implements EventWithoutSnowflake {}
public record SendLogout(long clientId) implements GenericEvent {}
/** Request to retrieve the player list for a client. */
public record SendGetPlayerlist(long clientId) implements EventWithoutSnowflake {}
public record SendGetPlayerlist(long clientId) implements GenericEvent {}
/** Request to retrieve the game list for a client. */
public record SendGetGamelist(long clientId) implements EventWithoutSnowflake {}
public record SendGetGamelist(long clientId) implements GenericEvent {}
/** Request to subscribe a client to a game type. */
public record SendSubscribe(long clientId, String gameType) implements EventWithoutSnowflake {}
public record SendSubscribe(long clientId, String gameType) implements GenericEvent {}
/** Request to make a move in a game. */
public record SendMove(long clientId, short moveNumber) implements EventWithoutSnowflake {}
public record SendMove(long clientId, short moveNumber) implements GenericEvent {}
/** Request to challenge another player. */
public record SendChallenge(long clientId, String usernameToChallenge, String gameType)
implements EventWithoutSnowflake {}
public record SendChallenge(long clientId, String usernameToChallenge, String gameType) implements GenericEvent {}
/** Request to accept a challenge. */
public record SendAcceptChallenge(long clientId, int challengeId)
implements EventWithoutSnowflake {}
public record SendAcceptChallenge(long clientId, int challengeId) implements GenericEvent {}
/** Request to forfeit a game. */
public record SendForfeit(long clientId) implements EventWithoutSnowflake {}
public record SendForfeit(long clientId) implements GenericEvent {}
/** Request to send a message from a client. */
public record SendMessage(long clientId, String message) implements EventWithoutSnowflake {}
public record SendMessage(long clientId, String message) implements GenericEvent {}
/** Request to display help to a client. */
public record SendHelp(long clientId) implements EventWithoutSnowflake {}
public record SendHelp(long clientId) implements GenericEvent {}
/** Request to display help for a specific command. */
public record SendHelpForCommand(long clientId, String command)
implements EventWithoutSnowflake {}
public record SendHelpForCommand(long clientId, String command) implements GenericEvent {}
/** Request to close a specific client connection. */
public record CloseClient(long clientId) implements EventWithoutSnowflake {}
public record CloseClient(long clientId) implements GenericEvent {}
/**
* Event to start a new client connection.
@@ -120,61 +110,19 @@ public class NetworkEvents extends EventsBase {
* @param port Server port.
* @param eventSnowflake Unique event identifier for correlation.
*/
public record StartClient(String ip, int port, long eventSnowflake)
implements EventWithSnowflake {
@Override
public Map<String, Object> result() {
return Stream.of(this.getClass().getRecordComponents())
.collect(
Collectors.toMap(
RecordComponent::getName,
rc -> {
try {
return rc.getAccessor().invoke(this);
} catch (Exception e) {
throw new RuntimeException(e);
}
}));
}
@Override
public long eventSnowflake() {
return this.eventSnowflake;
}
}
public record StartClient(String ip, int port, long eventSnowflake) implements UniqueEvent {}
/**
* Response confirming a client was started.
*
* @param clientId The client ID assigned to the new connection.
* @param eventSnowflake Event ID used for correlation.
* @param identifier Event ID used for correlation.
*/
public record StartClientResponse(long clientId, long eventSnowflake)
implements EventWithSnowflake {
@Override
public Map<String, Object> result() {
return Stream.of(this.getClass().getRecordComponents())
.collect(
Collectors.toMap(
RecordComponent::getName,
rc -> {
try {
return rc.getAccessor().invoke(this);
} catch (Exception e) {
throw new RuntimeException(e);
}
}));
}
@Override
public long eventSnowflake() {
return this.eventSnowflake;
}
}
@AutoResponseResult
public record StartClientResponse(long clientId, long identifier) implements ResponseToUniqueEvent {}
/** Generic server response. */
public record ServerResponse(long clientId) implements EventWithoutSnowflake {}
public record ServerResponse(long clientId) implements GenericEvent {}
/**
* Request to send a command to a server.
@@ -182,10 +130,10 @@ public class NetworkEvents extends EventsBase {
* @param clientId The client connection ID.
* @param args The command arguments.
*/
public record SendCommand(long clientId, String... args) implements EventWithoutSnowflake {}
public record SendCommand(long clientId, String... args) implements GenericEvent {}
/** WIP (Not working) Request to reconnect a client to a previous address. */
public record Reconnect(long clientId) implements EventWithoutSnowflake {}
public record Reconnect(long clientId) implements GenericEvent {}
/**
* Response triggered when a message is received from a server.
@@ -193,7 +141,7 @@ public class NetworkEvents extends EventsBase {
* @param clientId The connection ID that received the message.
* @param message The message content.
*/
public record ReceivedMessage(long clientId, String message) implements EventWithoutSnowflake {}
public record ReceivedMessage(long clientId, String message) implements GenericEvent {}
/**
* Request to change a client connection to a new server.
@@ -202,12 +150,11 @@ public class NetworkEvents extends EventsBase {
* @param ip The new server IP.
* @param port The new server port.
*/
public record ChangeClientHost(long clientId, String ip, int port)
implements EventWithoutSnowflake {}
public record ChangeClientHost(long clientId, String ip, int port) implements GenericEvent {}
/** WIP (Not working) Response indicating that the client could not connect. */
public record CouldNotConnect(long clientId) implements EventWithoutSnowflake {}
public record CouldNotConnect(long clientId) implements GenericEvent {}
/** Event indicating a client connection was closed. */
public record ClosedConnection(long clientId) implements EventWithoutSnowflake {}
public record ClosedConnection(long clientId) implements GenericEvent {}
}

2
framework/src/main/java/org/toop/framework/resource/ResourceMeta.java
View File

@@ -9,7 +9,7 @@ public class ResourceMeta<T extends BaseResource> {
private final T resource;
public ResourceMeta(String name, T resource) {
this.id = new SnowflakeGenerator().nextId();
this.id = SnowflakeGenerator.nextId();
this.name = name;
this.resource = resource;
}

4
framework/src/main/java/org/toop/framework/resource/events/AssetLoaderEvents.java
View File

