public void Dispose()
{
for (int i = 0; i < meshFrames.Count; i++)
{
AnimationMeshContainer mesh = (AnimationMeshContainer)meshFrames[i].MeshContainer;
while (mesh != null)
{
if ((mesh.MeshData != null) && (mesh.MeshData.Mesh != null))
{
mesh.MeshData.Mesh.Dispose();
}
/* for (int j = 0; j < Textures.Length; j++)
* {
* Texture tex = Textures[j];
* if ((tex != null) && !tex.Disposed)
* {
* tex.Dispose();
* }
* }*/
mesh = (AnimationMeshContainer)mesh.NextMeshContainer;
}
}
rootFrame.Dispose();
AnimationController.Dispose();
IsDisposed = true;
}
public void HighlightBone(remParser parser, remMesh remMesh, int boneIdx, bool show)
{
List <List <remVertex> > submeshVertLists = new List <List <remVertex> >(remMesh.numMats);
List <List <ushort> > submeshFaceLists = new List <List <ushort> >(remMesh.numMats);
List <int[]> submeshVertIndices = new List <int[]>(remMesh.numMats);
SplitMesh(remMesh, submeshVertLists, submeshFaceLists, submeshVertIndices);
remSkin boneList = rem.FindSkin(remMesh.name, parser.SKIC);
int submeshIdx = 0;
for (AnimationMeshContainer mesh = (AnimationMeshContainer)meshFrames[0].MeshContainer;
mesh != null;
mesh = (AnimationMeshContainer)mesh.NextMeshContainer, submeshIdx++)
{
if (mesh.MeshData != null && mesh.MeshData.Mesh != null)
{
List <remVertex> vertexList = submeshVertLists[submeshIdx];
byte[][] vertexBoneIndices = null;
float[][] vertexWeights = ConvertVertexWeights(vertexList, submeshVertIndices[submeshIdx], boneList, out vertexBoneIndices);
FillVertexBuffer(mesh.MeshData.Mesh, vertexList, vertexWeights, vertexBoneIndices, show ? boneIdx : -1);
}
if (mesh.BoneLines != null)
{
for (int j = 0; j < BoneObjSize; j++)
{
mesh.BoneLines[boneIdx * BoneObjSize + j].Color = show ? Color.Crimson.ToArgb(): Color.CornflowerBlue.ToArgb();
}
}
}
}
/// <summary>
/// Vraci pocet matic mezi kterzmi se interpoluje pri vykreslovani animace
/// </summary>
/// <returns>pocet matic</returns>
public override int GetMatrixWorldCount()
{
if (meshes.Count > 0)
{
AnimationMeshContainer mesh = meshes[0].MeshContainer as AnimationMeshContainer;
return(mesh.NumberPaletteEntries);
}
return(base.GetMatrixWorldCount());
}
private void DrawMeshFrame(AnimationFrame frame)
{
submeshNum = 0;
for (AnimationMeshContainer meshContainer = (AnimationMeshContainer)frame.MeshContainer;
meshContainer != null;
meshContainer = (AnimationMeshContainer)meshContainer.NextMeshContainer, submeshNum++)
{
DrawMeshContainer(meshContainer, frame);
}
}
public void HighlightBone(odfParser parser, int meshIdx, int submeshIdx, int boneIdx)
{
const int boneObjSize = 16;
odfSubmesh submesh = parser.MeshSection[meshIdx][submeshIdx];
odfBoneList boneList = odf.FindBoneList(submesh.Id, parser.EnvelopeSection);
string boneFrameName = null;
