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Zoelda
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Merge branch 'master' of https://git.ngb.schule/Tim/Zoelda

This commit is contained in:
Malin.Sieckmann 2021-06-28 08:59:37 +02:00
parent a0abdd8aa8 0d2d9c8dbf
commit 9e6dca2a43
39 changed files with 935 additions and 141 deletions
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3
.gitignore vendored
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@ -5,3 +5,6 @@
.classpath
.project
*.log
/.idea/
/out/
/Zoelda.iml

BIN
Zoelda/lib/Engine.Alpha.jar
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65
Zoelda/src/main/DoorTile.java Normal file
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@ -0,0 +1,65 @@
package main;
import ea.Ticker;
import main.entities.player.Player;
import main.maps.ImageMap;
public class DoorTile extends Tile implements Ticker {
public static final int TOP = 0;
public static final int BOTTOM = 1;
public static final int LEFT = 2;
public static final int RIGHT = 3;
private int side;
private DoorTile connected;
private ImageMap map;
private boolean waitForLeave;
public DoorTile(float x, float y, ImageMap map) {
super(Tile.DOOR, x, y);
this.map = map;
Main.instance.tickerAnmelden(this, 50);
}
@Override
public void tick() {
if (Main.instance.getWorld() != null) {
Player player = Main.instance.getWorld().getPlayer();
float dist = player.dist(posX + 0.5f, posY + 0.5f);
if (dist < 0.5f) {
if (!waitForLeave) {
Main.instance.getWorld().changeMap(this);
waitForLeave = true;
}
} else {
waitForLeave = false;
}
}
}
public int getSide() {
return side;
}
public void setSide(int side) {
this.side = side;
}
public void setConnectedDoor(DoorTile door) {
connected = door;
}
public DoorTile getConnectedDoor() {
return connected;
}
public ImageMap getMap() {
return map;
}
public void waitForLeave() {
waitForLeave = true;
}
}

72
Zoelda/src/main/HUD.java Normal file
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@ -0,0 +1,72 @@
package main;
import java.awt.Graphics2D;
import java.awt.image.BufferedImage;
import java.io.IOException;
import javax.imageio.ImageIO;
import ea.BoundingRechteck;
import ea.Knoten;
import ea.Ticker;
public class HUD extends Knoten implements Ticker {
private BufferedImage volles_Herz;
private BufferedImage halbes_Herz;
private BufferedImage leeres_Herz;
private BufferedImage hauptBild;
private BufferedImage[] HPLeiste;
private final static int SCALE = 50;
public HUD() {
// inizialisieren der Variablen, laden der Bilder und für den ticker anmelden
HPLeiste = new BufferedImage[3];
Main.instance.manager.anmelden(this, 50);
try {
hauptBild = ImageIO.read(HUD.class.getResourceAsStream("/res/images/icons.png"));
} catch (IOException e) {
e.printStackTrace();
}
BufferedImage buff;
// volles_Herz:
buff = hauptBild.getSubimage(16, 0, 16, 16);
volles_Herz = buff;
// halbes_Herz:
buff = hauptBild.getSubimage(32, 0, 16, 16);
halbes_Herz = buff;
// leeres_Herz
buff = hauptBild.getSubimage(48, 0, 16, 16);
leeres_Herz = buff;
HPLeiste[0] = volles_Herz;
HPLeiste[1] = volles_Herz;
HPLeiste[2] = volles_Herz;
}
//wird alle 50ms ausgeführt:
@Override
public void tick() {
// teilt den Wert der HP in Teile auf, welche der Anzahl der Herzen entspricht
// und prüft dann für den eigenen Teil des Herzens, ob das jeweilige Herz voll,
// halb oder leer ist (BIG BRAIN):
float localeHP;
for (int i = 0; i < HPLeiste.length; i++) {
localeHP = Main.instance.getWorld().getPlayer().getHP();
;
localeHP -= ((float) i) * (1f / HPLeiste.length);
if (localeHP <= 0f) {
HPLeiste[i] = leeres_Herz;
} else if (localeHP < (1 / (float) (2 * HPLeiste.length))) {
HPLeiste[i] = halbes_Herz;
} else if (localeHP > 1 / (float) (2 * HPLeiste.length)) {
HPLeiste[i] = volles_Herz;
}
}
}
//Zeichnet alle Herzen im Array HPLeiste[] auf den Bildschirm
@Override
public void zeichnen(Graphics2D g, BoundingRechteck r) {
for (int i = 0; i < HPLeiste.length; i++) {
g.drawImage(HPLeiste[i], i * SCALE, 0, SCALE, SCALE, null);
}
}
}

8
Zoelda/src/main/Main.java
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@ -10,18 +10,18 @@ public class Main extends Game {
public static Main instance;
private World world;
public static final int WIDTH = 1000; // Fensterbreite
public static final int HEIGHT = 800; // Fensterhöhe
private HUD hud;
public Main() {
super(WIDTH, HEIGHT);
super(World.SCALE * 15, World.SCALE * 11, 16);
instance = this;
// Welt initialisieren und Spieler hinzufügen
world = new World();
hud = new HUD();
// die Welt zu EA hinzufügen
wurzel.add(world);
wurzel.add(hud);
}
@Override

2
Zoelda/src/main/SheetLoader.java
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@ -11,7 +11,7 @@ import ea.internal.gra.PixelFeld;
public class SheetLoader {
private static Figur[] figures;
private Figur[] figures;
/**
* Macht aus einem Spritesheet Figuren.

