__init__.py

# SPDX-License-Identifier: Apache-2.0
# Copyright 2018-2021 The glTF-Blender-IO authors.

bl_info = {
    'name': 'glTF 2.0 format',
    'author': 'Julien Duroure, Scurest, Norbert Nopper, Urs Hanselmann, Moritz Becher, Benjamin Schmithüsen, Jim Eckerlein, and many external contributors',
    "version": (3, 5, 4),
    'blender': (3, 3, 0),
    'location': 'File > Import-Export',
    'description': 'Import-Export as glTF 2.0',
    'warning': '',
    'doc_url': "{BLENDER_MANUAL_URL}/addons/import_export/scene_gltf2.html",
    'tracker_url': "https://github.com/KhronosGroup/glTF-Blender-IO/issues/",
    'support': 'OFFICIAL',
    'category': 'Import-Export',
}

def get_version_string():
    return str(bl_info['version'][0]) + '.' + str(bl_info['version'][1]) + '.' + str(bl_info['version'][2])

#
# Script reloading (if the user calls 'Reload Scripts' from Blender)
#

def reload_package(module_dict_main):
    import importlib
    from pathlib import Path

    def reload_package_recursive(current_dir, module_dict):
        for path in current_dir.iterdir():
            if "__init__" in str(path) or path.stem not in module_dict:
                continue

            if path.is_file() and path.suffix == ".py":
                importlib.reload(module_dict[path.stem])
            elif path.is_dir():
                reload_package_recursive(path, module_dict[path.stem].__dict__)

    reload_package_recursive(Path(__file__).parent, module_dict_main)


if "bpy" in locals():
    reload_package(locals())

import bpy
from bpy.props import (StringProperty,
                       BoolProperty,
                       EnumProperty,
                       IntProperty,
                       CollectionProperty)
from bpy.types import Operator
from bpy_extras.io_utils import ImportHelper, ExportHelper


#
#  Functions / Classes.
#

exporter_extension_panel_unregister_functors = []
importer_extension_panel_unregister_functors = []


def ensure_filepath_matches_export_format(filepath, export_format):
    import os
    filename = os.path.basename(filepath)
    if not filename:
        return filepath

    stem, ext = os.path.splitext(filename)
    if stem.startswith('.') and not ext:
        stem, ext = '', stem

    desired_ext = '.glb' if export_format == 'GLB' else '.gltf'
    ext_lower = ext.lower()
    if ext_lower not in ['.glb', '.gltf']:
        return filepath + desired_ext
    elif ext_lower != desired_ext:
        filepath = filepath[:-len(ext)]  # strip off ext
        return filepath + desired_ext
    else:
        return filepath


def on_export_format_changed(self, context):
    # Update the filename in the file browser when the format (.glb/.gltf)
    # changes
    sfile = context.space_data
    if not isinstance(sfile, bpy.types.SpaceFileBrowser):
        return
    if not sfile.active_operator:
        return
    if sfile.active_operator.bl_idname != "EXPORT_SCENE_OT_gltf":
        return

    sfile.params.filename = ensure_filepath_matches_export_format(
        sfile.params.filename,
        self.export_format,
    )


class ConvertGLTF2_Base:
    """Base class containing options that should be exposed during both import and export."""

    convert_lighting_mode: EnumProperty(
        name='Lighting Mode',
        items=(
            ('SPEC', 'Standard', 'Physically-based glTF lighting units (cd, lx, nt)'),
            ('COMPAT', 'Unitless', 'Non-physical, unitless lighting. Useful when exposure controls are not available'),
            ('RAW', 'Raw (Deprecated)', 'Blender lighting strengths with no conversion'),
        ),
        description='Optional backwards compatibility for non-standard render engines. Applies to lights',# TODO: and emissive materials',
        default='SPEC'
    )

class ExportGLTF2_Base(ConvertGLTF2_Base):
    # TODO: refactor to avoid boilerplate

    def __init__(self):
        from io_scene_gltf2.io.com import gltf2_io_draco_compression_extension
        self.is_draco_available = gltf2_io_draco_compression_extension.dll_exists()

