Merge pull request #24 from Yusarina/fbx-import

Add Fbx import
2024-07-22 17:03:43 -04:00
parent 9c50c48a49 041ce3e5d1
commit f28c8012eb
13 changed files with 194 additions and 545 deletions
@@ -1,5 +1,3 @@
 if "bpy" not in locals():
    import bpy
    from . import ui
@@ -7,28 +5,35 @@ if "bpy" not in locals():
    from . import functions
    from .core import register
    from .core.register import __bl_ordered_classes
    from .core import properties
 else:
    import importlib
    importlib.reload(ui)
    importlib.reload(core)
    importlib.reload(functions)
-
+    importlib.reload(properties)
 def register():
    print("Registering Avatar Toolkit")
    # Register the addon properties
    properties.register()
    # Order the classes before registration
    core.register.order_classes()
    # Register the UI classes
    # Iterate over the classes to register and register them
-    for cls in __bl_ordered_classes:
+    core.register.register_properties()
    for cls in core.register.__bl_ordered_classes:
        print("registering " + str(cls))
        bpy.utils.register_class(cls)
 def unregister():
    print("Unregistering Avatar Toolkit")
    # Unregister the UI classes
    # Iterate over the classes to unregister in reverse order and unregister them
-    for cls in reversed(list(__bl_ordered_classes)):
+    for cls in reversed(core.register.__bl_ordered_classes):
        bpy.utils.unregister_class(cls)
        print("unregistering " + str(cls))
    core.register.unregister_properties()
    properties.unregister()
@@ -1,7 +1,6 @@
 # core/__init__.py
 from .register import register_wrap
 from . import pmx
 #to reload all things in this directory and import them properly - @989onan
 if "bpy" not in locals():
@@ -0,0 +1,17 @@
 import bpy
 # Importers which don't need much code should be added here, however if a importer needs alot of code
 # Like the PMX and PMD importers, they should be added to their own files.
 # FBX Importer settings borrowed form Cat's Blender Plugin
 def import_fbx(filepath):
    try:
        bpy.ops.import_scene.fbx(
            filepath=filepath,
            automatic_bone_orientation=False,
            use_prepost_rot=False,
            use_anim=False
        )
    except (TypeError, ValueError) as e:
        print(f"Error importing FBX: {str(e)}")
@@ -1,224 +0,0 @@
 import bpy
 import struct
 import mathutils
 def read_pmd_header(file):
    # Read PMD header information
    magic = file.read(3)
    if magic != b'Pmd':
        raise ValueError("Invalid PMD file")
    version = struct.unpack('<f', file.read(4))[0]
    # Read additional header fields
    model_name = file.read(20).decode('shift-jis').rstrip('\0')
    comment = file.read(256).decode('shift-jis').rstrip('\0')
    return version, model_name, comment
 def read_pmd_vertex(file):
    # Read PMD vertex information
    position = struct.unpack('<3f', file.read(12))
    normal = struct.unpack('<3f', file.read(12))
    uv = struct.unpack('<2f', file.read(8))
    bone_indices = list(struct.unpack('<2H', file.read(4)))
    bone_weights = struct.unpack('<b', file.read(1))[0] / 100
    edge_flag = struct.unpack('<b', file.read(1))[0]
    return position, normal, uv, bone_indices, bone_weights, edge_flag
 def read_pmd_material(file):
    # Read PMD material information
    diffuse_color = struct.unpack('<4f', file.read(16))
    specular_color = struct.unpack('<3f', file.read(12))
    specular_intensity = struct.unpack('<f', file.read(4))[0]
    ambient_color = struct.unpack('<3f', file.read(12))
    toon_index = struct.unpack('<b', file.read(1))[0]
    edge_flag = struct.unpack('<b', file.read(1))[0]
    vertex_count = struct.unpack('<i', file.read(4))[0]
    texture_file_name = file.read(20).decode('shift-jis').rstrip('\0')
    return diffuse_color, specular_color, specular_intensity, ambient_color, toon_index, edge_flag, vertex_count, texture_file_name
 def read_pmd_bone(file):
    # Read PMD bone information
    bone_name = file.read(20).decode('shift-jis').rstrip('\0')
    parent_bone_index = struct.unpack('<h', file.read(2))[0]
    tail_pos_bone_index = struct.unpack('<h', file.read(2))[0]
    bone_type = struct.unpack('<b', file.read(1))[0]
    ik_parent_bone_index = struct.unpack('<h', file.read(2))[0]
    bone_head_pos = struct.unpack('<3f', file.read(12))
    return bone_name, parent_bone_index, tail_pos_bone_index, bone_type, ik_parent_bone_index, bone_head_pos
 def read_pmd_ik(file):
    # Read PMD IK information
    ik_bone_index = struct.unpack('<h', file.read(2))[0]
    ik_target_bone_index = struct.unpack('<h', file.read(2))[0]
    ik_chain_length = struct.unpack('<b', file.read(1))[0]
    iterations = struct.unpack('<h', file.read(2))[0]
    limit_angle = struct.unpack('<f', file.read(4))[0]
    ik_child_bone_indices = []
    for _ in range(ik_chain_length):
        ik_child_bone_index = struct.unpack('<h', file.read(2))[0]
        ik_child_bone_indices.append(ik_child_bone_index)
    return ik_bone_index, ik_target_bone_index, ik_chain_length, iterations, limit_angle, ik_child_bone_indices
