def generate_altered_unique_together(self):
for app_label, model_name in sorted(self.kept_model_keys):
old_model_name = self.renamed_models.get((app_label, model_name),
model_name)
old_model_state = self.from_state.models[app_label, old_model_name]
new_model_state = self.to_state.models[app_label, model_name]
if old_model_state.options.get(
"unique_together", None) != new_model_state.options.get(
"unique_together", None):
self.add_operation(
app_label,
operations.AlterUniqueTogether(
name=model_name,
unique_together=new_model_state.
options['unique_together'],
))
def generate_deleted_models(self):
"""
Find all deleted models and make creation operations for them,
and separate operations to delete any foreign key or M2M relationships
(we'll optimise these back in later if we can)
We also bring forward removal of any model options that refer to
collections of fields - the inverse of generate_created_models.
"""
deleted_models = set(self.old_model_keys) - set(self.new_model_keys)
for app_label, model_name in sorted(deleted_models):
model_state = self.from_state.models[app_label, model_name]
model = self.old_apps.get_model(app_label, model_name)
# Gather related fields
related_fields = {}
for field in model._meta.local_fields:
if field.rel:
if field.rel.to:
related_fields[field.name] = field
if hasattr(field.rel, "through"
) and not field.rel.through._meta.auto_created:
related_fields[field.name] = field
for field in model._meta.local_many_to_many:
if field.rel.to:
related_fields[field.name] = field
if hasattr(field.rel, "through"
) and not field.rel.through._meta.auto_created:
related_fields[field.name] = field
# Generate option removal first
unique_together = model_state.options.pop('unique_together', None)
index_together = model_state.options.pop('index_together', None)
if unique_together:
self.add_operation(
app_label,
operations.AlterUniqueTogether(
name=model_name,
unique_together=None,
))
if index_together:
self.add_operation(
app_label,
operations.AlterIndexTogether(
name=model_name,
index_together=None,
))
# Then remove each related field
for name, field in sorted(related_fields.items()):
self.add_operation(
app_label,
operations.RemoveField(
model_name=model_name,
name=name,
))
# Finally, remove the model.
# This depends on both the removal of all incoming fields
# and the removal of all its own related fields, and if it's
# a through model the field that references it.
dependencies = []
for related_object in model._meta.get_all_related_objects():
dependencies.append((
related_object.model._meta.app_label,
related_object.model._meta.object_name,
related_object.field.name,
False,
))
for related_object in model._meta.get_all_related_many_to_many_objects(
):
dependencies.append((
related_object.model._meta.app_label,
related_object.model._meta.object_name,
related_object.field.name,
False,
))
for name, field in sorted(related_fields.items()):
dependencies.append((app_label, model_name, name, False))
# We're referenced in another field's through=
through_user = self.through_users.get(
(app_label, model_state.name.lower()), None)
if through_user:
dependencies.append(
(through_user[0], through_user[1], through_user[2], False))
# Finally, make the operation, deduping any dependencies
self.add_operation(
app_label,
operations.DeleteModel(name=model_state.name, ),
dependencies=list(set(dependencies)),
)
def generate_created_models(self):
"""
Find all new models and make creation operations for them,
and separate operations to create any foreign key or M2M relationships
(we'll optimise these back in later if we can)
We also defer any model options that refer to collections of fields
that might be deferred (e.g. unique_together, index_together)
"""
added_models = set(self.new_model_keys) - set(self.old_model_keys)
for app_label, model_name in sorted(added_models):
model_state = self.to_state.models[app_label, model_name]
# Gather related fields
related_fields = {}
for field in self.new_apps.get_model(
app_label, model_name)._meta.local_fields:
if field.rel:
if field.rel.to:
related_fields[field.name] = field
if hasattr(field.rel, "through"
) and not field.rel.through._meta.auto_created:
related_fields[field.name] = field
for field in self.new_apps.get_model(
app_label, model_name)._meta.local_many_to_many:
if field.rel.to:
related_fields[field.name] = field
if hasattr(field.rel, "through"
) and not field.rel.through._meta.auto_created:
