package com.plusminus.craft; | |
import java.awt.BasicStroke; | |
import java.awt.Color; | |
import java.awt.Graphics2D; | |
import java.awt.Image; | |
import java.awt.image.BufferedImage; | |
import java.awt.image.DataBufferByte; | |
import java.awt.Rectangle; | |
import java.io.File; | |
import java.io.IOException; | |
import java.nio.ByteBuffer; | |
import java.nio.FloatBuffer; | |
import java.util.ArrayList; | |
import java.util.LinkedList; | |
import javax.imageio.ImageIO; | |
import javax.swing.JOptionPane; | |
import javax.swing.JFileChooser; | |
import javax.swing.JWindow; | |
import org.lwjgl.Sys; | |
import org.lwjgl.opengl.Display; | |
import org.lwjgl.opengl.DisplayMode; | |
import org.lwjgl.opengl.GL11; | |
import org.lwjgl.util.glu.*; | |
import org.lwjgl.input.Keyboard; | |
import org.lwjgl.input.Mouse; | |
import org.lwjgl.util.vector.Vector3f; | |
import com.plusminus.craft.WorldInfo; | |
import static com.plusminus.craft.MineCraftConstants.*; | |
public class XRay { | |
// for the sprite sheet | |
// number of chunks around the camera which are visible (Square) | |
// TODO: revert this | |
//private int visible_chunk_range = 5; | |
private int visible_chunk_range = 8; | |
private int mapchange_redraw_range = 3; | |
private static final int[] CHUNK_RANGES_KEYS = new int[] { | |
Keyboard.KEY_NUMPAD1, | |
Keyboard.KEY_NUMPAD2, | |
Keyboard.KEY_NUMPAD3, | |
Keyboard.KEY_NUMPAD4, | |
Keyboard.KEY_NUMPAD5, | |
Keyboard.KEY_NUMPAD6 | |
}; | |
private static final int[] CHUNK_RANGES = new int[] {3,4,5,6,7,8}; | |
// TODO: revert this | |
//private int currentChunkRange = 4; | |
private int currentChunkRange = 5; | |
// highlight distance | |
private static final int[] HIGHLIGHT_RANGES_KEYS = new int[] { | |
Keyboard.KEY_1, | |
Keyboard.KEY_2, | |
Keyboard.KEY_3, | |
Keyboard.KEY_4, | |
Keyboard.KEY_5, | |
Keyboard.KEY_6, | |
Keyboard.KEY_7 | |
}; | |
private static final int[] HIGHLIGHT_RANGES = new int[] {2, 3, 4, 5, 6, 7, 8}; | |
private int currentHighlightDistance = 1; | |
// By default we'll keep 20x20 chunks in our cache, which should hopefully let | |
// us stay ahead of the camera | |
// TODO: keep this at 8, or back up to 10? | |
private final int loadChunkRange = 8; | |
// set to true when the program is finished | |
private boolean done = false; | |
// are we full screen | |
private boolean fullscreen = false; | |
// window title | |
private final String app_version = "2.7 Maintenance Branch 5"; | |
private final String app_name = "Minecraft X-Ray"; | |
private final String windowTitle = app_name + " " + app_version; | |
private boolean minimap_needs_updating = false; | |
// current display mode | |
private DisplayMode displayMode; | |
// last system time in the main loop (to calculate delta for camera movement) | |
private long lastTime; | |
// our camera | |
private FirstPersonCameraController camera; | |
// the current mouseX and mouseY on the screen | |
private int mouseX; | |
private int mouseY; | |
// the sprite sheet for all textures | |
public Texture minecraftTexture; | |
public Texture portalTexture; | |
// the textures used by the minimap | |
private Texture minimapTexture; | |
private Texture minimapArrowTexture; | |
// Whether or not we're showing bedrock | |
private boolean render_bedrock = false; | |
// the minecraft level we are exploring | |
private MinecraftLevel level; | |
// the current block (universal coordinate) where the camera is hovering on | |
private int levelBlockX, levelBlockZ; | |
// the current and previous chunk coordinates where the camera is hovering on | |
private int currentLevelX, currentLevelZ; | |
// synchronization object, a bit redundant now ... but potentially the loader could cause a conflict with the drawing operation | |
private Object lock = new Object(); | |
// we render to a display list and use that later for quick drawing, this is the index | |
private int worldDisplayListNum; | |
private int visibleOresListNum; | |
// wheter we need to recreate the display list using the updated level data | |
private boolean needToRedrawWorld = false; | |
// wheter we need to reload the world | |
private boolean needToReloadWorld = false; | |
// the width and height of the current screen resolution | |
private int screenWidth, screenHeight; | |
// the current camera position | |
private int currentCameraPosX; | |
private int currentCameraPosZ; | |
// wheter we show the big map or the mini map | |
private boolean mapBig = false; | |
// wheter we are done with loading the map data (just for the mini map really) | |
private boolean map_load_started = false; | |
// the available world numbers | |
private ArrayList<WorldInfo> availableWorlds; | |
private int selectedWorld; | |
// the world chunks we still need to load | |
private LinkedList<Block> mapChunksToLoad; | |
// the current (selected) world number | |
private WorldInfo world = null; | |
// the currently pressed key | |
private int keyPressed = -1; | |
// the current fps we are 'doing' | |
private int fps; | |
// the laste time fps was updated | |
private long lastFpsTime = -1; | |
// the number of frames since the last fps update | |
private int framesSinceLastFps; | |
// the fps display texture | |
private Texture fpsTexture; | |
// far too many fps calculation variables (copied this from another project) | |
public long previousTime; | |
public long timeDelta; | |
private boolean updateFPSText; | |
private long time; | |
private boolean[] mineralToggle; | |
private Texture[] mineralToggleTextures; | |
// lighting on or of (its actually fog, but hey...) | |
private boolean lightMode = false; | |
// highlight the ores by making them blink | |
private boolean highlightOres = true; | |
// level info texture | |
private boolean levelInfoToggle; | |
private Texture levelInfoTexture; | |
// light level | |
private int[] lightLevelEnd = new int[]{30,50,70,100,130}; | |
private int[] lightLevelStart = new int[]{0,20,30,40,60}; | |
private int currentLightLevel = 2; | |
// vars to keep track of our current chunk coordinates | |
private int cur_chunk_x = 0; | |
private int cur_chunk_z = 0; | |
