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Add some Additional Information to Mdl display, discard some padding when reading mdl files.

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This commit is contained in:
Ottermandias 2023-01-03 12:52:21 +01:00
parent 36c77034a4
commit 8df4bb0781
4 changed files with 315 additions and 241 deletions
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442
Penumbra.GameData/Files/MdlFile.Write.cs
View file

@ -9,309 +9,277 @@ namespace Penumbra.GameData.Files;
public partial class MdlFile public partial class MdlFile
{ {
private static uint Write( BinaryWriter w, string s, long basePos ) private static uint Write(BinaryWriter w, string s, long basePos)
{ {
var currentPos = w.BaseStream.Position; var currentPos = w.BaseStream.Position;
w.Write( Encoding.UTF8.GetBytes( s ) ); w.Write(Encoding.UTF8.GetBytes(s));
w.Write( ( byte )0 ); w.Write((byte)0);
return ( uint )( currentPos - basePos ); return (uint)(currentPos - basePos);
} }
private List< uint > WriteStrings( BinaryWriter w ) private List<uint> WriteStrings(BinaryWriter w)
{ {
var startPos = ( int )w.BaseStream.Position; var startPos = (int)w.BaseStream.Position;
var basePos = startPos + 8; var basePos = startPos + 8;
var count = ( ushort )( Attributes.Length + Bones.Length + Materials.Length + Shapes.Length ); var count = (ushort)(Attributes.Length + Bones.Length + Materials.Length + Shapes.Length);
w.Write( count ); w.Write(count);
w.Seek( basePos, SeekOrigin.Begin ); w.Seek(basePos, SeekOrigin.Begin);
var ret = Attributes.Concat( Bones ) var ret = Attributes.Concat(Bones)
.Concat( Materials ) .Concat(Materials)
.Concat( Shapes.Select( s => s.ShapeName ) ) .Concat(Shapes.Select(s => s.ShapeName))
.Select( attribute => Write( w, attribute, basePos ) ).ToList(); .Select(attribute => Write(w, attribute, basePos)).ToList();
w.Write( ( ushort )0 ); // Seems to always have two additional null-bytes, not padding. var padding = (w.BaseStream.Position & 0b111) > 0 ? (w.BaseStream.Position & ~0b111) + 8 : w.BaseStream.Position;
var size = ( int )w.BaseStream.Position - basePos; for (var i = w.BaseStream.Position; i < padding; ++i)
w.Seek( startPos + 4, SeekOrigin.Begin ); w.Write((byte)0);
w.Write( ( uint )size ); var size = (int)w.BaseStream.Position - basePos;
w.Seek( basePos + size, SeekOrigin.Begin ); w.Seek(startPos + 4, SeekOrigin.Begin);
w.Write((uint)size);
w.Seek(basePos + size, SeekOrigin.Begin);
return ret; return ret;
} }
private void WriteModelFileHeader( BinaryWriter w, uint runtimeSize ) private void WriteModelFileHeader(BinaryWriter w, uint runtimeSize)
{ {
w.Write( Version ); w.Write(Version);
w.Write( StackSize ); w.Write(StackSize);
w.Write( runtimeSize ); w.Write(runtimeSize);
w.Write( ( ushort )VertexDeclarations.Length ); w.Write((ushort)VertexDeclarations.Length);
w.Write( ( ushort )Materials.Length ); w.Write((ushort)Materials.Length);
