public void BNTXInjectionSameSize(Syroot.BinaryData.BinaryDataWriter writer, Syroot.BinaryData.BinaryDataReader reader)
{
foreach (ExternalFile ext in TargetSwitchBFRES.ExternalFiles)
{
reader.Seek(ext.ofsData, SeekOrigin.Begin);
char[] emchar = reader.ReadChars(4);
string em = new string(emchar);
if (em == "BNTX")
{
Console.WriteLine("Found BNTX");
long OriginalBNTXSize = ext.sizData;
long InjectedBNTXSize = BNTX.BNTXFile.Length;
if (OriginalBNTXSize == InjectedBNTXSize)
{
writer.Seek((int)ext.ofsData, SeekOrigin.Begin);
writer.Write(BNTX.BNTXFile);
}
else
{
MessageBox.Show("BNTX Is too big or small! Must be original Size!");
}
}
}
}
private void ReadShaderParams(Material mat, Mesh poly)
{
using (Syroot.BinaryData.BinaryDataReader reader = new Syroot.BinaryData.BinaryDataReader(new MemoryStream(mat.ShaderParamData)))
{
reader.ByteOrder = Syroot.BinaryData.ByteOrder.LittleEndian;
foreach (Syroot.NintenTools.NSW.Bfres.ShaderParam param in mat.ShaderParams)
{
ShaderParam prm = new ShaderParam();
prm.Type = (Syroot.NintenTools.Bfres.ShaderParamType)param.Type;
switch (param.Type)
{
case ShaderParamType.Float:
reader.Seek(param.DataOffset, SeekOrigin.Begin);
prm.Value_float = reader.ReadSingle();
break;
case ShaderParamType.Float2:
reader.Seek(param.DataOffset, SeekOrigin.Begin);
prm.Value_float2 = new Vector2(
reader.ReadSingle(),
reader.ReadSingle());
break;
case ShaderParamType.Float3:
reader.Seek(param.DataOffset, SeekOrigin.Begin);
prm.Value_float3 = new Vector3(
reader.ReadSingle(),
reader.ReadSingle(),
reader.ReadSingle()); break;
case ShaderParamType.Float4:
reader.Seek(param.DataOffset, SeekOrigin.Begin);
prm.Value_float4 = new Vector4(
reader.ReadSingle(),
reader.ReadSingle(),
reader.ReadSingle(),
reader.ReadSingle()); break;
}
poly.material.matparam.Add(param.Name, prm);
}
reader.Close();
}
}
public void InjectToFile(string FileName)
{
//Reparse and inject buffer data
using (Syroot.BinaryData.BinaryDataReader reader = new Syroot.BinaryData.BinaryDataReader(new MemoryStream(BFRESFile)))
using (Syroot.BinaryData.BinaryDataWriter writer = new Syroot.BinaryData.BinaryDataWriter(File.Open(FileName, FileMode.Create)))
{
writer.ByteOrder = Syroot.BinaryData.ByteOrder.LittleEndian;
reader.ByteOrder = Syroot.BinaryData.ByteOrder.LittleEndian;
BufferInjection(writer, reader);
BNTXInjectionSameSize(writer, reader);
// FSKAInjection(writer);
FSKLInjection(writer);
int mdl = 0;
foreach (Model fmdl in TargetSwitchBFRES.Models)
{
int s = 0;
foreach (Shape shp in fmdl.Shapes)
{
byte[] data = fmdl.Materials[shp.MaterialIndex].ShaderParamData;
byte[] NewParamData = WriteShaderParams(data, models[mdl].poly[s]);
if (SaveShaderParam == true)
{
writer.Seek(fmdl.Materials[shp.MaterialIndex].SourceParamOffset, SeekOrigin.Begin);
writer.Write(NewParamData);
}
s++;
}
mdl++;
}
writer.Flush();
writer.Close();
}
}
public void BufferInjection(Syroot.BinaryData.BinaryDataWriter writer, Syroot.BinaryData.BinaryDataReader reader)
{
writer.Write(BFRESFile);
int mdl = 0;
foreach (Model fmdl in TargetSwitchBFRES.Models)
{
int s = 0;
foreach (Shape shp in fmdl.Shapes)
{
Mesh msh = models[mdl].poly[s];
writer.Seek(shp.Meshes[0].DataOffset, SeekOrigin.Begin);
int[] Faces = msh.lodMeshes[msh.DisplayLODIndex].getDisplayFace().ToArray();
foreach (int f in Faces)
{
