Test array texture

LandblockExtraction/AtlasMaker/TerrainAtlasManager.cs

@@ -5,6 +5,7 @@ using System.Numerics;
 
 namespace LandblockExtraction.AtlasMaker;
 public class TerrainAtlasManager {
+    private readonly string PATHTERRAINIMG = @".\terrains";
     private PortalEngine portalEngine;
 
     public Dictionary<int, Vector2> textureCoord;
@@ -51,6 +52,17 @@ public class TerrainAtlasManager {
             }
         }
     }
+    public void SaveAllTerrain() {
+        if (!Directory.Exists(PATHTERRAINIMG)) {
+            Directory.CreateDirectory(PATHTERRAINIMG);
+        }
+
+        foreach(var img in terrainTexture) {
+            var path = Path.Combine(PATHTERRAINIMG, img.Key.ToString());
+
+            img.Value.Write(path + ".jpg");
+        }
+    }
     private int? GetIndexBySurface(uint surfaceIndex) {
         foreach(var terrain in portalEngine.cTerrainDesc.terrains) {
             if (terrain.surfaceInfo == surfaceIndex)

LandblockExtraction/AtlasMaker/TexturesImage.cs

@@ -40,7 +40,7 @@ public class TexturesImage {
             if (!portalEngine.datReader.contains(img)) continue;
             using (var data = portalEngine.datReader.getFileReader(img)) {
                 var image = new RenderSurface(data);
-                if (image.width != 64) continue;
+                if (image.width != 256) continue;
                 var dataImg = DDSHeader.Generate(image);
                 using (MagickImage realImg = new MagickImage(dataImg)) {
                     magickImage = new(realImg);

LandblockExtraction/LandBlockExtractor/LandBlockExtrator.cs

@@ -2,6 +2,7 @@
 using LandblockExtraction.AtlasMaker;
 using LandblockExtraction.DatEngine;
 using LandblockExtraction.Tools;
+using System;
 using System.Numerics;
 
 namespace LandblockExtraction.LandBlockExtractor {
@@ -21,6 +22,7 @@ namespace LandblockExtraction.LandBlockExtractor {
             terrainAtlasManager = new TerrainAtlasManager(portalEngine);
             terrainAtlasManager.ExtractTexture();
             terrainAtlasManager.GenerateUV();
+            terrainAtlasManager.SaveAllTerrain();
         }
 
         public BlockStruct? GetBlock(int landX, int landY) {
@@ -40,15 +42,106 @@ namespace LandblockExtraction.LandBlockExtractor {
                     blockStruct.verticesStruct.color[indice] = GenerateVertexColor(blockData.cellInfos[indice]);
                     blockStruct.verticesStruct.farcolor[indice] = GenerateVertexFarColor(blockData.cellInfos[indice]);
                     blockStruct.verticesStruct.terraintype[indice] = GenerateVertexTerrainType(blockData.cellInfos[indice]);
+                    blockStruct.verticesStruct.texturecoord[indice] = GenerateUVForSubTile(x, y);
                     blockStruct.indices = GenerateBasicIndices();
+
+                }
+            }
+            //blockStruct.verticesStruct.texturecoord = GenerateBasicUVTest(blockStruct);
+            blockStruct.verticesStruct.normal = GenerateBasicNormal(blockStruct);
+            //DoubleEdgeVertices(blockStruct);
+
+            Dictionary<int, int> testTerr = new Dictionary<int, int>();
+            foreach (var test in blockStruct.verticesStruct.terraintype) {
+                var type = (int)test.X;
+                if (testTerr.ContainsKey(type)) {
+                    testTerr[type]++;
+                } else {
+                    testTerr.Add(type, 1);
                 }
             }
 
-            DoubleEdgeVertices(blockStruct);
-
             return blockStruct;
         }
 
