django1/django/db/migrations/autodetector.py

1130 lines
53 KiB
Python

from __future__ import unicode_literals
import re
import datetime
from itertools import chain
from django.utils import six
from django.conf import settings
from django.db import models
from django.db.migrations import operations
from django.db.migrations.migration import Migration
from django.db.migrations.questioner import MigrationQuestioner
from django.db.migrations.optimizer import MigrationOptimizer
from django.db.migrations.operations.models import AlterModelOptions
from .topological_sort import stable_topological_sort
class MigrationAutodetector(object):
"""
Takes a pair of ProjectStates, and compares them to see what the
first would need doing to make it match the second (the second
usually being the project's current state).
Note that this naturally operates on entire projects at a time,
as it's likely that changes interact (for example, you can't
add a ForeignKey without having a migration to add the table it
depends on first). A user interface may offer single-app usage
if it wishes, with the caveat that it may not always be possible.
"""
def __init__(self, from_state, to_state, questioner=None):
self.from_state = from_state
self.to_state = to_state
self.questioner = questioner or MigrationQuestioner()
def changes(self, graph, trim_to_apps=None, convert_apps=None, migration_name=None):
"""
Main entry point to produce a list of appliable changes.
Takes a graph to base names on and an optional set of apps
to try and restrict to (restriction is not guaranteed)
"""
changes = self._detect_changes(convert_apps, graph)
changes = self.arrange_for_graph(changes, graph, migration_name)
if trim_to_apps:
changes = self._trim_to_apps(changes, trim_to_apps)
return changes
def deep_deconstruct(self, obj):
"""
Recursive deconstruction for a field and its arguments.
Used for full comparison for rename/alter; sometimes a single-level
deconstruction will not compare correctly.
"""
if not hasattr(obj, 'deconstruct') or isinstance(obj, type):
return obj
deconstructed = obj.deconstruct()
if isinstance(obj, models.Field):
# we have a field which also returns a name
deconstructed = deconstructed[1:]
path, args, kwargs = deconstructed
return (
path,
[self.deep_deconstruct(value) for value in args],
{
key: self.deep_deconstruct(value)
for key, value in kwargs.items()
},
)
def only_relation_agnostic_fields(self, fields):
"""
Return a definition of the fields that ignores field names and
what related fields actually relate to.
Used for detecting renames (as, of course, the related fields
change during renames)
"""
fields_def = []
for name, field in fields:
deconstruction = self.deep_deconstruct(field)
if field.rel and field.rel.to:
del deconstruction[2]['to']
fields_def.append(deconstruction)
return fields_def
def _detect_changes(self, convert_apps=None, graph=None):
"""
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.
convert_apps is the list of apps to convert to use migrations
(i.e. to make initial migrations for, in the usual case)
graph is an optional argument that, if provided, can help improve
dependency generation and avoid potential circular dependencies.
"""
# The first phase is generating all the operations for each app
# and gathering them into a big per-app list.
# We'll then go through that list later and order it and split
# into migrations to resolve dependencies caused by M2Ms and FKs.
self.generated_operations = {}
# Prepare some old/new state and model lists, separating
# proxy models and ignoring unmigrated apps.
self.old_apps = self.from_state.concrete_apps
self.new_apps = self.to_state.apps
self.old_model_keys = []
self.old_proxy_keys = []
self.old_unmanaged_keys = []
self.new_model_keys = []
self.new_proxy_keys = []
self.new_unmanaged_keys = []
for al, mn in sorted(self.from_state.models.keys()):
model = self.old_apps.get_model(al, mn)
if not model._meta.managed:
self.old_unmanaged_keys.append((al, mn))
elif al not in self.from_state.real_apps:
if model._meta.proxy:
self.old_proxy_keys.append((al, mn))
else:
self.old_model_keys.append((al, mn))
for al, mn in sorted(self.to_state.models.keys()):
model = self.new_apps.get_model(al, mn)
if not model._meta.managed:
self.new_unmanaged_keys.append((al, mn))
elif (
al not in self.from_state.real_apps or
(convert_apps and al in convert_apps)
):
if model._meta.proxy:
self.new_proxy_keys.append((al, mn))
else:
self.new_model_keys.append((al, mn))
# Renames have to come first
self.generate_renamed_models()
