This commit is contained in:
Filip Szepielewicz 2024-10-14 07:38:39 +02:00
parent 5d0f4401a0
commit d5e5254051
13 changed files with 417 additions and 3 deletions

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@ -9,6 +9,7 @@ dependencies {
implementation project(":battleship:model") implementation project(":battleship:model")
implementation libs.jme3.desktop implementation libs.jme3.desktop
implementation libs.jme3.effects
runtimeOnly libs.jme3.awt.dialogs runtimeOnly libs.jme3.awt.dialogs
runtimeOnly libs.jme3.plugins runtimeOnly libs.jme3.plugins
@ -20,3 +21,4 @@ application {
mainClass = 'pp.battleship.client.BattleshipApp' mainClass = 'pp.battleship.client.BattleshipApp'
applicationName = 'battleship' applicationName = 'battleship'
} }

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@ -0,0 +1,285 @@
package pp.battleship.client.gui;
import com.jme3.effect.ParticleEmitter;
import com.jme3.effect.ParticleMesh.Type;
import com.jme3.effect.shapes.EmitterSphereShape;
import com.jme3.material.Material;
import com.jme3.math.ColorRGBA;
import com.jme3.math.FastMath;
import com.jme3.math.Vector3f;
import pp.battleship.client.BattleshipApp;
/**
* Factory class responsible for creating particle effects used in the game.
* This centralizes the creation of various types of particle emitters.
*/
public class ParticleEffectFactory {
private static final int COUNT_FACTOR = 1;
private static final float COUNT_FACTOR_F = 1f;
private static final boolean POINT_SPRITE = true;
private static final Type EMITTER_TYPE = POINT_SPRITE ? Type.Point : Type.Triangle;
private final BattleshipApp app;
ParticleEffectFactory(BattleshipApp app) {
this.app = app;
}
/**
* Creates a flame particle emitter.
*
* @return a configured flame particle emitter
*/
ParticleEmitter createFlame() {
ParticleEmitter flame = new ParticleEmitter("Flame", EMITTER_TYPE, 32 * COUNT_FACTOR);
flame.setSelectRandomImage(true);
flame.setStartColor(new ColorRGBA(1f, 0.4f, 0.05f, (1f / COUNT_FACTOR_F)));
flame.setEndColor(new ColorRGBA(.4f, .22f, .12f, 0f));
flame.setStartSize(0.1f);
flame.setEndSize(0.5f);
flame.setShape(new EmitterSphereShape(Vector3f.ZERO, 1f));
flame.setParticlesPerSec(0);
flame.setGravity(0, -5, 0);
flame.setLowLife(.4f);
flame.setHighLife(.5f);
flame.getParticleInfluencer().setInitialVelocity(new Vector3f(0, 7, 0));
flame.getParticleInfluencer().setVelocityVariation(1f);
flame.setImagesX(2);
flame.setImagesY(2);
Material mat = new Material(app.getAssetManager(), "Common/MatDefs/Misc/Particle.j3md");
mat.setTexture("Texture", app.getAssetManager().loadTexture("Effects/Explosion/flame.png"));
mat.setBoolean("PointSprite", POINT_SPRITE);
flame.setMaterial(mat);
return flame;
}
/**
* Creates a flash particle emitter.
*
* @return a configured flash particle emitter
*/
ParticleEmitter createFlash() {
ParticleEmitter flash = new ParticleEmitter("Flash", EMITTER_TYPE, 24 * COUNT_FACTOR);
flash.setSelectRandomImage(true);
flash.setStartColor(new ColorRGBA(1f, 0.8f, 0.36f, 1f / COUNT_FACTOR_F));
flash.setEndColor(new ColorRGBA(1f, 0.8f, 0.36f, 0f));
flash.setStartSize(.1f);
flash.setEndSize(0.5f);
flash.setShape(new EmitterSphereShape(Vector3f.ZERO, .05f));
flash.setParticlesPerSec(0);
flash.setGravity(0, 0, 0);
flash.setLowLife(.2f);
flash.setHighLife(.2f);
flash.getParticleInfluencer().setInitialVelocity(new Vector3f(0, 5f, 0));
flash.getParticleInfluencer().setVelocityVariation(1);
flash.setImagesX(2);
flash.setImagesY(2);
Material mat = new Material(app.getAssetManager(), "Common/MatDefs/Misc/Particle.j3md");
mat.setTexture("Texture", app.getAssetManager().loadTexture("Effects/Explosion/flash.png"));
mat.setBoolean("PointSprite", POINT_SPRITE);
flash.setMaterial(mat);
return flash;
}
/**
* Creates a round spark particle emitter.
