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Dependency for the MultiMachineBuilder, a voxel game about building an industrial empire in a finite world.
THIS RELEASE IS NOT PLAYABLE. To play the game, donwload from >ITCH.IO LINK HERE< or >GH releases link here<
The newest version!
/**
*
*/
package mmb.menu.world.window;
import java.awt.Graphics;
import java.awt.Image;
import java.awt.Point;
import java.awt.event.*;
import java.awt.image.BufferedImage;
import java.util.Map.Entry;
import java.util.Objects;
import java.util.concurrent.atomic.AtomicBoolean;
import java.util.concurrent.atomic.AtomicInteger;
import javax.swing.Timer;
import javax.swing.JComponent;
import org.joml.Vector2d;
import com.github.davidmoten.rtree2.geometry.Geometries;
import com.github.davidmoten.rtree2.geometry.Geometry;
import com.pploder.events.Event;
import it.unimi.dsi.fastutil.doubles.DoubleList;
import mmb.NN;
import mmb.Nil;
import mmb.content.ppipe.Direction;
import mmb.content.ppipe.PipeTunnelEntry;
import mmb.data.variables.ListenableBoolean;
import mmb.engine.CatchingEvent;
import mmb.engine.Vector2iconst;
import mmb.engine.block.BlockEntry;
import mmb.engine.debug.Debugger;
import mmb.engine.item.ItemEntry;
import mmb.engine.item.ItemType;
import mmb.engine.item.Items;
import mmb.engine.java2d.StringRenderer;
import mmb.engine.mbmachine.Machine;
import mmb.engine.rotate.Side;
import mmb.engine.texture.Textures;
import mmb.engine.visuals.Visual;
import mmb.engine.worlds.universe.Universe;
import mmb.engine.worlds.world.Player;
import mmb.engine.worlds.world.World;
import mmb.menu.world.FPSCounter;
import mmb.menu.world.window.WorldWindow.ScrollablePlacementList;
import mmb.menu.wtool.WindowTool;
import java.awt.Color;
/**
* The WorldFrame represents interface, which user can interact with.
* @author oskar
*/
public class WorldFrame extends JComponent {
//Serialization
private static final long serialVersionUID = 7346245653768692732L;
//Debugging
@NN private transient Debugger debug = new Debugger("WORLD - anonymous");
@NN private static Debugger sdebug = new Debugger("WORLDS");
/** The global boolean variable controlling debug display */
@NN public static final ListenableBoolean DEBUG_DISPLAY = new ListenableBoolean();
//Frames Per Second
/** This variable holds current framerate */
@NN public final FPSCounter fps = new FPSCounter();
/** Create a new WorldFrame
* @param window the window, which contains the frame
*/
public WorldFrame(WorldWindow window) {
//Dump everything for testing
StringBuilder list = new StringBuilder();
boolean i = false;
list.append('[');
for(ItemType item: Items.items) {
if(i) list.append("\n,");
i = true;
list.append('"');
list.append(item.id().replace("\\", "\\\\").replace("\"", "\\\""));
list.append('"');
}
list.append(']');
this.window = window;
Listener listener = new Listener();
addMouseListener(listener);
addMouseWheelListener(listener);
addMouseMotionListener(listener);
addKeyListener(listener);
setFocusable(true);
timer.setRepeats(true);
timer.start();
}
//Loading message
private String altMessage = "Loading";
/** @return current loading message */
public String getAltMessage() {
return altMessage;
}
/**
* Sets the loading message
* @param altMessage new loading message
*/
public void setAltMessage(String altMessage) {
this.altMessage = altMessage;
}
//Title
private String title = "none";
/**
* @return the title
*/
public String getTitle() {
return title;
}
//Events
/** Runs when title changes */
@NN public final transient Event titleChange = new CatchingEvent<>(debug, "Failed to run a title listener");
/** Runs on each frame */
@NN public final transient Event redraw = new CatchingEvent<>(debug, "Failed to run a renderer");
//Universe
private transient Universe world;
/** @return currently active universe */
public Universe getWorld() {
return world;
}
/**
* Enter given universe
* @param w new universe
*/
public void enterWorld(@Nil Universe w) {
setNoMap();
world = w;
if(w == null) {
sdebug.printl("The given world is null, exiting");
}else{
sdebug.printl("Opening a new world");
map = w.getMain();
w.start();
}
}
//World
private transient World map;
/** @return current map name, or null if it is main */
public String getSubWorldName() {
return map.getName();
}
/** @return currently active map */
public World getMap() {
return map;
}
/**
* Set the map, from the same world, with given name. Provide null to switch to main map.
