//find the chunk, replace the chunk, perhaps create or remove the reference public static void ReplaceChunk(this GenericRCOLResource rcolResource, MLOD.Mesh mesh, string field, IResourceKey rk, ARCOLBlock block) { ARCOLBlock current = GenericRCOLResource.ChunkReference.GetBlock(rcolResource, (GenericRCOLResource.ChunkReference)mesh[field].Value) as ARCOLBlock; if (block != null) { if (current != null) // replacing is easy { if (current.Tag != block.Tag) { throw new Exception(string.Format("mesh field {0} is '{1}' but replacement is '{2}'.", field, current.Tag, block.Tag)); } // ...not entirely sure if these are required... current.Data = block.Data; block = current; } else // adding is okay { rcolResource.ChunkEntries.Add(new GenericRCOLResource.ChunkEntry(0, null, new TGIBlock(0, null, rk), block)); mesh[field] = new TypedValue(typeof(GenericRCOLResource.ChunkReference), GenericRCOLResource.ChunkReference.CreateReference(rcolResource, rk), "X"); } } else // deleting is not allowed - we can only null the reference, not remove the chunk { mesh[field] = new TypedValue(typeof(GenericRCOLResource.ChunkReference), new GenericRCOLResource.ChunkReference(0, null, 0), "X"); } }
//Match what Wes's compiler does public static void FixUVScales(this GenericRCOLResource rcolResource, MLOD.Mesh mesh) { MATD matd = GetMATDforMesh(rcolResource, mesh.MaterialIndex); if (matd == null) { throw new ArgumentException("No MATD found for requested mesh"); } foreach (FieldType ft in new FieldType[] { FieldType.UVScales, FieldType.DiffuseUVSelector, FieldType.SpecularUVSelector, }) { ShaderData data = (matd.Version < 0x0103 ? matd.Mtrl.SData : matd.Mtnf.SData).Find(x => x.Field == ft); if (data == null) { continue; } if (!(data is ElementFloat3)) { throw new InvalidOperationException(String.Format("Found " + ft + " of type '{0}'; expected 'ElementFloat3'.", data.GetType().Name)); } ElementFloat3 e = data as ElementFloat3; e.Data0 = 1f / short.MaxValue; e.Data1 = 0f; e.Data2 = 0f; } }
public static void Export_GEOS(this StreamWriter w, MyProgressBar mpb, MLOD.Mesh mesh) { w.WriteLine(string.Format("geos {0}", mesh.GeometryStates.Count)); for (int g = 0; g < mesh.GeometryStates.Count; g++) { w.WriteLine(string.Format("{0} {1:X8}", g, mesh.GeometryStates[g].Name)); } }
void Export_IBUF_Main(StreamWriter w, IBUF ibuf, MLOD.Mesh mesh) { if (ibuf == null) { w.WriteLine("; ibuf is null"); w.WriteLine("ibuf 0"); return; } w.WriteLine(string.Format("ibuf {0}", mesh.PrimitiveCount)); w.Export_IBUF(mpb, ibuf.GetIndices(mesh), IBUF.IndexCountFromPrimitiveType(mesh.PrimitiveType), mesh.PrimitiveCount); }
public static float[] GetUVScales(this GenericRCOLResource rcolResource, MLOD.Mesh mesh) { MATD matd = GetMATDforMesh(rcolResource, mesh.MaterialIndex); if (matd != null) { ShaderData data = (matd.Version < 0x0103 ? matd.Mtrl.SData : matd.Mtnf.SData).Find(x => x.Field == FieldType.UVScales); if (data != null) { if (data is ElementFloat3) { ElementFloat3 e = data as ElementFloat3; return(new float[] { e.Data0, e.Data1, e.Data2, }); } else { throw new InvalidOperationException(String.Format("Found UVScales of type '{0}'; expected 'ElementFloat3'.", data.GetType().Name)); } } } return(new float[] { 1f / 32767f, 0f, 0f, }); }
void Export_IBUF_Geos(StreamWriter w, IBUF ibuf, MLOD.Mesh mesh, int geoStateIndex) { if (ibuf == null) { w.WriteLine("; ibuf is null for geoState"); w.WriteLine(string.Format("ibuf {0} 0 0", geoStateIndex)); return; } int sizePerPrimitive = IBUF.IndexCountFromPrimitiveType(mesh.PrimitiveType); MLOD.GeometryState geoState = mesh.GeometryStates[geoStateIndex]; if (geosIBUFIsContained(geoState, sizePerPrimitive, mesh)) { w.WriteLine("; ibuf is contained within main mesh"); } w.WriteLine(string.Format("ibuf {0} {1} {2}", geoStateIndex, geoState.StartIndex, geoState.PrimitiveCount)); if (geosIBUFIsContained(geoState, sizePerPrimitive, mesh)) { return; } w.Export_IBUF(mpb, ibuf.GetIndices(mesh, geoStateIndex), sizePerPrimitive, geoState.PrimitiveCount); }