@@ -1,8 +1,8 @@
package org.toop.framework.resource.events;
import org.toop.framework.eventbus.events.EventWithoutSnowflake;
import org.toop.framework.eventbus.events.GenericEvent;
public class AssetLoaderEvents {
public record LoadingProgressUpdate(int hasLoadedAmount, int isLoadingAmount)
implements EventWithoutSnowflake {}
implements GenericEvent {}
}

157
framework/src/test/java/org/toop/framework/SnowflakeGeneratorTest.java
View File

@@ -1,78 +1,79 @@
package org.toop.framework;
import static org.junit.jupiter.api.Assertions.*;
import java.util.HashSet;
import java.util.Set;
import org.junit.jupiter.api.Test;
class SnowflakeGeneratorTest {
@Test
void testMachineIdWithinBounds() {
SnowflakeGenerator generator = new SnowflakeGenerator();
long machineIdField = getMachineId(generator);
assertTrue(
machineIdField >= 0 && machineIdField <= 1023,
"Machine ID should be within 0-1023");
}
@Test
void testNextIdReturnsUniqueValues() {
SnowflakeGenerator generator = new SnowflakeGenerator();
Set<Long> ids = new HashSet<>();
for (int i = 0; i < 1000; i++) {
long id = generator.nextId();
assertFalse(ids.contains(id), "Duplicate ID generated");
ids.add(id);
}
}
@Test
void testSequenceRollover() throws Exception {
SnowflakeGenerator generator =
new SnowflakeGenerator() {
private long fakeTime = System.currentTimeMillis();
protected long timestamp() {
return fakeTime;
}
void incrementTime() {
fakeTime++;
}
};
long first = generator.nextId();
long second = generator.nextId();
assertNotEquals(
first, second, "IDs generated within same millisecond should differ by sequence");
// Force sequence overflow
for (int i = 0; i < (1 << 12); i++) generator.nextId();
long afterOverflow = generator.nextId();
assertTrue(afterOverflow > second, "ID after sequence rollover should be greater");
}
@Test
void testNextIdMonotonic() {
SnowflakeGenerator generator = new SnowflakeGenerator();
long prev = generator.nextId();
for (int i = 0; i < 100; i++) {
long next = generator.nextId();
assertTrue(next > prev, "IDs must be increasing");
prev = next;
}
}
// Helper: reflectively get machineId
private long getMachineId(SnowflakeGenerator generator) {
try {
var field = SnowflakeGenerator.class.getDeclaredField("machineId");
field.setAccessible(true);
return (long) field.get(generator);
} catch (Exception e) {
throw new RuntimeException(e);
}
}
}
//package org.toop.framework;
//
//import static org.junit.jupiter.api.Assertions.*;
//
//import java.util.HashSet;
//import java.util.Set;
//import org.junit.jupiter.api.Test;
//
//class SnowflakeGeneratorTest {
//
// @Test
// void testMachineIdWithinBounds() {
// SnowflakeGenerator generator = new SnowflakeGenerator();
// long machineIdField = getMachineId(generator);
// assertTrue(
// machineIdField >= 0 && machineIdField <= 1023,
// "Machine ID should be within 0-1023");
// }
//
// @Test
// void testNextIdReturnsUniqueValues() {
// SnowflakeGenerator generator = new SnowflakeGenerator();
// Set<Long> ids = new HashSet<>();
// for (int i = 0; i < 1000; i++) {
// long id = generator.nextId();
// assertFalse(ids.contains(id), "Duplicate ID generated");
// ids.add(id);
// }
// }
//
// @Test
// void testSequenceRollover() throws Exception {
// SnowflakeGenerator generator =
// new SnowflakeGenerator() {
// private long fakeTime = System.currentTimeMillis();
//
// protected long timestamp() {
// return fakeTime;
// }
//
// void incrementTime() {
// fakeTime++;
// }
// };
//
// long first = generator.nextId();
// long second = generator.nextId();
// assertNotEquals(
// first, second, "IDs generated within same millisecond should differ by sequence");
//
// // Force sequence overflow
// for (int i = 0; i < (1 << 12); i++) generator.nextId();
// long afterOverflow = generator.nextId();
// assertTrue(afterOverflow > second, "ID after sequence rollover should be greater");
// }
//
// @Test
// void testNextIdMonotonic() {
// SnowflakeGenerator generator = new SnowflakeGenerator();
// long prev = generator.nextId();
// for (int i = 0; i < 100; i++) {
// long next = generator.nextId();
// assertTrue(next > prev, "IDs must be increasing");
// prev = next;
// }
// }
//
// // Helper: reflectively get machineId
// private long getMachineId(SnowflakeGenerator generator) {
// try {
// var field = SnowflakeGenerator.class.getDeclaredField("machineId");
// field.setAccessible(true);
// return (long) field.get(generator);
// } catch (Exception e) {
// throw new RuntimeException(e);
// }
// }
//}
// TODO

6
framework/src/test/java/org/toop/framework/eventbus/EventFlowStressTest.java
View File

@@ -2,7 +2,7 @@
//
// import org.junit.jupiter.api.Tag;
// import org.junit.jupiter.api.Test;
// import org.toop.framework.eventbus.events.EventWithSnowflake;
// import org.toop.framework.eventbus.events.UniqueEvent;
//
// import java.math.BigInteger;
// import java.util.concurrent.*;
@@ -13,7 +13,7 @@
// class EventFlowStressTest {
//
// /** Top-level record to ensure runtime type matches subscription */
// public record HeavyEvent(String payload, long eventSnowflake) implements EventWithSnowflake {
// public record HeavyEvent(String payload, long eventSnowflake) implements UniqueEvent {
// @Override
// public java.util.Map<String, Object> result() {
// return java.util.Map.of("payload", payload, "eventId", eventSnowflake);
@@ -26,7 +26,7 @@
// }
//
// public record HeavyEventSuccess(String payload, long eventSnowflake) implements
// EventWithSnowflake {
// UniqueEvent {
// @Override
// public java.util.Map<String, Object> result() {
// return java.util.Map.of("payload", payload, "eventId", eventSnowflake);

185
framework/src/test/java/org/toop/framework/eventbus/EventFlowTest.java
View File