*
* @return a configured round spark particle emitter
*/
ParticleEmitter createRoundSpark() {
ParticleEmitter roundSpark = new ParticleEmitter("RoundSpark", EMITTER_TYPE, 20 * COUNT_FACTOR);
roundSpark.setStartColor(new ColorRGBA(1f, 0.29f, 0.34f, (float) (1.0 / COUNT_FACTOR_F)));
roundSpark.setEndColor(new ColorRGBA(0, 0, 0, 0.5f / COUNT_FACTOR_F));
roundSpark.setStartSize(0.2f);
roundSpark.setEndSize(0.8f);
roundSpark.setShape(new EmitterSphereShape(Vector3f.ZERO, 1f));
roundSpark.setParticlesPerSec(0);
roundSpark.setGravity(0, -.5f, 0);
roundSpark.setLowLife(1.8f);
roundSpark.setHighLife(2f);
roundSpark.getParticleInfluencer().setInitialVelocity(new Vector3f(0, 3, 0));
roundSpark.getParticleInfluencer().setVelocityVariation(.5f);
roundSpark.setImagesX(1);
roundSpark.setImagesY(1);
Material mat = new Material(app.getAssetManager(), "Common/MatDefs/Misc/Particle.j3md");
mat.setTexture("Texture", app.getAssetManager().loadTexture("Effects/Explosion/roundspark.png"));
mat.setBoolean("PointSprite", POINT_SPRITE);
roundSpark.setMaterial(mat);
return roundSpark;
}
/**
* Creates a spark particle emitter.
*
* @return a configured spark particle emitter
*/
ParticleEmitter createSpark() {
ParticleEmitter spark = new ParticleEmitter("Spark", Type.Triangle, 30 * COUNT_FACTOR);
spark.setStartColor(new ColorRGBA(1f, 0.8f, 0.36f, 1.0f / COUNT_FACTOR_F));
spark.setEndColor(new ColorRGBA(1f, 0.8f, 0.36f, 0f));
spark.setStartSize(.5f);
spark.setEndSize(.5f);
spark.setFacingVelocity(true);
spark.setParticlesPerSec(0);
spark.setGravity(0, 5, 0);
spark.setLowLife(1.1f);
spark.setHighLife(1.5f);
spark.getParticleInfluencer().setInitialVelocity(new Vector3f(0, 20, 0));
spark.getParticleInfluencer().setVelocityVariation(1);
spark.setImagesX(1);
spark.setImagesY(1);
Material mat = new Material(app.getAssetManager(), "Common/MatDefs/Misc/Particle.j3md");
mat.setTexture("Texture", app.getAssetManager().loadTexture("Effects/Explosion/spark.png"));
spark.setMaterial(mat);
return spark;
}
/**
* Creates a smoke trail particle emitter.
*
* @return a configured smoke trail particle emitter
*/
ParticleEmitter createSmokeTrail() {
ParticleEmitter smokeTrail = new ParticleEmitter("SmokeTrail", Type.Triangle, 22 * COUNT_FACTOR);
smokeTrail.setStartColor(new ColorRGBA(1f, 0.8f, 0.36f, 1.0f / COUNT_FACTOR_F));
smokeTrail.setEndColor(new ColorRGBA(1f, 0.8f, 0.36f, 0f));
smokeTrail.setStartSize(.2f);
smokeTrail.setEndSize(1f);
smokeTrail.setFacingVelocity(true);
smokeTrail.setParticlesPerSec(0);
smokeTrail.setGravity(0, 1, 0);
smokeTrail.setLowLife(.4f);
smokeTrail.setHighLife(.5f);
smokeTrail.getParticleInfluencer().setInitialVelocity(new Vector3f(0, 12, 0));
smokeTrail.getParticleInfluencer().setVelocityVariation(1);
smokeTrail.setImagesX(1);
smokeTrail.setImagesY(3);
Material mat = new Material(app.getAssetManager(), "Common/MatDefs/Misc/Particle.j3md");
mat.setTexture("Texture", app.getAssetManager().loadTexture("Effects/Explosion/smoketrail.png"));
smokeTrail.setMaterial(mat);
return smokeTrail;
}
/**
* Creates a debris particle emitter.
