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No commits in common. "c2dc0324c3b424ce109f5b5802e5348c4ac55a0f" and "8683a6482fb19f64035ea6f2324c60c19bafb8e5" have entirely different histories.

13 changed files with 245 additions and 395 deletions

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@ -1,6 +0,0 @@
import rna_prop_ui
# fake way to make our operator's changes be visible to the change/depsgraph update handler in gltf_auto_export
def ping_depsgraph_update(object):
rna_prop_ui.rna_idprop_ui_create(object, "________temp", default=0)
rna_prop_ui.rna_idprop_ui_prop_clear(object, "________temp")

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@ -1,8 +1,6 @@
import bpy import bpy
from bpy.props import (StringProperty, BoolProperty, PointerProperty) from bpy.props import (StringProperty, BoolProperty, PointerProperty)
from bpy_types import (PropertyGroup) from bpy_types import (PropertyGroup)
from .helpers import ping_depsgraph_update
from ..propGroups.conversions_from_prop_group import property_group_value_to_custom_property_value from ..propGroups.conversions_from_prop_group import property_group_value_to_custom_property_value
from ..propGroups.conversions_to_prop_group import property_group_value_from_custom_property_value from ..propGroups.conversions_to_prop_group import property_group_value_from_custom_property_value
@ -130,8 +128,6 @@ def add_metadata_to_components_without_metadata(object):
continue continue
upsert_component_in_object(object, component_name, registry) upsert_component_in_object(object, component_name, registry)
# adds a component to an object (including metadata) using the provided component definition & optional value # adds a component to an object (including metadata) using the provided component definition & optional value
def add_component_to_object(object, component_definition, value=None): def add_component_to_object(object, component_definition, value=None):
cleanup_invalid_metadata(object) cleanup_invalid_metadata(object)
@ -153,8 +149,6 @@ def add_component_to_object(object, component_definition, value=None):
del object["__disable__update"] del object["__disable__update"]
object[short_name] = value object[short_name] = value
ping_depsgraph_update(object)
def upsert_component_in_object(object, component_name, registry): def upsert_component_in_object(object, component_name, registry):
# print("upsert_component_in_object", object, "component name", component_name) # print("upsert_component_in_object", object, "component name", component_name)
@ -229,8 +223,6 @@ def copy_propertyGroup_values_to_another_object(source_object, target_object, co
if field_name in source_propertyGroup: if field_name in source_propertyGroup:
target_propertyGroup[field_name] = source_propertyGroup[field_name] target_propertyGroup[field_name] = source_propertyGroup[field_name]
apply_propertyGroup_values_to_object_customProperties(target_object) apply_propertyGroup_values_to_object_customProperties(target_object)
ping_depsgraph_update(object)
# TODO: move to propgroups ? # TODO: move to propgroups ?
def apply_propertyGroup_values_to_object_customProperties(object): def apply_propertyGroup_values_to_object_customProperties(object):
@ -303,16 +295,6 @@ def remove_component_from_object(object, component_name):
break break
for index in to_remove: for index in to_remove:
components_metadata.remove(index) components_metadata.remove(index)
ping_depsgraph_update(object)
return True return True
def add_component_from_custom_property(object):
add_metadata_to_components_without_metadata(object)
apply_customProperty_values_to_object_propertyGroups(object)
ping_depsgraph_update(object)
def toggle_component(object, component_name):
components_in_object = object.components_meta.components
component_meta = next(filter(lambda component: component["name"] == component_name, components_in_object), None)
if component_meta != None:
component_meta.visible = not component_meta.visible

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@ -3,13 +3,12 @@ import json
import bpy import bpy
from bpy_types import Operator from bpy_types import Operator
from bpy.props import (StringProperty) from bpy.props import (StringProperty)
from .metadata import add_component_to_object, add_metadata_to_components_without_metadata, apply_customProperty_values_to_object_propertyGroups, apply_propertyGroup_values_to_object_customProperties_for_component, copy_propertyGroup_values_to_another_object, find_component_definition_from_short_name, remove_component_from_object
from .metadata import add_component_from_custom_property, add_component_to_object, add_metadata_to_components_without_metadata, apply_customProperty_values_to_object_propertyGroups, apply_propertyGroup_values_to_object_customProperties_for_component, copy_propertyGroup_values_to_another_object, find_component_definition_from_short_name, remove_component_from_object, toggle_component
class AddComponentOperator(Operator): class AddComponentOperator(Operator):
"""Add Bevy component to object""" """Add component to blueprint"""
bl_idname = "object.add_bevy_component" bl_idname = "object.add_bevy_component"
bl_label = "Add component to object Operator" bl_label = "Add component to blueprint Operator"
bl_options = {"UNDO"} bl_options = {"UNDO"}
component_type: StringProperty( component_type: StringProperty(
@ -30,7 +29,7 @@ class AddComponentOperator(Operator):
return {'FINISHED'} return {'FINISHED'}
class CopyComponentOperator(Operator): class CopyComponentOperator(Operator):
"""Copy Bevy component from object""" """Copy component from blueprint"""
bl_idname = "object.copy_bevy_component" bl_idname = "object.copy_bevy_component"
bl_label = "Copy component Operator" bl_label = "Copy component Operator"
bl_options = {"UNDO"} bl_options = {"UNDO"}
@ -67,9 +66,9 @@ class CopyComponentOperator(Operator):
class PasteComponentOperator(Operator): class PasteComponentOperator(Operator):
"""Paste Bevy component to object""" """Paste component to blueprint"""
bl_idname = "object.paste_bevy_component" bl_idname = "object.paste_bevy_component"
bl_label = "Paste component to object Operator" bl_label = "Paste component to blueprint Operator"
bl_options = {"UNDO"} bl_options = {"UNDO"}
def execute(self, context): def execute(self, context):
@ -92,7 +91,7 @@ class PasteComponentOperator(Operator):
return {'FINISHED'} return {'FINISHED'}
class RemoveComponentOperator(Operator): class RemoveComponentOperator(Operator):
"""Remove Bevy component from object""" """Remove component from object"""
bl_idname = "object.remove_bevy_component" bl_idname = "object.remove_bevy_component"
bl_label = "Remove component from object Operator" bl_label = "Remove component from object Operator"
bl_options = {"UNDO"} bl_options = {"UNDO"}
@ -118,11 +117,12 @@ class RemoveComponentOperator(Operator):
remove_component_from_object(object, self.component_name) remove_component_from_object(object, self.component_name)
else: else:
self.report({"ERROR"}, "The object/ component to remove ("+ self.component_name +") does not exist") self.report({"ERROR"}, "The object/ component to remove ("+ self.component_name +") does not exist")
return {'FINISHED'} return {'FINISHED'}
class RemoveComponentFromAllObjectsOperator(Operator): class RemoveComponentFromAllObjectsOperator(Operator):
"""Remove Bevy component from all object""" """Remove component from all object"""
bl_idname = "object.remove_bevy_component_all" bl_idname = "object.remove_bevy_component_all"
bl_label = "Remove component from all objects Operator" bl_label = "Remove component from all objects Operator"
bl_options = {"UNDO"} bl_options = {"UNDO"}
@ -172,7 +172,7 @@ class RenameHelper(bpy.types.PropertyGroup):
del bpy.types.WindowManager.bevy_component_rename_helper del bpy.types.WindowManager.bevy_component_rename_helper
class OT_rename_component(Operator): class OT_rename_component(Operator):
"""Rename Bevy component""" """Rename component"""
bl_idname = "object.rename_bevy_component" bl_idname = "object.rename_bevy_component"
bl_label = "rename component" bl_label = "rename component"
bl_options = {"UNDO"} bl_options = {"UNDO"}
@ -270,7 +270,7 @@ class OT_rename_component(Operator):
class GenerateComponent_From_custom_property_Operator(Operator): class GenerateComponent_From_custom_property_Operator(Operator):
"""Generate Bevy components from custom property""" """generate components from custom property"""
bl_idname = "object.generate_bevy_component_from_custom_property" bl_idname = "object.generate_bevy_component_from_custom_property"
bl_label = "Generate component from custom_property Operator" bl_label = "Generate component from custom_property Operator"
bl_options = {"UNDO"} bl_options = {"UNDO"}
@ -285,7 +285,8 @@ class GenerateComponent_From_custom_property_Operator(Operator):
error = False error = False
try: try:
add_component_from_custom_property(object) add_metadata_to_components_without_metadata(object)
apply_customProperty_values_to_object_propertyGroups(object)
except Exception as error: except Exception as error:
del object["__disable__update"] # make sure custom properties are updateable afterwards, even in the case of failure del object["__disable__update"] # make sure custom properties are updateable afterwards, even in the case of failure
error = True error = True
@ -296,7 +297,7 @@ class GenerateComponent_From_custom_property_Operator(Operator):
class Fix_Component_Operator(Operator): class Fix_Component_Operator(Operator):
"""Attempt to fix Bevy component""" """attempt to fix component"""
bl_idname = "object.fix_bevy_component" bl_idname = "object.fix_bevy_component"
bl_label = "Fix component (attempts to)" bl_label = "Fix component (attempts to)"
bl_options = {"UNDO"} bl_options = {"UNDO"}
@ -321,7 +322,7 @@ class Fix_Component_Operator(Operator):
return {'FINISHED'} return {'FINISHED'}
class Toggle_ComponentVisibility(Operator): class Toggle_ComponentVisibility(Operator):
"""Toggle Bevy component's visibility""" """toggles components visibility"""
bl_idname = "object.toggle_bevy_component_visibility" bl_idname = "object.toggle_bevy_component_visibility"
bl_label = "Toggle component visibility" bl_label = "Toggle component visibility"
bl_options = {"UNDO"} bl_options = {"UNDO"}
@ -333,6 +334,10 @@ class Toggle_ComponentVisibility(Operator):
def execute(self, context): def execute(self, context):
object = context.object object = context.object
toggle_component(object, self.component_name) components_in_object = object.components_meta.components
component_meta = next(filter(lambda component: component["name"] == self.component_name, components_in_object), None)
if component_meta != None:
component_meta.visible = not component_meta.visible
return {'FINISHED'} return {'FINISHED'}