private boolean initial_load_done = false; | |
private boolean initial_load_queued = false; | |
// How long are we allowed to spend loading chunks before we update? | |
private long max_chunkload_time = Sys.getTimerResolution() / 10; // a tenth of a second | |
// lets start with the program | |
public static void main(String args[]) { | |
new XRay().run(); | |
} | |
// go | |
public void run() { | |
try { | |
// check whether we can access minecraft | |
// and if we have worlds to load | |
checkMinecraftFiles(); | |
// prompt for the resolution and initialize the window | |
createWindow(); | |
// basic opengl initialization | |
initGL(); | |
// init our program | |
initialize(); | |
// And now load our world | |
this.setMinecraftWorld(availableWorlds.get(this.selectedWorld)); | |
this.triggerChunkLoads(); | |
// main loop | |
while (!done) | |
{ | |
long time = Sys.getTime(); | |
float timeDelta = (time - lastTime)/1000.0f; | |
lastTime = time; | |
// handle input given the timedelta (for mouse control) | |
handleInput(timeDelta); | |
// Load chunks if needed | |
if (mapChunksToLoad != null) | |
{ | |
loadPendingChunks(); | |
} | |
// render whatever we need to render | |
render(timeDelta); | |
// update our minimap if we need to (new chunks loaded, etc) | |
if (minimap_needs_updating) | |
{ | |
minimapTexture.update(); | |
minimap_needs_updating=false; | |
} | |
// Push to screen | |
Display.update(); | |
} | |
// cleanup | |
cleanup(); | |
} | |
catch (Exception e) { | |
// bah some error happened | |
e.printStackTrace(); | |
System.exit(0); | |
} | |
} | |
/** | |
* Loads any pending chunks, but won't exceed max_chunkload_time timer ticks | |
* (unless we're doing the initial load). | |
*/ | |
public void loadPendingChunks() | |
{ | |
Block b; | |
long time = Sys.getTime(); | |
int total = 0; | |
int counter = 0; | |
if (!initial_load_done) | |
{ | |
total = mapChunksToLoad.size(); | |
setOrthoOn(); | |
GL11.glDisable(GL11.GL_BLEND); | |
GL11.glDisable(GL11.GL_TEXTURE_2D); | |
GL11.glColor4f(1.0f, 1.0f, 1.0f, 1.0f); | |
GL11.glLineWidth(20); | |
} | |
while (!mapChunksToLoad.isEmpty()) | |
{ | |
// Load and draw the chunk | |
b = (Block) mapChunksToLoad.pop(); | |
//System.out.println("Loading chunk " + b.x + "," + b.z); | |
drawMapChunkToMap(b.x, b.z); | |
// Make sure we update the minimap | |
minimap_needs_updating = true; | |
// If we've taken too long, break out so the GUI can update | |
if (initial_load_done && Sys.getTime() - time > max_chunkload_time) | |
{ | |
break; | |
} | |
// Draw a progress bar if we're doing the initial load | |
if (!initial_load_done) | |
{ | |
counter++; | |
if (counter % 5 == 0) | |
{ | |
float progress= ((float) counter / (float) total); | |
float bx = 100; | |
float ex = screenWidth-100; | |
float by = (screenHeight/2.0f)-50; | |
float ey = (screenHeight/2.0f)+50; | |
float px = ((ex-bx)*progress) + bx; | |
// progress bar outer box | |
GL11.glBegin(GL11.GL_LINE_LOOP); | |
GL11.glVertex2f(bx, by); | |
GL11.glVertex2f(ex, by); | |
GL11.glVertex2f(ex, ey); | |
GL11.glVertex2f(bx, ey); | |
GL11.glEnd(); | |
// progress bar 'progress' | |
GL11.glBegin(GL11.GL_TRIANGLE_STRIP); | |
GL11.glVertex2f(bx, by); | |
GL11.glVertex2f(px, by); | |
GL11.glVertex2f(bx, ey); | |
GL11.glVertex2f(px, ey); | |
GL11.glEnd(); | |
Display.update(); | |
} | |
} | |
} | |
if (!initial_load_done) | |
{ | |
GL11.glEnable(GL11.GL_BLEND); | |
GL11.glEnable(GL11.GL_TEXTURE_2D); | |
setOrthoOff(); | |
} | |
initial_load_done = true; | |
} | |
public void incLightLevel() { | |
this.currentLightLevel++; | |
if(this.currentLightLevel >= this.lightLevelStart.length) { | |
this.currentLightLevel = this.lightLevelStart.length-1; | |
} | |
} | |
public void decLightLevel() { | |
this.currentLightLevel--; | |
if(this.currentLightLevel <= 0) { | |
this.currentLightLevel = 0; | |
} | |
} | |
public void setLightLevel() { | |
this.setLightLevel(0); | |
} | |
public void setLightLevel(int diff) { | |
int min = this.lightLevelStart[this.currentLightLevel]; | |
int max = this.lightLevelEnd[this.currentLightLevel]; | |
min = min + diff; | |
max = max + diff; | |
if(min <= 0) { | |
min = 0; | |
} | |
if(max <= 0) { | |
max = 0; | |
} | |
GL11.glFogf(GL11.GL_FOG_START, min); | |
GL11.glFogf(GL11.GL_FOG_END, max); | |
} | |
/*** | |
* Initialize the basic openGL environment | |
*/ | |
private void initGL() { | |
GL11.glEnable(GL11.GL_TEXTURE_2D); // Enable Texture Mapping | |
GL11.glShadeModel(GL11.GL_FLAT); // Disable Smooth Shading | |
GL11.glClearColor(0.0f, 0.3f, 1.0f, 0.3f); // Blue Background | |
GL11.glClearDepth(1.0); // Depth Buffer Setup | |
GL11.glEnable(GL11.GL_DEPTH_TEST); // Enables Depth Testing | |
GL11.glDepthFunc(GL11.GL_LEQUAL); // The Type Of Depth Testing To Do | |
//GL11.glDepthFunc(GL11.GL_ALWAYS); | |
GL11.glEnable(GL11.GL_BLEND); | |
GL11.glBlendFunc(GL11.GL_SRC_ALPHA, GL11.GL_ONE_MINUS_SRC_ALPHA); | |
// GL11.glBlendFunc(GL11.GL_ONE, GL11.GL_ONE); | |
GL11.glMatrixMode(GL11.GL_PROJECTION); // Select The Projection Matrix | |
GL11.glLoadIdentity(); // Reset The Projection Matrix | |
// Calculate The Aspect Ratio Of The Window | |
GLU.gluPerspective( | |
90.0f, | |
(float) displayMode.getWidth() / (float) displayMode.getHeight(), | |
0.1f, | |
400.0f); | |
GL11.glMatrixMode(GL11.GL_MODELVIEW); // Select The Modelview Matrix | |
// Really Nice Perspective Calculations | |
GL11.glHint(GL11.GL_PERSPECTIVE_CORRECTION_HINT, GL11.GL_NICEST); | |
GL11.glDisable (GL11.GL_FOG); | |
GL11.glFogi (GL11.GL_FOG_MODE, GL11.GL_LINEAR); | |
float[] color = new float[] {0.0f, 0.3f, 1.0f, 0.3f}; | |
ByteBuffer colorBytes = ByteBuffer.allocateDirect(64); | |
FloatBuffer colorBuffer = colorBytes.asFloatBuffer(); | |
colorBuffer.rewind(); | |
colorBuffer.put(color); | |
colorBuffer.rewind(); | |
GL11.glFog (GL11.GL_FOG_COLOR, colorBytes.asFloatBuffer()); | |
GL11.glFogf (GL11.GL_FOG_DENSITY, 0.3f); | |
GL11.glHint (GL11.GL_FOG_HINT, GL11.GL_NICEST); | |
setLightLevel(); | |
} | |
/*** | |
* Load textures | |
* init precalc tables | |
* determine available worlds | |
* init misc variables | |
