private Ai.Node ConvertNode(Model model, Node node, Ai.Node aiParent)
{
var aiNode = new Ai.Node(AssimpConverterCommon.EscapeName(node.Name), aiParent)
{
Transform = new Ai.Matrix4x4(node.LocalTransform.M11, node.LocalTransform.M21, node.LocalTransform.M31, node.LocalTransform.M41,
node.LocalTransform.M12, node.LocalTransform.M22, node.LocalTransform.M32, node.LocalTransform.M42,
node.LocalTransform.M13, node.LocalTransform.M23, node.LocalTransform.M33, node.LocalTransform.M43,
node.LocalTransform.M14, node.LocalTransform.M24, node.LocalTransform.M34, node.LocalTransform.M44)
};
if (node.HasProperties)
{
ConvertNodeProperties(node.Properties, aiNode);
}
if (node.HasAttachments)
{
ConvertNodeAttachments(model, node, aiNode);
}
if (node.HasChildren)
{
foreach (var childNode in node.Children)
{
aiNode.Children.Add(ConvertNode(model, childNode, aiNode));
}
}
return(aiNode);
}
private static void ProcessAssimpNodeMeshesRecursively(Ai.Node aiNode, Ai.Scene aiScene, Dictionary <string, NodeInfo> nodeLookup, ref int nextBoneIndex, Dictionary <int, List <int> > nodeToBoneIndices, List <Matrix4x4> boneInverseBindMatrices, List <Vector3> transformedVertices, ModelConverterOptions options)
{
if (aiNode.HasMeshes)
{
var nodeInfo = nodeLookup[AssimpConverterCommon.UnescapeName(aiNode.Name)];
var node = nodeInfo.Node;
var nodeWorldTransform = node.WorldTransform;
Matrix4x4.Invert(nodeWorldTransform, out var nodeInverseWorldTransform);
foreach (var aiMeshIndex in aiNode.MeshIndices)
{
var aiMesh = aiScene.Meshes[aiMeshIndex];
var aiMaterial = aiScene.Materials[aiMesh.MaterialIndex];
var geometry = ConvertAssimpMeshToGeometry(aiMesh, aiMaterial, nodeLookup, ref nextBoneIndex, nodeToBoneIndices, boneInverseBindMatrices, ref nodeWorldTransform, ref nodeInverseWorldTransform, transformedVertices, options);
if (!nodeInfo.IsMeshAttachment)
{
node.Attachments.Add(new NodeMeshAttachment(geometry));
}
else
{
node.Parent.Attachments.Add(new NodeMeshAttachment(geometry));
node.Parent.RemoveChildNode(node);
}
}
}
foreach (var aiNodeChild in aiNode.Children)
{
ProcessAssimpNodeMeshesRecursively(aiNodeChild, aiScene, nodeLookup, ref nextBoneIndex, nodeToBoneIndices, boneInverseBindMatrices, transformedVertices, options);
}
}
private void ConvertNodeAttachments(Model model, Node node, Ai.Node aiNode)
{
for (int i = 0; i < node.Attachments.Count; i++)
{
var attachment = node.Attachments[i];
switch (attachment.Type)
{
case NodeAttachmentType.Mesh:
{
var mesh = ConvertGeometry(model, node, attachment.GetValue <Mesh>());
mesh.Name = $"{AssimpConverterCommon.EscapeName(node.Name)}_Attachment{i}_Mesh";
aiNode.MeshIndices.Add(mAiScene.Meshes.Count);
mAiScene.Meshes.Add(mesh);
}
break;
case NodeAttachmentType.Camera:
{
var camera = attachment.GetValue <Camera>();
mAiScene.Cameras.Add(new Ai.Camera
{
Name = node.Name,
Position = camera.Position.ToAssimp(),
Up = camera.Up.ToAssimp(),
Direction = -camera.Direction.ToAssimp(),
FieldOfview = MathHelper.DegreesToRadians(camera.FieldOfView),
ClipPlaneNear = camera.ClipPlaneNear,
ClipPlaneFar = camera.ClipPlaneFar,
AspectRatio = camera.AspectRatio
});
}
break;
case NodeAttachmentType.Light:
{
var light = attachment.GetValue <Light>();
mAiScene.Lights.Add(new Ai.Light