w.Write( VertexOffset[ 0 ] > 0 ? VertexOffset[ 0 ] + runtimeSize : 0u ); w.Write(VertexOffset[0] > 0 ? VertexOffset[0] + runtimeSize : 0u);
w.Write( VertexOffset[ 1 ] > 0 ? VertexOffset[ 1 ] + runtimeSize : 0u ); w.Write(VertexOffset[1] > 0 ? VertexOffset[1] + runtimeSize : 0u);
w.Write( VertexOffset[ 2 ] > 0 ? VertexOffset[ 2 ] + runtimeSize : 0u ); w.Write(VertexOffset[2] > 0 ? VertexOffset[2] + runtimeSize : 0u);
w.Write( IndexOffset[ 0 ] > 0 ? IndexOffset[ 0 ] + runtimeSize : 0u ); w.Write(IndexOffset[0] > 0 ? IndexOffset[0] + runtimeSize : 0u);
w.Write( IndexOffset[ 1 ] > 0 ? IndexOffset[ 1 ] + runtimeSize : 0u ); w.Write(IndexOffset[1] > 0 ? IndexOffset[1] + runtimeSize : 0u);
w.Write( IndexOffset[ 2 ] > 0 ? IndexOffset[ 2 ] + runtimeSize : 0u ); w.Write(IndexOffset[2] > 0 ? IndexOffset[2] + runtimeSize : 0u);
w.Write( VertexBufferSize[ 0 ] ); w.Write(VertexBufferSize[0]);
w.Write( VertexBufferSize[ 1 ] ); w.Write(VertexBufferSize[1]);
w.Write( VertexBufferSize[ 2 ] ); w.Write(VertexBufferSize[2]);
w.Write( IndexBufferSize[ 0 ] ); w.Write(IndexBufferSize[0]);
w.Write( IndexBufferSize[ 1 ] ); w.Write(IndexBufferSize[1]);
w.Write( IndexBufferSize[ 2 ] ); w.Write(IndexBufferSize[2]);
w.Write( LodCount ); w.Write(LodCount);
w.Write( EnableIndexBufferStreaming ); w.Write(EnableIndexBufferStreaming);
w.Write( EnableEdgeGeometry ); w.Write(EnableEdgeGeometry);
w.Write( ( byte )0 ); // Padding w.Write((byte)0); // Padding
} }
private void WriteModelHeader( BinaryWriter w ) private void WriteModelHeader(BinaryWriter w)
{ {
w.Write( Radius ); w.Write(Radius);
w.Write( ( ushort )Meshes.Length ); w.Write((ushort)Meshes.Length);
w.Write( ( ushort )Attributes.Length ); w.Write((ushort)Attributes.Length);
w.Write( ( ushort )SubMeshes.Length ); w.Write((ushort)SubMeshes.Length);
w.Write( ( ushort )Materials.Length ); w.Write((ushort)Materials.Length);
w.Write( ( ushort )Bones.Length ); w.Write((ushort)Bones.Length);
w.Write( ( ushort )BoneTables.Length ); w.Write((ushort)BoneTables.Length);
w.Write( ( ushort )Shapes.Length ); w.Write((ushort)Shapes.Length);
w.Write( ( ushort )ShapeMeshes.Length ); w.Write((ushort)ShapeMeshes.Length);
w.Write( ( ushort )ShapeValues.Length ); w.Write((ushort)ShapeValues.Length);
w.Write( LodCount ); w.Write(LodCount);
w.Write( ( byte )Flags1 ); w.Write((byte)Flags1);
w.Write( ( ushort )ElementIds.Length ); w.Write((ushort)ElementIds.Length);
w.Write( ( byte )TerrainShadowMeshes.Length ); w.Write((byte)TerrainShadowMeshes.Length);
w.Write( ( byte )Flags2 ); w.Write((byte)Flags2);
w.Write( ModelClipOutDistance ); w.Write(ModelClipOutDistance);
w.Write( ShadowClipOutDistance ); w.Write(ShadowClipOutDistance);
w.Write( Unknown4 ); w.Write(Unknown4);
w.Write( ( ushort )TerrainShadowSubMeshes.Length ); w.Write((ushort)TerrainShadowSubMeshes.Length);
w.Write( Unknown5 ); w.Write(Unknown5);
w.Write( BgChangeMaterialIndex ); w.Write(BgChangeMaterialIndex);
w.Write( BgCrestChangeMaterialIndex ); w.Write(BgCrestChangeMaterialIndex);
w.Write( Unknown6 ); w.Write(Unknown6);
