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Add client side handling of block endpoints
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austin 2024-11-23 22:52:52 -05:00
parent 344019885e
commit 749b9c63b4
7 changed files with 375 additions and 10 deletions
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1
docs/src/progress/renderertodo.md
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@ -1148,6 +1148,7 @@ Code formatting on queued asset classes
Refactoring server side of terrain management
Add server manager for block chunk data & management
Add endpoint to request strided block data
Add client side handling of block endpoint
# TODO

10
src/main/java/electrosphere/client/block/BlockChunkData.java
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@ -1,5 +1,7 @@
package electrosphere.client.block;
import org.joml.Vector3i;
import electrosphere.server.terrain.manager.ServerTerrainChunk;
/**
@ -273,6 +275,14 @@ public class BlockChunkData {
this.worldZ = worldZ;
}
/**
* Gets the world position of this chunk
* @return The world position
*/
public Vector3i getWorldPos(){
return new Vector3i(worldX, worldY, worldZ);
}
/**
* Gets the homogenous value for this chunk
* @return The homogenous value

296
src/main/java/electrosphere/client/block/ClientBlockManager.java Normal file
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@ -0,0 +1,296 @@
package electrosphere.client.block;
import java.nio.ByteBuffer;
import java.nio.ShortBuffer;
import java.util.Collection;
import java.util.HashMap;
import java.util.LinkedList;
import java.util.List;
import java.util.Map;
import java.util.concurrent.Semaphore;
import org.joml.Vector3i;
import electrosphere.client.scene.ClientWorldData;
import electrosphere.client.terrain.cells.ClientDrawCellManager;
import electrosphere.client.terrain.cells.DrawCell;
import electrosphere.engine.Globals;
import electrosphere.entity.Entity;
import electrosphere.logger.LoggerInterface;
import electrosphere.net.parser.net.message.TerrainMessage;
import electrosphere.renderer.meshgen.BlockMeshgen.BlockMeshData;
import electrosphere.server.terrain.manager.ServerTerrainChunk;
import electrosphere.server.terrain.manager.ServerTerrainManager;
import io.github.studiorailgun.HashUtils;
public class ClientBlockManager {
//queues messages from server
List<TerrainMessage> messageQueue = new LinkedList<TerrainMessage>();
/**
* Locks the block manager (eg if adding message from network)
*/
static Semaphore lock = new Semaphore(1);
/**
* Maximum concurrent block requests
*/
public static final int MAX_CONCURRENT_REQUESTS = 500;
/**
* Number of frames to wait before flagging a request as failed
*/
public static final int FAILED_REQUEST_THRESHOLD = 500;
//The interpolation ratio of block
public static final int INTERPOLATION_RATIO = ServerTerrainManager.SERVER_TERRAIN_MANAGER_INTERPOLATION_RATIO;
//caches chunks from server
static final int CACHE_SIZE = 2500 + (int)(ClientDrawCellManager.FULL_RES_DIST * 10) + (int)(ClientDrawCellManager.HALF_RES_DIST * 10);
/**
* Size of the cache in bytes
*/
static final int CACHE_SIZE_IN_MB = (CACHE_SIZE * ServerTerrainChunk.CHUNK_DIMENSION * ServerTerrainChunk.CHUNK_DIMENSION * ServerTerrainChunk.CHUNK_DIMENSION * 2 * 4) / 1024 / 1024;
/**
* Caches block data
*/
BlockChunkCache blockCache;
//The world data for the client
ClientWorldData clientWorldData;
//The queue of block chunk data to be buffered to gpu
// static List<TerrainChunkGenQueueItem> terrainChunkGenerationQueue = new LinkedList<TerrainChunkGenQueueItem>();
/**
* Tracks what outgoing requests are currently active
*/
Map<Long,Integer> requestedMap = new HashMap<Long,Integer>();
