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using System ;
using System.Collections.Generic ;
using System.Linq ;
using Syroot.NintenTools.NSW.Bfres ;
using Syroot.NintenTools.NSW.Bfres.Helpers ;
using System.Windows.Forms ;
using Switch_Toolbox.Library ;
using Switch_Toolbox.Library.Rendering ;
using Switch_Toolbox.Library.Forms ;
using ResU = Syroot . NintenTools . Bfres ;
using ResUGX2 = Syroot . NintenTools . Bfres . GX2 ;
using ResGFX = Syroot . NintenTools . NSW . Bfres . GFX ;
using FirstPlugin ;
using OpenTK ;
namespace Bfres.Structs
{
public class FSHPFolder : TreeNodeCustom
{
public FSHPFolder ( )
{
Text = "Objects" ;
Name = "FshpFolder" ;
ContextMenu = new ContextMenu ( ) ;
MenuItem import = new MenuItem ( "Add Object" ) ;
ContextMenu . MenuItems . Add ( import ) ;
import . Click + = Import ;
MenuItem exportAll = new MenuItem ( "Export All Objects" ) ;
ContextMenu . MenuItems . Add ( exportAll ) ;
exportAll . Click + = ExportAll ;
MenuItem clear = new MenuItem ( "Clear All Objects" ) ;
ContextMenu . MenuItems . Add ( clear ) ;
clear . Click + = Clear ;
}
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private void Clear ( object sender , EventArgs args )
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{
DialogResult dialogResult = MessageBox . Show ( "Are you sure you want to remove all objects? This cannot be undone!" , "" , MessageBoxButtons . YesNo ) ;
if ( dialogResult = = DialogResult . Yes )
{
Nodes . Clear ( ) ;
( ( FMDL ) Parent ) . shapes . Clear ( ) ;
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( ( FMDL ) Parent ) . UpdateVertexData ( ) ;
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}
}
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private void ExportAll ( object sender , EventArgs args )
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{
( ( FMDL ) Parent ) . ExportAll ( ) ;
}
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private void Import ( object sender , EventArgs args )
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{
OpenFileDialog ofd = new OpenFileDialog ( ) ;
ofd . Filter = "Supported Formats|*.bfobj;*.fbx;*.dae; *.obj;*.csv;|" +
"Bfres Object (shape/vertices) |*.bfobj|" +
"FBX |*.fbx|" +
"DAE |*.dae|" +
"OBJ |*.obj|" +
"CSV |*.csv|" +
"All files(*.*)|*.*" ;
ofd . Multiselect = true ;
if ( ofd . ShowDialog ( ) = = DialogResult . OK )
{
foreach ( string file in ofd . FileNames )
( ( FMDL ) Parent ) . AddOjects ( file , false ) ;
}
}
public override void OnClick ( TreeView treeView )
{
}
}
public struct DisplayVertex
{
// Used for rendering.
public Vector3 pos ;
public Vector3 nrm ;
public Vector3 tan ;
public Vector3 bit ;
public Vector2 uv ;
public Vector4 col ;
public Vector4 node ;
public Vector4 weight ;
public Vector2 uv2 ;
public Vector2 uv3 ;
public Vector3 pos1 ;
public Vector3 pos2 ;
public static int Size = 4 * ( 3 + 3 + 3 + 3 + 2 + 4 + 4 + 4 + 2 + 2 + 3 + 3 ) ;
}
public class FSHP : STGenericObject
{
public FSHP ( )
{
Checked = true ;
ImageKey = "mesh" ;
SelectedImageKey = "mesh" ;
ContextMenu = new ContextMenu ( ) ;
MenuItem export = new MenuItem ( "Export Mesh" ) ;
ContextMenu . MenuItems . Add ( export ) ;
export . Click + = Export ;
MenuItem replace = new MenuItem ( "Replace Mesh" ) ;
ContextMenu . MenuItems . Add ( replace ) ;
replace . Click + = Replace ;
MenuItem remove = new MenuItem ( "Delete Mesh" ) ;
ContextMenu . MenuItems . Add ( remove ) ;
remove . Click + = Remove ;
MenuItem calcTansBitans = new MenuItem ( "Recalulate Tangents/Bitangents" ) ;
ContextMenu . MenuItems . Add ( calcTansBitans ) ;
