"""Provide the 'autogenerate' feature which can produce migration operations automatically.""" import contextlib from sqlalchemy import inspect from . import compare from . import render from .. import util from ..operations import ops def compare_metadata(context, metadata): """Compare a database schema to that given in a :class:`~sqlalchemy.schema.MetaData` instance. The database connection is presented in the context of a :class:`.MigrationContext` object, which provides database connectivity as well as optional comparison functions to use for datatypes and server defaults - see the "autogenerate" arguments at :meth:`.EnvironmentContext.configure` for details on these. The return format is a list of "diff" directives, each representing individual differences:: from alembic.migration import MigrationContext from alembic.autogenerate import compare_metadata from sqlalchemy.schema import SchemaItem from sqlalchemy.types import TypeEngine from sqlalchemy import (create_engine, MetaData, Column, Integer, String, Table) import pprint engine = create_engine("sqlite://") engine.execute(''' create table foo ( id integer not null primary key, old_data varchar, x integer )''') engine.execute(''' create table bar ( data varchar )''') metadata = MetaData() Table('foo', metadata, Column('id', Integer, primary_key=True), Column('data', Integer), Column('x', Integer, nullable=False) ) Table('bat', metadata, Column('info', String) ) mc = MigrationContext.configure(engine.connect()) diff = compare_metadata(mc, metadata) pprint.pprint(diff, indent=2, width=20) Output:: [ ( 'add_table', Table('bat', MetaData(bind=None), Column('info', String(), table=), schema=None)), ( 'remove_table', Table(u'bar', MetaData(bind=None), Column(u'data', VARCHAR(), table=), schema=None)), ( 'add_column', None, 'foo', Column('data', Integer(), table=)), ( 'remove_column', None, 'foo', Column(u'old_data', VARCHAR(), table=None)), [ ( 'modify_nullable', None, 'foo', u'x', { 'existing_server_default': None, 'existing_type': INTEGER()}, True, False)]] :param context: a :class:`.MigrationContext` instance. :param metadata: a :class:`~sqlalchemy.schema.MetaData` instance. .. seealso:: :func:`.produce_migrations` - produces a :class:`.MigrationScript` structure based on metadata comparison. """ migration_script = produce_migrations(context, metadata) return migration_script.upgrade_ops.as_diffs() def produce_migrations(context, metadata): """Produce a :class:`.MigrationScript` structure based on schema comparison. This function does essentially what :func:`.compare_metadata` does, but then runs the resulting list of diffs to produce the full :class:`.MigrationScript` object. For an example of what this looks like, see the example in :ref:`customizing_revision`. .. versionadded:: 0.8.0 .. seealso:: :func:`.compare_metadata` - returns more fundamental "diff" data from comparing a schema. """ autogen_context = AutogenContext(context, metadata=metadata) migration_script = ops.MigrationScript( rev_id=None, upgrade_ops=ops.UpgradeOps([]), downgrade_ops=ops.DowngradeOps([]), ) compare._populate_migration_script(autogen_context, migration_script) return migration_script def render_python_code( up_or_down_op, sqlalchemy_module_prefix="sa.", alembic_module_prefix="op.", render_as_batch=False, imports=(), render_item=None, migration_context=None, ): """Render Python code given an :class:`.UpgradeOps` or :class:`.DowngradeOps` object. This is a convenience function that can be used to test the autogenerate output of a user-defined :class:`.MigrationScript` structure. """ opts = { "sqlalchemy_module_prefix": sqlalchemy_module_prefix, "alembic_module_prefix": alembic_module_prefix, "render_item": render_item, "render_as_batch": render_as_batch, } if migration_context is None: from ..runtime.migration import MigrationContext from sqlalchemy.engine.default import DefaultDialect migration_context = MigrationContext.configure( dialect=DefaultDialect() ) autogen_context = AutogenContext(migration_context, opts=opts) autogen_context.imports = set(imports) return render._indent( render._render_cmd_body(up_or_down_op, autogen_context) ) def _render_migration_diffs(context, template_args): """legacy, used by test_autogen_composition at the moment""" autogen_context = AutogenContext(context) upgrade_ops = ops.UpgradeOps([]) compare._produce_net_changes(autogen_context, upgrade_ops) migration_script = ops.MigrationScript( rev_id=None, upgrade_ops=upgrade_ops, downgrade_ops=upgrade_ops.reverse(), ) render._render_python_into_templatevars( autogen_context, migration_script, template_args ) class AutogenContext(object): """Maintains configuration and state that's specific to an autogenerate operation.""" metadata = None """The :class:`~sqlalchemy.schema.MetaData` object representing the destination. This object is the one that is passed within ``env.py`` to the :paramref:`.EnvironmentContext.configure.target_metadata` parameter. It represents the structure of :class:`.Table` and other objects as stated in the current database model, and represents the destination structure for the database being examined. While the :class:`~sqlalchemy.schema.MetaData` object is primarily known as a collection of :class:`~sqlalchemy.schema.Table` objects, it also has an :attr:`~sqlalchemy.schema.MetaData.info` dictionary that may be used by end-user schemes to store additional schema-level objects that are to be compared in custom autogeneration schemes. """ connection = None """The :class:`~sqlalchemy.engine.base.Connection` object currently connected to the database backend being compared. This is obtained from the :attr:`.MigrationContext.bind` and is utimately set up in the ``env.py`` script. """ dialect = None """The :class:`~sqlalchemy.engine.Dialect` object currently in use. This is normally obtained from the :attr:`~sqlalchemy.engine.base.Connection.dialect` attribute. """ imports = None """A ``set()`` which contains string Python import directives. The directives are to be rendered into the ``${imports}`` section of a script template. The set is normally empty and can be modified within hooks such as the :paramref:`.EnvironmentContext.configure.render_item` hook. .. versionadded:: 0.8.3 .. seealso:: :ref:`autogen_render_types` """ migration_context = None """The :class:`.MigrationContext` established by the ``env.py`` script.""" def __init__( self, migration_context, metadata=None, opts=None, autogenerate=True ): if ( autogenerate and migration_context is not None and migration_context.as_sql ): raise util.CommandError( "autogenerate can't use as_sql=True as it prevents querying " "the database for schema information" ) if opts is None: opts = migration_context.opts self.metadata = metadata = ( opts.get("target_metadata", None) if metadata is None else metadata ) if ( autogenerate and metadata is None and migration_context is not None and migration_context.script is not None ): raise util.CommandError( "Can't proceed with --autogenerate option; environment " "script %s does not provide " "a MetaData object or sequence of objects to the context." % (migration_context.script.env_py_location) ) include_symbol = opts.get("include_symbol", None) include_object = opts.get("include_object", None) object_filters = [] if include_symbol: def include_symbol_filter( object_, name, type_, reflected, compare_to ): if type_ == "table": return include_symbol(name, object_.schema) else: return True object_filters.append(include_symbol_filter) if include_object: object_filters.append(include_object) self._object_filters = object_filters self.migration_context = migration_context if self.migration_context is not None: self.connection = self.migration_context.bind self.dialect = self.migration_context.dialect self.imports = set() self.opts = opts self._has_batch = False @util.memoized_property def inspector(self): return inspect(self.connection) @contextlib.contextmanager def _within_batch(self): self._has_batch = True yield self._has_batch = False def run_filters(self, object_, name, type_, reflected, compare_to): """Run the context's object filters and return True if the targets should be part of the autogenerate operation. This method should be run for every kind of object encountered within an autogenerate operation, giving the environment the chance to filter what objects should be included in the comparison. The filters here are produced directly via the :paramref:`.EnvironmentContext.configure.include_object` and :paramref:`.EnvironmentContext.configure.include_symbol` functions, if present. """ for fn in self._object_filters: if not fn(object_, name, type_, reflected, compare_to): return False else: return True @util.memoized_property def sorted_tables(self): """Return an aggregate of the :attr:`.MetaData.sorted_tables` collection(s). For a sequence of :class:`.MetaData` objects, this concatenates the :attr:`.MetaData.sorted_tables` collection for each individual :class:`.MetaData` in the order of the sequence. It does **not** collate the sorted tables