Testing_Sandbox.git

			@@ -1,34 +1,11 @@
			using System;
			using System.Collections;
			using System.Collections.Generic;
			using Unity.Collections;
			using Unity.Jobs;
			using Unity.VisualScripting;
			using UnityEngine;
			using UnityEngine.Tilemaps;
			using UnityEngine.UIElements;
			using static UnityEditor.Progress;

			//[Serializable]
			//public class Ore
			//{
			// public string name;
			// /// <summary>
			// /// The lower the numer the higher the amount of ores that will spawn
			// /// Higher number means less ore
			// /// </summary>
			// [Tooltip("The lower the numer the higher the amount of ores that will spawn. Higher number means less ore.")]
			// [Range(1, 100000)]
			// public int weight;
			// /// <summary>
			// /// The lower the number the more dense the ore will spawn (big clusters
			// /// Higher number means little clusters (more spread)
			// /// </summary>
			// [Tooltip("The lower the number the more dense the ore will spawn (big clusters. Higher number means little clusters (more spread).")]
			// [Range(10, 100000)]
			// public int clusterWeight;
			// public CustomRuleTile tile;
			// public int maxSpawnHeight;
			// public int minSpawnHeight;
			//}

			public class GenerateTileMap : MonoBehaviour
			{
			@@ -38,17 +15,20 @@
			public static int groundDepth = 256;
			private float scale;
			private float offsetX;
			private float offsetY;
			private float offsetY;
			private NativeArray<float> perlinNoiseCache;
			Tilemap tilemap;
			public CustomRuleTile forestRuleTile;
			public TileBase borderTile;
			private List<Generateable> generateables;

			//public List<TileBase> tiles;
			public const int CHUNK_SIZE = 16; // Size of each chunk
			public const int LOAD_DISTANCE = 2; // Number of chunks to load around player
			public int LOAD_DISTANCE = 2; // Number of chunks to load around player
			private const int CACHE_CLEAR_DISTANCE = 8; // Distance in chunks before clearing cache (should be > LOAD_DISTANCE)
			private Vector2Int lastCacheClearPosition; // Track position where cache was last cleared

			private Dictionary<Vector2Int, bool> loadedChunks = new Dictionary<Vector2Int, bool>();
			private Dictionary<Vector2Int, TileBase[]> chunkCache = new Dictionary<Vector2Int, TileBase[]>();
			private Transform playerTransform; // Reference to player/camera
			private Vector2Int lastLoadedChunk;
			private GameManager gameManager;
			@@ -76,23 +56,18 @@
			private void Update()
			{
			if (playerTransform == null) return;
			Debug.Log($"Player Position: {playerTransform.position}");
			//Debug.Log($"Player Position: {playerTransform.position}");
			Vector2Int currentChunk = GetChunkPosition(playerTransform.position);
			Debug.Log($"Current Chunk: {currentChunk}");
			//Debug.Log($"Current Chunk: {currentChunk}");
			if (currentChunk != lastLoadedChunk)
			{
			StartCoroutine(UpdateLoadedChunks(currentChunk));
			lastLoadedChunk = currentChunk;
			// Check if we need to clear the cache
			ClearDistantChunks(currentChunk);
			}
			}
			// When a tile is destroyed in a chunk, update GameManager's list
			private void AddDestroyedTile(Vector3Int tilePos)
			{
			if (!gameManager.destroyedTiles.Contains(tilePos))
			{
			gameManager.destroyedTiles.Add(tilePos);
			}
			}


			// When checking if a tile is destroyed, use GameManager's list
			private bool IsTileDestroyed(Vector3Int tilePos)
			@@ -178,6 +153,7 @@

			UnityEngine.Random.state = randomState;

			CachePerlinNoise();
			}

			private int GenerateSeed(int size)
			@@ -190,6 +166,19 @@
			chars[i] = seedNumbers[rand.Next(seedNumbers.Length)];
			}
			return int.Parse(new string(chars));
			}
			private void CachePerlinNoise()
			{
			perlinNoiseCache = new NativeArray<float>(maxWidth * maxDepth, Allocator.Persistent);
			for (int x = 0; x < maxWidth; x++)
			{
			for (int y = 0; y < maxDepth; y++)
			{
			float xPerlin = ((float)x / maxWidth) * scale + offsetX;
			float yPerlin = ((float)Math.Abs(y) / groundDepth) * scale + offsetY;
			perlinNoiseCache[x * groundDepth + y] = Mathf.PerlinNoise(xPerlin, yPerlin);
			}
			}
			}