related_fields[field.name] = field
# Are there unique/index_together to defer?
unique_together = model_state.options.pop('unique_together', None)
index_together = model_state.options.pop('index_together', None)
# Generate creation operatoin
self.add_operation(
app_label,
operations.CreateModel(
name=model_state.name,
fields=[
d for d in model_state.fields
if d[0] not in related_fields
],
options=model_state.options,
bases=model_state.bases,
))
# Generate operations for each related field
for name, field in sorted(related_fields.items()):
# Account for FKs to swappable models
swappable_setting = getattr(field, 'swappable_setting', None)
if swappable_setting is not None:
dep_app_label = "__setting__"
dep_object_name = swappable_setting
else:
dep_app_label = field.rel.to._meta.app_label
dep_object_name = field.rel.to._meta.object_name
dependencies = [(dep_app_label, dep_object_name, None, True)]
if getattr(field.rel, "through",
None) and not field.rel.through._meta.auto_created:
dependencies.append(
(field.rel.through._meta.app_label,
field.rel.through._meta.object_name, None, True))
# Make operation
self.add_operation(
app_label,
operations.AddField(
model_name=model_name,
name=name,
field=field,
),
dependencies=list(set(dependencies)),
)
# Generate other opns
if unique_together:
self.add_operation(
app_label,
operations.AlterUniqueTogether(
name=model_name,
unique_together=unique_together,
),
dependencies=[
(app_label, model_name, name, True)
for name, field in sorted(related_fields.items())
])
if index_together:
self.add_operation(
app_label,
operations.AlterIndexTogether(
name=model_name,
index_together=index_together,
),
dependencies=[
(app_label, model_name, name, True)
for name, field in sorted(related_fields.items())
])
def _detect_changes(self):
"""
Returns a dict of migration plans which will achieve the
change from from_state to to_state. The dict has app labels
as keys and a list of migrations as values.
The resulting migrations aren't specially named, but the names
do matter for dependencies inside the set.
"""
# We'll store migrations as lists by app names for now
self.migrations = {}
old_app_cache = self.from_state.render()
new_app_cache = self.to_state.render()
# Prepare lists of old/new model keys that we care about
# (i.e. ignoring proxy ones)
old_model_keys = [
(al, mn)
for al, mn in self.from_state.models.keys()
if not old_app_cache.get_model(al, mn)._meta.proxy
]
new_model_keys = [
(al, mn)
for al, mn in self.to_state.models.keys()
if not new_app_cache.get_model(al, mn)._meta.proxy
]
# Adding models. Phase 1 is adding models with no outward relationships.
added_models = set(new_model_keys) - set(old_model_keys)
pending_add = {}
for app_label, model_name in added_models:
model_state = self.to_state.models[app_label, model_name]
# Are there any relationships out from this model? if so, punt it to the next phase.
related_fields = []
for field in new_app_cache.get_model(app_label, model_name)._meta.local_fields:
if field.rel:
if field.rel.to:
related_fields.append((field.name, field.rel.to._meta.app_label.lower(), field.rel.to._meta.object_name.lower()))
if hasattr(field.rel, "through") and not field.rel.though._meta.auto_created:
related_fields.append((field.name, field.rel.through._meta.app_label.lower(), field.rel.through._meta.object_name.lower()))
if related_fields:
pending_add[app_label, model_name] = related_fields
else:
self.add_to_migration(
app_label,
operations.CreateModel(
name=model_state.name,
fields=model_state.fields,
options=model_state.options,
bases=model_state.bases,
)
)
# Phase 2 is progressively adding pending models, splitting up into two
# migrations if required.
pending_new_fks = []
while pending_add:
# Is there one we can add that has all dependencies satisfied?
satisfied = [(m, rf) for m, rf in pending_add.items() if all((al, mn) not in pending_add for f, al, mn in rf)]
if satisfied:
(app_label, model_name), related_fields = sorted(satisfied)[0]
model_state = self.to_state.models[app_label, model_name]
self.add_to_migration(
app_label,
operations.CreateModel(
name=model_state.name,
fields=model_state.fields,
options=model_state.options,
bases=model_state.bases,
)
)
for field_name, other_app_label, other_model_name in related_fields:
if app_label != other_app_label:
self.add_dependency(app_label, other_app_label)
del pending_add[app_label, model_name]