60
Zoelda/src/main/Tile.java
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@ -19,36 +19,48 @@ public class Tile extends Knoten {
public static final int WALL_BOTTOM = 2;
public static final int STONE_WALL = 3;
public static final int STONE_WALL_BOTTOM = 4;
public static final int STONE_FLOOR = 5;
public static final int VOID = 6;
public static final int DOOR = 7;
private Bild img; // Bild, das gerendert wird
private int id; // Die id dises Tiles
protected float posX, posY; // Position dieses Tiles
/**
* @param id
* @param x - X-Koordinate in units
* @param y - Y-Koordinate in units
* @param x - X-Koordinate in units
* @param y - Y-Koordinate in units
*/
public Tile(int id, float x, float y) {
this.id = id;
posX = x;
posY = y;
// Das Bild laden
try {
BufferedImage buff = ImageIO.read(Tile.class.getResourceAsStream(getPathFromId(id)));
// Gras hat 8 verschiedene Texturen von denen eine zufällig ausgewählt werden
// muss.
if (id == GRASS) {
buff = buff.getSubimage(16 * (int) (Math.random() * 8), 0, 16, 16);
}
// Skalieren
BufferedImage scaled = new BufferedImage(World.SCALE, World.SCALE, BufferedImage.TYPE_INT_RGB);
scaled.getGraphics().drawImage(buff, 0, 0, World.SCALE, World.SCALE, null);
img = new Bild(x * World.SCALE, y * World.SCALE, scaled);
if (id != VOID) {
// Das Bild laden
try {
BufferedImage buff = ImageIO.read(Tile.class.getResourceAsStream(getPathFromId(id)));
// Gras hat 8 verschiedene Texturen von denen eine zufällig ausgewählt werden
// muss.
if (id == GRASS) {
buff = buff.getSubimage(16 * (int) (Math.random() * 8), 0, 16, 16);
}
// if (id == STONE_FLOOR) {
// buff = buff.getSubimage(16 * (int) (Math.random() * 10), 0, 16, 16);
// }
// Skalieren
BufferedImage scaled = new BufferedImage(World.SCALE, World.SCALE, BufferedImage.TYPE_INT_RGB);
scaled.getGraphics().drawImage(buff, 0, 0, World.SCALE, World.SCALE, null);
img = new Bild(x * World.SCALE, y * World.SCALE, scaled);
} catch (IOException e) {
e.printStackTrace();
} catch (IOException e) {
e.printStackTrace();
}
// Bild zu EA hinzufügen.
add(img);
}
// Bild zu EA hinzufügen.
add(img);
}
/**
@ -63,9 +75,13 @@ public class Tile extends Knoten {
case WALL_BOTTOM:
return "/res/images/tiles/wall_bottom.png";
case STONE_WALL:
return "/res/images/tiles/stone_wall.png";
return "/res/images/tiles/test.png";
case STONE_WALL_BOTTOM:
return "/res/images/tiles/stone_wall_bottom.png";
case STONE_FLOOR:
return "/res/images/tiles/TestTest.png";
case DOOR:
return "/res/images/tiles/door.png";
}
return null;
}
@ -83,7 +99,7 @@ public class Tile extends Knoten {
public boolean isCollidable() {
// Alle Tiles durch die man nicht laufen soll müssen hier true zurückgeben,
// sonst werden sie bei der Collisiondetection nicht berücksichtigt.
return id == WALL_TOP || id == STONE_WALL ;
return id == WALL_TOP || id == STONE_WALL;
}
/**
@ -113,4 +129,8 @@ public class Tile extends Knoten {
public int getRight() {
return positionX() + getSize();
}
public int getID() {
return id;
}
}

68
Zoelda/src/main/World.java
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@ -1,51 +1,61 @@
package main;
import java.util.ArrayList;
import ea.Knoten;
import main.entities.Entity;
import main.entities.Player;
import main.entities.Snake;
import main.entities.Spider;
import main.entities.player.Player;
import main.maps.ImageMap;
import main.maps.Map;
import main.maps.TestMap;
/**
* Hier werden alle Maps gespeichert.
*/
public class World extends Knoten {
public static final int SCALE_FACTOR = 4; // Der Basis Zoomfaktor
public static final int SCALE_FACTOR = 6; // Der Basis Zoomfaktor
public static final int SCALE = SCALE_FACTOR * Tile.getSize(); // Eine Gameunit ist so viele pixel lang
private Map currentMap; // Die Map die aktuell angezeigt werden soll.
private ArrayList<ImageMap> dungeon;
private Player player;
public World() {
// Map initialisieren
currentMap = new TestMap();
// Map zu EA hinzufügen
add(currentMap);
// und Entities auch
Player player = new Player();
add(player.actionFigur);
currentMap.getEntities().add(player);
Spider spider = new Spider();
// und Spinnen auch
add(spider.actionFigur);
currentMap.getEntities().add(spider);
dungeon = new ArrayList<>(50);
ImageMap start = new ImageMap("/res/images/maps/map2.png");
dungeon.add(start);
currentMap = start;
start.generate(dungeon, DoorTile.BOTTOM);
player = new Player();
currentMap.getEntities().add(player);
currentMap.add(player.actionFigur);
Main.instance.manager.anmelden(player, 20);
add(currentMap);
Snake snake = new Snake();
add(snake.actionFigur);
currentMap.getEntities().add(snake);
// Alle Entities als ticker registrieren (triggert dann die update methoden)
for (Entity e : currentMap.getEntities()) {
Main.instance.manager.anmelden(e, 20);
}
}
public Map getCurrentMap() {
return currentMap;
}
public Player getPlayer() {
return player;
}
public void changeMap(DoorTile door) {
currentMap.entfernen(player.actionFigur);
entfernen(currentMap);
System.out.println(door);
currentMap = door.getConnectedDoor().getMap();
currentMap.add(player.actionFigur);
add(currentMap);
door.getConnectedDoor().waitForLeave();
player.setPos(door.getConnectedDoor().posX + 0.5f, door.getConnectedDoor().posY + 0.5f);
}
}