if (shp.Meshes[0].IndexFormat == IndexFormat.UInt16)
{
writer.Write((ushort)f);
}
if (shp.Meshes[0].IndexFormat == IndexFormat.UInt32)
{
writer.Write((uint)f);
}
}
foreach (VertexAttrib att in fmdl.VertexBuffers[shp.VertexBufferIndex].Attributes)
{
int test = (int)fmdl.VertexBuffers[shp.VertexBufferIndex].Buffers[att.BufferIndex].DataOffset + att.Offset + fmdl.VertexBuffers[shp.VertexBufferIndex].Buffers[att.BufferIndex].Stride;
}
for (int vt = 0; vt < fmdl.VertexBuffers[shp.VertexBufferIndex].VertexCount; vt++)
{
if (vt < msh.vertices.Count)
{
}
else
{
Vertex vtx = new Vertex();
vtx.pos = new Vector3(0);
vtx.nrm = new Vector3(0);
vtx.col = new Vector4(1);
vtx.uv0 = new Vector2(0);
vtx.uv1 = new Vector2(0);
vtx.uv2 = new Vector2(0);
vtx.boneWeights.Add(1);
vtx.boneIds.Add(0);
vtx.tan = new Vector4(0);
vtx.bitan = new Vector4(0);
msh.vertices.Add(vtx);
}
Vertex v = msh.vertices[vt];
int at = 0;
foreach (VertexAttrib att in fmdl.VertexBuffers[shp.VertexBufferIndex].Attributes)
{
writer.Seek(fmdl.VertexBuffers[shp.VertexBufferIndex].Buffers[att.BufferIndex].DataOffset + att.Offset + fmdl.VertexBuffers[shp.VertexBufferIndex].Buffers[att.BufferIndex].Stride * vt, SeekOrigin.Begin);
if (att.Name == "_p0")
{
writeBuffer(writer, new Vector4(v.pos, 0), att.Format);
}
if (att.Name == "_n0")
{
writeBuffer(writer, new Vector4(v.nrm, 0), att.Format);
}
if (att.Name == "_t0")
{
writeBuffer(writer, new Vector4(v.tan), att.Format);
}
if (att.Name == "_b0")
{
writeBuffer(writer, new Vector4(v.bitan), att.Format);
}
if (att.Name == "_c0")
{
writeBuffer(writer, new Vector4(v.col), att.Format);
}
if (att.Name == "_u0")
{
writeBuffer(writer, new Vector4(v.uv0.X, v.uv0.Y, 0, 0), att.Format);
}
if (att.Name == "_u1")
{
writeBuffer(writer, new Vector4(v.uv1.X, v.uv1.Y, 0, 0), att.Format);
}
if (att.Name == "_u2")
{
writeBuffer(writer, new Vector4(v.uv2.X, v.uv2.Y, 0, 0), att.Format);
}
if (att.Name == "_i0")
{
Vector4 bufferdata = new Vector4(0);
bufferdata.X = v.boneIds.Count > 0 ? v.boneIds[0] : 0;
bufferdata.Y = v.boneIds.Count > 1 ? v.boneIds[1] : 0;
bufferdata.Z = v.boneIds.Count > 2 ? v.boneIds[2] : 0;
bufferdata.W = v.boneIds.Count > 3 ? v.boneIds[3] : 0;
writeBuffer(writer, bufferdata, att.Format);
}
if (att.Name == "_w0")
{
Vector4 bufferdata = new Vector4(0);
bufferdata.X = v.boneWeights.Count > 0 ? v.boneWeights[0] : 0;
bufferdata.Y = v.boneWeights.Count > 1 ? v.boneWeights[1] : 0;
bufferdata.Z = v.boneWeights.Count > 2 ? v.boneWeights[2] : 0;
bufferdata.W = v.boneWeights.Count > 3 ? v.boneWeights[3] : 0;
writeBuffer(writer, bufferdata, att.Format);
}
}
at++;
}
s++;
}
mdl++;
}
}
private void ReadShaderParams(Material mat, Mesh poly)
{
using (Syroot.BinaryData.BinaryDataReader reader = new Syroot.BinaryData.BinaryDataReader(new MemoryStream(mat.ShaderParamData)))
{
reader.ByteOrder = Syroot.BinaryData.ByteOrder.LittleEndian;
foreach (Syroot.NintenTools.NSW.Bfres.ShaderParam param in mat.ShaderParams)
{
ShaderParam prm = new ShaderParam();
prm.Type = (Syroot.NintenTools.Bfres.ShaderParamType)param.Type;
prm.Name = param.Name;
switch (param.Type)
{
case ShaderParamType.Float:
reader.Seek(param.DataOffset, SeekOrigin.Begin);
prm.Value_float = reader.ReadSingle();
break;
case ShaderParamType.Float2:
reader.Seek(param.DataOffset, SeekOrigin.Begin);
prm.Value_float2 = new Vector2(