    bl_options = {'PRESET'}

    export_format: EnumProperty(
        name='Format',
        items=(('GLB', 'glTF Binary (.glb)',
                'Exports a single file, with all data packed in binary form. '
                'Most efficient and portable, but more difficult to edit later'),
               ('GLTF_SEPARATE', 'glTF Separate (.gltf + .bin + textures)',
                'Exports multiple files, with separate JSON, binary and texture data. '
                'Easiest to edit later'),
                ('GLTF_EMBEDDED', 'glTF Embedded (.gltf)',
                 'Exports a single file, with all data packed in JSON. '
                 'Less efficient than binary, but easier to edit later')),
        description=(
            'Output format and embedding options. Binary is most efficient, '
            'but JSON (embedded or separate) may be easier to edit later'
        ),
        default='GLB',
        update=on_export_format_changed,
    )

    ui_tab: EnumProperty(
        items=(('GENERAL', "General", "General settings"),
               ('MESHES', "Meshes", "Mesh settings"),
               ('OBJECTS', "Objects", "Object settings"),
               ('ANIMATION', "Animation", "Animation settings")),
        name="ui_tab",
        description="Export setting categories",
    )

    export_copyright: StringProperty(
        name='Copyright',
        description='Legal rights and conditions for the model',
        default=''
    )

    export_image_format: EnumProperty(
        name='Images',
        items=(('AUTO', 'Automatic',
                'Save PNGs as PNGs and JPEGs as JPEGs. '
                'If neither one, use PNG'),
                ('JPEG', 'JPEG Format (.jpg)',
                'Save images as JPEGs. (Images that need alpha are saved as PNGs though.) '
                'Be aware of a possible loss in quality'),
                ('NONE', 'None',
                 'Don\'t export images'),
               ),
        description=(
            'Output format for images. PNG is lossless and generally preferred, but JPEG might be preferable for web '
            'applications due to the smaller file size. Alternatively they can be omitted if they are not needed'
        ),
        default='AUTO'
    )

    export_texture_dir: StringProperty(
        name='Textures',
        description='Folder to place texture files in. Relative to the .gltf file',
        default='',
    )

    export_keep_originals: BoolProperty(
        name='Keep original',
        description=('Keep original textures files if possible. '
                     'WARNING: if you use more than one texture, '
                     'where pbr standard requires only one, only one texture will be used. '
                     'This can lead to unexpected results'
        ),
        default=False,
    )

    export_texcoords: BoolProperty(
        name='UVs',
        description='Export UVs (texture coordinates) with meshes',
        default=True
    )

    export_normals: BoolProperty(
        name='Normals',
        description='Export vertex normals with meshes',
        default=True
    )

    export_draco_mesh_compression_enable: BoolProperty(
        name='Draco mesh compression',
        description='Compress mesh using Draco',
        default=False
    )

    export_draco_mesh_compression_level: IntProperty(
        name='Compression level',
        description='Compression level (0 = most speed, 6 = most compression, higher values currently not supported)',
        default=6,
        min=0,
        max=10
    )

    export_draco_position_quantization: IntProperty(
        name='Position quantization bits',
        description='Quantization bits for position values (0 = no quantization)',
        default=14,
        min=0,
        max=30
    )

    export_draco_normal_quantization: IntProperty(
        name='Normal quantization bits',
        description='Quantization bits for normal values (0 = no quantization)',
        default=10,
        min=0,
        max=30
    )

    export_draco_texcoord_quantization: IntProperty(
        name='Texcoord quantization bits',
        description='Quantization bits for texture coordinate values (0 = no quantization)',
        default=12,
        min=0,
        max=30
    )

    export_draco_color_quantization: IntProperty(
        name='Color quantization bits',
        description='Quantization bits for color values (0 = no quantization)',
        default=10,
        min=0,
        max=30
    )

    export_draco_generic_quantization: IntProperty(
        name='Generic quantization bits',
        description='Quantization bits for generic coordinate values like weights or joints (0 = no quantization)',
        default=12,
        min=0,
        max=30
    )