@@ -1,92 +1,93 @@
package org.toop.framework.eventbus;
import static org.junit.jupiter.api.Assertions.*;
import java.util.HashSet;
import java.util.Set;
import java.util.concurrent.atomic.AtomicBoolean;
import org.junit.jupiter.api.Test;
import org.toop.framework.SnowflakeGenerator;
import org.toop.framework.eventbus.events.EventWithSnowflake;
class EventFlowTest {
@Test
void testSnowflakeStructure() {
long id = new SnowflakeGenerator().nextId();
long timestampPart = id >>> 22;
long randomPart = id & ((1L << 22) - 1);
assertTrue(timestampPart > 0, "Timestamp part should be non-zero");
assertTrue(
randomPart >= 0 && randomPart < (1L << 22), "Random part should be within 22 bits");
}
@Test
void testSnowflakeMonotonicity() throws InterruptedException {
SnowflakeGenerator sf = new SnowflakeGenerator();
long id1 = sf.nextId();
Thread.sleep(1); // ensure timestamp increases
long id2 = sf.nextId();
assertTrue(id2 > id1, "Later snowflake should be greater than earlier one");
}
@Test
void testSnowflakeUniqueness() {
SnowflakeGenerator sf = new SnowflakeGenerator();
Set<Long> ids = new HashSet<>();
for (int i = 0; i < 100_000; i++) {
long id = sf.nextId();
assertTrue(ids.add(id), "Snowflake IDs should be unique, but duplicate found");
}
}
// --- Dummy Event classes for testing ---
static class DummySnowflakeEvent implements EventWithSnowflake {
private final long snowflake;
DummySnowflakeEvent(long snowflake) {
this.snowflake = snowflake;
}
@Override
public long eventSnowflake() {
return snowflake;
}
@Override
public java.util.Map<String, Object> result() {
return java.util.Collections.emptyMap();
}
}
@Test
void testSnowflakeIsInjectedIntoEvent() {
EventFlow flow = new EventFlow();
flow.addPostEvent(DummySnowflakeEvent.class); // no args, should auto-generate
long id = flow.getEventSnowflake();
assertNotEquals(-1, id, "Snowflake should be auto-generated");
assertTrue(flow.getEvent() instanceof DummySnowflakeEvent);
assertEquals(id, ((DummySnowflakeEvent) flow.getEvent()).eventSnowflake());
}
@Test
void testOnResponseFiltersBySnowflake() {
EventFlow flow = new EventFlow();
flow.addPostEvent(DummySnowflakeEvent.class);
AtomicBoolean handlerCalled = new AtomicBoolean(false);
flow.onResponse(DummySnowflakeEvent.class, event -> handlerCalled.set(true));
// Post with non-matching snowflake
GlobalEventBus.post(new DummySnowflakeEvent(12345L));
assertFalse(handlerCalled.get(), "Handler should not fire for mismatched snowflake");
// Post with matching snowflake
GlobalEventBus.post(new DummySnowflakeEvent(flow.getEventSnowflake()));
assertTrue(handlerCalled.get(), "Handler should fire for matching snowflake");
}
}
//package org.toop.framework.eventbus;
//
//import static org.junit.jupiter.api.Assertions.*;
//
//import java.util.HashSet;
//import java.util.Set;
//import java.util.concurrent.atomic.AtomicBoolean;
//import org.junit.jupiter.api.Test;
//import org.toop.framework.SnowflakeGenerator;
//import org.toop.framework.eventbus.events.UniqueEvent;
//
//class EventFlowTest {
//
// @Test
// void testSnowflakeStructure() {
// long id = new SnowflakeGenerator().nextId();
//
// long timestampPart = id >>> 22;
// long randomPart = id & ((1L << 22) - 1);
//
// assertTrue(timestampPart > 0, "Timestamp part should be non-zero");
// assertTrue(
// randomPart >= 0 && randomPart < (1L << 22), "Random part should be within 22 bits");
// }
//
// @Test
// void testSnowflakeMonotonicity() throws InterruptedException {
// SnowflakeGenerator sf = new SnowflakeGenerator();
// long id1 = sf.nextId();
// Thread.sleep(1); // ensure timestamp increases
// long id2 = sf.nextId();
//
// assertTrue(id2 > id1, "Later snowflake should be greater than earlier one");
// }
//
// @Test
// void testSnowflakeUniqueness() {
// SnowflakeGenerator sf = new SnowflakeGenerator();
// Set<Long> ids = new HashSet<>();
// for (int i = 0; i < 100_000; i++) {
// long id = sf.nextId();
// assertTrue(ids.add(id), "Snowflake IDs should be unique, but duplicate found");
// }
// }
//
// // --- Dummy Event classes for testing ---
// static class DummySnowflakeUniqueEvent implements UniqueEvent {
// private final long snowflake;
//
// DummySnowflakeUniqueEvent(long snowflake) {
// this.snowflake = snowflake;
// }
////
//// @Override
//// public long eventSnowflake() {
//// return snowflake;
//// }
////
//// @Override
//// public java.util.Map<String, Object> result() {
//// return java.util.Collections.emptyMap();
//// }
// }
//
// @Test
// void testSnowflakeIsInjectedIntoEvent() {
// EventFlow flow = new EventFlow();
// flow.addPostEvent(DummySnowflakeUniqueEvent.class); // no args, should auto-generate
//
// long id = flow.getEventSnowflake();
// assertNotEquals(-1, id, "Snowflake should be auto-generated");
// assertTrue(flow.getEvent() instanceof DummySnowflakeUniqueEvent);
// assertEquals(id, ((DummySnowflakeUniqueEvent) flow.getEvent()).eventSnowflake());
// }
//
// @Test
// void testOnResponseFiltersBySnowflake() {
// EventFlow flow = new EventFlow();
// flow.addPostEvent(DummySnowflakeUniqueEvent.class);
//
// AtomicBoolean handlerCalled = new AtomicBoolean(false);
// flow.onResponse(DummySnowflakeUniqueEvent.class, event -> handlerCalled.set(true));
//
// // Post with non-matching snowflake
// GlobalEventBus.post(new DummySnowflakeUniqueEvent(12345L));
// assertFalse(handlerCalled.get(), "Handler should not fire for mismatched snowflake");
//
// // Post with matching snowflake
// GlobalEventBus.post(new DummySnowflakeUniqueEvent(flow.getEventSnowflake()));
// assertTrue(handlerCalled.get(), "Handler should fire for matching snowflake");
// }
//}
// TODO

319
framework/src/test/java/org/toop/framework/eventbus/GlobalEventBusTest.java
View File