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@ -16,7 +16,6 @@ import json
import bpy import bpy
from bpy.types import Context from bpy.types import Context
from bpy.props import (StringProperty, BoolProperty, IntProperty, PointerProperty) from bpy.props import (StringProperty, BoolProperty, IntProperty, PointerProperty)
import rna_prop_ui
# from .extension import ExampleExtensionProperties, GLTF_PT_UserExtensionPanel, unregister_panel # from .extension import ExampleExtensionProperties, GLTF_PT_UserExtensionPanel, unregister_panel
@ -30,7 +29,7 @@ from .auto_export.internals import (SceneLink,
CollectionsToExport, CollectionsToExport,
CUSTOM_PG_sceneName CUSTOM_PG_sceneName
) )
from .ui.main import (GLTF_PT_auto_export_changes_list, GLTF_PT_auto_export_main, from .ui.main import (GLTF_PT_auto_export_main,
GLTF_PT_auto_export_root, GLTF_PT_auto_export_root,
GLTF_PT_auto_export_general, GLTF_PT_auto_export_general,
GLTF_PT_auto_export_scenes, GLTF_PT_auto_export_scenes,
@ -113,9 +112,8 @@ classes = [
GLTF_PT_auto_export_general, GLTF_PT_auto_export_general,
GLTF_PT_auto_export_scenes, GLTF_PT_auto_export_scenes,
GLTF_PT_auto_export_blueprints, GLTF_PT_auto_export_blueprints,
GLTF_PT_auto_export_SidePanel,
GLTF_PT_auto_export_collections_list, GLTF_PT_auto_export_collections_list,
GLTF_PT_auto_export_changes_list, GLTF_PT_auto_export_SidePanel,
AutoExportTracker, AutoExportTracker,
] ]
@ -195,7 +193,6 @@ def register():
"""bpy.utils.register_class(AutoExportExtensionProperties) """bpy.utils.register_class(AutoExportExtensionProperties)
bpy.types.Scene.AutoExportExtensionProperties = bpy.props.PointerProperty(type=AutoExportExtensionProperties)""" bpy.types.Scene.AutoExportExtensionProperties = bpy.props.PointerProperty(type=AutoExportExtensionProperties)"""
def unregister(): def unregister():
for cls in classes: for cls in classes:
bpy.utils.unregister_class(cls) bpy.utils.unregister_class(cls)