# Ah well, we'll need to split one. Pick deterministically.
else:
(app_label, model_name), related_fields = sorted(pending_add.items())[0]
model_state = self.to_state.models[app_label, model_name]
# Work out the fields that need splitting out
bad_fields = dict((f, (al, mn)) for f, al, mn in related_fields if (al, mn) in pending_add)
# Create the model, without those
self.add_to_migration(
app_label,
operations.CreateModel(
name=model_state.name,
fields=[(n, f) for n, f in model_state.fields if n not in bad_fields],
options=model_state.options,
bases=model_state.bases,
)
)
# Add the bad fields to be made in a phase 3
for field_name, (other_app_label, other_model_name) in bad_fields.items():
pending_new_fks.append((app_label, model_name, field_name, other_app_label))
del pending_add[app_label, model_name]
# Phase 3 is adding the final set of FKs as separate new migrations
for app_label, model_name, field_name, other_app_label in pending_new_fks:
model_state = self.to_state.models[app_label, model_name]
self.add_to_migration(
app_label,
operations.AddField(
model_name=model_name,
name=field_name,
field=model_state.get_field_by_name(field_name),
),
new=True,
)
if app_label != other_app_label:
self.add_dependency(app_label, other_app_label)
# Removing models
removed_models = set(old_model_keys) - set(new_model_keys)
for app_label, model_name in removed_models:
model_state = self.from_state.models[app_label, model_name]
self.add_to_migration(
app_label,
operations.DeleteModel(
model_state.name,
)
)
# Changes within models
kept_models = set(old_model_keys).intersection(new_model_keys)
old_fields = set()
new_fields = set()
for app_label, model_name in kept_models:
old_model_state = self.from_state.models[app_label, model_name]
new_model_state = self.to_state.models[app_label, model_name]
# Collect field changes for later global dealing with (so AddFields
# always come before AlterFields even on separate models)
old_fields.update((app_label, model_name, x) for x, y in old_model_state.fields)
new_fields.update((app_label, model_name, x) for x, y in new_model_state.fields)
# Unique_together changes
if old_model_state.options.get("unique_together", set()) != new_model_state.options.get("unique_together", set()):
self.add_to_migration(
app_label,
operations.AlterUniqueTogether(
name=model_name,
unique_together=new_model_state.options.get("unique_together", set()),
)
)
# New fields
for app_label, model_name, field_name in new_fields - old_fields:
old_model_state = self.from_state.models[app_label, model_name]
new_model_state = self.to_state.models[app_label, model_name]
field = new_model_state.get_field_by_name(field_name)
# Scan to see if this is actually a rename!
field_dec = field.deconstruct()[1:]
found_rename = False
for rem_app_label, rem_model_name, rem_field_name in (old_fields - new_fields):
if rem_app_label == app_label and rem_model_name == model_name:
if old_model_state.get_field_by_name(rem_field_name).deconstruct()[1:] == field_dec:
if self.questioner.ask_rename(model_name, rem_field_name, field_name, field):
self.add_to_migration(
app_label,
operations.RenameField(
model_name=model_name,
old_name=rem_field_name,
new_name=field_name,
)
)
old_fields.remove((rem_app_label, rem_model_name, rem_field_name))
new_fields.remove((app_label, model_name, field_name))
found_rename = True
break
if found_rename:
continue
# You can't just add NOT NULL fields with no default
if not field.null and not field.has_default():
field = field.clone()
field.default = self.questioner.ask_not_null_addition(field_name, model_name)
self.add_to_migration(
app_label,
operations.AddField(
model_name=model_name,
name=field_name,
field=field,
preserve_default=False,
)
)
else:
self.add_to_migration(
app_label,
operations.AddField(
model_name=model_name,
name=field_name,
field=field,
)
)
# Old fields
for app_label, model_name, field_name in old_fields - new_fields:
old_model_state = self.from_state.models[app_label, model_name]
new_model_state = self.to_state.models[app_label, model_name]
self.add_to_migration(
app_label,
operations.RemoveField(
model_name=model_name,
name=field_name,
)
)
# The same fields
for app_label, model_name, field_name in old_fields.intersection(new_fields):
# Did the field change?
old_model_state = self.from_state.models[app_label, model_name]
new_model_state = self.to_state.models[app_label, model_name]
old_field_dec = old_model_state.get_field_by_name(field_name).deconstruct()
new_field_dec = new_model_state.get_field_by_name(field_name).deconstruct()
if old_field_dec != new_field_dec:
self.add_to_migration(
app_label,
operations.AlterField(
model_name=model_name,
name=field_name,
field=new_model_state.get_field_by_name(field_name),
)
)
# Alright, now add internal dependencies
for app_label, migrations in self.migrations.items():
for m1, m2 in zip(migrations, migrations[1:]):
m2.dependencies.append((app_label, m1.name))
# Clean up dependencies
for app_label, migrations in self.migrations.items():
for migration in migrations:
migration.dependencies = list(set(migration.dependencies))
return self.migrations
def generate_created_models(self):
"""
Find all new models (both managed and unmanaged) and make create
operations for them as well as separate operations to create any
foreign key or M2M relationships (we'll optimize these back in later
if we can).