if (boneIdx >= 0)
{
odfBone bone = boneList[boneIdx];
boneFrameName = odf.FindFrame(bone.FrameId, parser.FrameSection.RootFrame).Name;
}
AnimationMeshContainer mesh = (AnimationMeshContainer)meshFrames[0].MeshContainer;
for (int i = 0; mesh != null; i++)
{
if (i == submeshIdx && (mesh.MeshData != null) && (mesh.MeshData.Mesh != null))
{
List <odfVertex> vertexList = submesh.VertexList;
float[][] vertexWeights = ConvertVertexWeights(vertexList, boneList);
FillVertexBuffer(mesh.MeshData.Mesh, vertexList, vertexWeights, boneIdx);
// break;
}
if (boneIdx >= 0)
{
for (int idx = 0; idx < mesh.BoneLines.Length / boneObjSize; idx++)
{
if (mesh.BoneNames[idx] == boneFrameName)
{
for (int j = 0; j < boneObjSize; j++)
{
mesh.BoneLines[idx * boneObjSize + j].Color = Color.Crimson.ToArgb();
}
break;
}
}
}
else
{
for (int idx = 0; idx < mesh.BoneLines.Length / boneObjSize; idx++)
{
for (int j = 0; j < boneObjSize; j++)
{
mesh.BoneLines[idx * boneObjSize + j].Color = Color.CornflowerBlue.ToArgb();
}
}
}
mesh = (AnimationMeshContainer)mesh.NextMeshContainer;
}
}
/// <summary>Create a new mesh container</summary>
public override MeshContainer CreateMeshContainer(string name,
MeshData meshData, ExtendedMaterial[] materials,
EffectInstance[] effectInstances, GraphicsStream adjacency,
SkinInformation skinInfo)
{
// We only handle meshes here
if (meshData.Mesh == null)
{
throw new ArgumentException();
}
// We must have a vertex format mesh
if (meshData.Mesh.VertexFormat == VertexFormats.None)
{
throw new ArgumentException();
}
AnimationMeshContainer mesh = new AnimationMeshContainer();
mesh.adjency = adjacency;
mesh.Name = name;
int numFaces = meshData.Mesh.NumberFaces;
Device dev = meshData.Mesh.Device;
// Store the materials
mesh.SetMaterials(materials);
mesh.SetAdjacency(adjacency);
Texture[] meshTextures = new Texture[materials.Length];
mesh.MeshData = meshData;
// If there is skinning info, save any required data
if (skinInfo != null)
{
mesh.SkinInformation = skinInfo;
int numBones = skinInfo.NumberBones;
Matrix[] offsetMatrices = new Matrix[numBones];
for (int i = 0; i < numBones; i++)
{
offsetMatrices[i] = skinInfo.GetBoneOffsetMatrix(i);
}
mesh.SetOffsetMatrices(offsetMatrices);
GenerateSkinnedMesh(mesh, adjacency);
}
return(mesh);
}
/// <summary>Vypocet a nastaveni world matic podle kosti</summary>
private void DrawMeshContainer(AnimationMeshContainer mesh, AnimationFrame parent, int iAttrib)
{
BoneCombination[] bones = mesh.GetBones();
for (int iPaletteEntry = 0; iPaletteEntry < mesh.NumberPaletteEntries;
++iPaletteEntry)
{
int iMatrixIndex = bones[iAttrib].BoneId[iPaletteEntry];
if (iMatrixIndex != -1)
{
SetMatricesWorldByIndex(mesh.GetOffsetMatrices()[iMatrixIndex] *
mesh.GetFrames()[iMatrixIndex].