reader.ReadSingle(),
reader.ReadSingle());
break;
case ShaderParamType.Float3:
reader.Seek(param.DataOffset, SeekOrigin.Begin);
prm.Value_float3 = new Vector3(
reader.ReadSingle(),
reader.ReadSingle(),
reader.ReadSingle()); break;
case ShaderParamType.Float4:
reader.Seek(param.DataOffset, SeekOrigin.Begin);
prm.Value_float4 = new Vector4(
reader.ReadSingle(),
reader.ReadSingle(),
reader.ReadSingle(),
reader.ReadSingle()); break;
case ShaderParamType.TexSrt:
reader.Seek(param.DataOffset, SeekOrigin.Begin);
ShaderParam.TextureSRT texSRT = new ShaderParam.TextureSRT();
texSRT.Mode = reader.ReadSingle(); //Scale mode, Maya, max ect
texSRT.scale = new Vector2(reader.ReadSingle(), reader.ReadSingle());
texSRT.rotate = reader.ReadSingle();
texSRT.translate = new Vector2(reader.ReadSingle(), reader.ReadSingle());
prm.Value_TexSrt = texSRT;
break;
case ShaderParamType.UInt:
prm.Value_UInt = reader.ReadUInt32();
break;
case ShaderParamType.Bool:
prm.Value_Bool = reader.ReadBoolean();
break;
case ShaderParamType.Float4x4:
prm.Value_float4x4 = reader.ReadSingles(16);
break;
}
poly.material.matparam.Add(param.Name, prm);
}
reader.Close();
}
}
public void Read(ResFile TargetWiiUBFRES)
{
Nodes.Add(TModels);
Nodes.Add(TTextures);
Nodes.Add(TShaderparam);
Nodes.Add(TColoranim);
Nodes.Add(TTextureSRT);
Nodes.Add(TTexturePat);
Nodes.Add(TBonevisabilty);
Nodes.Add(TVisualAnim);
Nodes.Add(TShapeAnim);
Nodes.Add(TSceneAnim);
Nodes.Add(TEmbedded);
ImageKey = "bfres";
SelectedImageKey = "bfres";
FSKACount = TargetWiiUBFRES.SkeletalAnims.Count;
FTXPCount = TargetWiiUBFRES.TexPatternAnims.Count;
FSHUCount = TargetWiiUBFRES.ColorAnims.Count + TargetWiiUBFRES.TexSrtAnims.Count + TargetWiiUBFRES.ShaderParamAnims.Count;
AnimationCountTotal = FSKACount + FTXPCount + FSHUCount;
FTEXContainer = new FTEXContainer();
foreach (Texture tex in TargetWiiUBFRES.Textures.Values)
{
string TextureName = tex.Name;
FTEX texture = new FTEX();
texture.ReadFTEX(tex);
TTextures.Nodes.Add(texture);
FTEXContainer.FTEXtextures.Add(texture.Text, texture);
Runtime.FTEXContainerList.Add(FTEXContainer);
}
int ModelCur = 0;
//FMDLs -Models-
foreach (Model mdl in TargetWiiUBFRES.Models.Values)
{
FMDL_Model model = new FMDL_Model(); //This will store VBN data and stuff
model.Text = mdl.Name;
TModels.Nodes.Add(model);
model.Node_Array = new int[mdl.Skeleton.MatrixToBoneList.Count];
int nodes = 0;
foreach (ushort node in mdl.Skeleton.MatrixToBoneList)
{
model.Node_Array[nodes] = node;
nodes++;
}
foreach (Syroot.NintenTools.Bfres.Bone bn in mdl.Skeleton.Bones.Values)
{
Bone bone = new Bone(model.skeleton);
bone.Text = bn.Name;
bone.boneId = bn.BillboardIndex;
bone.parentIndex = bn.ParentIndex;
bone.scale = new float[3];
bone.rotation = new float[4];
bone.position = new float[3];
if (bn.FlagsRotation == BoneFlagsRotation.Quaternion)
{
bone.boneRotationType = 1;
}
else
{
bone.boneRotationType = 0;
}
bone.scale[0] = bn.Scale.X;
bone.scale[1] = bn.Scale.Y;
bone.scale[2] = bn.Scale.Z;
bone.rotation[0] = bn.Rotation.X;
bone.rotation[1] = bn.Rotation.Y;
bone.rotation[2] = bn.Rotation.Z;
bone.rotation[3] = bn.Rotation.W;
bone.position[0] = bn.Position.X;
bone.position[1] = bn.Position.Y;
bone.position[2] = bn.Position.Z;
model.skeleton.bones.Add(bone);
}
model.skeleton.reset();
model.skeleton.update();
//MeshTime!!
