diff --git a/__init__.py b/__init__.py index eea85d4..bb1b67e 100644 --- a/__init__.py +++ b/__init__.py @@ -33,7 +33,7 @@ def register(): #finally register properties that may use some classes. core.register.register_properties() - from functions.mesh_tools import AvatarToolkit_OT_ApplyShapeKey + from .functions.mesh_tools import AvatarToolkit_OT_ApplyShapeKey bpy.types.MESH_MT_shape_key_context_menu.append((lambda self, context: self.layout.separator())) bpy.types.MESH_MT_shape_key_context_menu.append((lambda self, context: self.layout.operator(AvatarToolkit_OT_ApplyShapeKey.bl_idname, icon="KEY_HLT"))) diff --git a/functions/mmd_functions.py b/functions/mmd_functions.py new file mode 100644 index 0000000..bdfcbd7 --- /dev/null +++ b/functions/mmd_functions.py @@ -0,0 +1,303 @@ +import bpy +import numpy as np +from bpy.types import Operator, Context, Material, ShaderNodeTexImage, ShaderNodeGroup +from ..core.register import register_wrap +from ..functions.translations import t +from ..core.common import get_selected_armature, is_valid_armature, get_all_meshes, init_progress, update_progress, finish_progress +from ..functions.additional_tools import AvatarToolKit_OT_ConnectBones, AvatarToolKit_OT_DeleteBoneConstraints +from ..functions.armature_modifying import AvatarToolkit_OT_RemoveZeroWeightBones, AvatarToolkit_OT_MergeBonesToParents + +@register_wrap +class AvatarToolKit_OT_CleanupMesh(Operator): + bl_idname = "avatar_toolkit.cleanup_mesh" + bl_label = t("MMDOptions.cleanup_mesh.label") + bl_description = t("MMDOptions.cleanup_mesh.desc") + bl_options = {'REGISTER', 'UNDO'} + + def execute(self, context: Context) -> set[str]: + init_progress(context, 4) + + update_progress(self, context, t("MMDOptions.removing_empty_objects")) + bpy.ops.object.select_all(action='DESELECT') + for obj in context.scene.objects: + if obj.type == 'EMPTY': + obj.select_set(True) + bpy.ops.object.delete() + + update_progress(self, context, t("MMDOptions.removing_unused_vertex_groups")) + for obj in get_all_meshes(context): + vgroups = obj.vertex_groups + for vgroup in vgroups: + if not any(vgroup.index in [g.group for g in v.groups] for v in obj.data.vertices): + vgroups.remove(vgroup) + + update_progress(self, context, t("MMDOptions.removing_unused_vertices")) + for obj in get_all_meshes(context): + bpy.ops.object.select_all(action='DESELECT') + obj.select_set(True) + context.view_layer.objects.active = obj + bpy.ops.object.mode_set(mode='EDIT') + bpy.ops.mesh.select_all(action='SELECT') + bpy.ops.mesh.delete_loose() + bpy.ops.object.mode_set(mode='OBJECT') + + update_progress(self, context, t("MMDOptions.cleanup_complete")) + finish_progress(context) + return {'FINISHED'} + +@register_wrap +class AvatarToolKit_OT_OptimizeWeights(Operator): + bl_idname = "avatar_toolkit.optimize_weights" + bl_label = t("MMDOptions.optimize_weights.label") + bl_description = t("MMDOptions.optimize_weights.desc") + bl_options = {'REGISTER', 'UNDO'} + + def execute(self, context: Context) -> set[str]: + armature = get_selected_armature(context) + if not armature: + self.report({'ERROR'}, t("MMDOptions.no_armature_selected")) + return {'CANCELLED'} + + init_progress(context, 3) + + update_progress(self, context, t("MMDOptions.merging_weights")) + for obj in get_all_meshes(context): + for modifier in obj.modifiers: + if modifier.type == 