from django.db import models from django.db.migrations.operations.base import Operation from django.db.migrations.state import ModelState from django.db.migrations.utils import field_references, resolve_relation from django.db.models.options import normalize_together from django.utils.functional import cached_property from .fields import AddField, AlterField, FieldOperation, RemoveField, RenameField def _check_for_duplicates(arg_name, objs): used_vals = set() for val in objs: if val in used_vals: raise ValueError( "Found duplicate value %s in CreateModel %s argument." % (val, arg_name) ) used_vals.add(val) class ModelOperation(Operation): def __init__(self, name): self.name = name @cached_property def name_lower(self): return self.name.lower() def references_model(self, name, app_label): return name.lower() == self.name_lower def reduce(self, operation, app_label): return super().reduce(operation, app_label) or self.can_reduce_through( operation, app_label ) def can_reduce_through(self, operation, app_label): return not operation.references_model(self.name, app_label) class CreateModel(ModelOperation): """Create a model's table.""" serialization_expand_args = ["fields", "options", "managers"] def __init__(self, name, fields, options=None, bases=None, managers=None): self.fields = fields self.options = options or {} self.bases = bases or (models.Model,) self.managers = managers or [] super().__init__(name) # Sanity-check that there are no duplicated field names, bases, or # manager names _check_for_duplicates("fields", (name for name, _ in self.fields)) _check_for_duplicates( "bases", ( base._meta.label_lower if hasattr(base, "_meta") else base.lower() if isinstance(base, str) else base for base in self.bases ), ) _check_for_duplicates("managers", (name for name, _ in self.managers)) def deconstruct(self): kwargs = { "name": self.name, "fields": self.fields, } if self.options: kwargs["options"] = self.options if self.bases and self.bases != (models.Model,): kwargs["bases"] = self.bases if self.managers and self.managers != [("objects", models.Manager())]: kwargs["managers"] = self.managers return (self.__class__.__qualname__, [], kwargs) def state_forwards(self, app_label, state): state.add_model( ModelState( app_label, self.name, list(self.fields), dict(self.options), tuple(self.bases), list(self.managers), ) ) def database_forwards(self, app_label, schema_editor, from_state, to_state): model = to_state.apps.get_model(app_label, self.name) if self.allow_migrate_model(schema_editor.connection.alias, model): schema_editor.create_model(model) def database_backwards(self, app_label, schema_editor, from_state, to_state): model = from_state.apps.get_model(app_label, self.name) if self.allow_migrate_model(schema_editor.connection.alias, model): schema_editor.delete_model(model) def describe(self): return "Create %smodel %s" % ( "proxy " if self.options.get("proxy", False) else "", self.name, ) @property def migration_name_fragment(self): return self.name_lower def references_model(self, name, app_label): name_lower = name.lower() if name_lower == self.name_lower: return True # Check we didn't inherit from the model reference_model_tuple = (app_label, name_lower) for base in self.bases: if ( base is not models.Model and isinstance(base, (models.base.ModelBase, str)) and resolve_relation(base, app_label) == reference_model_tuple ): return True # Check we have no FKs/M2Ms with it for _name, field in self.fields: if field_references( (app_label, self.name_lower), field, reference_model_tuple ): return True return False def reduce(self, operation, app_label): if ( isinstance(operation, DeleteModel) and self.name_lower == operation.name_lower and not self.options.get("proxy", False) ): return [] elif ( isinstance(operation, RenameModel) and self.name_lower == operation.old_name_lower ): return [ CreateModel( operation.new_name, fields=self.fields, options=self.options, bases=self.bases, managers=self.managers, ), ] elif ( isinstance(operation, AlterModelOptions) and self.name_lower == operation.name_lower ): options = {**self.options, **operation.options} for key in operation.ALTER_OPTION_KEYS: if key not in operation.options: options.pop(key, None) return [ CreateModel( self.name, fields=self.fields, options=options, bases=self.bases, managers=self.managers, ), ] elif ( isinstance(operation, AlterModelManagers) and self.name_lower == operation.name_lower ): return [ CreateModel( self.name, fields=self.fields, options=self.options, bases=self.bases, managers=operation.managers, ), ] elif ( isinstance(operation, AlterTogetherOptionOperation) and self.name_lower == operation.name_lower ): return [ CreateModel( self.name, fields=self.fields, options={ **self.options, **{operation.option_name: operation.option_value}, }, bases=self.bases, managers=self.managers, ), ] elif ( isinstance(operation, AlterOrderWithRespectTo) and self.name_lower == operation.name_lower ): return [ CreateModel( self.name, fields=self.fields, options={ **self.options, "order_with_respect_to": operation.order_with_respect_to, }, bases=self.bases, managers=self.managers, ), ] elif ( isinstance(operation, FieldOperation) and self.name_lower == operation.model_name_lower ): if isinstance(operation, AddField): return [ CreateModel( self.name, fields=self.fields + [(operation.name, operation.field)], options=self.options, bases=self.bases, managers=self.managers, ), ] elif isinstance(operation, AlterField): return [ CreateModel( self.name, fields=[ (n, operation.field if n == operation.name else v) for n, v in self.fields ], options=self.options, bases=self.bases, managers=self.managers, ), ] elif isinstance(operation, RemoveField): options = self.options.copy() for option_name in ("unique_together", "index_together"): option = options.pop(option_name, None) if option: option = set( filter( bool, ( tuple( f for f in fields if f != operation.name_lower ) for fields in option ), ) ) if option: options[option_name] = option order_with_respect_to = options.get("order_with_respect_to") if order_with_respect_to == operation.name_lower: del options["order_with_respect_to"] return [ CreateModel( self.name, fields=[ (n, v) for n, v in self.fields if n.lower() != operation.name_lower ], options=options, bases=self.bases, managers=self.managers, ), ] elif isinstance(operation, RenameField): options = self.options.copy() for option_name in ("unique_together", "index_together"): option = options.get(option_name) if option: options[option_name] = { tuple( operation.new_name if f == operation.old_name else f for f in fields ) for fields in option } order_with_respect_to = options.get("order_with_respect_to") if order_with_respect_to == operation.old_name: options["order_with_respect_to"] = operation.new_name return [ CreateModel( self.name, fields=[ (operation.new_name if n == operation.old_name else n, v) for n, v in self.fields ], options=options, bases=self.bases, managers=self.managers, ), ] return super().reduce(operation, app_label) class DeleteModel(ModelOperation): """Drop a model's table.""" def deconstruct(self): kwargs = { "name": self.name, } return (self.__class__.__qualname__, [], kwargs) def state_forwards(self, app_label, state): state.remove_model(app_label, self.name_lower) def database_forwards(self, app_label, schema_editor, from_state, to_state): model = from_state.apps.get_model(app_label, self.name) if self.allow_migrate_model(schema_editor.connection.alias, model): schema_editor.delete_model(model) def database_backwards(self, app_label, schema_editor, from_state, to_state): model = to_state.apps.get_model(app_label, self.name) if self.allow_migrate_model(schema_editor.connection.alias, model): schema_editor.create_model(model) def references_model(self, name, app_label): # The deleted model could be referencing the specified model through # related fields. return True def describe(self): return "Delete model %s" % self.name @property def migration_name_fragment(self): return "delete_%s" % self.name_lower class RenameModel(ModelOperation): """Rename a model.""" def __init__(self, old_name, new_name): self.old_name = old_name self.new_name = new_name super().__init__(old_name) @cached_property def old_name_lower(self): return self.old_name.lower() @cached_property def new_name_lower(self): return self.new_name.lower() def deconstruct(self): kwargs = { "old_name": self.old_name, "new_name": self.new_name, } return (self.__class__.__qualname__, [], kwargs) def state_forwards(self, app_label, state): state.rename_model(app_label, self.old_name, self.new_name) def database_forwards(self, app_label, schema_editor, from_state, to_state): new_model = to_state.apps.get_model(app_label, self.new_name) if self.allow_migrate_model(schema_editor.connection.alias, new_model): old_model = from_state.apps.get_model(app_label, self.old_name) # Move the main table schema_editor.alter_db_table( new_model, old_model._meta.db_table, new_model._meta.db_table, ) # Alter the fields pointing to us for related_object in old_model._meta.related_objects: if related_object.related_model == old_model: model = new_model related_key = (app_label, self.new_name_lower) else: model = related_object.related_model related_key = ( related_object.related_model._meta.app_label, related_object.related_model._meta.model_name, ) to_field = to_state.apps.get_model(*related_key)._meta.get_field( related_object.field.name ) schema_editor.alter_field( model, related_object.field, to_field, ) # Rename M2M fields whose name is based on this model's name. fields = zip( old_model._meta.local_many_to_many, new_model._meta.local_many_to_many ) for (old_field, new_field) in fields: # Skip self-referential fields as these are renamed above. if ( new_field.model == new_field.related_model or not new_field.remote_field.through._meta.auto_created ): continue # Rename the M2M table that's based on this model's name. old_m2m_model = old_field.remote_field.through new_m2m_model = new_field.remote_field.through schema_editor.alter_db_table( new_m2m_model, old_m2m_model._meta.db_table, new_m2m_model._meta.db_table, ) # Rename the column in the M2M table that's based on this # model's name. schema_editor.alter_field( new_m2m_model, old_m2m_model._meta.get_field(old_model._meta.model_name), new_m2m_model._meta.get_field(new_model._meta.model_name), ) def database_backwards(self, app_label, schema_editor, from_state, to_state): self.new_name_lower, self.old_name_lower = ( self.old_name_lower, self.new_name_lower, ) self.new_name, self.old_name = self.old_name, self.new_name self.database_forwards(app_label, schema_editor, from_state, to_state) self.new_name_lower, self.old_name_lower = ( self.old_name_lower, self.new_name_lower, ) self.new_name, self.old_name = self.old_name, self.new_name def references_model(self, name, app_label): return ( name.lower() == self.old_name_lower or name.lower() == self.new_name_lower ) def describe(self): return "Rename model %s to %s" % (self.old_name, self.new_name) @property def migration_name_fragment(self): return "rename_%s_%s" % (self.old_name_lower, self.new_name_lower) def reduce(self, operation, app_label): if ( isinstance(operation, RenameModel) and self.new_name_lower == operation.old_name_lower ): return [ RenameModel( self.old_name, operation.new_name, ), ] # Skip `ModelOperation.reduce` as we want to run `references_model` # against self.new_name. return super(ModelOperation, self).reduce( operation, app_label ) or not operation.references_model(self.new_name, app_label) class ModelOptionOperation(ModelOperation): def reduce(self, operation, app_label): if ( isinstance(operation, (self.__class__, DeleteModel)) and self.name_lower == operation.name_lower ): return [operation] return super().reduce(operation, app_label) class AlterModelTable(ModelOptionOperation): """Rename a model's table.""" def __init__(self, name, table): self.table = table super().__init__(name) def deconstruct(self): kwargs = { "name": self.name, "table": self.table, } return (self.__class__.__qualname__, [], kwargs) def state_forwards(self, app_label, state): state.alter_model_options(app_label, self.name_lower, {"db_table": self.table}) def database_forwards(self, app_label, schema_editor, from_state, to_state): new_model = to_state.apps.get_model(app_label, self.name) if self.allow_migrate_model(schema_editor.connection.alias, new_model): old_model = from_state.apps.get_model(app_label, self.name) schema_editor.alter_db_table( new_model, old_model._meta.db_table, new_model._meta.db_table, ) # Rename M2M fields whose name is based on this model's db_table for (old_field, new_field) in zip( old_model._meta.local_many_to_many, new_model._meta.local_many_to_many ): if new_field.remote_field.through._meta.auto_created: schema_editor.alter_db_table( new_field.remote_field.through, old_field.remote_field.through._meta.db_table, new_field.remote_field.through._meta.db_table, ) def database_backwards(self, app_label, schema_editor, from_state, to_state): return self.database_forwards(app_label, schema_editor, from_state, to_state) def describe(self): return "Rename table for %s to %s" % ( self.name, self.table if self.table is not None else "(default)", ) @property def migration_name_fragment(self): return "alter_%s_table" % self.name_lower class AlterTogetherOptionOperation(ModelOptionOperation): option_name = None def __init__(self, name, option_value): if option_value: option_value = set(normalize_together(option_value)) setattr(self, self.option_name, option_value) super().__init__(name) @cached_property def option_value(self): return getattr(self, self.option_name) def deconstruct(self): kwargs = { "name": self.name, self.option_name: self.option_value, } return (self.__class__.