*/ | |
private void initialize() { | |
// init the precalc tables | |
mineralToggle = new boolean[HIGHLIGHT_ORES.length]; | |
mineralToggleTextures = new Texture[HIGHLIGHT_ORES.length]; | |
// world display list | |
worldDisplayListNum = GL11.glGenLists(1); | |
visibleOresListNum = GL11.glGenLists(1); | |
// camera | |
camera = new FirstPersonCameraController(0, 0, 0); | |
// textures | |
try { | |
// ui textures | |
minimapTexture = TextureTool.allocateTexture(2048,2048); | |
minimapArrowTexture = TextureTool.allocateTexture(32,32); | |
fpsTexture = TextureTool.allocateTexture(128, 32); | |
levelInfoTexture = TextureTool.allocateTexture(128,144); | |
drawMinimapArrowImage(); | |
// minecraft textures | |
BufferedImage minecraftTextureImage = MineCraftEnvironment.getMinecraftTexture(); | |
minecraftTexture = TextureTool.allocateTexture(minecraftTextureImage, GL11.GL_NEAREST); | |
minecraftTexture.update(); | |
// Nether portal texture to use for drawing those, since there's no actual texture for it | |
portalTexture = TextureTool.allocateTexture(16, 16); | |
BufferedImage bi = portalTexture.getImage(); | |
Graphics2D pg = bi.createGraphics(); | |
pg.setColor(new Color(.839f, .203f, .952f, .4f)); | |
pg.fill(new Rectangle(0, 0, 16, 16)); | |
pg.drawImage(bi, null, 0, 0); | |
portalTexture.update(); | |
// mineral textures | |
for(int i=0;i<HIGHLIGHT_ORES.length;i++) { | |
mineralToggleTextures[i] = TextureTool.allocateTexture(128,32); | |
Graphics2D g = mineralToggleTextures[i].getImage().createGraphics(); | |
g.setFont(ARIALFONT); | |
g.setColor(Color.white); | |
g.drawString("[F" + (i+1) + "] " + ORES_DESCRIPTION[i], 10, 16); | |
mineralToggleTextures[i].update(); | |
} | |
} catch (IOException e1) { | |
// TODO Auto-generated catch block | |
e1.printStackTrace(); | |
} | |
// level data | |
levelBlockX = Integer.MIN_VALUE; | |
levelBlockZ = Integer.MIN_VALUE; | |
// set mouse grabbed so we can get x/y coordinates | |
Mouse.setGrabbed(true); | |
} | |
private BufferedImage resizeImage(Image baseImage, int newWidth, int newHeight) { | |
BufferedImage newImage = new BufferedImage(newWidth, newHeight, BufferedImage.TYPE_4BYTE_ABGR); | |
Graphics2D g = newImage.createGraphics(); | |
g.drawImage(baseImage, 0,0, newWidth, newHeight, null); | |
return newImage; | |
} | |
private byte[] convertIcon(byte[] icon) { | |
byte[] newIcon = new byte[icon.length]; | |
for(int i=0;i<newIcon.length;i += 4) { | |
newIcon[i+3] = icon[i+0]; | |
newIcon[i+2] = icon[i+1]; | |
newIcon[i+1] = icon[i+2]; | |
newIcon[i+0] = icon[i+3]; | |
} | |
return newIcon; | |
} | |
/*** | |
* Creates the window and initializes the lwjgl display object | |
* @throws Exception | |
*/ | |
private void createWindow() throws Exception { | |
// set icon buffers | |
// stupid conversions needed | |
File iconFile = new File("xray_icon.png"); | |
ByteBuffer[] icons = null; | |
if(iconFile.exists() || iconFile.canRead()) { | |
BufferedImage iconTexture128 = ImageIO.read(iconFile); | |
iconTexture128 = resizeImage(iconTexture128, 128, 128); // just to be sure all icons are the same imagetype | |
BufferedImage iconTexture64 = resizeImage(iconTexture128, 64, 64); | |
BufferedImage iconTexture32 = resizeImage(iconTexture128, 32, 32); | |
BufferedImage iconTexture16 = resizeImage(iconTexture128, 16, 16); | |
byte[] iconBuffer128d = ((DataBufferByte) iconTexture128.getRaster().getDataBuffer()).getData(); | |
byte[] iconBuffer64d = ((DataBufferByte) iconTexture64.getRaster().getDataBuffer()).getData(); | |
byte[] iconBuffer32d = ((DataBufferByte) iconTexture32.getRaster().getDataBuffer()).getData(); | |
byte[] iconBuffer16d = ((DataBufferByte) iconTexture16.getRaster().getDataBuffer()).getData(); | |
iconBuffer128d = convertIcon(iconBuffer128d); // LWJGL (opengl?) needs RGBA ... imagetype available is ABGR | |
iconBuffer64d = convertIcon(iconBuffer64d); | |
iconBuffer32d = convertIcon(iconBuffer32d); | |
iconBuffer16d = convertIcon(iconBuffer16d); | |
ByteBuffer iconBuffer128 = ByteBuffer.wrap(iconBuffer128d); | |
ByteBuffer iconBuffer64 = ByteBuffer.wrap(iconBuffer64d); | |
ByteBuffer iconBuffer32 = ByteBuffer.wrap(iconBuffer32d); | |
ByteBuffer iconBuffer16 = ByteBuffer.wrap(iconBuffer16d); | |
iconBuffer128.rewind(); | |
iconBuffer64.rewind(); | |
iconBuffer32.rewind(); | |
iconBuffer16.rewind(); | |
icons = new ByteBuffer[] { | |
iconBuffer128, iconBuffer64, iconBuffer32, iconBuffer16 | |
}; | |
ResolutionDialog.iconImage = iconTexture128; | |
} | |
// We loop on this dialog "forever" because | |
while (true) | |
{ | |
if(ResolutionDialog.presentDialog(windowTitle, availableWorlds) == ResolutionDialog.DIALOG_BUTTON_EXIT) { | |
System.exit(0); | |
} | |
// Mark which world to load (which will happen later during initialize() | |
this.selectedWorld = ResolutionDialog.selectedWorld; | |
// The last option will always be "Other..." If that's been chosen, open a chooser dialog. | |
if (this.selectedWorld == availableWorlds.size() - 1) | |
{ | |
JFileChooser chooser = new JFileChooser(); | |
chooser.setFileHidingEnabled(false); | |
chooser.setFileSelectionMode(JFileChooser.DIRECTORIES_ONLY); | |
chooser.setCurrentDirectory(new File(".")); | |
chooser.setDialogTitle("Select a Minecraft World Directory"); | |
if (chooser.showOpenDialog(null) == JFileChooser.APPROVE_OPTION) | |
{ | |
WorldInfo customWorld = availableWorlds.get(this.selectedWorld); | |
customWorld.setBasePath(chooser.getSelectedFile().getCanonicalPath()); | |
File leveldat = customWorld.getLevelDatFile(); | |
if (leveldat.exists() && leveldat.canRead()) | |
{ | |
// We appear to have a valid level; break and continue. | |
break; | |
} | |
else | |
{ | |
// Invalid, show an error and then re-open the main dialog. | |
JOptionPane.showMessageDialog(null, | |
"Couldn't find a valid level.dat file for the specified directory", | |
"Minecraft XRAY error", | |
JOptionPane.ERROR_MESSAGE); | |
} | |
} | |
} | |
else | |
{ | |
// We chose one of the auto-detected worlds, continue. | |
break; | |
} | |
} | |
// set fullscreen from the dialog | |
fullscreen = ResolutionDialog.selectedFullScreenValue; | |