{
Name = node.Name,
AngleInnerCone = light.AngleInnerCone,
AngleOuterCone = light.AngleOuterCone,
ColorAmbient = light.AmbientColor.ToAssimpAsColor3D(),
ColorDiffuse = light.DiffuseColor.ToAssimpAsColor3D(),
ColorSpecular = light.SpecularColor.ToAssimpAsColor3D(),
LightType = light.Type == LightType.Point ? Ai.LightSourceType.Point : light.Type == LightType.Spot ? Ai.LightSourceType.Spot : Ai.LightSourceType.Directional,
});
}
break;
default:
//throw new NotImplementedException();
break;
}
}
}
private void ConvertTextures(TextureDictionary textureDictionary)
{
Directory.CreateDirectory(mTextureBaseDirectoryPath);
foreach (var texture in textureDictionary.Textures)
{
var texturePath = Path.Combine(mTextureBaseDirectoryPath, AssimpConverterCommon.EscapeName(texture.Name));
File.WriteAllBytes(texturePath, texture.Data);
}
}
private Ai.Material ConvertMaterial(Material material)
{
var aiMaterial = new Ai.Material
{
Name = AssimpConverterCommon.EscapeName(material.Name),
ColorAmbient = new Ai.Color4D(material.AmbientColor.X, material.AmbientColor.Y, material.AmbientColor.Z, material.AmbientColor.W),
ColorDiffuse = new Ai.Color4D(material.DiffuseColor.X, material.DiffuseColor.Y, material.DiffuseColor.Z, material.DiffuseColor.W),
ColorSpecular = new Ai.Color4D(material.SpecularColor.X, material.SpecularColor.Y, material.SpecularColor.Z, material.SpecularColor.W),
ColorEmissive = new Ai.Color4D(material.EmissiveColor.X, material.EmissiveColor.Y, material.EmissiveColor.Z, material.EmissiveColor.W)
};
if (material.Flags.HasFlag(MaterialFlags.HasDiffuseMap))
{
aiMaterial.TextureDiffuse = new Ai.TextureSlot(
Path.Combine(mTextureBaseRelativeDirectoryPath, AssimpConverterCommon.EscapeName(material.DiffuseMap.Name)),
Ai.TextureType.Diffuse, 0, Ai.TextureMapping.FromUV, 0, 0, Ai.TextureOperation.Add, Ai.TextureWrapMode.Wrap, Ai.TextureWrapMode.Wrap, 0);
}
if (material.Flags.HasFlag(MaterialFlags.HasNormalMap))
{
aiMaterial.TextureNormal = new Ai.TextureSlot(
Path.Combine(mTextureBaseRelativeDirectoryPath, AssimpConverterCommon.EscapeName(material.NormalMap.Name)),
Ai.TextureType.Normals, 1, Ai.TextureMapping.FromUV, 0, 0, Ai.TextureOperation.Add, Ai.TextureWrapMode.Wrap, Ai.TextureWrapMode.Wrap, 0);
}
if (material.Flags.HasFlag(MaterialFlags.HasSpecularMap))
{
aiMaterial.TextureSpecular = new Ai.TextureSlot(
Path.Combine(mTextureBaseRelativeDirectoryPath, AssimpConverterCommon.EscapeName(material.SpecularMap.Name)),
Ai.TextureType.Specular, 2, Ai.TextureMapping.FromUV, 0, 0, Ai.TextureOperation.Add, Ai.TextureWrapMode.Wrap, Ai.TextureWrapMode.Wrap, 0);
}
if (material.Flags.HasFlag(MaterialFlags.HasReflectionMap))
{
aiMaterial.TextureReflection = new Ai.TextureSlot(
Path.Combine(mTextureBaseRelativeDirectoryPath, AssimpConverterCommon.EscapeName(material.ReflectionMap.Name)),
Ai.TextureType.Reflection, 3, Ai.TextureMapping.FromUV, 0, 0, Ai.TextureOperation.Add, Ai.TextureWrapMode.Wrap, Ai.TextureWrapMode.Wrap, 0);
}
// todo: add more textures
return(aiMaterial);
}
private static TextureInfo ConvertTexture(Ai.TextureSlot aiTextureSlot, string baseDirectoryPath)
{
var relativeFilePath = aiTextureSlot.FilePath;
var fullFilePath = Path.GetFullPath(Path.Combine(baseDirectoryPath, relativeFilePath));