calcTansBitans . Click + = CalcTansBitans ;
MenuItem flipUVsY = new MenuItem ( "Flip UVs (Vertical)" ) ;
ContextMenu . MenuItems . Add ( flipUVsY ) ;
flipUVsY . Click + = FlipUvsVertical ;
MenuItem flipUVsX = new MenuItem ( "Flip UVs (Horizontal)" ) ;
ContextMenu . MenuItems . Add ( flipUVsX ) ;
flipUVsX . Click + = FlipUvsHorizontal ;
MenuItem normals = new MenuItem ( "Normals" ) ;
ContextMenu . MenuItems . Add ( normals ) ;
MenuItem smoothNormals = new MenuItem ( "Smooth" ) ;
normals . MenuItems . Add ( smoothNormals ) ;
smoothNormals . Click + = SmoothNormals ;
MenuItem recalculateNormals = new MenuItem ( "Recalculate" ) ;
normals . MenuItems . Add ( recalculateNormals ) ;
recalculateNormals . Click + = RecalculateNormals ;
MenuItem matEditor = new MenuItem ( "Open Material Editor" ) ;
ContextMenu . MenuItems . Add ( matEditor ) ;
matEditor . Click + = OpenMaterialEditor ;
MenuItem rename = new MenuItem ( "Rename" ) ;
ContextMenu . MenuItems . Add ( rename ) ;
rename . Click + = Rename ;
}
public FMATEditor editor ;
public int ModelIndex ; //For getting the model the shape is in
public VertexBuffer VertexBuffer ;
public Shape Shape ;
public ResU . VertexBuffer VertexBufferU ;
public ResU . Shape ShapeU ;
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public ResFile GetResFile ( )
{
//ResourceFile -> FMDL -> Material Folder -> this
return ( ( FMDL ) Parent . Parent ) . GetResFile ( ) ;
}
public ResU . ResFile GetResFileU ( )
{
return ( ( FMDL ) Parent . Parent ) . GetResFileU ( ) ;
}
public void UpdateVertexData ( )
{
( ( FMDL ) Parent . Parent ) . UpdateVertexData ( ) ;
}
public List < FMDL > GetModelList ( )
{
return ( ( FMDL ) Parent . Parent ) . GetModelList ( ) ;
}
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public FMAT GetMaterial ( )
{
return ( ( FMDL ) Parent . Parent ) . materials . Values . ElementAt ( MaterialIndex ) ;
}
public void SetMaterial ( FMAT material )
{
( ( FMDL ) Parent . Parent ) . materials [ material . Text ] = material ;
}
public override void OnClick ( TreeView treeView )
{
FormLoader . LoadShapeEditor ( this ) ;
}
private void SmoothNormals ( object sender , EventArgs args )
{
Cursor . Current = Cursors . WaitCursor ;
SmoothNormals ( ) ;
SaveVertexBuffer ( ) ;
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UpdateVertexData ( ) ;
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Cursor . Current = Cursors . Default ;
}
private void RecalculateNormals ( object sender , EventArgs args )
{
Cursor . Current = Cursors . WaitCursor ;
CalculateNormals ( ) ;
SaveVertexBuffer ( ) ;
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UpdateVertexData ( ) ;
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Cursor . Current = Cursors . Default ;
}
private void Rename ( object sender , EventArgs args )
{
RenameDialog dialog = new RenameDialog ( ) ;
dialog . SetString ( Text ) ;
if ( dialog . ShowDialog ( ) = = DialogResult . OK )
{
Text = dialog . textBox1 . Text ;
}
}
private void Remove ( object sender , EventArgs args )
{
DialogResult dialogResult = MessageBox . Show ( "Are you sure you want to remove this object? This cannot be undone!" , "" , MessageBoxButtons . YesNo ) ;
if ( dialogResult = = DialogResult . Yes )
{
( ( FMDL ) Parent . Parent ) . shapes . Remove ( this ) ;
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( ( FMDL ) Parent . Parent ) . UpdateVertexData ( ) ;
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Parent . Nodes . Remove ( this ) ;
}
}
public void ApplyImportSettings ( BfresModelImportSettings settings , FMAT mat )