 def read_pmd_morph(file):
    # Read PMD morph information
    morph_name = file.read(20).decode('shift-jis').rstrip('\0')
    morph_vertex_count = struct.unpack('<i', file.read(4))[0]
    morph_type = struct.unpack('<b', file.read(1))[0]
    morph_vertices = []
    for _ in range(morph_vertex_count):
        morph_vertex_index = struct.unpack('<i', file.read(4))[0]
        morph_vertex_pos = struct.unpack('<3f', file.read(12))
        morph_vertices.append((morph_vertex_index, morph_vertex_pos))
    return morph_name, morph_vertex_count, morph_type, morph_vertices
 def import_pmd(filepath):
    try:
        with open(filepath, 'rb') as file:
            version, model_name, comment = read_pmd_header(file)
            # Read vertices
            vertex_count = struct.unpack('<i', file.read(4))[0]
            vertices = []
            for _ in range(vertex_count):
                position, normal, uv, bone_indices, bone_weights, edge_flag = read_pmd_vertex(file)
                vertices.append((position, normal, uv, bone_indices, bone_weights, edge_flag))
            # Read faces
            face_count = struct.unpack('<i', file.read(4))[0]
            faces = []
            for _ in range(face_count // 3):
                face_indices = struct.unpack('<3i', file.read(12))
                faces.append(face_indices)
            # Read materials
            material_count = struct.unpack('<i', file.read(4))[0]
            materials = []
            for _ in range(material_count):
                diffuse_color, specular_color, specular_intensity, ambient_color, toon_index, edge_flag, vertex_count, texture_file_name = read_pmd_material(file)
                materials.append((diffuse_color, specular_color, specular_intensity, ambient_color, toon_index, edge_flag, vertex_count, texture_file_name))
            # Read bones
            bone_count = struct.unpack('<h', file.read(2))[0]
            bones = []
            for _ in range(bone_count):
                bone_name, parent_bone_index, tail_pos_bone_index, bone_type, ik_parent_bone_index, bone_head_pos = read_pmd_bone(file)
                bones.append((bone_name, parent_bone_index, tail_pos_bone_index, bone_type, ik_parent_bone_index, bone_head_pos))
            # Read IKs
            ik_count = struct.unpack('<h', file.read(2))[0]
            iks = []
            for _ in range(ik_count):
                ik_bone_index, ik_target_bone_index, ik_chain_length, iterations, limit_angle, ik_child_bone_indices = read_pmd_ik(file)
                iks.append((ik_bone_index, ik_target_bone_index, ik_chain_length, iterations, limit_angle, ik_child_bone_indices))
            # Read morphs
            morph_count = struct.unpack('<h', file.read(2))[0]
            morphs = []
            for _ in range(morph_count):
                morph_name, morph_vertex_count, morph_type, morph_vertices = read_pmd_morph(file)
                morphs.append((morph_name, morph_vertex_count, morph_type, morph_vertices))
            # Create Blender objects and assign PMD data
            mesh = bpy.data.meshes.new(model_name)
            mesh.from_pydata([v[0] for v in vertices], [], faces)
            mesh.update()
            obj = bpy.data.objects.new(model_name, mesh)
            bpy.context.collection.objects.link(obj)
            # Assign vertex normals
            for i, vertex in enumerate(vertices):
                mesh.vertices[i].normal = vertex[1]
            # Assign UV coordinates
            uv_layer = mesh.uv_layers.new()
            for i, vertex in enumerate(vertices):
                uv_layer.data[i].uv = vertex[2]
            # Assign materials
            for material_data in materials:
                material = bpy.data.materials.new(f"Material_{len(mesh.materials)}")
                material.diffuse_color = material_data[0]
                material.specular_color = material_data[1]
                material.specular_intensity = material_data[2]
                material.ambient = material_data[3]
                # Set other material properties based on the PMD data
                mesh.materials.append(material)
            # Create armature and assign bones
            armature = bpy.data.armatures.new(model_name + "_Armature")
            armature_obj = bpy.data.objects.new(model_name + "_Armature", armature)
            bpy.context.collection.objects.link(armature_obj)
            bpy.context.view_layer.objects.active = armature_obj
            bpy.ops.object.mode_set(mode='EDIT')
            for bone_data in bones:
                bone = armature.edit_bones.new(bone_data[0])
                bone.head = bone_data[5]
                if bone_data[1] != -1:
                    parent_bone = armature.edit_bones[bone_data[1]]
                    bone.parent = parent_bone
                    bone.tail = parent_bone.head
                else:
                    bone.tail = bone.head + mathutils.Vector((0, 0.1, 0))
                # Set other bone properties based on the PMD data
