Initial 1.14.1 support

This commit is contained in:
Mike Primm 2019-05-13 23:40:18 -05:00
parent 6ac175c29d
commit 05de32fcfb
8 changed files with 630 additions and 0 deletions

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bukkit-helper-114-1/.gitignore vendored Normal file
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/build/

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bukkit-helper-114-1/bin/.gitignore vendored Normal file
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/main/

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package org.dynmap.bukkit.helper.v114_1;
import java.lang.reflect.Field;
import java.util.HashMap;
import java.util.IdentityHashMap;
import java.util.List;
import org.bukkit.Chunk;
import org.bukkit.ChunkSnapshot;
import org.bukkit.Location;
import org.bukkit.World;
import org.bukkit.WorldBorder;
import org.dynmap.DynmapChunk;
import org.dynmap.Log;
import org.dynmap.bukkit.helper.BukkitVersionHelperCB;
import org.dynmap.bukkit.helper.BukkitWorld;
import org.dynmap.bukkit.helper.v114_1.MapChunkCache114_1;
import org.dynmap.renderer.DynmapBlockState;
import org.dynmap.utils.MapChunkCache;
import org.dynmap.utils.Polygon;
import net.minecraft.server.v1_14_R1.BiomeBase;
import net.minecraft.server.v1_14_R1.Block;
import net.minecraft.server.v1_14_R1.BlockFluids;
import net.minecraft.server.v1_14_R1.BlockLogAbstract;
import net.minecraft.server.v1_14_R1.IBlockData;
import net.minecraft.server.v1_14_R1.IRegistry;
import net.minecraft.server.v1_14_R1.Material;
/**
* Helper for isolation of bukkit version specific issues
*/
public class BukkitVersionHelperSpigot114_1 extends BukkitVersionHelperCB {
/** CraftChunkSnapshot */
protected Class<?> datapalettearray;
private Field blockid_field;
@Override
protected boolean isBlockIdNeeded() {
return false;
}
@Override
protected boolean isBiomeBaseListNeeded() {
return false;
}
public BukkitVersionHelperSpigot114_1() {
datapalettearray = getNMSClass("[Lnet.minecraft.server.DataPaletteBlock;");
blockid_field = getPrivateField(craftchunksnapshot, new String[] { "blockids" }, datapalettearray);
}
@Override
public Object[] getBlockIDFieldFromSnapshot(ChunkSnapshot css) {
try {
return (Object[]) blockid_field.get(css);
} catch (IllegalArgumentException e) {
} catch (IllegalAccessException e) {
}
return null;
}
@Override
public void unloadChunkNoSave(World w, Chunk c, int cx, int cz) {
w.unloadChunk(cx, cz, false);
}
/**
* Get block short name list
*/
@Override
public String[] getBlockNames() {
int cnt = Block.REGISTRY_ID.a();
String[] names = new String[cnt];
for (int i = 0; i < cnt; i++) {
IBlockData bd = Block.getByCombinedId(i);
names[i] = IRegistry.BLOCK.getKey(bd.getBlock()).toString();
Log.info(i + ": blk=" + names[i] + ", bd=" + bd.toString());
}
return names;
}
/**
* Get list of defined biomebase objects
*/
@Override
public Object[] getBiomeBaseList() {
if (biomelist == null) {
biomelist = new Object[1024];
for (int i = 0; i < 1024; i++) {
biomelist[i] = IRegistry.BIOME.fromId(i);
}
}
return biomelist;
}
/** Get ID from biomebase */
@Override
public int getBiomeBaseID(Object bb) {
return IRegistry.BIOME.a((BiomeBase)bb);
}
public static IdentityHashMap<IBlockData, DynmapBlockState> dataToState;
/**
* Initialize block states (org.dynmap.blockstate.DynmapBlockState)
*/
@Override
public void initializeBlockStates() {
dataToState = new IdentityHashMap<IBlockData, DynmapBlockState>();
HashMap<String, DynmapBlockState> lastBlockState = new HashMap<String, DynmapBlockState>();
int cnt = Block.REGISTRY_ID.a();
// Loop through block data states
for (int i = 0; i < cnt; i++) {
IBlockData bd = Block.getByCombinedId(i);
String bname = IRegistry.BLOCK.getKey(bd.getBlock()).toString();
DynmapBlockState lastbs = lastBlockState.get(bname); // See if we have seen this one
int idx = 0;
if (lastbs != null) { // Yes
idx = lastbs.getStateCount(); // Get number of states so far, since this is next
}
// Build state name
String sb = "";
String fname = bd.toString();
int off1 = fname.indexOf('[');
if (off1 >= 0) {
int off2 = fname.indexOf(']');
sb = fname.substring(off1+1, off2);
}
Material mat = bd.getMaterial();
DynmapBlockState bs = new DynmapBlockState(lastbs, idx, bname, sb, mat.toString());
if ((!bd.p().isEmpty()) && ((bd.getBlock() instanceof BlockFluids) == false)) { // Test if fluid type for block is not empty
bs.setWaterlogged();
}
if (mat == Material.AIR) {
bs.setAir();
}
if (mat == Material.LEAVES) {
bs.setLeaves();
}
if (bd.getBlock() instanceof BlockLogAbstract) {
bs.setLog();
}
if (mat.isSolid()) {
bs.setSolid();
}
dataToState.put(bd, bs);
lastBlockState.put(bname, (lastbs == null) ? bs : lastbs);
Log.verboseinfo(i + ": blk=" + bname + ", idx=" + idx + ", state=" + sb + ", waterlogged=" + bs.isWaterlogged());
}
}
/**
* Create chunk cache for given chunks of given world
* @param dw - world
* @param chunks - chunk list
* @return cache
*/
@Override
public MapChunkCache getChunkCache(BukkitWorld dw, List<DynmapChunk> chunks) {
MapChunkCache114_1 c = new MapChunkCache114_1();
c.setChunks(dw, chunks);
return c;
}
/**
* Get biome base water multiplier
*/
@Override
public int getBiomeBaseWaterMult(Object bb) {
return ((BiomeBase)bb).n();
}
@Override
public Polygon getWorldBorder(World world) {
Polygon p = null;
WorldBorder wb = world.getWorldBorder();
if (wb != null) {
Location c = wb.getCenter();
double size = wb.getSize();
if ((size > 1) && (size < 1E7)) {
size = size / 2;
p = new Polygon();
p.addVertex(c.getX()-size, c.getZ()-size);
p.addVertex(c.getX()+size, c.getZ()-size);
p.addVertex(c.getX()+size, c.getZ()+size);
p.addVertex(c.getX()-size, c.getZ()+size);
}
}
return p;
}
}