var textureName = AssimpConverterCommon.UnescapeName(Path.GetFileNameWithoutExtension(relativeFilePath) + ".dds");
Texture texture;
if (!File.Exists(fullFilePath))
{
texture = Texture.CreateDefaultTexture(textureName);
}
else if (relativeFilePath.EndsWith(".dds", StringComparison.InvariantCultureIgnoreCase))
{
texture = new Texture(textureName, TextureFormat.DDS, File.ReadAllBytes(fullFilePath));
}
else
{
var bitmap = new Bitmap(fullFilePath);
texture = TextureEncoder.Encode(textureName, TextureFormat.DDS, bitmap);
}
return(TextureInfo.GetTextureInfo(texture));
}
private static Mesh ConvertAssimpMeshToGeometry(Ai.Mesh aiMesh, Ai.Material material, Dictionary <string, NodeInfo> nodeLookup, ref int nextBoneIndex, Dictionary <int, List <int> > nodeToBoneIndices, List <Matrix4x4> boneInverseBindMatrices, ref Matrix4x4 nodeWorldTransform, ref Matrix4x4 nodeInverseWorldTransform, List <Vector3> transformedVertices, ModelConverterOptions options)
{
if (!aiMesh.HasVertices)
{
throw new Exception("Assimp mesh has no vertices");
}
var geometry = new Mesh();
var geometryTransformedVertices = new Vector3[aiMesh.VertexCount];
geometry.Vertices = aiMesh.Vertices
.Select(x => new Vector3(x.X, x.Y, x.Z))
.ToArray();
for (int i = 0; i < geometry.Vertices.Length; i++)
{
geometryTransformedVertices[i] = Vector3.Transform(geometry.Vertices[i], nodeWorldTransform);
}
transformedVertices.AddRange(geometryTransformedVertices);
if (aiMesh.HasNormals)
{
geometry.Normals = aiMesh.Normals
.Select(x => new Vector3(x.X, x.Y, x.Z))
.ToArray();
}
if (aiMesh.HasTextureCoords(0))
{
geometry.TexCoordsChannel0 = aiMesh.TextureCoordinateChannels[0]
.Select(x => new Vector2(x.X, x.Y))
.ToArray();
}
if (aiMesh.HasTextureCoords(1))
{
geometry.TexCoordsChannel1 = aiMesh.TextureCoordinateChannels[1]
.Select(x => new Vector2(x.X, x.Y))
.ToArray();
}
if (aiMesh.HasTextureCoords(2))
{
geometry.TexCoordsChannel2 = aiMesh.TextureCoordinateChannels[2]
.Select(x => new Vector2(x.X, x.Y))
.ToArray();
}
if (aiMesh.HasVertexColors(0))
{
geometry.ColorChannel0 = aiMesh.VertexColorChannels[0]
.Select(x => ( uint )(( byte )(x.B * 255f) | ( byte )(x.G * 255f) << 8 | ( byte )(x.R * 255f) << 16 | ( byte )(x.A * 255f) << 24))
.ToArray();
}
else if (options.GenerateVertexColors)
{
geometry.ColorChannel0 = new uint[geometry.VertexCount];
for (int i = 0; i < geometry.ColorChannel0.Length; i++)
{
geometry.ColorChannel0[i] = 0xFFFFFFFF;
}
}
if (aiMesh.HasVertexColors(1))
{
geometry.ColorChannel1 = aiMesh.VertexColorChannels[1]
.Select(x => ( uint )(( byte )(x.B * 255f) | ( byte )(x.G * 255f) << 8 | ( byte )(x.R * 255f) << 16 | ( byte )(x.A * 255f) << 24))
.ToArray();
}
if (aiMesh.HasFaces)
{
geometry.TriangleIndexFormat = aiMesh.VertexCount <= ushort.MaxValue ? TriangleIndexFormat.UInt16 : TriangleIndexFormat.UInt32;
geometry.Triangles = aiMesh.Faces
.Select(x => new Triangle(( uint )x.Indices[0], ( uint )x.Indices[1], ( uint )x.Indices[2]))
.ToArray();
}
if (aiMesh.HasBones)
{
geometry.VertexWeights = new VertexWeight[geometry.VertexCount];
for (int i = 0; i < geometry.VertexWeights.Length; i++)
{
geometry.VertexWeights[i].Indices = new byte[4];
geometry.VertexWeights[i].Weights = new float[4];
}