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@ -3,12 +3,12 @@ import os
import bpy import bpy
import traceback import traceback
from .get_collections_to_export import get_collections_to_export
from .export_main_scenes import export_main_scene from .export_main_scenes import export_main_scene
from .export_blueprints import check_if_blueprint_on_disk, check_if_blueprints_exist, export_blueprints_from_collections from .export_blueprints import check_if_blueprint_on_disk, check_if_blueprints_exist, export_blueprints_from_collections
from .get_standard_exporter_settings import get_standard_exporter_settings
from ..helpers.helpers_scenes import (get_scenes, ) from ..helpers.helpers_scenes import (get_scenes, )
from ..helpers.helpers_collections import (get_collections_in_library, get_exportable_collections, get_collections_per_scene, find_collection_ascendant_target_collection)
from ..modules.export_materials import cleanup_materials, export_materials from ..modules.export_materials import cleanup_materials, export_materials
from ..modules.bevy_scene_components import upsert_scene_components from ..modules.bevy_scene_components import upsert_scene_components
@ -19,7 +19,6 @@ def auto_export(changes_per_scene, changed_export_parameters, addon_prefs):
print ("changed_export_parameters", changed_export_parameters) print ("changed_export_parameters", changed_export_parameters)
try: try:
# path to the current blend file
file_path = bpy.data.filepath file_path = bpy.data.filepath
# Get the folder # Get the folder
folder_path = os.path.dirname(file_path) folder_path = os.path.dirname(file_path)
@ -35,6 +34,10 @@ def auto_export(changes_per_scene, changed_export_parameters, addon_prefs):
[main_scene_names, level_scenes, library_scene_names, library_scenes] = get_scenes(addon_prefs) [main_scene_names, level_scenes, library_scene_names, library_scenes] = get_scenes(addon_prefs)
# standard gltf export settings are stored differently
standard_gltf_exporter_settings = get_standard_exporter_settings()
print("main scenes", main_scene_names, "library_scenes", library_scene_names) print("main scenes", main_scene_names, "library_scenes", library_scene_names)
print("export_output_folder", export_output_folder) print("export_output_folder", export_output_folder)
@ -50,13 +53,81 @@ def auto_export(changes_per_scene, changed_export_parameters, addon_prefs):
if export_blueprints: if export_blueprints:
print("EXPORTING") print("EXPORTING")
# create parent relations for all collections # create parent relations for all collections
(collections, collections_to_export, main_scenes_to_export, library_collections, collections_per_scene, blueprint_hierarchy, export_levels_path, gltf_extension) = get_collections_to_export(folder_path, export_output_folder, changes_per_scene, changed_export_parameters, addon_prefs) collection_parents = dict()
for collection in bpy.data.collections:
collection_parents[collection.name] = None
for collection in bpy.data.collections:
for ch in collection.children:
collection_parents[ch.name] = collection.name
# get a list of all collections actually in use
(collections, blueprint_hierarchy) = get_exportable_collections(level_scenes, library_scenes, addon_prefs)
# first check if all collections have already been exported before (if this is the first time the exporter is run
# in your current Blender session for example)
export_blueprints_path = os.path.join(folder_path, export_output_folder, getattr(addon_prefs,"export_blueprints_path")) if getattr(addon_prefs,"export_blueprints_path") != '' else folder_path
export_levels_path = os.path.join(folder_path, export_output_folder)
gltf_extension = standard_gltf_exporter_settings.get("export_format", 'GLB')
gltf_extension = '.glb' if gltf_extension == 'GLB' else '.gltf'
collections_not_on_disk = check_if_blueprints_exist(collections, export_blueprints_path, gltf_extension)
changed_collections = []
for scene, objects in changes_per_scene.items():
print(" changed scene", scene)
for obj_name, obj in objects.items():
object_collections = list(obj.users_collection) if hasattr(obj, 'users_collection') else []
object_collection_names = list(map(lambda collection: collection.name, object_collections))
if len(object_collection_names) > 1:
print("ERRROR for",obj_name,"objects in multiple collections not supported")
else:
object_collection_name = object_collection_names[0] if len(object_collection_names) > 0 else None
#recurse updwards until we find one of our collections (or not)
matching_collection = find_collection_ascendant_target_collection(collection_parents, collections, object_collection_name)
if matching_collection is not None:
changed_collections.append(matching_collection)
collections_to_export = list(set(changed_collections + collections_not_on_disk)) if export_change_detection else collections
# we need to re_export everything if the export parameters have been changed
collections_to_export = collections if changed_export_parameters else collections_to_export
collections_per_scene = get_collections_per_scene(collections_to_export, library_scenes)
# collections that do not come from a library should not be exported as seperate blueprints
# FIMXE: logic is erroneous, needs to be changed
library_collections = get_collections_in_library(library_scenes)
collections_to_export = list(set(collections_to_export).intersection(set(library_collections)))
# since materials export adds components we need to call this before blueprints are exported # since materials export adds components we need to call this before blueprints are exported
# export materials & inject materials components into relevant objects # export materials & inject materials components into relevant objects
if export_materials_library: if export_materials_library:
export_materials(collections, library_scenes, folder_path, addon_prefs) export_materials(collections, library_scenes, folder_path, addon_prefs)
main_scenes_to_export = [scene_name for scene_name in main_scene_names if not export_change_detection or changed_export_parameters or scene_name in changes_per_scene.keys() or not check_if_blueprint_on_disk(scene_name, export_levels_path, gltf_extension)]
bpy.context.window_manager.auto_export_tracker.exports_count = len(collections_to_export)
bpy.context.window_manager.auto_export_tracker.exports_count += len(main_scenes_to_export)
if export_materials_library:
bpy.context.window_manager.auto_export_tracker.exports_count += 1
print("-------------------------------")
print("collections: all:", collections)
print("collections: changed:", changed_collections)
print("collections: not found on disk:", collections_not_on_disk)
print("collections: in library:", library_collections)
print("collections: to export:", collections_to_export)
print("collections: per_scene:", collections_per_scene)
print("-------------------------------")
print("BLUEPRINTS: to export:", collections_to_export)
print("-------------------------------")
print("MAIN SCENES: to export:", main_scenes_to_export)
print("-------------------------------")
# backup current active scene # backup current active scene
old_current_scene = bpy.context.scene old_current_scene = bpy.context.scene
# backup current selections # backup current selections
@ -97,6 +168,8 @@ def auto_export(changes_per_scene, changed_export_parameters, addon_prefs):
for scene_name in main_scene_names: for scene_name in main_scene_names:
export_main_scene(bpy.data.scenes[scene_name], folder_path, addon_prefs, []) export_main_scene(bpy.data.scenes[scene_name], folder_path, addon_prefs, [])
print("we are done with all export work",bpy.context.window_manager.auto_export_tracker.change_detection_enabled)
except Exception as error: except Exception as error:
print(traceback.format_exc()) print(traceback.format_exc())

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@ -1,87 +0,0 @@
import os
import bpy
from .get_standard_exporter_settings import get_standard_exporter_settings
from .export_blueprints import check_if_blueprint_on_disk, check_if_blueprints_exist, export_blueprints_from_collections
from ..helpers.helpers_collections import get_exportable_collections
from ..helpers.helpers_collections import (get_collections_in_library, get_exportable_collections, get_collections_per_scene, find_collection_ascendant_target_collection)
from ..helpers.helpers_scenes import (get_scenes, )
def get_collections_to_export(folder_path, export_output_folder, changes_per_scene, changed_export_parameters, addon_prefs):
export_change_detection = getattr(addon_prefs, "export_change_detection")
export_materials_library = getattr(addon_prefs,"export_materials_library")
# standard gltf export settings are stored differently
standard_gltf_exporter_settings = get_standard_exporter_settings()
[main_scene_names, level_scenes, library_scene_names, library_scenes] = get_scenes(addon_prefs)
collection_parents = dict()
for collection in bpy.data.collections:
collection_parents[collection.name] = None
for collection in bpy.data.collections:
for ch in collection.children:
collection_parents[ch.name] = collection.name
# get a list of all collections actually in use
(collections, blueprint_hierarchy) = get_exportable_collections(level_scenes, library_scenes, addon_prefs)
# first check if all collections have already been exported before (if this is the first time the exporter is run
# in your current Blender session for example)
export_blueprints_path = os.path.join(folder_path, export_output_folder, getattr(addon_prefs,"export_blueprints_path")) if getattr(addon_prefs,"export_blueprints_path") != '' else folder_path
export_levels_path = os.path.join(folder_path, export_output_folder)
gltf_extension = standard_gltf_exporter_settings.get("export_format", 'GLB')
gltf_extension = '.glb' if gltf_extension == 'GLB' else '.gltf'
collections_not_on_disk = check_if_blueprints_exist(collections, export_blueprints_path, gltf_extension)
changed_collections = []
for scene, objects in changes_per_scene.items():
print(" changed scene", scene)
for obj_name, obj in objects.items():
object_collections = list(obj.users_collection) if hasattr(obj, 'users_collection') else []
object_collection_names = list(map(lambda collection: collection.name, object_collections))
if len(object_collection_names) > 1:
print("ERRROR for",obj_name,"objects in multiple collections not supported")
else:
object_collection_name = object_collection_names[0] if len(object_collection_names) > 0 else None
#recurse updwards until we find one of our collections (or not)
matching_collection = find_collection_ascendant_target_collection(collection_parents, collections, object_collection_name)
if matching_collection is not None:
changed_collections.append(matching_collection)
collections_to_export = list(set(changed_collections + collections_not_on_disk)) if export_change_detection else collections
# we need to re_export everything if the export parameters have been changed # TODO: perhaps do this BEFORE the rest above for better perfs
collections_to_export = collections if changed_export_parameters else collections_to_export
collections_per_scene = get_collections_per_scene(collections_to_export, library_scenes)
# collections that do not come from a library should not be exported as seperate blueprints
# FIMXE: logic is erroneous, needs to be changed
library_collections = get_collections_in_library(library_scenes)
collections_to_export = list(set(collections_to_export).intersection(set(library_collections)))
main_scenes_to_export = [scene_name for scene_name in main_scene_names if not export_change_detection or changed_export_parameters or scene_name in changes_per_scene.keys() or not check_if_blueprint_on_disk(scene_name, export_levels_path, gltf_extension)]
# update the list of tracked exports
exports_total = len(collections_to_export) + len(main_scenes_to_export) + (1 if export_materials_library else 0)
bpy.context.window_manager.auto_export_tracker.exports_total = exports_total
bpy.context.window_manager.auto_export_tracker.exports_count = exports_total
print("-------------------------------")
print("collections: all:", collections)
print("collections: changed:", changed_collections)
print("collections: not found on disk:", collections_not_on_disk)
print("collections: in library:", library_collections)
print("collections: to export:", collections_to_export)
print("collections: per_scene:", collections_per_scene)
print("-------------------------------")
print("BLUEPRINTS: to export:", collections_to_export)
print("-------------------------------")
print("MAIN SCENES: to export:", main_scenes_to_export)
print("-------------------------------")
return (collections, collections_to_export, main_scenes_to_export, library_collections, collections_per_scene, blueprint_hierarchy, export_levels_path, gltf_extension)