94
Zoelda/src/main/entities/Entity.java
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@ -1,6 +1,9 @@
package main.entities;
import ea.Ticker;
import ea.Vektor;
import main.Main;
import main.Tile;
import main.maps.Map;
/*
@ -14,6 +17,7 @@ public abstract class Entity implements Ticker {
protected float accelleration = 0.012f; // Beschleunigung des entities in gameunits pro frame.
protected float friction = 0.2f; // Entschleunigung des entities in gameunits pro frame.
protected float width = 1f, height = 1f; // Breite und Höhe der Hitbox.
private boolean deleteEntity; // Wenn true wird dieses Entity von der map gelöscht
// Das ist die Ticker-Methode von ea; wird jeden frame ausgeführt (frameloop)
@Override
@ -107,5 +111,95 @@ public abstract class Entity implements Ticker {
public float dist(Entity e) {
return (float) Math.sqrt((e.posX - posX) * (e.posX - posX) + (e.posY - posY) * (e.posY - posY));
}
/**
* @return die entifernung zu dieser Koordinate
*/
public float dist(float x, float y) {
return (float) Math.sqrt((x - posX) * (x - posX) + (y - posY) * (y - posY));
}
/**
* Generiert einen vektor von diesm Entity zu einem anderen
*/
public Vektor vectorToEntity(Entity e) {
Vektor v = new Vektor(e.posX - posX, e.posY - posY);;
if (v.x == 0 && v.y == 0) {
return new Vektor(0.0000001f, 0.0000001f);
}
return v;
}
protected boolean lineOfSightClear(Entity e) {
Vektor direct = vectorToEntity(e).normiert();
direct = direct.teilen(4f);
Vektor loc = new Vektor(posX, posY);
float lastDist;
float dist = Float.MAX_VALUE;
boolean clear = true;
do {
loc = loc.summe(direct);
lastDist = dist;
dist = Math.abs(e.posX - loc.x) + Math.abs(e.posY - loc.y);
Tile t = Main.instance.getWorld().getCurrentMap().getTile((int) loc.x, (int) loc.y);
if (t != null && t.isCollidable()) {
clear = false;
break;
}
} while (dist < lastDist);
return clear;
}
/**
* Gibt den velX Wert zurück.
* @return gibt den velX Wert als float zurück.
*/
public float getVelX() {
return velX;
}
/**
* Gibt den velY Wert zurück.
* @return gibt den velY Wert als float zurück.
*/
public float getVelY() {
return velY;
}
/**
* Setzt eine neue velX velocity.
* @param velX neuer float velX Wert.
*/
public void setVelX(float velX) {
this.velX = velX;
}
/**
* Setzt eine neue Y velocity.
* @param velY neuer float velY Wert.
*/
public void setVelY(float velY) {
this.velY = velY;
}
public void setPosX(float x) {
posX = x;
}
public void setPosY(float y) {
posY = y;
}
public void setPos(float x, float y) {
posX = x;
posY = y;
}
public void deleteEntity() {
deleteEntity = true;
}
public boolean isReadyToDelete() {
return deleteEntity;
}
}

29
Zoelda/src/main/entities/LivingEntity.java
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@ -7,7 +7,7 @@ import main.World;
/*
* Alles was zustände hat und sich Bewegen kann, ist ein LivingEntity.
*/
public class LivingEntity extends Entity {
public abstract class LivingEntity extends Entity {
protected boolean side; // true = gespiegelt, false = nicht
public ActionFigur actionFigur; // Sprite des Entities
@ -15,6 +15,7 @@ public class LivingEntity extends Entity {
protected float spriteOffsetX, spriteOffsetY; // Offset des Sprites. Hier kann man die relative render-Position nachjustieren.
protected float hp = 1f; //hp des Entitys
protected boolean mirrored;
/**
* @param figur - erstes (standart) Sprite
* @param name - name des Zustands
@ -41,6 +42,15 @@ public class LivingEntity extends Entity {
} else if (velX > 0) {
side = false;
}
if (hp <= 0) {
actionFigur.zustandSetzen(getDeathAnimationName());
velX = 0;
velY = 0;
if (actionFigur.aktuelleFigur().aktuellesBild() == actionFigur.aktuelleFigur().animation().length - 1) {
deleteEntity();
}
}
// Packt das Sprite an die richtige Stelle
actionFigur.faktorSetzen((int) (spriteScale * World.SCALE_FACTOR));
@ -54,10 +64,23 @@ public class LivingEntity extends Entity {
*/
protected void zustandSetzen(String name) {
actionFigur.spiegelXSetzen(mirrored ? !side : side);
actionFigur.zustandSetzen(name);
if (!actionFigur.aktuellesVerhalten().equals(name)) {
actionFigur.zustandSetzen(name);
actionFigur.aktuelleFigur().animationsBildSetzen(0);
}
}
protected float getHealthPoints() {
public float getHP() {
return hp;
}
public void takeDamage(float damage, Entity e) {
zustandSetzen(getDamageAnimationName());
actionFigur.aktuelleFigur().animationsBildSetzen(0);
hp -= damage;
}
public abstract String getDeathAnimationName();
public abstract String getDamageAnimationName();
}