collections. .. versionadded:: 0.9.0 """ result = [] for m in util.to_list(self.metadata): result.extend(m.sorted_tables) return result @util.memoized_property def table_key_to_table(self): """Return an aggregate of the :attr:`.MetaData.tables` dictionaries. The :attr:`.MetaData.tables` collection is a dictionary of table key to :class:`.Table`; this method aggregates the dictionary across multiple :class:`.MetaData` objects into one dictionary. Duplicate table keys are **not** supported; if two :class:`.MetaData` objects contain the same table key, an exception is raised. .. versionadded:: 0.9.0 """ result = {} for m in util.to_list(self.metadata): intersect = set(result).intersection(set(m.tables)) if intersect: raise ValueError( "Duplicate table keys across multiple " "MetaData objects: %s" % (", ".join('"%s"' % key for key in sorted(intersect))) ) result.update(m.tables) return result class RevisionContext(object): """Maintains configuration and state that's specific to a revision file generation operation.""" def __init__( self, config, script_directory, command_args, process_revision_directives=None, ): self.config = config self.script_directory = script_directory self.command_args = command_args self.process_revision_directives = process_revision_directives self.template_args = { "config": config # Let templates use config for # e.g. multiple databases } self.generated_revisions = [self._default_revision()] def _to_script(self, migration_script): template_args = {} for k, v in self.template_args.items(): template_args.setdefault(k, v) if getattr(migration_script, "_needs_render", False): autogen_context = self._last_autogen_context # clear out existing imports if we are doing multiple # renders autogen_context.imports = set() if migration_script.imports: autogen_context.imports.update(migration_script.imports) render._render_python_into_templatevars( autogen_context, migration_script, template_args ) return self.script_directory.generate_revision( migration_script.rev_id, migration_script.message, refresh=True, head=migration_script.head, splice=migration_script.splice, branch_labels=migration_script.branch_label, version_path=migration_script.version_path, depends_on=migration_script.depends_on, **template_args ) def run_autogenerate(self, rev, migration_context): self._run_environment(rev, migration_context, True) def run_no_autogenerate(self, rev, migration_context): self._run_environment(rev, migration_context, False) def _run_environment(self, rev, migration_context, autogenerate): if autogenerate: if self.command_args["sql"]: raise util.CommandError( "Using --sql with --autogenerate does not make any sense" ) if set(self.script_directory.get_revisions(rev)) != set( self.script_directory.get_revisions("heads") ): raise util.CommandError("Target database is not up to date.") upgrade_token = migration_context.opts["upgrade_token"] downgrade_token = migration_context.opts["downgrade_token"] migration_script = self.generated_revisions[-1] if not getattr(migration_script, "_needs_render", False): migration_script.upgrade_ops_list[-1].upgrade_token = upgrade_token migration_script.downgrade_ops_list[ -1 ].downgrade_token = downgrade_token migration_script._needs_render = True else: migration_script._upgrade_ops.append( ops.UpgradeOps([], upgrade_token=upgrade_token) ) migration_script._downgrade_ops.append( ops.DowngradeOps([], downgrade_token=downgrade_token) ) self._last_autogen_context = autogen_context = AutogenContext( migration_context, autogenerate=autogenerate ) if autogenerate: compare._populate_migration_script( autogen_context, migration_script ) if self.process_revision_directives: self.process_revision_directives( migration_context, rev, self.generated_revisions ) hook = migration_context.opts["process_revision_directives"] if hook: hook(migration_context, rev, self.generated_revisions) for migration_script in self.generated_revisions: migration_script._needs_render = True def _default_revision(self): op = ops.MigrationScript( rev_id=self.command_args["rev_id"] or util.rev_id(), message=self.command_args["message"], upgrade_ops=ops.UpgradeOps([]), downgrade_ops=ops.DowngradeOps([]), head=self.command_args["head"], splice=self.command_args["splice"], branch_label=self.command_args["branch_label"], version_path=self.command_args["version_path"], depends_on=self.command_args["depends_on"], ) return op def generate_scripts(self): for generated_revision in self.generated_revisions: yield self._to_script(generated_revision)