if(icons != null) | |
Display.setIcon(icons); | |
//Display.setIcon(); | |
Display.setFullscreen(fullscreen); | |
displayMode = ResolutionDialog.selectedDisplayMode; | |
Display.setDisplayMode(displayMode); | |
Display.setTitle(windowTitle); | |
// TODO: actually do what the user requests here | |
Display.setVSyncEnabled(true); | |
Display.create(); | |
screenWidth = displayMode.getWidth(); | |
screenHeight = displayMode.getHeight(); | |
} | |
/*** | |
* Checks for sanity of the minecraft environment | |
*/ | |
private void checkMinecraftFiles() { | |
if(MineCraftEnvironment.getMinecraftDirectory() == null) { | |
JOptionPane.showMessageDialog(null, "OS not supported (" + System.getProperty( "os.name" ) + "), please report.", "Minecraft XRAY error" , JOptionPane.ERROR_MESSAGE); | |
System.exit(0); | |
} | |
if(!MineCraftEnvironment.getMinecraftDirectory().exists()) { | |
JOptionPane.showMessageDialog(null, "Minecraft directory not found: " + MineCraftEnvironment.getMinecraftDirectory().getAbsolutePath(), "Minecraft XRAY error" , JOptionPane.ERROR_MESSAGE); | |
System.exit(0); | |
} | |
if(!MineCraftEnvironment.getMinecraftDirectory().canRead()) { | |
JOptionPane.showMessageDialog(null, "Minecraft directory not readable: " + MineCraftEnvironment.getMinecraftDirectory().getAbsolutePath(), "Minecraft XRAY error", JOptionPane.ERROR_MESSAGE); | |
System.exit(0); | |
} | |
availableWorlds = MineCraftEnvironment.getAvailableWorlds(); | |
// Add in a custom "Other..." world | |
availableWorlds.add(new WorldInfo(true)); | |
// Since we're adding our custom world, this'll actually never get hit. Ah well. | |
if(availableWorlds.size() == 0) { | |
JOptionPane.showMessageDialog(null, "Minecraft directory found, but no minecraft levels available.", "Minecraft XRAY error", JOptionPane.ERROR_MESSAGE); | |
System.exit(0); | |
} | |
} | |
private void setChunkRange(int n) { | |
if(n >= CHUNK_RANGES.length) n = CHUNK_RANGES.length-1; | |
if(n <= 0) n = 0; | |
if(n == currentChunkRange) { | |
return; | |
} | |
this.currentChunkRange = n; | |
this.visible_chunk_range = CHUNK_RANGES[n]; | |
this.mapchange_redraw_range = this.visible_chunk_range-2; | |
this.needToReloadWorld = true; | |
} | |
private void setHighlightRange(int n) { | |
if(n >= HIGHLIGHT_RANGES.length) n = HIGHLIGHT_RANGES.length-1; | |
if(n <= 0) n = 0; | |
if(n == currentHighlightDistance) { | |
return; | |
} | |
this.currentHighlightDistance = n; | |
} | |
/*** | |
* Sets the world number we want to view | |
* @param world | |
*/ | |
private void setMinecraftWorld(WorldInfo world) { | |
this.world = world; | |
this.level = new MinecraftLevel(world, minecraftTexture, portalTexture); | |
// determine which chunks are available in this world | |
mapChunksToLoad = new LinkedList<Block>(); | |
moveCameraToPlayerPos(); | |
} | |
/** | |
* Sets the world number we want, and moves the camera to the specified coordinates. There's | |
* a bit of code duplication going on here; should fix that. | |
* | |
* @param world | |
* @param camera_x | |
* @param camera_z | |
*/ | |
private void setMinecraftWorld(WorldInfo world, FirstPersonCameraController camera) | |
{ | |
this.world = world; | |
this.level = new MinecraftLevel(world, minecraftTexture, portalTexture); | |
// determine which chunks are available in this world | |
mapChunksToLoad = new LinkedList<Block>(); | |
this.camera = camera; | |
initial_load_queued = false; | |
initial_load_done = false; | |
this.triggerChunkLoads(); | |
} | |
private void moveCameraToSpawnPoint() { | |
Block spawnPoint = level.getSpawnPoint(); | |
this.camera.getPosition().set(spawnPoint.x, spawnPoint.y-1, spawnPoint.z); | |
this.camera.setYawAndPitch(0,0); | |
initial_load_queued = false; | |
initial_load_done = false; | |
this.triggerChunkLoads(); | |
} | |
private void moveCameraToPlayerPos() { | |
Block playerPos = level.getPlayerPosition(); | |
this.camera.getPosition().set(playerPos.x, playerPos.y, playerPos.z); | |
this.camera.setYawAndPitch(180+level.getPlayerYaw(),level.getPlayerPitch()); | |
initial_load_queued = false; | |
initial_load_done = false; | |
this.triggerChunkLoads(); | |
} | |
/** | |
* Populates mapChunksToLoad with a list of chunks that need adding, based | |
* on how far we've moved since our last known position. Realistically this | |
* is never going to be more than one line at a time, though if someone's | |
* getting hit with ridiculously low FPS or something, perhaps there could end | |
* up being more. | |
*/ | |
private void triggerChunkLoads() | |
{ | |
int chunkX = level.getChunkX((int) -camera.getPosition().x); | |
int chunkZ = level.getChunkZ((int) -camera.getPosition().z); | |
if (initial_load_queued) | |
{ | |
Chunk tempchunk; | |
int dx = chunkX - cur_chunk_x; | |
int dz = chunkZ - cur_chunk_z; | |
int top_x=0; | |
int bot_x=0; | |
int top_z=0; | |
int bot_z=0; | |
// X | |
if (dx < 0) | |
{ | |
//System.out.println("Loading in chunks from the X range " + (cur_chunk_x-1-loadChunkRange) + " to " + (chunkX-loadChunkRange) + " (going down)"); | |
top_x = cur_chunk_x-1-loadChunkRange; | |
bot_x = chunkX-loadChunkRange; | |
} | |
else if (dx > 0) | |
{ | |
//System.out.println("Loading in chunks from the X range " + (cur_chunk_x+1+loadChunkRange) + " to " + (chunkX+loadChunkRange) + " (going up)"); | |
top_x = chunkX+loadChunkRange; | |
bot_x = cur_chunk_x+1+loadChunkRange; | |
} | |
if (dx != 0) | |
{ | |
for (int lx=bot_x; lx <= top_x; lx++) | |
{ | |
for (int lz=chunkZ-loadChunkRange; lz<=chunkZ+loadChunkRange; lz++) | |
{ | |
tempchunk = level.getChunk(lx, lz); | |
if (tempchunk != null && tempchunk.x == lx && tempchunk.z == lz) | |
{ | |
continue; | |
} | |
level.clearChunk(lx, lz); | |
mapChunksToLoad.add(new Block(lx, 0, lz)); | |
} | |
} | |
} | |
// Z | |
if (dz < 0) | |
{ | |
//System.out.println("Loading in chunks from the Z range " + (cur_chunk_z-1-loadChunkRange) + " to " + (chunkZ-loadChunkRange) + " (going down)"); | |
top_z = cur_chunk_z-1-loadChunkRange; | |
bot_z = chunkZ-loadChunkRange; | |
} | |
else if (dz > 0) | |
{ | |