'ARMATURE' and modifier.object != armature: + bpy.ops.object.modifier_apply(modifier=modifier.name) + + update_progress(self, context, t("MMDOptions.removing_zero_weight_bones")) + bpy.ops.avatar_toolkit.remove_zero_weight_bones('EXEC_DEFAULT') + + update_progress(self, context, t("MMDOptions.weight_optimization_complete")) + finish_progress(context) + return {'FINISHED'} + +@register_wrap +class AvatarToolKit_OT_OptimizeArmature(Operator): + bl_idname = "avatar_toolkit.optimize_armature" + bl_label = t("MMDOptions.optimize_armature.label") + bl_description = t("MMDOptions.optimize_armature.desc") + bl_options = {'REGISTER', 'UNDO'} + + def execute(self, context: Context) -> set[str]: + armature = get_selected_armature(context) + if not armature: + self.report({'ERROR'}, t("MMDOptions.no_armature_selected")) + return {'CANCELLED'} + + init_progress(context, 7) + + update_progress(self, context, t("MMDOptions.fixing_bone_rolls")) + bpy.ops.object.mode_set(mode='EDIT') + for bone in armature.data.edit_bones: + bone.roll = 0 + + update_progress(self, context, t("MMDOptions.aligning_bones")) + for bone in armature.data.edit_bones: + if bone.parent: + bone.head = bone.parent.tail + + update_progress(self, context, t("MMDOptions.connecting_bones")) + bpy.ops.object.mode_set(mode='OBJECT') + bpy.ops.avatar_toolkit.connect_bones('EXEC_DEFAULT') + + update_progress(self, context, t("MMDOptions.deleting_bone_constraints")) + bpy.ops.avatar_toolkit.delete_bone_constraints('EXEC_DEFAULT') + + update_progress(self, context, t("MMDOptions.merging_bones_to_parents")) + bpy.ops.avatar_toolkit.merge_bones_to_parents('EXEC_DEFAULT') + + update_progress(self, context, t("MMDOptions.reordering_bones")) + self.reorder_bones(context, armature) + + update_progress(self, context, t("MMDOptions.armature_optimization_complete")) + finish_progress(context) + return {'FINISHED'} + + def reorder_bones(self, context: Context, armature: bpy.types.Object): + def sort_bones(bone): + children = sorted(bone.children, key=lambda b: b.name) + for child in children: + sort_bones(child) + + bpy.ops.object.mode_set(mode='EDIT') + root_bones = [bone for bone in armature.data.edit_bones if not bone.parent] + for root_bone in sorted(root_bones, key=lambda b: b.name): + sort_bones(root_bone) + +import bpy +import numpy as np +from bpy.types import Operator, Context, Material, ShaderNodeTexImage, ShaderNodeGroup, Object +from ..core.register import register_wrap +from ..functions.translations import t +from ..core.common import get_all_meshes, init_progress, update_progress, finish_progress + +def bake_mmd_colors(node_base_tex: ShaderNodeTexImage, node_mmd_shader: ShaderNodeGroup): + ambient_color_input = node_mmd_shader.inputs.get("Ambient Color") + diffuse_color_input = node_mmd_shader.inputs.get("Diffuse Color") + + if not ambient_color_input or not diffuse_color_input: + return node_base_tex, None + + ambient_color = np.array(ambient_color_input.default_value[:3]) + diffuse_color = np.array(diffuse_color_input.default_value[:3]) + mmd_color = np.clip(ambient_color + diffuse_color * 0.6, 0, 1) + + if not node_base_tex or not node_base_tex.image: + principled_base_color = np.append(mmd_color, 1) + return None, principled_base_color + + base_tex_image = node_base_tex.image + if not base_tex_image.pixels: + return node_base_tex, None + + if