CombinedTransformationMatrix, iPaletteEntry);
}
}
}
/// <summary>
/// Vztvoreni skinned meshe
/// </summary>
/// <param name="mesh">Container s meshem</param>
/// <param name="adjacency">adjacency</param>
static void GenerateSkinnedMesh(AnimationMeshContainer mesh, GraphicsStream adjacency)
{
if (mesh.SkinInformation == null)
{
throw new ArgumentException(); // There is nothing to generate
}
MeshFlags flags = MeshFlags.OptimizeVertexCache;
flags |= MeshFlags.Managed;
int numMaxFaceInfl;
using (IndexBuffer ib = mesh.MeshData.Mesh.IndexBuffer)
{
numMaxFaceInfl = mesh.SkinInformation.GetMaxFaceInfluences(ib,
mesh.MeshData.Mesh.NumberFaces);
}
// 12 entry palette guarantees that any triangle (4 independent
// influences per vertex of a tri) can be handled
numMaxFaceInfl = (int)Math.Min(numMaxFaceInfl, 12);
mesh.NumberPaletteEntries = 4;
int influences = 0;
BoneCombination[] bones = null;
// Use ConvertToBlendedMesh to generate a drawable mesh
MeshData data = mesh.MeshData;
data.Mesh = mesh.SkinInformation.ConvertToIndexedBlendedMesh(data.Mesh, flags, mesh.GetAdjacencyStream(), mesh.NumberPaletteEntries, out influences, out bones);
int use32Bit = (int)(data.Mesh.Options.Value & MeshFlags.Use32Bit);
mesh.NumberInfluences = influences;
mesh.SetBones(bones);
// Get the number of attributes
mesh.NumberAttributes = bones.Length;
mesh.MeshData = data;
}
private void SetupBoneMatrices(AnimationFrame frame, AnimationFrame root)
{
for (AnimationMeshContainer mesh = (AnimationMeshContainer)frame.MeshContainer;
mesh != null;
mesh = (AnimationMeshContainer)mesh.NextMeshContainer)
{
int numBones = mesh.BoneNames.Length;
if (numBones <= 0)
{
continue;
}
AnimationFrame[] boneFrames = new AnimationFrame[numBones];
for (int i = 0; i < numBones; i++)
{
AnimationFrame boneFrame = (AnimationFrame)root.FindChild(mesh.BoneNames[i]);
boneFrames[i] = boneFrame;
}
mesh.BoneFrames = boneFrames;
float boneWidth = 0.1f;
int boneColor = Color.CornflowerBlue.ToArgb();
PositionBlendWeightIndexedColored[] boneLines = new PositionBlendWeightIndexedColored[numBones * BoneObjSize];
for (byte i = 0; i < numBones; i++)
{
AnimationFrame bone = boneFrames[i];
if (bone != null && bone.Parent != null)
{
byte parentBoneIdx = 0xFF;
for (byte j = 0; j < mesh.BoneNames.Length; j++)
{
if (mesh.BoneNames[j] == bone.Parent.Name)
{
parentBoneIdx = j;
break;
}
}
if (parentBoneIdx == 0xFF)
{
continue;
}
Matrix boneMatrix = Matrix.Invert(mesh.BoneOffsets[i]);
Matrix boneParentMatrix = Matrix.Invert(mesh.BoneOffsets[parentBoneIdx]);
Vector3 bonePos = Vector3.TransformCoordinate(new Vector3(), boneMatrix);
Vector3 boneParentPos = Vector3.TransformCoordinate(new Vector3(), boneParentMatrix);
Vector3 direction = bonePos - boneParentPos;
Vector3 perpendicular = direction.Perpendicular();
Vector3 cross = Vector3.Cross(direction, perpendicular);
perpendicular = Vector3.Normalize(perpendicular) * boneWidth;
cross = Vector3.Normalize(cross) * boneWidth;
Vector3 bottomLeft = -perpendicular + -cross + boneParentPos;
Vector3 bottomRight = -perpendicular + cross + boneParentPos;
Vector3 topLeft = perpendicular + -cross + boneParentPos;
Vector3 topRight = perpendicular + cross + boneParentPos;
boneLines[i * BoneObjSize] = new PositionBlendWeightIndexedColored(bottomLeft, parentBoneIdx, boneColor);
boneLines[(i * BoneObjSize) + 1] = new PositionBlendWeightIndexedColored(bottomRight, parentBoneIdx, boneColor);