+        private Vector2 GenerateBasicUV(int x, int y) {
+            float u = (float)x / (BlockSize - 1) * 8;
+            float v = (float)y / (BlockSize - 1) * 8;
+
+            return new Vector2(u, v);
+        }
+        private Vector2 GenerateUVForSubTile(int x, int y) {
+            // Taille d'une "mini-tuile" en termes de coordonnées UV
+            float miniTileSize = 1f / BlockSize - 1; // Comme la sous-grille est 5x5
+
+            // Calcul des coordonnées UV basées sur la position (x, y) dans la sous-grille
+            float u = x * miniTileSize;
+            float v = y * miniTileSize;
+
+            return new Vector2(u, v);
+        }
+        private Vector2[] GenerateBasicUVTest(BlockStruct blockStruct) {
+            Vector2[] uvs = new Vector2[blockStruct.verticesStruct.position.Length];
+
+            for (int i = 0; i < uvs.Length; i++) {
+                uvs[i] = new Vector2(0, 0);
+            }
+
+            for (int i = 0; i < blockStruct.indices.Length; i += 6) {
+                int index1 = blockStruct.indices[i];
+                int index2 = blockStruct.indices[i + 1];
+                int index3 = blockStruct.indices[i + 2];
+                int index4 = blockStruct.indices[i + 5];
+
+                uvs[index1] = new(0, 0);
+                uvs[index2] = new(0, 1);
+                uvs[index3] = new(1, 0);
+                uvs[index4] = new(1, 1);
+            }
+
+            return uvs;
+        }
+        private Vector3[] GenerateBasicNormal(BlockStruct blockStruct) {
+            Vector3[] normals = new Vector3[blockStruct.verticesStruct.position.Length];
+
+            // Initialise tous les vecteurs normaux à zéro
+            for (int i = 0; i < normals.Length; i++) {
+                normals[i] = new Vector3(0, 0, 0);
+            }
+
+            // Parcourt tous les indices et calcule les normales pour chaque triangle
+            for (int i = 0; i < blockStruct.indices.Length; i += 6) {
+                int index1 = blockStruct.indices[i];
+                int index2 = blockStruct.indices[i + 1];
+                int index3 = blockStruct.indices[i + 2];
+                int index4 = blockStruct.indices[i + 5];
+
+                Vector3 vertex1 = blockStruct.verticesStruct.position[index1];
+                Vector3 vertex2 = blockStruct.verticesStruct.position[index2];
+                Vector3 vertex3 = blockStruct.verticesStruct.position[index3];
+                Vector3 vertex4 = blockStruct.verticesStruct.position[index4];
+
+                // Calcule la normale du triangle
+                /*Vector3 edge1 = vertex2 - vertex1;
+                Vector3 edge2 = vertex3 - vertex1;
+                Vector3 normal = Vector3.Cross(edge1, edge2);
+                normal = Vector3.Normalize(normal);*/
+                var normal = MathOperations.CalculateQuadNormal(vertex1, vertex2, vertex3, vertex4);
+                // Ajoute la normale du triangle aux normales des sommets du triangle
+                normals[index1] += normal;
+                normals[index2] += normal;
+                normals[index3] += normal;
+                normals[index4] += normal;
+            }
+
+            // Normalise toutes les normales de sommets pour qu'elles soient de longueur unitaire
+            for (int i = 0; i < normals.Length; i++) {
+                normals[i] = Vector3.Normalize(normals[i]);
+            }
+
+            return normals;
+        }
+
         private int[] GenerateBasicIndices() {
             List<int> indices = new List<int>();
 
@@ -147,7 +240,7 @@ namespace LandblockExtraction.LandBlockExtractor {
                                                 blockStruct.verticesStruct.terraintype[foor].X));
                 newRealTerrainType.Add(blockStruct.verticesStruct.terraintype[one].X);
 
-                newPositions.Add(blockStruct.verticesStruct.position[two]);
+                /*newPositions.Add(blockStruct.verticesStruct.position[two]);
                 newColors.Add(blockStruct.verticesStruct.color[two]);
                 newFarColors.Add(blockStruct.verticesStruct.farcolor[two]);
                 newTerrainTypes.Add(new Vector4(blockStruct.verticesStruct.terraintype[one].X,
@@ -178,7 +271,7 @@ namespace LandblockExtraction.LandBlockExtractor {
                 newTexCoord.Add(new(0, 0));
                 newTexCoord.Add(new(0, 1));
                 newTexCoord.Add(new(1, 0));
-                newTexCoord.Add(new(1, 1));
+                newTexCoord.Add(new(1, 1));*/
 
                 var normal = MathOperations.CalculateQuadNormal(blockStruct.verticesStruct.position[one],
                                                                 blockStruct.verticesStruct.position[two],
@@ -186,9 +279,9 @@ namespace LandblockExtraction.LandBlockExtractor {
                                                                 blockStruct.verticesStruct.position[foor]);
 
                 newNormals.Add(normal);
-                newNormals.Add(normal);
+                //newNormals.Add(normal);
-                newNormals.Add(normal);
+                //newNormals.Add(normal);
-                newNormals.Add(normal);
+                //newNormals.Add(normal);
             }
 
             // Ajouter les nouveaux sommets à la structure BlockStruct (étape 2)

Map3DRendering/Common/Shader.cs

@@ -1,7 +1,11 @@
-using OpenTK.Graphics.OpenGL4;
+using System;
+using System.IO;
+using System.Text;
+using System.Collections.Generic;
+using OpenTK.Graphics.OpenGL4;
 using OpenTK.Mathematics;
 