84
Zoelda/src/main/entities/Snake.java
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@ -1,16 +1,14 @@
package main.entities;
import java.util.ArrayList;
import ea.Vektor;
import main.Main;
import main.SheetLoader;
import main.Tile;
import main.entities.player.Player;
public class Snake extends LivingEntity {
private static SheetLoader loader = new SheetLoader("/res/images/snake_spritesheet_calciumtrice.png", 32, 32,
new int[] { 10, 10, 10, 10, 10 });
new int[] { 10, 10, 10, 10, 13, 8 });
public Snake() {
super(loader.getFigur(0), "idle");
@ -26,64 +24,50 @@ public class Snake extends LivingEntity {
actionFigur.neuerZustand(loader.getFigur(1), "lost_sight");
actionFigur.neuerZustand(loader.getFigur(2), "walk");
actionFigur.neuerZustand(loader.getFigur(3), "attack");
actionFigur.neuerZustand(loader.getFigur(4), "die");
actionFigur.neuerZustand(loader.getFigur(4), getDeathAnimationName());
actionFigur.neuerZustand(loader.getFigur(5), getDamageAnimationName());
loader.getFigur(3).animationsGeschwindigkeitSetzen(80);
loader.getFigur(5).animationsGeschwindigkeitSetzen(60);
}
@Override
protected void update() {
ArrayList<Entity> entities = Main.instance.getWorld().getCurrentMap().getEntities();
Entity nearestPlayer = null;
for (Entity e : entities) {
if (e instanceof Player) {
if (nearestPlayer == null || e.dist(this) < nearestPlayer.dist(this)) {
nearestPlayer = e;
Player player = Main.instance.getWorld().getPlayer();
if (!actionFigur.aktuellesVerhalten().equals(getDamageAnimationName())) {
if (lineOfSightClear(player)) {
if (dist(player) < 1f) {
zustandSetzen("attack");
} else {
Vektor toPlayer = vectorToEntity(player).normiert();
velX += toPlayer.x * accelleration;
velY += toPlayer.y * accelleration;
zustandSetzen("walk");
}
} else {
if (!actionFigur.aktuellesVerhalten().equals("idle")) {
zustandSetzen("lost_sight");
if (actionFigur.aktuelleFigur().aktuellesBild() == actionFigur.aktuelleFigur().animation().length - 1) {
zustandSetzen("idle");
}
}
}
}
if (nearestPlayer != null && lineOfSightClear(nearestPlayer)) {
if (dist(nearestPlayer) < 1f) {
zustandSetzen("attack");
} else {
Vektor toPlayer = new Vektor(nearestPlayer.posX - posX, nearestPlayer.posY - posY);
toPlayer = toPlayer.normiert();
velX += toPlayer.x * accelleration;
velY += toPlayer.y * accelleration;
} else {
if (actionFigur.aktuelleFigur().aktuellesBild() == actionFigur.aktuelleFigur().animation().length - 1) {
zustandSetzen("walk");
}
} else
{
if (actionFigur.aktuellesVerhalten().equals("walk")) {
zustandSetzen("lost_sight");
}
if (actionFigur.aktuellesVerhalten().equals("lost_sight") && actionFigur.aktuelleFigur()
.aktuellesBild() == actionFigur.aktuelleFigur().animation().length - 1) {
actionFigur.aktuelleFigur().animationsBildSetzen(0);
zustandSetzen("idle");
}
}
this.checkTileCollisions(Main.instance.getWorld().getCurrentMap());
super.update();
}
private boolean lineOfSightClear(Entity e) {
Vektor direct = new Vektor(e.posX - posX, e.posY - posY).normiert();
direct = direct.teilen(4f);
Vektor loc = new Vektor(posX, posY);
float lastDist;
float dist = Float.MAX_VALUE;
boolean clear = true;
do {
loc = loc.summe(direct);
lastDist = dist;
dist = Math.abs(e.posX - loc.x) + Math.abs(e.posY - loc.y);
Tile t = Main.instance.getWorld().getCurrentMap().getTile((int) loc.x, (int) loc.y);
if (t != null && t.isCollidable()) {
clear = false;
break;
}
} while (dist < lastDist);
return clear;
@Override
public String getDeathAnimationName() {
return "die";
}
@Override
public String getDamageAnimationName() {
return "damage";
}
}