{
if ( settings . FlipUVsVertical )
{
foreach ( Vertex v in vertices )
{
v . uv0 = new Vector2 ( v . uv0 . X , 1 - v . uv0 . Y ) ;
}
}
if ( settings . RecalculateNormals )
{
CalculateNormals ( ) ;
}
if ( settings . Rotate90DegreesY )
{
TransformPosition ( Vector3 . Zero , new Vector3 ( 90 , 0 , 0 ) , new Vector3 ( 1 ) ) ;
}
if ( settings . Rotate90DegreesNegativeY )
{
TransformPosition ( Vector3 . Zero , new Vector3 ( - 90 , 0 , 0 ) , new Vector3 ( 1 ) ) ;
}
if ( settings . EnableTangents )
{
try
{
CalculateTangentBitangent ( ) ;
}
catch
{
MessageBox . Show ( $"Failed to generate tangents for mesh {Text}" ) ;
}
}
if ( settings . SetDefaultParamData )
{
foreach ( var param in mat . matparam . Values )
{
switch ( param . Name )
{
case "const_color0" :
case "const_color1" :
case "const_color2" :
case "const_color3" :
case "base_color_mul_color" :
case "uniform0_mul_color" :
case "uniform1_mul_color" :
case "uniform2_mul_color" :
case "uniform3_mul_color" :
case "uniform4_mul_color" :
case "proc_texture_2d_mul_color" :
case "proc_texture_3d_mul_color" :
case "displacement1_color" :
case "ripple_emission_color" :
case "hack_color" :
case "stain_color" :
case "displacement_color" :
param . ValueFloat = new float [ ] { 1 , 1 , 1 , 1 } ;
break ;
case "gsys_bake_st0" :
param . ValueFloat = new float [ ] { 1 , 1 , 0 , 0 } ;
break ;
case "gsys_bake_st1" :
param . ValueFloat = new float [ ] { 1 , 1 , 0 , 0 } ;
break ;
}
}
}
}
public void TransformPosition ( Vector3 Position , Vector3 Rotation , Vector3 Scale )
{
Matrix4 BonePosExtra = Utils . TransformValues ( Position , Rotation , Scale ) ;
foreach ( Vertex v in vertices )
{
v . pos = Vector3 . TransformPosition ( v . pos , BonePosExtra ) ;
v . nrm = Vector3 . TransformNormal ( v . pos , BonePosExtra ) ;
}
}
private void OpenMaterialEditor ( object sender , EventArgs args )
{
FormLoader . LoadMatEditor ( GetMaterial ( ) ) ;
}
private void CalcTansBitans ( object sender , EventArgs args )
{
Cursor . Current = Cursors . WaitCursor ;
bool HasTans = vertexAttributes . Any ( x = > x . Name = = "_t0" ) ;
bool HasBiTans = vertexAttributes . Any ( x = > x . Name = = "_b0" ) ;
if ( ! HasUV0 ( ) )
{
MessageBox . Show ( $"Error! {Text} does not have UVs!" , "" , MessageBoxButtons . OK , MessageBoxIcon . Error ) ;
return ;
}
if ( ! HasBiTans )
{
DialogResult dialogResult2 = MessageBox . Show ( "Mesh does not have bitangents. Do you want to create them? (will make file size bigger)" , "" , MessageBoxButtons . YesNo ) ;
VertexAttribute att2 = new VertexAttribute ( ) ;
att2 . Name = "_b0" ;
att2 . Format = ResGFX . AttribFormat . Format_10_10_10_2_SNorm ;
if ( dialogResult2 = = DialogResult . Yes )
{
if ( ! HasBiTans )
vertexAttributes . Add ( att2 ) ;
}
}
if ( ! HasTans )
{
DialogResult dialogResult = MessageBox . Show ( "Mesh does not have tangets. Do you want to create them? (will make file size bigger)" , "" , MessageBoxButtons . YesNo ) ;
VertexAttribute att = new VertexAttribute ( ) ;
att . Name = "_t0" ;
att . Format = ResGFX . AttribFormat . Format_10_10_10_2_SNorm ;
if ( dialogResult = = DialogResult . Yes )
{
if ( ! HasTans )
vertexAttributes . Add ( att ) ;
}
}
CalculateTangentBitangent ( ) ;
SaveVertexBuffer ( ) ;
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UpdateVertexData ( ) ;
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Cursor . Current = Cursors . Default ;
}
public bool HasUV0 ( )
{
return vertexAttributes . Any ( x = > x . Name = = "_u0" ) ;
}
public bool HasUV1 ( )
{
return vertexAttributes . Any ( x = > x . Name = = "_u1" ) ;