int ShapeCur = 0;
foreach (Shape shp in mdl.Shapes.Values)
{
Mesh poly = new Mesh();
poly.Text = shp.Name;
poly.MaterialIndex = shp.MaterialIndex;
poly.VertexSkinCount = shp.VertexSkinCount;
poly.boneIndx = shp.BoneIndex;
poly.fmdlIndx = ModelCur;
foreach (int bn in shp.SkinBoneIndices)
{
if (!poly.BoneIndexList.ContainsKey(model.skeleton.bones[bn].Text))
{
poly.BoneIndexList.Add(model.skeleton.bones[bn].Text, bn);
}
}
TModels.Nodes[ModelCur].Nodes.Add(poly);
//Create a buffer instance which stores all the buffer data
VertexBufferHelper helper = new VertexBufferHelper(mdl.VertexBuffers[shp.VertexBufferIndex], TargetWiiUBFRES.ByteOrder);
//Set each array first from the lib if exist. Then add the data all in one loop
Syroot.Maths.Vector4F[] vec4Positions = new Syroot.Maths.Vector4F[0];
Syroot.Maths.Vector4F[] vec4Normals = new Syroot.Maths.Vector4F[0];
Syroot.Maths.Vector4F[] vec4uv0 = new Syroot.Maths.Vector4F[0];
Syroot.Maths.Vector4F[] vec4uv1 = new Syroot.Maths.Vector4F[0];
Syroot.Maths.Vector4F[] vec4uv2 = new Syroot.Maths.Vector4F[0];
Syroot.Maths.Vector4F[] vec4c0 = new Syroot.Maths.Vector4F[0];
Syroot.Maths.Vector4F[] vec4t0 = new Syroot.Maths.Vector4F[0];
Syroot.Maths.Vector4F[] vec4b0 = new Syroot.Maths.Vector4F[0];
Syroot.Maths.Vector4F[] vec4w0 = new Syroot.Maths.Vector4F[0];
Syroot.Maths.Vector4F[] vec4i0 = new Syroot.Maths.Vector4F[0];
foreach (VertexAttrib att in mdl.VertexBuffers[shp.VertexBufferIndex].Attributes.Values)
{
Mesh.VertexAttribute attr = new Mesh.VertexAttribute();
attr.Name = att.Name;
// attr.Format = att.Format;
if (att.Name == "_p0")
{
vec4Positions = WiiUAttributeData(att, helper, "_p0");
}
if (att.Name == "_n0")
{
vec4Normals = WiiUAttributeData(att, helper, "_n0");
}
if (att.Name == "_u0")
{
vec4uv0 = WiiUAttributeData(att, helper, "_u0");
}
if (att.Name == "_u1")
{
vec4uv1 = WiiUAttributeData(att, helper, "_u1");
}
if (att.Name == "_u2")
{
vec4uv2 = WiiUAttributeData(att, helper, "_u2");
}
if (att.Name == "_c0")
{
vec4c0 = WiiUAttributeData(att, helper, "_c0");
}
if (att.Name == "_t0")
{
vec4t0 = WiiUAttributeData(att, helper, "_t0");
}
if (att.Name == "_b0")
{
vec4b0 = WiiUAttributeData(att, helper, "_b0");
}
if (att.Name == "_w0")
{
vec4w0 = WiiUAttributeData(att, helper, "_w0");
}
if (att.Name == "_i0")
{
vec4i0 = WiiUAttributeData(att, helper, "_i0");
}
poly.vertexAttributes.Add(attr);
}
for (int i = 0; i < vec4Positions.Length; i++)
{
Vertex v = new Vertex();
if (vec4Positions.Length > 0)
{
v.pos = new Vector3(vec4Positions[i].X, vec4Positions[i].Y, vec4Positions[i].Z);
}
if (vec4Normals.Length > 0)
{
v.nrm = new Vector3(vec4Normals[i].X, vec4Normals[i].Y, vec4Normals[i].Z);
}
if (vec4uv0.Length > 0)
{
v.uv0 = new Vector2(vec4uv0[i].X, vec4uv0[i].Y);
}
if (vec4uv1.Length > 0)
{
v.uv1 = new Vector2(vec4uv1[i].X, vec4uv1[i].Y);
}
if (vec4uv2.Length > 0)
{
v.uv2 = new Vector2(vec4uv2[i].X, vec4uv2[i].Y);
}
if (vec4w0.Length > 0)
{
v.boneWeights.Add(vec4w0[i].X);
v.boneWeights.Add(vec4w0[i].Y);
v.boneWeights.Add(vec4w0[i].Z);
v.boneWeights.Add(vec4w0[i].W);
}
if (vec4i0.Length > 0)
{
v.boneIds.Add((int)vec4i0[i].X);
v.boneIds.Add((int)vec4i0[i].Y);
v.boneIds.Add((int)vec4i0[i].Z);
v.boneIds.Add((int)vec4i0[i].W);
}
if (vec4t0.Length > 0)
{
v.tan = new Vector4(vec4t0[i].X, vec4t0[i].Y, vec4t0[i].Z, vec4t0[i].W);
}
if (vec4b0.Length > 0)
{
v.bitan = new Vector4(vec4b0[i].X, vec4b0[i].Y, vec4b0[i].Z, vec4b0[i].W);
}
if (vec4c0.Length > 0)
{
v.col = new Vector4(vec4c0[i].X, vec4c0[i].Y, vec4c0[i].Z, vec4c0[i].W);
}
if (poly.VertexSkinCount == 1)
{
Matrix4 sb = model.skeleton.bones[model.Node_Array[v.boneIds[0]]].transform;
// Console.WriteLine(model.skeleton.bones[model.Node_Array[v.boneIds[0]]].Text);
v.pos = Vector3.TransformPosition(v.pos, sb);
v.nrm = Vector3.TransformNormal(v.nrm, sb);
}
if (poly.VertexSkinCount == 0)