var vertexWeightCounts = new int[geometry.VertexCount];
for (var i = 0; i < aiMesh.Bones.Count; i++)
{
var aiMeshBone = aiMesh.Bones[i];
// Find node index for the bone
var boneLookupData = nodeLookup[AssimpConverterCommon.UnescapeName(aiMeshBone.Name)];
int nodeIndex = boneLookupData.Index;
// Calculate inverse bind matrix
var boneNode = boneLookupData.Node;
var bindMatrix = boneNode.WorldTransform * nodeInverseWorldTransform;
if (options.ConvertSkinToZUp)
{
bindMatrix *= YToZUpMatrix;
}
Matrix4x4.Invert(bindMatrix, out var inverseBindMatrix);
// Get bone index
int boneIndex;
if (!nodeToBoneIndices.TryGetValue(nodeIndex, out var boneIndices))
{
// No entry for the node was found, so we add a new one
boneIndex = nextBoneIndex++;
nodeToBoneIndices.Add(nodeIndex, new List <int>()
{
boneIndex
});
boneInverseBindMatrices.Add(inverseBindMatrix);
}
else
{
// Entry for the node was found
// Try to find the bone index based on whether the inverse bind matrix matches
boneIndex = -1;
foreach (int index in boneIndices)
{
if (boneInverseBindMatrices[index].Equals(inverseBindMatrix))
{
boneIndex = index;
}
}
if (boneIndex == -1)
{
// None matching inverse bind matrix was found, so we add a new entry
boneIndex = nextBoneIndex++;
nodeToBoneIndices[nodeIndex].Add(boneIndex);
boneInverseBindMatrices.Add(inverseBindMatrix);
}
}
foreach (var aiVertexWeight in aiMeshBone.VertexWeights)
{
int vertexWeightCount = vertexWeightCounts[aiVertexWeight.VertexID]++;
geometry.VertexWeights[aiVertexWeight.VertexID].Indices[vertexWeightCount] = ( byte )boneIndex;
geometry.VertexWeights[aiVertexWeight.VertexID].Weights[vertexWeightCount] = aiVertexWeight.Weight;
}
}
}
geometry.MaterialName = AssimpConverterCommon.UnescapeName(material.Name);
geometry.BoundingBox = BoundingBox.Calculate(geometry.Vertices);
geometry.BoundingSphere = BoundingSphere.Calculate(geometry.BoundingBox.Value, geometry.Vertices);
geometry.Flags |= GeometryFlags.Flag80000000;
return(geometry);
}
private static Node ConvertAssimpNodeRecursively(Assimp.Scene aiScene, Ai.Node aiNode, Dictionary <string, NodeInfo> nodeLookup, ref int nextIndex, ModelConverterOptions options)
{
aiNode.Transform.Decompose(out var scale, out var rotation, out var translation);
// Create node
var node = new Node(AssimpConverterCommon.UnescapeName(aiNode.Name),
new Vector3(translation.X, translation.Y, translation.Z),
new Quaternion(rotation.X, rotation.Y, rotation.Z, rotation.W),
new Vector3(scale.X, scale.Y, scale.Z));
if (!IsMeshAttachmentNode(aiNode))
{
// Convert properties
ConvertAssimpMetadataToProperties(aiNode.Metadata, node);
if (options.SetFullBodyNodeProperties)
{
if (node.Name == "See User Defined Properties")
{
TryAddProperty(node.Properties, new UserIntProperty("NiSortAdjustNode", 0));
}
else if (node.Name.EndsWith("root") || node.Name == "Bip01")
{
TryAddProperty(node.Properties, new UserIntProperty("KFAccumRoot", 0));
}
else if (sFullBodyObjectNames.Contains(node.Name))
{
TryAddFullBodyObjectProperties(node.Properties, node.Name);
}
}
if (!nodeLookup.ContainsKey(node.Name))
{
// Add to lookup
nodeLookup.Add(node.Name, new NodeInfo(aiNode, node, nextIndex++, false));
}
else
{
throw new Exception($"Duplicate node name '{node.Name}'");
}
// Is this a camera?