}
public bool HasUV2 ( )
{
return vertexAttributes . Any ( x = > x . Name = = "_u2" ) ;
}
public void FlipUvsVertical ( object sender , EventArgs args )
{
if ( ! HasUV0 ( ) )
{
MessageBox . Show ( $"Error! {Text} does not have UVs!" , "" , MessageBoxButtons . OK , MessageBoxIcon . Error ) ;
return ;
}
FlipUvsVertical ( ) ;
SaveVertexBuffer ( ) ;
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UpdateVertexData ( ) ;
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}
public void FlipUvsHorizontal ( object sender , EventArgs args )
{
if ( ! HasUV0 ( ) )
{
MessageBox . Show ( $"Error! {Text} does not have UVs!" , "" , MessageBoxButtons . OK , MessageBoxIcon . Error ) ;
return ;
}
FlipUvsHorizontal ( ) ;
SaveVertexBuffer ( ) ;
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UpdateVertexData ( ) ;
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}
public void ExportMaterials ( object sender , EventArgs args )
{
SaveFileDialog sfd = new SaveFileDialog ( ) ;
sfd . Filter = "Materials|*.bfmat;" ;
sfd . DefaultExt = ".bfmat" ;
sfd . FileName = GetMaterial ( ) . Text ;
if ( sfd . ShowDialog ( ) = = DialogResult . OK )
{
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GetMaterial ( ) . Material . Export ( sfd . FileName , GetResFile ( ) ) ;
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}
}
public void ReplaceMaterials ( object sender , EventArgs args )
{
OpenFileDialog ofd = new OpenFileDialog ( ) ;
ofd . Filter = "Materials|*.bfmat;" ;
ofd . DefaultExt = ".bfmat" ;
ofd . FileName = GetMaterial ( ) . Text ;
if ( ofd . ShowDialog ( ) = = DialogResult . OK )
{
GetMaterial ( ) . Material . Import ( ofd . FileName ) ;
}
}
public void Export ( object sender , EventArgs args )
{
SaveFileDialog sfd = new SaveFileDialog ( ) ;
sfd . Filter = "Supported Formats|*.bfobj;*.fbx;*.dae; *.obj;|" +
"Bfres Object (shape/vertices) |*.bfobj|" +
"FBX |*.fbx|" +
"DAE |*.dae|" +
"OBJ |*.obj|" +
"All files(*.*)|*.*" ;
sfd . DefaultExt = ".bfobj" ;
sfd . FileName = Text ;
if ( sfd . ShowDialog ( ) = = DialogResult . OK )
{
string ext = System . IO . Path . GetExtension ( sfd . FileName ) ;
ext = ext . ToLower ( ) ;
switch ( ext )
{
case ".bfobj" :
ExportBinaryObject ( sfd . FileName ) ;
break ;
default :
AssimpData assimp = new AssimpData ( ) ;
assimp . SaveFromObject ( vertices , lodMeshes [ DisplayLODIndex ] . faces , Text , sfd . FileName ) ;
break ;
}
}
}
public void ExportBinaryObject ( string FileName )
{
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Shape . Export ( FileName , GetResFile ( ) ) ;
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}
public void Replace ( object sender , EventArgs args )
{
OpenFileDialog ofd = new OpenFileDialog ( ) ;
ofd . Filter = "Supported Formats|*.bfobj;*.fbx;*.dae; *.obj;|" +
"Bfres Object (shape/vertices) |*.bfobj|" +
"FBX |*.fbx|" +
"DAE |*.dae|" +
"OBJ |*.obj|" +
"All files(*.*)|*.*" ;
if ( ofd . ShowDialog ( ) = = DialogResult . OK )
{
string ext = System . IO . Path . GetExtension ( ofd . FileName ) ;
ext = ext . ToLower ( ) ;
switch ( ext )
{
case ".bfobj" :
Shape shp = new Shape ( ) ;
shp . Import ( ofd . FileName , VertexBuffer ) ;
shp . Name = Text ;
shp . MaterialIndex = ( ushort ) MaterialIndex ;
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BfresSwitch . ReadShapesVertices ( this , shp , VertexBuffer , GetModelList ( ) [ ModelIndex ] ) ;
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break ;
default :
AssimpData assimp = new AssimpData ( ) ;
assimp . LoadFile ( ofd . FileName ) ;
AssimpMeshSelector selector = new AssimpMeshSelector ( ) ;