We also defer any model options that refer to collections of fields
that might be deferred (e.g. unique_together, index_together).
"""
old_keys = set(self.old_model_keys).union(self.old_unmanaged_keys)
added_models = set(self.new_model_keys) - old_keys
added_unmanaged_models = set(self.new_unmanaged_keys) - old_keys
all_added_models = chain(
sorted(added_models, key=self.swappable_first_key, reverse=True),
sorted(added_unmanaged_models,
key=self.swappable_first_key,
reverse=True))
for app_label, model_name in all_added_models:
model_state = self.to_state.models[app_label, model_name]
model_opts = self.new_apps.get_model(app_label, model_name)._meta
# CHANGED
# < # Gather related fields
# < related_fields = {}
# < primary_key_rel = None
# < for field in model_opts.local_fields:
# < if field.remote_field:
# < if field.remote_field.model:
# < if field.primary_key:
# < primary_key_rel = field.remote_field.model
# < elif not field.remote_field.parent_link:
# < related_fields[field.name] = field
# < # through will be none on M2Ms on swapped-out models;
# < # we can treat lack of through as auto_created=True, though.
# < if (getattr(field.remote_field, "through", None) and
# < not field.remote_field.through._meta.auto_created):
# < related_fields[field.name] = field
# < for field in model_opts.local_many_to_many:
# < if field.remote_field.model:
# < related_fields[field.name] = field
# < if getattr(field.remote_field, "through", None) and not field.remote_field.through._meta.auto_created:
# < related_fields[field.name] = field
# Generate dict of fields with dependencies (excluding primary key)
dependent_fields = {
field.name: field
for field in chain(model_opts.local_fields,
model_opts.local_many_to_many)
if field.has_dependencies and not field.primary_key
}
# XXX
# Are there indexes/unique|index_together to defer?
indexes = model_state.options.pop('indexes')
unique_together = model_state.options.pop('unique_together', None)
index_together = model_state.options.pop('index_together', None)
order_with_respect_to = model_state.options.pop(
'order_with_respect_to', None)
# Depend on the deletion of any possible proxy version of us
dependencies = [
# CHANGED
# < (app_label, model_name, None, False),
dependency_tuple(app_label=app_label,
object_name=model_name,
field=None,
created=False),
# XXX
]
# Depend on all bases
for base in model_state.bases:
if isinstance(base, str) and "." in base:
base_app_label, base_name = base.split(".", 1)
# CHANGED
# < dependencies.append((base_app_label, base_name, None, True))
dependencies.append(
dependency_tuple(base_app_label, base_name, None,
True))
# XXX
# Depend on the other end of the primary key if it's a relation
# CHANGED
# < if primary_key_rel:
# < dependencies.append((
# < primary_key_rel._meta.app_label,
# < primary_key_rel._meta.object_name,
# < None,
# < True
# < ))
if model_opts.pk.remote_field:
dependencies.append(
dependency_tuple(app_label=model_opts.pk.remote_field.
model._meta.app_label,
object_name=model_opts.pk.remote_field.
model._meta.object_name,
field=None,
created=True))
# XXX
# Generate creation operation
self.add_operation(
app_label,
operations.CreateModel(
name=model_state.name,
# CHANGED
# < fields=[d for d in model_state.fields if d[0] not in related_fields],
fields=[
d for d in model_state.fields
if d[0] not in dependent_fields
],
# XXX
options=model_state.options,
bases=model_state.bases,
managers=model_state.managers,
),
dependencies=dependencies,
beginning=True,
)
# Don't add operations which modify the database for unmanaged models
if not model_opts.managed:
continue
# CHANGED
# Dependency for this model
model_dependency = dependency_tuple(app_label=app_label,
object_name=model_name,
field=None,
created=True)
# < # Generate operations for each related field
# < for name, field in sorted(related_fields.items()):
# < dependencies = self._get_dependencies_for_foreign_key(field)
# < # Depend on our own model being created
# < dependencies.append((app_label, model_name, None, True))
# < # Make operation
# < self.add_operation(
# < app_label,
# < operations.AddField(
# < model_name=model_name,
# < name=name,
# < field=field,
# < ),
# < dependencies=list(set(dependencies)),
# < )
# Generate operations for each dependent field
for name, field in sorted(dependent_fields.items()):
# Make operation
self.add_operation(app_label,
operations.AddField(model_name=model_name,