public static void Export_SKIN(this StreamWriter w, MyProgressBar mpb, SKIN skin, MLOD.Mesh mesh) { if (skin == null) { w.WriteLine("; skin is null"); w.WriteLine("skin 0"); return; } if (!mesh.JointReferences.TrueForAll(x => skin.Bones.Exists(y => y.NameHash == x))) { w.WriteLine("; mesh.JointReferences references unknown bone."); w.WriteLine("skin 0"); return; } List <uint> seen = new List <uint>(); if (!mesh.JointReferences.TrueForAll(x => { if (seen.Contains(x)) { return(false); } seen.Add(x); return(true); })) { w.WriteLine("; mesh.JointReferences contains non-unique references."); w.WriteLine("skin 0"); return; } seen = null; w.WriteLine(string.Format("skin {0}", skin.Bones.Count)); mpb.Init("Export SKIN...", skin.Bones.Count); int i = 0; //Referenced bones //pre-20120601: foreach (var bone in skin.Bones.FindAll(x => mesh.JointReferences.Contains(x.NameHash))) foreach (var bone in ((IEnumerable <uint>)mesh.JointReferences).Select(hash => skin.Bones.Find(x => x.NameHash == hash))) { w.WriteLine(string.Format( //"{0} {1:X8} {2:R} {3:R} {4:R} {5:R} {6:R} {7:R} {8:R} {9:R} {10:R} {11:R} {12:R} {13:R}", "{0} {1:X8} {2:F6} {3:F6} {4:F6} {5:F6} {6:F6} {7:F6} {8:F6} {9:F6} {10:F6} {11:F6} {12:F6} {13:F6}", i++, bone.NameHash, bone.InverseBindPose.Right.X, bone.InverseBindPose.Right.Y, bone.InverseBindPose.Right.Z, bone.InverseBindPose.Translate.X, bone.InverseBindPose.Up.X, bone.InverseBindPose.Up.Y, bone.InverseBindPose.Up.Z, bone.InverseBindPose.Translate.Y, bone.InverseBindPose.Back.X, bone.InverseBindPose.Back.Y, bone.InverseBindPose.Back.Z, bone.InverseBindPose.Translate.Z)); mpb.Value++; } //Unreferenced bones foreach (var bone in skin.Bones.FindAll(x => !mesh.JointReferences.Contains(x.NameHash))) { w.WriteLine(string.Format( //"{0} {1:X8} {2:R} {3:R} {4:R} {5:R} {6:R} {7:R} {8:R} {9:R} {10:R} {11:R} {12:R} {13:R}", "{0} {1:X8} {2:F6} {3:F6} {4:F6} {5:F6} {6:F6} {7:F6} {8:F6} {9:F6} {10:F6} {11:F6} {12:F6} {13:F6}", i++, bone.NameHash, bone.InverseBindPose.Right.X, bone.InverseBindPose.Right.Y, bone.InverseBindPose.Right.Z, bone.InverseBindPose.Translate.X, bone.InverseBindPose.Up.X, bone.InverseBindPose.Up.Y, bone.InverseBindPose.Up.Z, bone.InverseBindPose.Translate.Y, bone.InverseBindPose.Back.X, bone.InverseBindPose.Back.Y, bone.InverseBindPose.Back.Z, bone.InverseBindPose.Translate.Z)); mpb.Value++; } w.Flush(); mpb.Done(); }
void Export_VBUF_Main(StreamWriter w, VBUF vbuf, VRTF vrtf, float[] uvScales, MLOD.Mesh mesh) { if (vbuf == null) { w.WriteLine("; vbuf is null"); w.WriteLine("vbuf 0"); return; } meshExpImp.ModelBlocks.Vertex[] av = vbuf.GetVertices(mesh, vrtf, uvScales); w.WriteLine(string.Format("vbuf {0}", av.Length)); w.Export_VBUF(mpb, av, vrtf); }
public void Export_MLOD(StreamWriter w, GenericRCOLResource rcolResource, MLOD mlod, MLOD.Mesh mesh) { float[] uvScales = rcolResource.GetUVScales(mesh); VRTF vrtf = GenericRCOLResource.ChunkReference.GetBlock(rcolResource, mesh.VertexFormatIndex) as VRTF; bool isDefault = vrtf == null; if (isDefault) { vrtf = VRTF.CreateDefaultForMesh(mesh); w.WriteLine(";;-marker: vrtf is default for mesh"); } w.Export_VRTF(mpb, vrtf); w.Export_SKIN(mpb, GenericRCOLResource.ChunkReference.GetBlock(rcolResource, mesh.SkinControllerIndex) as SKIN, mesh); Export_VBUF_Main(w, GenericRCOLResource.ChunkReference.GetBlock(rcolResource, mesh.VertexBufferIndex) as VBUF, vrtf, uvScales, mesh); Export_IBUF_Main(w, GenericRCOLResource.ChunkReference.GetBlock(rcolResource, mesh.IndexBufferIndex) as IBUF, mesh); }