# Prepare field lists, and prepare a list of the fields that used
# through models in the old state so we can make dependencies
# from the through model deletion to the field that uses it.
self.kept_model_keys = set(self.old_model_keys).intersection(self.new_model_keys)
self.kept_proxy_keys = set(self.old_proxy_keys).intersection(self.new_proxy_keys)
self.kept_unmanaged_keys = set(self.old_unmanaged_keys).intersection(self.new_unmanaged_keys)
self.through_users = {}
self.old_field_keys = set()
self.new_field_keys = set()
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]
self.old_field_keys.update((app_label, model_name, x) for x, y in old_model_state.fields)
self.new_field_keys.update((app_label, model_name, x) for x, y in new_model_state.fields)
# Through model map generation
for app_label, model_name in sorted(self.old_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]
for field_name, field in old_model_state.fields:
old_field = self.old_apps.get_model(app_label, old_model_name)._meta.get_field_by_name(field_name)[0]
if (hasattr(old_field, "rel") and getattr(old_field.rel, "through", None)
and not old_field.rel.through._meta.auto_created):
through_key = (
old_field.rel.through._meta.app_label,
old_field.rel.through._meta.object_name.lower(),
)
self.through_users[through_key] = (app_label, old_model_name, field_name)
# Generate non-rename model operations
self.generate_deleted_models()
self.generate_created_models()
self.generate_deleted_proxies()
self.generate_created_proxies()
self.generate_altered_options()
self.generate_altered_managers()
# Generate field operations
self.generate_renamed_fields()
self.generate_removed_fields()
self.generate_added_fields()
self.generate_altered_fields()
self.generate_altered_unique_together()
self.generate_altered_index_together()
self.generate_altered_db_table()
self.generate_altered_order_with_respect_to()
# Now, reordering to make things possible. The order we have already
# isn't bad, but we need to pull a few things around so FKs work nicely
# inside the same app
for app_label, ops in sorted(self.generated_operations.items()):
# construct a dependency graph for intra-app dependencies
dependency_graph = {op: set() for op in ops}
for op in ops:
for dep in op._auto_deps:
if dep[0] == app_label:
for op2 in ops:
if self.check_dependency(op2, dep):
dependency_graph[op].add(op2)
# we use a stable sort for deterministic tests & general behavior
self.generated_operations[app_label] = stable_topological_sort(ops, dependency_graph)
# Now, we need to chop the lists of operations up into migrations with
# dependencies on each other.
# We do this by stepping up an app's list of operations until we
# find one that has an outgoing dependency that isn't in another app's
# migration yet (hasn't been chopped off its list). We then chop off the
# operations before it into a migration and move onto the next app.
# If we loop back around without doing anything, there's a circular
# dependency (which _should_ be impossible as the operations are all
# split at this point so they can't depend and be depended on)
self.migrations = {}
num_ops = sum(len(x) for x in self.generated_operations.values())
chop_mode = False
while num_ops:
# On every iteration, we step through all the apps and see if there
# is a completed set of operations.
# If we find that a subset of the operations are complete we can
# try to chop it off from the rest and continue, but we only
# do this if we've already been through the list once before
# without any chopping and nothing has changed.
for app_label in sorted(self.generated_operations.keys()):
chopped = []
dependencies = set()
for operation in list(self.generated_operations[app_label]):
deps_satisfied = True
operation_dependencies = set()
for dep in operation._auto_deps:
is_swappable_dep = False
if dep[0] == "__setting__":
# We need to temporarily resolve the swappable dependency to prevent
# circular references. While keeping the dependency checks on the
# resolved model we still add the swappable dependencies.
# See #23322
resolved_app_label, resolved_object_name = getattr(settings, dep[1]).split('.')