w.Write( Unknown7 ); w.Write(Unknown7);
w.Write( Unknown8 ); w.Write(Unknown8);
w.Write( Unknown9 ); w.Write(Unknown9);
w.Write( ( uint )0 ); // 6 byte padding w.Write((uint)0); // 6 byte padding
w.Write( ( ushort )0 ); w.Write((ushort)0);
} }
private static void Write( BinaryWriter w, in MdlStructs.VertexElement vertex ) private static void Write(BinaryWriter w, in MdlStructs.VertexElement vertex)
{ {
w.Write( vertex.Stream ); w.Write(vertex.Stream);
w.Write( vertex.Offset ); w.Write(vertex.Offset);
w.Write( vertex.Type ); w.Write(vertex.Type);
w.Write( vertex.Usage ); w.Write(vertex.Usage);
w.Write( vertex.UsageIndex ); w.Write(vertex.UsageIndex);
w.Write( ( ushort )0 ); // 3 byte padding w.Write((ushort)0); // 3 byte padding
w.Write( ( byte )0 ); w.Write((byte)0);
} }
private static void Write( BinaryWriter w, in MdlStructs.VertexDeclarationStruct vertexDecl ) private static void Write(BinaryWriter w, in MdlStructs.VertexDeclarationStruct vertexDecl)
{ {
foreach( var vertex in vertexDecl.VertexElements ) foreach (var vertex in vertexDecl.VertexElements)
Write(w, vertex);
Write(w, new MdlStructs.VertexElement() { Stream = 255 });
w.Seek((int)(NumVertices - 1 - vertexDecl.VertexElements.Length) * 8, SeekOrigin.Current);
}
private static void Write(BinaryWriter w, in MdlStructs.ElementIdStruct elementId)
{
w.Write(elementId.ElementId);
w.Write(elementId.ParentBoneName);
w.Write(elementId.Translate[0]);
w.Write(elementId.Translate[1]);
w.Write(elementId.Translate[2]);
w.Write(elementId.Rotate[0]);
w.Write(elementId.Rotate[1]);
w.Write(elementId.Rotate[2]);
}
private static unsafe void Write<T>(BinaryWriter w, in T data) where T : unmanaged
{
fixed (T* ptr = &data)
{ {
Write( w, vertex ); var bytePtr = (byte*)ptr;
} var size = sizeof(T);
var span = new ReadOnlySpan<byte>(bytePtr, size);
Write( w, new MdlStructs.VertexElement() { Stream = 255 } ); w.Write(span);
w.Seek( ( int )( NumVertices - 1 - vertexDecl.VertexElements.Length ) * 8, SeekOrigin.Current );
}
private static void Write( BinaryWriter w, in MdlStructs.ElementIdStruct elementId )
{
w.Write( elementId.ElementId );
w.Write( elementId.ParentBoneName );
w.Write( elementId.Translate[ 0 ] );
w.Write( elementId.Translate[ 1 ] );
w.Write( elementId.Translate[ 2 ] );
w.Write( elementId.Rotate[ 0 ] );
w.Write( elementId.Rotate[ 1 ] );
w.Write( elementId.Rotate[ 2 ] );
}
private static unsafe void Write< T >( BinaryWriter w, in T data ) where T : unmanaged
{
fixed( T* ptr = &data )
{
var bytePtr = ( byte* )ptr;
var size = sizeof( T );
var span = new ReadOnlySpan< byte >( bytePtr, size );
w.Write( span );
} }
} }
private static void Write( BinaryWriter w, MdlStructs.MeshStruct mesh ) private static void Write(BinaryWriter w, MdlStructs.MeshStruct mesh)
{ {
w.Write( mesh.VertexCount ); w.Write(mesh.VertexCount);
w.Write( ( ushort )0 ); // padding w.Write((ushort)0); // padding
w.Write( mesh.IndexCount ); w.Write(mesh.IndexCount);
w.Write( mesh.MaterialIndex ); w.Write(mesh.MaterialIndex);