public SceneMlodMesh(MLOD.Mesh mesh, GeometryModel3D model) : base(model) { Mesh = mesh; }
bool geosVBUFIsContained(MLOD.GeometryState geoState, MLOD.Mesh mesh) { return(geoState.MinVertexIndex + geoState.VertexCount <= mesh.MinVertexIndex + mesh.VertexCount); }
public void Export_MLOD(StreamWriter w, GenericRCOLResource rcolResource, MLOD mlod, MLOD.Mesh mesh) { float[] uvScales = rcolResource.GetUVScales(mesh); if (mesh.GeometryStates.Count > 0) { w.WriteLine(";"); w.WriteLine("; Extended format: GeoStates follow IBUF"); w.WriteLine(";"); } if (mesh.Flags != 0) { w.WriteLine(";"); w.WriteLine("; Extended format: MeshFlags follow IBUF" + (mesh.GeometryStates.Count > 0 ? " and GeoStates" : "")); w.WriteLine("; (They are ignored on import.)"); w.WriteLine(";"); } VRTF vrtf = GenericRCOLResource.ChunkReference.GetBlock(rcolResource, mesh.VertexFormatIndex) as VRTF; bool isDefault = vrtf == null; if (isDefault) { vrtf = VRTF.CreateDefaultForMesh(mesh); w.WriteLine(";;-marker: vrtf is default for mesh"); } w.Export_VRTF(mpb, vrtf); w.Export_SKIN(mpb, GenericRCOLResource.ChunkReference.GetBlock(rcolResource, mesh.SkinControllerIndex) as SKIN, mesh); Export_VBUF_Main(w, GenericRCOLResource.ChunkReference.GetBlock(rcolResource, mesh.VertexBufferIndex) as VBUF, vrtf, uvScales, mesh); Export_IBUF_Main(w, GenericRCOLResource.ChunkReference.GetBlock(rcolResource, mesh.IndexBufferIndex) as IBUF, mesh); //For backward compatibility, these come after the IBUFs Export_MeshGeoStates(w, vrtf, uvScales, mlod, mesh, GenericRCOLResource.ChunkReference.GetBlock(rcolResource, mesh.VertexBufferIndex) as VBUF, GenericRCOLResource.ChunkReference.GetBlock(rcolResource, mesh.IndexBufferIndex) as IBUF); if (mesh.Flags != 0) { w.WriteLine(";"); w.WriteLine("; Extended format: MeshFlags"); w.WriteLine(";"); w.WriteLine("flags " + mesh.Flags); w.Flush(); } }
bool geosIBUFIsContained(MLOD.GeometryState geoState, int sizePerPrimitive, MLOD.Mesh mesh) { return(geoState.StartIndex + geoState.PrimitiveCount * sizePerPrimitive <= mesh.StartIndex + mesh.PrimitiveCount * sizePerPrimitive); }
void Export_VBUF_Geos(StreamWriter w, VBUF vbuf, VRTF vrtf, float[] uvScales, MLOD.Mesh mesh, int geoStateIndex) { if (vbuf == null) { w.WriteLine("; vbuf is null for geoState"); w.WriteLine(string.Format("vbuf {0} 0 0", geoStateIndex)); return; } MLOD.GeometryState geoState = mesh.GeometryStates[geoStateIndex]; if (geosVBUFIsContained(geoState, mesh)) { w.WriteLine("; vbuf is contained within main mesh"); } w.WriteLine(string.Format("vbuf {0} {1} {2}", geoStateIndex, geoState.MinVertexIndex, geoState.VertexCount)); if (geosVBUFIsContained(geoState, mesh)) { return; } w.Export_VBUF(mpb, vbuf.GetVertices(mesh, vrtf, geoState, uvScales), vrtf); }
public static void Import_GEOS(this StreamReader r, MyProgressBar mpb, MLOD.Mesh mesh) { if (r.EndOfStream) { mesh.GeometryStates = new MLOD.GeometryStateList(null); return; } string tagLine = r.ReadTag(); string[] split = tagLine.Split(new char[] { ' ', }, StringSplitOptions.RemoveEmptyEntries); if (split.Length != 2 || split[0] != "geos") { return; } int count; if (!int.TryParse(split[1], out count)) { throw new InvalidDataException("'geos' line has invalid count."); } mpb.Init("Import MeshGeoStates...", count); int sizePerPrimitive = IBUF.IndexCountFromPrimitiveType(mesh.PrimitiveType); int lastMinVertexIndex = mesh.MinVertexIndex; int lastVertexCount = 0; int lastStartIndex = mesh.PrimitiveCount * IBUF.IndexCountFromPrimitiveType(mesh.PrimitiveType); int lastPrimitiveCount = 0; for (int g = 0; g < count; g++) { split = r.ReadLine().Split(new