            bpy.ops.object.mode_set(mode='OBJECT')
            # Assign bone weights to the mesh
            for i, vertex in enumerate(vertices):
                for j in range(2):
                    if vertex[3][j] != 65535:
                        bone_name = bones[vertex[3][j]][0]
                        weight = vertex[4] if j == 0 else 1 - vertex[4]
                        vertex_group = obj.vertex_groups.get(bone_name)
                        if not vertex_group:
                            vertex_group = obj.vertex_groups.new(name=bone_name)
                        vertex_group.add([i], weight, 'REPLACE')
            # Assign IK constraints to bones
            for ik_data in iks:
                ik_bone = armature.bones[bones[ik_data[0]][0]]
                ik_target_bone = armature.bones[bones[ik_data[1]][0]]
                ik_constraint = ik_bone.constraints.new('IK')
                ik_constraint.target = armature_obj
                ik_constraint.subtarget = ik_target_bone.name
                ik_constraint.chain_count = ik_data[2]
                ik_constraint.iterations = ik_data[3]
                ik_constraint.limit_mode = 'LIMITDIST_INSIDE'
                ik_constraint.limit_mode_max_x = ik_data[4]
            # Assign morphs to the mesh
            for morph_data in morphs:
                morph_name = morph_data[0]
                morph_type = morph_data[2]
                if morph_type == 0:  # Vertex morph
                    shape_key = obj.shape_key_add(name=morph_name)
                    for vertex_data in morph_data[3]:
                        vertex_index = vertex_data[0]
                        vertex_offset = vertex_data[1]
                        shape_key.data[vertex_index].co += mathutils.Vector(vertex_offset)
            print(f"Successfully imported PMD file: {filepath}")
            print(f"Model Name: {model_name}")
            print(f"Comment: {comment}")
    except Exception as e:
        print(f"Error importing PMD file: {filepath}")
        print(f"Error details: {str(e)}")
@@ -1,307 +0,0 @@
 import bpy
 import struct
 def read_pmx_header(file):
    # Read PMX header information
    magic = file.read(4)  # Read magic bytes (should be "PMX ")
    if magic != b'PMX ':
        raise ValueError("Invalid PMX file")
    version = struct.unpack('<f', file.read(4))[0]  # Read version number (float, 4 bytes)
    # Read additional header fields
    data_size = struct.unpack('<i', file.read(4))[0]  # Read size of remaining header data (int, 4 bytes)
    encoding = struct.unpack('<b', file.read(1))[0]  # Read encoding type (byte, 1 byte)
    additional_uvs = struct.unpack('<b', file.read(1))[0]  # Read number of additional UV layers (byte, 1 byte)
    vertex_index_size = struct.unpack('<b', file.read(1))[0]  # Read vertex index size (byte, 1 byte)
    texture_index_size = struct.unpack('<b', file.read(1))[0]  # Read texture index size (byte, 1 byte)
    material_index_size = struct.unpack('<b', file.read(1))[0]  # Read material index size (byte, 1 byte)
    bone_index_size = struct.unpack('<b', file.read(1))[0]  # Read bone index size (byte, 1 byte)
    morph_index_size = struct.unpack('<b', file.read(1))[0]  # Read morph index size (byte, 1 byte)
    rigid_body_index_size = struct.unpack('<b', file.read(1))[0]  # Read rigid body index size (byte, 1 byte)
    # Read model name and comments
    model_name = str(file.read(struct.unpack('<i', file.read(4))[0]), 'utf-16-le', errors='replace')  # Read model name (string, variable length)
    model_english_name = str(file.read(struct.unpack('<i', file.read(4))[0]), 'utf-16-le', errors='replace')  # Read model English name (string, variable length)
    model_comment = str(file.read(struct.unpack('<i', file.read(4))[0]), 'utf-16-le', errors='replace')  # Read model comment (string, variable length)
    model_english_comment = str(file.read(struct.unpack('<i', file.read(4))[0]), 'utf-16-le', errors='replace')  # Read model English comment (string, variable length)
    return version, encoding, additional_uvs, vertex_index_size, texture_index_size, material_index_size, bone_index_size, morph_index_size, rigid_body_index_size, model_name, model_english_name, model_comment, model_english_comment
 def read_vertex(file, vertex_index_size):
    position = struct.unpack('<3f', file.read(12))  # Read vertex position (float, 3 * 4 bytes)
    normal = struct.unpack('<3f', file.read(12))  # Read vertex normal (float, 3 * 4 bytes)
    uv = struct.unpack('<2f', file.read(8))  # Read vertex UV coordinates (float, 2 * 4 bytes)
    if vertex_index_size == 1:
        bone_indices = list(struct.unpack('<4B', file.read(4)))  # Read bone indices (byte, 4 * 1 byte)
    elif vertex_index_size == 2:
        bone_indices = list(struct.unpack('<4H', file.read(8)))  # Read bone indices (short, 4 * 2 bytes)
    else:
        bone_indices = list(struct.unpack('<4I', file.read(16)))  # Read bone indices (int, 4 * 4 bytes)
    bone_weights = list(struct.unpack('<4f', file.read(16)))  # Read bone weights (float, 4 * 4 bytes)