57
Zoelda/src/main/entities/Spider.java
View File

@ -1,15 +1,16 @@
package main.entities;
import ea.Vektor;
import main.Main;
import main.SheetLoader;
import main.entities.player.Player;
public class Spider extends LivingEntity {
private static SheetLoader loader = new SheetLoader("/res/images/spider_sprite_sheet.png", 32, 32,
new int[] { 5, 6, 9, 1, 4, 3, 9, 6, 5, 6, 9, 1, 4, 3, 9, 6 });
private static SheetLoader loader = new SheetLoader("/res/images/spider_sprite_sheet.png", 32, 32, new int[] { 5, 3, 6, 9, 9, 8 });
public Spider() {
super(loader.getFigur(0), "walk");
super(loader.getFigur(0), "idle");
width = 0.7f;
height = 0.8f;
@ -17,17 +18,55 @@ public class Spider extends LivingEntity {
spriteScale = 0.8f;
posX = 4f;
posY = 4f;
mirrored = true;
actionFigur.neuerZustand(loader.getFigur(1), "lost_sight");
actionFigur.neuerZustand(loader.getFigur(2), "walk");
actionFigur.neuerZustand(loader.getFigur(3), "attack");
actionFigur.neuerZustand(loader.getFigur(4), getDeathAnimationName());
actionFigur.neuerZustand(loader.getFigur(5), getDamageAnimationName());
loader.getFigur(3).animationsGeschwindigkeitSetzen(80);
loader.getFigur(5).animationsGeschwindigkeitSetzen(40);
}
protected void update() {
// auf Kollisionen prüfen
checkTileCollisions(Main.instance.getWorld().getCurrentMap());
// LivingEntity auch updaten lassen
Player player = Main.instance.getWorld().getPlayer();
if (!actionFigur.aktuellesVerhalten().equals(getDamageAnimationName())) {
if (lineOfSightClear(player)) {
if (dist(player) < 1f) {
zustandSetzen("attack");
} else {
Vektor toPlayer = vectorToEntity(player).normiert();
velX += toPlayer.x * accelleration;
velY += toPlayer.y * accelleration;
zustandSetzen("walk");
}
} else {
if (!actionFigur.aktuellesVerhalten().equals("idle")) {
zustandSetzen("lost_sight");
if (actionFigur.aktuelleFigur().aktuellesBild() == actionFigur.aktuelleFigur().animation().length - 1) {
zustandSetzen("idle");
}
}
}
} else {
if (actionFigur.aktuelleFigur().aktuellesBild() == actionFigur.aktuelleFigur().animation().length - 1) {
zustandSetzen("walk");
}
}
this.checkTileCollisions(Main.instance.getWorld().getCurrentMap());
super.update();
velX = 0;
velY = 0;
}
@Override
public String getDeathAnimationName() {
return "die";
}
@Override
public String getDamageAnimationName() {
return "damage";
}
}

65
Zoelda/src/main/entities/Player.java → Zoelda/src/main/entities/player/Player.java
View File

@ -1,12 +1,20 @@
package main.entities;
package main.entities.player;
import java.util.ArrayList;
import ea.Taste;
import ea.Vektor;
import main.Main;
import main.SheetLoader;
import main.entities.Entity;
import main.entities.LivingEntity;
public class Player extends LivingEntity {
private static SheetLoader loader = new SheetLoader("/res/images/player_sprite_sheet.png", 64, 32, new int[] {5, 8, 7, 6, 2, 5, 4, 7});
private static SheetLoader loader = new SheetLoader("/res/images/player_sprite_sheet.png", 64, 32,
new int[] { 5, 8, 7, 6, 2, 5, 4, 7 });
private boolean onlyAttackOnceTrigger;
private float range = 1.2f; // die reichweite der Attacke
public Player() {
super(loader.getFigur(0), "idle");
@ -16,9 +24,9 @@ public class Player extends LivingEntity {
height = 0.8f;
spriteOffsetY = -0.14f;
spriteScale = 0.8f;
posX = 4f;
posY = 4f;
posX = 7.5f;
posY = 5.5f;
// unterschiedliche Animationsgeschwindigkeiten
// für idle
loader.getFigur(0).animationsGeschwindigkeitSetzen(200);
@ -30,7 +38,8 @@ public class Player extends LivingEntity {
actionFigur.neuerZustand(loader.getFigur(1), "walk");
actionFigur.neuerZustand(loader.getFigur(2), "strike");
actionFigur.neuerZustand(loader.getFigur(3), "swipe");
actionFigur.neuerZustand(loader.getFigur(7), "die");
actionFigur.neuerZustand(loader.getFigur(6), getDamageAnimationName());
actionFigur.neuerZustand(loader.getFigur(7), getDeathAnimationName());
}
@Override
@ -39,9 +48,9 @@ public class Player extends LivingEntity {
if (!((actionFigur.aktuellesVerhalten().equals("strike"))
&& actionFigur.aktuelleFigur().aktuellesBild() < actionFigur.aktuelleFigur().animation().length - 1)) {
// Bei diser soll man sich nicht bewegen können aber weiter rutschen
if (!((actionFigur.aktuellesVerhalten().equals("swipe"))
&& actionFigur.aktuelleFigur().aktuellesBild() < actionFigur.aktuelleFigur().animation().length - 1)) {
if (!((actionFigur.aktuellesVerhalten().equals("swipe")) && actionFigur.aktuelleFigur()
.aktuellesBild() < actionFigur.aktuelleFigur().animation().length - 1)) {
// wasd movement
if (Main.instance.tasteGedrueckt(Taste.A)) {
velX -= accelleration;
@ -55,7 +64,7 @@ public class Player extends LivingEntity {
if (Main.instance.tasteGedrueckt(Taste.S)) {
velY += accelleration;
}
// Auf idle stellen wenn man sich nicht bewegt
if (velX == 0 && velY == 0) {
zustandSetzen("idle");
@ -73,8 +82,9 @@ public class Player extends LivingEntity {
if (Main.instance.tasteGedrueckt(Taste.F)) {
zustandSetzen("die");
}
onlyAttackOnceTrigger = false;
}
// auf Kollisionen prüfen
checkTileCollisions(Main.instance.getWorld().getCurrentMap());
// LivingEntity auch updaten lassen
@ -83,5 +93,38 @@ public class Player extends LivingEntity {
velX = 0;
velY = 0;
}
// auf Kollisionen prüfen
checkTileCollisions(Main.instance.getWorld().getCurrentMap());
if (!onlyAttackOnceTrigger && actionFigur.aktuellesVerhalten().equals("swipe")
&& actionFigur.aktuelleFigur().aktuellesBild() == 1) {
onlyAttackOnceTrigger = true;
ArrayList<Entity> entities = Main.instance.getWorld().getCurrentMap().getEntities();
for (Entity e : entities) {
if (e instanceof LivingEntity && e != this && e.dist(this) <= range) {
LivingEntity le = (LivingEntity) e;
if (le.getHP() > 0) {
Vektor toE = vectorToEntity(le);
toE = toE.normiert();
if ((toE.x > 0 && !side) || (toE.x <= 0 && side)) {
le.setVelX(le.getVelX() + toE.x * 0.1f);
le.setVelY(le.getVelY() + toE.y * 0.1f);
le.takeDamage(0.1f, this);
}
}
}
}
}
}
@Override
public String getDeathAnimationName() {
return "die";
}
@Override
public String getDamageAnimationName() {
return "damage";
}
}