//System.out.println("Loading in chunks from the Z range " + (cur_chunk_z+1+loadChunkRange) + " to " + (chunkZ+loadChunkRange) + " (going up)"); | |
top_z = chunkZ+loadChunkRange; | |
bot_z = cur_chunk_z+1+loadChunkRange; | |
} | |
if (dz != 0) | |
{ | |
for (int lx=chunkX-loadChunkRange; lx<=chunkX+loadChunkRange; lx++) | |
{ | |
for (int lz=bot_z; lz <= top_z; lz++) | |
{ | |
tempchunk = level.getChunk(lx, lz); | |
if (tempchunk != null && tempchunk.x == lx && tempchunk.z == lz) | |
{ | |
continue; | |
} | |
level.clearChunk(lx, lz); | |
mapChunksToLoad.add(new Block(lx, 0, lz)); | |
} | |
} | |
} | |
} | |
else | |
{ | |
System.out.println("Loading world from X: " + (chunkX-loadChunkRange) + " - " + (chunkX+loadChunkRange) + ", Z: " + (chunkZ-loadChunkRange) + " - " + (chunkZ+loadChunkRange)); | |
for(int lx=chunkX-loadChunkRange;lx<=chunkX+loadChunkRange;lx++) { | |
for(int lz=chunkZ-loadChunkRange;lz<=chunkZ+loadChunkRange;lz++) { | |
level.clearChunk(lx, lz); | |
mapChunksToLoad.add(new Block(lx,0,lz)); | |
} | |
} | |
initial_load_queued = true; | |
} | |
cur_chunk_x = chunkX; | |
cur_chunk_z = chunkZ; | |
} | |
/*** | |
* handles all input on all screens | |
* @param timeDelta | |
*/ | |
private void handleInput(float timeDelta) { | |
//distance in mouse movement from the last getDX() call. | |
mouseX = Mouse.getDX(); | |
//distance in mouse movement from the last getDY() call. | |
mouseY = Mouse.getDY(); | |
// we are on the main world screen or the level loading screen | |
// update the camera (but only if the mouse is grabbed) | |
if (Mouse.isGrabbed()) | |
{ | |
camera.incYaw(mouseX * MOUSE_SENSITIVITY); | |
camera.incPitch(-mouseY * MOUSE_SENSITIVITY); | |
} | |
// | |
// Keyboard commands (well, and mouse presses) | |
// | |
// Speed shifting | |
if (Mouse.isButtonDown(0) || Keyboard.isKeyDown(Keyboard.KEY_LSHIFT)) { | |
MOVEMENT_SPEED = 30.0f; | |
} else if (Mouse.isButtonDown(1) || Keyboard.isKeyDown(Keyboard.KEY_RSHIFT)) { | |
MOVEMENT_SPEED = 3.0f; | |
} else { | |
MOVEMENT_SPEED = 10.0f; | |
} | |
// Move forward | |
if (Keyboard.isKeyDown(Keyboard.KEY_W)) | |
{ | |
camera.walkForward(MOVEMENT_SPEED*timeDelta); | |
triggerChunkLoads(); | |
} | |
// Move backwards | |
if (Keyboard.isKeyDown(Keyboard.KEY_S)) | |
{ | |
camera.walkBackwards(MOVEMENT_SPEED*timeDelta); | |
triggerChunkLoads(); | |
} | |
// Strafe Left | |
if (Keyboard.isKeyDown(Keyboard.KEY_A)) | |
{ | |
camera.strafeLeft(MOVEMENT_SPEED*timeDelta); | |
triggerChunkLoads(); | |
} | |
// Strafe right | |
if (Keyboard.isKeyDown(Keyboard.KEY_D)) | |
{ | |
camera.strafeRight(MOVEMENT_SPEED*timeDelta); | |
triggerChunkLoads(); | |
} | |
// Fly Up | |
if (Keyboard.isKeyDown(Keyboard.KEY_SPACE)) { | |
camera.moveUp(MOVEMENT_SPEED*timeDelta); | |
triggerChunkLoads(); | |
} | |
// Fly Down | |
if (Keyboard.isKeyDown(Keyboard.KEY_LCONTROL)) { | |
camera.moveUp(-MOVEMENT_SPEED*timeDelta); | |
triggerChunkLoads(); | |
} | |
// Toggle minimap/largemap | |
if(Keyboard.isKeyDown(Keyboard.KEY_TAB) && keyPressed != Keyboard.KEY_TAB) { | |
mapBig = !mapBig; | |
keyPressed = Keyboard.KEY_TAB; | |
} | |
// Toggle highlightable ores | |
needToReloadWorld = false; | |
for(int i=0;i<mineralToggle.length;i++) { | |
if(Keyboard.isKeyDown(Keyboard.KEY_F1 + i) && keyPressed != Keyboard.KEY_F1 + i) { | |
keyPressed = Keyboard.KEY_F1 + i; | |
mineralToggle[i] = !mineralToggle[i]; | |
needToReloadWorld = true; | |
} | |
} | |
if(needToReloadWorld) { | |
invalidateSelectedChunks(); | |
} | |
// Fullscreen | |
if(Keyboard.isKeyDown(Keyboard.KEY_F10) && keyPressed != Keyboard.KEY_F10) { | |
keyPressed = Keyboard.KEY_F10; | |
switchFullScreenMode(); | |
} | |
// Toggle fullbright | |
if(Keyboard.isKeyDown(Keyboard.KEY_F) && keyPressed != Keyboard.KEY_F) { | |
keyPressed = Keyboard.KEY_F; | |
setLightMode(!lightMode); | |
} | |
// Toggle ore highlighting | |
if(Keyboard.isKeyDown(Keyboard.KEY_H) && keyPressed != Keyboard.KEY_H) { | |
keyPressed = Keyboard.KEY_H; | |
highlightOres = !highlightOres; | |
} | |
// Move camera to spawn point | |
if(Keyboard.isKeyDown(Keyboard.KEY_HOME) && keyPressed != Keyboard.KEY_HOME) { | |
keyPressed = Keyboard.KEY_HOME; | |
moveCameraToSpawnPoint(); | |
} | |
// Move camera to player position | |
if(Keyboard.isKeyDown(Keyboard.KEY_END) && keyPressed != Keyboard.KEY_END) { | |
keyPressed = Keyboard.KEY_END; | |
moveCameraToPlayerPos(); | |
} | |
// Increase light level | |
if(Keyboard.isKeyDown(Keyboard.KEY_ADD) && keyPressed != Keyboard.KEY_ADD) { | |
keyPressed = Keyboard.KEY_ADD; | |
incLightLevel(); | |
} | |
if(Keyboard.isKeyDown(Keyboard.KEY_EQUALS) && keyPressed != Keyboard.KEY_EQUALS) { | |
keyPressed = Keyboard.KEY_EQUALS; | |
incLightLevel(); | |
} | |
// Decrease light level | |
if(Keyboard.isKeyDown(Keyboard.KEY_MINUS) && keyPressed != Keyboard.KEY_MINUS) { | |
keyPressed = Keyboard.KEY_MINUS; | |
decLightLevel(); | |
} | |
if(Keyboard.isKeyDown(Keyboard.KEY_SUBTRACT) && keyPressed != Keyboard.KEY_SUBTRACT) { | |
keyPressed = Keyboard.KEY_SUBTRACT; | |
decLightLevel(); | |
} | |
// Toggle position info popup | |
if(Keyboard.isKeyDown(Keyboard.KEY_GRAVE) && keyPressed != Keyboard.KEY_GRAVE) { | |
keyPressed = Keyboard.KEY_GRAVE; | |
levelInfoToggle = !levelInfoToggle; | |
} | |
// Toggle bedrock rendering | |
if (Keyboard.isKeyDown(Keyboard.KEY_B) && keyPressed != Keyboard.KEY_B) { | |
keyPressed = Keyboard.KEY_B; | |
render_bedrock = !render_bedrock; | |
invalidateSelectedChunks(true); | |
} | |
// Toggle between Nether and Overworld | |
if (Keyboard.isKeyDown(Keyboard.KEY_N) && keyPressed != Keyboard.KEY_N) { | |
keyPressed = Keyboard.KEY_N; | |
switchNether(); | |
} | |
// Temp routine to write the minimap out to a PNG (for debugging purposes) | |
if (Keyboard.isKeyDown(Keyboard.KEY_P) && keyPressed != Keyboard.KEY_P) { | |
keyPressed = Keyboard.KEY_P; | |
BufferedImage bi = minimapTexture.getImage(); | |
try | |
{ | |
ImageIO.write(bi, "PNG", new File("/home/pez/xray.png")); | |
System.out.println("Wrote minimap to disk."); | |
} | |
catch (IOException e) | |
{ | |
// whatever | |
} | |
} | |