{
Matrix4 NoBindFix = model.skeleton.bones[poly.boneIndx].transform;
v.pos = Vector3.TransformPosition(v.pos, NoBindFix);
v.nrm = Vector3.TransformNormal(v.nrm, NoBindFix);
}
poly.vertices.Add(v);
}
//shp.Meshes.Count - 1 //For going to the lowest poly LOD mesh
poly.BoundingCount = shp.SubMeshBoundings.Count;
int CurLOD = 0;
foreach (var lod in shp.Meshes)
{
Mesh.LOD_Mesh lodmsh = new Mesh.LOD_Mesh();
lodmsh.index = CurLOD++;
uint FaceCount = lod.IndexCount;
uint[] indicesArray = lod.GetIndices().ToArray();
for (int face = 0; face < FaceCount; face++)
{
lodmsh.faces.Add((int)indicesArray[face] + (int)lod.FirstVertex);
}
poly.lodMeshes.Add(lodmsh);
}
foreach (Bounding bnd in shp.SubMeshBoundings)
{
Mesh.BoundingBox box = new Mesh.BoundingBox();
box.Center = new Vector3(bnd.Center.X, bnd.Center.Y, bnd.Center.Z);
box.Extent = new Vector3(bnd.Extent.X, bnd.Extent.Y, bnd.Extent.Z);
poly.boundingBoxes.Add(box); //Each box is by LOD mesh. This will be in a seperate class later so only one will be added
}
foreach (float r in shp.RadiusArray)
{
poly.radius.Add(r);
}
// Read materials
Material mat = mdl.Materials[shp.MaterialIndex];
int SampIndex = 0;
foreach (var smp in mat.Samplers)
{
poly.material.Samplers.Add(smp.Key, SampIndex);
SampIndex++;
}
int AlbedoCount = 0;
string TextureName = "";
MaterialData.ShaderAssign shaderassign = new MaterialData.ShaderAssign();
if (mat.ShaderAssign != null) //Some special cases (env models) have none
{
shaderassign.ShaderModel = mat.ShaderAssign.ShadingModelName;
shaderassign.ShaderArchive = mat.ShaderAssign.ShaderArchiveName;
int o = 0;
foreach (var op in mat.ShaderAssign.ShaderOptions)
{
shaderassign.options.Add(op.Key, mat.ShaderAssign.ShaderOptions[o]);
o++;
}
int sa = 0;
foreach (var smp in mat.ShaderAssign.SamplerAssigns)
{
shaderassign.samplers.Add(smp.Key, mat.ShaderAssign.SamplerAssigns[sa]);
sa++;
}
int va = 0;
foreach (var att in mat.ShaderAssign.AttribAssigns)
{
shaderassign.attributes.Add(att.Key, mat.ShaderAssign.AttribAssigns[va]);
va++;
}
}
poly.material.shaderassign = shaderassign;
int id = 0;
foreach (TextureRef tex in mdl.Materials[shp.MaterialIndex].TextureRefs)
{
TextureName = tex.Name;
MatTexture texture = new MatTexture();
texture.wrapModeS = (int)mdl.Materials[shp.MaterialIndex].Samplers[id].TexSampler.ClampX;
texture.wrapModeT = (int)mdl.Materials[shp.MaterialIndex].Samplers[id].TexSampler.ClampY;
bool IsAlbedo = HackyTextureList.Any(TextureName.Contains);
if (mdl.Materials[shp.MaterialIndex].Samplers[id].Name == "_a0")
{
poly.material.HasDiffuseMap = true;
texture.hash = 0;
texture.Type = MatTexture.TextureType.Diffuse;
}
if (mdl.Materials[shp.MaterialIndex].Samplers[id].Name == "_a1")
{
poly.material.HasDiffuseLayer = true;
texture.hash = 19;
texture.Type = MatTexture.TextureType.DiffuseLayer2;
}
if (mdl.Materials[shp.MaterialIndex].Samplers[id].Name == "_n0")
{
texture.hash = 1;
poly.material.HasNormalMap = true;
texture.Type = MatTexture.TextureType.Normal;
}
if (mdl.Materials[shp.MaterialIndex].Samplers[id].Name == "_s0")
{
texture.hash = 4;
poly.material.HasSpecularMap = true;
texture.Type = MatTexture.TextureType.Specular;
}
if (mdl.Materials[shp.MaterialIndex].Samplers[id].Name == "_b0")
{
texture.hash = 2;
poly.material.HasShadowMap = true;
texture.Type = MatTexture.TextureType.Shadow;
}
if (mdl.Materials[shp.MaterialIndex].Samplers[id].Name == "_b1")
{
texture.hash = 3;
poly.material.HasLightMap = true;
texture.Type = MatTexture.TextureType.Light;
}
if (mdl.Materials[shp.MaterialIndex].Samplers[id].Name == "_e0")
{
texture.hash = 8;
poly.material.HasEmissionMap = true;
texture.Type = MatTexture.TextureType.Emission;
}
texture.Name = TextureName;
poly.material.textures.Add(texture);
id++;
}
foreach (Sampler smp in mat.Samplers.Values)
{
SamplerInfo s = new SamplerInfo();