*
* @return a configured debris particle emitter
*/
ParticleEmitter createDebris() {
ParticleEmitter debris = new ParticleEmitter("Debris", Type.Triangle, 15 * COUNT_FACTOR);
debris.setSelectRandomImage(true);
debris.setRandomAngle(true);
debris.setRotateSpeed(FastMath.TWO_PI * 4);
debris.setStartColor(new ColorRGBA(1f, 0.59f, 0.28f, 1.0f / COUNT_FACTOR_F));
debris.setEndColor(new ColorRGBA(.5f, 0.5f, 0.5f, 0f));
debris.setStartSize(.10f);
debris.setEndSize(.15f);
debris.setParticlesPerSec(0);
debris.setGravity(0, 12f, 0);
debris.setLowLife(1.4f);
debris.setHighLife(1.5f);
debris.getParticleInfluencer().setInitialVelocity(new Vector3f(0, 15, 0));
debris.getParticleInfluencer().setVelocityVariation(.60f);
debris.setImagesX(3);
debris.setImagesY(3);
Material mat = new Material(app.getAssetManager(), "Common/MatDefs/Misc/Particle.j3md");
mat.setTexture("Texture", app.getAssetManager().loadTexture("Effects/Explosion/Debris.png"));
debris.setMaterial(mat);
return debris;
}
/**
* Creates a shockwave particle emitter.
*
* @return a configured shockwave particle emitter
*/
ParticleEmitter createShockwave() {
ParticleEmitter shockwave = new ParticleEmitter("Shockwave", Type.Triangle, 1 * COUNT_FACTOR);
shockwave.setFaceNormal(Vector3f.UNIT_Y);
shockwave.setStartColor(new ColorRGBA(.48f, 0.17f, 0.01f, .8f / COUNT_FACTOR_F));
shockwave.setEndColor(new ColorRGBA(.48f, 0.17f, 0.01f, 0f));
shockwave.setStartSize(0f);
shockwave.setEndSize(3f);
shockwave.setParticlesPerSec(0);
shockwave.setGravity(0, 0, 0);
shockwave.setLowLife(0.5f);
shockwave.setHighLife(0.5f);
shockwave.getParticleInfluencer().setInitialVelocity(new Vector3f(0, 0, 0));
shockwave.getParticleInfluencer().setVelocityVariation(0f);
shockwave.setImagesX(1);
shockwave.setImagesY(1);
Material mat = new Material(app.getAssetManager(), "Common/MatDefs/Misc/Particle.j3md");
mat.setTexture("Texture", app.getAssetManager().loadTexture("Effects/Explosion/shockwave.png"));
shockwave.setMaterial(mat);
return shockwave;
}
/**
* Creates a moving smoke emitter.
*
* @return a configured smoke emitter
*/
ParticleEmitter createMovingSmokeEmitter() {
ParticleEmitter smokeEmitter = new ParticleEmitter("SmokeEmitter", Type.Triangle, 300);
smokeEmitter.setGravity(0, 0, 0);
smokeEmitter.getParticleInfluencer().setVelocityVariation(1);
smokeEmitter.setLowLife(1);
smokeEmitter.setHighLife(1);
smokeEmitter.getParticleInfluencer().setInitialVelocity(new Vector3f(0, .5f, 0));
smokeEmitter.setImagesX(15); // Assuming the smoke texture is a sprite sheet with 15 frames
Material mat = new Material(app.getAssetManager(), "Common/MatDefs/Misc/Particle.j3md");
mat.setTexture("Texture", app.getAssetManager().loadTexture("Effects/Smoke/Smoke.png"));
smokeEmitter.setMaterial(mat);
return smokeEmitter;
}
/**
* Creates a one-time water splash particle emitter.