			public IEnumerator GenerateTiles(Action finishedCallback, List<Vector3Int> destroyedTiles)
			@@ -207,7 +196,7 @@
			{
			// Adjust for tilemap offset
			float adjustedX = worldPosition.x - transform.position.x;
			float adjustedY = worldPosition.y - transform.position.y;
			float adjustedY = (worldPosition.y - transform.position.y) + CHUNK_SIZE;

			return new Vector2Int(
			Mathf.FloorToInt(adjustedX / CHUNK_SIZE),
			@@ -223,47 +212,155 @@
			Vector2Int chunkPos = new Vector2Int(centerChunk.x + x, centerChunk.y + y);
			if (!loadedChunks.ContainsKey(chunkPos))
			{
			yield return GenerateChunk(chunkPos, destroyedTiles);
			if (chunkCache.ContainsKey(chunkPos))
			{
			// Load the chunk from the cache
			yield return LoadChunkFromCache(chunkPos);
			}
			else
			{
			// Generate the chunk
			yield return GenerateChunk(chunkPos, destroyedTiles);
			}
			loadedChunks[chunkPos] = true;
			}
			}
			}
			}
			private IEnumerator GenerateChunk(Vector2Int chunk, List<Vector3Int> destroyedTiles)

			private IEnumerator LoadChunkFromCache(Vector2Int chunk)
			{
			int startX = chunk.x * CHUNK_SIZE;
			int startY = (chunk.y * CHUNK_SIZE)-1;
			int startY = (chunk.y * CHUNK_SIZE) - 1;

			// Generate ground in chunk
			for (int x = startX; x < startX + CHUNK_SIZE; x++)
			if (chunkCache.TryGetValue(chunk, out TileBase[] cachedTiles))
			{
			if (x < 1 \|\| x >= maxWidth) continue;

			for (int y = startY; y > startY - CHUNK_SIZE; y--)
			for (int i = 0; i < cachedTiles.Length; i++)
			{
			if (y < -groundDepth \|\| y >= 0) continue;
			int x = startX + (i % CHUNK_SIZE);
			int y = startY - (i / CHUNK_SIZE);
			Vector3Int tilePos = new Vector3Int(x, y);
			if (IsTileDestroyed(tilePos))
			continue;

			float xPerlin = ((float)x / maxWidth) * scale + offsetX;
			float yPerlin = ((float)Mathf.Abs(y) / maxDepth) * scale + offsetY;
			float perlinNoise = Mathf.PerlinNoise(xPerlin, yPerlin);

			if (perlinNoise <= 0.7f)
			if (!IsTileDestroyed(tilePos))
			{
			tilemap.SetTile(tilePos, forestRuleTile);
			tilemap.SetTile(tilePos, cachedTiles[i]);
			}
			}
			}
			yield return null;
			}
			private void ClearDistantChunks(Vector2Int currentChunk)
			{
			// If this is the first time, initialize the last clear position
			if (lastCacheClearPosition == default)
			{
			lastCacheClearPosition = currentChunk;
			return;
			}

			// Generate ores in chunk
			// Calculate distance moved since last cache clear
			int distanceMoved = Mathf.Max(
			Mathf.Abs(currentChunk.x - lastCacheClearPosition.x),
			Mathf.Abs(currentChunk.y - lastCacheClearPosition.y)
			);

			// If we've moved far enough, clear distant chunks from cache
			if (distanceMoved >= CACHE_CLEAR_DISTANCE)
			{
			List<Vector2Int> chunksToRemove = new List<Vector2Int>();

			foreach (var chunk in chunkCache.Keys)
			{
			int distanceToPlayer = Mathf.Max(
			Mathf.Abs(chunk.x - currentChunk.x),
			Mathf.Abs(chunk.y - currentChunk.y)
			);

			// Remove chunks that are far from current position
			if (distanceToPlayer > LOAD_DISTANCE * 2)
			{
			chunksToRemove.Add(chunk);
			}
			}