* @param name map name
*/
public void setMap(String name) {
setMap(world.getMap(name));
}
/**
* Change the world map
* @param newMap new world map
*/
public void setMap(@Nil World newMap) {
setNoMap();
map = newMap;
if(map == null) {
sdebug.printl("The given world is null, exiting");
} else {
world = map.getUniverse();
world.start();
}
}
/** Quits any open maps and universes */
public void setNoMap() {
debug.printl("Exiting");
if(world != null) world.destroy();
else if(map != null) map.destroy();
map = null;
world = null;
}
//Player
/**
* A convenience method to get player
* @return the player belonging to the world
*/
public Player getPlayer() {
if(map != null) return map.player;
return null;
}
//Modifier keys
private boolean alt;
/** @return is [Alt] pressed? */
public boolean altPressed() {
return alt;
}
private boolean ctrl;
/** @return is [Ctrl] pressed? */
public boolean ctrlPressed() {
return ctrl;
}
private boolean shift;
/** @return is [Shift] pressed? */
public boolean shiftPressed() {
return shift;
}
//Mouse and key listener
boolean u, d, l, r;
private class Listener implements MouseListener, KeyListener, MouseMotionListener, MouseWheelListener{
@Override public void mouseWheelMoved(@Nil MouseWheelEvent e) {
Objects.requireNonNull(e, "event is null");
window.scrollScrollist(e.getWheelRotation()*32);
WindowTool tool = window.toolModel.getTool();
setZoom(zoomsel - e.getWheelRotation());
if(tool != null) tool.mouseWheelMoved(e);
}
@Override public void mouseDragged(@Nil MouseEvent e) {
Objects.requireNonNull(e, "event is null");
setMousePosition(e);
WindowTool tool = window.toolModel.getTool();
if(tool != null) tool.mouseDragged(e);
}
@Override public void mouseMoved(@Nil MouseEvent e) {
Objects.requireNonNull(e, "event is null");
setMousePosition(e);
WindowTool tool = window.toolModel.getTool();
if(tool != null) tool.mouseMoved(e);
}
@Override public void keyPressed(@Nil KeyEvent e) {
Objects.requireNonNull(e, "event is null");
switch(e.getKeyCode()) {
case KeyEvent.VK_A:
perspective.x +=1;
break;
case KeyEvent.VK_D:
perspective.x -= 1;
break;
case KeyEvent.VK_W:
perspective.y +=1;
break;
case KeyEvent.VK_S:
perspective.y -= 1;
break;
case KeyEvent.VK_Q:
map.player.speed.x = 0;
map.player.speed.y = 0;
break;
case KeyEvent.VK_ALT:
alt = true;
break;
case KeyEvent.VK_CONTROL:
ctrl = true;
break;
case KeyEvent.VK_SHIFT:
shift = true;
break;
case KeyEvent.VK_DOWN:
d = true;
break;
case KeyEvent.VK_UP:
u = true;
break;
case KeyEvent.VK_LEFT:
l = true;
break;
case KeyEvent.VK_RIGHT:
r = true;
break;
default:
break;
}
map.player.setControls(u, d, l, r);
WindowTool tool = window.toolModel.getTool();
if(tool != null) tool.keyPressed(e);
}
@Override public void keyReleased(@Nil KeyEvent e) {
Objects.requireNonNull(e, "event is null");
switch(e.getKeyCode()) {
case KeyEvent.VK_ALT:
alt = false;
break;
case KeyEvent.VK_CONTROL:
ctrl = false;
break;
case KeyEvent.VK_SHIFT:
shift = false;
break;
case KeyEvent.VK_DOWN:
d = false;
break;
case KeyEvent.VK_UP:
u = false;
break;
case KeyEvent.VK_LEFT:
l = false;
break;
case KeyEvent.VK_RIGHT:
r = false;
break;
default:
break;
}
map.player.setControls(u, d, l, r);
WindowTool tool = window.toolModel.getTool();
if(tool != null) tool.keyReleased(e);
}
@Override public void keyTyped(@Nil KeyEvent e) {
Objects.requireNonNull(e, "event is null");
WindowTool tool = window.toolModel.getTool();
if(tool != null) tool.keyTyped(e);
}
@Override public void mouseClicked(@Nil MouseEvent e) {
Objects.requireNonNull(e, "event is null");