    edge_scale = struct.unpack('<f', file.read(4))[0]  # Read edge scale (float, 4 bytes)
    return position, normal, uv, bone_indices, bone_weights, edge_scale
 def read_material(file, texture_index_size):
    material_name = str(file.read(struct.unpack('<i', file.read(4))[0]), 'utf-16-le', errors='replace')  # Read material name (string, variable length)
    material_english_name = str(file.read(struct.unpack('<i', file.read(4))[0]), 'utf-16-le', errors='replace')  # Read material English name (string, variable length)
    diffuse_color = struct.unpack('<4f', file.read(16))  # Read diffuse color (float, 4 * 4 bytes)
    specular_color = struct.unpack('<3f', file.read(12))  # Read specular color (float, 3 * 4 bytes)
    specular_strength = struct.unpack('<f', file.read(4))[0]  # Read specular strength (float, 4 bytes)
    ambient_color = struct.unpack('<3f', file.read(12))  # Read ambient color (float, 3 * 4 bytes)
    flag = struct.unpack('<b', file.read(1))[0]  # Read flag (byte, 1 byte)
    edge_color = struct.unpack('<4f', file.read(16))  # Read edge color (float, 4 * 4 bytes)
    edge_size = struct.unpack('<f', file.read(4))[0]  # Read edge size (float, 4 bytes)
    texture_index = struct.unpack(f'<{texture_index_size}B', file.read(texture_index_size))[0]  # Read texture index (byte, texture_index_size bytes)
    sphere_texture_index = struct.unpack(f'<{texture_index_size}B', file.read(texture_index_size))[0]  # Read sphere texture index (byte, texture_index_size bytes)
    sphere_mode = struct.unpack('<b', file.read(1))[0]  # Read sphere mode (byte, 1 byte)
    toon_sharing_flag = struct.unpack('<b', file.read(1))[0]  # Read toon sharing flag (byte, 1 byte)
    if toon_sharing_flag == 0:
        toon_texture_index = struct.unpack(f'<{texture_index_size}B', file.read(texture_index_size))[0]  # Read toon texture index (byte, texture_index_size bytes)
    else:
        toon_texture_index = struct.unpack('<b', file.read(1))[0]  # Read shared toon texture index (byte, 1 byte)
    comment = str(file.read(struct.unpack('<i', file.read(4))[0]), 'utf-16-le', errors='replace')  # Read material comment (string, variable length)
    return material_name, material_english_name, diffuse_color, specular_color, specular_strength, ambient_color, flag, edge_color, edge_size, texture_index, sphere_texture_index, sphere_mode, toon_sharing_flag, toon_texture_index, comment
 def read_bone(file, bone_index_size):
    bone_name = str(file.read(struct.unpack('<i', file.read(4))[0]), 'utf-16-le', errors='replace')  # Read bone name (string, variable length)
    bone_english_name = str(file.read(struct.unpack('<i', file.read(4))[0]), 'utf-16-le', errors='replace')  # Read bone English name (string, variable length)
    position = struct.unpack('<3f', file.read(12))  # Read bone position (float, 3 * 4 bytes)
    parent_bone_index = struct.unpack(f'<{bone_index_size}B', file.read(bone_index_size))[0]  # Read parent bone index (byte, bone_index_size bytes)
    layer = struct.unpack('<i', file.read(4))[0]  # Read bone layer (int, 4 bytes)
    flag = struct.unpack('<H', file.read(2))[0]  # Read bone flag (short, 2 bytes)
    if flag & 0x0001:
        tail_position = struct.unpack('<3f', file.read(12))  # Read bone tail position (float, 3 * 4 bytes)
    else:
        tail_index = struct.unpack(f'<{bone_index_size}B', file.read(bone_index_size))[0]  # Read bone tail index (byte, bone_index_size bytes)
    if flag & 0x0100 or flag & 0x0200:
        inherit_bone_parent_index = struct.unpack(f'<{bone_index_size}B', file.read(bone_index_size))[0]  # Read inherit bone parent index (byte, bone_index_size bytes)
        inherit_bone_parent_influence = struct.unpack('<f', file.read(4))[0]  # Read inherit bone parent influence (float, 4 bytes)
    if flag & 0x0400:
        fixed_axis = struct.unpack('<3f', file.read(12))  # Read fixed axis (float, 3 * 4 bytes)
    if flag & 0x0800:
        local_x_vector = struct.unpack('<3f', file.read(12))  # Read local X-axis vector (float, 3 * 4 bytes)
        local_z_vector = struct.unpack('<3f', file.read(12))  # Read local Z-axis vector (float, 3 * 4 bytes)
    if flag & 0x2000:
        external_key = struct.unpack('<i', file.read(4))[0]  # Read external key (int, 4 bytes)
    if flag & 0x0020:
        ik_target_bone_index = struct.unpack(f'<{bone_index_size}B', file.read(bone_index_size))[0]  # Read IK target bone index (byte, bone_index_size bytes)
        ik_loop_count = struct.unpack('<i', file.read(4))[0]  # Read IK loop count (int, 4 bytes)
        ik_limit_radian = struct.unpack('<f', file.read(4))[0]  # Read IK limit angle (float, 4 bytes)
        ik_link_count = struct.unpack('<i', file.read(4))[0]  # Read IK link count (int, 4 bytes)
        ik_links = []
        for _ in range(ik_link_count):
            ik_link_bone_index = struct.unpack(f'<{bone_index_size}B', file.read(bone_index_size))[0]  # Read IK link bone index (byte, bone_index_size bytes)
            ik_link_limit_min = struct.unpack('<3f', file.read(12))  # Read IK link limit minimum (float, 3 * 4 bytes)