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description = 'bukkit-helper-1.14.1'
dependencies {
compile project(':bukkit-helper')
compile project(':dynmap-api')
compile project(path: ':DynmapCore', configuration: 'shadow')
compile group: 'org.bukkit', name: 'bukkit', version:'1.14.1-R0.1-SNAPSHOT'
compile group: 'org.bukkit', name: 'craftbukkit', version:'1.14.1-R0.1-SNAPSHOT'
}

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@ -0,0 +1,415 @@
package org.dynmap.bukkit.helper.v114_1;
import org.bukkit.block.Biome;
import org.bukkit.craftbukkit.v1_14_R1.CraftWorld;
import java.io.IOException;
import java.util.Arrays;
import org.bukkit.ChunkSnapshot;
import org.bukkit.World;
import org.dynmap.DynmapChunk;
import org.dynmap.DynmapCore;
import org.dynmap.Log;
import org.dynmap.bukkit.helper.AbstractMapChunkCache;
import org.dynmap.bukkit.helper.SnapshotCache;
import org.dynmap.bukkit.helper.SnapshotCache.SnapshotRec;
import org.dynmap.renderer.DynmapBlockState;
import org.dynmap.utils.DynIntHashMap;
import org.dynmap.utils.VisibilityLimit;
import net.minecraft.server.v1_14_R1.ChunkCoordIntPair;
import net.minecraft.server.v1_14_R1.DataBits;
import net.minecraft.server.v1_14_R1.NBTTagCompound;
import net.minecraft.server.v1_14_R1.NBTTagList;
/**
* Container for managing chunks - dependent upon using chunk snapshots, since rendering is off server thread
*/
public class MapChunkCache114_1 extends AbstractMapChunkCache {
public static class NBTSnapshot implements Snapshot {
private static interface Section {
public DynmapBlockState getBlockType(int x, int y, int z);
public int getBlockSkyLight(int x, int y, int z);
public int getBlockEmittedLight(int x, int y, int z);
public boolean isEmpty();
}
private final int x, z;
private final Section[] section;
private final int[] hmap; // Height map
private final int[] biome;
private final long captureFulltime;
private final int sectionCnt;
private final long inhabitedTicks;
private static final int BLOCKS_PER_SECTION = 16 * 16 * 16;
private static final int COLUMNS_PER_CHUNK = 16 * 16;
private static final byte[] emptyData = new byte[BLOCKS_PER_SECTION / 2];
private static final byte[] fullData = new byte[BLOCKS_PER_SECTION / 2];
static
{
Arrays.fill(fullData, (byte)0xFF);
}
private static class EmptySection implements Section {
@Override
public DynmapBlockState getBlockType(int x, int y, int z) {
return DynmapBlockState.AIR;
}
@Override
public int getBlockSkyLight(int x, int y, int z) {
return 15;
}
@Override
public int getBlockEmittedLight(int x, int y, int z) {
return 0;
}
@Override
public boolean isEmpty() {
return true;
}
}
private static final EmptySection empty_section = new EmptySection();
private static class StdSection implements Section {
DynmapBlockState[] states;
byte[] skylight;
byte[] emitlight;
public StdSection() {
states = new DynmapBlockState[BLOCKS_PER_SECTION];
Arrays.fill(states, DynmapBlockState.AIR);
skylight = emptyData;
emitlight = emptyData;
}
@Override
public DynmapBlockState getBlockType(int x, int y, int z) {
return states[((y & 0xF) << 8) | (z << 4) | x];
}
@Override
public int getBlockSkyLight(int x, int y, int z) {
int off = ((y & 0xF) << 7) | (z << 3) | (x >> 1);
return (skylight[off] >> (4 * (x & 1))) & 0xF;
}
@Override
public int getBlockEmittedLight(int x, int y, int z)
{
int off = ((y & 0xF) << 7) | (z << 3) | (x >> 1);
return (emitlight[off] >> (4 * (x & 1))) & 0xF;
}
@Override
public boolean isEmpty() {
return false;
}
}
/**
* Construct empty chunk snapshot
*
* @param x
* @param z
*/
public NBTSnapshot(int worldheight, int x, int z, long captime, long inhabitedTime)