/**
* Used to clear the request map
*/
List<Long> toClearFailedRequests = new LinkedList<Long>();
/**
* Constructor
*/
public ClientBlockManager(){
blockCache = new BlockChunkCache();
}
/**
* Handles messages that have been received from the server
*/
public void handleMessages(){
Globals.profiler.beginCpuSample("ClientBlockManager.handleMessages");
lock.acquireUninterruptibly();
List<TerrainMessage> bouncedMessages = new LinkedList<TerrainMessage>();
for(TerrainMessage message : messageQueue){
switch(message.getMessageSubtype()){
case SENDREDUCEDBLOCKDATA: {
//construct return obj
BlockChunkData data = new BlockChunkData();
data.setWorldX(message.getworldX());
data.setWorldY(message.getworldY());
data.setWorldZ(message.getworldZ());
data.setHomogenousValue((short)message.gethomogenousValue());
//read main data
if(data.getHomogenousValue() == BlockChunkData.NOT_HOMOGENOUS){
short[] type = new short[BlockChunkData.TOTAL_DATA_WIDTH];
short[] metadata = new short[BlockChunkData.TOTAL_DATA_WIDTH];
ByteBuffer buffer = ByteBuffer.wrap(message.getchunkData());
ShortBuffer shortBuffer = buffer.asShortBuffer();
for(int i = 0; i < BlockChunkData.TOTAL_DATA_WIDTH; i++){
type[i] = shortBuffer.get();
}
for(int i = 0; i < BlockChunkData.TOTAL_DATA_WIDTH; i++){
metadata[i] = shortBuffer.get();
}
data.setType(type);
data.setMetadata(metadata);
}
blockCache.add(message.getworldX(), message.getworldY(), message.getworldZ(), message.getchunkResolution(), data);
//remove from request map
this.requestedMap.remove(this.getRequestKey(message.getworldX(), message.getworldY(), message.getworldZ(), message.getchunkResolution()));
} break;
default:
LoggerInterface.loggerEngine.WARNING("ClientBlockManager: unhandled network message of type" + message.getMessageSubtype());
break;
}
}
messageQueue.clear();
for(TerrainMessage message : bouncedMessages){
messageQueue.add(message);
}
//evaluate if any terrain chunks have failed to request
for(Long key : this.requestedMap.keySet()){
int duration = this.requestedMap.get(key);
if(duration > FAILED_REQUEST_THRESHOLD){
toClearFailedRequests.add(key);
} else {
this.requestedMap.put(key,duration + 1);
}
}
if(this.toClearFailedRequests.size() > 0){
for(Long key : toClearFailedRequests){
this.requestedMap.remove(key);
}
this.toClearFailedRequests.clear();
}
lock.release();
Globals.profiler.endCpuSample();
}
/**
* Evicts all cached blocks
*/
public void evictAll(){
this.blockCache.clear();
}
/**
* Attaches a terrain message to the queue of messages that this manager needs to process
* @param message The message
*/
public void attachTerrainMessage(TerrainMessage message){
lock.acquireUninterruptibly();
messageQueue.add(message);
lock.release();
}
/**
* Checks if the block cache contains chunk data at a given world position
* @param worldX the x position
* @param worldY the y position
* @param worldZ the z position
* @param stride The stride of the data
* @return true if the data exists, false otherwise
*/
public boolean containsChunkDataAtWorldPoint(int worldX, int worldY, int worldZ, int stride){
return blockCache.containsChunk(worldX, worldY, worldZ, stride);
}
/**
* Checks if the block cache contains chunk data at a given world position
* @param worldPos The vector containing the world-space position
* @param stride The stride of the data
* @return true if the data exists, false otherwise
*/
public boolean containsChunkDataAtWorldPoint(Vector3i worldPos, int stride){
return this.containsChunkDataAtWorldPoint(worldPos.x, worldPos.y, worldPos.z, stride);
}
/**
* Requests a chunk from the server
* @param worldX the world x coordinate of the chunk