boneLines[(i * BoneObjSize) + 2] = new PositionBlendWeightIndexedColored(bottomRight, parentBoneIdx, boneColor);
boneLines[(i * BoneObjSize) + 3] = new PositionBlendWeightIndexedColored(topRight, parentBoneIdx, boneColor);
boneLines[(i * BoneObjSize) + 4] = new PositionBlendWeightIndexedColored(topRight, parentBoneIdx, boneColor);
boneLines[(i * BoneObjSize) + 5] = new PositionBlendWeightIndexedColored(topLeft, parentBoneIdx, boneColor);
boneLines[(i * BoneObjSize) + 6] = new PositionBlendWeightIndexedColored(topLeft, parentBoneIdx, boneColor);
boneLines[(i * BoneObjSize) + 7] = new PositionBlendWeightIndexedColored(bottomLeft, parentBoneIdx, boneColor);
boneLines[(i * BoneObjSize) + 8] = new PositionBlendWeightIndexedColored(bottomLeft, parentBoneIdx, boneColor);
boneLines[(i * BoneObjSize) + 9] = new PositionBlendWeightIndexedColored(bonePos, i, boneColor);
boneLines[(i * BoneObjSize) + 10] = new PositionBlendWeightIndexedColored(bottomRight, parentBoneIdx, boneColor);
boneLines[(i * BoneObjSize) + 11] = new PositionBlendWeightIndexedColored(bonePos, i, boneColor);
boneLines[(i * BoneObjSize) + 12] = new PositionBlendWeightIndexedColored(topLeft, parentBoneIdx, boneColor);
boneLines[(i * BoneObjSize) + 13] = new PositionBlendWeightIndexedColored(bonePos, i, boneColor);
boneLines[(i * BoneObjSize) + 14] = new PositionBlendWeightIndexedColored(topRight, parentBoneIdx, boneColor);
boneLines[(i * BoneObjSize) + 15] = new PositionBlendWeightIndexedColored(bonePos, i, boneColor);
}
}
mesh.BoneLines = boneLines;
}
if (frame.Sibling != null)
{
SetupBoneMatrices(frame.Sibling as AnimationFrame, root);
}
if (frame.FirstChild != null)
{
SetupBoneMatrices(frame.FirstChild as AnimationFrame, root);
}
}
private AnimationFrame CreateFrame(remBone frame, remParser parser, HashSet <string> extractFrames, remMesh mesh, Device device, Matrix combinedParent, List <AnimationFrame> meshFrames)
{
AnimationFrame animationFrame = new AnimationFrame();
animationFrame.Name = frame.name.ToString();
animationFrame.TransformationMatrix = frame.matrix;
animationFrame.OriginalTransform = animationFrame.TransformationMatrix;
animationFrame.CombinedTransform = combinedParent * animationFrame.TransformationMatrix;
if (frame.name == mesh.frame)
{
ExtendedMaterial[] materials = new ExtendedMaterial[mesh.numMats];
List <List <remVertex> > submeshVertLists = new List <List <remVertex> >(mesh.numMats);
List <List <ushort> > submeshFaceLists = new List <List <ushort> >(mesh.numMats);
List <int[]> submeshVertIndices = new List <int[]>(mesh.numMats);
SplitMesh(mesh, submeshVertLists, submeshFaceLists, submeshVertIndices);
remSkin boneList = rem.FindSkin(mesh.name, parser.SKIC);
bool skinned = boneList != null;
int numBones = skinned ? boneList.Count : 0;
List <string> boneNamesList = new List <string>(numBones);
List <Matrix> boneOffsetsList = new List <Matrix>(numBones);
for (int boneIdx = 0; boneIdx < numBones; boneIdx++)
{
boneNamesList.Add(boneList[boneIdx].bone.ToString());
boneOffsetsList.Add(boneList[boneIdx].matrix);
}
List <string> boneFrameParentNames = new List <string>(numBones);
List <Matrix> boneFrameParentMatrices = new List <Matrix>(numBones);
for (int boneIdx = 0; boneIdx < numBones; boneIdx++)
{
remBone boneFrame = rem.FindFrame(boneList[boneIdx].bone, parser.BONC.rootFrame);
if (boneFrame == null)
{
continue;
}
remBone boneFrameParent = boneFrame.Parent;