var index = -1;
if ((index = aiScene.Cameras.FindIndex(x => x.Name == node.Name)) != -1)
{
var aiCamera = aiScene.Cameras[index];
var camera = new Camera(-aiCamera.Direction.ToNumerics(), aiCamera.Up.ToNumerics(), aiCamera.Position.ToNumerics(),
aiCamera.ClipPlaneNear, aiCamera.ClipPlaneFar, MathHelper.RadiansToDegrees(aiCamera.FieldOfview),
aiCamera.AspectRatio, 0
)
{
Version = options.Version
};
node.Attachments.Add(new NodeCameraAttachment(camera));
}
else if ((index = aiScene.Lights.FindIndex(x => x.Name == node.Name)) != -1)
{
var aiLight = aiScene.Lights[index];
var lightType = LightType.Point;
switch (aiLight.LightType)
{
case Ai.LightSourceType.Directional:
lightType = LightType.Type1;
break;
case Ai.LightSourceType.Point:
case Ai.LightSourceType.Ambient:
lightType = LightType.Point;
break;
case Ai.LightSourceType.Spot:
lightType = LightType.Spot;
break;
}
var light = new Light
{
Version = options.Version,
AmbientColor = aiLight.ColorAmbient.ToNumerics(),
DiffuseColor = aiLight.ColorDiffuse.ToNumerics(),
SpecularColor = aiLight.ColorSpecular.ToNumerics(),
AngleInnerCone = aiLight.AngleInnerCone,
AngleOuterCone = aiLight.AngleOuterCone,
Type = lightType,
Flags = LightFlags.Bit1 | LightFlags.Bit2
};
node.Attachments.Add(new NodeLightAttachment(light));
}
// Process children
foreach (var aiNodeChild in aiNode.Children)
{
if (aiNodeChild.Name == "RootNode")
{
// For compatibility with old exports
// Merge children of 'RootNode' node with actual root node
foreach (var aiFakeRootNodeChild in aiNodeChild.Children)
{
var childNode = ConvertAssimpNodeRecursively(aiScene, aiFakeRootNodeChild, nodeLookup, ref nextIndex, options);
node.AddChildNode(childNode);
}
}
else
{
var childNode = ConvertAssimpNodeRecursively(aiScene, aiNodeChild, nodeLookup, ref nextIndex, options);
node.AddChildNode(childNode);
}
}
}
else
{
nodeLookup.Add(node.Name, new NodeInfo(aiNode, node, -1, true));
}
return(node);
}
private static Material ConvertMaterialAndTextures(Ai.Material aiMaterial, ModelPackConverterOptions options, string baseDirectoryPath, TextureDictionary textureDictionary)
{
// Convert all textures
TextureInfo diffuseTexture = null;
if (aiMaterial.HasTextureDiffuse)
{
diffuseTexture = ConvertTexture(aiMaterial.TextureDiffuse, baseDirectoryPath);
}
TextureInfo lightmapTexture = null;
if (aiMaterial.HasTextureLightMap)
{
lightmapTexture = ConvertTexture(aiMaterial.TextureLightMap, baseDirectoryPath);
}
TextureInfo displacementTexture = null;
if (aiMaterial.HasTextureDisplacement)
{
displacementTexture = ConvertTexture(aiMaterial.TextureDisplacement, baseDirectoryPath);
}
TextureInfo opacityTexture = null;
if (aiMaterial.HasTextureOpacity)
{
opacityTexture = ConvertTexture(aiMaterial.TextureOpacity, baseDirectoryPath);
}
TextureInfo normalTexture = null;
if (aiMaterial.HasTextureNormal)
{
normalTexture = ConvertTexture(aiMaterial.TextureNormal, baseDirectoryPath);
}
TextureInfo heightTexture = null;
if (aiMaterial.HasTextureHeight)
{
heightTexture = ConvertTexture(aiMaterial.TextureHeight, baseDirectoryPath);
}
TextureInfo emissiveTexture = null;
if (aiMaterial.HasTextureEmissive)
{
emissiveTexture = ConvertTexture(aiMaterial.TextureEmissive, baseDirectoryPath);
}
TextureInfo ambientTexture = null;
if (aiMaterial.HasTextureAmbient)
{
ambientTexture = ConvertTexture(aiMaterial.TextureAmbient, baseDirectoryPath);
}
TextureInfo specularTexture = null;
if (aiMaterial.HasTextureSpecular)
{