-namespace Map3DRendering.Common {
+namespace Map3DRendering {
     // A simple class meant to help create shaders.
     public class Shader {
         public readonly int Handle;
@@ -163,18 +167,9 @@ namespace Map3DRendering.Common {
         /// </summary>
         /// <param name="name">The name of the uniform</param>
         /// <param name="data">The data to set</param>
-        public void SetVector2(string name, Vector2 data) {
-            GL.UseProgram(Handle);
-            GL.Uniform2(_uniformLocations[name], data);
-        }
         public void SetVector3(string name, Vector3 data) {
             GL.UseProgram(Handle);
             GL.Uniform3(_uniformLocations[name], data);
         }
-
-        public void SetVector4(string name, Vector4 data) {
-            GL.UseProgram(Handle);
-            GL.Uniform4(_uniformLocations[name], data);
-        }
     }
-}
+}

Map3DRendering/Common/Texture.cs

@@ -1,7 +1,11 @@
 using OpenTK.Graphics.OpenGL4;
+using System.Drawing;
+using System.Drawing.Imaging;
+using PixelFormat = OpenTK.Graphics.OpenGL4.PixelFormat;
 using StbImageSharp;
+using System.IO;
 
-namespace Map3DRendering.Common {
+namespace Map3DRendering {
     // A helper class, much like Shader, meant to simplify loading textures.
     public class Texture {
         public readonly int Handle;
@@ -64,6 +68,42 @@ namespace Map3DRendering.Common {
 
             return new Texture(handle);
         }
+        public static Texture LoadFromArray(string[] paths) {
+            // Générer un identifiant de texture
+            int handle = GL.GenTexture();
+
+            // Activer la texture
+            GL.ActiveTexture(TextureUnit.Texture0);
+            GL.BindTexture(TextureTarget.Texture2DArray, handle);
+
+            // Ici, nous supposons que toutes les images ont les mêmes dimensions et le même format
+            // Charger la première image pour obtenir les dimensions
+            ImageResult firstImage = ImageResult.FromStream(File.OpenRead(paths[0]), ColorComponents.RedGreenBlueAlpha);
+            int width = firstImage.Width;
+            int height = firstImage.Height;
+
+            // Initialiser la texture 2D array sans lui passer de données pour l'instant
+            GL.TexImage3D(TextureTarget.Texture2DArray, 0, PixelInternalFormat.Rgba, width, height, paths.Length, 0, PixelFormat.Rgba, PixelType.UnsignedByte, IntPtr.Zero);
+
+            // Charger chaque texture dans l'array
+            for (int i = 0; i < paths.Length; i++) {
+                using (Stream stream = File.OpenRead(paths[i])) {
+                    ImageResult image = ImageResult.FromStream(stream, ColorComponents.RedGreenBlueAlpha);
+                    GL.TexSubImage3D(TextureTarget.Texture2DArray, 0, 0, 0, i, width, height, 1, PixelFormat.Rgba, PixelType.UnsignedByte, image.Data);
+                }
+            }
+
+            // Paramètres de texture
+            GL.TexParameter(TextureTarget.Texture2DArray, TextureParameterName.TextureMinFilter, (int)TextureMinFilter.Linear);
+            GL.TexParameter(TextureTarget.Texture2DArray, TextureParameterName.TextureMagFilter, (int)TextureMagFilter.Linear);
+            GL.TexParameter(TextureTarget.Texture2DArray, TextureParameterName.TextureWrapS, (int)TextureWrapMode.ClampToEdge);
+            GL.TexParameter(TextureTarget.Texture2DArray, TextureParameterName.TextureWrapT, (int)TextureWrapMode.ClampToEdge);
+
+            // Générer des mipmaps pour la texture array
+            GL.GenerateMipmap(GenerateMipmapTarget.Texture2DArray);
+
+            return new Texture(handle);
+        }
 
         public Texture(int glHandle) {
             Handle = glHandle;
@@ -77,10 +117,9 @@ namespace Map3DRendering.Common {
             GL.ActiveTexture(unit);
             GL.BindTexture(TextureTarget.Texture2D, Handle);
         }
-
+        public void UseArray(TextureUnit unit) {
-        public void Assign(int shader, int i) {
+            GL.ActiveTexture(unit);
-            int location = GL.GetUniformLocation(shader, "textures[" + i.ToString() + "]");
+            GL.BindTexture(TextureTarget.Texture2DArray, Handle);
-            GL.Uniform1(location, i);
         }
     }
-}
+}

Map3DRendering/Program.cs

@@ -6,7 +6,7 @@ namespace Map3DRendering {
     public static class Program {
         private static void Main() {
             var nativeWindowSettings = new NativeWindowSettings() {
-                Size = new Vector2i(800, 600),
+                ClientSize = new Vector2i(800, 600),
                 Title = "LearnOpenTK - Map AC2",
                 // This is needed to run on macos
                 Flags = ContextFlags.ForwardCompatible,