WindowTool tool = window.toolModel.getTool();
if(tool != null) tool.mouseClicked(e);
}
@Override public void mouseEntered(@Nil MouseEvent e) {
Objects.requireNonNull(e, "event is null");
setMousePosition(e);
WindowTool tool = window.toolModel.getTool();
if(tool != null) tool.mouseEntered(e);
}
@Override public void mouseExited(@Nil MouseEvent e) {
Objects.requireNonNull(e, "event is null");
WindowTool tool = window.toolModel.getTool();
if(tool != null) tool.mouseExited(e);
}
@Override public void mousePressed(@Nil MouseEvent e) {
Objects.requireNonNull(e, "event is null");
setMousePosition(e);
WindowTool tool = window.toolModel.getTool();
if(tool != null) tool.mousePressed(e);
}
@Override public void mouseReleased(@Nil MouseEvent e) {
Objects.requireNonNull(e, "event is null");
WindowTool tool = window.toolModel.getTool();
if(tool != null) tool.mouseReleased(e);
}
}
//Graphics
@NN public final transient Event informators =
new CatchingEvent<>(debug, "Failed to process info task");
@Override
public void paint(@Nil Graphics g) {
resetMouseoverBlock();
redraw.trigger(g);
if(g == null) return;
if(map == null) {
if(world == null) {
g.setColor(getBackground());
g.fillRect(0, 0, getWidth(), getHeight());
g.setColor(getForeground());
g.drawString(altMessage, getWidth()/2, getHeight()/2);
debug.id = "WORLD - IDLE";
title = "none";
}else{
setNoMap();
debug.id = "WORLD - main";
title = "main";
}
}else{
if(world == null) title = "anonymous ["+map.getName()+"]";
else if(map.getName() == null) title = "main "+world.getName();
else title = "["+map.getName()+"] "+world.getName();
debug.id = "WORLD - "+title;
}
render(g);
titleChange.trigger(title);
}
private void render(Graphics g) {
//Count frames
fps.count();
//Check validity
if(map == null || !map.isValid()) return;
//Dimensions in tiles
double tilesW = (getWidth()/ blockScale);
double tilesH = (getHeight()/ blockScale);
//Bind camera to player
if(window.getCheckBindCameraPlayer().isSelected()) {
perspective.set(map.player.pos);
perspective.negate();
}
//Perspective => offset
pos.set(perspective);
pos.add(tilesW/2, tilesH/2);
//fill with background
g.setColor(getBackground());
g.fillRect(0, 0, getWidth(), getHeight());
//Get in-world bounds
Point ul = blockAt(0, 0);
Point dr = blockAt(getWidth(), getHeight());
//The four coordinates of targeted rendered blocks
int l = Math.min(Math.max(ul.x, map.startX), map.endX-1);
int r = Math.min(Math.max(dr.x, map.startX), map.endX-1);
int u = Math.min(Math.max(ul.y, map.startY), map.endY-1);
int d = Math.min(Math.max(dr.y, map.startY), map.endY-1);
//Count Blocks Per Frame
int bpf = 0;
//Render tiles
if(blockScale < 4) {
//Render LOD
Point c1 = blockPositionOnScreen(map.startX, map.startY);
Point c2 = blockPositionOnScreen(map.endX+1, map.endY+1);
g.drawImage(map.LODs, c1.x, c1.y, c2.x-c1.x, c2.y-c1.y, null);
}else {
//Render in full
int rstartX = (int)Math.ceil((l+pos.x)*blockScale);
int rstartY = (int)Math.ceil((u+pos.y)*blockScale);
for(int i = l, x = rstartX; i <= r; i++, x += blockScale) {
for(int j = u, y = rstartY; j <= d; j++, y += blockScale) {
renderTile(x, y, g, map.get(i, j));
bpf++;
}
}
}
int div2x = (int)Math.ceil(blockScale/2);
int div4x = (int)Math.ceil(blockScale/4);
int div2y = (int)Math.ceil(blockScale/2);
int div4y = (int)Math.ceil(blockScale/4);
Point pt = new Point();
//Render dropped items
for(Entry entry: map.drops.entries()) {
//Check if the vector is in bounds
int x = entry.getKey().x;
int y = entry.getKey().y;
if(x < l) continue;
if(x > r) continue;