114
Zoelda/src/main/entities/player/PlayerInventory.java Normal file
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@ -0,0 +1,114 @@
package main.entities.player;
import main.items.Item;
/**
* Container Klasse für das Inventar des Spielers,
* eventuell später verallgemeinerbar für Truhen o.ä. je nach design dieser.
*/
public class PlayerInventory {
private int coins;
private Item[] items;
private int currentItem;
/**
* Erstellt ein Player Inventar, welches einen Coin counter und ein Item Inventar enthält.
* @param inventorySize Gibt die größe des Item inventars als int an.
*/
public PlayerInventory(int inventorySize){
items = new Item [inventorySize];
currentItem = 0;
}
/**
* Getter für den Coin counter
* @return Gibt die Anzahl der Coins im Inventar als int zurück.
*/
public int getCoins(){
return coins;
}
/**
* Setzt die Anzahl von Coins im Inventar zu angegebener Anzahl.
* @param coins Anzahl an coins als int, die im Inventar sein sollen.
*/
public void setCoins(int coins) {
this.coins = coins;
}
/**
* Fügt die angegebene Anzahl an Coins in das Inventar hinzu.
* @param amount Die Anzahl an Coins als int, die hinzugefügt werden soll.
*/
public void addCoins(int amount){
this.coins+= amount;
}
/**
* Entfernt die angegebene Anzahl an Coins vom Inventar.
* @param amount Die Anzahl an Coins als int, die entfernt werden soll.
*/
public void subtractCoins(int amount){
this.coins-= amount;
}
/**
* Getter für das Items im Inventar.
* @return gibt ein Array mit allen Item Objekten zurück, die im Inventar enthalten sind.
*/
public Item[] getItems(){
return items;
}
/**
* Ersetzt das jetzige Inventar um ein neues mit im Item-Array items angegebenen Items.
* @param items Array mit Items die das Inventar ersetzen sollen.
*/
public void setItems(Item[] items) {
this.items = items;
}
/**
* Entfernt ein Item auf angegebner Position im Item-Array.
* @param itemPosition Position des Items das entfernt werden soll, angegeben als int.
*/
public void removeItem(int itemPosition) {
items[itemPosition]=null;
}
/**
* Setzt das gerade ausgewählte Item fest.
* @param currentItem int gibt an welcher Index des Item Arrays ausgewählt werden soll.
*/
public void setCurrentItem(int currentItem) {
this.currentItem = currentItem;
}
/**
* Wechselt auf den nächsten Slot im Inventar.
*/
public void changeCurrentItem(){
if(currentItem>=items.length) currentItem=0;
else currentItem++;
}
/**
* Methode zum Hinzufügen von Items.
* @param newItem Das Item, dass hinzugefügt werden soll.
* @return gibt zurück ob das Item hinzugefügt wurde, d.h. true wenn hinzugefügt und false wenn nicht hinzugefügt.
*/
public boolean addItem(Item newItem){
for(int i =0;i< items.length;i++) {
if (items[i] == null) {
items[i] = newItem;
return true;
}
}
return false;
}
}

16
Zoelda/src/main/items/Item.java Normal file
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@ -0,0 +1,16 @@
package main.items;
//TODO:Hier soll die Item Oberklasse entstehen
public class Item {
private String icon;
public Item(String iconPath){
icon=iconPath;
}
/**
* Gibt den Pfad zu dem Icon dieses Items an.
* @return String, der den Pfad des Icons dieses Items beschreibt
*/
public String getIconPath(){
return icon;
}
}