* @param worldY the world y coordinate of the chunk
* @param worldZ the world z coordinate of the chunk
* @param stride The stride of the data
* @return true if the request was successfully sent, false otherwise
*/
public boolean requestChunk(int worldX, int worldY, int worldZ, int stride){
boolean rVal = false;
lock.acquireUninterruptibly();
if(this.requestedMap.size() < MAX_CONCURRENT_REQUESTS && !this.requestedMap.containsKey(this.getRequestKey(worldX, worldY, worldZ, stride))){
Globals.clientConnection.queueOutgoingMessage(TerrainMessage.constructRequestReducedBlockDataMessage(
worldX,
worldY,
worldZ,
stride
));
this.requestedMap.put(this.getRequestKey(worldX, worldY, worldZ, stride), 0);
rVal = true;
}
lock.release();
return rVal;
}
/**
* Gets the chunk data at a given world position
* @param worldX The x component of the world coordinate
* @param worldY The y component of the world coordinate
* @param worldZ The z component of the world coordinate
* @param stride The stride of the data
* @return The chunk data if it exists, otherwise null
*/
public BlockChunkData getChunkDataAtWorldPoint(int worldX, int worldY, int worldZ, int stride){
return blockCache.get(worldX, worldY, worldZ, stride);
}
/**
* Gets the chunk data at a given world position
* @param worldPos The world position as a joml vector
* @param stride The stride of the data
* @return The chunk data if it exists, otherwise null
*/
public BlockChunkData getChunkDataAtWorldPoint(Vector3i worldPos, int stride){
return this.getChunkDataAtWorldPoint(worldPos.x, worldPos.y, worldPos.z, stride);
}
/**
* Queues a block chunk to be pushed to GPU based on chunk data
* @param data The chunk data (triangles, normals, etc)
* @return The model path that is promised to eventually reflect the block model when it makes it to gpu
*/
public static String queueBlockGridGeneration(BlockMeshData data, DrawCell notifyTarget, Entity toDelete){
throw new UnsupportedOperationException("Unimplemented");
// String promisedHash = "";
// UUID newUUID = UUID.randomUUID();
// promisedHash = newUUID.toString();
// TerrainChunkGenQueueItem queueItem = new TerrainChunkGenQueueItem(data, promisedHash, atlas, notifyTarget, toDelete);
// lock.acquireUninterruptibly();
// terrainChunkGenerationQueue.add(queueItem);
// lock.release();
// return promisedHash;
}
/**
* Pushes all block data in queue to the gpu and registers the resulting models
*/
public static void generateBlockChunkGeometry(){
throw new UnsupportedOperationException("Unimplemented");
// Globals.profiler.beginCpuSample("ClientBlockManager.generateTerrainChunkGeometry");
// lock.acquireUninterruptibly();
// for(TerrainChunkGenQueueItem queueItem : terrainChunkGenerationQueue){
// Model terrainModel = TransvoxelModelGeneration.generateTerrainModel(queueItem.getData(), queueItem.getAtlas());
// Globals.assetManager.registerModelToSpecificString(terrainModel, queueItem.getPromisedHash());
// if(queueItem.notifyTarget != null){
// queueItem.notifyTarget.alertToGeneration();
// }
// if(queueItem.toDelete != null){
// ClientEntityUtils.destroyEntity(queueItem.toDelete);
// }
// }
// terrainChunkGenerationQueue.clear();
// lock.release();
// Globals.profiler.endCpuSample();
}
/**
* Gets all chunks in the terrain cache
* @return The collection of all chunk data objects
*/
public Collection<BlockChunkData> getAllChunks(){
return blockCache.getContents();
}
/**
* Gets the key for a given request
* @param worldX The world x coordinate
* @param worldY The world y coordinate
* @param worldZ The world z coordinate
* @param stride The stride of the data
* @return The key
*/
private Long getRequestKey(int worldX, int worldY, int worldZ, int stride){