if(y < u) continue;
if(y > d) continue;
blockPositionOnScreen(x, y, pt);
if(entry.getValue() != null)
entry.getValue().render(g, pt.x+div4x, pt.y+div4y, div2x, div2y);
}
//Draw machines
for(Machine mc: map.machines) {
int x = (int)((mc.posX()+pos.x)*blockScale);
int y = (int)((mc.posY()+pos.y)*blockScale);
int w = mc.sizeX();
int h = mc.sizeY();
@NN Graphics g2 = g.create(x, y, (int)Math.ceil(w*blockScale), (int)Math.ceil(h*blockScale));
mc.render(g2);
}
//Render visual objects
Iterable> visuals = map.visuals().search(Geometries.rectangle(l, u, r, d));
AtomicInteger nvisuals = new AtomicInteger();
AtomicBoolean success = new AtomicBoolean();
for(com.github.davidmoten.rtree2.Entry node: visuals) {
node.value().render(g, WorldFrame.this);
nvisuals.incrementAndGet();
}
//Render player
Point pul = worldPositionOnScreen(map.player.pos.x - 0.3, map.player.pos.y - 0.3);
Point pdr = worldPositionOnScreen(map.player.pos.x + 0.3, map.player.pos.y + 0.3);
Image img = playerface0;
switch(map.player.getBlink()) {
case 1:
case 2:
case 5:
case 6:
img = playerface1;
break;
case 3:
case 4:
img = playerface2;
break;
case 0:
break;
default:
throw new IllegalStateException("Invalid player animation state: "+map.player.getBlink());
}
g.drawImage(img, pul.x, pul.y, pdr.x-pul.x, pdr.y-pul.y, null);
//Pointer
int x = (int)((mouseover.x+pos.x)*blockScale);
int y = (int)((mouseover.y+pos.y)*blockScale);
int framesize = (int)Math.ceil(blockScale)-1;
thickframe(x, y, framesize, framesize, Color.RED, g);
//Preview
WindowTool tool = window.toolModel.getTool();
Objects.requireNonNull(tool, "tool is null");
tool.preview(x, y, blockScale, g);
//Debug use only
if(DEBUG_DISPLAY.getValue()) {
StringBuilder sb = new StringBuilder();
sb.append("Camera position: ").append(perspective).append("\r\n");
sb.append("Player position: ").append(map.player.pos).append("\r\n");
sb.append("Block position: ").append(mouseover.x).append(',').append(mouseover.y).append("\r\n");
//Get selected block
if(map.inBounds(mouseover)) {
BlockEntry block = map.get(mouseover);
sb.append("Selected block: ").append(block.type()).append(" ,is surface: ").append(block.isSurface()).append("\r\n");
sb.append("Pipe connections: ^");
printPipeTunnel(sb, block.getPipeTunnel(Side.U));
sb.append(" v");
printPipeTunnel(sb, block.getPipeTunnel(Side.D));
sb.append(" <");
printPipeTunnel(sb, block.getPipeTunnel(Side.L));
sb.append(" >");
printPipeTunnel(sb, block.getPipeTunnel(Side.R));
sb.append("\r\n");
sb.append("Chirotation: ").append(block.getChirotation()).append("\r\n");
}else {
sb.append("Out of bounds").append("\r\n");
}
sb.append("BlockEntities: ").append(map.blockents.size()).append("\r\n");
sb.append("FPS: ").append(fps.get()).append("\r\n");
sb.append("TPS: ").append(map.tps.get()).append("\r\n");
sb.append("BPF: ").append(bpf).append("\r\n");
sb.append("Dumped items: ").append(map.drops.size()).append("\r\n");
sb.append("Visuals on map: ").append(map.visuals().size()).append("\r\n");
sb.append("Visuals visible: ").append(nvisuals.get()).append("\r\n");
sb.append("Visuals succeeded: ").append(success.get()).append("\r\n");
sb.append("Alcohol to be digested: ").append(getPlayer().getDigestibleAlcohol()).append("\r\n");
sb.append("Alcohol content: ").append(getPlayer().getBAC()).append("\r\n");
//Information for mouseover block
BlockEntry ent = getMouseoverBlockEntry();
if(ent != null) ent.debug(sb);
informators.trigger(sb);
//Display mouseover block info
StringRenderer.renderStringBounded(Color.BLACK, Color.CYAN, Color.BLACK, sb.toString(), 0, 0, 5, 5, g);
