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- from django.db import router
-
- from .base import Operation
-
-
- class SeparateDatabaseAndState(Operation):
- """
- Take two lists of operations - ones that will be used for the database,
- and ones that will be used for the state change. This allows operations
- that don't support state change to have it applied, or have operations
- that affect the state or not the database, or so on.
- """
-
- serialization_expand_args = ['database_operations', 'state_operations']
-
- def __init__(self, database_operations=None, state_operations=None):
- self.database_operations = database_operations or []
- self.state_operations = state_operations or []
-
- def deconstruct(self):
- kwargs = {}
- if self.database_operations:
- kwargs['database_operations'] = self.database_operations
- if self.state_operations:
- kwargs['state_operations'] = self.state_operations
- return (
- self.__class__.__qualname__,
- [],
- kwargs
- )
-
- def state_forwards(self, app_label, state):
- for state_operation in self.state_operations:
- state_operation.state_forwards(app_label, state)
-
- def database_forwards(self, app_label, schema_editor, from_state, to_state):
- # We calculate state separately in here since our state functions aren't useful
- for database_operation in self.database_operations:
- to_state = from_state.clone()
- database_operation.state_forwards(app_label, to_state)
- database_operation.database_forwards(app_label, schema_editor, from_state, to_state)
- from_state = to_state
-
- def database_backwards(self, app_label, schema_editor, from_state, to_state):
- # We calculate state separately in here since our state functions aren't useful
- to_states = {}
- for dbop in self.database_operations:
- to_states[dbop] = to_state
- to_state = to_state.clone()
- dbop.state_forwards(app_label, to_state)
- # to_state now has the states of all the database_operations applied
- # which is the from_state for the backwards migration of the last
- # operation.
- for database_operation in reversed(self.database_operations):
- from_state = to_state
- to_state = to_states[database_operation]
- database_operation.database_backwards(app_label, schema_editor, from_state, to_state)
-
- def describe(self):
- return "Custom state/database change combination"
-
-
- class RunSQL(Operation):
- """
- Run some raw SQL. A reverse SQL statement may be provided.
-
- Also accept a list of operations that represent the state change effected
- by this SQL change, in case it's custom column/table creation/deletion.
- """
- noop = ''
-
- def __init__(self, sql, reverse_sql=None, state_operations=None, hints=None, elidable=False):
- self.sql = sql
- self.reverse_sql = reverse_sql
- self.state_operations = state_operations or []
- self.hints = hints or {}
- self.elidable = elidable
-
- def deconstruct(self):
- kwargs = {
- 'sql': self.sql,
- }
- if self.reverse_sql is not None:
- kwargs['reverse_sql'] = self.reverse_sql
- if self.state_operations:
- kwargs['state_operations'] = self.state_operations
- if self.hints:
- kwargs['hints'] = self.hints
- return (
- self.__class__.__qualname__,
- [],
- kwargs
- )
-
- @property
- def reversible(self):
- return self.reverse_sql is not None
-
- def state_forwards(self, app_label, state):
- for state_operation in self.state_operations:
- state_operation.state_forwards(app_label, state)
-
- def database_forwards(self, app_label, schema_editor, from_state, to_state):
- if router.allow_migrate(schema_editor.connection.alias, app_label, **self.hints):
- self._run_sql(schema_editor, self.sql)
-
- def database_backwards(self, app_label, schema_editor, from_state, to_state):
- if self.reverse_sql is None:
- raise NotImplementedError("You cannot reverse this operation")
- if router.allow_migrate(schema_editor.connection.alias, app_label, **self.hints):
- self._run_sql(schema_editor, self.reverse_sql)
-
- def describe(self):
- return "Raw SQL operation"
-
- def _run_sql(self, schema_editor, sqls):
- if isinstance(sqls, (list, tuple)):
- for sql in sqls:
- params = None
- if isinstance(sql, (list, tuple)):
- elements = len(sql)
- if elements == 2:
- sql, params = sql
- else:
- raise ValueError("Expected a 2-tuple but got %d" % elements)
- schema_editor.execute(sql, params=params)
- elif sqls != RunSQL.noop:
- statements = schema_editor.connection.ops.prepare_sql_script(sqls)
- for statement in statements:
- schema_editor.execute(statement, params=None)
-
-
- class RunPython(Operation):
- """
- Run Python code in a context suitable for doing versioned ORM operations.
- """
-
- reduces_to_sql = False
-
- def __init__(self, code, reverse_code=None, atomic=None, hints=None, elidable=False):
- self.atomic = atomic
- # Forwards code
- if not callable(code):
- raise ValueError("RunPython must be supplied with a callable")
- self.code = code
- # Reverse code
- if reverse_code is None:
- self.reverse_code = None
- else:
- if not callable(reverse_code):
- raise ValueError("RunPython must be supplied with callable arguments")
- self.reverse_code = reverse_code
- self.hints = hints or {}
- self.elidable = elidable
-
- def deconstruct(self):
- kwargs = {
- 'code': self.code,
- }
- if self.reverse_code is not None:
- kwargs['reverse_code'] = self.reverse_code
- if self.atomic is not None:
- kwargs['atomic'] = self.atomic
- if self.hints:
- kwargs['hints'] = self.hints
- return (
- self.__class__.__qualname__,
- [],
- kwargs
- )
-
- @property
- def reversible(self):
- return self.reverse_code is not None
-
- def state_forwards(self, app_label, state):
- # RunPython objects have no state effect. To add some, combine this
- # with SeparateDatabaseAndState.
- pass
-
- def database_forwards(self, app_label, schema_editor, from_state, to_state):
- # RunPython has access to all models. Ensure that all models are
- # reloaded in case any are delayed.
- from_state.clear_delayed_apps_cache()
- if router.allow_migrate(schema_editor.connection.alias, app_label, **self.hints):
- # We now execute the Python code in a context that contains a 'models'
- # object, representing the versioned models as an app registry.
- # We could try to override the global cache, but then people will still
- # use direct imports, so we go with a documentation approach instead.
- self.code(from_state.apps, schema_editor)
-
- def database_backwards(self, app_label, schema_editor, from_state, to_state):
- if self.reverse_code is None:
- raise NotImplementedError("You cannot reverse this operation")
- if router.allow_migrate(schema_editor.connection.alias, app_label, **self.hints):
- self.reverse_code(from_state.apps, schema_editor)
-
- def describe(self):
- return "Raw Python operation"
-
- @staticmethod
- def noop(apps, schema_editor):
- return None
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