30
Zoelda/src/main/maps/Corridor.java
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@ -5,22 +5,34 @@ import main.Tile;
public class Corridor extends Map {
public Corridor() {
super(5, 10);
super(15, 11);
for (int x = 0; x < map.length; x++) {
for (int y = 0; y < map[0].length; y++) {
if((y == 0 || x == 0 || y == 9 || x == 4) && x != 2 ) {
map[x][y] = new Tile(3, x, y);
add(map[x][y]);
} else if(y == 1 && (x != 0 || x != 4)&& x != 2 ) {
map[x][y] = new Tile(4, x, y);
// Wand
if ((y == 0 || x == 5 || y == 10 || x == 9) && x != 7 && x >= 5 && x <= 9) {
map[x][y] = new Tile(Tile.STONE_WALL, x, y);
add(map[x][y]);
}
else {
map[x][y] = new Tile(0, x, y);
// 3D-Wand
else if (y == 1 && (x != 0 || x != 4) && x != 7 && x >= 6 && x <= 8) {
map[x][y] = new Tile(Tile.STONE_WALL_BOTTOM, x, y);
add(map[x][y]);
}
// Steinboden
else if (x >= 6 && x <= 8) {
if (x == 7 && (y == 0 || y == map[0].length - 1)) {
} else {
map[x][y] = new Tile(Tile.STONE_FLOOR, x, y);
add(map[x][y]);
}
} else {
map[x][y] = new Tile(Tile.VOID, x, y);
add(map[x][y]);
}
}
}
registerEntities();
}
}

165
Zoelda/src/main/maps/ImageMap.java Normal file
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@ -0,0 +1,165 @@
package main.maps;
import java.awt.Color;
import java.awt.image.BufferedImage;
import java.io.IOException;
import java.util.ArrayList;
import javax.imageio.ImageIO;
import main.DoorTile;
import main.Tile;
public class ImageMap extends Map {
private static PixelTile[] pixels = {
new PixelTile(Tile.STONE_WALL, new Color(100, 100, 100)),
new PixelTile(Tile.STONE_FLOOR, new Color(127, 127, 127)),
new PixelTile(Tile.VOID, new Color(0, 0, 0)),
new PixelTile(Tile.DOOR, new Color(255, 0, 0)) };
public DoorTile topDoor;
public DoorTile leftDoor;
public DoorTile rightDoor;
public DoorTile bottomDoor;
public ImageMap(String path) {
super(15, 11);
try {
BufferedImage img = ImageIO.read(ImageMap.class.getResourceAsStream(path));
if (img.getWidth() != 15 || img.getHeight() != 11) {
System.err.println("Odd map size! Use 15x11");
}
for (int x = 0; x < img.getWidth(); x++) {
for (int y = 0; y < img.getHeight(); y++) {
int id = Tile.VOID;
int rgb = img.getRGB(x, y);
for (PixelTile t : pixels) {
if (t.c == rgb) {
id = t.id;
break;
}
}
if (id == Tile.DOOR) {
DoorTile door = new DoorTile(x, y, this);
map[x][y] = door;
if (x == 7) {
if (y < 5) {
topDoor = door;
door.setSide(DoorTile.TOP);
} else {
bottomDoor = door;
door.setSide(DoorTile.BOTTOM);
}
}
if (y == 5) {
if (x < 7) {
leftDoor = door;
door.setSide(DoorTile.LEFT);
} else {
rightDoor = door;
door.setSide(DoorTile.RIGHT);
}
}
} else {
map[x][y] = new Tile(id, x, y);
}
add(map[x][y]);
}
}
} catch (IOException e) {
e.printStackTrace();
}
}
private static class PixelTile {
public final int c;
public final int id;
public PixelTile(int id, Color c) {
this.c = c.getRGB();
this.id = id;
}
}
public void generate(ArrayList<ImageMap> dungeon, int fromSide) {
if (topDoor != null && fromSide != DoorTile.TOP) {
ImageMap map;
do {
map = nextMap();
} while (!connectDoors(topDoor, map));
dungeon.add(map);
System.out.println("TOP");
map.generate(dungeon, DoorTile.BOTTOM);
}
if (bottomDoor != null && fromSide != DoorTile.BOTTOM) {
ImageMap map;
do {
map = nextMap();
} while (!connectDoors(bottomDoor, map));
dungeon.add(map);
System.out.println("BOTTOM");
map.generate(dungeon, DoorTile.TOP);
}
if (leftDoor != null && fromSide != DoorTile.LEFT) {
ImageMap map;
do {
map = nextMap();
} while (!connectDoors(leftDoor, map));
dungeon.add(map);
System.out.println("LEFT");
map.generate(dungeon, DoorTile.RIGHT);
}
if (rightDoor != null && fromSide != DoorTile.RIGHT) {
ImageMap map;
do {
map = nextMap();
} while (!connectDoors(rightDoor, map));
dungeon.add(map);
System.out.println("RIGHT");
map.generate(dungeon, DoorTile.LEFT);
}
System.out.println();
}
private ImageMap nextMap() {
return new ImageMap("/res/images/maps/map" + ((int) (Math.random() * 4) + 5) + ".png");
}
private boolean connectDoors(DoorTile door, ImageMap otherMap) {
switch (door.getSide()) {
case DoorTile.TOP:
if (otherMap.bottomDoor == null) {
return false;
}
door.setConnectedDoor(otherMap.bottomDoor);
otherMap.bottomDoor.setConnectedDoor(door);
System.out.println(door.getConnectedDoor());
System.out.println(otherMap.bottomDoor.getConnectedDoor());
return true;
case DoorTile.BOTTOM:
if (otherMap.topDoor == null) {
return false;
}
door.setConnectedDoor(otherMap.topDoor);
otherMap.topDoor.setConnectedDoor(door);
return true;
case DoorTile.LEFT:
if (otherMap.rightDoor == null) {
return false;
}
door.setConnectedDoor(otherMap.rightDoor);
otherMap.rightDoor.setConnectedDoor(door);
return true;
case DoorTile.RIGHT:
if (otherMap.leftDoor == null) {
return false;
}
door.setConnectedDoor(otherMap.leftDoor);
otherMap.leftDoor.setConnectedDoor(door);
return true;
}
return true;
}
}