name=name,
field=field),
dependencies=list(
set(field.dependencies +
[model_dependency])))
# < # Generate other opns
# < related_dependencies = [
# < (app_label, model_name, name, True)
# < for name, field in sorted(related_fields.items())
# < ]
# Generate a dependency for each field with dependencies (as any may be deferred)
field_dependencies = [
dependency_tuple(app_label=app_label,
object_name=model_name,
field=name,
created=True)
for name, field in sorted(dependent_fields.items())
]
# < related_dependencies.append((app_label, model_name, None, True))
field_dependencies.append(model_dependency)
# XXX
for index in indexes:
self.add_operation(
app_label,
operations.AddIndex(
model_name=model_name,
index=index,
),
# CHANGED
# < dependencies=related_dependencies
dependencies=field_dependencies,
# XXX
)
if unique_together:
self.add_operation(
app_label,
operations.AlterUniqueTogether(
name=model_name,
unique_together=unique_together,
),
# CHANGED
# < dependencies=related_dependencies
dependencies=field_dependencies,
# XXX
)
if index_together:
self.add_operation(
app_label,
operations.AlterIndexTogether(
name=model_name,
index_together=index_together,
),
# CHANGED
# < dependencies=related_dependencies
dependencies=field_dependencies,
# XXX
)
if order_with_respect_to:
self.add_operation(
app_label,
operations.AlterOrderWithRespectTo(
name=model_name,
order_with_respect_to=order_with_respect_to,
),
dependencies=[
# CHANGED
# < (app_label, model_name, order_with_respect_to, True),
# < (app_label, model_name, None, True),
dependency_tuple(app_label, model_name,
order_with_respect_to, True),
model_dependency,
# XXX
])
# Fix relationships if the model changed from a proxy model to a
# concrete model.
if (app_label, model_name) in self.old_proxy_keys:
for related_object in model_opts.related_objects:
self.add_operation(
related_object.related_model._meta.app_label,
operations.AlterField(
model_name=related_object.related_model._meta.
object_name,
name=related_object.field.name,
field=related_object.field,
),
# CHANGED
# < dependencies=[(app_label, model_name, None, True)],
dependencies=[model_dependency],
# XXX
)
def _detect_changes(self):
"""
Returns a dict of migration plans which will achieve the
change from from_state to to_state. The dict has app labels
as keys and a list of migrations as values.
The resulting migrations aren't specially named, but the names
do matter for dependencies inside the set.
"""
# We'll store migrations as lists by app names for now
self.migrations = {}
old_apps = self.from_state.render()
new_apps = self.to_state.render()
# Prepare lists of old/new model keys that we care about
# (i.e. ignoring proxy ones)
old_model_keys = [(al, mn) for al, mn in self.from_state.models.keys()
if not old_apps.get_model(al, mn)._meta.proxy]
new_model_keys = [(al, mn) for al, mn in self.to_state.models.keys()
if not new_apps.get_model(al, mn)._meta.proxy]
def _rel_agnostic_fields_def(fields):
"""
Return a definition of the fields that ignores field names and
what related fields actually relate to.
"""
fields_def = []
for name, field in fields:
deconstruction = field.deconstruct()[1:]
if field.rel and field.rel.to:
del deconstruction[2]['to']
fields_def.append(deconstruction)
return fields_def
# Find any renamed models.
renamed_models = {}
renamed_models_rel = {}
added_models = set(new_model_keys) - set(old_model_keys)
for app_label, model_name in added_models:
model_state = self.to_state.models[app_label, model_name]
model_fields_def = _rel_agnostic_fields_def(model_state.fields)
removed_models = set(old_model_keys) - set(new_model_keys)
for rem_app_label, rem_model_name in removed_models:
if rem_app_label == app_label:
rem_model_state = self.from_state.models[rem_app_label,
rem_model_name]
rem_model_fields_def = _rel_agnostic_fields_def(
rem_model_state.fields)
if model_fields_def == rem_model_fields_def:
if self.questioner.ask_rename_model(
rem_model_state, model_state):
self.add_to_migration(
app_label,
operations.RenameModel(
old_name=rem_model_state.name,
new_name=model_state.name,
))
renamed_models[app_label,
model_name] = rem_model_name
renamed_models_rel[
'%s.%s' %
(rem_model_state.app_label,
rem_model_state.name)] = '%s.%s' % (
model_state.app_label, model_state.name)
old_model_keys.remove(
(rem_app_label, rem_model_name))
old_model_keys.append((app_label, model_name))