__qualname__, [], kwargs) def state_forwards(self, app_label, state): state.alter_model_options( app_label, self.name_lower, {self.option_name: self.option_value}, ) def database_forwards(self, app_label, schema_editor, from_state, to_state): new_model = to_state.apps.get_model(app_label, self.name) if self.allow_migrate_model(schema_editor.connection.alias, new_model): old_model = from_state.apps.get_model(app_label, self.name) alter_together = getattr(schema_editor, "alter_%s" % self.option_name) alter_together( new_model, getattr(old_model._meta, self.option_name, set()), getattr(new_model._meta, self.option_name, set()), ) def database_backwards(self, app_label, schema_editor, from_state, to_state): return self.database_forwards(app_label, schema_editor, from_state, to_state) def references_field(self, model_name, name, app_label): return self.references_model(model_name, app_label) and ( not self.option_value or any((name in fields) for fields in self.option_value) ) def describe(self): return "Alter %s for %s (%s constraint(s))" % ( self.option_name, self.name, len(self.option_value or ""), ) @property def migration_name_fragment(self): return "alter_%s_%s" % (self.name_lower, self.option_name) def can_reduce_through(self, operation, app_label): return super().can_reduce_through(operation, app_label) or ( isinstance(operation, AlterTogetherOptionOperation) and type(operation) is not type(self) ) class AlterUniqueTogether(AlterTogetherOptionOperation): """ Change the value of unique_together to the target one. Input value of unique_together must be a set of tuples. """ option_name = "unique_together" def __init__(self, name, unique_together): super().__init__(name, unique_together) class AlterIndexTogether(AlterTogetherOptionOperation): """ Change the value of index_together to the target one. Input value of index_together must be a set of tuples. """ option_name = "index_together" def __init__(self, name, index_together): super().__init__(name, index_together) class AlterOrderWithRespectTo(ModelOptionOperation): """Represent a change with the order_with_respect_to option.""" option_name = "order_with_respect_to" def __init__(self, name, order_with_respect_to): self.order_with_respect_to = order_with_respect_to super().__init__(name) def deconstruct(self): kwargs = { "name": self.name, "order_with_respect_to": self.order_with_respect_to, } return (self.__class__.__qualname__, [], kwargs) def state_forwards(self, app_label, state): state.alter_model_options( app_label, self.name_lower, {self.option_name: self.order_with_respect_to}, ) def database_forwards(self, app_label, schema_editor, from_state, to_state): to_model = to_state.apps.get_model(app_label, self.name) if self.allow_migrate_model(schema_editor.connection.alias, to_model): from_model = from_state.apps.get_model(app_label, self.name) # Remove a field if we need to if ( from_model._meta.order_with_respect_to and not to_model._meta.order_with_respect_to ): schema_editor.remove_field( from_model, from_model._meta.get_field("_order") ) # Add a field if we need to (altering the column is untouched as # it's likely a rename) elif ( to_model._meta.order_with_respect_to and not from_model._meta.order_with_respect_to ): field = to_model._meta.get_field("_order") if not field.has_default(): field.default = 0 schema_editor.add_field( from_model, field, ) def database_backwards(self, app_label, schema_editor, from_state, to_state): self.database_forwards(app_label, schema_editor, from_state, to_state) def references_field(self, model_name, name, app_label): return self.references_model(model_name, app_label) and ( self.order_with_respect_to is None or name == self.order_with_respect_to ) def describe(self): return "Set order_with_respect_to on %s to %s" % ( self.name, self.order_with_respect_to, ) @property def migration_name_fragment(self): return "alter_%s_order_with_respect_to" % self.name_lower class AlterModelOptions(ModelOptionOperation): """ Set new model options that don't directly affect the database schema (like verbose_name, permissions, ordering). Python code in migrations may still need them. """ # Model options we want to compare and preserve in an AlterModelOptions op ALTER_OPTION_KEYS = [ "base_manager_name", "default_manager_name", "default_related_name", "get_latest_by", "managed", "ordering", "permissions", "default_permissions", "select_on_save", "verbose_name", "verbose_name_plural", ] def __init__(self, name, options): self.options = options super().__init__(name) def deconstruct(self): kwargs = { "name": self.name, "options": self.options, } return (self.__class__.__qualname__, [], kwargs) def state_forwards(self, app_label, state): state.alter_model_options( app_label, self.name_lower, self.options, self.ALTER_OPTION_KEYS, ) def database_forwards(self, app_label, schema_editor, from_state, to_state): pass def database_backwards(self, app_label, schema_editor, from_state, to_state): pass def describe(self): return "Change Meta options on %s" % self.name @property def migration_name_fragment(self): return "alter_%s_options" % self.name_lower class AlterModelManagers(ModelOptionOperation): """Alter the model's managers.""" serialization_expand_args = ["managers"] def __init__(self, name, managers): self.managers = managers super().__init__(name) def deconstruct(self): return (self.__class__.