            ik_link_limit_max = struct.unpack('<3f', file.read(12))  # Read IK link limit maximum (float, 3 * 4 bytes)
            ik_links.append((ik_link_bone_index, ik_link_limit_min, ik_link_limit_max))
    return bone_name, bone_english_name, position, parent_bone_index, layer, flag, tail_position, inherit_bone_parent_index, inherit_bone_parent_influence, fixed_axis, local_x_vector, local_z_vector, external_key, ik_target_bone_index, ik_loop_count, ik_limit_radian, ik_links
 def read_morph(file, morph_index_size):
    morph_name = str(file.read(struct.unpack('<i', file.read(4))[0]), 'utf-16-le', errors='replace')  # Read morph name (string, variable length)
    morph_english_name = str(file.read(struct.unpack('<i', file.read(4))[0]), 'utf-16-le', errors='replace')  # Read morph English name (string, variable length)
    panel = struct.unpack('<b', file.read(1))[0]  # Read panel type (byte, 1 byte)
    morph_type = struct.unpack('<b', file.read(1))[0]  # Read morph type (byte, 1 byte)
    offset_size = struct.unpack('<i', file.read(4))[0]  # Read offset size (int, 4 bytes)
    morph_data = []
    for _ in range(offset_size):
        if morph_type == 0:  # Group
            morph_index = struct.unpack(f'<{morph_index_size}B', file.read(morph_index_size))[0]  # Read morph index (byte, morph_index_size bytes)
            morph_value = struct.unpack('<f', file.read(4))[0]  # Read morph value (float, 4 bytes)
            morph_data.append((morph_index, morph_value))
        elif morph_type == 1:  # Vertex
            vertex_index = struct.unpack('<i', file.read(4))[0]  # Read vertex index (int, 4 bytes)
            position_offset = struct.unpack('<3f', file.read(12))  # Read position offset (float, 3 * 4 bytes)
            morph_data.append((vertex_index, position_offset))
        elif morph_type == 2:  # Bone
            bone_index = struct.unpack(f'<{morph_index_size}B', file.read(morph_index_size))[0]  # Read bone index (byte, morph_index_size bytes)
            position_offset = struct.unpack('<3f', file.read(12))  # Read position offset (float, 3 * 4 bytes)
            rotation_offset = struct.unpack('<4f', file.read(16))  # Read rotation offset (float, 4 * 4 bytes)
            morph_data.append((bone_index, position_offset, rotation_offset))
        elif morph_type == 3:  # UV
            vertex_index = struct.unpack('<i', file.read(4))[0]  # Read vertex index (int, 4 bytes)
            uv_offset = struct.unpack('<4f', file.read(16))  # Read UV offset (float, 4 * 4 bytes)
            morph_data.append((vertex_index, uv_offset))
        elif morph_type == 4:  # UV extended1
            vertex_index = struct.unpack('<i', file.read(4))[0]  # Read vertex index (int, 4 bytes)
            uv_offset = struct.unpack('<4f', file.read(16))  # Read UV offset (float, 4 * 4 bytes)
            morph_data.append((vertex_index, uv_offset))
        elif morph_type == 5:  # UV extended2
            vertex_index = struct.unpack('<i', file.read(4))[0]  # Read vertex index (int, 4 bytes)
            uv_offset = struct.unpack('<4f', file.read(16))  # Read UV offset (float, 4 * 4 bytes)
            morph_data.append((vertex_index, uv_offset))
        elif morph_type == 6:  # UV extended3
            vertex_index = struct.unpack('<i', file.read(4))[0]  # Read vertex index (int, 4 bytes)
            uv_offset = struct.unpack('<4f', file.read(16))  # Read UV offset (float, 4 * 4 bytes)
            morph_data.append((vertex_index, uv_offset))
        elif morph_type == 7:  # UV extended4
            vertex_index = struct.unpack('<i', file.read(4))[0]  # Read vertex index (int, 4 bytes)
            uv_offset = struct.unpack('<4f', file.read(16))  # Read UV offset (float, 4 * 4 bytes)
            morph_data.append((vertex_index, uv_offset))
        elif morph_type == 8:  # Material
            material_index = struct.unpack('<i', file.read(4))[0]  # Read material index (int, 4 bytes)
            offset_type = struct.unpack('<b', file.read(1))[0]  # Read offset type (byte, 1 byte)
            diffuse_offset = struct.unpack('<4f', file.read(16))  # Read diffuse color offset (float, 4 * 4 bytes)
            specular_offset = struct.unpack('<3f', file.read(12))  # Read specular color offset (float, 3 * 4 bytes)
            specular_factor_offset = struct.unpack('<f', file.read(4))[0]  # Read specular factor offset (float, 4 bytes)
            ambient_offset = struct.unpack('<3f', file.read(12))  # Read ambient color offset (float, 3 * 4 bytes)
            edge_color_offset = struct.unpack('<4f', file.read(16))  # Read edge color offset (float, 4 * 4 bytes)
            edge_size_offset = struct.unpack('<f', file.read(4))[0]  # Read edge size offset (float, 4 bytes)
            texture_factor_offset = struct.unpack('<4f', file.read(16))  # Read texture factor offset (float, 4 * 4 bytes)
            sphere_texture_factor_offset = struct.unpack('<4f', file.read(16))  # Read sphere texture factor offset (float, 4 * 4 bytes)
            toon_texture_factor_offset = struct.unpack('<4f', file.read(16))  # Read toon texture factor offset (float, 4 * 4 bytes)