break
# Adding models. Phase 1 is adding models with no outward relationships.
added_models = set(new_model_keys) - set(old_model_keys)
pending_add = {}
for app_label, model_name in added_models:
model_state = self.to_state.models[app_label, model_name]
# Are there any relationships out from this model? if so, punt it to the next phase.
related_fields = []
for field in new_apps.get_model(app_label,
model_name)._meta.local_fields:
if field.rel:
if field.rel.to:
related_fields.append(
(field.name, field.rel.to._meta.app_label,
field.rel.to._meta.model_name))
if hasattr(field.rel, "through"
) and not field.rel.through._meta.auto_created:
related_fields.append(
(field.name, field.rel.through._meta.app_label,
field.rel.through._meta.model_name))
for field in new_apps.get_model(
app_label, model_name)._meta.local_many_to_many:
if field.rel.to:
related_fields.append(
(field.name, field.rel.to._meta.app_label,
field.rel.to._meta.model_name))
if hasattr(field.rel, "through"
) and not field.rel.through._meta.auto_created:
related_fields.append(
(field.name, field.rel.through._meta.app_label,
field.rel.through._meta.model_name))
if related_fields:
pending_add[app_label, model_name] = related_fields
else:
self.add_to_migration(
app_label,
operations.CreateModel(
name=model_state.name,
fields=model_state.fields,
options=model_state.options,
bases=model_state.bases,
))
# Phase 2 is progressively adding pending models, splitting up into two
# migrations if required.
pending_new_fks = []
pending_unique_together = []
added_phase_2 = set()
while pending_add:
# Is there one we can add that has all dependencies satisfied?
satisfied = [(m, rf) for m, rf in pending_add.items() if all(
(al, mn) not in pending_add for f, al, mn in rf)]
if satisfied:
(app_label, model_name), related_fields = sorted(satisfied)[0]
model_state = self.to_state.models[app_label, model_name]
self.add_to_migration(
app_label,
operations.CreateModel(
name=model_state.name,
fields=model_state.fields,
options=model_state.options,
bases=model_state.bases,
),
# If it's already been added in phase 2 put it in a new
# migration for safety.
new=any((al, mn) in added_phase_2
for f, al, mn in related_fields),
)
for field_name, other_app_label, other_model_name in related_fields:
# If it depends on a swappable something, add a dynamic depend'cy
swappable_setting = new_apps.get_model(
app_label, model_name)._meta.get_field_by_name(
field_name)[0].swappable_setting
if swappable_setting is not None:
self.add_swappable_dependency(app_label,
swappable_setting)
elif app_label != other_app_label:
self.add_dependency(app_label, other_app_label)
del pending_add[app_label, model_name]
added_phase_2.add((app_label, model_name))
# Ah well, we'll need to split one. Pick deterministically.
else:
(app_label,
model_name), related_fields = sorted(pending_add.items())[0]
model_state = self.to_state.models[app_label, model_name]
# Defer unique together constraints creation, see ticket #22275
unique_together_constraints = model_state.options.pop(
'unique_together', None)
if unique_together_constraints:
pending_unique_together.append(
(app_label, model_name, unique_together_constraints))
# Work out the fields that need splitting out
bad_fields = dict((f, (al, mn)) for f, al, mn in related_fields
if (al, mn) in pending_add)
# Create the model, without those
self.add_to_migration(
app_label,
operations.CreateModel(
name=model_state.name,
fields=[(n, f) for n, f in model_state.fields
if n not in bad_fields],
options=model_state.options,
bases=model_state.bases,
))
# Add the bad fields to be made in a phase 3
for field_name, (other_app_label,
other_model_name) in bad_fields.items():
pending_new_fks.append(
(app_label, model_name, field_name, other_app_label))
del pending_add[app_label, model_name]
# Phase 3 is adding the final set of FKs as separate new migrations
for app_label, model_name, field_name, other_app_label in pending_new_fks:
model_state = self.to_state.models[app_label, model_name]
self.add_to_migration(
app_label,
operations.AddField(
model_name=model_name,
name=field_name,
field=model_state.get_field_by_name(field_name),
),
new=True,
)
# If it depends on a swappable something, add a dynamic depend'cy
swappable_setting = new_apps.get_model(
app_label, model_name)._meta.get_field_by_name(
field_name)[0].swappable_setting
if swappable_setting is not None:
self.add_swappable_dependency(app_label, swappable_setting)
elif app_label != other_app_label:
self.add_dependency(app_label, other_app_label)
# Phase 3.1 - unique together constraints
for app_label, model_name, unique_together in pending_unique_together:
self.add_to_migration(
app_label,
operations.AlterUniqueTogether(
name=model_name, unique_together=unique_together))
# Removing models
removed_models = set(old_model_keys) - set(new_model_keys)
for app_label, model_name in removed_models:
model_state = self.from_state.models[app_label, model_name]
self.add_to_migration(app_label,
operations.DeleteModel(model_state.name, ))
# Changes within models
kept_models = set(old_model_keys).intersection(new_model_keys)
old_fields = set()
new_fields = set()
unique_together_operations = []
for app_label, model_name in kept_models:
old_model_name = renamed_models.get((app_label, model_name),
model_name)
old_model_state = self.from_state.models[app_label, old_model_name]
new_model_state = self.to_state.models[app_label, model_name]
# Collect field changes for later global dealing with (so AddFields
# always come before AlterFields even on separate models)
old_fields.update(
(app_label, model_name, x) for x, y in old_model_state.fields)
new_fields.update(
(app_label, model_name, x) for x, y in new_model_state.fields)