37
Zoelda/src/main/maps/Map.java
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@ -3,25 +3,32 @@ package main.maps;
import java.util.ArrayList;
import ea.Knoten;
import ea.Ticker;
import main.Main;
import main.Tile;
import main.entities.Entity;
import main.entities.LivingEntity;
/**
* Auf der Map sind alle Entities, sowie die Tiles gespiechert.
*/
public abstract class Map extends Knoten {
public abstract class Map extends Knoten implements Ticker {
protected Tile[][] map; // Die Tiles der map in einem 2D Array.
private ArrayList<Entity> entities;
public Map(int width, int height) {
map = new Tile[width][height];
entities = new ArrayList<>(100);
Main.instance.manager.anmelden(this, 20);
}
/**
* Gibt das Tile-Objekt an der gegebenen Koordinate zurück. (nur wenn es existiert)
* Gibt das Tile-Objekt an der gegebenen Koordinate zurück. (nur wenn es
* existiert)
*/
public Tile getTile(int x, int y) {
if (x >= 0 && x < map.length && y >= 0 && y < map[0].length) {
@ -29,11 +36,25 @@ public abstract class Map extends Knoten {
}
return null;
}
@Override
public void tick() {
for (int i = 0; i < entities.size(); i++) {
Entity e = entities.get(i);
if (e.isReadyToDelete()) {
if (e instanceof LivingEntity) {
entfernen(((LivingEntity) e).actionFigur);
}
Main.instance.manager.abmelden(e);
entities.remove(e);
}
}
}
public int getWidth() {
return map.length;
}
public int getHeight() {
return map[0].length;
}
@ -41,4 +62,10 @@ public abstract class Map extends Knoten {
public ArrayList<Entity> getEntities() {
return entities;
}
public void registerEntities() {
for (Entity e : getEntities()) {
Main.instance.manager.anmelden(e, 20);
}
}
}

25
Zoelda/src/main/maps/Map01.java Normal file
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@ -0,0 +1,25 @@
package main.maps;
import main.Tile;
public class Map01 extends Map {
public Map01 () {
super (15,11);
for (int x = 0; x < map.length; x++) {
for (int y = 0; y < map[0].length; y++) {
//Wand
if((x == 4 || y == 9 || x == 10) && x > 3 && y > 0 && x < 11 && y < 10 && x != 7 ) {
map[x][y] = new Tile(3, x, y);
add(map[x][y]);
}
//Boden
else if(x > 3 && y > 0 && x < 11 && y < 10) {
map[x][y] = new Tile(5, x, y);
add(map[x][y]);
}
}
}
}
}

38
Zoelda/src/main/maps/Map02.java Normal file
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@ -0,0 +1,38 @@
package main.maps;
import main.Tile;
public class Map02 extends Map {
public Map02() {
super(15, 11);
for (int x = 0; x < map.length; x++) {
for (int y = 0; y < map[0].length; y++) {
// Wand
if (y == 0 || x == 0 || y == 10 || x == 14) {
// Übergang, Tür
if (y == 10) {
if (x > 4 && x < 10) {
map[x][y] = new Tile(5, x, y);
add(map[x][y]);
continue;
}
}
map[x][y] = new Tile(3, x, y);
add(map[x][y]);
}
// 3D-Wand
else if(y == 1 ) {
map[x][y] = new Tile(4, x, y);
add(map[x][y]);
}
// Steinboden
else {
map[x][y] = new Tile(5, x, y);
add(map[x][y]);
}
}
}
}
}

44
Zoelda/src/main/maps/TutorialMap.java Normal file
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@ -0,0 +1,44 @@
package main.maps;
import main.Tile;
import main.entities.Snake;
import main.entities.Spider;
public class TutorialMap extends Map {
public TutorialMap() {
super(15, 11);
for (int x = 0; x < map.length; x++) {
for (int y = 0; y < map[0].length; y++) {
//Wand, Sichtschutz
if (y == 0 ||y == map[0].length - 1 || x == 0 || x == map.length - 1 || ((y == 4|| y == 5) && x == 10 )) {
map[x][y] = new Tile (1, x, y);
add(map [x][y]);
}
//3D-Wand, 3F-Sichtschutz
else if(y == 1 || ( y == 6 && x == 10)) {
map[x][y] = new Tile (2, x, y);
add(map [x][y]);
}
//Grasboden
else{
map[x][y] = new Tile(0, x, y);
add(map[x][y]);
}
}
}
// und Spinnen auch
Spider spider = new Spider();
add(spider.actionFigur);
getEntities().add(spider);
//und
Snake snake = new Snake();
add(snake.actionFigur);
getEntities().add(snake);
// Alle Entities als ticker registrieren (triggert dann die update methoden)
registerEntities();
}
}

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