char[] { ' ', }, StringSplitOptions.RemoveEmptyEntries); if (split.Length != 2) { throw new InvalidDataException(string.Format("'geos' line {0} has invalid format.", g)); } int index; if (!int.TryParse(split[0], out index)) { throw new InvalidDataException(string.Format("'geos' line {0} has invalid line index.", g)); } if (index != g) { throw new InvalidDataException(string.Format("'geos' line {0} has incorrect line index value {1}.", g, index)); } uint name; if (!uint.TryParse(split[1], System.Globalization.NumberStyles.HexNumber, null, out name)) { throw new InvalidDataException(string.Format("'geos' line {0} has invalid name hash.", g)); } if (g < mesh.GeometryStates.Count) { mesh.GeometryStates[g].Name = name; lastMinVertexIndex = mesh.GeometryStates[g].MinVertexIndex; lastVertexCount = mesh.GeometryStates[g].VertexCount; lastStartIndex = mesh.GeometryStates[g].StartIndex; lastPrimitiveCount = mesh.GeometryStates[g].PrimitiveCount; } else { mesh.GeometryStates.Add(new MLOD.GeometryState(0, null) { Name = name, MinVertexIndex = lastMinVertexIndex + lastVertexCount, VertexCount = 0, StartIndex = lastStartIndex + lastPrimitiveCount * sizePerPrimitive, PrimitiveCount = 0, }); } mpb.Value = g; } mpb.Done(); }
//-- public void Import_Mesh(StreamReader r, MLOD.Mesh mesh, GenericRCOLResource rcolResource, MLOD mlod, IResourceKey defaultRK, out meshExpImp.ModelBlocks.Vertex[] mverts) { #region Import VRTF bool isDefaultVRTF = false; VRTF defaultForMesh = VRTF.CreateDefaultForMesh(mesh); VRTF vrtf = new VRTF(rcolResource.RequestedApiVersion, null) { Version = 2, Layouts = null, }; r.Import_VRTF(mpb, vrtf); IResourceKey vrtfRK = GenericRCOLResource.ChunkReference.GetKey(rcolResource, mesh.VertexFormatIndex); if (vrtfRK == null) { vrtfRK = GenericRCOLResource.ChunkReference.GetKey(rcolResource, mesh.SkinControllerIndex); if (vrtfRK == null) { vrtfRK = GenericRCOLResource.ChunkReference.GetKey(rcolResource, mesh.ScaleOffsetIndex); } if (vrtfRK == null) { vrtfRK = new TGIBlock(0, null, 0, 0, System.Security.Cryptography.FNV64.GetHash(DateTime.UtcNow.ToString() + defaultRK.ToString())); } vrtfRK = new TGIBlock(0, null, vrtfRK) { ResourceType = vrtf.ResourceType, }; } if (vrtf.Equals(defaultForMesh)) { isDefaultVRTF = true; mesh.VertexFormatIndex = new GenericRCOLResource.ChunkReference(0, null, 0);//Clear the reference } else { rcolResource.ReplaceChunk(mesh, "VertexFormatIndex", vrtfRK, vrtf); } #endregion #region Import SKIN // we need to read the data in the file... SKIN skin = new SKIN(rcolResource.RequestedApiVersion, null) { Version = 1, Bones = null, }; r.Import_SKIN(mpb, skin); // However, we do *NOT* want to update the RCOL with what we read - we are not replacing the object skeleton here #if UNDEF if (skin.Bones != null) { IResourceKey skinRK = GenericRCOLResource.ChunkReference.GetKey(rcolResource, mesh.SkinControllerIndex); if (skinRK == null) { skinRK = new TGIBlock(0, null, vrtfRK) { ResourceType = skin.ResourceType, } } ; rcolResource.ReplaceChunk(mesh, "SkinControllerIndex", skinRK, skin); } #endif #endregion mverts = Import_VBUF_Main(r, mlod, mesh, vrtf, isDefaultVRTF); #region Import IBUF IBUF ibuf = GenericRCOLResource.ChunkReference.GetBlock(rcolResource, mesh.IndexBufferIndex) as IBUF; if (ibuf == null) { ibuf = new IBUF(rcolResource.RequestedApiVersion, null) { Version = 2, Flags = IBUF.FormatFlags.DifferencedIndices, DisplayListUsage = 0, } } ; Import_IBUF_Main(r, mlod, mesh, ibuf); IResourceKey ibufRK = GenericRCOLResource.ChunkReference.GetKey(rcolResource, mesh.IndexBufferIndex); if (ibufRK == null) { ibufRK = new TGIBlock(0, null, defaultRK) { ResourceType = ibuf.ResourceType, } } ; rcolResource.ReplaceChunk(mesh, "IndexBufferIndex", ibufRK, ibuf); #endregion #region Update the JointReferences UIntList joints = CreateJointReferences(mesh, mverts, skin); List <uint> added = new List <uint>(joints); List <uint> removed = new List <uint>(); foreach (var j in mesh.JointReferences) { if (joints.Contains(j)) { added.Remove(j); } else { removed.Add(j); } } // Remove root removed.Remove(0xCD68F001); if (added.Count != 0) { mesh.JointReferences.AddRange(added); System.Windows.Forms.CopyableMessageBox.Show(String.Format("Mesh: 0x{0:X8}\nJointReferences with newly assigned (via BlendIndex) vertex: {1}\n({2})", mesh.Name, added.Count, String.Join(", ", added.ConvertAll <string>(a => "0x" + a.ToString("X8")).ToArray())), "Warning", System.Windows.Forms.CopyableMessageBoxButtons.OK, System.Windows.Forms.CopyableMessageBoxIcon.Warning); } // with the 20120601 change to export, this warning on import has lost its severity... and been dropped. #if UNDEF if (removed.Count != 0) { //#if UNDEF // http://dino.drealm.info/den/denforum/index.php?topic=394.msg3876#msg3876 removed.ForEach(j => mesh.JointReferences[mesh.JointReferences.IndexOf(j)] = 0); //#endif // However, OM felt more comfortable if there was some indication something a little odd was going on. System.Windows.Forms.CopyableMessageBox.Show(String.Format("Mesh: 0x{0:X8}\nJointReferences with no assigned (via BlendIndex) vertex: {1}\n({2})", mesh.Name, removed.Count, String.Join(", ", removed.ConvertAll <string>(a => "0x" + a.ToString("X8")).ToArray())), "Warning", System.Windows.Forms.CopyableMessageBoxButtons.OK, System.Windows.Forms.CopyableMessageBoxIcon.Warning); } #endif #endregion } ModelBlocks.Vertex[] Import_VBUF_Main(StreamReader r, MLOD mlod, MLOD.Mesh mesh, VRTF vrtf, bool isDefaultVRTF) { string tagLine = r.ReadTag(); string[] split = tagLine.Split(new char[] { ' ', }, StringSplitOptions.RemoveEmptyEntries); if (split.Length != 2) { throw new InvalidDataException("Invalid tag line read for 'vbuf'."); } if (split[0] != "vbuf") { throw new InvalidDataException("Expected line tag 'vbuf' not found."); } int count; if (!int.TryParse(split[1], out count)) { throw new InvalidDataException("'vbuf' line has invalid count."); } //Wes's MilkShape plug-in sends back the first line in all subsequent lines of a dropShadow. return(r.Import_VBUF(mpb, count, vrtf, (mesh.Flags & MeshFlags.ShadowCaster) == 0)); } void Import_IBUF_Main(StreamReader r, MLOD mlod, MLOD.Mesh mesh, IBUF ibuf) { string tagLine = r.ReadTag(); string[] split = tagLine.Split(new char[] { ' ', }, StringSplitOptions.RemoveEmptyEntries); if (split.Length != 2) { throw new InvalidDataException("Invalid tag line read for 'ibuf'."); } if (split[0] != "ibuf") { throw new InvalidDataException("Expected line tag 'ibuf' not found."); } int count; if (!int.TryParse(split[1], out count)) { throw new InvalidDataException("'ibuf' line has invalid count."); } ibuf.SetIndices(mlod, mesh, r.Import_IBUF(mpb, IBUF.IndexCountFromPrimitiveType(mesh.PrimitiveType), count)); } UIntList CreateJointReferences(MLOD.Mesh mesh, ModelBlocks.Vertex[] mverts, SKIN skin) { if (skin == null || skin.Bones == null) { return(new UIntList(null)); } int maxReference = -1; foreach (var vert in mverts) { if (vert.BlendIndices != null) { foreach (var reference in vert.BlendIndices) { if ((sbyte)reference > maxReference) { maxReference = reference; } } } } return(maxReference > -1 ? new UIntList(null, skin.Bones.GetRange(0, maxReference + 1).ConvertAll <uint>(x => x.NameHash)) : new UIntList(null)); }