s.WrapModeU = (int)smp.TexSampler.ClampX;
s.WrapModeV = (int)smp.TexSampler.ClampY;
s.WrapModeW = (int)smp.TexSampler.ClampZ;
poly.material.samplerinfo.Add(s);
}
poly.material.Name = mdl.Materials[shp.MaterialIndex].Name;
if (mdl.Materials[shp.MaterialIndex].ShaderParamData != null) //Some special cases (env models) have none
{
using (Syroot.BinaryData.BinaryDataReader reader = new Syroot.BinaryData.BinaryDataReader(new MemoryStream(mdl.Materials[shp.MaterialIndex].ShaderParamData)))
{
reader.ByteOrder = Syroot.BinaryData.ByteOrder.BigEndian;
foreach (Syroot.NintenTools.Bfres.ShaderParam param in mdl.Materials[shp.MaterialIndex].ShaderParams.Values)
{
ShaderParam prm = new ShaderParam();
prm.Type = param.Type;
prm.Name = param.Name;
switch (param.Type)
{
case ShaderParamType.Float:
reader.Seek(param.DataOffset, SeekOrigin.Begin);
prm.Value_float = reader.ReadSingle();
break;
case ShaderParamType.Float2:
reader.Seek(param.DataOffset, SeekOrigin.Begin);
prm.Value_float2 = new Vector2(
reader.ReadSingle(),
reader.ReadSingle());
break;
case ShaderParamType.Float3:
reader.Seek(param.DataOffset, SeekOrigin.Begin);
prm.Value_float3 = new Vector3(
reader.ReadSingle(),
reader.ReadSingle(),
reader.ReadSingle()); break;
case ShaderParamType.Float4:
reader.Seek(param.DataOffset, SeekOrigin.Begin);
prm.Value_float4 = new Vector4(
reader.ReadSingle(),
reader.ReadSingle(),
reader.ReadSingle(),
reader.ReadSingle()); break;
case ShaderParamType.TexSrt:
reader.Seek(param.DataOffset, SeekOrigin.Begin);
ShaderParam.TextureSRT texSRT = new ShaderParam.TextureSRT();
texSRT.Mode = reader.ReadSingle(); //Scale mode, Maya, max ect
texSRT.scale = new Vector2(reader.ReadSingle(), reader.ReadSingle());
texSRT.rotate = reader.ReadSingle();
texSRT.translate = new Vector2(reader.ReadSingle(), reader.ReadSingle());
prm.Value_TexSrt = texSRT; break;
}
poly.material.matparam.Add(param.Name, prm);
}
reader.Close();
}
}
model.poly.Add(poly);
ShapeCur++;
}
models.Add(model);
ModelCur++;
}
}
public void Read(ResFile TargetWiiUBFRES)
{
Nodes.Add(TModels);
Nodes.Add(TTextures);
Nodes.Add(TShaderparam);
Nodes.Add(TColoranim);
Nodes.Add(TTextureSRT);
Nodes.Add(TTexturePat);
Nodes.Add(TBonevisabilty);
Nodes.Add(TVisualAnim);
Nodes.Add(TShapeAnim);
Nodes.Add(TSceneAnim);
Nodes.Add(TEmbedded);
ImageKey = "bfres";
SelectedImageKey = "bfres";
FSKACount = TargetWiiUBFRES.SkeletalAnims.Count;
textures.Clear();
foreach (Texture tex in TargetWiiUBFRES.Textures.Values)
{
string TextureName = tex.Name;
FTEX texture = new FTEX();
texture.ReadFTEX(tex);
textures.Add(TextureName, texture);
TTextures.Nodes.Add(texture);
}
int ModelCur = 0;
//FMDLs -Models-
foreach (Model mdl in TargetWiiUBFRES.Models.Values)
{
FMDL_Model model = new FMDL_Model(); //This will store VBN data and stuff
model.Text = mdl.Name;
TModels.Nodes.Add(model);
model.Node_Array = new int[mdl.Skeleton.MatrixToBoneList.Count];
int nodes = 0;
foreach (ushort node in mdl.Skeleton.MatrixToBoneList)
{
model.Node_Array[nodes] = node;
nodes++;
}
foreach (Syroot.NintenTools.Bfres.Bone bn in mdl.Skeleton.Bones.Values)
{
Bone bone = new Bone(model.skeleton);
bone.Text = bn.Name;
bone.boneId = bn.BillboardIndex;
bone.parentIndex = bn.ParentIndex;
bone.scale = new float[3];
bone.rotation = new float[4];
bone.position = new float[3];
if (bn.FlagsRotation == BoneFlagsRotation.Quaternion)
{
bone.boneRotationType = 1;
}
else
{
bone.boneRotationType = 0;
}
bone.scale[0] = bn.Scale.X;
bone.scale[1] = bn.Scale.Y;
bone.scale[2] = bn.Scale.Z;
bone.rotation[0] = bn.Rotation.X;
bone.rotation[1] = bn.Rotation.Y;
bone.rotation[2] = bn.Rotation.Z;
bone.rotation[3] = bn.Rotation.W;
bone.position[0] = bn.Position.X;
bone.position[1] = bn.Position.Y;
bone.position[2] = bn.Position.Z;
model.skeleton.bones.Add(bone);
}
model.skeleton.reset();
model.skeleton.update();
//MeshTime!!