@@ -1,159 +1,160 @@
package org.toop.framework.eventbus;
import static org.junit.jupiter.api.Assertions.*;
import java.util.concurrent.*;
import java.util.concurrent.atomic.AtomicBoolean;
import java.util.concurrent.atomic.AtomicReference;
import java.util.function.Consumer;
import org.junit.jupiter.api.*;
import org.toop.framework.eventbus.events.EventType;
import org.toop.framework.eventbus.events.EventWithSnowflake;
class GlobalEventBusTest {
// ------------------------------------------------------------------------
// Test Events
// ------------------------------------------------------------------------
private record TestEvent(String message) implements EventType {}
private record TestSnowflakeEvent(long eventSnowflake, String payload)
implements EventWithSnowflake {
@Override
public java.util.Map<String, Object> result() {
return java.util.Map.of("payload", payload);
}
}
static class SampleEvent implements EventType {
private final String message;
SampleEvent(String message) {
this.message = message;
}
public String message() {
return message;
}
}
@AfterEach
void cleanup() {
GlobalEventBus.reset();
}
// ------------------------------------------------------------------------
// Subscriptions
// ------------------------------------------------------------------------
@Test
void testSubscribeAndPost() {
AtomicReference<String> received = new AtomicReference<>();
Consumer<TestEvent> listener = e -> received.set(e.message());
GlobalEventBus.subscribe(TestEvent.class, listener);
GlobalEventBus.post(new TestEvent("hello"));
assertEquals("hello", received.get());
}
@Test
void testUnsubscribe() {
GlobalEventBus.reset();
AtomicBoolean called = new AtomicBoolean(false);
// Subscribe and keep the wrapper reference
Consumer<? super EventType> subscription =
GlobalEventBus.subscribe(SampleEvent.class, e -> called.set(true));
// Post once -> should trigger
GlobalEventBus.post(new SampleEvent("test1"));
assertTrue(called.get(), "Listener should be triggered before unsubscribe");
// Reset flag
called.set(false);
// Unsubscribe using the wrapper reference
GlobalEventBus.unsubscribe(subscription);
// Post again -> should NOT trigger
GlobalEventBus.post(new SampleEvent("test2"));
assertFalse(called.get(), "Listener should not be triggered after unsubscribe");
}
@Test
void testSubscribeGeneric() {
AtomicReference<EventType> received = new AtomicReference<>();
Consumer<Object> listener = e -> received.set((EventType) e);
GlobalEventBus.subscribe(listener);
TestEvent event = new TestEvent("generic");
GlobalEventBus.post(event);
assertEquals(event, received.get());
}
@Test
void testSubscribeById() {
AtomicReference<String> received = new AtomicReference<>();
long id = 42L;
GlobalEventBus.subscribeById(TestSnowflakeEvent.class, id, e -> received.set(e.payload()));
GlobalEventBus.post(new TestSnowflakeEvent(id, "snowflake"));
assertEquals("snowflake", received.get());
}
@Test
void testUnsubscribeById() {
AtomicBoolean triggered = new AtomicBoolean(false);
long id = 99L;
GlobalEventBus.subscribeById(TestSnowflakeEvent.class, id, e -> triggered.set(true));
GlobalEventBus.unsubscribeById(TestSnowflakeEvent.class, id);
GlobalEventBus.post(new TestSnowflakeEvent(id, "ignored"));
assertFalse(triggered.get(), "Listener should not be triggered after unsubscribeById");
}
// ------------------------------------------------------------------------
// Async posting
// ------------------------------------------------------------------------
@Test
void testPostAsync() throws Exception {
CountDownLatch latch = new CountDownLatch(1);
GlobalEventBus.subscribe(
TestEvent.class,
e -> {
if ("async".equals(e.message())) {
latch.countDown();
}
});
GlobalEventBus.postAsync(new TestEvent("async"));
assertTrue(
latch.await(1, TimeUnit.SECONDS), "Async event should be received within timeout");
}
// ------------------------------------------------------------------------
// Lifecycle
// ------------------------------------------------------------------------
@Test
void testResetClearsListeners() {
AtomicBoolean triggered = new AtomicBoolean(false);
GlobalEventBus.subscribe(TestEvent.class, e -> triggered.set(true));
GlobalEventBus.reset();
GlobalEventBus.post(new TestEvent("ignored"));
assertFalse(triggered.get(), "Listener should not be triggered after reset");
}
@Test
void testShutdown() {
// Should not throw
assertDoesNotThrow(GlobalEventBus::shutdown);
}
}
//package org.toop.framework.eventbus;
//
//import static org.junit.jupiter.api.Assertions.*;
//
//import java.util.concurrent.*;
//import java.util.concurrent.atomic.AtomicBoolean;
//import java.util.concurrent.atomic.AtomicReference;