if (!boneNamesList.Contains(boneFrameParent.name) && !boneFrameParentNames.Contains(boneFrameParent.name))
{
boneFrameParentNames.Add(boneFrameParent.name);
Matrix incompleteMeshFrameCorrection = Matrix.Invert(frame.matrix);
boneFrameParentMatrices.Add(incompleteMeshFrameCorrection * Matrix.Invert(boneFrame.matrix) * boneList[boneIdx].matrix);
}
}
boneNamesList.AddRange(boneFrameParentNames);
string[] boneNames = boneNamesList.ToArray();
boneOffsetsList.AddRange(boneFrameParentMatrices);
Matrix[] boneOffsets = boneOffsetsList.ToArray();
AnimationMeshContainer[] meshContainers = new AnimationMeshContainer[submeshFaceLists.Count];
Vector3 min = new Vector3(Single.MaxValue);
Vector3 max = new Vector3(Single.MinValue);
for (int i = 0; i < submeshFaceLists.Count; i++)
{
List <ushort> faceList = submeshFaceLists[i];
List <remVertex> vertexList = submeshVertLists[i];
Mesh animationMesh = new Mesh(device, faceList.Count, vertexList.Count, MeshFlags.Managed, PositionBlendWeightsIndexedNormalTexturedColoured.Format);
using (DataStream indexStream = animationMesh.LockIndexBuffer(LockFlags.None))
{
for (int j = 0; j < faceList.Count; j++)
{
indexStream.Write(faceList[j]);
}
animationMesh.UnlockIndexBuffer();
}
byte[][] vertexBoneIndices = null;
float[][] vertexWeights = ConvertVertexWeights(vertexList, submeshVertIndices[i], boneList, out vertexBoneIndices);
FillVertexBuffer(animationMesh, vertexList, vertexWeights, vertexBoneIndices, -1);
var normalLines = new PositionBlendWeightsIndexedColored[vertexList.Count * 2];
for (int j = 0; j < vertexList.Count; j++)
{
remVertex vertex = vertexList[j];
Vector3 position = vertex.Position;
Vector3 normal = vertex.Normal;
float[] boneWeights = vertexWeights[j];
normalLines[j * 2] = new PositionBlendWeightsIndexedColored(position, boneWeights, vertexBoneIndices[j], Color.Coral.ToArgb());
normalLines[(j * 2) + 1] = new PositionBlendWeightsIndexedColored(position + normal, boneWeights, vertexBoneIndices[j], Color.Blue.ToArgb());
#if !DONT_MIRROR
position.Z *= -1f;
#endif
min = Vector3.Minimize(min, position);
max = Vector3.Maximize(max, position);
}
AnimationMeshContainer meshContainer = new AnimationMeshContainer();
meshContainer.Name = animationFrame.Name;
meshContainer.MeshData = new MeshData(animationMesh);
meshContainer.NormalLines = normalLines;
meshContainer.BoneNames = boneNames;
meshContainer.BoneOffsets = boneOffsets;
meshContainers[i] = meshContainer;
remMaterial mat = rem.FindMaterial(mesh.materials[i], parser.MATC);
if (mat != null)
{
Material material3D = new Material();
material3D.Ambient = new Color4(mat.ambient);
material3D.Diffuse = new Color4(mat.diffuse);
material3D.Emissive = new Color4(mat.emissive);
material3D.Specular = new Color4(mat.specular);
material3D.Power = mat.specularPower;
int matIdx = parser.MATC.IndexOf(mat);
Materials[matIdx] = material3D;
meshContainer.MaterialIndex = matIdx;
int texIdx = 0;
if (mat.texture != null && !TextureDic.TryGetValue(mat.texture.ToString(), out texIdx))
{
ImportedTexture importedTex = null;
if (!ImportedTextures.TryGetValue(mat.texture.ToString(), out importedTex))
{
importedTex = rem.ImportedTexture(mat.texture, parser.RemPath, true);
if (importedTex == null)
{
Report.ReportLog("Export textures of TEXH.FPK!");
continue;
}
ImportedTextures.Add(mat.texture.ToString(), importedTex);
}
Texture memTex = Texture.FromMemory(device, importedTex.Data);
texIdx = TextureDic.Count;
TextureDic.Add(mat.texture.ToString(), texIdx);