# Unique_together changes. Operations will be added to migration a
# bit later, after fields creation. See ticket #22035.
if old_model_state.options.get(
"unique_together", set()) != new_model_state.options.get(
"unique_together", set()):
unique_together_operations.append(
(app_label,
operations.AlterUniqueTogether(
name=model_name,
unique_together=new_model_state.options.get(
"unique_together", set()),
)))
# New fields
renamed_fields = {}
for app_label, model_name, field_name in new_fields - old_fields:
old_model_name = renamed_models.get((app_label, model_name),
model_name)
old_model_state = self.from_state.models[app_label, old_model_name]
new_model_state = self.to_state.models[app_label, model_name]
field = new_model_state.get_field_by_name(field_name)
# Scan to see if this is actually a rename!
field_dec = field.deconstruct()[1:]
found_rename = False
for rem_app_label, rem_model_name, rem_field_name in (old_fields -
new_fields):
if rem_app_label == app_label and rem_model_name == model_name:
old_field_dec = old_model_state.get_field_by_name(
rem_field_name).deconstruct()[1:]
if field.rel and field.rel.to:
old_rel_to = old_field_dec[2]['to']
if old_rel_to in renamed_models_rel:
old_field_dec[2]['to'] = renamed_models_rel[
old_rel_to]
if old_field_dec == field_dec:
if self.questioner.ask_rename(model_name,
rem_field_name,
field_name, field):
self.add_to_migration(
app_label,
operations.RenameField(
model_name=model_name,
old_name=rem_field_name,
new_name=field_name,
))
old_fields.remove((rem_app_label, rem_model_name,
rem_field_name))
old_fields.add((app_label, model_name, field_name))
renamed_fields[app_label, model_name,
field_name] = rem_field_name
found_rename = True
break
if found_rename:
continue
# You can't just add NOT NULL fields with no default
if not field.null and not field.has_default():
field = field.clone()
field.default = self.questioner.ask_not_null_addition(
field_name, model_name)
self.add_to_migration(
app_label,
operations.AddField(
model_name=model_name,
name=field_name,
field=field,
preserve_default=False,
))
else:
self.add_to_migration(
app_label,
operations.AddField(
model_name=model_name,
name=field_name,
field=field,
))
new_field = new_apps.get_model(
app_label,
model_name)._meta.get_field_by_name(field_name)[0]
swappable_setting = getattr(new_field, 'swappable_setting',
None)
if swappable_setting is not None:
self.add_swappable_dependency(app_label, swappable_setting)
# Old fields
for app_label, model_name, field_name in old_fields - new_fields:
old_model_name = renamed_models.get((app_label, model_name),
model_name)
old_model_state = self.from_state.models[app_label, old_model_name]
new_model_state = self.to_state.models[app_label, model_name]
self.add_to_migration(
app_label,
operations.RemoveField(
model_name=model_name,
name=field_name,
))
# The same fields
for app_label, model_name, field_name in old_fields.intersection(
new_fields):