// Handle changing chunk ranges (how far out we draw from the camera | |
for(int i = 0; i<CHUNK_RANGES.length;i++) { | |
if(Keyboard.isKeyDown(CHUNK_RANGES_KEYS[i]) && keyPressed != CHUNK_RANGES_KEYS[i]) { | |
keyPressed = CHUNK_RANGES_KEYS[i]; | |
setChunkRange(i); | |
} | |
} | |
// Handle changing the ore highlight distances | |
for(int i = 0; i<HIGHLIGHT_RANGES.length;i++) { | |
if(Keyboard.isKeyDown(HIGHLIGHT_RANGES_KEYS[i]) && keyPressed != HIGHLIGHT_RANGES_KEYS[i]) { | |
keyPressed = HIGHLIGHT_RANGES_KEYS[i]; | |
setHighlightRange(i); | |
} | |
} | |
// Release the mouse | |
if(Keyboard.isKeyDown(Keyboard.KEY_ESCAPE)) { | |
Mouse.setGrabbed(false); | |
} | |
// Grab the mouse on a click | |
if (Mouse.isButtonDown(0)) { | |
Mouse.setGrabbed(true); | |
} | |
// Quit | |
if (Keyboard.isKeyDown(Keyboard.KEY_Q) && Keyboard.isKeyDown(Keyboard.KEY_LCONTROL)) { | |
done = true; | |
} | |
// Handle a requested window close | |
if(Display.isCloseRequested()) { | |
done = true; | |
} | |
// Clear out our keyPressed var if it's improperly-set | |
if(keyPressed != -1) { | |
if(!Keyboard.isKeyDown(keyPressed)) { | |
keyPressed = -1; | |
} | |
} | |
} | |
/** | |
* If we can, switches to/from nether. This will attempt to do an approximate translation | |
* of your position, though that hasn't been tested much, and won't totally line up with | |
* what Minecraft does. Note that height is unaffected by this, so the adjacent portal | |
* might show up higher or lower, depending on the local terrain. | |
*/ | |
private void switchNether() | |
{ | |
WorldInfo newworld = null; | |
float camera_mult = 1.0f; | |
if (world.isNether() && world.hasOverworld()) | |
{ | |
newworld = world.getOverworldInfo(); | |
camera_mult = 8.0f; | |
} | |
else if (!world.isNether() && world.hasNether()) | |
{ | |
newworld = world.getNetherInfo(); | |
camera_mult = 1.0f/8.0f; | |
} | |
if (newworld != null) | |
{ | |
// A full reinitialization is kind of overkill, but whatever. | |
FirstPersonCameraController cur_camera = this.camera; | |
this.camera.processNetherWarp(camera_mult); | |
initialize(); | |
this.setMinecraftWorld(newworld, cur_camera); | |
this.triggerChunkLoads(); | |
} | |
} | |
private void invalidateSelectedChunks() { | |
level.invalidateSelected(false); | |
} | |
private void invalidateSelectedChunks(boolean main_dirty) { | |
level.invalidateSelected(main_dirty); | |
} | |
private void setLightMode(boolean lightMode) { | |
this.lightMode = lightMode; | |
if(lightMode) { | |
GL11.glClearColor(0.0f, 0.0f, 0.0f, 0.0f); // Black Background | |
GL11.glEnable (GL11.GL_FOG); | |
} else { | |
GL11.glClearColor(0.0f, 0.3f, 1.0f, 0.3f); // Blue Background | |
GL11.glDisable (GL11.GL_FOG); | |
} | |
} | |
/*** | |
* Switches full screen mode | |
*/ | |
private void switchFullScreenMode() { | |
fullscreen = !fullscreen; | |
try { | |
Display.setFullscreen(fullscreen); | |
} | |
catch(Exception e) { | |
e.printStackTrace(); | |
} | |
} | |
/*** | |
* Draw the current and spawn position to the minimap | |
*/ | |
private void drawMapMarkersToMinimap() { | |
Graphics2D g = minimapTexture.getImage().createGraphics(); | |
Block spawn = level.getSpawnPoint(); | |
Block player = level.getPlayerPosition(); | |
int py = 1024-player.x; | |
int px = 1024+player.z; | |
int sy = 1024-spawn.x; | |
int sx = 1024+spawn.z; | |
g.setColor(Color.red.brighter()); | |
g.setStroke(new BasicStroke(2)); | |
g.drawOval(sx-6, sy-6, 11, 11); | |
g.drawLine(sx-8, sy, sx+8, sy); | |
g.drawLine(sx, sy-8, sx, sy+8); | |
g.setColor(Color.yellow.brighter()); | |
g.drawOval(px-6, py-6, 11, 11); | |
g.drawLine(px-8, py, px+8, py); | |
g.drawLine(px, py-8, px, py+8); | |
minimapTexture.update(); | |
} | |
/*** | |
* Main render loop | |
* @param timeDelta | |
* @return | |
*/ | |
private boolean render(float timeDelta) { | |
//GL11.glLoadIdentity(); | |
GL11.glLoadIdentity(); | |
GL11.glClear(GL11.GL_COLOR_BUFFER_BIT | GL11.GL_DEPTH_BUFFER_BIT); // Clear The Screen And The Depth Buffer | |
// are we still loading the map? | |
if (!map_load_started) | |
{ | |
map_load_started = true; | |
drawMapMarkersToMinimap(); | |
//minimapTexture.update(); | |
setLightMode(true); // basically enable fog etc | |
} | |
// we are viewing a world | |
GL11.glPushMatrix(); | |
// change the camera to point a the right direction | |
camera.applyCameraTransformation(); | |
currentCameraPosX = (int) -camera.getPosition().x; | |
currentCameraPosZ = (int) -camera.getPosition().z; | |
// determine if we need to load new map chunks | |
if(currentCameraPosX != levelBlockX || currentCameraPosZ != levelBlockZ || needToReloadWorld) { | |
levelBlockX = currentCameraPosX; | |
levelBlockZ = currentCameraPosZ; | |
currentLevelX = level.getChunkX(levelBlockX); | |
currentLevelZ = level.getChunkZ(levelBlockZ); | |
} | |
// draw the visible world | |
int chunk_range = visible_chunk_range; | |
if (HIGHLIGHT_RANGES[currentHighlightDistance] < chunk_range) | |
{ | |
chunk_range = HIGHLIGHT_RANGES[currentHighlightDistance]; | |
} | |
GL11.glEnable(GL11.GL_TEXTURE_2D); | |
GL11.glColor3f(1.0f,1.0f,1.0f); | |
minecraftTexture.bind(); | |
for(int lx=currentLevelX-visible_chunk_range;lx<currentLevelX+visible_chunk_range;lx++) { | |
for(int lz=currentLevelZ-visible_chunk_range;lz<currentLevelZ+visible_chunk_range;lz++) { | |
Chunk k = level.getChunk(lx, lz); | |
if(k != null) | |
{ | |
k.renderSolid(render_bedrock); | |
k.renderSelected(this.mineralToggle); | |
} | |
} | |
} | |
for(int lx=currentLevelX-visible_chunk_range;lx<currentLevelX+visible_chunk_range;lx++) { | |
for(int lz=currentLevelZ-visible_chunk_range;lz<currentLevelZ+visible_chunk_range;lz++) { | |
Chunk k = level.getChunk(lx, lz); | |
if(k != null) k.renderTransparency(); | |
} | |
} | |
if(highlightOres) { | |
GL11.glDisable(GL11.GL_DEPTH_TEST); | |
long time = System.currentTimeMillis(); | |
float alpha = (time % 1000) / 1000.0f; | |
if(time % 2000 > 1000) alpha = 1.0f - alpha; | |
alpha = 0.1f + (alpha*0.8f); | |
GL11.glColor4f(alpha, alpha, alpha, alpha); | |
setLightLevel(20); | |
GL11.glBlendFunc(GL11.GL_ONE, GL11.GL_ONE); | |