    export_tangents: BoolProperty(
        name='Tangents',
        description='Export vertex tangents with meshes',
        default=False
    )

    export_materials: EnumProperty(
        name='Materials',
        items=(('EXPORT', 'Export',
        'Export all materials used by included objects'),
        ('PLACEHOLDER', 'Placeholder',
        'Do not export materials, but write multiple primitive groups per mesh, keeping material slot information'),
        ('NONE', 'No export',
        'Do not export materials, and combine mesh primitive groups, losing material slot information')),
        description='Export materials ',
        default='EXPORT'
    )

    export_original_specular: BoolProperty(
        name='Export original PBR Specular',
        description=(
            'Export original glTF PBR Specular, instead of Blender Principled Shader Specular'
        ),
        default=False,
    )

    export_colors: BoolProperty(
        name='Vertex Colors',
        description='Export vertex colors with meshes',
        default=True
    )

    export_attributes: BoolProperty(
        name='Attributes',
        description='Export Attributes',
        default=False
    )

    use_mesh_edges: BoolProperty(
        name='Loose Edges',
        description=(
            'Export loose edges as lines, using the material from the first material slot'
        ),
        default=False,
    )

    use_mesh_vertices: BoolProperty(
        name='Loose Points',
        description=(
            'Export loose points as glTF points, using the material from the first material slot'
        ),
        default=False,
    )

    export_cameras: BoolProperty(
        name='Cameras',
        description='Export cameras',
        default=False
    )

    use_selection: BoolProperty(
        name='Selected Objects',
        description='Export selected objects only',
        default=False
    )

    use_visible: BoolProperty(
        name='Visible Objects',
        description='Export visible objects only',
        default=False
    )

    use_renderable: BoolProperty(
        name='Renderable Objects',
        description='Export renderable objects only',
        default=False
    )

    use_active_collection_with_nested: BoolProperty(
        name='Include Nested Collections',
        description='Include active collection and nested collections',
        default=True
    )

    use_active_collection: BoolProperty(
        name='Active Collection',
        description='Export objects in the active collection only',
        default=False        
    )

    use_active_scene: BoolProperty(
        name='Active Scene',
        description='Export active scene only',
        default=False
    )

    export_extras: BoolProperty(
        name='Custom Properties',
        description='Export custom properties as glTF extras',
        default=False
    )

    export_yup: BoolProperty(
        name='+Y Up',
        description='Export using glTF convention, +Y up',
        default=True
    )

    export_apply: BoolProperty(
        name='Apply Modifiers',
        description='Apply modifiers (excluding Armatures) to mesh objects -'
                    'WARNING: prevents exporting shape keys',
        default=False
    )

    export_animations: BoolProperty(
        name='Animations',
        description='Exports active actions and NLA tracks as glTF animations',
        default=True
    )

    export_frame_range: BoolProperty(
        name='Limit to Playback Range',
        description='Clips animations to selected playback range',
        default=True
    )

    export_frame_step: IntProperty(
        name='Sampling Rate',
        description='How often to evaluate animated values (in frames)',
        default=1,
        min=1,
        max=120
    )

    export_force_sampling: BoolProperty(
        name='Always Sample Animations',
        description='Apply sampling to all animations',
        default=True
    )

    export_nla_strips: BoolProperty(
        name='Group by NLA Track',
        description=(
            "When on, multiple actions become part of the same glTF animation if "
            "they're pushed onto NLA tracks with the same name. "
            "When off, all the currently assigned actions become one glTF animation"
        ),
        default=True
    )

    export_nla_strips_merged_animation_name: StringProperty(
        name='Merged Animation Name',
        description=(
            "Name of single glTF animation to be exported"
        ),
        default='Animation'
    )

    export_def_bones: BoolProperty(
        name='Export Deformation Bones Only',
        description='Export Deformation bones only',
        default=False
    )

    export_optimize_animation_size: BoolProperty(
        name='Optimize Animation Size',
        description=(
            "Reduce exported file-size by removing duplicate keyframes"
            "(can cause problems with stepped animation)"
        ),
        default=False
    )