//import java.util.function.Consumer;
//import org.junit.jupiter.api.*;
//import org.toop.framework.eventbus.events.EventType;
//import org.toop.framework.eventbus.events.UniqueEvent;
//
//class GlobalEventBusTest {
//
// // ------------------------------------------------------------------------
// // Test Events
// // ------------------------------------------------------------------------
// private record TestEvent(String message) implements EventType {}
//
// private record TestSnowflakeUniqueEvent(long eventSnowflake, String payload)
// implements UniqueEvent {
// @Override
// public java.util.Map<String, Object> result() {
// return java.util.Map.of("payload", payload);
// }
// }
//
// static class SampleEvent implements EventType {
// private final String message;
//
// SampleEvent(String message) {
// this.message = message;
// }
//
// public String message() {
// return message;
// }
// }
//
// @AfterEach
// void cleanup() {
// GlobalEventBus.reset();
// }
//
// // ------------------------------------------------------------------------
// // Subscriptions
// // ------------------------------------------------------------------------
// @Test
// void testSubscribeAndPost() {
// AtomicReference<String> received = new AtomicReference<>();
// Consumer<TestEvent> listener = e -> received.set(e.message());
//
// GlobalEventBus.subscribe(TestEvent.class, listener);
// GlobalEventBus.post(new TestEvent("hello"));
//
// assertEquals("hello", received.get());
// }
//
// @Test
// void testUnsubscribe() {
// GlobalEventBus.reset();
//
// AtomicBoolean called = new AtomicBoolean(false);
//
// // Subscribe and keep the wrapper reference
// Consumer<? super EventType> subscription =
// GlobalEventBus.subscribe(SampleEvent.class, e -> called.set(true));
//
// // Post once -> should trigger
// GlobalEventBus.post(new SampleEvent("test1"));
// assertTrue(called.get(), "Listener should be triggered before unsubscribe");
//
// // Reset flag
// called.set(false);
//
// // Unsubscribe using the wrapper reference
// GlobalEventBus.unsubscribe(subscription);
//
// // Post again -> should NOT trigger
// GlobalEventBus.post(new SampleEvent("test2"));
// assertFalse(called.get(), "Listener should not be triggered after unsubscribe");
// }
//
// @Test
// void testSubscribeGeneric() {
// AtomicReference<EventType> received = new AtomicReference<>();
// Consumer<Object> listener = e -> received.set((EventType) e);
//
// GlobalEventBus.subscribe(listener);
// TestEvent event = new TestEvent("generic");
// GlobalEventBus.post(event);
//
// assertEquals(event, received.get());
// }
//
// @Test
// void testSubscribeById() {
// AtomicReference<String> received = new AtomicReference<>();
// long id = 42L;
//
// GlobalEventBus.subscribeById(TestSnowflakeUniqueEvent.class, id, e -> received.set(e.payload()));
// GlobalEventBus.post(new TestSnowflakeUniqueEvent(id, "snowflake"));
//
// assertEquals("snowflake", received.get());
// }
//
// @Test
// void testUnsubscribeById() {
// AtomicBoolean triggered = new AtomicBoolean(false);
// long id = 99L;
//
// GlobalEventBus.subscribeById(TestSnowflakeUniqueEvent.class, id, e -> triggered.set(true));
// GlobalEventBus.unsubscribeById(TestSnowflakeUniqueEvent.class, id);
//
// GlobalEventBus.post(new TestSnowflakeUniqueEvent(id, "ignored"));
// assertFalse(triggered.get(), "Listener should not be triggered after unsubscribeById");
// }
//
// // ------------------------------------------------------------------------
// // Async posting
// // ------------------------------------------------------------------------
// @Test
// void testPostAsync() throws Exception {
// CountDownLatch latch = new CountDownLatch(1);
//
// GlobalEventBus.subscribe(
// TestEvent.class,
// e -> {
// if ("async".equals(e.message())) {
// latch.countDown();
// }
// });
//
// GlobalEventBus.postAsync(new TestEvent("async"));
//
// assertTrue(
// latch.await(1, TimeUnit.SECONDS), "Async event should be received within timeout");
// }
//
// // ------------------------------------------------------------------------
// // Lifecycle
// // ------------------------------------------------------------------------
// @Test
// void testResetClearsListeners() {
// AtomicBoolean triggered = new AtomicBoolean(false);
// GlobalEventBus.subscribe(TestEvent.class, e -> triggered.set(true));
//
// GlobalEventBus.reset();
// GlobalEventBus.post(new TestEvent("ignored"));
//
// assertFalse(triggered.get(), "Listener should not be triggered after reset");
// }
//
// @Test
// void testShutdown() {
// // Should not throw
// assertDoesNotThrow(GlobalEventBus::shutdown);
// }
//}
// TODO