selector . LoadMeshes ( assimp , Index ) ;
if ( selector . ShowDialog ( ) = = DialogResult . OK )
{
if ( assimp . objects . Count = = 0 )
{
MessageBox . Show ( "No models found!" ) ;
return ;
}
BfresModelImportSettings settings = new BfresModelImportSettings ( ) ;
settings . SetModelAttributes ( assimp . objects [ 0 ] ) ;
if ( settings . ShowDialog ( ) = = DialogResult . OK )
{
GenericObject obj = selector . GetSelectedMesh ( ) ;
Cursor . Current = Cursors . WaitCursor ;
VertexBufferIndex = obj . VertexBufferIndex ;
vertices = obj . vertices ;
CreateBoneList ( obj , ( FMDL ) Parent . Parent ) ;
VertexSkinCount = obj . MaxSkinInfluenceCount ;
vertexAttributes = settings . CreateNewAttributes ( ) ;
lodMeshes = obj . lodMeshes ;
CreateNewBoundingBoxes ( ) ;
SaveShape ( ) ;
SaveVertexBuffer ( ) ;
Cursor . Current = Cursors . Default ;
}
}
break ;
}
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UpdateVertexData ( ) ;
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}
}
public void CreateIndexList ( GenericObject ob , FMDL mdl = null )
{
BoneIndices = new List < ushort > ( ) ;
List < string > boneNames = new List < string > ( ) ;
foreach ( Vertex v in ob . vertices )
{
foreach ( string bn in v . boneNames )
{
if ( ! boneNames . Contains ( bn ) )
boneNames . Add ( bn ) ;
}
}
int index = 0 ;
foreach ( STBone bone in mdl . Skeleton . bones )
{
foreach ( string bnam in boneNames )
{
if ( bone . Text = = bnam )
{
BoneIndices . Add ( ( ushort ) index ) ;
}
}
index + + ;
}
}
public void CreateBoneList ( GenericObject ob , FMDL mdl )
{
string [ ] nodeArrStrings = new string [ mdl . Skeleton . Node_Array . Length ] ;
int CurNode = 0 ;
foreach ( int thing in mdl . Skeleton . Node_Array )
nodeArrStrings [ CurNode + + ] = mdl . Skeleton . bones [ thing ] . Text ;
foreach ( Vertex v in ob . vertices )
{
foreach ( string bn in v . boneNames )
{
foreach ( var defBn in nodeArrStrings . Select ( ( Value , Index ) = > new { Value , Index } ) )
{
if ( bn = = defBn . Value )
{
v . boneIds . Add ( defBn . Index ) ;
}
}
}
}
}
public void CreateNewBoundingBoxes ( )
{
boundingBoxes . Clear ( ) ;
boundingRadius . Clear ( ) ;
foreach ( LOD_Mesh mesh in lodMeshes )
{
BoundingBox box = CalculateBoundingBox ( ) ;
boundingBoxes . Add ( box ) ;
boundingRadius . Add ( ( float ) ( box . Center . Length + box . Extend . Length ) ) ;
foreach ( LOD_Mesh . SubMesh sub in mesh . subMeshes )
boundingBoxes . Add ( box ) ;
}
}
private BoundingBox CalculateBoundingBox ( )
{
Vector3 Max = new Vector3 ( ) ;
Vector3 Min = new Vector3 ( ) ;
Min = Max = vertices [ 0 ] . pos ;
Min = CalculateBBMin ( vertices ) ;
Max = CalculateBBMax ( vertices ) ;
Vector3 center = ( Max + Min ) ;
Vector3 extend = Max - Min ;
return new BoundingBox ( ) { Center = center , Extend = extend } ;
}
private Vector3 CalculateBBMin ( List < Vertex > positionVectors )
{
Vector3 minimum = new Vector3 ( ) ;
foreach ( Vertex vtx in positionVectors )
{
if ( vtx . pos . X < minimum . X ) minimum . X = vtx . pos . X ;
if ( vtx . pos . Y < minimum . Y ) minimum . Y = vtx . pos . Y ;
if ( vtx . pos . Z < minimum . Z ) minimum . Z = vtx . pos . Z ;
}
return minimum ;
}
private Vector3 CalculateBBMax ( List < Vertex > positionVectors )
{
Vector3 maximum = new Vector3 ( ) ;
foreach ( Vertex vtx in positionVectors )
{
if ( vtx . pos . X > maximum . X ) maximum . X = vtx . pos . X ;
if ( vtx . pos . Y > maximum . Y ) maximum . Y = vtx . pos . Y ;
if ( vtx . pos . Z > maximum . Z ) maximum . Z = vtx . pos . Z ;
}
return maximum ;
}
