import_fbx.py

                        elif lnk_type == b'Bump':
                            ma_wrap.bump_image_set(image)
                            ma_wrap.bump_factor_set(texture_bumpfac_get(fbx_obj))
                            if use_mapping:
                                ma_wrap.bump_mapping_set(**tex_map_kw)
                            """
                        else:
                            print("WARNING: material link %r ignored" % lnk_type)

                        material_images.setdefault(material, {})[lnk_type] = (image, tex_map)
                else:
                    if fbx_lnk_type.props[0] == b'OP':
                        lnk_type = fbx_lnk_type.props[3]

                        # tx/rot/scale (rot is ignored here!).
                        tex_map = texture_mapping_get(fbx_lnk)

                        mtex = material_mtex_new(material, image, tex_map)

                        if lnk_type in {b'DiffuseColor', b'3dsMax|maps|texmap_diffuse'}:
                            mtex.use_map_color_diffuse = True
                            mtex.blend_type = 'MULTIPLY'
                        elif lnk_type == b'SpecularColor':
                            mtex.use_map_color_spec = True
                            mtex.blend_type = 'MULTIPLY'
                        elif lnk_type in {b'ReflectionColor', b'3dsMax|maps|texmap_reflection'}:
                            mtex.use_map_raymir = True
                        elif lnk_type == b'TransparentColor':  # alpha
                            material.use_transparency = True
                            material.transparency_method = 'RAYTRACE'
                            material.alpha = 0.0
                            mtex.use_map_alpha = True
                            mtex.alpha_factor = 1.0
                            if use_alpha_decals:
                                material_decals.add(material)
                        elif lnk_type == b'DiffuseFactor':
                            mtex.use_map_diffuse = True
                        elif lnk_type == b'ShininessExponent':
                            mtex.use_map_hardness = True
                        # XXX, applications abuse bump!
                        elif lnk_type in {b'NormalMap', b'Bump', b'3dsMax|maps|texmap_bump'}:
                            mtex.texture.use_normal_map = True  # not ideal!
                            mtex.use_map_normal = True
                            mtex.normal_factor = texture_bumpfac_get(fbx_obj)
                            """
                        elif lnk_type == b'Bump':
                            mtex.use_map_normal = True
                            mtex.normal_factor = texture_bumpfac_get(fbx_obj)
                            """
                        else:
                            print("WARNING: material link %r ignored" % lnk_type)

                        material_images.setdefault(material, {})[lnk_type] = (image, tex_map)

        # Check if the diffuse image has an alpha channel,
        # if so, use the alpha channel.

        # Note: this could be made optional since images may have alpha but be entirely opaque
        for fbx_uuid, fbx_item in fbx_table_nodes.items():
            fbx_obj, blen_data = fbx_item
            if fbx_obj.id != b'Material':
                continue
            material = fbx_table_nodes.get(fbx_uuid, (None, None))[1]
            image, tex_map = material_images.get(material, {}).get(b'DiffuseColor', (None, None))
            # do we have alpha?
            if image and image.depth == 32:
                if use_alpha_decals:
                    material_decals.add(material)

                if use_cycles:
                    ma_wrap = cycles_material_wrap_map[material]
                    if ma_wrap.node_bsdf_alpha.mute:
                        ma_wrap.alpha_image_set_from_diffuse()
                else:
                    if not any((True for mtex in material.texture_slots if mtex and mtex.use_map_alpha)):
                        mtex = material_mtex_new(material, image, tex_map)

                        material.use_transparency = True
                        material.transparency_method = 'RAYTRACE'
                        material.alpha = 0.0
                        mtex.use_map_alpha = True
                        mtex.alpha_factor = 1.0

            # propagate mapping from diffuse to all other channels which have none defined.
            if use_cycles:
                ma_wrap = cycles_material_wrap_map[material]
                ma_wrap.mapping_set_from_diffuse()

    _(); del _

    perfmon.step("FBX import: Cycles z-offset workaround...")

    def _():
        # Annoying workaround for cycles having no z-offset
        if material_decals and use_alpha_decals:
            for fbx_uuid, fbx_item in fbx_table_nodes.items():
                fbx_obj, blen_data = fbx_item
                if fbx_obj.id != b'Geometry':
                    continue
                if fbx_obj.props[-1] == b'Mesh':
                    mesh = fbx_item[1]

                    if decal_offset != 0.0:
                        for material in mesh.materials:
                            if material in material_decals:
                                for v in mesh.vertices:
                                    v.co += v.normal * decal_offset
                                break

                    if use_cycles:
                        for obj in (obj for obj in bpy.data.objects if obj.data == mesh):
                            obj.cycles_visibility.shadow = False
                    else:
                        for material in mesh.materials:
                            if material in material_decals:
                                # recieve but dont cast shadows
                                material.use_raytrace = False
    _(); del _

    perfmon.level_down()

    perfmon.level_down("Import finished.")
    return {'FINISHED'}