}
}
private static void printPipeTunnel(StringBuilder sb, @Nil PipeTunnelEntry ent) {
if(ent == null) sb.append('X');
else if(ent.dir == Direction.BWD) sb.append('B');
else sb.append('F');
}
private void renderTile(int x, int y, Graphics g, @Nil BlockEntry blockEntry) {
if(blockEntry == null) return;
try {
blockEntry.render(x, y, g, (int) Math.ceil(blockScale));
} catch (Exception e) {
debug.stacktraceError(e, "Failed to render a "+blockEntry.type().title());
}
}
//Positioning
private Vector2d pos = new Vector2d();
/**
* The perspective is a snapped camera position
*/
public final Vector2d perspective = new Vector2d();
//Activity
@NN private transient Timer timer = new Timer(20, e -> {
repaint();
requestFocusInWindow();
});
/**
* @return is timer active?
*/
public boolean isActive() {
return timer.isRunning();
}
/**
* Set the activity of timer.
* If timer is active, the frame will be actively rendered
* @param a should timer be active?
*/
public void setActive(boolean a) {
if(timer.isRunning() && !a) {
timer.setRepeats(true);
timer.restart();
}else if(!timer.isRunning() && a) {
timer.setRepeats(false);
timer.stop();
}
}
/**
* Shows a pop-up menu
* @param e mouse event for the pop-up
*/
public void showPopup(MouseEvent e) {
if(map == null) return;
if(map.inBounds(mouseover)) {
WorldPopup menu = new WorldPopup(map.get(mouseover), this);
menu.show(this, e.getX(), e.getY());
}
}
//Window reference
/** The reference to the world window */
@NN public final WorldWindow window;
//Mouse position
@NN private Point mousePosition = new Point();
private void setMousePosition(MouseEvent e) {
mousePosition.setLocation(e.getX(), e.getY());
}
/** @return X coordinate of the mouse pointer*/
public int mouseX() {
return mousePosition.x;
}
/** @return Y coordinate of the mouse pointer*/
public int mouseY() {
return mousePosition.x;
}
/**
* Sets the point to the mouse location
* @param pt location to write to
* @return input
*/
public Point mouse(Point pt) {
pt.setLocation(mousePosition);
return pt;
}
//Mouseover block
@NN private final Point mouseover = new Point();
/** @return block position over which mouse is over*/
@NN public Point getMouseoverBlock() {
return new Point(mouseover);
}
/** @return the block which is currently selected with the mouse */
public BlockEntry getMouseoverBlockEntry() {
if(map.inBounds(mouseover)) return map.get(mouseover);
return null;
}
/** @return X coordinate of mouseover block */
public int getMouseoverBlockX() {
return mouseover.x;
}
/** @return Y coordinate of mouseover block */
public int getMouseoverBlockY() {
return mouseover.y;
}
private void resetMouseoverBlock() {
blockAt(mousePosition, mouseover);
}
//Block positioning
//Block position mapper
/**
* Get the block at given screen position
* @param x on-frame X coordinate
* @param y on-frame Y coordinate
* @return the new point with block coordinates
*/
@NN public Point blockAt(int x, int y) {
return blockAt(x, y, new Point());
}
/**
* @param x on-frame X coordinate
* @param y on-frame Y coordinate
* @param tgt where to write data?
* @return target point with written position
*/
@NN public Point blockAt(int x, int y, Point tgt) {
tgt.x = (int)Math.floor((x / blockScale)-pos.x);
tgt.y = (int)Math.floor((y / blockScale)-pos.y);
return tgt;
}
/**
* @param p on-frame position
* @return the new point with block coordinates
*/
@NN public Point blockAt(Point p) {
return blockAt(p.x, p.y);
}
/**
* @param p on-frame position
* @param tgt where to write data?