            morph_data.append((material_index, offset_type, diffuse_offset, specular_offset, specular_factor_offset, ambient_offset, edge_color_offset, edge_size_offset, texture_factor_offset, sphere_texture_factor_offset, toon_texture_factor_offset))
    return morph_name, morph_english_name, panel, morph_type, morph_data
 def import_pmx(filepath):
    try:
        with open(filepath, 'rb') as file:
            version, encoding, additional_uvs, vertex_index_size, texture_index_size, material_index_size, bone_index_size, morph_index_size, rigid_body_index_size, model_name, model_english_name, model_comment, model_english_comment = read_pmx_header(file)
            # Read vertices
            vertex_count = struct.unpack('<i', file.read(4))[0]  # Read vertex count (int, 4 bytes)
            vertices = []
            for _ in range(vertex_count):
                position, normal, uv, bone_indices, bone_weights, edge_scale = read_vertex(file, vertex_index_size)
                vertices.append((position, normal, uv, bone_indices, bone_weights, edge_scale))
            # Read faces
            face_count = struct.unpack('<i', file.read(4))[0]  # Read face count (int, 4 bytes)
            faces = []
            for _ in range(face_count // 3):
                face_indices = struct.unpack('<3i', file.read(12))  # Read face indices (int, 3 * 4 bytes)
                faces.append(face_indices)
            # Read textures
            texture_count = struct.unpack('<i', file.read(4))[0]  # Read texture count (int, 4 bytes)
            textures = []
            for _ in range(texture_count):
                texture_path = str(file.read(struct.unpack('<i', file.read(4))[0]), 'utf-16-le', errors='replace')  # Read texture path (string, variable length)
                textures.append(texture_path)
            # Read materials
            material_count = struct.unpack('<i', file.read(4))[0]  # Read material count (int, 4 bytes)
            materials = []
            for _ in range(material_count):
                material_name, material_english_name, diffuse_color, specular_color, specular_strength, ambient_color, flag, edge_color, edge_size, texture_index, sphere_texture_index, sphere_mode, toon_sharing_flag, toon_texture_index, comment = read_material(file, texture_index_size)
                materials.append((material_name, material_english_name, diffuse_color, specular_color, specular_strength, ambient_color, flag, edge_color, edge_size, texture_index, sphere_texture_index, sphere_mode, toon_sharing_flag, toon_texture_index, comment))
        # Read bones
        bone_count = struct.unpack('<i', file.read(4))[0]  # Read bone count (int, 4 bytes)
        bones = []
        for _ in range(bone_count):
            bone_name, bone_english_name, position, parent_bone_index, layer, flag, tail_position, inherit_bone_parent_index, inherit_bone_parent_influence, fixed_axis, local_x_vector, local_z_vector, external_key, ik_target_bone_index, ik_loop_count, ik_limit_radian, ik_links = read_bone(file, bone_index_size)
            bones.append((bone_name, bone_english_name, position, parent_bone_index, layer, flag, tail_position, inherit_bone_parent_index, inherit_bone_parent_influence, fixed_axis, local_x_vector, local_z_vector, external_key, ik_target_bone_index, ik_loop_count, ik_limit_radian, ik_links))
        # Read morphs
        morph_count = struct.unpack('<i', file.read(4))[0]  # Read morph count (int, 4 bytes)
        morphs = []
        for _ in range(morph_count):
            morph_name, morph_english_name, panel, morph_type, morph_data = read_morph(file, morph_index_size)
            morphs.append((morph_name, morph_english_name, panel, morph_type, morph_data))
        # Create Blender objects and assign PMX data
        mesh = bpy.data.meshes.new(model_name)
        mesh.from_pydata([v[0] for v in vertices], [], faces)
        mesh.update()
        obj = bpy.data.objects.new(model_name, mesh)
        bpy.context.collection.objects.link(obj)
        # Assign vertex normals
        for i, vertex in enumerate(vertices):
            mesh.vertices[i].normal = vertex[1]
        # Assign UV coordinates
        uv_layer = mesh.uv_layers.new()
        for i, vertex in enumerate(vertices):
            uv_layer.data[i].uv = vertex[2]
        # Assign materials
        for material_data in materials:
            material = bpy.data.materials.new(material_data[0])
            material.diffuse_color = material_data[2]
            material.specular_color = material_data[3]
            material.specular_intensity = material_data[4]
            material.ambient = material_data[5]
            # Set other material properties based on the PMX data
            mesh.materials.append(material)
        # Create armature and assign bones
        armature = bpy.data.armatures.new(model_name + "_Armature")
        armature_obj = bpy.data.objects.new(model_name + "_Armature", armature)
        bpy.context.collection.objects.link(armature_obj)