original_dep = dep
dep = (resolved_app_label, resolved_object_name.lower(), dep[2], dep[3])
is_swappable_dep = True
if dep[0] != app_label and dep[0] != "__setting__":
# External app dependency. See if it's not yet
# satisfied.
for other_operation in self.generated_operations.get(dep[0], []):
if self.check_dependency(other_operation, dep):
deps_satisfied = False
break
if not deps_satisfied:
break
else:
if is_swappable_dep:
operation_dependencies.add((original_dep[0], original_dep[1]))
elif dep[0] in self.migrations:
operation_dependencies.add((dep[0], self.migrations[dep[0]][-1].name))
else:
# If we can't find the other app, we add a first/last dependency,
# but only if we've already been through once and checked everything
if chop_mode:
# If the app already exists, we add a dependency on the last migration,
# as we don't know which migration contains the target field.
# If it's not yet migrated or has no migrations, we use __first__
if graph and graph.leaf_nodes(dep[0]):
operation_dependencies.add(graph.leaf_nodes(dep[0])[0])
else:
operation_dependencies.add((dep[0], "__first__"))
else:
deps_satisfied = False
if deps_satisfied:
chopped.append(operation)
dependencies.update(operation_dependencies)
self.generated_operations[app_label] = self.generated_operations[app_label][1:]
else:
break
# Make a migration! Well, only if there's stuff to put in it
if dependencies or chopped:
if not self.generated_operations[app_label] or chop_mode:
subclass = type(str("Migration"), (Migration,), {"operations": [], "dependencies": []})
instance = subclass("auto_%i" % (len(self.migrations.get(app_label, [])) + 1), app_label)
instance.dependencies = list(dependencies)
instance.operations = chopped
self.migrations.setdefault(app_label, []).append(instance)
chop_mode = False
else:
self.generated_operations[app_label] = chopped + self.generated_operations[app_label]
new_num_ops = sum(len(x) for x in self.generated_operations.values())
if new_num_ops == num_ops:
if not chop_mode:
chop_mode = True
else:
raise ValueError("Cannot resolve operation dependencies: %r" % self.generated_operations)
num_ops = new_num_ops
# OK, add in internal dependencies among the migrations
for app_label, migrations in self.migrations.items():
for m1, m2 in zip(migrations, migrations[1:]):
m2.dependencies.append((app_label, m1.name))
# De-dupe dependencies
for app_label, migrations in self.migrations.items():
for migration in migrations:
migration.dependencies = list(set(migration.dependencies))
# Optimize migrations
for app_label, migrations in self.migrations.items():
for migration in migrations:
migration.operations = MigrationOptimizer().optimize(migration.operations, app_label=app_label)
return self.migrations
def check_dependency(self, operation, dependency):
"""
Returns ``True`` if the given operation depends on the given dependency,
``False`` otherwise.
"""
# Created model
if dependency[2] is None and dependency[3] is True:
return (
isinstance(operation, operations.CreateModel) and
operation.name.lower() == dependency[1].lower()
)
# Created field
elif dependency[2] is not None and dependency[3] is True:
return (
(
isinstance(operation, operations.CreateModel) and
operation.name.lower() == dependency[1].lower() and
any(dependency[2] == x for x, y in operation.fields)
) or
(
isinstance(operation, operations.AddField) and
operation.model_name.lower() == dependency[1].lower() and
operation.name.lower() == dependency[2].lower()
)
)
# Removed field
elif dependency[2] is not None and dependency[3] is False:
return (
isinstance(operation, operations.RemoveField) and
operation.model_name.lower() == dependency[1].lower() and
operation.name.lower() == dependency[2].lower()
)
# Removed model
elif dependency[2] is None and dependency[3] is False:
return (
isinstance(operation, operations.DeleteModel) and
operation.name.lower() == dependency[1].lower()
)
# Field being altered
elif dependency[2] is not None and dependency[3] == "alter":
return (
isinstance(operation, operations.AlterField) and
operation.model_name.lower() == dependency[1].lower() and
operation.name.lower() == dependency[2].lower()
)
# order_with_respect_to being unset for a field
elif dependency[2] is not None and dependency[3] == "order_wrt_unset":
return (
isinstance(operation, operations.AlterOrderWithRespectTo) and
operation.name.lower() == dependency[1].lower() and
(operation.order_with_respect_to or "").lower() != dependency[2].lower()
)
# Field is removed and part of an index/unique_together
elif dependency[2] is not None and dependency[3] == "foo_together_change":
return (
isinstance(operation, (operations.AlterUniqueTogether,
operations.AlterIndexTogether)) and
operation.name.lower() == dependency[1].lower()
)