private void UpdateShaderAssignAttributes ( FMAT material )
{
material . shaderassign . samplers . Clear ( ) ;
foreach ( VertexAttribute att in vertexAttributes )
{
material . shaderassign . attributes . Add ( att . Name , att . Name ) ;
}
}
public int [ ] Faces ;
public List < ushort > BoneIndices = new List < ushort > ( ) ;
// for drawing
public int [ ] display ;
public int VertexSkinCount ;
public int DisplayId ;
public int boneIndx ;
public int VertexBufferIndex ;
public int TargetAttribCount ;
public List < float > boundingRadius = new List < float > ( ) ;
public List < BoundingBox > boundingBoxes = new List < BoundingBox > ( ) ;
public class BoundingBox
{
public Vector3 Center ;
public Vector3 Extend ;
}
public int DisplayLODIndex = 0 ;
public List < VertexAttribute > vertexAttributes = new List < VertexAttribute > ( ) ;
public class VertexAttribute
{
public string Name ;
public ResGFX . AttribFormat Format ;
public override string ToString ( )
{
return Name ;
}
public ResGFX . AttribFormat GetTypeWiiU ( ResUGX2 . GX2AttribFormat type )
{
return ( ResGFX . AttribFormat ) System . Enum . Parse ( typeof ( ResGFX . AttribFormat ) , $"{type.ToString()}" ) ;
}
public ResUGX2 . GX2AttribFormat SetTypeWiiU ( ResGFX . AttribFormat type )
{
return ( ResUGX2 . GX2AttribFormat ) System . Enum . Parse ( typeof ( ResUGX2 . GX2AttribFormat ) , type . ToString ( ) ) ;
}
}
public void SaveShape ( )
{
if ( ! BFRES . IsWiiU )
Shape = BfresSwitch . SaveShape ( this ) ;
else
ShapeU = BfresWiiU . SaveShape ( this ) ;
}
public IList < ushort > GetIndices ( )
{
IList < ushort > indices = new List < ushort > ( ) ;
List < string > BoneNodes = new List < string > ( ) ;
foreach ( Vertex vtx in vertices )
{
}
return indices ;
}
public Vector3 TransformLocal ( Vector3 position , bool IsPos = true )
{
Matrix4 trans = Matrix4 . CreateTranslation ( 0 , 0 , 0 ) ;
if ( IsPos )
return Vector3 . TransformPosition ( position , trans ) ;
else
return Vector3 . TransformNormal ( position , trans ) ;
}
public void SaveVertexBuffer ( )
{
if ( BFRES . IsWiiU )
{
BfresWiiU . SaveVertexBuffer ( this ) ;
return ;
}
VertexBufferHelper helpernx = new VertexBufferHelper ( new VertexBuffer ( ) , Syroot . BinaryData . ByteOrder . LittleEndian ) ;
List < VertexBufferHelperAttrib > atrib = new List < VertexBufferHelperAttrib > ( ) ;
UpdateVertices ( ) ;
foreach ( VertexAttribute att in vertexAttributes )
{
if ( att . Name = = "_p0" )
{
VertexBufferHelperAttrib vert = new VertexBufferHelperAttrib ( ) ;
vert . Name = att . Name ;
vert . Data = verts . ToArray ( ) ;
vert . Format = att . Format ;
atrib . Add ( vert ) ;
}
if ( att . Name = = "_n0" )
{
VertexBufferHelperAttrib vert = new VertexBufferHelperAttrib ( ) ;
vert . Name = att . Name ;
vert . Data = norms . ToArray ( ) ;
vert . Format = att . Format ;
atrib . Add ( vert ) ;
}
if ( att . Name = = "_u0" )
{
VertexBufferHelperAttrib vert = new VertexBufferHelperAttrib ( ) ;
vert . Name = att . Name ;
vert . Data = uv0 . ToArray ( ) ;
vert . Format = att . Format ;
atrib . Add ( vert ) ;
}
if ( att . Name = = "_u1" )
{
VertexBufferHelperAttrib vert = new VertexBufferHelperAttrib ( ) ;
vert . Name = att . Name ;
vert . Data = uv1 . ToArray ( ) ;
vert . Format = att . Format ;
atrib . Add ( vert ) ;
}
if ( att . Name = = "_u2" )
{
VertexBufferHelperAttrib vert = new VertexBufferHelperAttrib ( ) ;
vert . Name = att . Name ;
vert . Data = uv2 . ToArray ( ) ;
vert . Format = att . Format ;
atrib . Add ( vert ) ;
}
if ( att . Name = = "_w0" )
{
VertexBufferHelperAttrib vert = new VertexBufferHelperAttrib ( ) ;
vert . Name = att . Name ;