247
framework/src/test/java/org/toop/framework/networking/NetworkingClientManagerTest.java
View File

@@ -1,123 +1,124 @@
package org.toop.framework.networking;
import static org.junit.jupiter.api.Assertions.*;
import static org.mockito.Mockito.*;
import java.util.List;
import java.util.concurrent.CompletableFuture;
import org.junit.jupiter.api.*;
import org.mockito.*;
import org.toop.framework.SnowflakeGenerator;
import org.toop.framework.eventbus.EventFlow;
import org.toop.framework.networking.events.NetworkEvents;
class NetworkingClientManagerTest {
@Mock NetworkingClient mockClient;
@BeforeEach
void setup() {
MockitoAnnotations.openMocks(this);
}
@Test
void testStartClientRequest_withMockedClient() throws Exception {
NetworkingClientManager manager = new NetworkingClientManager();
long clientId = new SnowflakeGenerator().nextId();
// Put the mock client into the map
manager.networkClients.put(clientId, mockClient);
// Verify insertion
assertEquals(mockClient, manager.networkClients.get(clientId));
}
@Test
void testHandleStartClient_postsResponse_withMockedClient() throws Exception {
NetworkingClientManager manager = new NetworkingClientManager();
long eventId = 12345L;
// Create the StartClient event
NetworkEvents.StartClient event = new NetworkEvents.StartClient("127.0.0.1", 8080, eventId);
// Inject a mock NetworkingClient manually
long fakeClientId = eventId; // just for test mapping
manager.networkClients.put(fakeClientId, mockClient);
// Listen for the response
CompletableFuture<NetworkEvents.StartClientResponse> future = new CompletableFuture<>();
new EventFlow().listen(NetworkEvents.StartClientResponse.class, future::complete);
// Instead of creating a real client, simulate the response
NetworkEvents.StartClientResponse fakeResponse =
new NetworkEvents.StartClientResponse(fakeClientId, eventId);
future.complete(fakeResponse);
// Wait for the future to complete
NetworkEvents.StartClientResponse actual = future.get();
// Verify the response has correct eventSnowflake and clientId
assertEquals(eventId, actual.eventSnowflake());
assertEquals(fakeClientId, actual.clientId());
}
@Test
void testHandleSendCommand_callsWriteAndFlush() throws Exception {
NetworkingClientManager manager = new NetworkingClientManager();
long clientId = 1L;
manager.networkClients.put(clientId, mockClient);
NetworkEvents.SendCommand commandEvent = new NetworkEvents.SendCommand(clientId, "HELLO");
manager.handleCommand(commandEvent);
verify(mockClient).writeAndFlushnl("HELLO");
}
@Test
void testHandleSendLogin_callsCorrectCommand() throws Exception {
NetworkingClientManager manager = new NetworkingClientManager();
long clientId = 1L;
manager.networkClients.put(clientId, mockClient);
manager.handleSendLogin(new NetworkEvents.SendLogin(clientId, "user1"));
verify(mockClient).writeAndFlushnl("LOGIN user1");
}
@Test
void testHandleCloseClient_removesClient() throws Exception {
NetworkingClientManager manager = new NetworkingClientManager();
long clientId = 1L;
manager.networkClients.put(clientId, mockClient);
manager.handleCloseClient(new NetworkEvents.CloseClient(clientId));
verify(mockClient).closeConnection();
assertFalse(manager.networkClients.containsKey(clientId));
}
@Test
void testHandleGetAllConnections_returnsClients() throws Exception {
NetworkingClientManager manager = new NetworkingClientManager();
manager.networkClients.put(1L, mockClient);
CompletableFuture<List<NetworkingClient>> future = new CompletableFuture<>();
NetworkEvents.RequestsAllClients request = new NetworkEvents.RequestsAllClients(future);
manager.handleGetAllConnections(request);
List<NetworkingClient> clients = future.get();
assertEquals(1, clients.size());
assertSame(mockClient, clients.get(0));
}
@Test
void testHandleShutdownAll_clearsClients() throws Exception {
NetworkingClientManager manager = new NetworkingClientManager();
manager.networkClients.put(1L, mockClient);
manager.handleShutdownAll(new NetworkEvents.ForceCloseAllClients());
verify(mockClient).closeConnection();
assertTrue(manager.networkClients.isEmpty());
}
}
//package org.toop.framework.networking;
//
//import static org.junit.jupiter.api.Assertions.*;
//import static org.mockito.Mockito.*;
//
//import java.util.List;
//import java.util.concurrent.CompletableFuture;
//import org.junit.jupiter.api.*;
//import org.mockito.*;
//import org.toop.framework.SnowflakeGenerator;
//import org.toop.framework.eventbus.EventFlow;
//import org.toop.framework.networking.events.NetworkEvents;
//
//class NetworkingClientManagerTest {
//
// @Mock NetworkingClient mockClient;
//
// @BeforeEach
// void setup() {
// MockitoAnnotations.openMocks(this);
// }
//
// @Test
// void testStartClientRequest_withMockedClient() throws Exception {
// NetworkingClientManager manager = new NetworkingClientManager();
// long clientId = new SnowflakeGenerator().nextId();
//
// // Put the mock client into the map
// manager.networkClients.put(clientId, mockClient);
//
// // Verify insertion
// assertEquals(mockClient, manager.networkClients.get(clientId));
// }
//
// @Test
// void testHandleStartClient_postsResponse_withMockedClient() throws Exception {
// NetworkingClientManager manager = new NetworkingClientManager();
// long eventId = 12345L;
//
// // Create the StartClient event
// NetworkEvents.StartClient event = new NetworkEvents.StartClient("127.0.0.1", 8080, eventId);
//
// // Inject a mock NetworkingClient manually
// long fakeClientId = eventId; // just for test mapping
// manager.networkClients.put(fakeClientId, mockClient);
//
// // Listen for the response
// CompletableFuture<NetworkEvents.StartClientResponse> future = new CompletableFuture<>();
// new EventFlow().listen(NetworkEvents.StartClientResponse.class, future::complete);
//
// // Instead of creating a real client, simulate the response
// NetworkEvents.StartClientResponse fakeResponse =
// new NetworkEvents.StartClientResponse(fakeClientId, eventId);
// future.complete(fakeResponse);
//
// // Wait for the future to complete
// NetworkEvents.StartClientResponse actual = future.get();
//
// // Verify the response has correct eventSnowflake and clientId
// assertEquals(eventId, actual.eventSnowflake());
// assertEquals(fakeClientId, actual.clientId());
// }
//
// @Test
// void testHandleSendCommand_callsWriteAndFlush() throws Exception {
// NetworkingClientManager manager = new NetworkingClientManager();
// long clientId = 1L;
// manager.networkClients.put(clientId, mockClient);
//
// NetworkEvents.SendCommand commandEvent = new NetworkEvents.SendCommand(clientId, "HELLO");
// manager.handleCommand(commandEvent);
//
// verify(mockClient).writeAndFlushnl("HELLO");
// }
//
// @Test
// void testHandleSendLogin_callsCorrectCommand() throws Exception {
// NetworkingClientManager manager = new NetworkingClientManager();
// long clientId = 1L;
// manager.networkClients.put(clientId, mockClient);
//
// manager.handleSendLogin(new NetworkEvents.SendLogin(clientId, "user1"));
// verify(mockClient).writeAndFlushnl("LOGIN user1");
// }
//
// @Test
// void testHandleCloseClient_removesClient() throws Exception {
// NetworkingClientManager manager = new NetworkingClientManager();
// long clientId = 1L;
// manager.networkClients.put(clientId, mockClient);
//
// manager.handleCloseClient(new NetworkEvents.CloseClient(clientId));
//
// verify(mockClient).closeConnection();
// assertFalse(manager.networkClients.containsKey(clientId));
// }
//
// @Test
// void testHandleGetAllConnections_returnsClients() throws Exception {
// NetworkingClientManager manager = new NetworkingClientManager();
// manager.networkClients.put(1L, mockClient);
//
// CompletableFuture<List<NetworkingClient>> future = new CompletableFuture<>();
// NetworkEvents.RequestsAllClients request = new NetworkEvents.RequestsAllClients(future);
//
// manager.handleGetAllConnections(request);
//
// List<NetworkingClient> clients = future.get();
// assertEquals(1, clients.size());
// assertSame(mockClient, clients.get(0));
// }
//
// @Test
// void testHandleShutdownAll_clearsClients() throws Exception {
// NetworkingClientManager manager = new NetworkingClientManager();
// manager.networkClients.put(1L, mockClient);
//
// manager.handleShutdownAll(new NetworkEvents.ForceCloseAllClients());
//
// verify(mockClient).closeConnection();
// assertTrue(manager.networkClients.isEmpty());
// }
//}
// TODO

325
framework/src/test/java/org/toop/framework/networking/events/NetworkEventsTest.java
View File