* @return target point with written position
*/
@NN public Point blockAt(Point p, Point tgt) {
return blockAt(p.x, p.y, tgt);
}
/**
* @param x on-frame X coordinate
* @param y on-frame Y coordinate
* @param tgt where to write data?
* @return target point with written position
*/
@NN public Vector2d worldAt(double x, double y, Vector2d tgt) {
tgt.x = (x / blockScale)-pos.x;
tgt.y = (y / blockScale)-pos.y;
return tgt;
}
/**
* @param x X coordinate of the screen
* @param y Y coordinate of the screen
* @return point with on-screen block position of UL corner
*/
@NN public Point blockPositionOnScreen(int x, int y) {
int X = (int) ((x+pos.x)*blockScale);
int Y = (int) ((y+pos.y)*blockScale);
return new Point(X, Y);
}
@NN public Point blockPositionOnScreen(int x, int y, Point tgt) {
tgt.x = (int) ((x+pos.x)*blockScale);
tgt.y = (int) ((y+pos.y)*blockScale);
return tgt;
}
@NN public Point worldPositionOnScreen(double x, double y) {
int X = (int) ((x+pos.x)*blockScale);
int Y = (int) ((y+pos.y)*blockScale);
return new Point(X, Y);
}
//Scrollable Placement List
private ScrollablePlacementList placer;
/** @return the associated Scrollable Placement List */
public ScrollablePlacementList getPlacer() {
return placer;
}
/** @param placer the new Scrollable Placement List */
public void setPlacer(ScrollablePlacementList placer) {
this.placer = placer;
}
//Block scaling
private double blockScale = 32;
/**
* @return the blockScale
*/
public double getBlockScale() {
return blockScale;
}
/**
* @param blockScale the blockScale to set
*/
public void setBlockScale(double blockScale) {
this.blockScale = blockScale;
}
public static void thickframe(int x, int y, int w, int h, Color c, Graphics g) {
g.setColor(Color.BLACK);
g.drawRect(x-1, y-1, w+2, h+2);
g.drawRect(x+1, y+1, w-2, h-2);
g.setColor(c);
g.drawRect(x, y, w, h);
}
public void renderBlockRange(int x1, int y1, int x2, int y2, Color c, Graphics g) {
if(x1 > x2) renderBlockRange(x2, y1, x1, y2, c, g); //NOSONAR swapping x1 and x2
else if(y1 > y2) renderBlockRange(x1, y2, x2, y1, c, g); //NOSONAR swapping y1 and y2
else {
Point c1 = blockPositionOnScreen(x1, y1);
Point c2 = blockPositionOnScreen(x2+1, y2+1);
c2.x -= 1;
c2.y -= 1;
thickframe(c1.x, c1.y, c2.x-c1.x, c2.y-c1.y, c, g);
}
}
/**
* @return current zoom level index
*/
public int getZoom() {
return zoomsel;
}
/**
* @param zoomsel new zoom level index
*/
public void setZoom(int zoomsel) {
this.zoomsel = zoomsel;
if(zoomsel < 0 ) this.zoomsel = 0;
if(zoomsel >= zoomlevels.size()) this.zoomsel = zoomlevels.size() - 1;
blockScale = zoomlevels.getDouble(this.zoomsel);
}
/**
* Zoom levels selectable with scroll wheel
*/
@NN public static final DoubleList zoomlevels =
DoubleList.of( 0.012, 0.016, 0.024, 0.032, 0.048, 0.064, 0.080, 0.096,
0.120, 0.160, 0.240, 0.320, 0.480, 0.640, 0.800, 0.96,
1.200, 1.600, 2.400, 3.200, 4.800, 6.400, 8.000, 9.6,
12, 16, 24, 32, 48, 64, 80, 96,
120, 160, 240, 320, 480, 640, 800, 960,
1200, 1600, 2400, 3200, 4800, 6400, 8000, 9600);
private int zoomsel = 27;
//Player icon
@NN private static final BufferedImage playerface0 = Textures.get("player/pchar.png");
@NN private static final BufferedImage playerface1 = Textures.get("player/pchar1.png");
@NN private static final BufferedImage playerface2 = Textures.get("player/pchar2.png");
}