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@ -2,10 +2,14 @@ import json
import bpy import bpy
from bpy.types import Operator from bpy.types import Operator
from bpy_extras.io_utils import ExportHelper from bpy_extras.io_utils import ExportHelper
from bpy.props import (IntProperty) from bpy.props import (IntProperty, StringProperty)
from .preferences import (AutoExportGltfAddonPreferences, AutoExportGltfPreferenceNames) from .preferences import (AutoExportGltfAddonPreferences, AutoExportGltfPreferenceNames)
from ..helpers.helpers_scenes import (get_scenes)
from ..helpers.helpers_collections import (get_exportable_collections)
from .auto_export import auto_export from .auto_export import auto_export
from io_scene_gltf2 import (ExportGLTF2, GLTF_PT_export_main,ExportGLTF2_Base, GLTF_PT_export_include)
class AutoExportGLTF(Operator, AutoExportGltfAddonPreferences, ExportHelper): class AutoExportGLTF(Operator, AutoExportGltfAddonPreferences, ExportHelper):
"""auto export gltf""" """auto export gltf"""
#bl_idname = "object.xxx" #bl_idname = "object.xxx"
@ -154,6 +158,7 @@ class AutoExportGLTF(Operator, AutoExportGltfAddonPreferences, ExportHelper):
# if there were no setting before, it is new, we need export # if there were no setting before, it is new, we need export
changed = False changed = False
print("previous_auto_settings", previous_auto_settings, "previous_gltf_settings", previous_gltf_settings)
if previous_auto_settings == None: if previous_auto_settings == None:
print("previous settings missing, exporting") print("previous settings missing, exporting")
changed = True changed = True
@ -162,7 +167,7 @@ class AutoExportGLTF(Operator, AutoExportGltfAddonPreferences, ExportHelper):
previous_gltf_settings = bpy.data.texts.new(".gltf_auto_export_gltf_settings_previous") previous_gltf_settings = bpy.data.texts.new(".gltf_auto_export_gltf_settings_previous")
previous_gltf_settings.write(json.dumps({})) previous_gltf_settings.write(json.dumps({}))
if current_gltf_settings == None: if current_gltf_settings == None:
current_gltf_settings = bpy.data.texts.new(".gltf_auto_export_gltf_settings") current_gltf_settings = bpy.data.texts[".gltf_auto_export_gltf_settings"]
current_gltf_settings.write(json.dumps({})) current_gltf_settings.write(json.dumps({}))
changed = True changed = True
@ -194,35 +199,65 @@ class AutoExportGLTF(Operator, AutoExportGltfAddonPreferences, ExportHelper):
return changed return changed
def execute(self, context): def execute(self, context):
#print("execute") print("execute")
bpy.context.window_manager.auto_export_tracker.disable_change_detection() bpy.context.window_manager.auto_export_tracker.disable_change_detection()
if self.direct_mode: if self.direct_mode:
self.load_settings(context) self.load_settings(context)
if self.will_save_settings: if self.will_save_settings:
self.save_settings(context) self.save_settings(context)
if self.auto_export: # only do the actual exporting if auto export is actually enabled
changes_per_scene = context.window_manager.auto_export_tracker.changed_objects_per_scene changes_per_scene = context.window_manager.auto_export_tracker.changed_objects_per_scene
if self.auto_export: # only do the actual exporting if auto export is actually enabled
#& do the export #& do the export
if self.direct_mode: #Do not auto export when applying settings in the menu, do it on save only if self.direct_mode: #Do not auto export when applying settings in the menu, do it on save only
# disable change detection while the operator runs
#determine changed parameters #determine changed parameters
params_changed = self.did_export_settings_change() params_changed = self.did_export_settings_change()
auto_export(changes_per_scene, params_changed, self) auto_export(changes_per_scene, params_changed, self)
# cleanup # cleanup
# reset the list of changes in the tracker
bpy.context.window_manager.auto_export_tracker.clear_changes()
print("AUTO EXPORT DONE") print("AUTO EXPORT DONE")
bpy.app.timers.register(bpy.context.window_manager.auto_export_tracker.enable_change_detection, first_interval=0.1) if bpy.context.window_manager.auto_export_tracker.exports_count == 0: # we need this in case there was nothing to export, to make sure change detection is enabled again
pass #print("YOLOOO")
#py.context.window_manager.auto_export_tracker.enable_change_detection()
#bpy.app.timers.register(bpy.context.window_manager.auto_export_tracker.enable_change_detection, first_interval=1)
#bpy.context.window_manager.auto_export_tracker.enable_change_detection()
# FIXME: wrong logic, this should be called only in an glTF2_post_export_callback
#bpy.app.timers.register(bpy.context.window_manager.auto_export_tracker.enable_change_detection, first_interval=1)
else: else:
print("auto export disabled, skipping") print("auto export disabled, skipping")
"""if not self.direct_mode:
print("enabling")
bpy.context.window_manager.auto_export_tracker.enable_change_detection()"""
bpy.app.timers.register(bpy.context.window_manager.auto_export_tracker.enable_change_detection, first_interval=1)
return {'FINISHED'} return {'FINISHED'}
def invoke(self, context, event): def invoke(self, context, event):
#print("invoke") print("invoke")
bpy.context.window_manager.auto_export_tracker.disable_change_detection() bpy.context.window_manager.auto_export_tracker.disable_change_detection()
self.load_settings(context) self.load_settings(context)
addon_prefs = self
"""[main_scene_names, level_scenes, library_scene_names, library_scenes]=get_scenes(addon_prefs)
(collections, _) = get_exportable_collections(level_scenes, library_scenes, addon_prefs)
try:
# we save this list of collections in the context
bpy.context.window_manager.exportedCollections.clear()
#TODO: add error handling for this
for collection_name in collections:
ui_info = bpy.context.window_manager.exportedCollections.add()
ui_info.name = collection_name
except Exception as error:
self.report({"ERROR"}, "Failed to populate list of exported collections/blueprints")"""
wm = context.window_manager wm = context.window_manager
wm.fileselect_add(self) wm.fileselect_add(self)
return {'RUNNING_MODAL'} return {'RUNNING_MODAL'}
def draw(self, context): def draw(self, context):