        bpy.context.view_layer.objects.active = armature_obj
        bpy.ops.object.mode_set(mode='EDIT')
        for bone_data in bones:
            bone = armature.edit_bones.new(bone_data[0])
            bone.head = bone_data[2]
            bone.tail = bone_data[6]
            if bone_data[3] != -1:
                parent_bone = armature.edit_bones[bone_data[3]]
                bone.parent = parent_bone
            # Set other bone properties based on the PMX data
        bpy.ops.object.mode_set(mode='OBJECT')
        # Assign bone weights to the mesh
        for i, vertex in enumerate(vertices):
            for j in range(4):
                if vertex[3][j] != -1:
                    bone_name = bones[vertex[3][j]][0]
                    weight = vertex[4][j]
                    vertex_group = obj.vertex_groups.get(bone_name)
                    if not vertex_group:
                        vertex_group = obj.vertex_groups.new(name=bone_name)
                    vertex_group.add([i], weight, 'REPLACE')
        # Assign morphs to the mesh
        for morph_data in morphs:
            morph_name = morph_data[0]
            morph_type = morph_data[3]
            if morph_type == 1:  # Vertex morph
                shape_key = obj.shape_key_add(name=morph_name)
                for offset_data in morph_data[4]:
                    vertex_index = offset_data[0]
                    offset = offset_data[1]
                    shape_key.data[vertex_index].co += mathutils.Vector(offset)
            # Handle other morph types based on the PMX specification
            print(f"Successfully imported PMX file: {filepath}")
            print(f"Model Name: {model_name}")
            print(f"Model English Name: {model_english_name}")
            print(f"Model Comment: {model_comment}")
            print(f"Model English Comment: {model_english_comment}")
    except Exception as e:
        print(f"Error importing PMX file: {filepath}")
        print(f"Error details: {str(e)}")
@@ -0,0 +1,15 @@
 import bpy
 from ..functions.translations import t, get_languages_list, update_ui
 from ..core.register import register_property
 from typing import Tuple
 def register() -> None:
    register_property((bpy.types.Scene, "language", bpy.props.EnumProperty(
        name=t("Settings.language.label"),
        description=t("Settings.language.desc"),
        items=get_languages_list,
        update=update_ui
    )))
 def unregister() -> None:
    pass
@@ -5,6 +5,8 @@ import typing
 __bl_classes = []
 # List to store the ordered classes for registration
 __bl_ordered_classes = []
 # List to store props to register
 __bl_props = []
 def register_wrap(cls):
    # Check if the class has a 'bl_rna' attribute (indicating it's a Blender class)
@@ -13,6 +15,17 @@ def register_wrap(cls):
        __bl_classes.append(cls)
    return cls
 # Register all properties
 def register_property(prop):
    __bl_props.append(prop)
 def register_properties():
    for prop in __bl_props:
        setattr(prop[0], prop[1], prop[2])
 def unregister_properties():
    for prop in reversed(__bl_props):
        delattr(prop[0], prop[1])
 #- @989onan had to add this from Cats. This is extremely important else you will be screamed at by register order issues!
 # Find order to register to solve dependencies
@@ -0,0 +1,64 @@
 import os
 import json
 import bpy
 from bpy.app.translations import locale
 from ..core.register import register_wrap
 from typing import Dict, List, Tuple
 main_dir: str = os.path.dirname(os.path.dirname(os.path.abspath(__file__)))
 resources_dir: str = os.path.join(main_dir, "resources")
 translations_dir: str = os.path.join(resources_dir, "translations")
 dictionary: Dict[str, str] = dict()
 languages: List[str] = []
 verbose: bool = True
 def load_translations() -> None:
    global dictionary, languages
    dictionary = dict()
    languages = ["auto"]
    language: str = bpy.context.preferences.view.language
    for i in os.listdir(translations_dir):
        languages.append(i.split(".")[0])
    translation_file: str = os.path.join(translations_dir, language + ".json")
    if os.path.exists(translation_file):
        with open(translation_file, 'r', encoding='utf-8') as file:
            dictionary = json.load(file)["messages"]
    else:
        custom_language: str = language.split("_")[0]
        custom_translation_file: str = os.path.join(translations_dir, custom_language + ".json")
        if os.path.exists(custom_translation_file):
            with open(custom_translation_file, 'r', encoding='utf-8') as file:
                dictionary = json.load(file)["messages"]
        else:
            print(f"Translation file not found for language: {language}")
            default_file: str = os.path.join(translations_dir, "en_US.json")
            if os.path.exists(default_file):
                with open(default_file, 'r', encoding='utf-8') as file:
                    dictionary = json.load(file)["messages"]
            else:
                print("Default translation file 'en_US.json' not found.")