    export_anim_single_armature: BoolProperty(
        name='Export all Armature Actions',
        description=(
            "Export all actions, bound to a single armature. "
            "WARNING: Option does not support exports including multiple armatures"
        ),
        default=True
    )

    export_reset_pose_bones: BoolProperty(
        name='Reset pose bones between actions',
        description=(
            "Reset pose bones between each action exported. "
            "This is needed when some bones are not keyed on some animations"
        ),
        default=True
    )

    export_current_frame: BoolProperty(
        name='Use Current Frame',
        description='Export the scene in the current animation frame',
        default=False
    )

    export_skins: BoolProperty(
        name='Skinning',
        description='Export skinning (armature) data',
        default=True
    )

    export_all_influences: BoolProperty(
        name='Include All Bone Influences',
        description='Allow >4 joint vertex influences. Models may appear incorrectly in many viewers',
        default=False
    )

    export_morph: BoolProperty(
        name='Shape Keys',
        description='Export shape keys (morph targets)',
        default=True
    )

    export_morph_normal: BoolProperty(
        name='Shape Key Normals',
        description='Export vertex normals with shape keys (morph targets)',
        default=True
    )

    export_morph_tangent: BoolProperty(
        name='Shape Key Tangents',
        description='Export vertex tangents with shape keys (morph targets)',
        default=False
    )

    export_lights: BoolProperty(
        name='Punctual Lights',
        description='Export directional, point, and spot lights. '
                    'Uses "KHR_lights_punctual" glTF extension',
        default=False
    )

    will_save_settings: BoolProperty(
        name='Remember Export Settings',
        description='Store glTF export settings in the Blender project',
        default=False)

    # Custom scene property for saving settings
    scene_key = "glTF2ExportSettings"

    #

    def check(self, _context):
        # Ensure file extension matches format
        old_filepath = self.filepath
        self.filepath = ensure_filepath_matches_export_format(
            self.filepath,
            self.export_format,
        )
        return self.filepath != old_filepath

    def invoke(self, context, event):
        settings = context.scene.get(self.scene_key)
        self.will_save_settings = False
        if settings:
            try:
                for (k, v) in settings.items():
                    setattr(self, k, v)
                self.will_save_settings = True

            except (AttributeError, TypeError):
                self.report({"ERROR"}, "Loading export settings failed. Removed corrupted settings")
                del context.scene[self.scene_key]

        import sys
        preferences = bpy.context.preferences
        for addon_name in preferences.addons.keys():
            try:
                if hasattr(sys.modules[addon_name], 'glTF2ExportUserExtension') or hasattr(sys.modules[addon_name], 'glTF2ExportUserExtensions'):
                    exporter_extension_panel_unregister_functors.append(sys.modules[addon_name].register_panel())
            except Exception:
                pass

        self.has_active_exporter_extensions = len(exporter_extension_panel_unregister_functors) > 0
        return ExportHelper.invoke(self, context, event)

    def save_settings(self, context):
        # find all props to save
        exceptional = [
            # options that don't start with 'export_'
            'use_selection',
            'use_visible',
            'use_renderable',
            'use_active_collection_with_nested',
            'use_active_collection',
            'use_mesh_edges',
            'use_mesh_vertices',
            'use_active_scene',
        ]
        all_props = self.properties
        export_props = {
            x: getattr(self, x) for x in dir(all_props)
            if (x.startswith("export_") or x in exceptional) and all_props.get(x) is not None
        }
        context.scene[self.scene_key] = export_props

    def execute(self, context):
        import os
        import datetime
        from .blender.exp import gltf2_blender_export

        if self.will_save_settings:
            self.save_settings(context)

        self.check(context)  # ensure filepath has the right extension

        # All custom export settings are stored in this container.
        export_settings = {}

        export_settings['timestamp'] = datetime.datetime.now()