View File

@ -1,13 +1,10 @@
import json import json
from types import SimpleNamespace
import bpy import bpy
from bpy.types import (PropertyGroup) from bpy.types import (PropertyGroup)
from bpy.props import (PointerProperty, IntProperty, StringProperty) from bpy.props import (PointerProperty, IntProperty, StringProperty)
from ..constants import TEMPSCENE_PREFIX from ..constants import TEMPSCENE_PREFIX
from .internals import CollectionsToExport from .internals import CollectionsToExport
from ..helpers.helpers_scenes import (get_scenes)
from ..helpers.helpers_collections import (get_exportable_collections)
class AutoExportTracker(PropertyGroup): class AutoExportTracker(PropertyGroup):
@ -19,18 +16,14 @@ class AutoExportTracker(PropertyGroup):
last_operator = None last_operator = None
dummy_file_path = "" dummy_file_path = ""
exports_total : IntProperty(
name='exports_total',
description='Number of total exports',
default=0
) # type: ignore
exports_count : IntProperty( exports_count : IntProperty(
name='exports_count', name='exports_count',
description='Number of exports in progress', description='Number of exports in progress',
default=0 default=0
) # type: ignore ) # type: ignore
@classmethod @classmethod
def register(cls): def register(cls):
bpy.types.WindowManager.auto_export_tracker = PointerProperty(type=AutoExportTracker) bpy.types.WindowManager.auto_export_tracker = PointerProperty(type=AutoExportTracker)
@ -69,15 +62,15 @@ class AutoExportTracker(PropertyGroup):
@classmethod @classmethod
def deps_update_handler(cls, scene, depsgraph): def deps_update_handler(cls, scene, depsgraph):
# print("change detection enabled", cls.change_detection_enabled) print("change detection enabled", cls.change_detection_enabled)
"""ops = bpy.context.window_manager.operators ops = bpy.context.window_manager.operators
print("last operators", ops) print("last operators", ops)
for op in ops: for op in ops:
print("operator", op)""" print("operator", op)
active_operator = bpy.context.active_operator active_operator = bpy.context.active_operator
if active_operator: if active_operator:
#print("Operator", active_operator.bl_label, active_operator.bl_idname) print("Operator", active_operator.bl_label, active_operator.bl_idname)
if active_operator.bl_idname == "EXPORT_SCENE_OT_gltf" and active_operator.gltf_export_id == "gltf_auto_export": if active_operator.bl_idname == "EXPORT_SCENE_OT_gltf" and active_operator.gltf_export_id == "gltf_auto_export":
# we backup any existing gltf export settings, if there were any # we backup any existing gltf export settings, if there were any
scene = bpy.context.scene scene = bpy.context.scene
@ -94,28 +87,30 @@ class AutoExportTracker(PropertyGroup):
# we force saving params # we force saving params
active_operator.will_save_settings = True active_operator.will_save_settings = True
active_operator.auto_export = True active_operator.auto_export = True
print("setting stuff for auto_export")
# only deal with changes if we are NOT in the mids of saving/exporting # only deal with changes if we are NOT in the mids of saving/exporting
if cls.change_detection_enabled: if cls.change_detection_enabled:
# ignore anything going on with temporary scenes # ignore anything going on with temporary scenes
if not scene.name.startswith(TEMPSCENE_PREFIX): if not scene.name.startswith(TEMPSCENE_PREFIX):
# print("depsgraph_update_post", scene.name) print("depsgraph_update_post", scene.name)
changed_scene = scene.name or "" changed_scene = scene.name or ""
#print("-------------") #print("-------------")
if not changed_scene in cls.changed_objects_per_scene: if not changed_scene in cls.changed_objects_per_scene:
cls.changed_objects_per_scene[changed_scene] = {} cls.changed_objects_per_scene[changed_scene] = {}
# print("cls.changed_objects_per_scene", cls.changed_objects_per_scene) print("cls.changed_objects_per_scene", cls.changed_objects_per_scene)
# depsgraph = bpy.context.evaluated_depsgraph_get() depsgraph = bpy.context.evaluated_depsgraph_get()
for obj in depsgraph.updates: for obj in depsgraph.updates:
#print("depsgraph update", obj) print("depsgraph update", obj)
if isinstance(obj.id, bpy.types.Object): if isinstance(obj.id, bpy.types.Object):
# get the actual object # get the actual object
object = bpy.data.objects[obj.id.name] object = bpy.data.objects[obj.id.name]
# print(" changed object", obj.id.name,"transforms", obj.is_updated_transform, "geometry", obj.is_updated_geometry) print("changed object", obj.id.name)
print("FOO","transforms", obj.is_updated_transform, "geometry", obj.is_updated_geometry)
cls.changed_objects_per_scene[scene.name][obj.id.name] = object cls.changed_objects_per_scene[scene.name][obj.id.name] = object
elif isinstance(obj.id, bpy.types.Material): # or isinstance(obj.id, bpy.types.ShaderNodeTree): elif isinstance(obj.id, bpy.types.Material): # or isinstance(obj.id, bpy.types.ShaderNodeTree):
# print(" changed material", obj.id, "scene", scene.name,) print("changed material", obj.id, "scene", scene.name,)
material = bpy.data.materials[obj.id.name] material = bpy.data.materials[obj.id.name]
#now find which objects are using the material #now find which objects are using the material
for obj in bpy.data.objects: for obj in bpy.data.objects:
@ -128,68 +123,37 @@ class AutoExportTracker(PropertyGroup):
items += len(cls.changed_objects_per_scene[scene_name].keys()) items += len(cls.changed_objects_per_scene[scene_name].keys())
if items == 0: if items == 0:
cls.changed_objects_per_scene.clear() cls.changed_objects_per_scene.clear()
# print("changed_objects_per_scene", cls.changed_objects_per_scene) print("changed_objects_per_scene", cls.changed_objects_per_scene)
else: else:
cls.changed_objects_per_scene.clear() cls.changed_objects_per_scene.clear()
# get a list of exportable collections for display
# keep it simple, just use Simplenamespace for compatibility with the rest of our code
addon_prefs = SimpleNamespace(**get_auto_exporter_settings())
print("addon prefs", addon_prefs)
addon_prefs.export_marked_assets = True
[_, level_scenes, _, library_scenes] = get_scenes(addon_prefs)
(collections, _) = get_exportable_collections(level_scenes, library_scenes, addon_prefs)
try:
# we save this list of collections in the context
bpy.context.window_manager.exportedCollections.clear()
#TODO: add error handling for this
for collection_name in collections:
ui_info = bpy.context.window_manager.exportedCollections.add()
ui_info.name = collection_name
except Exception as error:
pass
#self.report({"ERROR"}, "Failed to populate list of exported collections/blueprints")
"""depsgraph = bpy.context.evaluated_depsgraph_get() """depsgraph = bpy.context.evaluated_depsgraph_get()
for update in depsgraph.updates: for update in depsgraph.updates:
print("update", update)""" print("update", update)"""
def disable_change_detection(self): def disable_change_detection(self):
#print("disable change detection") print("disable change detection")
self.change_detection_enabled = False self.change_detection_enabled = False
self.__class__.change_detection_enabled = False self.__class__.change_detection_enabled = False
return None return None
def enable_change_detection(self): def enable_change_detection(self):
#print("enable change detection") print("enable change detection")
self.change_detection_enabled = True self.change_detection_enabled = True
self.__class__.change_detection_enabled = True self.__class__.change_detection_enabled = True
#print("bpy.context.window_manager.auto_export_tracker.change_detection_enabled", bpy.context.window_manager.auto_export_tracker.change_detection_enabled) #FIXME: not sure about these
return None
def clear_changes(self):
self.changed_objects_per_scene.clear() self.changed_objects_per_scene.clear()
self.__class__.changed_objects_per_scene.clear() self.__class__.changed_objects_per_scene.clear()
# bpy.context.window_manager.auto_export_tracker.change_detection_enabled = True
def export_finished(self): print("bpy.context.window_manager.auto_export_tracker.change_detection_enabled", bpy.context.window_manager.auto_export_tracker.change_detection_enabled)
#print("export_finished")
self.exports_count -= 1
if self.exports_count == 0:
print("preparing to reset change detection")
bpy.app.timers.register(self.enable_change_detection, first_interval=0.1)
#self.enable_change_detection()
return None return None
def export_finished(self):
print("AAAAAAAAAAAAAAAAAAAAAAAAAAAAAHHHHHHHH export_finished")
bpy.context.window_manager.auto_export_tracker.exports_count -= 1
if bpy.context.window_manager.auto_export_tracker.exports_count == 0:
#print("preparing to reset change detection")
# bpy.app.timers.register(bpy.context.window_manager.auto_export_tracker.enable_change_detection, first_interval=1)
def get_auto_exporter_settings(): self.enable_change_detection()
auto_exporter_settings = bpy.data.texts[".gltf_auto_export_settings"] if ".gltf_auto_export_settings" in bpy.data.texts else None return None
if auto_exporter_settings != None:
try:
auto_exporter_settings = json.loads(auto_exporter_settings.as_string())
except:
auto_exporter_settings = {}
else:
auto_exporter_settings = {}
return auto_exporter_settings