# Unknown dependency. Raise an error.
else:
raise ValueError("Can't handle dependency %r" % (dependency, ))
def add_operation(self, app_label, operation, dependencies=None, beginning=False):
# Dependencies are (app_label, model_name, field_name, create/delete as True/False)
operation._auto_deps = dependencies or []
if beginning:
self.generated_operations.setdefault(app_label, []).insert(0, operation)
else:
self.generated_operations.setdefault(app_label, []).append(operation)
def swappable_first_key(self, item):
"""
Sorting key function that places potential swappable models first in
lists of created models (only real way to solve #22783)
"""
try:
model = self.new_apps.get_model(item[0], item[1])
base_names = [base.__name__ for base in model.__bases__]
string_version = "%s.%s" % (item[0], item[1])
if (
model._meta.swappable or
"AbstractUser" in base_names or
"AbstractBaseUser" in base_names or
settings.AUTH_USER_MODEL.lower() == string_version.lower()
):
return ("___" + item[0], "___" + item[1])
except LookupError:
pass
return item
def generate_renamed_models(self):
"""
Finds any renamed models, and generates the operations for them,
and removes the old entry from the model lists.
Must be run before other model-level generation.
"""
self.renamed_models = {}
self.renamed_models_rel = {}
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]
model_fields_def = self.only_relation_agnostic_fields(model_state.fields)
removed_models = set(self.old_model_keys) - set(self.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 = self.only_relation_agnostic_fields(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_operation(
app_label,
operations.RenameModel(
old_name=rem_model_state.name,
new_name=model_state.name,
)
)
self.renamed_models[app_label, model_name] = rem_model_name
self.renamed_models_rel['%s.%s' % (rem_model_state.app_label, rem_model_state.name)] = '%s.%s' % (model_state.app_label, model_state.name)
self.old_model_keys.remove((rem_app_label, rem_model_name))
self.old_model_keys.append((app_label, model_name))
break
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
# Gather related fields
related_fields = {}
primary_key_rel = None
for field in model_opts.local_fields:
if field.rel:
if field.rel.to:
if field.primary_key:
primary_key_rel = field.rel.to
elif not field.rel.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.rel, "through", None) and not field.rel.through._meta.auto_created:
related_fields[field.name] = field
for field in model_opts.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,
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
# 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),
]
)
def generate_created_proxies(self):
"""
Makes CreateModel statements for proxy models.
We use the same statements as that way there's less code duplication,
but of course for proxy models we can skip all that pointless field
stuff and just chuck out an operation.
"""
added = set(self.new_proxy_keys) - set(self.old_proxy_keys)
for app_label, model_name in sorted(added):
model_state = self.to_state.models[app_label, model_name]
assert model_state.options.get("proxy", False)
# Depend on the deletion of any possible non-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))
# Generate creation operation
self.add_operation(
app_label,
operations.CreateModel(
name=model_state.name,
fields=[],
options=model_state.options,
bases=model_state.bases,
managers=model_state.managers,
),
# Depend on the deletion of any possible non-proxy version of us
dependencies=dependencies,
)
def generate_deleted_models(self):
"""
Find all deleted models (managed and unmanaged) and make delete
operations for them as well as separate operations to delete any
foreign key or M2M relationships (we'll optimize 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().
"""
new_keys = set(self.new_model_keys).union(self.new_unmanaged_keys)
deleted_models = set(self.old_model_keys) - new_keys
deleted_unmanaged_models = set(self.old_unmanaged_keys) - new_keys
all_deleted_models = chain(sorted(deleted_models), sorted(deleted_unmanaged_models))
for app_label, model_name in all_deleted_models:
model_state = self.from_state.models[app_label, model_name]
model = self.old_apps.get_model(app_label, model_name)
if not model._meta.managed:
# Skip here, no need to handle fields for unmanaged models
continue
# Gather related fields
related_fields = {}
for field in model._meta.local_fields:
if field.rel:
if field.rel.to:
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 model._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
# 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/alteration 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,
))
dependencies.append((
related_object.model._meta.app_label,
related_object.model._meta.object_name,
related_object.field.name,
"alter",
))
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_deleted_proxies(self):
"""
Makes DeleteModel statements for proxy models.