w.Write( mesh.SubMeshIndex ); w.Write(mesh.SubMeshIndex);
w.Write( mesh.SubMeshCount ); w.Write(mesh.SubMeshCount);
w.Write( mesh.BoneTableIndex ); w.Write(mesh.BoneTableIndex);
w.Write( mesh.StartIndex ); w.Write(mesh.StartIndex);
w.Write( mesh.VertexBufferOffset[ 0 ] ); w.Write(mesh.VertexBufferOffset[0]);
w.Write( mesh.VertexBufferOffset[ 1 ] ); w.Write(mesh.VertexBufferOffset[1]);
w.Write( mesh.VertexBufferOffset[ 2 ] ); w.Write(mesh.VertexBufferOffset[2]);
w.Write( mesh.VertexBufferStride[ 0 ] ); w.Write(mesh.VertexBufferStride[0]);
w.Write( mesh.VertexBufferStride[ 1 ] ); w.Write(mesh.VertexBufferStride[1]);
w.Write( mesh.VertexBufferStride[ 2 ] ); w.Write(mesh.VertexBufferStride[2]);
w.Write( mesh.VertexStreamCount ); w.Write(mesh.VertexStreamCount);
} }
private static void Write( BinaryWriter w, MdlStructs.BoneTableStruct bone ) private static void Write(BinaryWriter w, MdlStructs.BoneTableStruct bone)
{ {
foreach( var index in bone.BoneIndex ) foreach (var index in bone.BoneIndex)
{ w.Write(index);
w.Write( index );
}
w.Write( bone.BoneCount ); w.Write(bone.BoneCount);
w.Write( ( ushort )0 ); // 3 bytes padding w.Write((ushort)0); // 3 bytes padding
w.Write( ( byte )0 ); w.Write((byte)0);
} }
private void Write( BinaryWriter w, int shapeIdx, IReadOnlyList< uint > offsets ) private void Write(BinaryWriter w, int shapeIdx, IReadOnlyList<uint> offsets)
{ {
var shape = Shapes[ shapeIdx ]; var shape = Shapes[shapeIdx];
var offset = offsets[ Attributes.Length + Bones.Length + Materials.Length + shapeIdx ]; var offset = offsets[Attributes.Length + Bones.Length + Materials.Length + shapeIdx];
w.Write( offset ); w.Write(offset);
w.Write( shape.ShapeMeshStartIndex[ 0 ] ); w.Write(shape.ShapeMeshStartIndex[0]);
w.Write( shape.ShapeMeshStartIndex[ 1 ] ); w.Write(shape.ShapeMeshStartIndex[1]);
w.Write( shape.ShapeMeshStartIndex[ 2 ] ); w.Write(shape.ShapeMeshStartIndex[2]);
w.Write( shape.ShapeMeshCount[ 0 ] ); w.Write(shape.ShapeMeshCount[0]);
w.Write( shape.ShapeMeshCount[ 1 ] ); w.Write(shape.ShapeMeshCount[1]);
w.Write( shape.ShapeMeshCount[ 2 ] ); w.Write(shape.ShapeMeshCount[2]);
} }
private static void Write( BinaryWriter w, MdlStructs.BoundingBoxStruct box ) private static void Write(BinaryWriter w, MdlStructs.BoundingBoxStruct box)
{ {
w.Write( box.Min[ 0 ] ); w.Write(box.Min[0]);
w.Write( box.Min[ 1 ] ); w.Write(box.Min[1]);
w.Write( box.Min[ 2 ] ); w.Write(box.Min[2]);
w.Write( box.Min[ 3 ] ); w.Write(box.Min[3]);
w.Write( box.Max[ 0 ] ); w.Write(box.Max[0]);
w.Write( box.Max[ 1 ] ); w.Write(box.Max[1]);
w.Write( box.Max[ 2 ] ); w.Write(box.Max[2]);
w.Write( box.Max[ 3 ] ); w.Write(box.Max[3]);
} }
public byte[] Write() public byte[] Write()
{ {
using var stream = new MemoryStream(); using var stream = new MemoryStream();
using( var w = new BinaryWriter( stream ) ) using (var w = new BinaryWriter(stream))
{ {
// Skip and write this later when we actually know it. // Skip and write this later when we actually know it.
