def test_remove(self):
# test_diff.TestDiff.test_create
new_worlds = ["W0", "W1", "W2"]
new_worlds.sort()
for w in new_worlds:
D.worlds.new(w)
self.proxy.load(test_context)
removed = ["W0", "W1"]
removed.sort()
for w in removed:
D.worlds.remove(D.worlds[w])
diff = BpyBlendDiff()
diff.diff(self.proxy, test_context)
for name, delta in diff.collection_deltas:
self.assertEqual(0, len(delta.items_added),
f"added count mismatch for {name}")
self.assertEqual(0, len(delta.items_renamed),
f"renamed count mismatch for {name}")
if name == "worlds":
self.assertEqual(len(removed), len(delta.items_removed),
f"removed count mismatch for {name}")
items_removed = [
proxy.data("name") for proxy in delta.items_removed
]
items_removed.sort()
self.assertEqual(removed, items_removed,
f"removed count mismatch for {name}")
else:
self.assertEqual(0, len(delta.items_added),
f"added count mismatch for {name}")
def test_rename(self):
# test_diff.TestDiff.test_create
new_worlds = ["W0", "W1", "W2"]
new_worlds.sort()
for w in new_worlds:
D.worlds.new(w)
self.proxy.load(test_context)
renamed = [("W0", "W00"), ("W2", "W22")]
renamed.sort(key=sort_renamed_item)
for old_name, new_name in renamed:
D.worlds[old_name].name = new_name
diff = BpyBlendDiff()
diff.diff(self.proxy, test_context)
for name, delta in diff.collection_deltas:
self.assertEqual(0, len(delta.items_added),
f"added count mismatch for {name}")
self.assertEqual(0, len(delta.items_removed),
f"removed count mismatch for {name}")
if name == "worlds":
self.assertEqual(len(renamed), len(delta.items_renamed),
f"renamed count mismatch for {name}")
items_renamed = list(delta.items_renamed)
items_renamed.sort(key=sort_renamed_item)
items_renamed = [(proxy.data("name"), new_name)
for proxy, new_name in items_renamed]
self.assertEqual(renamed, items_renamed,
f"removed count mismatch for {name}")
else:
self.assertEqual(0, len(delta.items_added),
f"added count mismatch for {name}")
def test_create(self):
# test_diff.TestDiff.test_create
self.proxy.load(test_properties)
new_worlds = ["W0", "W1"]
new_worlds.sort()
for w in new_worlds:
D.worlds.new(w)
diff = BpyBlendDiff()
diff.diff(self.proxy, test_properties)
for collection_name, delta in diff.collection_deltas:
self.assertEqual(0, len(delta.items_removed),
f"removed count mismatch for {collection_name}")
self.assertEqual(0, len(delta.items_renamed),
f"renamed count mismatch for {collection_name}")
if collection_name == "worlds":
self.assertEqual(
len(new_worlds), len(delta.items_added),
f"added count mismatch for {collection_name}")
found = [datablock.name for datablock, _ in delta.items_added]
found.sort()
self.assertEqual(
new_worlds, found,
f"added count mismatch for {collection_name}")
else:
self.assertEqual(
0, len(delta.items_added),
f"added count mismatch for {collection_name}")
def load(self, synchronized_properties: SynchronizedProperties):
"""FOR TESTS ONLY Load the current scene into this proxy
Only used for test. The initial load is performed by update()
"""
diff = BpyBlendDiff()
diff.diff(self, synchronized_properties)
self.update(diff, set(), False, synchronized_properties)
return self
def send_scene_data_to_server(scene, dummy):
logger.debug(
"send_scene_data_to_server(): skip_next_depsgraph_update %s, pending_test_update %s",
share_data.client.skip_next_depsgraph_update,
share_data.pending_test_update,
)
depsgraph = bpy.context.evaluated_depsgraph_get()
if depsgraph.updates:
logger.debug(
f"DG updates for {depsgraph.scene} {depsgraph.view_layer}")
for update in depsgraph.updates:
logger.debug(" ......%r", update.id.original)
else:
# FIXME Possible missed update :
# If an updated datablock is not linked in the current scene/view_layer, the update triggers
# an empty DG update batch. This can happen when the update is from a script.
logger.info(
f"DG updates empty for {depsgraph.scene} {depsgraph.view_layer}")
# prevent processing self events, but always process test updates
if not share_data.pending_test_update and share_data.client.skip_next_depsgraph_update:
share_data.client.skip_next_depsgraph_update = False
logger.debug(
"send_scene_data_to_server canceled (skip_next_depsgraph_update = True) ..."