//-- public void Import_Mesh(StreamReader r, MLOD.Mesh mesh, GenericRCOLResource rcolResource, MLOD mlod, IResourceKey defaultRK, out meshExpImp.ModelBlocks.Vertex[] mverts, out List <meshExpImp.ModelBlocks.Vertex[]> lverts) { #region Import VRTF bool isDefaultVRTF = false; VRTF defaultForMesh = VRTF.CreateDefaultForMesh(mesh); VRTF vrtf = new VRTF(rcolResource.RequestedApiVersion, null) { Version = 2, Layouts = null, }; r.Import_VRTF(mpb, vrtf); IResourceKey vrtfRK = GenericRCOLResource.ChunkReference.GetKey(rcolResource, mesh.VertexFormatIndex); if (vrtfRK == null) { vrtfRK = GenericRCOLResource.ChunkReference.GetKey(rcolResource, mesh.SkinControllerIndex); if (vrtfRK == null) { vrtfRK = GenericRCOLResource.ChunkReference.GetKey(rcolResource, mesh.ScaleOffsetIndex); } if (vrtfRK == null) { vrtfRK = new TGIBlock(0, null, 0, 0, System.Security.Cryptography.FNV64.GetHash(DateTime.UtcNow.ToString() + defaultRK.ToString())); } vrtfRK = new TGIBlock(0, null, vrtfRK) { ResourceType = vrtf.ResourceType, }; } if (vrtf.Equals(defaultForMesh)) { isDefaultVRTF = true; mesh.VertexFormatIndex = new GenericRCOLResource.ChunkReference(0, null, 0);//Clear the reference } else { rcolResource.ReplaceChunk(mesh, "VertexFormatIndex", vrtfRK, vrtf); } #endregion #region Import SKIN // we need to read the data in the file... SKIN skin = new SKIN(rcolResource.RequestedApiVersion, null) { Version = 1, Bones = null, }; r.Import_SKIN(mpb, skin); // However, we do *NOT* want to update the RCOL with what we read - we are not replacing the object skeleton here #if UNDEF if (skin.Bones != null) { IResourceKey skinRK = GenericRCOLResource.ChunkReference.GetKey(rcolResource, mesh.SkinControllerIndex); if (skinRK == null) { skinRK = new TGIBlock(0, null, vrtfRK) { ResourceType = skin.ResourceType, } } ; rcolResource.ReplaceChunk(mesh, "SkinControllerIndex", skinRK, skin); } #endif #endregion mverts = Import_VBUF_Main(r, mlod, mesh, vrtf, isDefaultVRTF); #region Import IBUF IBUF ibuf = GenericRCOLResource.ChunkReference.GetBlock(rcolResource, mesh.IndexBufferIndex) as IBUF; if (ibuf == null) { ibuf = new IBUF(rcolResource.RequestedApiVersion, null) { Version = 2, Flags = IBUF.FormatFlags.DifferencedIndices, DisplayListUsage = 0, } } ; Import_IBUF_Main(r, mlod, mesh, ibuf); IResourceKey ibufRK = GenericRCOLResource.ChunkReference.GetKey(rcolResource, mesh.IndexBufferIndex); if (ibufRK == null) { ibufRK = new TGIBlock(0, null, defaultRK) { ResourceType = ibuf.ResourceType, } } ; rcolResource.ReplaceChunk(mesh, "IndexBufferIndex", ibufRK, ibuf); #endregion // This reads both VBUF Vertex[]s and the ibufs; but the ibufs just go straight in quite happily lverts = Import_MeshGeoStates(r, mlod, mesh, vrtf, isDefaultVRTF, ibuf); #region Update the JointReferences UIntList joints = CreateJointReferences(mesh, mverts, lverts ?? new List <meshExpImp.ModelBlocks.Vertex[]>(), skin); List <uint> added = new List <uint>(joints); List <uint> removed = new List <uint>(); foreach (var j in mesh.JointReferences) { if (joints.Contains(j)) { added.Remove(j); } else { removed.Add(j); } } // Remove root removed.Remove(0xCD68F001); if (added.Count != 0) { mesh.JointReferences.AddRange(added); System.Windows.Forms.CopyableMessageBox.Show(String.Format("Mesh: 0x{0:X8}\nJointReferences with newly assigned (via BlendIndex) vertex: {1}\n({2})", mesh.Name, added.Count, String.Join(", ", added.ConvertAll <string>(a => "0x" + a.ToString("X8")).ToArray())), "Warning", System.Windows.Forms.CopyableMessageBoxButtons.OK, System.Windows.Forms.CopyableMessageBoxIcon.Warning); } // with the 20120601 change to export, this warning on import has lost its severity... and been dropped. #if UNDEF if (removed.Count != 0) { //#if UNDEF // http://dino.drealm.info/den/denforum/index.php?topic=394.msg3876#msg3876 removed.ForEach(j => mesh.JointReferences[mesh.JointReferences.IndexOf(j)] = 0); //#endif // However, OM felt