{
this.x = x;
this.z = z;
this.captureFulltime = captime;
this.biome = new int[COLUMNS_PER_CHUNK];
this.sectionCnt = worldheight / 16;
/* Allocate arrays indexed by section */
this.section = new Section[this.sectionCnt];
/* Fill with empty data */
for (int i = 0; i < this.sectionCnt; i++) {
this.section[i] = empty_section;
}
/* Create empty height map */
this.hmap = new int[16 * 16];
this.inhabitedTicks = inhabitedTime;
}
public NBTSnapshot(NBTTagCompound nbt, int worldheight) {
this.x = nbt.getInt("xPos");
this.z = nbt.getInt("zPos");
this.captureFulltime = 0;
this.hmap = nbt.getIntArray("HeightMap");
this.sectionCnt = worldheight / 16;
if (nbt.hasKey("InhabitedTime")) {
this.inhabitedTicks = nbt.getLong("InhabitedTime");
}
else {
this.inhabitedTicks = 0;
}
/* Allocate arrays indexed by section */
this.section = new Section[this.sectionCnt];
/* Fill with empty data */
for (int i = 0; i < this.sectionCnt; i++) {
this.section[i] = empty_section;
}
/* Get sections */
NBTTagList sect = nbt.getList("Sections", 10);
for (int i = 0; i < sect.size(); i++) {
NBTTagCompound sec = sect.getCompound(i);
int secnum = sec.getByte("Y");
if (secnum >= this.sectionCnt) {
Log.info("Section " + (int) secnum + " above world height " + worldheight);
continue;
}
if (secnum < 0)
continue;
//System.out.println("section(" + secnum + ")=" + sec.asString());
// Create normal section to initialize
StdSection cursect = new StdSection();
this.section[secnum] = cursect;
DynmapBlockState[] states = cursect.states;
DynmapBlockState[] palette = null;
// If we've got palette and block states list, process non-empty section
if (sec.hasKeyOfType("Palette", 9) && sec.hasKeyOfType("BlockStates", 12)) {
NBTTagList plist = sec.getList("Palette", 10);
long[] statelist = sec.getLongArray("BlockStates");
palette = new DynmapBlockState[plist.size()];
for (int pi = 0; pi < plist.size(); pi++) {
NBTTagCompound tc = plist.getCompound(pi);
String pname = tc.getString("Name");
String statestr = "";
if (tc.hasKey("Properties")) {
NBTTagCompound prop = tc.getCompound("Properties");
for (String pid : prop.getKeys()) {
if (statestr.length() > 0) statestr += ",";
statestr += pid + "=" + prop.get(pid).asString();
}
palette[pi] = DynmapBlockState.getStateByNameAndState(pname, statestr);
}
if (palette[pi] == null) {
palette[pi] = DynmapBlockState.getBaseStateByName(pname);
}
if (palette[pi] == null) {
palette[pi] = DynmapBlockState.AIR;
}
}
int bitsperblock = (statelist.length * 64) / 4096;
DataBits db = new DataBits(bitsperblock, 4096, statelist);
if (bitsperblock > 8) { // Not palette
for (int j = 0; j < 4096; j++) {
states[j] = DynmapBlockState.getStateByGlobalIndex(db.a(j));
}
}
else {
for (int j = 0; j < 4096; j++) {
int v = db.a(j);
states[j] = (v < palette.length) ? palette[v] : DynmapBlockState.AIR;
}
}
}
cursect.emitlight = sec.getByteArray("BlockLight");
if (sec.hasKey("SkyLight")) {
cursect.skylight = sec.getByteArray("SkyLight");
}
}
/* Get biome data */
this.biome = new int[COLUMNS_PER_CHUNK];
if (nbt.hasKey("Biomes")) {
byte[] b = nbt.getByteArray("Biomes");
if (b != null) {
for (int i = 0; i < b.length; i++) {
int bv = 255 & b[i];
this.biome[i] = (bv == 255) ? 0 : bv;
}
}
else { // Check JEI biomes
int[] bb = nbt.getIntArray("Biomes");
if (bb != null) {
for (int i = 0; i < bb.length; i++) {
int bv = bb[i];
this.biome[i] = (bv < 0) ? 0 : bv;
}
}
}
}
}
public int getX()
{
return x;
}
public int getZ()
{
return z;
}
public DynmapBlockState getBlockType(int x, int y, int z)
{
return section[y >> 4].getBlockType(x, y, z);
}
public int getBlockSkyLight(int x, int y, int z)
{