Textures.Add(memTex);
}
meshContainer.TextureIndex = texIdx;
}
}
for (int i = 0; i < (meshContainers.Length - 1); i++)
{
meshContainers[i].NextMeshContainer = meshContainers[i + 1];
}
min = Vector3.TransformCoordinate(min, animationFrame.CombinedTransform);
max = Vector3.TransformCoordinate(max, animationFrame.CombinedTransform);
animationFrame.Bounds = new BoundingBox(min, max);
animationFrame.MeshContainer = meshContainers[0];
meshFrames.Add(animationFrame);
}
for (int i = 0; i < frame.Count; i++)
{
remBone child = frame[i];
if (extractFrames.Contains(child.name.ToString()))
{
AnimationFrame childAnimationFrame = CreateFrame(child, parser, extractFrames, mesh, device, animationFrame.CombinedTransform, meshFrames);
childAnimationFrame.Parent = animationFrame;
animationFrame.AppendChild(childAnimationFrame);
}
}
numFrames++;
return(animationFrame);
}
private void DrawMeshContainer(AnimationMeshContainer meshContainer, AnimationFrame frame)
{
device.SetRenderState(RenderState.ZEnable, ZBufferType.UseZBuffer);
device.SetRenderState(RenderState.Lighting, true);
#if !DONT_MIRROR
Cull culling = (Gui.Renderer.Culling) ? Cull.Clockwise : Cull.None;
#else
Cull culling = (Gui.Renderer.Culling) ? Cull.Counterclockwise : Cull.None;
#endif
device.SetRenderState(RenderState.CullMode, culling);
FillMode fill = (Gui.Renderer.Wireframe) ? FillMode.Wireframe : FillMode.Solid;
device.SetRenderState(RenderState.FillMode, fill);
if (meshContainer.BoneNames.Length > 0)
{
device.SetRenderState(RenderState.VertexBlend, VertexBlend.Weights3);
device.SetRenderState(RenderState.IndexedVertexBlendEnable, true);
device.SetRenderState(RenderState.DiffuseMaterialSource, ColorSource.Material);
device.SetRenderState(RenderState.AmbientMaterialSource, ColorSource.Material);
switch (Gui.Renderer.ShowBoneWeights)
{
case ShowBoneWeights.Weak:
device.SetRenderState(RenderState.DiffuseMaterialSource, ColorSource.Color1);
break;
case ShowBoneWeights.Strong:
device.SetRenderState(RenderState.DiffuseMaterialSource, ColorSource.Color1);
device.SetRenderState(RenderState.AmbientMaterialSource, ColorSource.Color1);
break;
case ShowBoneWeights.Off:
break;
}
for (int i = 0; i < meshContainer.BoneNames.Length; i++)
{
if (meshContainer.BoneFrames[i] != null)
{
device.SetTransform(i, meshContainer.BoneOffsets[i] * meshContainer.BoneFrames[i].CombinedTransform);
}
}
}
else
{
device.SetRenderState(RenderState.VertexBlend, VertexBlend.Disable);
#if !DONT_MIRROR
device.SetTransform(TransformState.World, Matrix.Scaling(1.0f, 1.0f, -1.0f) * frame.CombinedTransform);
#else
device.SetTransform(TransformState.World, frame.CombinedTransform);
#endif
}
try
{
int matIdx = meshContainer.MaterialIndex;
device.Material = ((matIdx >= 0) && (matIdx < Materials.Length)) ? Materials[matIdx] : nullMaterial;
int texIdx = meshContainer.TextureIndex;
Texture tex = ((texIdx >= 0) && (texIdx < Textures.Count)) ? Textures[texIdx] : null;
device.SetTexture(0, tex);
meshContainer.MeshData.Mesh.DrawSubset(0);
}
catch (Exception ex)
{
Report.ReportLog("Drawing mesh crashed with " + ex.ToString());
}
if (HighlightSubmesh.Contains(submeshNum))
{
try
{
device.SetRenderState(RenderState.ZEnable, ZBufferType.DontUseZBuffer);
device.SetRenderState(RenderState.FillMode, FillMode.Wireframe);
device.Material = highlightMaterial;
device.SetTexture(0, null);
meshContainer.MeshData.Mesh.DrawSubset(0);
}
catch (Exception ex)
{