        export_settings['gltf_filepath'] = self.filepath
        export_settings['gltf_filedirectory'] = os.path.dirname(export_settings['gltf_filepath']) + '/'
        export_settings['gltf_texturedirectory'] = os.path.join(
            export_settings['gltf_filedirectory'],
            self.export_texture_dir,
        )
        export_settings['gltf_keep_original_textures'] = self.export_keep_originals

        export_settings['gltf_format'] = self.export_format
        export_settings['gltf_image_format'] = self.export_image_format
        export_settings['gltf_copyright'] = self.export_copyright
        export_settings['gltf_texcoords'] = self.export_texcoords
        export_settings['gltf_normals'] = self.export_normals
        export_settings['gltf_tangents'] = self.export_tangents and self.export_normals
        export_settings['gltf_loose_edges'] = self.use_mesh_edges
        export_settings['gltf_loose_points'] = self.use_mesh_vertices

        if self.is_draco_available:
            export_settings['gltf_draco_mesh_compression'] = self.export_draco_mesh_compression_enable
            export_settings['gltf_draco_mesh_compression_level'] = self.export_draco_mesh_compression_level
            export_settings['gltf_draco_position_quantization'] = self.export_draco_position_quantization
            export_settings['gltf_draco_normal_quantization'] = self.export_draco_normal_quantization
            export_settings['gltf_draco_texcoord_quantization'] = self.export_draco_texcoord_quantization
            export_settings['gltf_draco_color_quantization'] = self.export_draco_color_quantization
            export_settings['gltf_draco_generic_quantization'] = self.export_draco_generic_quantization
        else:
            export_settings['gltf_draco_mesh_compression'] = False

        export_settings['gltf_materials'] = self.export_materials
        export_settings['gltf_colors'] = self.export_colors
        export_settings['gltf_attributes'] = self.export_attributes
        export_settings['gltf_cameras'] = self.export_cameras

        export_settings['gltf_original_specular'] = self.export_original_specular

        export_settings['gltf_visible'] = self.use_visible
        export_settings['gltf_renderable'] = self.use_renderable
        
        export_settings['gltf_active_collection'] = self.use_active_collection
        if self.use_active_collection:
            export_settings['gltf_active_collection_with_nested'] = self.use_active_collection_with_nested
        else:
            export_settings['gltf_active_collection_with_nested'] = False
        export_settings['gltf_active_scene'] = self.use_active_scene

        export_settings['gltf_selected'] = self.use_selection
        export_settings['gltf_layers'] = True  # self.export_layers
        export_settings['gltf_extras'] = self.export_extras
        export_settings['gltf_yup'] = self.export_yup
        export_settings['gltf_apply'] = self.export_apply
        export_settings['gltf_current_frame'] = self.export_current_frame
        export_settings['gltf_animations'] = self.export_animations
        export_settings['gltf_def_bones'] = self.export_def_bones
        if self.export_animations:
            export_settings['gltf_frame_range'] = self.export_frame_range
            export_settings['gltf_force_sampling'] = self.export_force_sampling
            if not self.export_force_sampling:
                export_settings['gltf_def_bones'] = False
            export_settings['gltf_nla_strips'] = self.export_nla_strips
            export_settings['gltf_nla_strips_merged_animation_name'] = self.export_nla_strips_merged_animation_name
            export_settings['gltf_optimize_animation'] = self.export_optimize_animation_size
            export_settings['gltf_export_anim_single_armature'] = self.export_anim_single_armature
            export_settings['gltf_export_reset_pose_bones'] = self.export_reset_pose_bones
        else:
            export_settings['gltf_frame_range'] = False
            export_settings['gltf_move_keyframes'] = False
            export_settings['gltf_force_sampling'] = False
            export_settings['gltf_optimize_animation'] = False
            export_settings['gltf_export_anim_single_armature'] = False
            export_settings['gltf_export_reset_pose_bones'] = False
        export_settings['gltf_skins'] = self.export_skins
        if self.export_skins:
            export_settings['gltf_all_vertex_influences'] = self.export_all_influences
        else:
            export_settings['gltf_all_vertex_influences'] = False
            export_settings['gltf_def_bones'] = False
        export_settings['gltf_frame_step'] = self.export_frame_step
        export_settings['gltf_morph'] = self.export_morph
        if self.export_morph:
            export_settings['gltf_morph_normal'] = self.export_morph_normal
        else:
            export_settings['gltf_morph_normal'] = False
        if self.export_morph and self.export_morph_normal:
            export_settings['gltf_morph_tangent'] = self.export_morph_tangent
        else:
            export_settings['gltf_morph_tangent'] = False