"""
deleted = set(self.old_proxy_keys) - set(self.new_proxy_keys)
for app_label, model_name in sorted(deleted):
model_state = self.from_state.models[app_label, model_name]
assert model_state.options.get("proxy", False)
self.add_operation(
app_label,
operations.DeleteModel(
name=model_state.name,
),
)
def generate_renamed_fields(self):
"""
Works out renamed fields
"""
self.renamed_fields = {}
for app_label, model_name, field_name in sorted(self.new_field_keys - self.old_field_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]
field = self.new_apps.get_model(app_label, model_name)._meta.get_field_by_name(field_name)[0]
# Scan to see if this is actually a rename!
field_dec = self.deep_deconstruct(field)
for rem_app_label, rem_model_name, rem_field_name in sorted(self.old_field_keys - self.new_field_keys):
if rem_app_label == app_label and rem_model_name == model_name:
old_field_dec = self.deep_deconstruct(old_model_state.get_field_by_name(rem_field_name))
if field.rel and field.rel.to and 'to' in old_field_dec[2]:
old_rel_to = old_field_dec[2]['to']
if old_rel_to in self.renamed_models_rel:
old_field_dec[2]['to'] = self.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_operation(
app_label,
operations.RenameField(
model_name=model_name,
old_name=rem_field_name,
new_name=field_name,
)
)
self.old_field_keys.remove((rem_app_label, rem_model_name, rem_field_name))
self.old_field_keys.add((app_label, model_name, field_name))
self.renamed_fields[app_label, model_name, field_name] = rem_field_name
break
def generate_added_fields(self):
"""
Fields that have been added
"""
for app_label, model_name, field_name in sorted(self.new_field_keys - self.old_field_keys):
self._generate_added_field(app_label, model_name, field_name)
def _generate_added_field(self, app_label, model_name, field_name):
field = self.new_apps.get_model(app_label, model_name)._meta.get_field_by_name(field_name)[0]
# Fields that are foreignkeys/m2ms depend on stuff
dependencies = []
if field.rel and field.rel.to:
# 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,
))
# You can't just add NOT NULL fields with no default or fields
# which don't allow empty strings as default.
preserve_default = True
if (not field.null and not field.has_default() and
not isinstance(field, models.ManyToManyField) and
not (field.blank and field.empty_strings_allowed)):
field = field.clone()
field.default = self.questioner.ask_not_null_addition(field_name, model_name)
preserve_default = False
self.add_operation(
app_label,
operations.AddField(
model_name=model_name,
name=field_name,
field=field,
preserve_default=preserve_default,
),
dependencies=dependencies,
)
def generate_removed_fields(self):
"""
Fields that have been removed.
"""
for app_label, model_name, field_name in sorted(self.old_field_keys - self.new_field_keys):
self._generate_removed_field(app_label, model_name, field_name)
def _generate_removed_field(self, app_label, model_name, field_name):
self.add_operation(
app_label,
operations.RemoveField(
model_name=model_name,
name=field_name,
),
# We might need to depend on the removal of an
# order_with_respect_to or index/unique_together operation;
# this is safely ignored if there isn't one
dependencies=[
(app_label, model_name, field_name, "order_wrt_unset"),
(app_label, model_name, field_name, "foo_together_change"),
],
)
def generate_altered_fields(self):
"""
Fields that have been altered.