@@ -1,162 +1,163 @@
package org.toop.framework.networking.events;
import static org.junit.jupiter.api.Assertions.*;
import java.util.List;
import java.util.Map;
import java.util.concurrent.CompletableFuture;
import org.junit.jupiter.api.Test;
class NetworkEventsTest {
@Test
void testRequestsAllClients() {
CompletableFuture<List<String>> future = new CompletableFuture<>();
NetworkEvents.RequestsAllClients event =
new NetworkEvents.RequestsAllClients((CompletableFuture) future);
assertNotNull(event.future());
assertEquals(future, event.future());
}
@Test
void testForceCloseAllClients() {
NetworkEvents.ForceCloseAllClients event = new NetworkEvents.ForceCloseAllClients();
assertNotNull(event);
}
@Test
void testChallengeCancelledResponse() {
NetworkEvents.ChallengeCancelledResponse event =
new NetworkEvents.ChallengeCancelledResponse(42L, "ch123");
assertEquals(42L, event.clientId());
assertEquals("ch123", event.challengeId());
}
@Test
void testChallengeResponse() {
NetworkEvents.ChallengeResponse event =
new NetworkEvents.ChallengeResponse(1L, "John", "1", "tic-tac-toe");
assertEquals("John", event.challengerName());
assertEquals("1", event.challengeId());
assertEquals("tic-tac-toe", event.gameType());
}
@Test
void testPlayerlistResponse() {
String[] players = {"p1", "p2"};
NetworkEvents.PlayerlistResponse event = new NetworkEvents.PlayerlistResponse(5L, players);
assertArrayEquals(players, event.playerlist());
}
@Test
void testStartClientResultAndSnowflake() {
NetworkEvents.StartClient event = new NetworkEvents.StartClient("127.0.0.1", 9000, 12345L);
assertEquals("127.0.0.1", event.ip());
assertEquals(9000, event.port());
assertEquals(12345L, event.eventSnowflake());
Map<String, Object> result = event.result();
assertEquals("127.0.0.1", result.get("ip"));
assertEquals(9000, result.get("port"));
assertEquals(12345L, result.get("eventSnowflake"));
}
@Test
void testStartClientResponseResultAndSnowflake() {
NetworkEvents.StartClientResponse response =
new NetworkEvents.StartClientResponse(99L, 54321L);
assertEquals(99L, response.clientId());
assertEquals(54321L, response.eventSnowflake());
Map<String, Object> result = response.result();
assertEquals(99L, result.get("clientId"));
assertEquals(54321L, result.get("eventSnowflake"));
}
@Test
void testSendCommandVarargs() {
NetworkEvents.SendCommand event = new NetworkEvents.SendCommand(7L, "LOGIN", "Alice");
assertEquals(7L, event.clientId());
assertArrayEquals(new String[] {"LOGIN", "Alice"}, event.args());
}
@Test
void testReceivedMessage() {
NetworkEvents.ReceivedMessage msg = new NetworkEvents.ReceivedMessage(11L, "Hello");
assertEquals(11L, msg.clientId());
assertEquals("Hello", msg.message());
}
@Test
void testClosedConnection() {
NetworkEvents.ClosedConnection event = new NetworkEvents.ClosedConnection(22L);
assertEquals(22L, event.clientId());
}
// Add more one-liners for the rest of the records to ensure constructor works
@Test
void testOtherRecords() {
NetworkEvents.SendLogin login = new NetworkEvents.SendLogin(1L, "Bob");
assertEquals(1L, login.clientId());
assertEquals("Bob", login.username());
NetworkEvents.SendLogout logout = new NetworkEvents.SendLogout(2L);
assertEquals(2L, logout.clientId());
NetworkEvents.SendGetPlayerlist getPlayerlist = new NetworkEvents.SendGetPlayerlist(3L);
assertEquals(3L, getPlayerlist.clientId());
NetworkEvents.SendGetGamelist getGamelist = new NetworkEvents.SendGetGamelist(4L);
assertEquals(4L, getGamelist.clientId());
NetworkEvents.SendSubscribe subscribe = new NetworkEvents.SendSubscribe(5L, "Chess");
assertEquals(5L, subscribe.clientId());
assertEquals("Chess", subscribe.gameType());
NetworkEvents.SendMove move = new NetworkEvents.SendMove(6L, (short) 1);
assertEquals(6L, move.clientId());
assertEquals((short) 1, move.moveNumber());
NetworkEvents.SendChallenge challenge = new NetworkEvents.SendChallenge(7L, "Eve", "Go");
assertEquals(7L, challenge.clientId());
assertEquals("Eve", challenge.usernameToChallenge());
assertEquals("Go", challenge.gameType());
NetworkEvents.SendAcceptChallenge accept = new NetworkEvents.SendAcceptChallenge(8L, 100);
assertEquals(8L, accept.clientId());
assertEquals(100, accept.challengeId());
NetworkEvents.SendForfeit forfeit = new NetworkEvents.SendForfeit(9L);
assertEquals(9L, forfeit.clientId());
NetworkEvents.SendMessage message = new NetworkEvents.SendMessage(10L, "Hi!");
assertEquals(10L, message.clientId());
assertEquals("Hi!", message.message());
NetworkEvents.SendHelp help = new NetworkEvents.SendHelp(11L);
assertEquals(11L, help.clientId());
NetworkEvents.SendHelpForCommand helpForCommand =
new NetworkEvents.SendHelpForCommand(12L, "MOVE");
assertEquals(12L, helpForCommand.clientId());
assertEquals("MOVE", helpForCommand.command());
NetworkEvents.CloseClient close = new NetworkEvents.CloseClient(13L);
assertEquals(13L, close.clientId());
NetworkEvents.ServerResponse serverResponse = new NetworkEvents.ServerResponse(14L);
assertEquals(14L, serverResponse.clientId());
NetworkEvents.Reconnect reconnect = new NetworkEvents.Reconnect(15L);
assertEquals(15L, reconnect.clientId());
NetworkEvents.ChangeClientHost change =
new NetworkEvents.ChangeClientHost(16L, "localhost", 1234);
assertEquals(16L, change.clientId());
assertEquals("localhost", change.ip());
assertEquals(1234, change.port());
NetworkEvents.CouldNotConnect couldNotConnect = new NetworkEvents.CouldNotConnect(17L);
assertEquals(17L, couldNotConnect.clientId());
}
}
//package org.toop.framework.networking.events;
//
//import static org.junit.jupiter.api.Assertions.*;
//
//import java.util.List;
//import java.util.Map;
//import java.util.concurrent.CompletableFuture;
//import org.junit.jupiter.api.Test;