			// Remove the distant chunks from cache
			foreach (var chunk in chunksToRemove)
			{
			chunkCache.Remove(chunk);
			}

			lastCacheClearPosition = currentChunk;
			Debug.Log($"Cleared {chunksToRemove.Count} chunks from cache. Current cache size: {chunkCache.Count}");
			}
			}
			private IEnumerator GenerateChunk(Vector2Int chunk, List<Vector3Int> destroyedTiles)
			{
			int startX = chunk.x * CHUNK_SIZE;
			int startY = (chunk.y * CHUNK_SIZE) - 1;
			// Check if the chunk is already in the cache
			LoadChunkFromCache(chunk);

			// Create job data
			var groundJob = new GenerateGroundJob
			{
			chunkStartX = startX,
			chunkStartY = startY,
			chunkSize = CHUNK_SIZE,
			maxWidth = maxWidth,
			groundDepth = groundDepth,
			scale = scale,
			offsetX = offsetX,
			offsetY = offsetY,
			groundTiles = new NativeArray<bool>(CHUNK_SIZE * CHUNK_SIZE, Allocator.TempJob),
			perlinNoiseCache = perlinNoiseCache
			};

			// Schedule the job
			JobHandle groundJobHandle = groundJob.Schedule(CHUNK_SIZE * CHUNK_SIZE, 64);

			// Wait for the job to complete
			yield return new WaitUntil(() => groundJobHandle.IsCompleted);

			// Apply the results
			groundJobHandle.Complete();
			TileBase[] newChunkTiles = new TileBase[CHUNK_SIZE * CHUNK_SIZE];
			for (int i = 0; i < CHUNK_SIZE * CHUNK_SIZE; i++)
			{
			if (groundJob.groundTiles[i])
			{
			int x = startX + (i % CHUNK_SIZE);
			int y = startY - (i / CHUNK_SIZE);
			Vector3Int tilePos = new Vector3Int(x, y);

			if (!IsTileDestroyed(tilePos))
			{
			tilemap.SetTile(tilePos, forestRuleTile);
			newChunkTiles[i] = forestRuleTile;
			}
			else
			{
			newChunkTiles[i] = null;
			}
			}
			else
			{
			newChunkTiles[i] = null;
			}
			}

			// Save the generated chunk to the cache
			chunkCache[chunk] = newChunkTiles;

			// Clean up native array
			groundJob.groundTiles.Dispose();

			// Generate ores
			if (generateables != null)
			{
			yield return GenerateOresInChunk(chunk, destroyedTiles);
			}
			// Don't generate borders for each chunk
			// Only generate borders when at world edges

			// Generate borders when needed
			if (startX == 0 \|\| startX + CHUNK_SIZE >= maxWidth \|\|
			startY == 0 \|\| startY - CHUNK_SIZE <= -groundDepth)
			{
			@@ -271,34 +368,6 @@
			}
			}

			//private IEnumerator CreateGroundLayer(List<Vector3Int> destroyedTiles)
			//{
			// for (int x = 1; x < maxWidth; x++)
			// {
			// for (int y = -1; y > -groundDepth; y--)
			// {
			// float xPerlin = ((float)x / maxWidth) * scale + offsetX;
			// float yPerlin = ((float)Mathf.Abs(y) / maxDepth) * scale + offsetY;
			// float perlinNoise = Mathf.PerlinNoise(xPerlin, yPerlin);

			// if (perlinNoise <= 0.7f)
			// {
			// Vector3Int tileSpawnCoord = new Vector3Int(x, y);
			// if (!destroyedTiles.Contains(tileSpawnCoord))
			// {
			// tilemap.SetTile(tileSpawnCoord, forestRuleTile);
			// }
			// }

			// }

			// // Update UI every 8 lines
			// if ((x % 8) == 0)
			// {
			// yield return null;
			// }
			// }
			//}
			private IEnumerator GenerateOresInChunk(Vector2Int chunk, List<Vector3Int> destroyedTiles)
			{
			int startX = chunk.x * CHUNK_SIZE;
			@@ -309,18 +378,26 @@
			// Convert spawn heights to negative values if they aren't already
			int maxY = -Mathf.Abs(generateable.maxSpawnHeight);
			int minY = -Mathf.Abs(generateable.minSpawnHeight);
			// Changed condition: Check if the chunk's Y range overlaps with ore spawn range
			int chunkMaxY = startY;
			int chunkMinY = startY - CHUNK_SIZE;