for(int lx=currentLevelX-chunk_range;lx<currentLevelX+chunk_range;lx++) { | |
for(int lz=currentLevelZ-chunk_range;lz<currentLevelZ+chunk_range;lz++) { | |
Chunk k = level.getChunk(lx, lz); | |
if(k != null) | |
k.renderSelected(this.mineralToggle); | |
} | |
} | |
GL11.glEnable(GL11.GL_DEPTH_TEST); | |
GL11.glBlendFunc(GL11.GL_SRC_ALPHA, GL11.GL_ONE_MINUS_SRC_ALPHA); | |
setLightLevel(); | |
} | |
GL11.glPopMatrix(); | |
// draw the user interface (fps and map) | |
drawUI(); | |
return true; | |
} | |
/*** | |
* Draw the ui | |
*/ | |
private void drawUI() { | |
framesSinceLastFps++; | |
setOrthoOn(); // 2d mode | |
drawMinimap(); | |
drawFPSCounter(); | |
drawMineralToggle(); | |
drawLevelInfo(); | |
setOrthoOff(); // back to 3d mode | |
} | |
private void updateLevelInfo() { | |
Graphics2D g = levelInfoTexture.getImage().createGraphics(); | |
g.setBackground(Color.BLUE); | |
g.clearRect(0, 0, 128, 144); | |
g.setColor(Color.WHITE); | |
g.fillRect(2, 2, 124, 140); | |
g.setFont(ARIALFONT); | |
int chunkX = level.getChunkX(levelBlockX); | |
int chunkZ = level.getChunkZ(levelBlockZ); | |
g.setColor(Color.BLACK); | |
g.drawString("Chunk X:", 5, 22); | |
g.setColor(Color.RED.darker()); | |
g.drawString(Integer.toString(chunkX), 90, 22); | |
g.setColor(Color.BLACK); | |
g.drawString("Chunk Z:", 5, 22+16); | |
g.setColor(Color.RED.darker()); | |
g.drawString(Integer.toString(chunkZ), 90, 22+16); | |
g.setColor(Color.BLACK); | |
g.drawString("World X:", 5, 22+32); | |
g.setColor(Color.RED.darker()); | |
g.drawString(Integer.toString(levelBlockX), 90, 22+32); | |
g.setColor(Color.BLACK); | |
g.drawString("World Z:", 5, 22+16+32); | |
g.setColor(Color.RED.darker()); | |
g.drawString(Integer.toString(levelBlockZ), 90, 22+16+32); | |
g.setColor(Color.BLACK); | |
g.drawString("World Y:", 5, 22+16+32+16); | |
g.setColor(Color.RED.darker()); | |
g.drawString(Integer.toString((int)-camera.getPosition().y), 90, 22+16+32+16); | |
long heapSize = Runtime.getRuntime().totalMemory(); | |
g.setColor(Color.BLACK); | |
g.drawString("Memory Used", 5, 22+16+32+16+25); | |
g.setColor(Color.RED.darker()); | |
g.drawString(Integer.toString((int) (heapSize/1024/1024)) + " MB", 20, 22+16+32+16+25+20); | |
levelInfoTexture.update(); | |
} | |
/*** | |
* | |
*/ | |
private void drawLevelInfo() { | |
if(levelInfoToggle) { | |
GL11.glColor4f(1.0f, 1.0f, 1.0f, 1.0f); | |
SpriteTool.drawSpriteAbsoluteXY( | |
levelInfoTexture, | |
0, | |
48 | |
); | |
} | |
} | |
/*** | |
* Draw the mineral toggles | |
*/ | |
private void drawMineralToggle() { | |
int barWidth = 128+10+32; | |
int barHeight = 42; | |
int maxCols = 5; | |
float mineralTogglebarLength; | |
if ((mineralToggleTextures.length % maxCols) == 0) | |
{ | |
mineralTogglebarLength = maxCols * barWidth; | |
} | |
else | |
{ | |
mineralTogglebarLength = (mineralToggleTextures.length % maxCols) * barWidth; | |
} | |
float curX = (screenWidth / 2.0f) - (mineralTogglebarLength/2.0f); | |
float curY = screenHeight - barHeight; | |
if (mineralToggleTextures.length > maxCols) | |
{ | |
curY -= barHeight; | |
} | |
for(int i=0;i<mineralToggleTextures.length;i++) { | |
if (i == mineralToggleTextures.length - maxCols) | |
{ | |
mineralTogglebarLength = maxCols * barWidth; | |
curY += barHeight; | |
curX = (screenWidth / 2.0f) - (mineralTogglebarLength/2.0f); | |
} | |
if(mineralToggle[i]) { | |
GL11.glColor4f(1.0f, 1.0f, 1.0f, 1.0f); | |
GL11.glDisable(GL11.GL_TEXTURE_2D); | |
SpriteTool.drawCurrentSprite( | |
curX - 2, curY -2, | |
36, 36, | |
MineCraftConstants.precalcSpriteSheetToTextureX[blockDataToSpriteSheet[HIGHLIGHT_ORES[i]]], | |
MineCraftConstants.precalcSpriteSheetToTextureY[blockDataToSpriteSheet[HIGHLIGHT_ORES[i]]], | |
MineCraftConstants.precalcSpriteSheetToTextureX[blockDataToSpriteSheet[HIGHLIGHT_ORES[i]]]+TEX16, | |
MineCraftConstants.precalcSpriteSheetToTextureY[blockDataToSpriteSheet[HIGHLIGHT_ORES[i]]]+TEX16 | |
); | |
GL11.glEnable(GL11.GL_TEXTURE_2D); | |
} else { | |
GL11.glColor4f(0.5f, 0.5f, 0.5f, 1.0f); | |
} | |
minecraftTexture.bind(); | |
SpriteTool.drawCurrentSprite( | |
curX, curY, | |
32, 32, | |
MineCraftConstants.precalcSpriteSheetToTextureX[blockDataToSpriteSheet[HIGHLIGHT_ORES[i]]], | |
MineCraftConstants.precalcSpriteSheetToTextureY[blockDataToSpriteSheet[HIGHLIGHT_ORES[i]]], | |
MineCraftConstants.precalcSpriteSheetToTextureX[blockDataToSpriteSheet[HIGHLIGHT_ORES[i]]]+TEX16, | |
MineCraftConstants.precalcSpriteSheetToTextureY[blockDataToSpriteSheet[HIGHLIGHT_ORES[i]]]+TEX16 | |
); | |
SpriteTool.drawSpriteAbsoluteXY(mineralToggleTextures[i], curX + 32 + 10, curY+7); | |
curX += barWidth; | |
} | |
} | |
/*** | |
* Draws a simple fps counter on the top-left of the screen | |
*/ | |
private void drawFPSCounter() { | |
previousTime = time; | |
time = System.nanoTime(); | |
timeDelta = time - previousTime; | |
if (time - lastFpsTime > NANOSPERSECOND) { | |
fps = framesSinceLastFps; | |
framesSinceLastFps = 0; | |
lastFpsTime = time; | |
updateFPSText = true; | |
} | |
if (updateFPSText) { | |
if(levelInfoToggle) | |
updateLevelInfo(); | |
Graphics2D g = fpsTexture.getImage().createGraphics(); | |
g.setBackground(Color.BLUE); | |
g.clearRect(0, 0, 128, 32); | |
g.setColor(Color.WHITE); | |
g.fillRect(2, 2, 124, 28); | |
g.setColor(Color.BLACK); | |
g.setFont(ARIALFONT); | |
g.drawString("FPS:", 10, 22); | |
g.setColor(Color.RED.darker()); | |
g.drawString(Integer.toString(fps), 60, 22); | |
fpsTexture.update(); | |
updateFPSText = false; | |
} | |
fpsTexture.bind(); | |
GL11.glColor4f(1.0f, 1.0f, 1.0f, 0.7f); | |
SpriteTool.drawSpriteAbsoluteXY(fpsTexture, 0, 0); | |
GL11.glColor4f(1.0f, 1.0f, 1.0f, 1f); | |
} | |
/*** | |
* Sets ortho (2d) mode | |
*/ | |
public void setOrthoOn() | |
{ | |
// prepare projection matrix to render in 2D | |
GL11.glMatrixMode(GL11.GL_PROJECTION); | |
GL11.glPushMatrix(); // preserve perspective view | |
GL11.glLoadIdentity(); // clear the perspective matrix | |
GL11.glOrtho( // turn on 2D mode | |
////viewportX,viewportX+viewportW, // left, right | |
////viewportY,viewportY+viewportH, // bottom, top !!! | |
0,screenWidth, // left, right | |