Report.ReportLog("Drawing highlighting crashed with " + ex.ToString());
}
}
if (Gui.Renderer.ShowNormals)
{
try
{
device.SetRenderState(RenderState.ZEnable, ZBufferType.UseZBuffer);
device.SetRenderState(RenderState.Lighting, false);
device.Material = nullMaterial;
device.SetTexture(0, null);
device.VertexFormat = PositionBlendWeightsIndexedColored.Format;
device.DrawUserPrimitives(PrimitiveType.LineList, meshContainer.NormalLines.Length / 2, meshContainer.NormalLines);
}
catch (Exception ex)
{
Report.ReportLog("Drawing normals crashed with " + ex.ToString());
}
}
if (Gui.Renderer.ShowBones && (meshContainer.BoneLines != null))
{
try
{
device.SetRenderState(RenderState.ZEnable, ZBufferType.DontUseZBuffer);
device.SetRenderState(RenderState.VertexBlend, VertexBlend.Weights1);
device.SetRenderState(RenderState.IndexedVertexBlendEnable, true);
device.SetRenderState(RenderState.Lighting, false);
device.Material = nullMaterial;
device.SetTexture(0, null);
device.VertexFormat = PositionBlendWeightIndexedColored.Format;
device.DrawUserPrimitives(PrimitiveType.LineList, meshContainer.BoneLines.Length / 2, meshContainer.BoneLines);
}
catch (Exception ex)
{
Report.ReportLog("Drawing bones crashed with " + ex.ToString());
}
}
}
private AnimationFrame CreateFrame(odfFrame frame, odfParser parser, HashSet <int> extractFrames, HashSet <int> meshIDs, Device device, Matrix combinedParent, List <AnimationFrame> meshFrames)
{
AnimationFrame animationFrame = new AnimationFrame();
animationFrame.Name = frame.Name;
animationFrame.TransformationMatrix = frame.Matrix;
animationFrame.OriginalTransform = animationFrame.TransformationMatrix;
animationFrame.CombinedTransform = combinedParent * animationFrame.TransformationMatrix;
if ((int)frame.MeshId != 0 && meshIDs.Contains((int)frame.MeshId))
{
odfMesh mesh = odf.FindMeshListSome(frame.MeshId, parser.MeshSection);
ExtendedMaterial[] materials = new ExtendedMaterial[mesh.Count];
AnimationMeshContainer[] meshContainers = new AnimationMeshContainer[mesh.Count];
Vector3 min = new Vector3(Single.MaxValue);
Vector3 max = new Vector3(Single.MinValue);
for (int i = 0; i < mesh.Count; i++)
{
odfSubmesh submesh = mesh[i];
List <odfFace> faceList = submesh.FaceList;
List <odfVertex> vertexList = submesh.VertexList;
odfBoneList boneList = odf.FindBoneList(submesh.Id, parser.EnvelopeSection);
bool skinned = boneList != null;
int numBones = skinned ? boneList.Count : 0;
string[] boneNames = new string[numBones];
Matrix[] boneOffsets = new Matrix[numBones];
for (int boneIdx = 0; boneIdx < numBones; boneIdx++)
{
odfBone bone = boneList[boneIdx];
boneNames[boneIdx] = odf.FindFrame(bone.FrameId, parser.FrameSection.RootFrame).Name;
Matrix mirrored;
if (!BoneMatrixDic.TryGetValue(boneNames[boneIdx], out mirrored))
{
#if !DONT_MIRROR
Vector3 translate, scale;
Quaternion rotate;
bone.Matrix.Decompose(out scale, out rotate, out translate);
mirrored = Matrix.Scaling(scale.X, scale.Y, -scale.Z) * Matrix.RotationQuaternion(rotate) * Matrix.Translation(translate);
#else
mirrored = bone.Matrix;
#endif
BoneMatrixDic.Add(boneNames[boneIdx], mirrored);
}
boneOffsets[boneIdx] = mirrored;
}
Mesh animationMesh = new Mesh(device, faceList.Count, vertexList.Count, MeshFlags.Managed, PositionBlendWeightsIndexedNormalTexturedColoured.Format);
using (DataStream indexStream = animationMesh.LockIndexBuffer(LockFlags.None))
{
for (int j = 0; j < faceList.Count; j++)
{