more comfortable if there was some indication something a little odd was going on. System.Windows.Forms.CopyableMessageBox.Show(String.Format("Mesh: 0x{0:X8}\nJointReferences with no assigned (via BlendIndex) vertex: {1}\n({2})", mesh.Name, removed.Count, String.Join(", ", removed.ConvertAll <string>(a => "0x" + a.ToString("X8")).ToArray())), "Warning", System.Windows.Forms.CopyableMessageBoxButtons.OK, System.Windows.Forms.CopyableMessageBoxIcon.Warning); } #endif #endregion } meshExpImp.ModelBlocks.Vertex[] Import_VBUF_Main(StreamReader r, MLOD mlod, MLOD.Mesh mesh, VRTF vrtf, bool isDefaultVRTF) { string tagLine = r.ReadTag(); string[] split = tagLine.Split(new char[] { ' ', }, StringSplitOptions.RemoveEmptyEntries); if (split.Length != 2) { throw new InvalidDataException("Invalid tag line read for 'vbuf'."); } if (split[0] != "vbuf") { throw new InvalidDataException("Expected line tag 'vbuf' not found."); } int count; if (!int.TryParse(split[1], out count)) { throw new InvalidDataException("'vbuf' line has invalid count."); } return(r.Import_VBUF(mpb, count, vrtf)); } void Import_IBUF_Main(StreamReader r, MLOD mlod, MLOD.Mesh mesh, IBUF ibuf) { string tagLine = r.ReadTag(); string[] split = tagLine.Split(new char[] { ' ', }, StringSplitOptions.RemoveEmptyEntries); if (split.Length != 2) { throw new InvalidDataException("Invalid tag line read for 'ibuf'."); } if (split[0] != "ibuf") { throw new InvalidDataException("Expected line tag 'ibuf' not found."); } int count; if (!int.TryParse(split[1], out count)) { throw new InvalidDataException("'ibuf' line has invalid count."); } ibuf.SetIndices(mlod, mesh, r.Import_IBUF(mpb, IBUF.IndexCountFromPrimitiveType(mesh.PrimitiveType), count)); } List <meshExpImp.ModelBlocks.Vertex[]> Import_MeshGeoStates(StreamReader r, MLOD mlod, MLOD.Mesh mesh, VRTF vrtf, bool isDefaultVRTF, IBUF ibuf) { MLOD.GeometryStateList oldGeos = new MLOD.GeometryStateList(null, mesh.GeometryStates); r.Import_GEOS(mpb, mesh); if (mesh.GeometryStates.Count <= 0) { return(null); } List <meshExpImp.ModelBlocks.Vertex[]> lverts = new List <meshExpImp.ModelBlocks.Vertex[]>(); for (int g = 0; g < mesh.GeometryStates.Count; g++) { lverts.Add(Import_VBUF_Geos(r, mlod, mesh, g, vrtf, isDefaultVRTF)); Import_IBUF_Geos(r, mlod, mesh, g, ibuf); } return(lverts); } UIntList CreateJointReferences(MLOD.Mesh mesh, meshExpImp.ModelBlocks.Vertex[] mverts, List <meshExpImp.ModelBlocks.Vertex[]> lverts, SKIN skin) { if (skin == null || skin.Bones == null) { return(new UIntList(null)); } int maxReference = -1; lverts.Insert(0, mverts); foreach (var vertices in lverts) { if (vertices != null) { foreach (var vert in vertices) { if (vert.BlendIndices != null) { foreach (var reference in vert.BlendIndices) { if ((sbyte)reference > maxReference) { maxReference = reference; } } } } } } lverts.Remove(mverts); return(maxReference > -1 ? new UIntList(null, skin.Bones.GetRange(0, maxReference + 1).ConvertAll <uint>(x => x.NameHash)) : new UIntList(null)); } meshExpImp.ModelBlocks.Vertex[] Import_VBUF_Geos(StreamReader r, MLOD mlod, MLOD.Mesh mesh, int geoStateIndex, VRTF vrtf, bool isDefaultVRTF) { //w.WriteLine(string.Format("vbuf {0} {1} {2}", geoStateIndex, mesh.GeometryStates[geoStateIndex].MinVertexIndex, mesh.GeometryStates[geoStateIndex].VertexCount)); string tagLine = r.ReadTag(); string[] split = tagLine.Split(new char[] { ' ', }, StringSplitOptions.RemoveEmptyEntries); if (split.Length != 4) { throw new InvalidDataException(string.Format("Invalid tag line read for geoState {0} 'vbuf'.", geoStateIndex)); } if (split[0] != "vbuf") { throw new InvalidDataException("Expected line tag 'vbuf' not found."); } int lineIndex; if (!int.TryParse(split[1], out