"""
for app_label, model_name, field_name in sorted(self.old_field_keys.intersection(self.new_field_keys)):
# Did the field change?
old_model_name = self.renamed_models.get((app_label, model_name), model_name)
old_field_name = self.renamed_fields.get((app_label, model_name, field_name), field_name)
old_field = self.old_apps.get_model(app_label, old_model_name)._meta.get_field_by_name(old_field_name)[0]
new_field = self.new_apps.get_model(app_label, model_name)._meta.get_field_by_name(field_name)[0]
# Implement any model renames on relations; these are handled by RenameModel
# so we need to exclude them from the comparison
if hasattr(new_field, "rel") and getattr(new_field.rel, "to", None):
rename_key = (
new_field.rel.to._meta.app_label,
new_field.rel.to._meta.object_name.lower(),
)
if rename_key in self.renamed_models:
new_field.rel.to = old_field.rel.to
old_field_dec = self.deep_deconstruct(old_field)
new_field_dec = self.deep_deconstruct(new_field)
if old_field_dec != new_field_dec:
if (not isinstance(old_field, models.ManyToManyField) and
not isinstance(new_field, models.ManyToManyField)):
preserve_default = True
if (old_field.null and not new_field.null and not new_field.has_default() and
not isinstance(new_field, models.ManyToManyField)):
field = new_field.clone()
new_default = self.questioner.ask_not_null_alteration(field_name, model_name)
if new_default is not models.NOT_PROVIDED:
field.default = new_default
preserve_default = False
else:
field = new_field
self.add_operation(
app_label,
operations.AlterField(
model_name=model_name,
name=field_name,
field=field,
preserve_default=preserve_default,
)
)
else:
self._generate_removed_field(app_label, model_name, field_name)
self._generate_added_field(app_label, model_name, field_name)
def _generate_altered_foo_together(self, operation):
option_name = operation.option_name
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]
# We run the old version through the field renames to account for those
old_value = old_model_state.options.get(option_name) or set()
if old_value:
old_value = {
tuple(
self.renamed_fields.get((app_label, model_name, n), n)
for n in unique
)
for unique in old_value
}
new_value = new_model_state.options.get(option_name) or set()
if new_value:
new_value = set(new_value)
if old_value != new_value:
self.add_operation(
app_label,
operation(
name=model_name,
**{option_name: new_value}
)
)
def generate_altered_unique_together(self):
self._generate_altered_foo_together(operations.AlterUniqueTogether)
def generate_altered_index_together(self):
self._generate_altered_foo_together(operations.AlterIndexTogether)
def generate_altered_db_table(self):
models_to_check = self.kept_model_keys.union(self.kept_proxy_keys).union(self.kept_unmanaged_keys)
for app_label, model_name in sorted(models_to_check):
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]
old_db_table_name = old_model_state.options.get('db_table')
new_db_table_name = new_model_state.options.get('db_table')
if old_db_table_name != new_db_table_name:
self.add_operation(
app_label,
operations.AlterModelTable(
name=model_name,
table=new_db_table_name,
)
)
def generate_altered_options(self):
"""
Works out if any non-schema-affecting options have changed and
makes an operation to represent them in state changes (in case Python
code in migrations needs them)
"""
models_to_check = self.kept_model_keys.union(
self.kept_proxy_keys
).union(
self.kept_unmanaged_keys
).union(
# unmanaged converted to managed
set(self.old_unmanaged_keys).intersection(self.new_model_keys)
).union(
# managed converted to unmanaged
set(self.old_model_keys).intersection(self.new_unmanaged_keys)
)
for app_label, model_name in sorted(models_to_check):
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]
old_options = dict(
option for option in old_model_state.options.items()
if option[0] in AlterModelOptions.ALTER_OPTION_KEYS
)
new_options = dict(
option for option in new_model_state.options.items()
if option[0] in AlterModelOptions.ALTER_OPTION_KEYS
)
if old_options != new_options:
self.add_operation(
app_label,
operations.AlterModelOptions(
name=model_name,
options=new_options,
)
)
def generate_altered_order_with_respect_to(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("order_with_respect_to", None) !=
new_model_state.options.get("order_with_respect_to", None)):
# Make sure it comes second if we're adding
# (removal dependency is part of RemoveField)
dependencies = []
if new_model_state.options.get("order_with_respect_to", None):
dependencies.append((
app_label,
model_name,
new_model_state.options["order_with_respect_to"],
True,
))
# Actually generate the operation
self.add_operation(
app_label,
operations.AlterOrderWithRespectTo(
name=model_name,
order_with_respect_to=new_model_state.options.get('order_with_respect_to', None),
),
dependencies=dependencies,
)
def generate_altered_managers(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.managers != new_model_state.managers:
self.add_operation(
app_label,
operations.AlterModelManagers(
name=model_name,
managers=new_model_state.managers,
)
)
def arrange_for_graph(self, changes, graph, migration_name=None):
"""
Takes in a result from changes() and a MigrationGraph,
and fixes the names and dependencies of the changes so they
extend the graph from the leaf nodes for each app.