screenHeight,0, // bottom, top | |
-500,500); // Zfar, Znear | |
// clear the modelview matrix | |
GL11.glMatrixMode(GL11.GL_MODELVIEW); | |
GL11.glPushMatrix(); // Preserve the Modelview Matrix | |
GL11.glLoadIdentity(); // clear the Modelview Matrix | |
// disable depth test so further drawing will go over the current scene | |
GL11.glDisable(GL11.GL_DEPTH_TEST); | |
} | |
/** | |
* Restore the previous mode | |
*/ | |
public static void setOrthoOff() | |
{ | |
// restore the original positions and views | |
GL11.glMatrixMode(GL11.GL_PROJECTION); | |
GL11.glPopMatrix(); | |
GL11.glMatrixMode(GL11.GL_MODELVIEW); | |
GL11.glPopMatrix(); | |
// turn Depth Testing back on | |
GL11.glEnable(GL11.GL_DEPTH_TEST); | |
} | |
/*** | |
* draws the minimap or the big map | |
*/ | |
private void drawMinimap() { | |
if(mapBig) { | |
// the big map | |
// just draws the texture, but move the texture so the middle of the screen is where we currently are | |
float halfMapWidth = 2048/2.0f; // 840 | |
minimapTexture.bind(); | |
GL11.glColor4f(1.0f, 1.0f, 1.0f, 0.7f); | |
GL11.glPushMatrix(); | |
// See some notes in drawMapChunkToMap() for why the coordinate math here is slightly weird | |
// TODO: Fix this! | |
GL11.glTranslatef((screenWidth/2.0f)+currentCameraPosZ, (screenHeight/2.0f)-currentCameraPosX, 0.0f); | |
//System.out.println("Camera at " + (currentCameraPosZ%1024) + ", " + (currentCameraPosX%1024) + ", Translating to " + ((screenWidth/2.0f)+(currentCameraPosZ%1024)) + ", " + ((screenHeight/2.0f)-(currentCameraPosX%1024))); | |
GL11.glBegin(GL11.GL_TRIANGLE_STRIP); | |
GL11.glTexCoord2f(0, 0); | |
GL11.glVertex2f(-halfMapWidth, -halfMapWidth); | |
GL11.glTexCoord2f(1, 0); | |
GL11.glVertex2f(+halfMapWidth, -halfMapWidth); | |
GL11.glTexCoord2f(0, 1); | |
GL11.glVertex2f(-halfMapWidth, +halfMapWidth); | |
GL11.glTexCoord2f(1, 1); | |
GL11.glVertex2f(+halfMapWidth, +halfMapWidth); | |
GL11.glEnd(); | |
GL11.glPopMatrix(); | |
GL11.glColor4f(1.0f, 1.0f, 1.0f, 1f); | |
SpriteTool.drawSpriteAndRotateAndScale(minimapArrowTexture, screenWidth/2.0f, screenHeight/2.0f, camera.getYaw()+90,0.5f); | |
} else { | |
// the minimap | |
// a bit more interesting | |
// I set the minimap to 200 wide and tall | |
float vSizeFactor = 200.0f/2048.0f; | |
float vTexX = 0.5f - (1.0f/2048.0f) * currentCameraPosZ; | |
float vTexY = 0.5f + (1.0f/2048.0f) * currentCameraPosX; | |
float vTexZ = vSizeFactor; | |
minimapTexture.bind(); | |
GL11.glColor4f(1.0f, 1.0f, 1.0f, 0.7f); | |
GL11.glPushMatrix(); | |
GL11.glTranslatef(screenWidth-100, 100, 0.0f); | |
GL11.glBegin(GL11.GL_TRIANGLE_STRIP); | |
GL11.glTexCoord2f(vTexX-vTexZ, vTexY-vTexZ); | |
GL11.glVertex2f(-100, -100); | |
GL11.glTexCoord2f(vTexX+vTexZ, vTexY-vTexZ); | |
GL11.glVertex2f(+100, -100); | |
GL11.glTexCoord2f(vTexX-vTexZ, vTexY+vTexZ); | |
GL11.glVertex2f(-100, +100); | |
GL11.glTexCoord2f(vTexX+vTexZ, vTexY+vTexZ); | |
GL11.glVertex2f(+100, +100); | |
GL11.glEnd(); | |
GL11.glPopMatrix(); | |
GL11.glColor4f(1.0f, 1.0f, 1.0f, 1f); | |
SpriteTool.drawSpriteAndRotateAndScale(minimapArrowTexture, screenWidth-100, 100, camera.getYaw()+90,0.5f); | |
} | |
} | |
/*** | |
* draws a chunk to the (mini) map | |
* @param x | |
* @param z | |
*/ | |
public void drawMapChunkToMap(int x, int z) { | |
level.loadChunk(x, z); | |
byte[] chunkData = level.getChunkData(x,z); | |
Graphics2D g = minimapTexture.getImage().createGraphics(); | |
for(int zz = 0; zz<16; zz++) { | |
for(int xx =0; xx<16; xx++) { | |
// determine the top most visible block | |
for (int yy = 127; yy >= 0; yy--) | |
{ | |
int blockOffset = yy + (zz * 128) + (xx * 128 * 16); | |
byte blockData = chunkData[blockOffset]; | |
if(MineCraftConstants.blockDataToSpriteSheet[blockData] > -1) { | |
if (blockData > -1) { | |
Color blockColor = MineCraftConstants.blockColors[blockData]; | |
if(blockColor != null) { | |
g.setColor(blockColor); | |
// In Minecraft: | |
// X increases South, decreases North | |
// Z increases West, decreases East | |
// ... this means that to translate into the G2D coordinates, we need | |
// some flipping and weirdness. | |
// Also, I imagine there MUST be a better way to get these coordinates | |
// than those awkward if statements I'm making. | |
int py = 1024+(x*16)+xx; | |
int px = 1024-(z*16)-zz; | |
if (py < 0) | |
{ | |
py = 2047-(Math.abs(py) % 2048); | |
} | |
else | |
{ | |
py = py % 2048; | |
} | |
if (px < 0) | |
{ | |
px = 2047-(Math.abs(px) % 2048); | |
} | |
else | |
{ | |
px = px % 2048; | |
} | |
g.drawLine(px, py, px, py); // yes, this can be optimized (draw to texture instead of image), but meh... | |
} | |
} | |
break; | |
} | |
} | |
} | |
} | |
} | |
/*** | |
* Draws the minimap arrow image (to the texture) | |
*/ | |
private void drawMinimapArrowImage() { | |
Graphics2D g = minimapArrowTexture.getImage().createGraphics(); | |
//g.clearRect(0, 0, 32, 32); | |
g.setColor(Color.red); | |
g.setStroke(new BasicStroke(5)); | |
g.drawLine(3,16, 30,24); | |
g.drawLine(30,24,30,8); | |
g.drawLine(30,8, 3,16); | |
minimapArrowTexture.update(); | |
} | |
/*** | |
* cleanup | |
*/ | |
private void cleanup() { | |
Display.destroy(); | |
} | |
} | |
/* | |
// top | |
GL11.glVertex3f(wx, 128, wz); | |
GL11.glVertex3f(wx+16, 128, wz); | |
GL11.glVertex3f(wx+16, 128, wz); | |
GL11.glVertex3f(wx+16, 128, wz+16); | |
GL11.glVertex3f(wx+16, 128, wz+16); | |
GL11.glVertex3f(wx+16, 128, wz+16); | |
GL11.glVertex3f(wx, 128, wz+16); | |
GL11.glVertex3f(wx, 128, wz+16); | |
// sides | |
GL11.glVertex3f(wx, 128, wz); | |
GL11.glVertex3f(wx, 0, wz); | |
GL11.glVertex3f(wx+16, 128, wz); | |
GL11.glVertex3f(wx+16, 0, wz); | |
GL11.glVertex3f(wx+16, 128, wz+16); | |
GL11.glVertex3f(wx+16, 0, wz+16); | |
GL11.glVertex3f(wx, 128, wz+16); | |
GL11.glVertex3f(wx, 0, wz+16); | |
// bottom | |
GL11.glVertex3f(wx, 0, wz); | |
GL11.glVertex3f(wx+16, 0, wz); | |
GL11.glVertex3f(wx+16, 0, wz); | |
GL11.glVertex3f(wx+16, 0, wz+16); | |
GL11.glVertex3f(wx+16, 0, wz+16); | |
GL11.glVertex3f(wx+16, 0, wz+16); | |
GL11.glVertex3f(wx, 0, wz+16); | |
GL11.glVertex3f(wx, 0, wz+16); | |
*/ |