        export_settings['gltf_lights'] = self.export_lights
        export_settings['gltf_lighting_mode'] = self.convert_lighting_mode

        export_settings['gltf_binary'] = bytearray()
        export_settings['gltf_binaryfilename'] = (
            os.path.splitext(os.path.basename(self.filepath))[0] + '.bin'
        )

        user_extensions = []
        pre_export_callbacks = []
        post_export_callbacks = []

        import sys
        preferences = bpy.context.preferences
        for addon_name in preferences.addons.keys():
            try:
                module = sys.modules[addon_name]
            except Exception:
                continue
            if hasattr(module, 'glTF2ExportUserExtension'):
                extension_ctor = module.glTF2ExportUserExtension
                user_extensions.append(extension_ctor())
            if hasattr(module, 'glTF2ExportUserExtensions'):
                extension_ctors = module.glTF2ExportUserExtensions
                for extension_ctor in extension_ctors:
                    user_extensions.append(extension_ctor())
            if hasattr(module, 'glTF2_pre_export_callback'):
                pre_export_callbacks.append(module.glTF2_pre_export_callback)
            if hasattr(module, 'glTF2_post_export_callback'):
                post_export_callbacks.append(module.glTF2_post_export_callback)
        export_settings['gltf_user_extensions'] = user_extensions
        export_settings['pre_export_callbacks'] = pre_export_callbacks
        export_settings['post_export_callbacks'] = post_export_callbacks

        return gltf2_blender_export.save(context, export_settings)

    def draw(self, context):
        pass # Is needed to get panels available


class GLTF_PT_export_main(bpy.types.Panel):
    bl_space_type = 'FILE_BROWSER'
    bl_region_type = 'TOOL_PROPS'
    bl_label = ""
    bl_parent_id = "FILE_PT_operator"
    bl_options = {'HIDE_HEADER'}

    @classmethod
    def poll(cls, context):
        sfile = context.space_data
        operator = sfile.active_operator

        return operator.bl_idname == "EXPORT_SCENE_OT_gltf"

    def draw(self, context):
        layout = self.layout
        layout.use_property_split = True
        layout.use_property_decorate = False  # No animation.

        sfile = context.space_data
        operator = sfile.active_operator

        layout.prop(operator, 'export_format')
        if operator.export_format == 'GLTF_SEPARATE':
            layout.prop(operator, 'export_keep_originals')
            if operator.export_keep_originals is False:
                layout.prop(operator, 'export_texture_dir', icon='FILE_FOLDER')

        layout.prop(operator, 'export_copyright')
        layout.prop(operator, 'will_save_settings')


class GLTF_PT_export_include(bpy.types.Panel):
    bl_space_type = 'FILE_BROWSER'
    bl_region_type = 'TOOL_PROPS'
    bl_label = "Include"
    bl_parent_id = "FILE_PT_operator"
    bl_options = {'DEFAULT_CLOSED'}

    @classmethod
    def poll(cls, context):
        sfile = context.space_data
        operator = sfile.active_operator

        return operator.bl_idname == "EXPORT_SCENE_OT_gltf"

    def draw(self, context):
        layout = self.layout
        layout.use_property_split = True
        layout.use_property_decorate = False  # No animation.