w.Seek( ( int )FileHeaderSize, SeekOrigin.Begin ); w.Seek((int)FileHeaderSize, SeekOrigin.Begin);
foreach( var vertexDecl in VertexDeclarations ) foreach (var vertexDecl in VertexDeclarations)
{ Write(w, vertexDecl);
Write( w, vertexDecl );
}
var offsets = WriteStrings( w ); var offsets = WriteStrings(w);
WriteModelHeader( w ); WriteModelHeader(w);
foreach( var elementId in ElementIds ) foreach (var elementId in ElementIds)
{ Write(w, elementId);
Write( w, elementId );
}
foreach( var lod in Lods ) foreach (var lod in Lods)
{ Write(w, lod);
Write( w, lod );
}
if( Flags2.HasFlag( MdlStructs.ModelFlags2.ExtraLodEnabled ) ) if (Flags2.HasFlag(MdlStructs.ModelFlags2.ExtraLodEnabled))
{ foreach (var extraLod in ExtraLods)
foreach( var extraLod in ExtraLods ) Write(w, extraLod);
{
Write( w, extraLod );
}
}
foreach( var mesh in Meshes ) foreach (var mesh in Meshes)
{ Write(w, mesh);
Write( w, mesh );
}
for( var i = 0; i < Attributes.Length; ++i ) for (var i = 0; i < Attributes.Length; ++i)
{ w.Write(offsets[i]);
w.Write( offsets[ i ] );
}
foreach( var terrainShadowMesh in TerrainShadowMeshes ) foreach (var terrainShadowMesh in TerrainShadowMeshes)
{ Write(w, terrainShadowMesh);
Write( w, terrainShadowMesh );
}
foreach( var subMesh in SubMeshes ) foreach (var subMesh in SubMeshes)
{ Write(w, subMesh);
Write( w, subMesh );
}
foreach( var terrainShadowSubMesh in TerrainShadowSubMeshes ) foreach (var terrainShadowSubMesh in TerrainShadowSubMeshes)
{ Write(w, terrainShadowSubMesh);
Write( w, terrainShadowSubMesh );
}
for( var i = 0; i < Materials.Length; ++i ) for (var i = 0; i < Materials.Length; ++i)
{ w.Write(offsets[Attributes.Length + Bones.Length + i]);
w.Write( offsets[ Attributes.Length + Bones.Length + i ] );
}
for( var i = 0; i < Bones.Length; ++i ) for (var i = 0; i < Bones.Length; ++i)
{ w.Write(offsets[Attributes.Length + i]);
w.Write( offsets[ Attributes.Length + i ] );
}
foreach( var boneTable in BoneTables ) foreach (var boneTable in BoneTables)
{ Write(w, boneTable);
Write( w, boneTable );
}
for( var i = 0; i < Shapes.Length; ++i ) for (var i = 0; i < Shapes.Length; ++i)
{ Write(w, i, offsets);
Write( w, i, offsets );
}
foreach( var shapeMesh in ShapeMeshes ) foreach (var shapeMesh in ShapeMeshes)
{ Write(w, shapeMesh);
Write( w, shapeMesh );
}
foreach( var shapeValue in ShapeValues ) foreach (var shapeValue in ShapeValues)
{ Write(w, shapeValue);
Write( w, shapeValue );
}
w.Write( SubMeshBoneMap.Length * 2 ); w.Write(SubMeshBoneMap.Length * 2);
foreach( var bone in SubMeshBoneMap ) foreach (var bone in SubMeshBoneMap)
{ w.Write(bone);
w.Write( bone );
}
w.Write( ( byte )0 ); // number of padding bytes, which is 0 for us. var pos = w.BaseStream.Position + 1;
var padding = (byte) (pos & 0b111);
if (padding > 0)
padding = (byte) (8 - padding);
w.Write(padding);
for (var i = 0; i < padding; ++i)
w.Write((byte) (0xDEADBEEFF00DCAFEu >> (8 * (7 - i))));
Write( w, BoundingBoxes ); Write(w, BoundingBoxes);
Write( w, ModelBoundingBoxes ); Write(w, ModelBoundingBoxes);
Write( w, WaterBoundingBoxes ); Write(w, WaterBoundingBoxes);
Write( w, VerticalFogBoundingBoxes ); Write(w, VerticalFogBoundingBoxes);
foreach( var box in BoneBoundingBoxes ) foreach (var box in BoneBoundingBoxes)
{ Write(w, box);
Write( w, box );
} var totalSize = w.BaseStream.Position;
var runtimeSize = (uint)(totalSize - StackSize - FileHeaderSize);
var totalSize = w.BaseStream.Position; w.Write(RemainingData);
var runtimeSize = ( uint )( totalSize - StackSize - FileHeaderSize );
w.Write( RemainingData );
// Write header data. // Write header data.