return section[y >> 4].getBlockSkyLight(x, y, z);
}
public int getBlockEmittedLight(int x, int y, int z)
{
return section[y >> 4].getBlockEmittedLight(x, y, z);
}
public int getHighestBlockYAt(int x, int z)
{
return hmap[z << 4 | x];
}
public final long getCaptureFullTime()
{
return captureFulltime;
}
public boolean isSectionEmpty(int sy)
{
return section[sy].isEmpty();
}
public long getInhabitedTicks() {
return inhabitedTicks;
}
@Override
public Biome getBiome(int x, int z) {
return AbstractMapChunkCache.getBiomeByID(z << 4 | x);
}
@Override
public Object[] getBiomeBaseFromSnapshot() {
return null;
}
}
private NBTTagCompound loadChunkNBT(World w, int x, int z) {
CraftWorld cw = (CraftWorld) w;
ChunkCoordIntPair cc = new ChunkCoordIntPair(x, z);
NBTTagCompound nbt = null;
try {
nbt = cw.getHandle().getChunkProvider().playerChunkMap.read(cc);
} catch (IOException iox) {
}
if (nbt != null) {
nbt = nbt.getCompound("Level");
}
return nbt;
}
@Override
public Snapshot wrapChunkSnapshot(ChunkSnapshot css) {
// TODO Auto-generated method stub
return null;
}
// Load chunk snapshots
@Override
public int loadChunks(int max_to_load) {
if(dw.isLoaded() == false)
return 0;
int cnt = 0;
if(iterator == null)
iterator = chunks.listIterator();
DynmapCore.setIgnoreChunkLoads(true);
// Load the required chunks.
while((cnt < max_to_load) && iterator.hasNext()) {
long startTime = System.nanoTime();
DynmapChunk chunk = iterator.next();
boolean vis = true;
if(visible_limits != null) {
vis = false;
for(VisibilityLimit limit : visible_limits) {
if (limit.doIntersectChunk(chunk.x, chunk.z)) {
vis = true;
break;
}
}
}
if(vis && (hidden_limits != null)) {
for(VisibilityLimit limit : hidden_limits) {
if (limit.doIntersectChunk(chunk.x, chunk.z)) {
vis = false;
break;
}
}
}
/* Check if cached chunk snapshot found */
Snapshot ss = null;
long inhabited_ticks = 0;
DynIntHashMap tileData = null;
int idx = (chunk.x-x_min) + (chunk.z - z_min)*x_dim;
SnapshotRec ssr = SnapshotCache.sscache.getSnapshot(dw.getName(), chunk.x, chunk.z, blockdata, biome, biomeraw, highesty);
if(ssr != null) {
inhabited_ticks = ssr.inhabitedTicks;
if(!vis) {
if(hidestyle == HiddenChunkStyle.FILL_STONE_PLAIN)
ss = STONE;
else if(hidestyle == HiddenChunkStyle.FILL_OCEAN)
ss = OCEAN;
else
ss = EMPTY;
}
else {
ss = ssr.ss;
}
snaparray[idx] = ss;
snaptile[idx] = ssr.tileData;
inhabitedTicks[idx] = inhabited_ticks;
endChunkLoad(startTime, ChunkStats.CACHED_SNAPSHOT_HIT);
continue;
}
// Load NTB for chunk, if it exists
NBTTagCompound nbt = loadChunkNBT(w, chunk.x, chunk.z);
if (nbt != null) {
NBTSnapshot nss = new NBTSnapshot(nbt, w.getMaxHeight());
ss = nss;
inhabited_ticks = nss.getInhabitedTicks();
if(!vis) {
if(hidestyle == HiddenChunkStyle.FILL_STONE_PLAIN)
ss = STONE;
else if(hidestyle == HiddenChunkStyle.FILL_OCEAN)
ss = OCEAN;
else
ss = EMPTY;
}
}
else {
ss = EMPTY;
}
ssr = new SnapshotRec();
ssr.ss = ss;
ssr.inhabitedTicks = inhabited_ticks;
ssr.tileData = tileData;
SnapshotCache.sscache.putSnapshot(dw.getName(), chunk.x, chunk.z, ssr, blockdata, biome, biomeraw, highesty);
snaparray[idx] = ss;
snaptile[idx] = ssr.tileData;
inhabitedTicks[idx] = inhabited_ticks;
if (ss == EMPTY)
endChunkLoad(startTime, ChunkStats.UNGENERATED_CHUNKS);
else
endChunkLoad(startTime, ChunkStats.UNLOADED_CHUNKS);
cnt++;
}
DynmapCore.setIgnoreChunkLoads(false);
if(iterator.hasNext() == false) { /* If we're done */
isempty = true;
/* Fill missing chunks with empty dummy chunk */
for(int i = 0; i < snaparray.length; i++) {
if(snaparray[i] == null)
snaparray[i] = EMPTY;
else if(snaparray[i] != EMPTY)
isempty = false;
}
}
return cnt;
}
}