)
return
share_data.pending_test_update = False
bpy_data_proxy = share_data.bpy_data_proxy
depsgraph = bpy.context.evaluated_depsgraph_get()
updates, delayed_updates = updates_to_check(depsgraph)
# delayed update processing is delayed until the selected objects return to OBJECT mode
process_delayed_updates = not delayed_updates
if delayed_updates:
bpy_data_proxy.append_delayed_updates(delayed_updates)
# Compute the difference between the proxy state and the Blender state
# It is a coarse difference at the ID level(created, removed, renamed)
diff = BpyBlendDiff()
diff.diff(bpy_data_proxy, safe_properties)
# Ask the proxy to compute the list of elements to synchronize and update itself
changeset = bpy_data_proxy.update(diff, updates, process_delayed_updates,
safe_properties)
# Send creations before update so that collection updates for new object have a valid target
data_api.send_data_creations(changeset.creations)
data_api.send_data_removals(changeset.removals)
data_api.send_data_renames(changeset.renames)
data_api.send_data_updates(changeset.updates)
logger.debug("send_scene_data_to_server: end")
def test_create_delete_rename(self):
# test_diff.TestDiff.test_create
new_worlds = ["W0", "W1", "W2", "W4"]
new_worlds.sort()
for w in new_worlds:
D.worlds.new(w)
self.proxy.load(test_properties)
renamed = [("W0", "W00"), ("W2", "W22"), ("W4", "W44")]
renamed.sort(key=sort_renamed_item)
for old_name, new_name in renamed:
D.worlds[old_name].name = new_name
added = ["W0", "W5"]
added.sort()
for w in added:
D.worlds.new(w)
removed = ["W1", "W00"]
removed.sort()
for w in removed:
D.worlds.remove(D.worlds[w])
diff = BpyBlendDiff()
diff.diff(self.proxy, test_properties)
for name, delta in diff.collection_deltas:
if name == "worlds":
items_added = [
datablock.name for datablock, _ in delta.items_added
]
items_added.sort()
self.assertEqual(items_added, ["W0", "W5"],
f"added count mismatch for {name}")
items_renamed = delta.items_renamed
items_renamed.sort(key=sort_renamed_item)
items_renamed = [(proxy.data("name"), new_name)
for proxy, new_name in items_renamed]
self.assertEqual(items_renamed, [("W2", "W22"), ("W4", "W44")],
f"renamed count mismatch for {name}")
items_removed = [
proxy.data("name") for proxy in delta.items_removed
]
items_removed.sort()
self.assertEqual(items_removed, ["W0", "W1"],
f"removed count mismatch for {name}")
else:
self.assertEqual(0, len(delta.items_renamed),
f"renamed count mismatch for {name}")
self.assertEqual(0, len(delta.items_removed),
f"removed count mismatch for {name}")
self.assertEqual(0, len(delta.items_added),
f"added count mismatch for {name}")
def test_create(self):
# test_diff.TestDiff.test_create
self.proxy.load(test_context)
new_worlds = ["W0", "W1"]
new_worlds.sort()
for w in new_worlds:
D.worlds.new(w)
diff = BpyBlendDiff()
diff.diff(self.proxy, test_context)
for name, delta in diff.collection_deltas:
self.assertEqual(0, len(delta.items_removed),
f"removed count mismatch for {name}")
self.assertEqual(0, len(delta.items_renamed),
f"renamed count mismatch for {name}")
if name == "worlds":
self.assertEqual(len(new_worlds), len(delta.items_added),
f"added count mismatch for {name}")
found = list(delta.items_added.keys())
found.sort()
self.assertEqual(new_worlds, found,
f"added count mismatch for {name}")
else:
self.assertEqual(0, len(delta.items_added),
f"added count mismatch for {name}")
def setUp(self):
bpy.ops.wm.open_mainfile(filepath=test_blend_file)
self.bpy_data_proxy = BpyDataProxy()
self.diff = BpyBlendDiff()
bpy.data.worlds[0].name = "World"
register_bl_equals(self, safe_properties)
class TestWorld(unittest.TestCase):
def setUp(self):
bpy.ops.wm.open_mainfile(filepath=test_blend_file)
self.bpy_data_proxy = BpyDataProxy()
self.diff = BpyBlendDiff()
bpy.data.worlds[0].name = "World"
register_bl_equals(self, safe_properties)
def test_world(self):
# test_end_to_end.TestWorld.test_world
world = bpy.data.worlds[0]
world.use_nodes = True
self.assertGreaterEqual(len(world.node_tree.nodes), 2)
self.diff.diff(self.bpy_data_proxy, safe_properties)
sent_ids = {}
sent_ids.update({("worlds", world.name): world})
changeset = self.bpy_data_proxy.update(self.diff, {}, False,
safe_properties)
updates = changeset.creations
# avoid clash on restore
world.name = world.name + "_bak"
codec = Codec()
for update in updates:
key = (update.collection_name, update.data("name"))
sent_id = sent_ids.get(key)
if sent_id is None:
continue
# pretend it is a new one
update._datablock_uuid += "_new"
encoded = codec.encode(update)
# sender side
#######################
# receiver side
decoded = codec.decode(encoded)
created, _ = self.bpy_data_proxy.create_datablock(decoded)
self.assertEqual(created, sent_id)
def test_non_existing(self):
# test_end_to_end.TestWorld.test_non_existing
world = bpy.data.worlds[0]
self.diff.diff(self.bpy_data_proxy, safe_properties)
sent_ids = {}
sent_ids.update({("worlds", world.name): world})
changeset = self.bpy_data_proxy.update(self.diff, {}, False,