View File

@ -212,8 +212,8 @@ def clear_hollow_scene(temp_scene, original_root_collection):
# convenience utility to get lists of scenes # convenience utility to get lists of scenes
def get_scenes(addon_prefs): def get_scenes(addon_prefs):
level_scene_names= getattr(addon_prefs,"main_scene_names") #list(map(lambda scene: scene.name, getattr(addon_prefs,"main_scenes"))) level_scene_names= list(map(lambda scene: scene.name, getattr(addon_prefs,"main_scenes"))) # getattr(addon_prefs, "main_scene_names_compact").split(',')#
library_scene_names = getattr(addon_prefs,"library_scene_names") #list(map(lambda scene: scene.name, getattr(addon_prefs,"library_scenes"))) library_scene_names = list(map(lambda scene: scene.name, getattr(addon_prefs,"library_scenes"))) #getattr(addon_prefs, "main_scene_names_compact").split(',')#
level_scene_names = list(filter(lambda name: name in bpy.data.scenes, level_scene_names)) level_scene_names = list(filter(lambda name: name in bpy.data.scenes, level_scene_names))
library_scene_names = list(filter(lambda name: name in bpy.data.scenes, library_scene_names)) library_scene_names = list(filter(lambda name: name in bpy.data.scenes, library_scene_names))

View File

@ -51,12 +51,11 @@ def test_export_do_not_export_blueprints(setup_data):
"main_scene_names" : ['World'], "main_scene_names" : ['World'],
"library_scene_names": ['Library'] "library_scene_names": ['Library']
} }
stored_auto_settings = bpy.data.texts[".gltf_auto_export_settings"] if ".gltf_auto_export_settings" in bpy.data.texts else bpy.data.texts.new(".gltf_auto_export_settings") stored_settings = bpy.data.texts[".gltf_auto_export_settings"] if ".gltf_auto_export_settings" in bpy.data.texts else bpy.data.texts.new(".gltf_auto_export_settings")
stored_auto_settings.clear() stored_settings.clear()
stored_auto_settings.write(json.dumps(export_props)) stored_settings.write(json.dumps(export_props))
auto_export_operator( auto_export_operator(
auto_export=True,
direct_mode=True, direct_mode=True,
export_output_folder="./models", export_output_folder="./models",
export_scene_settings=True, export_scene_settings=True,
@ -76,13 +75,11 @@ def test_export_custom_blueprints_path(setup_data):
"main_scene_names" : ['World'], "main_scene_names" : ['World'],
"library_scene_names": ['Library'] "library_scene_names": ['Library']
} }
stored_settings = bpy.data.texts[".gltf_auto_export_settings"] if ".gltf_auto_export_settings" in bpy.data.texts else bpy.data.texts.new(".gltf_auto_export_settings")
stored_auto_settings = bpy.data.texts[".gltf_auto_export_settings"] if ".gltf_auto_export_settings" in bpy.data.texts else bpy.data.texts.new(".gltf_auto_export_settings") stored_settings.clear()
stored_auto_settings.clear() stored_settings.write(json.dumps(export_props))
stored_auto_settings.write(json.dumps(export_props))
auto_export_operator( auto_export_operator(
auto_export=True,
direct_mode=True, direct_mode=True,
export_output_folder="./models", export_output_folder="./models",
export_scene_settings=True, export_scene_settings=True,
@ -107,7 +104,6 @@ def test_export_materials_library(setup_data):
stored_settings.write(json.dumps(export_props)) stored_settings.write(json.dumps(export_props))
auto_export_operator( auto_export_operator(
auto_export=True,
direct_mode=True, direct_mode=True,
export_output_folder="./models", export_output_folder="./models",
export_scene_settings=True, export_scene_settings=True,
@ -133,7 +129,6 @@ def test_export_materials_library_custom_path(setup_data):
stored_settings.write(json.dumps(export_props)) stored_settings.write(json.dumps(export_props))
auto_export_operator( auto_export_operator(
auto_export=True,
direct_mode=True, direct_mode=True,
export_output_folder="./models", export_output_folder="./models",
export_scene_settings=True, export_scene_settings=True,
@ -164,7 +159,6 @@ def test_export_collection_instances_combine_mode(setup_data): # TODO: change &
bpy.data.objects["Cube"]["dynamic"] = True bpy.data.objects["Cube"]["dynamic"] = True
auto_export_operator( auto_export_operator(
auto_export=True,
direct_mode=True, direct_mode=True,
export_output_folder="./models", export_output_folder="./models",
export_blueprints=True, export_blueprints=True,
@ -190,7 +184,6 @@ def test_export_do_not_export_marked_assets(setup_data):
stored_settings.write(json.dumps(export_props)) stored_settings.write(json.dumps(export_props))
auto_export_operator( auto_export_operator(
auto_export=True,
direct_mode=True, direct_mode=True,
export_output_folder="./models", export_output_folder="./models",
export_scene_settings=True, export_scene_settings=True,
@ -223,7 +216,6 @@ def test_export_separate_dynamic_and_static_objects(setup_data):
bpy.data.objects["Cube"]["dynamic"] = True bpy.data.objects["Cube"]["dynamic"] = True
auto_export_operator( auto_export_operator(
auto_export=True,
direct_mode=True, direct_mode=True,
export_output_folder="./models", export_output_folder="./models",
export_scene_settings=True, export_scene_settings=True,
@ -250,7 +242,6 @@ def test_export_should_not_generate_orphan_data(setup_data):
stored_settings.write(json.dumps(export_props)) stored_settings.write(json.dumps(export_props))
auto_export_operator( auto_export_operator(
auto_export=True,
direct_mode=True, direct_mode=True,
export_output_folder="./models", export_output_folder="./models",
export_scene_settings=True, export_scene_settings=True,