# Did the field change?
old_model_name = renamed_models.get((app_label, model_name),
model_name)
old_model_state = self.from_state.models[app_label, old_model_name]
new_model_state = self.to_state.models[app_label, model_name]
old_field_name = renamed_fields.get(
(app_label, model_name, field_name), field_name)
old_field_dec = old_model_state.get_field_by_name(
old_field_name).deconstruct()[1:]
new_field_dec = new_model_state.get_field_by_name(
field_name).deconstruct()[1:]
if old_field_dec != new_field_dec:
self.add_to_migration(
app_label,
operations.AlterField(
model_name=model_name,
name=field_name,
field=new_model_state.get_field_by_name(field_name),
))
for app_label, operation in unique_together_operations:
self.add_to_migration(app_label, operation)
# Alright, now add internal dependencies
for app_label, migrations in self.migrations.items():
for m1, m2 in zip(migrations, migrations[1:]):
m2.dependencies.append((app_label, m1.name))
# Clean up dependencies
for app_label, migrations in self.migrations.items():
for migration in migrations:
migration.dependencies = list(set(migration.dependencies))
return self.migrations
def generate_created_models(self):
"""
Find all new models and make creation operations for them,
and separate operations to create any foreign key or M2M relationships
(we'll optimise these back in later if we can)
We also defer any model options that refer to collections of fields
that might be deferred (e.g. unique_together, index_together)
"""
added_models = set(self.new_model_keys) - set(self.old_model_keys)
for app_label, model_name in sorted(added_models, key=self.swappable_first_key):
model_state = self.to_state.models[app_label, model_name]
# Gather related fields
related_fields = {}
primary_key_rel = None
for field in self.new_apps.get_model(app_label, model_name)._meta.local_fields:
if field.rel:
if field.rel.to:
if field.primary_key:
primary_key_rel = field.rel.to
else:
related_fields[field.name] = field
# through will be none on M2Ms on swapped-out models;
# we can treat lack of through as auto_created=True, though.
if getattr(field.rel, "through", None) and not field.rel.through._meta.auto_created:
related_fields[field.name] = field
for field in self.new_apps.get_model(app_label, model_name)._meta.local_many_to_many:
if field.rel.to:
related_fields[field.name] = field
if getattr(field.rel, "through", None) and not field.rel.through._meta.auto_created:
related_fields[field.name] = field
# Are there unique/index_together to defer?
unique_together = model_state.options.pop('unique_together', None)
index_together = model_state.options.pop('index_together', None)
order_with_respect_to = model_state.options.pop('order_with_respect_to', None)
# Depend on the deletion of any possible proxy version of us
dependencies = [
(app_label, model_name, None, False),
]
# Depend on all bases
for base in model_state.bases:
if isinstance(base, six.string_types) and "." in base:
base_app_label, base_name = base.split(".", 1)
dependencies.append((base_app_label, base_name, None, True))
# Depend on the other end of the primary key if it's a relation
if primary_key_rel:
dependencies.append((
primary_key_rel._meta.app_label,
primary_key_rel._meta.object_name,
None,
True
))
# Generate creation operation
self.add_operation(
app_label,
operations.CreateModel(
name=model_state.name,
fields=[d for d in model_state.fields if d[0] not in related_fields],
options=model_state.options,
bases=model_state.bases,
),
dependencies=dependencies,
)
# Generate operations for each related field
for name, field in sorted(related_fields.items()):
# Account for FKs to swappable models
swappable_setting = getattr(field, 'swappable_setting', None)
if swappable_setting is not None:
dep_app_label = "__setting__"
dep_object_name = swappable_setting
else:
dep_app_label = field.rel.to._meta.app_label
dep_object_name = field.rel.to._meta.object_name
dependencies = [(dep_app_label, dep_object_name, None, True)]
if getattr(field.rel, "through", None) and not field.rel.through._meta.auto_created:
dependencies.append((
field.rel.through._meta.app_label,
field.rel.through._meta.object_name,
None,
True
))
# Depend on our own model being created
dependencies.append((app_label, model_name, None, True))
# Make operation
self.add_operation(
app_label,
operations.AddField(
model_name=model_name,
name=name,
field=field,
),
dependencies=list(set(dependencies)),
)
# Generate other opns
related_dependencies = [
(app_label, model_name, name, True)
for name, field in sorted(related_fields.items())
]
related_dependencies.append((app_label, model_name, None, True))
if unique_together:
self.add_operation(
app_label,
operations.AlterUniqueTogether(
name=model_name,
unique_together=unique_together,
),
dependencies=related_dependencies
)
if index_together:
self.add_operation(
app_label,
operations.AlterIndexTogether(
name=model_name,
index_together=index_together,
),
dependencies=related_dependencies
)
if order_with_respect_to:
self.add_operation(
app_label,
operations.AlterOrderWithRespectTo(
name=model_name,
order_with_respect_to=order_with_respect_to,
),
dependencies=[
(app_label, model_name, order_with_respect_to, True),
(app_label, model_name, None, True),
]
)