safe_properties)
creations = changeset.creations
# avoid clash on restore
world.name = world.name + "_bak"
codec = Codec()
for update in creations:
key = (update.collection_name, update.data("name"))
sent_id = sent_ids.get(key)
if sent_id is None:
continue
# pretend it is a new one
update._datablock_uuid += "_new"
# create a property on the send proxy and test that is does not fail on the receiver
# property on ID
update._data["does_not_exist_property"] = ""
update._data["does_not_exist_struct"] = StructProxy()
update._data["does_not_exist_ID"] = DatablockProxy()
encoded = codec.encode(update)
# sender side
#######################
# receiver side
decoded = codec.decode(encoded)
created, _ = self.bpy_data_proxy.create_datablock(decoded)
self.assertEqual(created, sent_id)
def generate_all_uuids(self):
# as a side effect, BpyBlendDiff generates the uuids
_ = BpyBlendDiff()
_.diff(self.proxy, test_properties)
def send_scene_data_to_server(scene, dummy):
logger.debug(
"send_scene_data_to_server(): skip_next_depsgraph_update %s, pending_test_update %s",
share_data.client.skip_next_depsgraph_update,
share_data.pending_test_update,
)
timer = share_data.current_stats_timer
if not share_data.client:
logger.info("send_scene_data_to_server canceled (no client instance)")
return
share_data.set_dirty()
with timer.child("clear_lists"):
share_data.clear_lists()
depsgraph = bpy.context.evaluated_depsgraph_get()
if depsgraph.updates:
logger.debug("Current dg updates ...")
for update in depsgraph.updates:
logger.debug(" ......%s", update.id.original)
# prevent processing self events, but always process test updates
if not share_data.pending_test_update and share_data.client.skip_next_depsgraph_update:
share_data.client.skip_next_depsgraph_update = False
logger.debug("send_scene_data_to_server canceled (skip_next_depsgraph_update = True) ...")
return
share_data.pending_test_update = False
if not is_in_object_mode():
logger.info("send_scene_data_to_server canceled (not is_in_object_mode)")
return
update_object_state(share_data.old_objects, share_data.blender_objects)
with timer.child("update_scenes_state"):
update_scenes_state()
with timer.child("update_collections_state"):
update_collections_state()
changed = False
with timer.child("checkForChangeAndSendUpdates"):
changed |= remove_objects_from_collections()
changed |= remove_objects_from_scenes()
changed |= remove_collections_from_collections()
changed |= remove_collections_from_scenes()
changed |= remove_collections()
changed |= remove_scenes()
changed |= add_scenes()
changed |= add_collections()
changed |= add_objects()
# Updates from the VRtist protocol and from the full Blender protocol must be cafully intermixed
# This is an unfortunate requirements from the current coexistence status of
# both protocols
# After creation of meshes : meshes are not yet supported by full Blender protocol,
# but needed to properly create objects
# Before creation of objects : the VRtint protocol will implicitely create objects with
# unappropriate default values (e.g. transform creates an object with no data)
if share_data.use_experimental_sync():
# Compute the difference between the proxy state and the Blender state
# It is a coarse difference at the ID level(created, removed, renamed)
diff = BpyBlendDiff()
diff.diff(share_data.proxy, safe_context)
# Ask the proxy to compute the list of elements to synchronize and update itself
depsgraph = bpy.context.evaluated_depsgraph_get()
updates, removals = share_data.proxy.update(diff, safe_context, depsgraph.updates)
# Send the data update messages (includes serialization)
data_api.send_data_removals(removals)
data_api.send_data_updates(updates)
share_data.proxy.debug_check_id_proxies()
# send the VRtist transforms after full Blender protocol has the opportunity to create the object data
# that is not handled by VRtist protocol, otherwise the receiver creates an empty when it receives a transform
changed |= update_transforms()
changed |= add_collections_to_scenes()
changed |= add_collections_to_collections()
changed |= add_objects_to_collections()
changed |= add_objects_to_scenes()
changed |= update_collections_parameters()
changed |= create_vrtist_objects()
changed |= delete_scene_objects()
changed |= rename_objects()
changed |= update_objects_visibility()
changed |= update_objects_transforms()
changed |= reparent_objects()
changed |= shot_manager.check_montage_mode()
if not changed:
with timer.child("update_objects_data"):
update_objects_data()
# update for next change
with timer.child("update_current_data"):
share_data.update_current_data()
logger.debug("send_scene_data_to_server: end")
def send_scene_data_to_server(scene, dummy):
logger.debug(
"send_scene_data_to_server(): skip_next_depsgraph_update %s, pending_test_update %s",
share_data.client.skip_next_depsgraph_update,
share_data.pending_test_update,
)
depsgraph = bpy.context.evaluated_depsgraph_get()
if depsgraph.updates:
logger.debug("Current dg updates ...")