__qualname__, [self.name, self.managers], {}) def state_forwards(self, app_label, state): state.alter_model_managers(app_label, self.name_lower, self.managers) def database_forwards(self, app_label, schema_editor, from_state, to_state): pass def database_backwards(self, app_label, schema_editor, from_state, to_state): pass def describe(self): return "Change managers on %s" % self.name @property def migration_name_fragment(self): return "alter_%s_managers" % self.name_lower class IndexOperation(Operation): option_name = "indexes" @cached_property def model_name_lower(self): return self.model_name.lower() class AddIndex(IndexOperation): """Add an index on a model.""" def __init__(self, model_name, index): self.model_name = model_name if not index.name: raise ValueError( "Indexes passed to AddIndex operations require a name " "argument. %r doesn't have one." % index ) self.index = index def state_forwards(self, app_label, state): state.add_index(app_label, self.model_name_lower, self.index) def database_forwards(self, app_label, schema_editor, from_state, to_state): model = to_state.apps.get_model(app_label, self.model_name) if self.allow_migrate_model(schema_editor.connection.alias, model): schema_editor.add_index(model, self.index) def database_backwards(self, app_label, schema_editor, from_state, to_state): model = from_state.apps.get_model(app_label, self.model_name) if self.allow_migrate_model(schema_editor.connection.alias, model): schema_editor.remove_index(model, self.index) def deconstruct(self): kwargs = { "model_name": self.model_name, "index": self.index, } return ( self.__class__.__qualname__, [], kwargs, ) def describe(self): if self.index.expressions: return "Create index %s on %s on model %s" % ( self.index.name, ", ".join([str(expression) for expression in self.index.expressions]), self.model_name, ) return "Create index %s on field(s) %s of model %s" % ( self.index.name, ", ".join(self.index.fields), self.model_name, ) @property def migration_name_fragment(self): return "%s_%s" % (self.model_name_lower, self.index.name.lower()) class RemoveIndex(IndexOperation): """Remove an index from a model.""" def __init__(self, model_name, name): self.model_name = model_name self.name = name def state_forwards(self, app_label, state): state.remove_index(app_label, self.model_name_lower, self.name) def database_forwards(self, app_label, schema_editor, from_state, to_state): model = from_state.apps.get_model(app_label, self.model_name) if self.allow_migrate_model(schema_editor.connection.alias, model): from_model_state = from_state.models[app_label, self.model_name_lower] index = from_model_state.get_index_by_name(self.name) schema_editor.remove_index(model, index) def database_backwards(self, app_label, schema_editor, from_state, to_state): model = to_state.apps.get_model(app_label, self.model_name) if self.allow_migrate_model(schema_editor.connection.alias, model): to_model_state = to_state.models[app_label, self.model_name_lower] index = to_model_state.get_index_by_name(self.name) schema_editor.add_index(model, index) def deconstruct(self): kwargs = { "model_name": self.model_name, "name": self.name, } return ( self.__class__.__qualname__, [], kwargs, ) def describe(self): return "Remove index %s from %s" % (self.name, self.model_name) @property def migration_name_fragment(self): return "remove_%s_%s" % (self.model_name_lower, self.name.lower()) class RenameIndex(IndexOperation): """Rename an index.""" def __init__(self, model_name, new_name, old_name=None, old_fields=None): if not old_name and not old_fields: raise ValueError( "RenameIndex requires one of old_name and old_fields arguments to be " "set." ) if old_name and old_fields: raise ValueError( "RenameIndex.old_name and old_fields are mutually exclusive." ) self.model_name = model_name self.new_name = new_name self.old_name = old_name self.old_fields = old_fields @cached_property def old_name_lower(self): return self.old_name.lower() @cached_property def new_name_lower(self): return self.new_name.lower() def deconstruct(self): kwargs = { "model_name": self.model_name, "new_name": self.new_name, } if self.old_name: kwargs["old_name"] = self.old_name if self.old_fields: kwargs["old_fields"] = self.old_fields return (self.__class__.