View File

@ -5,7 +5,6 @@ import mathutils
import pytest import pytest
import shutil import shutil
import pathlib import pathlib
import rna_prop_ui
@pytest.fixture @pytest.fixture
def setup_data(request): def setup_data(request):
@ -81,89 +80,6 @@ def setup_data(request):
return None return None
def test_export_change_tracking_custom_properties(setup_data):
root_path = "../../testing/bevy_example"
assets_root_path = os.path.join(root_path, "assets")
models_path = os.path.join(assets_root_path, "models")
auto_export_operator = bpy.ops.export_scenes.auto_gltf
# with change detection
# first, configure things
# we use the global settings for that
export_props = {
"main_scene_names" : ['World'],
"library_scene_names": ['Library'],
}
# store settings for the auto_export part
stored_auto_settings = bpy.data.texts[".gltf_auto_export_settings"] if ".gltf_auto_export_settings" in bpy.data.texts else bpy.data.texts.new(".gltf_auto_export_settings")
stored_auto_settings.clear()
stored_auto_settings.write(json.dumps(export_props))
gltf_settings = {
"export_animations": False,
"export_optimize_animation_size": False
}
# and store settings for the gltf part
stored_gltf_settings = bpy.data.texts[".gltf_auto_export_gltf_settings"] if ".gltf_auto_export_gltf_settings" in bpy.data.texts else bpy.data.texts.new(".gltf_auto_export_gltf_settings")
stored_gltf_settings.clear()
stored_gltf_settings.write(json.dumps(gltf_settings))
auto_export_operator(
auto_export=True,
direct_mode=True,
export_output_folder="./models",
export_scene_settings=True,
export_blueprints=True,
export_legacy_mode=False,
export_materials_library=False
)
world_file_path = os.path.join(models_path, "World.glb")
assert os.path.exists(world_file_path) == True
models_library_path = os.path.join(models_path, "library")
model_library_file_paths = list(map(lambda file_name: os.path.join(models_library_path, file_name), sorted(os.listdir(models_library_path))))
modification_times_first = list(map(lambda file_path: os.path.getmtime(file_path), model_library_file_paths + [world_file_path]))
mapped_files_to_timestamps_and_index = {}
for (index, file_path) in enumerate(model_library_file_paths+ [world_file_path]):
file_path = pathlib.Path(file_path).stem
mapped_files_to_timestamps_and_index[file_path] = (modification_times_first[index], index)
# now add a custom property to the cube in the main scene & export again
print("----------------")
print("main scene change (custom property)")
print("----------------")
bpy.context.window_manager.auto_export_tracker.enable_change_detection() # FIXME: should not be needed, but ..
bpy.data.objects["Cube"]["test_property"] = 42
#force an update
rna_prop_ui.rna_idprop_ui_create(bpy.data.objects["Cube"], "________temp", default=0)
rna_prop_ui.rna_idprop_ui_prop_clear(bpy.data.objects["Cube"], "________temp")
auto_export_operator(
auto_export=True,
direct_mode=True,
export_output_folder="./models",
export_scene_settings=True,
export_blueprints=True,
export_legacy_mode=False,
export_materials_library=False
)
modification_times = list(map(lambda file_path: os.path.getmtime(file_path), model_library_file_paths + [world_file_path]))
assert modification_times != modification_times_first
# only the "world" file should have changed
world_file_index = mapped_files_to_timestamps_and_index["World"][1]
other_files_modification_times = [value for index, value in enumerate(modification_times) if index not in [world_file_index]]
other_files_modification_times_first = [value for index, value in enumerate(modification_times_first) if index not in [world_file_index]]
assert modification_times[world_file_index] != modification_times_first[world_file_index]
assert other_files_modification_times == other_files_modification_times_first
# reset the comparing
modification_times_first = modification_times
""" """
- setup gltf parameters & auto_export parameters - setup gltf parameters & auto_export parameters
@ -317,7 +233,7 @@ def test_export_changed_parameters(setup_data):
print("----------------") print("----------------")
bpy.context.window_manager.auto_export_tracker.enable_change_detection() # FIXME: should not be needed, but .. bpy.context.window_manager.auto_export_tracker.enable_change_detection() # FIXME: should not be needed, but ..
bpy.data.objects["Blueprint3_mesh"].location= [0, 0.1 ,2] bpy.data.objects["Blueprint3_mesh"]["test_component"] = 42
auto_export_operator( auto_export_operator(
auto_export=True, auto_export=True,
@ -333,17 +249,13 @@ def test_export_changed_parameters(setup_data):
assert modification_times != modification_times_first assert modification_times != modification_times_first
# the "world" file should have changed (TODO: double check: this is since changing an instances collection changes the instance too ?) # the "world" file should have changed (TODO: double check: this is since changing an instances collection changes the instance too ?)
world_file_index = mapped_files_to_timestamps_and_index["World"][1] world_file_index = mapped_files_to_timestamps_and_index["World"][1]
# and the blueprint3 file too, since that is the collection we changed # and the blueprint1 file too, since that is the collection we changed
blueprint3_file_index = mapped_files_to_timestamps_and_index["Blueprint3"][1] blueprint1_file_index = mapped_files_to_timestamps_and_index["Blueprint1"][1]
# and the blueprint4 file too, since it contains the collection we changed other_files_modification_times = [value for index, value in enumerate(modification_times) if index not in [world_file_index, blueprint1_file_index]]
blueprint4_file_index = mapped_files_to_timestamps_and_index["Blueprint4_nested"][1] other_files_modification_times_first = [value for index, value in enumerate(modification_times_first) if index not in [world_file_index, blueprint1_file_index]]
other_files_modification_times = [value for index, value in enumerate(modification_times) if index not in [world_file_index, blueprint3_file_index, blueprint4_file_index]]
other_files_modification_times_first = [value for index, value in enumerate(modification_times_first) if index not in [world_file_index, blueprint3_file_index, blueprint4_file_index]]
assert modification_times[world_file_index] != modification_times_first[world_file_index] assert modification_times[world_file_index] != modification_times_first[world_file_index]
assert modification_times[blueprint3_file_index] != modification_times_first[blueprint3_file_index] assert modification_times[blueprint1_file_index] != modification_times_first[blueprint1_file_index]
assert modification_times[blueprint4_file_index] != modification_times_first[blueprint4_file_index]
assert other_files_modification_times == other_files_modification_times_first assert other_files_modification_times == other_files_modification_times_first
# reset the comparing # reset the comparing
modification_times_first = modification_times modification_times_first = modification_times
@ -364,10 +276,6 @@ def test_export_changed_parameters(setup_data):
bpy.ops.object.transform_apply() bpy.ops.object.transform_apply()
bpy.ops.transform.translate(value=(0.5, 0, 0), constraint_axis=(True, False, False)) bpy.ops.transform.translate(value=(0.5, 0, 0), constraint_axis=(True, False, False))
#force an update, as apparently all the operators above do not trigger changes ???
rna_prop_ui.rna_idprop_ui_create(bpy.data.objects["Cube"], "________temp", default=0)
rna_prop_ui.rna_idprop_ui_prop_clear(bpy.data.objects["Cube"], "________temp")
auto_export_operator( auto_export_operator(
auto_export=True, auto_export=True,