for update in depsgraph.updates:
logger.debug(" ......%s", update.id.original)
# prevent processing self events, but always process test updates
if not share_data.pending_test_update and share_data.client.skip_next_depsgraph_update:
share_data.client.skip_next_depsgraph_update = False
logger.debug(
"send_scene_data_to_server canceled (skip_next_depsgraph_update = True) ..."
)
return
share_data.pending_test_update = False
bpy_data_proxy = share_data.bpy_data_proxy
depsgraph = bpy.context.evaluated_depsgraph_get()
# Delay the update of Object data to avoid Mesh updates in edit mode, but keep other updates.
# Mesh separate delivers Collection as well as created Object and Mesh updates while the edited
# object is in edit mode, and these updates are not delivered when leaving edit mode, so
# make sure to process them anyway. It is also possible to edit multiple objects at once
selected_objects = getattr(bpy.context, "selected_objects", {})
updates = {update.id.original for update in depsgraph.updates}
delayed_updates = set()
for datablock in updates:
if datablock in selected_objects and datablock.mode != "OBJECT" and datablock.data is not None:
delayed_updates.add(datablock)
delayed_updates.add(datablock.data)
updates -= delayed_updates
# delayed update processing is delayed until the selected objects return to OBJECT mode
process_delayed_updates = not delayed_updates
if delayed_updates:
bpy_data_proxy.append_delayed_updates(delayed_updates)
logger.info("send_scene_data_to_server. Delaying updates ")
for update in delayed_updates:
logger.info("... %s", update)
# Compute the difference between the proxy state and the Blender state
# It is a coarse difference at the ID level(created, removed, renamed)
diff = BpyBlendDiff()
diff.diff(bpy_data_proxy, safe_properties)
# Ask the proxy to compute the list of elements to synchronize and update itself
changeset = bpy_data_proxy.update(diff, updates, process_delayed_updates,
safe_properties)
# Send creations before update so that collection updates for new object have a valid target
data_api.send_data_creations(changeset.creations)
data_api.send_data_removals(changeset.removals)
data_api.send_data_renames(changeset.renames)
data_api.send_data_updates(changeset.updates)
logger.debug("send_scene_data_to_server: end")
def send_scene_data_to_server(scene, dummy):
logger.debug(
"send_scene_data_to_server(): skip_next_depsgraph_update %s, pending_test_update %s",
share_data.client.skip_next_depsgraph_update,
share_data.pending_test_update,
)
depsgraph = bpy.context.evaluated_depsgraph_get()
if depsgraph.updates:
logger.debug("DG updates for {depsgraph.scene} {depsgraph.view_layer}")
for update in depsgraph.updates:
logger.debug(" ......%s", update.id.original)
else:
# FIXME Possible missed update :
# If an updated datablock is not linked in the current scene/view_layer, the update triggers
# an empty DG update batch. This can happen when the update is from a script.
logger.info(
f"DG updates empty for {depsgraph.scene} {depsgraph.view_layer}")
# prevent processing self events, but always process test updates
if not share_data.pending_test_update and share_data.client.skip_next_depsgraph_update:
share_data.client.skip_next_depsgraph_update = False
logger.debug(
"send_scene_data_to_server canceled (skip_next_depsgraph_update = True) ..."