*
* @return a configured one-time water splash particle emitter
*/
public ParticleEmitter createWaterSplash() {
// Create a new particle emitter for the splash effect
ParticleEmitter waterSplash = new ParticleEmitter("WaterSplash", Type.Triangle, 30);
// Set the shape of the emitter, making particles emit from a point or small area
waterSplash.setShape(new EmitterSphereShape(Vector3f.ZERO, 0.2f));
// Start and end colors for water (blue, fading out)
waterSplash.setStartColor(new ColorRGBA(0.4f, 0.4f, 1f, 1f)); // Light blue at start
waterSplash.setEndColor(new ColorRGBA(0.4f, 0.4f, 1f, 0f)); // Transparent at the end
// Particle size: small at start, larger before fading out
waterSplash.setStartSize(0.1f);
waterSplash.setEndSize(0.3f);
// Particle lifespan (how long particles live)
waterSplash.setLowLife(0.5f);
waterSplash.setHighLife(1f);
// Gravity: Pull the water particles downwards
waterSplash.setGravity(0, -9.81f, 0); // Earth's gravity simulation
// Velocity: Give particles an initial burst upward (simulates splash)
waterSplash.getParticleInfluencer().setInitialVelocity(new Vector3f(0, 3, 0));
waterSplash.getParticleInfluencer().setVelocityVariation(0.6f); // Add randomness to splash
// Set how many particles are emitted per second (0 to emit all particles at once)
waterSplash.setParticlesPerSec(0);
// Load a texture for the water splash (assuming a texture exists at this path)
Material mat = new Material(app.getAssetManager(), "Common/MatDefs/Misc/Particle.j3md");
mat.setTexture("Texture", app.getAssetManager().loadTexture("Effects/Splash/splash.png"));
waterSplash.setMaterial(mat);
return waterSplash;
}
}

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@ -7,7 +7,7 @@
package pp.battleship.client.gui; package pp.battleship.client.gui;
import com.jme3.effect.ParticleEmitter;
import com.jme3.material.Material; import com.jme3.material.Material;
import com.jme3.material.RenderState.BlendMode; import com.jme3.material.RenderState.BlendMode;
import com.jme3.math.ColorRGBA; import com.jme3.math.ColorRGBA;
@ -48,7 +48,7 @@ class SeaSynchronizer extends ShipMapSynchronizer {
private final ShipMap map; private final ShipMap map;
private final BattleshipApp app; private final BattleshipApp app;
private final ParticleEffectFactory particleFactory;
/** /**
* Constructs a {@code SeaSynchronizer} object with the specified application, root node, and ship map. * Constructs a {@code SeaSynchronizer} object with the specified application, root node, and ship map.
@ -61,6 +61,7 @@ class SeaSynchronizer extends ShipMapSynchronizer {
super(app.getGameLogic().getOwnMap(), root); super(app.getGameLogic().getOwnMap(), root);
this.app = app; this.app = app;
this.map = map; this.map = map;
this.particleFactory = new ParticleEffectFactory(app);
addExisting(); addExisting();
} }
@ -87,9 +88,33 @@ class SeaSynchronizer extends ShipMapSynchronizer {
Node shotNode = new Node("ShotNode"); Node shotNode = new Node("ShotNode");
Geometry shotCylinder = createCylinder(shot); Geometry shotCylinder = createCylinder(shot);
shotNode.attachChild(shotCylinder); shotNode.attachChild(shotCylinder);
ParticleEmitter waterSplash = particleFactory.createWaterSplash();
waterSplash.setLocalTranslation(shot.getY() + 0.5f, 0f, shot.getX() + 0.5f);
shotNode.attachChild(waterSplash);
waterSplash.emitAllParticles();
return shotNode; return shotNode;
} }
/**
* Handles the sinking animation and removal of ship if destroyed
* @param ship the ship to be sunk
*/
private void sinkAndRemoveShip(Battleship ship) {
Battleship snikAndRemove = ship;
final Node shipNode = (Node) getSpatial(snikAndRemove);
if (shipNode == null) return;
// Add sinking control to animate the sinking
shipNode.addControl(new SinkingControl(shipNode));
// Add particle effects
ParticleEmitter bubbles = particleFactory.createWaterSplash();
bubbles.setLocalTranslation(shipNode.getLocalTranslation());
shipNode.attachChild(bubbles);
bubbles.emitAllParticles();
}
/** /**
* Handles a hit by attaching its representation to the node that * Handles a hit by attaching its representation to the node that
* contains the ship model as a child so that it moves with the ship. * contains the ship model as a child so that it moves with the ship.