lineIndex)) { throw new InvalidDataException(string.Format("geoState {0} 'vbuf' line has invalid geoStateIndex.", geoStateIndex)); } if (lineIndex != geoStateIndex) { throw new InvalidDataException(string.Format("geoState {0} 'vbuf' line has incorrect geoStateIndex value {1}.", geoStateIndex, lineIndex)); } int minVertexIndex; if (!int.TryParse(split[2], out minVertexIndex)) { throw new InvalidDataException(string.Format("geoState {0} 'vbuf' line has invalid MinVertexIndex.", geoStateIndex)); } int vertexCount; if (!int.TryParse(split[3], out vertexCount)) { throw new InvalidDataException(string.Format("geoState {0} 'vbuf' line has invalid VertexCount.", geoStateIndex)); } if (minVertexIndex + vertexCount <= mesh.MinVertexIndex + mesh.VertexCount) { mesh.GeometryStates[geoStateIndex].MinVertexIndex = minVertexIndex; mesh.GeometryStates[geoStateIndex].VertexCount = vertexCount; return(null); } if (minVertexIndex != mesh.GeometryStates[geoStateIndex].MinVertexIndex) { throw new InvalidDataException(string.Format("geoState {0} 'vbuf' line has unexpected MinVertexIndex {1}; expected {2}.", geoStateIndex, minVertexIndex, mesh.GeometryStates[geoStateIndex].MinVertexIndex)); } return(r.Import_VBUF(mpb, vertexCount, vrtf)); } void Import_IBUF_Geos(StreamReader r, MLOD mlod, MLOD.Mesh mesh, int geoStateIndex, IBUF ibuf) { //w.WriteLine(string.Format("ibuf {0} {1} {2}", geoStateIndex, mesh.GeometryStates[geoStateIndex].StartIndex, mesh.GeometryStates[geoStateIndex].PrimitiveCount)); string tagLine = r.ReadTag(); string[] split = tagLine.Split(new char[] { ' ', }, StringSplitOptions.RemoveEmptyEntries); if (split.Length != 4) { throw new InvalidDataException("Invalid tag line read for 'ibuf'."); } if (split[0] != "ibuf") { throw new InvalidDataException("Expected line tag 'ibuf' not found."); } int lineIndex; if (!int.TryParse(split[1], out lineIndex)) { throw new InvalidDataException(string.Format("geoState {0} 'ibuf' line has invalid geoStateIndex.", geoStateIndex)); } if (lineIndex != geoStateIndex) { throw new InvalidDataException(string.Format("geoState {0} 'ibuf' line has incorrect geoStateIndex value {1}.", geoStateIndex, lineIndex)); } int startIndex; if (!int.TryParse(split[2], out startIndex)) { throw new InvalidDataException(string.Format("geoState {0} 'ibuf' line has invalid StartIndex.", geoStateIndex)); } int primitiveCount; if (!int.TryParse(split[3], out primitiveCount)) { throw new InvalidDataException(string.Format("geoState {0} 'ibuf' line has invalid PrimitiveCount.", geoStateIndex)); } int sizePerPrimitive = IBUF.IndexCountFromPrimitiveType(mesh.PrimitiveType); if (startIndex + primitiveCount * sizePerPrimitive <= mesh.StartIndex + mesh.PrimitiveCount * sizePerPrimitive) { mesh.GeometryStates[geoStateIndex].StartIndex = startIndex; mesh.GeometryStates[geoStateIndex].PrimitiveCount = primitiveCount; return; } if (startIndex != mesh.GeometryStates[geoStateIndex].StartIndex) { throw new InvalidDataException(string.Format("geoState {0} 'ibuf' line has unexpected StartIndex {1}; expected {2}.", geoStateIndex, startIndex, mesh.GeometryStates[geoStateIndex].StartIndex)); } ibuf.SetIndices(mlod, mesh, geoStateIndex, r.Import_IBUF(mpb, IBUF.IndexCountFromPrimitiveType(mesh.PrimitiveType), primitiveCount)); }
void Export_MeshGeoStates(StreamWriter w, VRTF vrtf, float[] uvScales, MLOD mlod, MLOD.Mesh mesh, VBUF vbuf, IBUF ibuf) { if (mesh.GeometryStates.Count <= 0) { return; } w.WriteLine(";"); w.WriteLine("; Extended format: GeoStates"); w.WriteLine(";"); w.Export_GEOS(mpb, mesh); for (int g = 0; g < mesh.GeometryStates.Count; g++) { Export_VBUF_Geos(w, vbuf, vrtf, uvScales, mesh, g); Export_IBUF_Geos(w, ibuf, mesh, g); } w.Flush(); }