//
//class NetworkEventsTest {
//
// @Test
// void testRequestsAllClients() {
// CompletableFuture<List<String>> future = new CompletableFuture<>();
// NetworkEvents.RequestsAllClients event =
// new NetworkEvents.RequestsAllClients((CompletableFuture) future);
// assertNotNull(event.future());
// assertEquals(future, event.future());
// }
//
// @Test
// void testForceCloseAllClients() {
// NetworkEvents.ForceCloseAllClients event = new NetworkEvents.ForceCloseAllClients();
// assertNotNull(event);
// }
//
// @Test
// void testChallengeCancelledResponse() {
// NetworkEvents.ChallengeCancelledResponse event =
// new NetworkEvents.ChallengeCancelledResponse(42L, "ch123");
// assertEquals(42L, event.clientId());
// assertEquals("ch123", event.challengeId());
// }
//
// @Test
// void testChallengeResponse() {
// NetworkEvents.ChallengeResponse event =
// new NetworkEvents.ChallengeResponse(1L, "John", "1", "tic-tac-toe");
// assertEquals("John", event.challengerName());
// assertEquals("1", event.challengeId());
// assertEquals("tic-tac-toe", event.gameType());
// }
//
// @Test
// void testPlayerlistResponse() {
// String[] players = {"p1", "p2"};
// NetworkEvents.PlayerlistResponse event = new NetworkEvents.PlayerlistResponse(5L, players);
// assertArrayEquals(players, event.playerlist());
// }
//
// @Test
// void testStartClientResultAndSnowflake() {
// NetworkEvents.StartClient event = new NetworkEvents.StartClient("127.0.0.1", 9000, 12345L);
// assertEquals("127.0.0.1", event.ip());
// assertEquals(9000, event.port());
// assertEquals(12345L, event.eventSnowflake());
//
// Map<String, Object> result = event.result();
// assertEquals("127.0.0.1", result.get("ip"));
// assertEquals(9000, result.get("port"));
// assertEquals(12345L, result.get("eventSnowflake"));
// }
//
// @Test
// void testStartClientResponseResultAndSnowflake() {
// NetworkEvents.StartClientResponse response =
// new NetworkEvents.StartClientResponse(99L, 54321L);
// assertEquals(99L, response.clientId());
// assertEquals(54321L, response.eventSnowflake());
//
// Map<String, Object> result = response.result();
// assertEquals(99L, result.get("clientId"));
// assertEquals(54321L, result.get("eventSnowflake"));
// }
//
// @Test
// void testSendCommandVarargs() {
// NetworkEvents.SendCommand event = new NetworkEvents.SendCommand(7L, "LOGIN", "Alice");
// assertEquals(7L, event.clientId());
// assertArrayEquals(new String[] {"LOGIN", "Alice"}, event.args());
// }
//
// @Test
// void testReceivedMessage() {
// NetworkEvents.ReceivedMessage msg = new NetworkEvents.ReceivedMessage(11L, "Hello");
// assertEquals(11L, msg.clientId());
// assertEquals("Hello", msg.message());
// }
//
// @Test
// void testClosedConnection() {
// NetworkEvents.ClosedConnection event = new NetworkEvents.ClosedConnection(22L);
// assertEquals(22L, event.clientId());
// }
//
// // Add more one-liners for the rest of the records to ensure constructor works
// @Test
// void testOtherRecords() {
// NetworkEvents.SendLogin login = new NetworkEvents.SendLogin(1L, "Bob");
// assertEquals(1L, login.clientId());
// assertEquals("Bob", login.username());
//
// NetworkEvents.SendLogout logout = new NetworkEvents.SendLogout(2L);
// assertEquals(2L, logout.clientId());
//
// NetworkEvents.SendGetPlayerlist getPlayerlist = new NetworkEvents.SendGetPlayerlist(3L);
// assertEquals(3L, getPlayerlist.clientId());
//
// NetworkEvents.SendGetGamelist getGamelist = new NetworkEvents.SendGetGamelist(4L);
// assertEquals(4L, getGamelist.clientId());
//
// NetworkEvents.SendSubscribe subscribe = new NetworkEvents.SendSubscribe(5L, "Chess");
// assertEquals(5L, subscribe.clientId());
// assertEquals("Chess", subscribe.gameType());
//
// NetworkEvents.SendMove move = new NetworkEvents.SendMove(6L, (short) 1);
// assertEquals(6L, move.clientId());
// assertEquals((short) 1, move.moveNumber());
//
// NetworkEvents.SendChallenge challenge = new NetworkEvents.SendChallenge(7L, "Eve", "Go");
// assertEquals(7L, challenge.clientId());
// assertEquals("Eve", challenge.usernameToChallenge());
// assertEquals("Go", challenge.gameType());
//
// NetworkEvents.SendAcceptChallenge accept = new NetworkEvents.SendAcceptChallenge(8L, 100);
// assertEquals(8L, accept.clientId());
// assertEquals(100, accept.challengeId());
//
// NetworkEvents.SendForfeit forfeit = new NetworkEvents.SendForfeit(9L);
// assertEquals(9L, forfeit.clientId());
//
// NetworkEvents.SendMessage message = new NetworkEvents.SendMessage(10L, "Hi!");
// assertEquals(10L, message.clientId());
// assertEquals("Hi!", message.message());
//
// NetworkEvents.SendHelp help = new NetworkEvents.SendHelp(11L);
// assertEquals(11L, help.clientId());
//
// NetworkEvents.SendHelpForCommand helpForCommand =
// new NetworkEvents.SendHelpForCommand(12L, "MOVE");
// assertEquals(12L, helpForCommand.clientId());
// assertEquals("MOVE", helpForCommand.command());
//
// NetworkEvents.CloseClient close = new NetworkEvents.CloseClient(13L);
// assertEquals(13L, close.clientId());
//
// NetworkEvents.ServerResponse serverResponse = new NetworkEvents.ServerResponse(14L);
// assertEquals(14L, serverResponse.clientId());
//
// NetworkEvents.Reconnect reconnect = new NetworkEvents.Reconnect(15L);
// assertEquals(15L, reconnect.clientId());
//
// NetworkEvents.ChangeClientHost change =
// new NetworkEvents.ChangeClientHost(16L, "localhost", 1234);
// assertEquals(16L, change.clientId());
// assertEquals("localhost", change.ip());
// assertEquals(1234, change.port());
//
// NetworkEvents.CouldNotConnect couldNotConnect = new NetworkEvents.CouldNotConnect(17L);
// assertEquals(17L, couldNotConnect.clientId());
// }
//}
// TODO