View File

@ -57,7 +57,7 @@ def test_export_no_parameters(setup_data):
auto_export_operator = bpy.ops.export_scenes.auto_gltf auto_export_operator = bpy.ops.export_scenes.auto_gltf
# first test exporting withouth any parameters set, this should not export anything # first test exporting withouth any parameters set, this should export with default parameters gracefully
auto_export_operator( auto_export_operator(
auto_export=True, auto_export=True,
@ -67,35 +67,7 @@ def test_export_no_parameters(setup_data):
export_materials_library=True export_materials_library=True
) )
world_file_path = os.path.join(models_path, "World.glb")
assert os.path.exists(world_file_path) != True
def test_export_auto_export_parameters_only(setup_data):
root_path = "../../testing/bevy_example"
assets_root_path = os.path.join(root_path, "assets")
models_path = os.path.join(assets_root_path, "models")
auto_export_operator = bpy.ops.export_scenes.auto_gltf
export_props = {
"main_scene_names" : ['World'],
"library_scene_names": ['Library'],
}
# store settings for the auto_export part
stored_auto_settings = bpy.data.texts[".gltf_auto_export_settings"] if ".gltf_auto_export_settings" in bpy.data.texts else bpy.data.texts.new(".gltf_auto_export_settings")
stored_auto_settings.clear()
stored_auto_settings.write(json.dumps(export_props))
auto_export_operator(
auto_export=True,
direct_mode=True,
export_output_folder="./models",
export_legacy_mode=False,
export_materials_library=True
)
world_file_path = os.path.join(models_path, "World.glb")
assert os.path.exists(world_file_path) == True
def test_export_changed_parameters(setup_data): def test_export_changed_parameters(setup_data):
root_path = "../../testing/bevy_example" root_path = "../../testing/bevy_example"

View File

@ -1,5 +1,19 @@
from typing import Set from typing import Set
import bpy import bpy
from bpy.types import Context, Event, Operator
from bpy_extras.io_utils import ExportHelper
from bpy.props import (BoolProperty,
IntProperty,
StringProperty,
EnumProperty,
CollectionProperty
)
from ..auto_export import auto_export
from ..auto_export.preferences import (AutoExportGltfAddonPreferences, AutoExportGltfPreferenceNames)
from ..helpers.helpers_scenes import (get_scenes)
from ..helpers.helpers_collections import (get_exportable_collections)
###################################################### ######################################################
## ui logic & co ## ui logic & co
@ -35,41 +49,15 @@ class GLTF_PT_auto_export_SidePanel(bpy.types.Panel):
op = layout.operator("EXPORT_SCENES_OT_auto_gltf", text="Auto Export Settings") op = layout.operator("EXPORT_SCENES_OT_auto_gltf", text="Auto Export Settings")
op.auto_export = True op.auto_export = True
class GLTF_PT_auto_export_changes_list(bpy.types.Panel): layout.label(text="changes since last save:")
bl_space_type = 'VIEW_3D' changed_objects_per_scene = {}
bl_region_type = 'UI' for scene in context.window_manager.auto_export_tracker.changed_objects_per_scene:
bl_label = "Changes per scene since last save " if not scene in changed_objects_per_scene.keys():
bl_parent_id = "GLTF_PT_auto_export_SidePanel" changed_objects_per_scene[scene] = []
bl_options = {'DEFAULT_CLOSED'} changed_objects_per_scene[scene]+= context.window_manager.auto_export_tracker.changed_objects_per_scene[scene].keys()
def draw(self, context): layout.label(text=str(changed_objects_per_scene))
layout = self.layout #print("GLTF_PT_export_main", GLTF_PT_export_main.bl_parent_id)
layout.use_property_split = True
layout.use_property_decorate = False # No animation.
#if "auto_export_tracker" in context.window_manager:
changed_objects_per_scene = context.window_manager.auto_export_tracker.changed_objects_per_scene
for scene_name in changed_objects_per_scene:
layout.label(text=f'{scene_name}')
for object_name in list(changed_objects_per_scene[scene_name].keys()):
row = layout.row()
row.label(text=f' {object_name}')
class GLTF_PT_auto_export_collections_list(bpy.types.Panel):
bl_space_type = 'VIEW_3D'
bl_region_type = 'UI'
bl_label = "Blueprints to export"
bl_parent_id = "GLTF_PT_auto_export_SidePanel"
bl_options = {'DEFAULT_CLOSED'}
def draw(self, context):
layout = self.layout
layout.use_property_split = True
layout.use_property_decorate = False # No animation.
for collection in bpy.context.window_manager.exportedCollections:
row = layout.row()
row.label(text=collection.name)
# main ui in the file => export # main ui in the file => export
class GLTF_PT_auto_export_main(bpy.types.Panel): class GLTF_PT_auto_export_main(bpy.types.Panel):
@ -273,6 +261,34 @@ class GLTF_PT_auto_export_blueprints(bpy.types.Panel):
layout.prop(operator, "export_materials_library") layout.prop(operator, "export_materials_library")
layout.prop(operator, "export_materials_path") layout.prop(operator, "export_materials_path")
class GLTF_PT_auto_export_collections_list(bpy.types.Panel):
bl_space_type = 'FILE_BROWSER'
bl_region_type = 'TOOL_PROPS'
bl_label = "Blueprints: Exported Collections"
bl_parent_id = "GLTF_PT_auto_export_blueprints"
bl_options = {'DEFAULT_CLOSED'}
@classmethod
def poll(cls, context):
sfile = context.space_data
operator = sfile.active_operator
return operator.bl_idname == "EXPORT_SCENES_OT_auto_gltf" #"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.active = operator.auto_export and operator.export_blueprints
for collection in bpy.context.window_manager.exportedCollections:
row = layout.row()
row.label(text=collection.name)
class SCENE_UL_GLTF_auto_export(bpy.types.UIList): class SCENE_UL_GLTF_auto_export(bpy.types.UIList):
# The draw_item function is called for each item of the collection that is visible in the list. # The draw_item function is called for each item of the collection that is visible in the list.
# data is the RNA object containing the collection, # data is the RNA object containing the collection,