@ -99,6 +124,55 @@ class SeaSynchronizer extends ShipMapSynchronizer {
*/ */
private Spatial handleHit(Shot shot) { private Spatial handleHit(Shot shot) {
final Battleship ship = requireNonNull(map.findShipAt(shot), "Missing ship"); final Battleship ship = requireNonNull(map.findShipAt(shot), "Missing ship");
final Node shipNode = requireNonNull((Node) getSpatial(ship), "Missing ship node");
// Create a new node specifically for the hit effects
Node hitEffectNode = new Node("HitEffectNode");
// Create particle effects
ParticleEmitter flame = particleFactory.createFlame();
ParticleEmitter flash = particleFactory.createFlash();
ParticleEmitter spark = particleFactory.createSpark();
ParticleEmitter roundSpark = particleFactory.createRoundSpark();
ParticleEmitter smokeTrail = particleFactory.createSmokeTrail();
ParticleEmitter debris = particleFactory.createDebris();
ParticleEmitter shockwave = particleFactory.createShockwave();
ParticleEmitter movingSmoke = particleFactory.createMovingSmokeEmitter();
// Attach all effects to the hitEffectNode
hitEffectNode.attachChild(flame);
hitEffectNode.attachChild(flash);
hitEffectNode.attachChild(spark);
hitEffectNode.attachChild(roundSpark);
hitEffectNode.attachChild(smokeTrail);
hitEffectNode.attachChild(debris);
hitEffectNode.attachChild(shockwave);
hitEffectNode.attachChild(movingSmoke);
// Set the local translation for the hit effect to the point of impact
hitEffectNode.setLocalTranslation(shot.getY() + 0.5f - shipNode.getLocalTranslation().x,
0.5f, // Adjust as needed for height above the ship
shot.getX() + 0.5f - shipNode.getLocalTranslation().z);
// Attach the hitEffectNode to the shipNode so it moves with the ship
shipNode.attachChild(hitEffectNode);
// Emit particles when the hit happens
flash.emitAllParticles();
spark.emitAllParticles();
smokeTrail.emitAllParticles();
debris.emitAllParticles();
shockwave.emitAllParticles();
flame.emitAllParticles();
roundSpark.emitAllParticles();
//Checks if ship is destroyed and triggers animation accordingly
if (ship.isDestroyed()) {
sinkAndRemoveShip(ship);
}
return null; return null;
} }
@ -213,7 +287,7 @@ class SeaSynchronizer extends ShipMapSynchronizer {
return model; return model;
} }
/** /**
* Creates a detailed 3D model to represent a small tug boat. * Creates a detailed 3D model to represent a small tug boat.
* *

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@ -0,0 +1,53 @@
package pp.battleship.client.gui;
import com.jme3.scene.control.AbstractControl;
import com.jme3.math.Vector3f;
import com.jme3.renderer.RenderManager;
import com.jme3.renderer.ViewPort;
import com.jme3.scene.Node;
/**
* Control that handles the sinking effect for destroyed ships.
* It will gradually move the ship downwards and then remove it from the scene.
*/
class SinkingControl extends AbstractControl {
private static final float SINK_DURATION = 5f; // Duration of the sinking animation
private static final float SINK_SPEED = 0.1f; // Speed at which the ship sinks
private float elapsedTime = 0;
private final Node shipNode;
/**
* Constructs a {@code SinkingControl} object with the shipNode to be to be sunk
* @param shipNode the node to handeld
*/
public SinkingControl(Node shipNode) {
this.shipNode = shipNode;
}
/**
* Updated the Map to sink the ship
*
* @param tpf time per frame
*/
@Override
protected void controlUpdate(float tpf) {
// Update the sinking effect
elapsedTime += tpf;
// Move the ship down over time
Vector3f currentPos = shipNode.getLocalTranslation();
shipNode.setLocalTranslation(currentPos.x, currentPos.y - SINK_SPEED * tpf, currentPos.z);
// Check if sinking duration has passed
if (elapsedTime >= SINK_DURATION) {
// Remove the ship from the scene
shipNode.removeFromParent();
}
}
@Override
protected void controlRender(RenderManager rm, ViewPort vp) {
// No rendering-related code needed
}
}

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