__qualname__, [], kwargs) def state_forwards(self, app_label, state): if self.old_fields: state.add_index( app_label, self.model_name_lower, models.Index(fields=self.old_fields, name=self.new_name), ) state.remove_model_options( app_label, self.model_name_lower, AlterIndexTogether.option_name, self.old_fields, ) else: state.rename_index( app_label, self.model_name_lower, self.old_name, self.new_name ) def database_forwards(self, app_label, schema_editor, from_state, to_state): model = to_state.apps.get_model(app_label, self.model_name) if not self.allow_migrate_model(schema_editor.connection.alias, model): return if self.old_fields: from_model = from_state.apps.get_model(app_label, self.model_name) columns = [ from_model._meta.get_field(field).column for field in self.old_fields ] matching_index_name = schema_editor._constraint_names( from_model, column_names=columns, index=True ) if len(matching_index_name) != 1: raise ValueError( "Found wrong number (%s) of indexes for %s(%s)." % ( len(matching_index_name), from_model._meta.db_table, ", ".join(columns), ) ) old_index = models.Index( fields=self.old_fields, name=matching_index_name[0], ) else: from_model_state = from_state.models[app_label, self.model_name_lower] old_index = from_model_state.get_index_by_name(self.old_name) # Don't alter when the index name is not changed. if old_index.name == self.new_name: return to_model_state = to_state.models[app_label, self.model_name_lower] new_index = to_model_state.get_index_by_name(self.new_name) schema_editor.rename_index(model, old_index, new_index) def database_backwards(self, app_label, schema_editor, from_state, to_state): if self.old_fields: # Backward operation with unnamed index is a no-op. return self.new_name_lower, self.old_name_lower = ( self.old_name_lower, self.new_name_lower, ) self.new_name, self.old_name = self.old_name, self.new_name self.database_forwards(app_label, schema_editor, from_state, to_state) self.new_name_lower, self.old_name_lower = ( self.old_name_lower, self.new_name_lower, ) self.new_name, self.old_name = self.old_name, self.new_name def describe(self): if self.old_name: return ( f"Rename index {self.old_name} on {self.model_name} to {self.new_name}" ) return ( f"Rename unnamed index for {self.old_fields} on {self.model_name} to " f"{self.new_name}" ) @property def migration_name_fragment(self): if self.old_name: return "rename_%s_%s" % (self.old_name_lower, self.new_name_lower) return "rename_%s_%s_%s" % ( self.model_name_lower, "_".join(self.old_fields), self.new_name_lower, ) def reduce(self, operation, app_label): if ( isinstance(operation, RenameIndex) and self.model_name_lower == operation.model_name_lower and operation.old_name and self.new_name_lower == operation.old_name_lower ): return [ RenameIndex( self.model_name, new_name=operation.new_name, old_name=self.old_name, old_fields=self.old_fields, ) ] return super().reduce(operation, app_label) class AddConstraint(IndexOperation): option_name = "constraints" def __init__(self, model_name, constraint): self.model_name = model_name self.constraint = constraint def state_forwards(self, app_label, state): state.add_constraint(app_label, self.model_name_lower, self.constraint) def database_forwards(self, app_label, schema_editor, from_state, to_state): model = to_state.apps.get_model(app_label, self.model_name) if self.allow_migrate_model(schema_editor.connection.alias, model): schema_editor.add_constraint(model, self.constraint) def database_backwards(self, app_label, schema_editor, from_state, to_state): model = to_state.apps.get_model(app_label, self.model_name) if self.allow_migrate_model(schema_editor.connection.alias, model): schema_editor.remove_constraint(model, self.constraint) def deconstruct(self): return ( self.__class__.__name__, [], { "model_name": self.model_name, "constraint": self.constraint, }, ) def describe(self): return "Create constraint %s on model %s" % ( self.constraint.name, self.model_name, ) @property def migration_name_fragment(self): return "%s_%s" % (self.model_name_lower, self.constraint.name.lower()) class RemoveConstraint(IndexOperation): option_name = "constraints" def __init__(self, model_name, name): self.model_name = model_name self.name = name def state_forwards(self, app_label, state): state.remove_constraint(app_label, self.model_name_lower, self.name) def database_forwards(self, app_label, schema_editor, from_state, to_state): model = to_state.apps.get_model(app_label, self.model_name) if self.allow_migrate_model(schema_editor.connection.alias, model): from_model_state = from_state.models[app_label, self.model_name_lower] constraint = from_model_state.get_constraint_by_name(self.name) schema_editor.remove_constraint(model, constraint) def database_backwards(self, app_label, schema_editor, from_state, to_state): model = to_state.apps.get_model(app_label, self.model_name) if self.allow_migrate_model(schema_editor.connection.alias, model): to_model_state = to_state.models[app_label, self.model_name_lower] constraint = to_model_state.get_constraint_by_name(self.name) schema_editor.add_constraint(model, constraint) def deconstruct(self): return ( self.__class__.__name__, [], { "model_name": self.model_name, "name": self.name, }, ) def describe(self): return "Remove constraint %s from model %s" % (self.name, self.model_name) @property def migration_name_fragment(self): return "remove_%s_%s" % (self.model_name_lower, self.name.lower())