w.Seek( 0, SeekOrigin.Begin ); w.Seek(0, SeekOrigin.Begin);
WriteModelFileHeader( w, runtimeSize ); WriteModelFileHeader(w, runtimeSize);
} }
return stream.ToArray(); return stream.ToArray();
} }
} }

7
Penumbra.GameData/Files/MdlFile.cs
View file

@ -83,8 +83,8 @@ public partial class MdlFile : IWritable
public Shape[] Shapes; public Shape[] Shapes;
// Raw, unparsed data. // Raw, unparsed data.
public byte[] RemainingData; public byte[] RemainingData;
public bool Valid { get; } public bool Valid { get; }
public MdlFile(byte[] data) public MdlFile(byte[] data)
@ -181,6 +181,9 @@ public partial class MdlFile : IWritable
for (var i = 0; i < modelHeader.BoneCount; i++) for (var i = 0; i < modelHeader.BoneCount; i++)
BoneBoundingBoxes[i] = MdlStructs.BoundingBoxStruct.Read(r); BoneBoundingBoxes[i] = MdlStructs.BoundingBoxStruct.Read(r);
var runtimePadding = header.RuntimeSize + FileHeaderSize + header.StackSize - r.BaseStream.Position;
if (runtimePadding > 0)
r.ReadBytes((int)runtimePadding);
RemainingData = r.ReadBytes((int)(r.BaseStream.Length - r.BaseStream.Position)); RemainingData = r.ReadBytes((int)(r.BaseStream.Length - r.BaseStream.Position));
Valid = true; Valid = true;
} }

4
Penumbra/UI/Classes/ModEditWindow.Materials.cs
View file

@ -215,10 +215,10 @@ public partial class ModEditWindow
if( file.AdditionalData.Length > 0 ) if( file.AdditionalData.Length > 0 )
{ {
using var t = ImRaii.TreeNode( "Additional Data" ); using var t = ImRaii.TreeNode( $"Additional Data (Size: {file.AdditionalData.Length})###AdditionalData" );
if( t ) if( t )
{ {
ImRaii.TreeNode( string.Join( ' ', file.AdditionalData.Select( c => $"{c:X2}" ) ), ImGuiTreeNodeFlags.Leaf ).Dispose(); ImGuiUtil.TextWrapped( string.Join( ' ', file.AdditionalData.Select( c => $"{c:X2}" ) ) );
} }
} }

103
Penumbra/UI/Classes/ModEditWindow.Models.cs
View file

@ -1,7 +1,10 @@
using ImGuiNET; using ImGuiNET;
using OtterGui;
using OtterGui.Raii; using OtterGui.Raii;
using Penumbra.GameData.Files; using Penumbra.GameData.Files;
using Penumbra.String.Classes; using Penumbra.String.Classes;
using System.Globalization;
using System.Linq;
namespace Penumbra.UI.Classes; namespace Penumbra.UI.Classes;
@ -26,6 +29,106 @@ public partial class ModEditWindow
} }
} }
ret |= DrawOtherModelDetails( file, disabled );
return !disabled && ret; return !disabled && ret;
} }
private static bool DrawOtherModelDetails( MdlFile file, bool _ )
{
if( !ImGui.CollapsingHeader( "Further Content" ) )
{
return false;
}
using( var table = ImRaii.Table( "##data", 2, ImGuiTableFlags.SizingFixedFit ) )
{
if( table )
{
ImGuiUtil.DrawTableColumn( "Version" );
ImGuiUtil.DrawTableColumn( file.Version.ToString() );
ImGuiUtil.DrawTableColumn( "Radius" );
ImGuiUtil.DrawTableColumn( file.Radius.ToString( CultureInfo.InvariantCulture ) );