 def t(phrase: str, *args, **kwargs) -> str:
    output: str = dictionary.get(phrase)
    if output is None:
        if verbose:
            print('Warning: Unknown phrase: ' + phrase)
        return phrase
    return output.format(*args, **kwargs)
 def get_languages_list(self, context) -> List[Tuple[str, str, str]]:
    choices: List[Tuple[str, str, str]] = []
    for language in languages:
        choices.append((language, language, language))
    return choices
 def update_ui(self, context) -> None:
    load_translations()
    bpy.ops.wm.redraw_timer(type='DRAW_WIN_SWAP', iterations=1)
 load_translations()
@@ -0,0 +1,9 @@
 {
    "messages": {
      "Settings.label": "Settings",
      "Settings.language.label": "Language",
      "Settings.language.desc": "Select the language for the addon's UI"
    }
  }
@@ -0,0 +1,8 @@
 {
    "messages": {
      "Settings.label": "Settings Ja Test",
      "Settings.language.label": "Language Ja Test",
      "Settings.language.desc": "Select the language for the addon's UI Ja Test"
    }
  }
@@ -13,7 +13,3 @@ else:
    for module_name in [ basename(f)[:-3] for f in modules if isfile(f) and not f.endswith('__init__.py')]:
        print("reloading " +module_name)
        exec("importlib.reload("+module_name+")")
@@ -5,6 +5,7 @@ from bpy.types import Context
 from ..core.import_pmx import import_pmx
 from ..core.import_pmd import import_pmd
 from ..core.importer import import_fbx
@register_wrap
 class AvatarToolkitQuickAccessPanel(bpy.types.Panel):
@@ -46,12 +47,17 @@ class AVATAR_TOOLKIT_OT_import_menu(bpy.types.Operator):
        layout.label(text="Select Import Method")
        layout.operator("avatar_toolkit.import_pmx", text="Import PMX")
        layout.operator("avatar_toolkit.import_pmd", text="Import PMD")
        layout.operator("avatar_toolkit.import_fbx", text="Import FBX") 
@register_wrap
 class AVATAR_TOOLKIT_OT_export_menu(bpy.types.Operator):
    bl_idname = "avatar_toolkit.export_menu"
    bl_label = "Export Menu"
    @classmethod
    def poll(cls, context):
        return any(obj.type == 'MESH' for obj in context.scene.objects)
    def execute(self, context: Context):
        return {'FINISHED'}
@@ -63,6 +69,7 @@ class AVATAR_TOOLKIT_OT_export_menu(bpy.types.Operator):
        layout = self.layout
        layout.label(text="Select Export Method")
        layout.operator("avatar_toolkit.export_resonite", text="Export Resonite")
        layout.operator("avatar_toolkit.export_fbx", text="Export FBX")
@register_wrap
 class AVATAR_TOOLKIT_OT_import_pmx(bpy.types.Operator):
@@ -93,3 +100,31 @@ class AVATAR_TOOLKIT_OT_import_pmd(bpy.types.Operator):
    def invoke(self, context: Context, event):
        context.window_manager.fileselect_add(self)
        return {'RUNNING_MODAL'}
@register_wrap
 class AVATAR_TOOLKIT_OT_import_fbx(bpy.types.Operator):
    bl_idname = "avatar_toolkit.import_fbx"
    bl_label = "Import FBX"
    filepath: bpy.props.StringProperty(subtype="FILE_PATH")
    def execute(self, context):
        import_fbx(self.filepath)
        return {'FINISHED'}
    def invoke(self, context, event):
        context.window_manager.fileselect_add(self)
        return {'RUNNING_MODAL'}
@register_wrap
 class AVATAR_TOOLKIT_OT_export_fbx(bpy.types.Operator):
    bl_idname = 'avatar_toolkit.export_fbx'
    bl_label = "Export FBX"
    bl_description = "Export the model as FBX"
    bl_options = {'REGISTER', 'UNDO', 'INTERNAL'}
    def execute(self, context):
        bpy.ops.export_scene.fbx('INVOKE_DEFAULT')
        return {'FINISHED'}
@@ -0,0 +1,19 @@
 import bpy
 from ..core.register import register_wrap
 from .panel import AvatarToolkitPanel
 from ..functions.translations import t
@register_wrap
 class AvatarToolkitSettingsPanel(bpy.types.Panel):
    bl_label = t("Settings.label")
    bl_idname = "OBJECT_PT_avatar_toolkit_settings"
    bl_space_type = 'VIEW_3D'
    bl_region_type = 'UI'
    bl_category = "Avatar Toolkit"
    bl_parent_id = "OBJECT_PT_avatar_toolkit"
    def draw(self, context):
        layout = self.layout
        props = context.scene
        layout.prop(props, "language")