specularTexture = ConvertTexture(aiMaterial.TextureSpecular, baseDirectoryPath);
}
TextureInfo reflectionTexture = null;
if (aiMaterial.HasTextureReflection)
{
reflectionTexture = ConvertTexture(aiMaterial.TextureReflection, baseDirectoryPath);
}
// Convert material
Material material = null;
string materialName = AssimpConverterCommon.UnescapeName(aiMaterial.Name);
switch (options.MaterialPreset)
{
case MaterialPreset.FieldTerrain:
{
if (diffuseTexture != null)
{
textureDictionary.Add(diffuseTexture.Texture);
material = MaterialFactory.CreateFieldTerrainMaterial(materialName, diffuseTexture.Name, HasAlpha(diffuseTexture.PixelFormat));
}
}
break;
case MaterialPreset.FieldTerrainVertexColors:
{
if (diffuseTexture != null)
{
textureDictionary.Add(diffuseTexture.Texture);
material = MaterialFactory.CreateFieldTerrainVertexColorsMaterial(materialName, diffuseTexture.Name, HasAlpha(diffuseTexture.PixelFormat));
}
}
break;
case MaterialPreset.FieldTerrainCastShadow:
{
if (diffuseTexture != null)
{
textureDictionary.Add(diffuseTexture.Texture);
material = MaterialFactory.CreateFieldTerrainCastShadowMaterial(materialName, diffuseTexture.Name, HasAlpha(diffuseTexture.PixelFormat));
}
}
break;
case MaterialPreset.CharacterSkinP5:
case MaterialPreset.CharacterSkinFB:
{
if (diffuseTexture != null)
{
textureDictionary.Add(diffuseTexture.Texture);
string shadowTextureName = diffuseTexture.Name;
if (ambientTexture != null)
{
textureDictionary.Add(ambientTexture.Texture);
shadowTextureName = ambientTexture.Name;
}
// TODO: transparency
var hasTransparency = HasAlpha(diffuseTexture.PixelFormat);
if (options.MaterialPreset == MaterialPreset.CharacterSkinP5)
{
material = MaterialFactory.CreateCharacterSkinP5Material(materialName, diffuseTexture.Name, shadowTextureName,
hasTransparency);
}
else
{
material = MaterialFactory.CreateCharacterSkinFBMaterial(materialName, diffuseTexture.Name, shadowTextureName,
hasTransparency);
}
}
}
break;
case MaterialPreset.PersonaSkinP5:
{
if (diffuseTexture != null)
{
textureDictionary.Add(diffuseTexture.Texture);
string shadowTextureName = diffuseTexture.Name;
string specularTextureName = diffuseTexture.Name;
if (ambientTexture != null)
{
textureDictionary.Add(ambientTexture.Texture);
shadowTextureName = ambientTexture.Name;
}
if (specularTexture != null)
{
textureDictionary.Add(specularTexture.Texture);
specularTextureName = specularTexture.Name;
}
material = MaterialFactory.CreatePersonaSkinP5Material(materialName, diffuseTexture.Name, specularTextureName, shadowTextureName);
}
}
break;
case MaterialPreset.CharacterClothP4D:
{
if (diffuseTexture != null)
{
textureDictionary.Add(diffuseTexture.Texture);
material = MaterialFactory.CreateCharacterClothP4DMaterial(materialName, diffuseTexture.Name,
HasAlpha(diffuseTexture.PixelFormat));
}
}
break;
case MaterialPreset.CharacterSkinP3DP5D:
{
if (diffuseTexture != null)
{
textureDictionary.Add(diffuseTexture.Texture);
material = MaterialFactory.CreateCharacterSkinP3DP5DMaterial(materialName, diffuseTexture.Name,
HasAlpha(diffuseTexture.PixelFormat));
}
}
break;
}
// Create dummy material if none was created
if (material == null)
{
material = new Material(materialName);
}
return(material);
}
private Ai.Mesh ConvertGeometry(Model model, Node geometryNode, Mesh mesh)
{
var aiMesh = new Ai.Mesh(Ai.PrimitiveType.Triangle);
if (mesh.Flags.HasFlag(GeometryFlags.HasMaterial))
{