int ShapeCur = 0;
foreach (Shape shp in mdl.Shapes.Values)
{
Mesh poly = new Mesh();
poly.Text = shp.Name;
poly.MaterialIndex = shp.MaterialIndex;
poly.matrFlag = shp.VertexSkinCount;
poly.fsklindx = shp.BoneIndex;
TModels.Nodes[ModelCur].Nodes.Add(poly);
//Create a buffer instance which stores all the buffer data
VertexBufferHelper helper = new VertexBufferHelper(mdl.VertexBuffers[shp.VertexBufferIndex], TargetWiiUBFRES.ByteOrder);
// VertexBufferHelperAttrib uv1 = helper["_u1"];
Vertex v = new Vertex();
foreach (VertexAttrib att in mdl.VertexBuffers[shp.VertexBufferIndex].Attributes.Values)
{
if (att.Name == "_p0")
{
Console.WriteLine(att.Name);
VertexBufferHelperAttrib position = helper["_p0"];
Syroot.Maths.Vector4F[] vec4Positions = position.Data;
foreach (Syroot.Maths.Vector4F p in vec4Positions)
{
v.pos.Add(new Vector3 {
X = p.X, Y = p.Y, Z = p.Z
});
}
}
if (att.Name == "_n0")
{
Console.WriteLine(att.Name);
VertexBufferHelperAttrib normal = helper["_n0"];
Syroot.Maths.Vector4F[] vec4Normals = normal.Data;
foreach (Syroot.Maths.Vector4F n in vec4Normals)
{
v.nrm.Add(new Vector3 {
X = n.X, Y = n.Y, Z = n.Z
});
}
}
if (att.Name == "_u0")
{
Console.WriteLine(att.Name);
VertexBufferHelperAttrib uv0 = helper["_u0"];
Syroot.Maths.Vector4F[] vec4uv0 = uv0.Data;
foreach (Syroot.Maths.Vector4F u in vec4uv0)
{
v.uv0.Add(new Vector2 {
X = u.X, Y = u.Y
});
}
}
if (att.Name == "_u1")
{
Console.WriteLine(att.Name);
VertexBufferHelperAttrib uv1 = helper["_u1"];
Syroot.Maths.Vector4F[] vec4uv1 = uv1.Data;
foreach (Syroot.Maths.Vector4F u in vec4uv1)
{
v.uv1.Add(new Vector2 {
X = u.X, Y = u.Y
});
}
}
if (att.Name == "_u2")
{
Console.WriteLine(att.Name);
VertexBufferHelperAttrib uv2 = helper["_u2"];
Syroot.Maths.Vector4F[] vec4uv2 = uv2.Data;
foreach (Syroot.Maths.Vector4F u in vec4uv2)
{
v.uv2.Add(new Vector2 {
X = u.X, Y = u.Y
});
}
}
if (att.Name == "_c0")
{
Console.WriteLine(att.Name);
VertexBufferHelperAttrib c0 = helper["_c0"];
Syroot.Maths.Vector4F[] vec4c0 = c0.Data;
foreach (Syroot.Maths.Vector4F c in vec4c0)
{
v.col.Add(new Vector4 {
X = c.X, Y = c.Y, Z = c.Z, W = c.W
});
}
}
if (att.Name == "_t0")
{
Console.WriteLine(att.Name);
VertexBufferHelperAttrib t0 = helper["_t0"];
Syroot.Maths.Vector4F[] vec4t0 = t0.Data;
foreach (Syroot.Maths.Vector4F u in vec4t0)
{
v.tans.Add(new Vector4 {
X = u.X, Y = u.Y, Z = u.Z, W = u.W
});
}
}
if (att.Name == "_b0")
{
Console.WriteLine(att.Name);
VertexBufferHelperAttrib b0 = helper["_b0"];
Syroot.Maths.Vector4F[] vec4b0 = b0.Data;
foreach (Syroot.Maths.Vector4F u in vec4b0)
{
v.bitans.Add(new Vector4 {
X = u.X, Y = u.Y, Z = u.Z, W = u.W
});
}
}
if (att.Name == "_w0")
{
Console.WriteLine(att.Name);
VertexBufferHelperAttrib w0 = helper["_w0"];
Syroot.Maths.Vector4F[] vec4w0 = w0.Data;
foreach (Syroot.Maths.Vector4F w in vec4w0)
{
v.weights.Add(new Vector4 {
X = w.X, Y = w.Y, Z = w.Z, W = w.W
});
}
}
if (att.Name == "_i0")
{
Console.WriteLine(att.Name);
VertexBufferHelperAttrib i0 = helper["_i0"];
Syroot.Maths.Vector4F[] vec4i0 = i0.Data;
foreach (Syroot.Maths.Vector4F i in vec4i0)
{
v.nodes.Add(new Vector4 {
X = i.X, Y = i.Y, Z = i.Z, W = i.W
});
}
}
}
poly.vertices = v;
//shp.Meshes.Count - 1 //For going to the lowest poly LOD mesh
int LODCount = 0;