return (long)HashUtils.cantorHash(worldY, worldZ, worldZ);
}
}

19
src/main/java/electrosphere/client/sim/ClientSimulation.java
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@ -169,11 +169,15 @@ public class ClientSimulation {
Globals.profiler.beginCpuSample("ClientSimulation.loadTerrain");
if(Globals.clientTerrainManager != null){
Globals.clientTerrainManager.handleMessages();
updateTerrainCellManager();
this.updateTerrainCellManager();
}
if(Globals.clientFluidManager != null){
Globals.clientFluidManager.handleMessages();
updateFluidCellManager();
this.updateFluidCellManager();
}
if(Globals.clientBlockManager != null){
Globals.clientBlockManager.handleMessages();
this.updateBlockCellManager();
}
Globals.profiler.endCpuSample();
}
@ -181,7 +185,7 @@ public class ClientSimulation {
/**
* Updates the terrain cell manager (specifically position handling)
*/
void updateTerrainCellManager(){
private void updateTerrainCellManager(){
///
/// C L I E N T C E L L M A N A G E R
///
@ -194,12 +198,19 @@ public class ClientSimulation {
/**
* Updates the fluid cell manager (specifically position handling)
*/
void updateFluidCellManager(){
private void updateFluidCellManager(){
//fluid work
if(Globals.fluidCellManager != null && Globals.clientWorldData != null){
Globals.fluidCellManager.update();
}
}
/**
* Updates the block cell manager
*/
private void updateBlockCellManager(){
}
/**
* Gets whether the client simulation is ready to execute

45
src/main/java/electrosphere/client/terrain/manager/ClientTerrainManager.java
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@ -3,6 +3,7 @@ package electrosphere.client.terrain.manager;
import java.nio.ByteBuffer;
import java.nio.FloatBuffer;
import java.nio.IntBuffer;
import java.nio.ShortBuffer;
import java.util.Collection;
import java.util.HashMap;
import java.util.LinkedList;
@ -13,6 +14,8 @@ import java.util.concurrent.Semaphore;
import org.joml.Vector3i;
import electrosphere.client.block.BlockChunkCache;
import electrosphere.client.block.BlockChunkData;
import electrosphere.client.scene.ClientWorldData;
import electrosphere.client.terrain.cache.ChunkData;
import electrosphere.client.terrain.cache.ClientTerrainCache;
@ -67,6 +70,11 @@ public class ClientTerrainManager {
//used for caching the macro values
ClientTerrainCache terrainCache;
/**
* Caches block data
*/
BlockChunkCache blockCache;
//The world data for the client
ClientWorldData clientWorldData;
@ -79,6 +87,11 @@ public class ClientTerrainManager {
*/
Map<Long,Integer> requestedMap = new HashMap<Long,Integer>();
/**
* Tracks what outgoing block requests are currently active
*/
Map<Long,Integer> requestedBlockMap = new HashMap<Long,Integer>();
/**
* Used to clear the request map
*/
@ -89,6 +102,7 @@ public class ClientTerrainManager {
*/
public ClientTerrainManager(){
terrainCache = new ClientTerrainCache(CACHE_SIZE);
blockCache = new BlockChunkCache();
}
@ -170,6 +184,34 @@ public class ClientTerrainManager {
//remove from request map
this.requestedMap.remove(this.getRequestKey(message.getworldX(), message.getworldY(), message.getworldZ(), message.getchunkResolution()));
} break;
case SENDREDUCEDBLOCKDATA: {
//construct return obj
BlockChunkData data = new BlockChunkData();
data.setWorldX(message.getworldX());
data.setWorldY(message.getworldY());
data.setWorldZ(message.getworldZ());
data.setHomogenousValue((short)message.gethomogenousValue());
//read main data
if(data.getHomogenousValue() == BlockChunkData.NOT_HOMOGENOUS){
short[] type = new short[BlockChunkData.TOTAL_DATA_WIDTH];
short[] metadata = new short[BlockChunkData.TOTAL_DATA_WIDTH];