base_tex_image.colorspace_settings.name == 'sRGB': + is_small_mask = mmd_color < 0.0031308 + mmd_color[is_small_mask] = np.where(mmd_color[is_small_mask] < 0.0, 0, mmd_color[is_small_mask] * 12.92) + is_large_mask = np.invert(is_small_mask) + mmd_color[is_large_mask] = (mmd_color[is_large_mask] ** (1.0 / 2.4)) * 1.055 - 0.055 + + pixels = np.array(base_tex_image.pixels).reshape((-1, 4)) + pixels[:, :3] *= mmd_color + + baked_image = bpy.data.images.new(base_tex_image.name + "MMDCatsBaked", + width=base_tex_image.size[0], + height=base_tex_image.size[1], + alpha=True) + baked_image.filepath = bpy.path.abspath("//" + base_tex_image.name + ".png") + baked_image.file_format = 'PNG' + baked_image.colorspace_settings.name = base_tex_image.colorspace_settings.name + + baked_image.pixels = pixels.flatten() + node_base_tex.image = baked_image + + if bpy.data.is_saved: + baked_image.save() + + return node_base_tex, None + +def add_principled_shader(material: Material, bake_mmd=True): + node_tree = material.node_tree + nodes = node_tree.nodes + links = node_tree.links + + principled_shader = nodes.new(type="ShaderNodeBsdfPrincipled") + principled_shader.label = "Cats Export Shader" + principled_shader.location = (501, -500) + + output_shader = nodes.new(type="ShaderNodeOutputMaterial") + output_shader.label = "Cats Export" + output_shader.location = (801, -500) + + links.new(principled_shader.outputs["BSDF"], output_shader.inputs["Surface"]) + + node_base_tex = nodes.get("mmd_base_tex") or next((n for n in nodes if n.type == 'TEX_IMAGE'), None) + node_mmd_shader = nodes.get("mmd_shader") + + if node_mmd_shader and bake_mmd: + node_base_tex, principled_base_color = bake_mmd_colors(node_base_tex, node_mmd_shader) + else: + principled_base_color = None + + if node_base_tex and node_base_tex.image: + links.new(node_base_tex.outputs["Color"], principled_shader.inputs["Base Color"]) + elif principled_base_color is not None: + principled_shader.inputs["Base Color"].default_value = principled_base_color + + principled_shader.inputs["Specular"].default_value = 0 + principled_shader.inputs["Roughness"].default_value = 0.9 + principled_shader.inputs["Sheen Tint"].default_value = (1.0, 1.0, 1.0, 1.0) + principled_shader.inputs["Clearcoat Roughness"].default_value = 0 + principled_shader.inputs["IOR"].default_value = 1.45 + +def fix_mmd_shader(material: Material): + mmd_shader_node = material.node_tree.nodes.get("mmd_shader") + if mmd_shader_node: + reflect_input = mmd_shader_node.inputs.get("Reflect") + if reflect_input: + reflect_input.default_value = 1 + +def fix_vrm_shader(material: Material): + nodes = material.node_tree.nodes + is_vrm_mat = False + for node in nodes: + if hasattr(node, 'node_tree') and 'MToon_unversioned' in node.node_tree.name: + node.location[0] = 200 + node.inputs['ReceiveShadow_Texture_alpha'].default_value = -10000 + node.inputs['ShadeTexture'].default_value = (1.0, 1.0, 1.0, 1.0) + node.inputs['Emission_Texture'].default_value = (0.0, 0.0, 0.0, 0.0) + node.inputs['SphereAddTexture'].default_value = (0.0, 0.0, 0.0, 0.0) + node_input = node.inputs.get('NomalmapTexture') or node.inputs.get('NormalmapTexture') + node_input.default_value = (1.0, 1.0, 1.0, 1.0) + is_vrm_mat = True + break + + if is_vrm_mat: + nodes_to_keep = ['DiffuseColor', 'MainTexture', 'Emission_Texture'] + if 'HAIR' in material.name: + nodes_to_keep.append('SphereAddTexture') + + for node in nodes: + if ('RGB' in node.name or 'Value' in node.name or 'Image Texture' in node.name or + 'UV Map' in node.name or 'Mapping' in node.name): + if node.label not in nodes_to_keep: + material.node_tree.links = [link for link in material.node_tree.links + if not (link.from_node == node or link.to_node == node)] + +@register_wrap +class AvatarToolKit_OT_ConvertMaterials(Operator): + bl_idname = "avatar_toolkit.convert_materials" + bl_label = t("MMDOptions.convert_materials.label") + bl_description = t("MMDOptions.convert_materials.desc") + bl_options = {'REGISTER', 'UNDO'} + + def execute(self, context: Context) -> set[str]: + meshes = get_all_meshes(context) + init_progress(context, len(meshes)) + + for obj in meshes: + update_progress(self, context, t("MMDOptions.converting_materials").format(name=obj.name)) + self.convert_materials_for_mesh(obj) + + finish_progress(context) + return {'FINISHED'} + + def convert_materials_for_mesh(self, mesh: Object): + for mat_slot in mesh.material_slots: + if mat_slot.material: + mat = mat_slot.material + mat.use_nodes = True + + # Add Principled BSDF shader + add_principled_shader(mat) + + # Fix MMD shader if present + fix_mmd_shader(mat) + + # Fix VRM shader if present + fix_vrm_shader(mat) + + # Clean up unused nodes + self.clean_unused_nodes(mat) + + def clean_unused_nodes(self, material: Material): + nodes = material.node_tree.nodes + links = material.node_tree.links + + used_nodes = set() + output_node = next((n for n in nodes if n.type == 'OUTPUT_MATERIAL'), None) + + if output_node: + self.traverse_node_tree(output_node, used_nodes) + + for node in nodes: + if node not in used_nodes: + nodes.remove(node) + + def traverse_node_tree(self, node, used_nodes): + used_nodes.add(node) + for input in node.inputs: + for link in input.links: + if link.from_node not in used_nodes: + self.traverse_node_tree(link.from_node, used_nodes) diff --git a/ui/mmd_options.py b/ui/mmd_options.py new file mode 100644 index 0000000..1b609b1 --- /dev/null +++ b/ui/mmd_options.py @@ -0,0 +1,29 @@ +import bpy +from ..core.register import register_wrap +from .panel import AvatarToolKit_PT_AvatarToolkitPanel, CATEGORY_NAME +from ..functions.translations import t +from ..functions.mmd_functions import * +from ..functions.join_meshes import AvatarToolKit_OT_JoinAllMeshes +from ..functions.combine_materials import AvatarToolKit_OT_CombineMaterials +from ..functions.additional_tools import AvatarToolKit_OT_ApplyTransforms + +@register_wrap +class AvatarToolkit_PT_MMDOptionsPanel(bpy.types.Panel): + bl_label = t("MMDOptions.label") + bl_idname = "OBJECT_PT_avatar_toolkit_mmd_options" + bl_space_type = 'VIEW_3D' + bl_region_type = 'UI' + bl_category = CATEGORY_NAME + bl_parent_id = AvatarToolKit_PT_AvatarToolkitPanel.bl_idname + bl_order = 7 + + def draw(self, context: bpy.types.Context) -> None: + layout = self.layout + + layout.operator(AvatarToolKit_OT_CleanupMesh.bl_idname) + layout.operator(AvatarToolKit_OT_JoinAllMeshes.bl_idname) + layout.operator(AvatarToolKit_OT_OptimizeWeights.bl_idname) + layout.operator(AvatarToolKit_OT_OptimizeArmature.bl_idname) + layout.operator(AvatarToolKit_OT_ApplyTransforms.bl_idname) + layout.operator(AvatarToolKit_OT_CombineMaterials.bl_idname) + layout.operator(AvatarToolKit_OT_ConvertMaterials.bl_idname)