vert . Data = weights . ToArray ( ) ;
vert . Format = att . Format ;
atrib . Add ( vert ) ;
}
if ( att . Name = = "_i0" )
{
VertexBufferHelperAttrib vert = new VertexBufferHelperAttrib ( ) ;
vert . Name = att . Name ;
vert . Data = boneInd . ToArray ( ) ;
vert . Format = att . Format ;
atrib . Add ( vert ) ;
}
if ( att . Name = = "_b0" )
{
VertexBufferHelperAttrib vert = new VertexBufferHelperAttrib ( ) ;
vert . Name = att . Name ;
vert . Data = bitans . ToArray ( ) ;
vert . Format = att . Format ;
atrib . Add ( vert ) ;
}
if ( att . Name = = "_t0" )
{
VertexBufferHelperAttrib vert = new VertexBufferHelperAttrib ( ) ;
vert . Name = att . Name ;
vert . Data = tans . ToArray ( ) ;
vert . Format = att . Format ;
atrib . Add ( vert ) ;
}
if ( att . Name = = "_c0" )
{
VertexBufferHelperAttrib vert = new VertexBufferHelperAttrib ( ) ;
vert . Name = att . Name ;
vert . Data = colors . ToArray ( ) ;
vert . Format = att . Format ;
atrib . Add ( vert ) ;
}
}
if ( atrib . Count = = 0 )
{
MessageBox . Show ( "Attributes are empty?" ) ;
return ;
}
helpernx . Attributes = atrib ;
VertexBuffer = helpernx . ToVertexBuffer ( ) ;
}
internal List < Syroot . Maths . Vector4F > verts = new List < Syroot . Maths . Vector4F > ( ) ;
internal List < Syroot . Maths . Vector4F > norms = new List < Syroot . Maths . Vector4F > ( ) ;
internal List < Syroot . Maths . Vector4F > uv0 = new List < Syroot . Maths . Vector4F > ( ) ;
internal List < Syroot . Maths . Vector4F > uv1 = new List < Syroot . Maths . Vector4F > ( ) ;
internal List < Syroot . Maths . Vector4F > uv2 = new List < Syroot . Maths . Vector4F > ( ) ;
internal List < Syroot . Maths . Vector4F > tans = new List < Syroot . Maths . Vector4F > ( ) ;
internal List < Syroot . Maths . Vector4F > bitans = new List < Syroot . Maths . Vector4F > ( ) ;
internal List < Syroot . Maths . Vector4F > weights = new List < Syroot . Maths . Vector4F > ( ) ;
internal List < Syroot . Maths . Vector4F > boneInd = new List < Syroot . Maths . Vector4F > ( ) ;
internal List < Syroot . Maths . Vector4F > colors = new List < Syroot . Maths . Vector4F > ( ) ;
public string GetBoneNameFromIndex ( FMDL mdl , int index )
{
if ( index = = 0 )
return "" ;
return mdl . Skeleton . bones [ mdl . Skeleton . Node_Array [ index ] ] . Text ;
}
public void UpdateVertices ( )
{
// CalculateTangentBitangent();
foreach ( Vertex vtx in vertices )
{
if ( VertexSkinCount = = 0 | | VertexSkinCount = = 1 )
{
// Console.WriteLine("Old " + vtx.pos);
// vtx.pos = TransformLocal(vtx.pos);
// vtx.nrm = TransformLocal(vtx.nrm, false);
// Console.WriteLine("New " + vtx.pos);
}
// Console.WriteLine($"Weight count {vtx.boneWeights.Count}");
// Console.WriteLine($"Index count {vtx.boneIds.Count}");
verts . Add ( new Syroot . Maths . Vector4F ( vtx . pos . X , vtx . pos . Y , vtx . pos . Z , 1.0f ) ) ;
norms . Add ( new Syroot . Maths . Vector4F ( vtx . nrm . X , vtx . nrm . Y , vtx . nrm . Z , 0 ) ) ;
uv0 . Add ( new Syroot . Maths . Vector4F ( vtx . uv0 . X , vtx . uv0 . Y , 0 , 0 ) ) ;
uv1 . Add ( new Syroot . Maths . Vector4F ( vtx . uv1 . X , vtx . uv1 . Y , 0 , 0 ) ) ;
uv2 . Add ( new Syroot . Maths . Vector4F ( vtx . uv2 . X , vtx . uv2 . Y , 0 , 0 ) ) ;
tans . Add ( new Syroot . Maths . Vector4F ( vtx . tan . X , vtx . tan . Y , vtx . tan . Z , vtx . tan . W ) ) ;
bitans . Add ( new Syroot . Maths . Vector4F ( vtx . bitan . X , vtx . bitan . Y , vtx . bitan . Z , vtx . bitan . W ) ) ;
if ( vtx . boneWeights . Count = = 0 )
{
vtx . boneWeights . Add ( 0 ) ;
vtx . boneWeights . Add ( 0 ) ;
vtx . boneWeights . Add ( 0 ) ;