"""
leaves = graph.leaf_nodes()
name_map = {}
for app_label, migrations in list(changes.items()):
if not migrations:
continue
# Find the app label's current leaf node
app_leaf = None
for leaf in leaves:
if leaf[0] == app_label:
app_leaf = leaf
break
# Do they want an initial migration for this app?
if app_leaf is None and not self.questioner.ask_initial(app_label):
# They don't.
for migration in migrations:
name_map[(app_label, migration.name)] = (app_label, "__first__")
del changes[app_label]
continue
# Work out the next number in the sequence
if app_leaf is None:
next_number = 1
else:
next_number = (self.parse_number(app_leaf[1]) or 0) + 1
# Name each migration
for i, migration in enumerate(migrations):
if i == 0 and app_leaf:
migration.dependencies.append(app_leaf)
if i == 0 and not app_leaf:
new_name = "0001_%s" % migration_name if migration_name else "0001_initial"
else:
new_name = "%04i_%s" % (
next_number,
migration_name or self.suggest_name(migration.operations)[:100],
)
name_map[(app_label, migration.name)] = (app_label, new_name)
next_number += 1
migration.name = new_name
# Now fix dependencies
for app_label, migrations in changes.items():
for migration in migrations:
migration.dependencies = [name_map.get(d, d) for d in migration.dependencies]
return changes
def _trim_to_apps(self, changes, app_labels):
"""
Takes changes from arrange_for_graph and set of app labels and
returns a modified set of changes which trims out as many migrations
that are not in app_labels as possible.
Note that some other migrations may still be present, as they may be
required dependencies.
"""
# Gather other app dependencies in a first pass
app_dependencies = {}
for app_label, migrations in changes.items():
for migration in migrations:
for dep_app_label, name in migration.dependencies:
app_dependencies.setdefault(app_label, set()).add(dep_app_label)
required_apps = set(app_labels)
# Keep resolving till there's no change
old_required_apps = None
while old_required_apps != required_apps:
old_required_apps = set(required_apps)
for app_label in list(required_apps):
required_apps.update(app_dependencies.get(app_label, set()))
# Remove all migrations that aren't needed
for app_label in list(changes.keys()):
if app_label not in required_apps:
del changes[app_label]
return changes
@classmethod
def suggest_name(cls, ops):
"""
Given a set of operations, suggests a name for the migration
they might represent. Names are not guaranteed to be unique,
but we put some effort in to the fallback name to avoid VCS conflicts
if we can.
"""
if len(ops) == 1:
if isinstance(ops[0], operations.CreateModel):
return ops[0].name.lower()
elif isinstance(ops[0], operations.DeleteModel):
return "delete_%s" % ops[0].name.lower()
elif isinstance(ops[0], operations.AddField):
return "%s_%s" % (ops[0].model_name.lower(), ops[0].name.lower())
elif isinstance(ops[0], operations.RemoveField):
return "remove_%s_%s" % (ops[0].model_name.lower(), ops[0].name.lower())
elif len(ops) > 1:
if all(isinstance(o, operations.CreateModel) for o in ops):
return "_".join(sorted(o.name.lower() for o in ops))
return "auto_%s" % datetime.datetime.now().strftime("%Y%m%d_%H%M")
@classmethod
def parse_number(cls, name):
"""
Given a migration name, tries to extract a number from the
beginning of it. If no number found, returns None.
"""
if re.match(r"^\d+_", name):
return int(name.split("_")[0])
return None