        sfile = context.space_data
        operator = sfile.active_operator

        col = layout.column(heading = "Limit to", align = True)
        col.prop(operator, 'use_selection')
        col.prop(operator, 'use_visible')
        col.prop(operator, 'use_renderable')
        col.prop(operator, 'use_active_collection')
        if operator.use_active_collection:
            col.prop(operator, 'use_active_collection_with_nested')
        col.prop(operator, 'use_active_scene')

        col = layout.column(heading = "Data", align = True)
        col.prop(operator, 'export_extras')
        col.prop(operator, 'export_cameras')
        col.prop(operator, 'export_lights')


class GLTF_PT_export_transform(bpy.types.Panel):
    bl_space_type = 'FILE_BROWSER'
    bl_region_type = 'TOOL_PROPS'
    bl_label = "Transform"
    bl_parent_id = "FILE_PT_operator"
    bl_options = {'DEFAULT_CLOSED'}

    @classmethod
    def poll(cls, context):
        sfile = context.space_data
        operator = sfile.active_operator

        return operator.bl_idname == "EXPORT_SCENE_OT_gltf"

    def draw(self, context):
        layout = self.layout
        layout.use_property_split = True
        layout.use_property_decorate = False  # No animation.

        sfile = context.space_data
        operator = sfile.active_operator

        layout.prop(operator, 'export_yup')


class GLTF_PT_export_geometry(bpy.types.Panel):
    bl_space_type = 'FILE_BROWSER'
    bl_region_type = 'TOOL_PROPS'
    bl_label = "Data"
    bl_parent_id = "FILE_PT_operator"
    bl_options = {'DEFAULT_CLOSED'}

    @classmethod
    def poll(cls, context):
        sfile = context.space_data
        operator = sfile.active_operator

        return operator.bl_idname == "EXPORT_SCENE_OT_gltf"

    def draw(self, context):
        pass

class GLTF_PT_export_geometry_mesh(bpy.types.Panel):
    bl_space_type = 'FILE_BROWSER'
    bl_region_type = 'TOOL_PROPS'
    bl_label = "Mesh"
    bl_parent_id = "GLTF_PT_export_geometry"
    bl_options = {'DEFAULT_CLOSED'}

    @classmethod
    def poll(cls, context):
        sfile = context.space_data
        operator = sfile.active_operator
        return operator.bl_idname == "EXPORT_SCENE_OT_gltf"

    def draw(self, context):
        layout = self.layout
        layout.use_property_split = True
        layout.use_property_decorate = False  # No animation.

        sfile = context.space_data
        operator = sfile.active_operator

        layout.prop(operator, 'export_apply')
        layout.prop(operator, 'export_texcoords')
        layout.prop(operator, 'export_normals')
        col = layout.column()
        col.active = operator.export_normals
        col.prop(operator, 'export_tangents')
        layout.prop(operator, 'export_colors')
        layout.prop(operator, 'export_attributes')

        col = layout.column()
        col.prop(operator, 'use_mesh_edges')
        col.prop(operator, 'use_mesh_vertices')


class GLTF_PT_export_geometry_material(bpy.types.Panel):
    bl_space_type = 'FILE_BROWSER'
    bl_region_type = 'TOOL_PROPS'
    bl_label = "Material"
    bl_parent_id = "GLTF_PT_export_geometry"
    bl_options = {'DEFAULT_CLOSED'}

    @classmethod
    def poll(cls, context):
        sfile = context.space_data
        operator = sfile.active_operator
        return operator.bl_idname == "EXPORT_SCENE_OT_gltf"

    def draw(self, context):
        layout = self.layout
        layout.use_property_split = True
        layout.use_property_decorate = False  # No animation.

        sfile = context.space_data
        operator = sfile.active_operator

        layout.prop(operator, 'export_materials')
        col = layout.column()
        col.active = operator.export_materials == "EXPORT"
        col.prop(operator, 'export_image_format')

class GLTF_PT_export_geometry_original_pbr(bpy.types.Panel):
    bl_space_type = 'FILE_BROWSER'
    bl_region_type = 'TOOL_PROPS'
    bl_label = "PBR Extensions"
    bl_parent_id = "GLTF_PT_export_geometry_material"
    bl_options = {'DEFAULT_CLOSED'}