aiMesh.MaterialIndex = mAiScene.Materials.FindIndex(x => x.Name == AssimpConverterCommon.EscapeName(mesh.MaterialName));
}
if (mesh.Flags.HasFlag(GeometryFlags.HasTriangles))
{
foreach (var triangle in mesh.Triangles)
{
var aiFace = new Ai.Face();
aiFace.Indices.Add(( int )triangle.A);
aiFace.Indices.Add(( int )triangle.B);
aiFace.Indices.Add(( int )triangle.C);
aiMesh.Faces.Add(aiFace);
}
}
var vertices = mesh.Vertices;
var normals = mesh.Normals;
if (mesh.VertexWeights != null)
{
(vertices, normals) = mesh.Transform(geometryNode, model.Nodes.ToList(), model.Bones);
}
if (mesh.VertexAttributeFlags.HasFlag(VertexAttributeFlags.Position))
{
foreach (var vertex in vertices)
{
aiMesh.Vertices.Add(new Ai.Vector3D(vertex.X, vertex.Y, vertex.Z));
}
}
if (mesh.VertexAttributeFlags.HasFlag(VertexAttributeFlags.Normal))
{
foreach (var normal in normals)
{
aiMesh.Normals.Add(new Ai.Vector3D(normal.X, normal.Y, normal.Z));
}
}
if (mesh.VertexAttributeFlags.HasFlag(VertexAttributeFlags.Tangent))
{
foreach (var tangent in mesh.Tangents)
{
aiMesh.Tangents.Add(new Ai.Vector3D(tangent.X, tangent.Y, tangent.Z));
}
}
if (mesh.VertexAttributeFlags.HasFlag(VertexAttributeFlags.Binormal))
{
foreach (var binormal in mesh.Binormals)
{
aiMesh.BiTangents.Add(new Ai.Vector3D(binormal.X, binormal.Y, binormal.Z));
}
}
if (mesh.VertexAttributeFlags.HasFlag(VertexAttributeFlags.TexCoord0))
{
foreach (var vertex in mesh.TexCoordsChannel0)
{
aiMesh.TextureCoordinateChannels[0].Add(new Ai.Vector3D(vertex.X, vertex.Y, 0));
}
}
if (mesh.VertexAttributeFlags.HasFlag(VertexAttributeFlags.TexCoord1))
{
foreach (var vertex in mesh.TexCoordsChannel1)
{
aiMesh.TextureCoordinateChannels[1].Add(new Ai.Vector3D(vertex.X, vertex.Y, 0));
}
}
if (mesh.VertexAttributeFlags.HasFlag(VertexAttributeFlags.TexCoord2))
{
foreach (var vertex in mesh.TexCoordsChannel2)
{
aiMesh.TextureCoordinateChannels[2].Add(new Ai.Vector3D(vertex.X, vertex.Y, 0));
}
}
/* todo: colors
* if ( mesh.VertexAttributeFlags.HasFlag( VertexAttributeFlags.Color0 ) )
* {
* foreach ( var color in mesh.ColorChannel0 )
* {
* aiMesh.VertexColorChannels[0].Add( new Ai.Color4D( color. ))
* }
* }
*/
if (mesh.Flags.HasFlag(GeometryFlags.HasVertexWeights))
{
var boneMap = new Dictionary <int, Ai.Bone>();
for (int i = 0; i < mesh.VertexWeights.Length; i++)
{
var vertexWeight = mesh.VertexWeights[i];
for (int j = 0; j < 4; j++)
{
var boneWeight = vertexWeight.Weights[j];
if (boneWeight == 0f)
{
continue;
}
var boneIndex = vertexWeight.Indices[j];
var nodeIndex = model.Bones[boneIndex].NodeIndex;
if (!boneMap.ContainsKey(nodeIndex))
{
var aiBone = new Ai.Bone();
var boneNode = model.GetNode(nodeIndex);
aiBone.Name = AssimpConverterCommon.EscapeName(boneNode.Name);
aiBone.VertexWeights.Add(new Ai.VertexWeight(i, boneWeight));
Matrix4x4.Invert(geometryNode.WorldTransform, out Matrix4x4 invGeometryNodeWorldTransform);
Matrix4x4.Invert(boneNode.WorldTransform * invGeometryNodeWorldTransform, out Matrix4x4 offsetMatrix);
aiBone.OffsetMatrix = new Ai.Matrix4x4(offsetMatrix.M11, offsetMatrix.M21, offsetMatrix.M31, offsetMatrix.M41,
offsetMatrix.M12, offsetMatrix.M22, offsetMatrix.M32, offsetMatrix.M42,
offsetMatrix.M13, offsetMatrix.M23, offsetMatrix.M33, offsetMatrix.M43,
offsetMatrix.M14, offsetMatrix.M24, offsetMatrix.M34, offsetMatrix.M44);
boneMap[nodeIndex] = aiBone;
}
else
{
boneMap[nodeIndex].VertexWeights.Add(new Ai.VertexWeight(i, boneWeight));
}
}
}
aiMesh.Bones.AddRange(boneMap.Values);
}
return(aiMesh);
}