			// Only process this chunk if it's within the ore's spawn height range
			if (startY < maxY && startY > minY)
			if (chunkMinY <= maxY && chunkMaxY >= minY)
			{
			for (int x = startX; x < startX + CHUNK_SIZE; x++)
			{
			if (x >= maxWidth) continue;

			for (int y = Mathf.Max(startY - CHUNK_SIZE, minY); y < Mathf.Min(startY, maxY); y++)
			// Adjusted Y range calculation
			int rangeStart = Mathf.Max(chunkMinY, minY);
			int rangeEnd = Mathf.Min(chunkMaxY, maxY);

			for (int y = rangeStart; y <= rangeEnd; y++)
			{
			float xPerlin = ((float)x / maxWidth) * (float)generateable.clusterWeight + offsetX;
			float yPerlin = ((float)Mathf.Abs(y) / maxDepth) * (float)generateable.clusterWeight + offsetY;

			float perlinNoise = Mathf.PerlinNoise(xPerlin, yPerlin);

			if (perlinNoise <= (1f / (float)generateable.weight))
			@@ -328,7 +405,6 @@
			Vector3Int tileSpawnCoord = new Vector3Int(x, y);
			if (!destroyedTiles.Contains(tileSpawnCoord) && tilemap.HasTile(tileSpawnCoord))
			{
			// Check potential cluster size before placing
			int clusterSize = CountPotentialClusterSize(x, y, generateable.weight, generateable.clusterWeight);
			if (clusterSize >= generateable.minClusterSize)
			{
			@@ -347,49 +423,6 @@
			}
			}
			}

			//private IEnumerator GenerateOreClusters(List<Vector3Int> destroyedTiles)
			//{
			// foreach (Generateable generateable in generateables)
			// {
			// // Convert spawn heights to negative values if they aren't already
			// int maxY = -Mathf.Abs(generateable.maxSpawnHeight);
			// int minY = -Mathf.Abs(generateable.minSpawnHeight);
			// Debug.Log($"Generating {generateable.name} between Y: {minY} - {maxY}");
			// for (int x = 0; x < maxWidth; x++)
			// {
			// for (int y = maxY; y > minY; y--)
			// {
			// float xPerlin = ((float)x / maxWidth) * (float)generateable.clusterWeight + offsetX;
			// float yPerlin = ((float)Mathf.Abs(y) / maxDepth) * (float)generateable.clusterWeight + offsetY;
			// float perlinNoise = Mathf.PerlinNoise(xPerlin, yPerlin);

			// if (perlinNoise <= (1f / (float)generateable.weight))
			// {
			// Vector3Int tileSpawnCoord = new Vector3Int(x, y);
			// if (!destroyedTiles.Contains(tileSpawnCoord) && tilemap.HasTile(tileSpawnCoord))
			// {
			// // Check potential cluster size before placing
			// int clusterSize = CountPotentialClusterSize(x, y, generateable.weight, generateable.clusterWeight);
			// if (clusterSize >= generateable.minClusterSize)
			// {
			// tilemap.SetTile(tileSpawnCoord, generateable.tile);
			// }
			// //tilemap.SetTile(tileSpawnCoord, generateable.tile);
			// }
			// }

			// }

			// // Update UI every 8 lines
			// if ((x % 8) == 0)
			// {
			// yield return null;
			// }
			// }
			// }
			//}

			private IEnumerator GenerateBorders()
			{
			// Vertical borders (going up from underground to sky)
			@@ -452,6 +485,15 @@

			return size;
			}
			private void OnDestroy()
			{
			if (perlinNoiseCache.IsCreated)
			{
			perlinNoiseCache.Dispose();
			}
			chunkCache.Clear();
			}
			#if UNITY_EDITOR
			private void OnDrawGizmos()
			{
			if (!Application.isPlaying) return;
			@@ -473,12 +515,20 @@
			0
			);

			// Draw chunk boundary
			Gizmos.DrawWireCube(
			worldPos + new Vector3(CHUNK_SIZE / 2f, -CHUNK_SIZE / 2f, 0),
			new Vector3(CHUNK_SIZE, CHUNK_SIZE, 0)
			);

			// Draw chunk coordinates
			UnityEditor.Handles.Label(
			worldPos + new Vector3(CHUNK_SIZE / 2f, -CHUNK_SIZE / 2f, 0),
			$"({chunk.x}, {chunk.y})"
			);
			}
			}
			}
			}
			#endif
			}