    @classmethod
    def poll(cls, context):
        sfile = context.space_data
        operator = sfile.active_operator
        return operator.bl_idname == "EXPORT_SCENE_OT_gltf"

    def draw(self, context):
        layout = self.layout
        layout.use_property_split = True
        layout.use_property_decorate = False  # No animation.

        sfile = context.space_data
        operator = sfile.active_operator

        layout.prop(operator, 'export_original_specular')

class GLTF_PT_export_geometry_lighting(bpy.types.Panel):
    bl_space_type = 'FILE_BROWSER'
    bl_region_type = 'TOOL_PROPS'
    bl_label = "Lighting"
    bl_parent_id = "GLTF_PT_export_geometry"
    bl_options = {'DEFAULT_CLOSED'}

    @classmethod
    def poll(cls, context):
        sfile = context.space_data
        operator = sfile.active_operator
        return operator.bl_idname == "EXPORT_SCENE_OT_gltf"

    def draw(self, context):
        layout = self.layout
        layout.use_property_split = True
        layout.use_property_decorate = False  # No animation.

        sfile = context.space_data
        operator = sfile.active_operator

        layout.prop(operator, 'convert_lighting_mode')

class GLTF_PT_export_geometry_compression(bpy.types.Panel):
    bl_space_type = 'FILE_BROWSER'
    bl_region_type = 'TOOL_PROPS'
    bl_label = "Compression"
    bl_parent_id = "GLTF_PT_export_geometry"
    bl_options = {'DEFAULT_CLOSED'}

    def __init__(self):
        from io_scene_gltf2.io.com import gltf2_io_draco_compression_extension
        self.is_draco_available = gltf2_io_draco_compression_extension.dll_exists(quiet=True)

    @classmethod
    def poll(cls, context):
        sfile = context.space_data
        operator = sfile.active_operator
        if operator.is_draco_available:
            return operator.bl_idname == "EXPORT_SCENE_OT_gltf"

    def draw_header(self, context):
        sfile = context.space_data
        operator = sfile.active_operator
        self.layout.prop(operator, "export_draco_mesh_compression_enable", text="")

    def draw(self, context):
        layout = self.layout
        layout.use_property_split = True
        layout.use_property_decorate = False  # No animation.

        sfile = context.space_data
        operator = sfile.active_operator

        layout.active = operator.export_draco_mesh_compression_enable
        layout.prop(operator, 'export_draco_mesh_compression_level')

        col = layout.column(align=True)
        col.prop(operator, 'export_draco_position_quantization', text="Quantize Position")
        col.prop(operator, 'export_draco_normal_quantization', text="Normal")
        col.prop(operator, 'export_draco_texcoord_quantization', text="Tex Coord")
        col.prop(operator, 'export_draco_color_quantization', text="Color")
        col.prop(operator, 'export_draco_generic_quantization', text="Generic")


class GLTF_PT_export_animation(bpy.types.Panel):
    bl_space_type = 'FILE_BROWSER'
    bl_region_type = 'TOOL_PROPS'
    bl_label = "Animation"
    bl_parent_id = "FILE_PT_operator"
    bl_options = {'DEFAULT_CLOSED'}

    @classmethod
    def poll(cls, context):
        sfile = context.space_data
        operator = sfile.active_operator

        return operator.bl_idname == "EXPORT_SCENE_OT_gltf"

    def draw(self, context):
        layout = self.layout
        layout.use_property_split = True
        layout.use_property_decorate = False  # No animation.

        sfile = context.space_data
        operator = sfile.active_operator

        layout.prop(operator, 'export_current_frame')


class GLTF_PT_export_animation_export(bpy.types.Panel):
    bl_space_type = 'FILE_BROWSER'
    bl_region_type = 'TOOL_PROPS'
    bl_label = "Animation"
    bl_parent_id = "GLTF_PT_export_animation"
    bl_options = {'DEFAULT_CLOSED'}

    @classmethod
    def poll(cls, context):
        sfile = context.space_data
        operator = sfile.active_operator

        return operator.bl_idname == "EXPORT_SCENE_OT_gltf"

    def draw_header(self, context):
        sfile = context.space_data
        operator = sfile.active_operator