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@ -4,6 +4,7 @@ include ':bukkit-helper-113'
include ':bukkit-helper-113-1'
include ':bukkit-helper-113-2'
include ':bukkit-helper-114'
include ':bukkit-helper-114-1'
include ':bukkit-helper'
include ':dynmap-api'
include ':DynmapCore'
@ -20,6 +21,7 @@ project(':bukkit-helper-113').projectDir = "$rootDir/bukkit-helper-113" as File
project(':bukkit-helper-113-1').projectDir = "$rootDir/bukkit-helper-113-1" as File
project(':bukkit-helper-113-2').projectDir = "$rootDir/bukkit-helper-113-2" as File
project(':bukkit-helper-114').projectDir = "$rootDir/bukkit-helper-114" as File
project(':bukkit-helper-114-1').projectDir = "$rootDir/bukkit-helper-114-1" as File
project(':bukkit-helper').projectDir = "$rootDir/bukkit-helper" as File
project(':dynmap-api').projectDir = "$rootDir/dynmap-api" as File
project(':DynmapCore').projectDir = "$rootDir/DynmapCore" as File

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@ -27,6 +27,9 @@ dependencies {
implementation(project(':bukkit-helper-114')) {
transitive = false
}
implementation(project(':bukkit-helper-114-1')) {
transitive = false
}
}
processResources {
@ -55,6 +58,7 @@ shadowJar {
include(dependency(':bukkit-helper-113-1'))
include(dependency(':bukkit-helper-113-2'))
include(dependency(':bukkit-helper-114'))
include(dependency(':bukkit-helper-114-1'))
}
relocate('org.bstats', 'org.dynmap.bstats')
destinationDir = file '../target'

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@ -9,6 +9,7 @@ import org.dynmap.bukkit.helper.v113.BukkitVersionHelperSpigot113;
import org.dynmap.bukkit.helper.v113_1.BukkitVersionHelperSpigot113_1;
import org.dynmap.bukkit.helper.v113_2.BukkitVersionHelperSpigot113_2;
import org.dynmap.bukkit.helper.v114.BukkitVersionHelperSpigot114;
import org.dynmap.bukkit.helper.v114_1.BukkitVersionHelperSpigot114_1;
public class Helper {
@ -34,6 +35,9 @@ public class Helper {
Log.info("Loading Glowstone support");
BukkitVersionHelper.helper = new BukkitVersionHelperGlowstone();
}
else if (v.contains("(MC: 1.14.1)")) {
BukkitVersionHelper.helper = new BukkitVersionHelperSpigot114_1();
}
else if (v.contains("(MC: 1.14)")) {
BukkitVersionHelper.helper = new BukkitVersionHelperSpigot114();
}