ImGuiUtil.DrawTableColumn( "Model Clip Out Distance" );
ImGuiUtil.DrawTableColumn( file.ModelClipOutDistance.ToString( CultureInfo.InvariantCulture ) );
ImGuiUtil.DrawTableColumn( "Shadow Clip Out Distance" );
ImGuiUtil.DrawTableColumn( file.ShadowClipOutDistance.ToString( CultureInfo.InvariantCulture ) );
ImGuiUtil.DrawTableColumn( "LOD Count" );
ImGuiUtil.DrawTableColumn( file.LodCount.ToString() );
ImGuiUtil.DrawTableColumn( "Enable Index Buffer Streaming" );
ImGuiUtil.DrawTableColumn( file.EnableIndexBufferStreaming.ToString() );
ImGuiUtil.DrawTableColumn( "Enable Edge Geometry" );
ImGuiUtil.DrawTableColumn( file.EnableEdgeGeometry.ToString() );
ImGuiUtil.DrawTableColumn( "Flags 1" );
ImGuiUtil.DrawTableColumn( file.Flags1.ToString() );
ImGuiUtil.DrawTableColumn( "Flags 2" );
ImGuiUtil.DrawTableColumn( file.Flags2.ToString() );
ImGuiUtil.DrawTableColumn( "Vertex Declarations" );
ImGuiUtil.DrawTableColumn( file.VertexDeclarations.Length.ToString() );
ImGuiUtil.DrawTableColumn( "Bone Bounding Boxes" );
ImGuiUtil.DrawTableColumn( file.BoneBoundingBoxes.Length.ToString() );
ImGuiUtil.DrawTableColumn( "Bone Tables" );
ImGuiUtil.DrawTableColumn( file.BoneTables.Length.ToString() );
ImGuiUtil.DrawTableColumn( "Element IDs" );
ImGuiUtil.DrawTableColumn( file.ElementIds.Length.ToString() );
ImGuiUtil.DrawTableColumn( "Extra LoDs" );
ImGuiUtil.DrawTableColumn( file.ExtraLods.Length.ToString() );
ImGuiUtil.DrawTableColumn( "Meshes" );
ImGuiUtil.DrawTableColumn( file.Meshes.Length.ToString() );
ImGuiUtil.DrawTableColumn( "Shape Meshes" );
ImGuiUtil.DrawTableColumn( file.ShapeMeshes.Length.ToString() );
ImGuiUtil.DrawTableColumn( "LoDs" );
ImGuiUtil.DrawTableColumn( file.Lods.Length.ToString() );
ImGuiUtil.DrawTableColumn( "Vertex Declarations" );
ImGuiUtil.DrawTableColumn( file.VertexDeclarations.Length.ToString() );
ImGuiUtil.DrawTableColumn( "Stack Size" );
ImGuiUtil.DrawTableColumn( file.StackSize.ToString() );
}
}
using( var attributes = ImRaii.TreeNode( "Attributes", ImGuiTreeNodeFlags.DefaultOpen ) )
{
if( attributes )
{
foreach( var attribute in file.Attributes )
{
ImRaii.TreeNode( attribute, ImGuiTreeNodeFlags.Leaf ).Dispose();
}
}
}
using( var bones = ImRaii.TreeNode( "Bones", ImGuiTreeNodeFlags.DefaultOpen ) )
{
if( bones )
{
foreach( var bone in file.Bones )
{
ImRaii.TreeNode( bone, ImGuiTreeNodeFlags.Leaf ).Dispose();
}
}
}
using( var shapes = ImRaii.TreeNode( "Shapes", ImGuiTreeNodeFlags.DefaultOpen ) )
{
if( shapes )
{
foreach( var shape in file.Shapes )
{
ImRaii.TreeNode( shape.ShapeName, ImGuiTreeNodeFlags.Leaf ).Dispose();
}
}
}
if( file.RemainingData.Length > 0 )
{
using var t = ImRaii.TreeNode( $"Additional Data (Size: {file.RemainingData.Length})###AdditionalData" );
if( t )
{
ImGuiUtil.TextWrapped( string.Join( ' ', file.RemainingData.Select( c => $"{c:X2}" ) ) );
}
}
return false;
}
} }