vtx . boneWeights . Add ( 0 ) ;
}
if ( vtx . boneWeights . Count = = 1 )
{
vtx . boneWeights . Add ( 0 ) ;
vtx . boneWeights . Add ( 0 ) ;
vtx . boneWeights . Add ( 0 ) ;
}
if ( vtx . boneWeights . Count = = 2 )
{
vtx . boneWeights . Add ( 0 ) ;
vtx . boneWeights . Add ( 0 ) ;
}
if ( vtx . boneWeights . Count = = 3 )
{
vtx . boneWeights . Add ( 0 ) ;
}
if ( vtx . boneIds . Count = = 0 )
{
vtx . boneIds . Add ( 0 ) ;
vtx . boneIds . Add ( 0 ) ;
vtx . boneIds . Add ( 0 ) ;
vtx . boneIds . Add ( 0 ) ;
}
if ( vtx . boneIds . Count = = 1 )
{
vtx . boneIds . Add ( 0 ) ;
vtx . boneIds . Add ( 0 ) ;
vtx . boneIds . Add ( 0 ) ;
}
if ( vtx . boneIds . Count = = 2 )
{
vtx . boneIds . Add ( 0 ) ;
vtx . boneIds . Add ( 0 ) ;
}
if ( vtx . boneIds . Count = = 3 )
{
vtx . boneIds . Add ( 0 ) ;
}
weights . Add ( new Syroot . Maths . Vector4F ( vtx . boneWeights [ 0 ] , vtx . boneWeights [ 1 ] , vtx . boneWeights [ 2 ] , vtx . boneWeights [ 3 ] ) ) ;
boneInd . Add ( new Syroot . Maths . Vector4F ( vtx . boneIds [ 0 ] , vtx . boneIds [ 1 ] , vtx . boneIds [ 2 ] , vtx . boneIds [ 3 ] ) ) ;
colors . Add ( new Syroot . Maths . Vector4F ( vtx . col . X , vtx . col . Y , vtx . col . Z , vtx . col . W ) ) ;
}
}
public List < DisplayVertex > CreateDisplayVertices ( )
{
// rearrange faces
display = lodMeshes [ DisplayLODIndex ] . getDisplayFace ( ) . ToArray ( ) ;
List < DisplayVertex > displayVertList = new List < DisplayVertex > ( ) ;
if ( lodMeshes [ DisplayLODIndex ] . faces . Count < = 3 )
return displayVertList ;
foreach ( Vertex v in vertices )
{
DisplayVertex displayVert = new DisplayVertex ( )
{
pos = v . pos ,
nrm = v . nrm ,
tan = v . tan . Xyz ,
bit = v . bitan . Xyz ,
col = v . col ,
uv = v . uv0 ,
uv2 = v . uv1 ,
uv3 = v . uv2 ,
node = new Vector4 (
v . boneIds . Count > 0 ? v . boneIds [ 0 ] : - 1 ,
v . boneIds . Count > 1 ? v . boneIds [ 1 ] : - 1 ,
v . boneIds . Count > 2 ? v . boneIds [ 2 ] : - 1 ,
v . boneIds . Count > 3 ? v . boneIds [ 3 ] : - 1 ) ,
weight = new Vector4 (
v . boneWeights . Count > 0 ? v . boneWeights [ 0 ] : 0 ,
v . boneWeights . Count > 1 ? v . boneWeights [ 1 ] : 0 ,
v . boneWeights . Count > 2 ? v . boneWeights [ 2 ] : 0 ,
v . boneWeights . Count > 3 ? v . boneWeights [ 3 ] : 0 ) ,
} ;
displayVertList . Add ( displayVert ) ;
/ * Console . WriteLine ( $"---------------------------------------------------------------------------------------" ) ;
Console . WriteLine ( $"Position {displayVert.pos.X} {displayVert.pos.Y} {displayVert.pos.Z}" ) ;
Console . WriteLine ( $"Normal {displayVert.nrm.X} {displayVert.nrm.Y} {displayVert.nrm.Z}" ) ;
Console . WriteLine ( $"Binormal {displayVert.bit.X} {displayVert.bit.Y} {displayVert.bit.Z}" ) ;
Console . WriteLine ( $"Tanget {displayVert.tan.X} {displayVert.tan.Y} {displayVert.tan.Z}" ) ;
Console . WriteLine ( $"Color {displayVert.col.X} {displayVert.col.Y} {displayVert.col.Z} {displayVert.col.W}" ) ;
Console . WriteLine ( $"UV Layer 1 {displayVert.uv.X} {displayVert.uv.Y}" ) ;
Console . WriteLine ( $"UV Layer 2 {displayVert.uv2.X} {displayVert.uv2.Y}" ) ;
Console . WriteLine ( $"UV Layer 3 {displayVert.uv3.X} {displayVert.uv3.Y}" ) ;
Console . WriteLine ( $"Bone Index {displayVert.node.X} {displayVert.node.Y} {displayVert.node.Z} {displayVert.node.W}" ) ;
Console . WriteLine ( $"Weights {displayVert.weight.X} {displayVert.weight.Y} {displayVert.weight.Z} {displayVert.weight.W}" ) ;
Console . WriteLine ( $"---------------------------------------------------------------------------------------" ) ; * /
}
return displayVertList ;
}
}
}