django-test/env/lib/python3.8/site-packages/django/db/migrations/utils.py

130 lines
4.3 KiB
Python

import datetime
import re
from collections import namedtuple
from django.db.models.fields.related import RECURSIVE_RELATIONSHIP_CONSTANT
FieldReference = namedtuple("FieldReference", "to through")
COMPILED_REGEX_TYPE = type(re.compile(""))
class RegexObject:
def __init__(self, obj):
self.pattern = obj.pattern
self.flags = obj.flags
def __eq__(self, other):
if not isinstance(other, RegexObject):
return NotImplemented
return self.pattern == other.pattern and self.flags == other.flags
def get_migration_name_timestamp():
return datetime.datetime.now().strftime("%Y%m%d_%H%M")
def resolve_relation(model, app_label=None, model_name=None):
"""
Turn a model class or model reference string and return a model tuple.
app_label and model_name are used to resolve the scope of recursive and
unscoped model relationship.
"""
if isinstance(model, str):
if model == RECURSIVE_RELATIONSHIP_CONSTANT:
if app_label is None or model_name is None:
raise TypeError(
"app_label and model_name must be provided to resolve "
"recursive relationships."
)
return app_label, model_name
if "." in model:
app_label, model_name = model.split(".", 1)
return app_label, model_name.lower()
if app_label is None:
raise TypeError(
"app_label must be provided to resolve unscoped model relationships."
)
return app_label, model.lower()
return model._meta.app_label, model._meta.model_name
def field_references(
model_tuple,
field,
reference_model_tuple,
reference_field_name=None,
reference_field=None,
):
"""
Return either False or a FieldReference if `field` references provided
context.
False positives can be returned if `reference_field_name` is provided
without `reference_field` because of the introspection limitation it
incurs. This should not be an issue when this function is used to determine
whether or not an optimization can take place.
"""
remote_field = field.remote_field
if not remote_field:
return False
references_to = None
references_through = None
if resolve_relation(remote_field.model, *model_tuple) == reference_model_tuple:
to_fields = getattr(field, "to_fields", None)
if (
reference_field_name is None
or
# Unspecified to_field(s).
to_fields is None
or
# Reference to primary key.
(
None in to_fields
and (reference_field is None or reference_field.primary_key)
)
or
# Reference to field.
reference_field_name in to_fields
):
references_to = (remote_field, to_fields)
through = getattr(remote_field, "through", None)
if through and resolve_relation(through, *model_tuple) == reference_model_tuple:
through_fields = remote_field.through_fields
if (
reference_field_name is None
or
# Unspecified through_fields.
through_fields is None
or
# Reference to field.
reference_field_name in through_fields
):
references_through = (remote_field, through_fields)
if not (references_to or references_through):
return False
return FieldReference(references_to, references_through)
def get_references(state, model_tuple, field_tuple=()):
"""
Generator of (model_state, name, field, reference) referencing
provided context.
If field_tuple is provided only references to this particular field of
model_tuple will be generated.
"""
for state_model_tuple, model_state in state.models.items():
for name, field in model_state.fields.items():
reference = field_references(
state_model_tuple, field, model_tuple, *field_tuple
)
if reference:
yield model_state, name, field, reference
def field_is_referenced(state, model_tuple, field_tuple):
"""Return whether `field_tuple` is referenced by any state models."""
return next(get_references(state, model_tuple, field_tuple), None) is not None