ByteBuffer buffer = ByteBuffer.wrap(message.getchunkData());
ShortBuffer shortBuffer = buffer.asShortBuffer();
for(int i = 0; i < BlockChunkData.TOTAL_DATA_WIDTH; i++){
type[i] = shortBuffer.get();
}
for(int i = 0; i < BlockChunkData.TOTAL_DATA_WIDTH; i++){
metadata[i] = shortBuffer.get();
}
data.setType(type);
data.setMetadata(metadata);
}
blockCache.add(message.getworldX(), message.getworldY(), message.getworldZ(), message.getchunkResolution(), data);
//remove from request map
this.requestedBlockMap.remove(this.getRequestKey(message.getworldX(), message.getworldY(), message.getworldZ(), message.getchunkResolution()));
} break;
default:
LoggerInterface.loggerEngine.WARNING("ClientTerrainManager: unhandled network message of type" + message.getMessageSubtype());
break;
@ -179,7 +221,7 @@ public class ClientTerrainManager {
for(TerrainMessage message : bouncedMessages){
messageQueue.add(message);
}
//evaluate if any chunks have failed to request
//evaluate if any terrain chunks have failed to request
for(Long key : this.requestedMap.keySet()){
int duration = this.requestedMap.get(key);
if(duration > FAILED_REQUEST_THRESHOLD){
@ -203,6 +245,7 @@ public class ClientTerrainManager {
*/
public void evictAll(){
this.terrainCache.evictAll();
this.blockCache.clear();
}
/**

10
src/main/java/electrosphere/engine/Globals.java
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@ -13,6 +13,7 @@ import electrosphere.audio.VirtualAudioSourceManager;
import electrosphere.audio.collision.HitboxAudioService;
import electrosphere.audio.movement.MovementAudioService;
import electrosphere.auth.AuthenticationManager;
import electrosphere.client.block.ClientBlockManager;
import electrosphere.client.chemistry.ClientChemistryCollisionCallback;
import electrosphere.client.entity.particle.ParticleService;
import electrosphere.client.fluid.cells.FluidCellManager;
@ -349,11 +350,10 @@ public class Globals {
//client world data
public static ClientWorldData clientWorldData;
//client terrain manager
//client gridded manager
public static ClientTerrainManager clientTerrainManager;
//client fluid manager
public static ClientFluidManager clientFluidManager;
public static ClientBlockManager clientBlockManager;
//client player data
public static ClientPlayerData clientPlayerData = new ClientPlayerData();
@ -501,10 +501,10 @@ public class Globals {
entityDataCellMapper = new EntityDataCellMapper();
//nav mesh manager
navMeshManager = new NavMeshManager();
//terrain
//gridded managers
Globals.clientTerrainManager = new ClientTerrainManager();
//fluid
Globals.clientFluidManager = new ClientFluidManager();
Globals.clientBlockManager = new ClientBlockManager();
//game config
gameConfigDefault = electrosphere.game.data.Config.loadDefaultConfig();
gameConfigCurrent = gameConfigDefault;

4
src/main/java/electrosphere/net/client/protocol/TerrainProtocol.java
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@ -60,6 +60,10 @@ public class TerrainProtocol implements ClientProtocolTemplate<TerrainMessage> {
LoggerInterface.loggerNetworking.DEBUG("(Client) Received terrain at " + message.getworldX() + " " + message.getworldY() + " " + message.getworldZ() + " " + message.getchunkResolution());
Globals.clientTerrainManager.attachTerrainMessage(message);
} break;
case SENDREDUCEDBLOCKDATA: {
LoggerInterface.loggerNetworking.DEBUG("(Client) Received blocks at " + message.getworldX() + " " + message.getworldY() + " " + message.getworldZ() + " " + message.getchunkResolution());
Globals.clientBlockManager.attachTerrainMessage(message);
} break;
case UPDATEVOXEL: {
//
//find what all drawcells might be updated by this voxel update