ushort[] indices = faceList[j].VertexIndices;
indexStream.Write(indices[0]);
indexStream.Write(indices[1]);
indexStream.Write(indices[2]);
}
animationMesh.UnlockIndexBuffer();
}
float[][] vertexWeights = ConvertVertexWeights(vertexList, boneList);
FillVertexBuffer(animationMesh, vertexList, vertexWeights, -1);
var normalLines = new PositionBlendWeightsIndexedColored[vertexList.Count * 2];
for (int j = 0; j < vertexList.Count; j++)
{
odfVertex vertex = vertexList[j];
#if !DONT_MIRROR
Vector3 position = new Vector3(vertex.Position.X, vertex.Position.Y, -vertex.Position.Z);
Vector3 normal = new Vector3(vertex.Normal.X, vertex.Normal.Y, -vertex.Normal.Z);
#else
Vector3 position = vertex.Position;
Vector3 normal = vertex.Normal;
#endif
float[] boneWeights = vertexWeights[j];
normalLines[j * 2] = new PositionBlendWeightsIndexedColored(position, boneWeights, vertex.BoneIndices, Color.Yellow.ToArgb());
normalLines[(j * 2) + 1] = new PositionBlendWeightsIndexedColored(position + (normal / 11), boneWeights, vertex.BoneIndices, Color.Blue.ToArgb());
min = Vector3.Minimize(min, position);
max = Vector3.Maximize(max, position);
}
AnimationMeshContainer meshContainer = new AnimationMeshContainer();
meshContainer.Name = animationFrame.Name;
meshContainer.MeshData = new MeshData(animationMesh);
meshContainer.NormalLines = normalLines;
meshContainer.BoneNames = boneNames;
meshContainer.BoneOffsets = boneOffsets;
meshContainers[i] = meshContainer;
odfMaterial mat = odf.FindMaterialInfo(submesh.MaterialId, parser.MaterialSection);
if (mat != null)
{
Material material3D = new Material();
material3D.Ambient = mat.Ambient;
material3D.Diffuse = mat.Diffuse;
material3D.Emissive = mat.Emissive;
material3D.Specular = mat.Specular;
material3D.Power = mat.SpecularPower;
int matIdx = parser.MaterialSection.IndexOf(mat);
Materials[matIdx] = material3D;
meshContainer.MaterialIndex = matIdx;
int texIdx = -1;
if ((int)submesh.TextureIds[0] != 0 && !TextureDic.TryGetValue((int)submesh.TextureIds[0], out texIdx))
{
odfTexture tex = odf.FindTextureInfo(submesh.TextureIds[0], parser.TextureSection);
if (tex != null)
{
try
{
odfTextureFile texFile = new odfTextureFile(null, Path.GetDirectoryName(parser.ODFPath) + Path.DirectorySeparatorChar + tex.TextureFile);
int fileSize = 0;
ImportedTexture impTex = new ImportedTexture(texFile.DecryptFile(ref fileSize).BaseStream, tex.TextureFile);
Texture memTex = impTex.ToTexture(device);
texIdx = TextureDic.Count;
TextureDic.Add((int)submesh.TextureIds[0], texIdx);
Textures[texIdx] = memTex;
}
catch (SlimDXException ex)
{
Utility.ReportException(ex);
Report.ReportLog("Please check " + tex.TextureFile + ". It may have an unsupported format.");
}
catch (Exception ex)
{
Utility.ReportException(ex);
}
}
}
meshContainer.TextureIndex = texIdx;
}
}
for (int i = 0; i < (meshContainers.Length - 1); i++)
{
meshContainers[i].NextMeshContainer = meshContainers[i + 1];
}
animationFrame.Bounds = new BoundingBox(min, max);
animationFrame.MeshContainer = meshContainers[0];
meshFrames.Add(animationFrame);
}
for (int i = 0; i < frame.Count; i++)
{
odfFrame child = frame[i];
if (extractFrames.Contains((int)child.Id))
{
AnimationFrame childAnimationFrame = CreateFrame(child, parser, extractFrames, meshIDs, device, animationFrame.CombinedTransform, meshFrames);
childAnimationFrame.Parent = animationFrame;
animationFrame.AppendChild(childAnimationFrame);
}
}
numFrames++;
return(animationFrame);
}