Map3DRendering/Shaders/shader.frag

@@ -2,11 +2,13 @@
 
 out vec4 outputColor;
 
+uniform sampler2DArray texture0;
+
 uniform vec3 viewPos;
 uniform vec3 lightPos;
 uniform vec3 lightColor;
-uniform sampler2D texture0;
 
+in vec4 Color;
 in vec4 FarColor;
 in vec3 Normal;
 in vec3 FragPos;
@@ -16,40 +18,17 @@ in float RealType;
 
 void main()
 {
-    float tileSize = 64.0 / 512.0;
+    vec4 color0 = texture(texture0, vec3(TexCoord, TexType.x));
-
-    float baseWeight = 0.2;
-    float dominantWeight = 0.4;
-
-    vec4 weights = vec4(baseWeight);
-    vec2 uvOffsets[4];
-    for (int i = 0; i < 4; i++) {
-        float type = TexType[i];
-        uvOffsets[i] = vec2(mod(type, 8.0), floor(type / 8.0)) * tileSize;
-        if (type == RealType) {
-            weights[i] = dominantWeight;
-        }
-    }
-
-    vec4 blendedColor[4];
-    for (int i = 0; i < 4; i++) {
-        vec2 uv = TexCoord * tileSize + uvOffsets[i];
-        blendedColor[i] = texture(texture0, uv);
-    }
-
-    float weightX = TexCoord.x;
-    float weightY = TexCoord.y;
-
-    vec4 mix1 = mix(blendedColor[0], blendedColor[2], weightX);
-    vec4 mix2 = mix(blendedColor[1], blendedColor[3], weightX);
-    vec4 finalColor = mix(mix1, mix2, weightY);
 
     vec3 norm = normalize(Normal);
+
+    vec4 finalColor = color0; //mix(color0, color1, norm.y);
+
     vec3 lightDir = normalize(lightPos - FragPos);
     float diff = max(dot(norm, lightDir), 0.0);
     vec3 diffuse = diff * lightColor;
 
-    vec4 litColor = vec4(diffuse, 1.0) * finalColor;
+    vec4 litColor = vec4(diffuse, 1.0) * finalColor * Color;
 
     float distance = length(viewPos - FragPos);
     float interpolationFactor = clamp(distance / 1000.0, 0.0, 1.0);

Map3DRendering/Window.cs

@@ -53,16 +53,22 @@ namespace Map3DRendering {
             _shader.Use();
 
             mapRender.OnLoad(_shader);
-            _texture = Texture.LoadFromFile("atlas.jpg");
+
-            _texture.Use(TextureUnit.Texture0);
+            var file = Directory.EnumerateFiles(@"./terrains");
+
+            _texture = Texture.LoadFromArray(file.ToArray());
+            // Texture units are explained in Texture.cs, at the Use function.
+            // First texture goes in texture unit 0.
+            _texture.UseArray(TextureUnit.Texture0);
+
 
             axesGizmo = new AxesGizmo();
 
             _camera = new Camera(Vector3.UnitY * 300, Size.X / (float)Size.Y);
             _camera.Fov = 60;
             //CursorState = CursorState.Grabbed;
-            GL.TexParameter(TextureTarget.Texture2D, TextureParameterName.TextureWrapS, (int)TextureWrapMode.Repeat);
+            //GL.TexParameter(TextureTarget.Texture2D, TextureParameterName.TextureWrapS, (int)TextureWrapMode.Repeat);
-            GL.TexParameter(TextureTarget.Texture2D, TextureParameterName.TextureWrapT, (int)TextureWrapMode.Repeat);
+            //GL.TexParameter(TextureTarget.Texture2D, TextureParameterName.TextureWrapT, (int)TextureWrapMode.Repeat);
             _lightPosVec = Vector3.UnitY * 1000;
         }
 
@@ -73,8 +79,8 @@ namespace Map3DRendering {
 
             GL.Clear(ClearBufferMask.ColorBufferBit | ClearBufferMask.DepthBufferBit);
 
+            _texture.UseArray(TextureUnit.Texture0);
             _shader.Use();
-            _texture.Use(TextureUnit.Texture0);
 
             _shader.SetMatrix4("view", _camera.GetViewMatrix());
             _shader.SetMatrix4("projection", _camera.GetProjectionMatrix());
@@ -82,6 +88,7 @@ namespace Map3DRendering {
             //_shader.SetVector3("objectColor", new Vector3(0.5f, 0.5f, 0.5f));
             _shader.SetVector3("lightColor", new Vector3(1.0f, 1.0f, 1.0f));
             _shader.SetVector3("lightPos", _lightPosVec);
+            
             //_shader.SetVector3("viewPos", _camera.Position);
 
             GL.LineWidth(5.0f);