uint FaceCount = FaceCount = shp.Meshes[LODCount].IndexCount;
uint[] indicesArray = shp.Meshes[LODCount].GetIndices().ToArray();
poly.BoundingCount = shp.SubMeshBoundings.Count;
for (int face = 0; face < FaceCount; face++)
{
poly.faces.Add((int)indicesArray[face] + (int)shp.Meshes[LODCount].FirstVertex);
}
int AlbedoCount = 0;
string TextureName = "";
int id = 0;
foreach (TextureRef tex in mdl.Materials[shp.MaterialIndex].TextureRefs)
{
TextureName = tex.Name;
MatTexture texture = new MatTexture();
poly.Nodes.Add(new TreeNode {
Text = TextureName
});
if (mdl.Materials[shp.MaterialIndex].Samplers[id].Name == "_a0")
{
if (AlbedoCount == 0)
{
try
{
poly.texHashs.Add(textures[TextureName].texture.display);
AlbedoCount++;
}
catch
{
poly.texHashs.Add(0);
}
poly.TextureMapTypes.Add("Diffuse");
}
}
if (mdl.Materials[shp.MaterialIndex].Samplers[id].Name == "_a1")
{
try
{
poly.texHashs.Add(textures[TextureName].texture.display);
AlbedoCount++;
}
catch
{
poly.texHashs.Add(0);
}
poly.TextureMapTypes.Add("Diffuse_Layer");
}
if (mdl.Materials[shp.MaterialIndex].Samplers[id].Name == "_n0")
{
try
{
poly.texHashs.Add(textures[TextureName].texture.display);
}
catch
{
poly.texHashs.Add(1);
}
poly.material.HasNormalMap = true;
poly.TextureMapTypes.Add("Normal");
}
if (mdl.Materials[shp.MaterialIndex].Samplers[id].Name == "_b0")
{
try
{
poly.texHashs.Add(textures[TextureName].texture.display);
}
catch
{
poly.texHashs.Add(2);
}
poly.TextureMapTypes.Add("Bake1");
}
if (mdl.Materials[shp.MaterialIndex].Samplers[id].Name == "_b1")
{
try
{
poly.texHashs.Add(textures[TextureName].texture.display);
}
catch
{
poly.texHashs.Add(3);
}
poly.TextureMapTypes.Add("Bake2");
}
id++;
texture.Name = TextureName;
}
poly.material.Name = mdl.Materials[shp.MaterialIndex].Name;
foreach (Sampler smp in mdl.Materials[shp.MaterialIndex].Samplers.Values)
{
SamplerInfo s = new SamplerInfo();
s.WrapModeU = (int)smp.TexSampler.ClampX;
s.WrapModeV = (int)smp.TexSampler.ClampY;
s.WrapModeW = (int)smp.TexSampler.ClampZ;
poly.material.samplerinfo.Add(s);
}
using (Syroot.BinaryData.BinaryDataReader reader = new Syroot.BinaryData.BinaryDataReader(new MemoryStream(mdl.Materials[shp.MaterialIndex].ShaderParamData)))
{
reader.ByteOrder = Syroot.BinaryData.ByteOrder.BigEndian;
foreach (Syroot.NintenTools.Bfres.ShaderParam param in mdl.Materials[shp.MaterialIndex].ShaderParams.Values)
{
ShaderParam prm = new ShaderParam();
prm.Type = param.Type;
switch (param.Type)
{
case ShaderParamType.Float:
reader.Seek(param.DataOffset, SeekOrigin.Begin);
prm.Value_float = reader.ReadSingle();
break;
case ShaderParamType.Float2:
reader.Seek(param.DataOffset, SeekOrigin.Begin);
prm.Value_float2 = new Vector2(
reader.ReadSingle(),
reader.ReadSingle());
break;
case ShaderParamType.Float3:
reader.Seek(param.DataOffset, SeekOrigin.Begin);
prm.Value_float3 = new Vector3(
reader.ReadSingle(),
reader.ReadSingle(),
reader.ReadSingle()); break;
case ShaderParamType.Float4:
reader.Seek(param.DataOffset, SeekOrigin.Begin);
prm.Value_float4 = new Vector4(
reader.ReadSingle(),
reader.ReadSingle(),
reader.ReadSingle(),
reader.ReadSingle()); break;
}
poly.material.matparam.Add(param.Name, prm);
}
reader.Close();
}
model.poly.Add(poly);
ShapeCur++;
}
models.Add(model);
ModelCur++;
}
}