)
return
share_data.pending_test_update = False
bpy_data_proxy = share_data.bpy_data_proxy
depsgraph = bpy.context.evaluated_depsgraph_get()
updates = {update.id.original for update in depsgraph.updates}
# in some cases (TestShapeKey.test_rename_key), the Key update is missing. Always check for shape_keys
shape_key_updates = {
datablock.shape_keys
for datablock in updates if hasattr(datablock, "shape_keys")
and isinstance(datablock.shape_keys, T.Key)
}
updates.update(shape_key_updates)
# Delay the update of Object data to avoid Mesh updates in edit or paint mode, but keep other updates.
# Mesh separate delivers Collection as well as created Object and Mesh updates while the edited
# object is in edit mode, and these updates are not delivered when leaving edit mode, so
# make sure to process them anyway. It is also possible to edit multiple objects at once
# When no Object is selected and a Mesh is selected the Object with the selected Mesh is the
# active_object, but not in selected_objects
current_objects = set(getattr(bpy.context, "selected_objects", []))
active_object = getattr(bpy.context, "active_object", None)
if active_object:
current_objects.add(active_object)
delayed_updates = set()
for datablock in updates:
if datablock in current_objects and datablock.mode != "OBJECT" and datablock.data is not None:
delayed_updates.add(datablock)
delayed_updates.add(datablock.data)
updates -= delayed_updates
# delayed update processing is delayed until the selected objects return to OBJECT mode
process_delayed_updates = not delayed_updates
if delayed_updates:
bpy_data_proxy.append_delayed_updates(delayed_updates)
logger.info("send_scene_data_to_server. Delaying updates ")
for update in delayed_updates:
logger.info("... %s", update)
# Compute the difference between the proxy state and the Blender state
# It is a coarse difference at the ID level(created, removed, renamed)
diff = BpyBlendDiff()
diff.diff(bpy_data_proxy, safe_properties)
# Ask the proxy to compute the list of elements to synchronize and update itself
changeset = bpy_data_proxy.update(diff, updates, process_delayed_updates,
safe_properties)
# Send creations before update so that collection updates for new object have a valid target
data_api.send_data_creations(changeset.creations)
data_api.send_data_removals(changeset.removals)
data_api.send_data_renames(changeset.renames)
data_api.send_data_updates(changeset.updates)
logger.debug("send_scene_data_to_server: end")
def setUp(self):
self.bpy_data_proxy = BpyBlendProxy()
self.diff = BpyBlendDiff()
bpy.data.worlds[0].name = "World"
register_bl_equals(self, safe_context)
class TestWorld(unittest.TestCase):
def setUp(self):
self.bpy_data_proxy = BpyBlendProxy()
self.diff = BpyBlendDiff()
bpy.data.worlds[0].name = "World"
register_bl_equals(self, safe_context)
def test_world(self):
world = bpy.data.worlds[0]
world.use_nodes = True
self.assertGreaterEqual(len(world.node_tree.nodes), 2)
self.diff.diff(self.bpy_data_proxy, safe_context)
sent_ids = {}
sent_ids.update({("worlds", world.name): world})
changeset = self.bpy_data_proxy.update(self.diff, safe_context)
updates = changeset.creations
# avoid clash on restore
world.name = world.name + "_bak"
codec = Codec()
for update in updates:
key = (update.collection_name, update.data("name"))
sent_id = sent_ids.get(key)
if sent_id is None:
continue
encoded = codec.encode(update)
# sender side
#######################
# receiver side
decoded = codec.decode(encoded)
created = self.bpy_data_proxy.update_datablock(decoded)
self.assertEqual(created, sent_id)
def test_non_existing(self):
world = bpy.data.worlds[0]
self.diff.diff(self.bpy_data_proxy, safe_context)
sent_ids = {}
sent_ids.update({("worlds", world.name): world})
changeset = self.bpy_data_proxy.update(self.diff, safe_context)
creations = changeset.creations
# avoid clash on restore
world.name = world.name + "_bak"
codec = Codec()
for update in creations:
key = (update.collection_name, update.data("name"))
sent_id = sent_ids.get(key)
if sent_id is None:
continue
# create a property on the send proxy and test that is does not fail on the receiver
# property on ID
update._data["does_not_exist_property"] = ""
update._data["does_not_exist_struct"] = BpyStructProxy()
update._data["does_not_exist_ID"] = BpyIDProxy()
encoded = codec.encode(update)
# sender side
#######################
# receiver side
decoded = codec.decode(encoded)
created = self.bpy_data_proxy.update_datablock(decoded)
self.assertEqual(created, sent_id)