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impl.py
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# mypy: allow-untyped-defs, allow-incomplete-defs, allow-untyped-calls # mypy: no-warn-return-any, allow-any-generics from __future__ import annotations import logging import re from typing import Any from typing import Callable from typing import Dict from typing import Iterable from typing import List from typing import Mapping from typing import NamedTuple from typing import Optional from typing import Sequence from typing import Set from typing import Tuple from typing import Type from typing import TYPE_CHECKING from typing import Union from sqlalchemy import cast from sqlalchemy import schema from sqlalchemy import text from . import _autogen from . import base from ._autogen import _constraint_sig as _constraint_sig from ._autogen import ComparisonResult as ComparisonResult from .. import util from ..util import sqla_compat if TYPE_CHECKING: from typing import Literal from typing import TextIO from sqlalchemy.engine import Connection from sqlalchemy.engine import Dialect from sqlalchemy.engine.cursor import CursorResult from sqlalchemy.engine.reflection import Inspector from sqlalchemy.sql import ClauseElement from sqlalchemy.sql import Executable from sqlalchemy.sql.elements import ColumnElement from sqlalchemy.sql.elements import quoted_name from sqlalchemy.sql.schema import Column from sqlalchemy.sql.schema import Constraint from sqlalchemy.sql.schema import ForeignKeyConstraint from sqlalchemy.sql.schema import Index from sqlalchemy.sql.schema import Table from sqlalchemy.sql.schema import UniqueConstraint from sqlalchemy.sql.selectable import TableClause from sqlalchemy.sql.type_api import TypeEngine from .base import _ServerDefault from ..autogenerate.api import AutogenContext from ..operations.batch import ApplyBatchImpl from ..operations.batch import BatchOperationsImpl log = logging.getLogger(__name__) class ImplMeta(type): def __init__( cls, classname: str, bases: Tuple[Type[DefaultImpl]], dict_: Dict[str, Any], ): newtype = type.__init__(cls, classname, bases, dict_) if "__dialect__" in dict_: _impls[dict_["__dialect__"]] = cls # type: ignore[assignment] return newtype _impls: Dict[str, Type[DefaultImpl]] = {} class DefaultImpl(metaclass=ImplMeta): """Provide the entrypoint for major migration operations, including database-specific behavioral variances. While individual SQL/DDL constructs already provide for database-specific implementations, variances here allow for entirely different sequences of operations to take place for a particular migration, such as SQL Server's special 'IDENTITY INSERT' step for bulk inserts. """ __dialect__ = "default" transactional_ddl = False command_terminator = ";" type_synonyms: Tuple[Set[str], ...] = ({"NUMERIC", "DECIMAL"},) type_arg_extract: Sequence[str] = () # These attributes are deprecated in SQLAlchemy via #10247. They need to # be ignored to support older version that did not use dialect kwargs. # They only apply to Oracle and are replaced by oracle_order, # oracle_on_null identity_attrs_ignore: Tuple[str, ...] = ("order", "on_null") def __init__( self, dialect: Dialect, connection: Optional[Connection], as_sql: bool, transactional_ddl: Optional[bool], output_buffer: Optional[TextIO], context_opts: Dict[str, Any], ) -> None: self.dialect = dialect self.connection = connection self.as_sql = as_sql self.literal_binds = context_opts.get("literal_binds", False) self.output_buffer = output_buffer self.memo: dict = {} self.context_opts = context_opts if transactional_ddl is not None: self.transactional_ddl = transactional_ddl if self.literal_binds: if not self.as_sql: raise util.CommandError( "Can't use literal_binds setting without as_sql mode" ) @classmethod def get_by_dialect(cls, dialect: Dialect) -> Type[DefaultImpl]: return _impls[dialect.name] def static_output(self, text: str) -> None: assert self.output_buffer is not None self.output_buffer.write(text + "\n\n") self.output_buffer.flush() def requires_recreate_in_batch( self, batch_op: BatchOperationsImpl ) -> bool: """Return True if the given :class:`.BatchOperationsImpl` would need the table to be recreated and copied in order to proceed. Normally, only returns True on SQLite when operations other than add_column are present. """ return False def prep_table_for_batch( self, batch_impl: ApplyBatchImpl, table: Table ) -> None: """perform any operations needed on a table before a new one is created to replace it in batch mode. the PG dialect uses this to drop constraints on the table before the new one uses those same names. """ @property def bind(self) -> Optional[Connection]: return self.connection def _exec( self, construct: Union[Executable, str], execution_options: Optional[Mapping[str, Any]] = None, multiparams: Optional[Sequence[Mapping[str, Any]]] = None, params: Mapping[str, Any] = util.immutabledict(), ) -> Optional[CursorResult]: if isinstance(construct, str): construct = text(construct) if self.as_sql: if multiparams is not None or params: raise TypeError("SQL parameters not allowed with as_sql") compile_kw: dict[str, Any] if self.literal_binds and not isinstance( construct, schema.DDLElement ): compile_kw = dict(compile_kwargs={"literal_binds": True}) else: compile_kw = {} if TYPE_CHECKING: assert isinstance(construct, ClauseElement) compiled = construct.compile(dialect=self.dialect, **compile_kw) self.static_output( str(compiled).replace("\t", " ").strip() + self.command_terminator ) return None else: conn = self.connection assert conn is not None if execution_options: conn = conn.execution_options(**execution_options) if params and multiparams is not None: raise TypeError( "Can't send params and multiparams at the same time" ) if multiparams: return conn.execute(construct, multiparams) else: return conn.execute(construct, params) def execute( self, sql: Union[Executable, str], execution_options: Optional[dict[str, Any]] = None, ) -> None: self._exec(sql, execution_options) def alter_column( self, table_name: str, column_name: str, nullable: Optional[bool] = None, server_default: Union[_ServerDefault, Literal[False]] = False, name: Optional[str] = None, type_: Optional[TypeEngine] = None, schema: Optional[str] = None, autoincrement: Optional[bool] = None, comment: Optional[Union[str, Literal[False]]] = False, existing_comment: Optional[str] = None, existing_type: Optional[TypeEngine] = None, existing_server_default: Optional[_ServerDefault] = None, existing_nullable: Optional[bool] = None, existing_autoincrement: Optional[bool] = None, **kw: Any, ) -> None: if autoincrement is not None or existing_autoincrement is not None: util.warn( "autoincrement and existing_autoincrement " "only make sense for MySQL", stacklevel=3, ) if nullable is not None: self._exec( base.ColumnNullable( table_name, column_name, nullable, schema=schema, existing_type=existing_type, existing_server_default=existing_server_default, existing_nullable=existing_nullable, existing_comment=existing_comment, ) ) if server_default is not False: kw = {} cls_: Type[ Union[ base.ComputedColumnDefault, base.IdentityColumnDefault, base.ColumnDefault, ] ] if sqla_compat._server_default_is_computed( server_default, existing_server_default ): cls_ = base.ComputedColumnDefault elif sqla_compat._server_default_is_identity( server_default, existing_server_default ): cls_ = base.IdentityColumnDefault kw["impl"] = self else: cls_ = base.ColumnDefault self._exec( cls_( table_name, column_name, server_default, # type:ignore[arg-type] schema=schema, existing_type=existing_type, existing_server_default=existing_server_default, existing_nullable=existing_nullable, existing_comment=existing_comment, **kw, ) ) if type_ is not None: self._exec( base.ColumnType( table_name, column_name, type_, schema=schema, existing_type=existing_type, existing_server_default=existing_server_default, existing_nullable=existing_nullable, existing_comment=existing_comment, ) ) if comment is not False: self._exec( base.ColumnComment( table_name, column_name, comment, schema=schema, existing_type=existing_type, existing_server_default=existing_server_default, existing_nullable=existing_nullable, existing_comment=existing_comment, ) ) # do the new name last ;) if name is not None: self._exec( base.ColumnName( table_name, column_name, name, schema=schema, existing_type=existing_type, existing_server_default=existing_server_default, existing_nullable=existing_nullable, ) ) def add_column( self, table_name: str, column: Column[Any], schema: Optional[Union[str, quoted_name]] = None, ) -> None: self._exec(base.AddColumn(table_name, column, schema=schema)) def drop_column( self, table_name: str, column: Column[Any], schema: Optional[str] = None, **kw, ) -> None: self._exec(base.DropColumn(table_name, column, schema=schema)) def add_constraint(self, const: Any) -> None: if const._create_rule is None or const._create_rule(self): self._exec(schema.AddConstraint(const)) def drop_constraint(self, const: Constraint) -> None: self._exec(schema.DropConstraint(const)) def rename_table( self, old_table_name: str, new_table_name: Union[str, quoted_name], schema: Optional[Union[str, quoted_name]] = None, ) -> None: self._exec( base.RenameTable(old_table_name, new_table_name, schema=schema) ) def create_table(self, table: Table) -> None: table.dispatch.before_create( table, self.connection, checkfirst=False, _ddl_runner=self ) self._exec(schema.CreateTable(table)) table.dispatch.after_create( table, self.connection, checkfirst=False, _ddl_runner=self ) for index in table.indexes: self._exec(schema.CreateIndex(index)) with_comment = ( self.dialect.supports_comments and not self.dialect.inline_comments ) comment = table.comment if comment and with_comment: self.create_table_comment(table) for column in table.columns: comment = column.comment if comment and with_comment: self.create_column_comment(column) def drop_table(self, table: Table) -> None: table.dispatch.before_drop( table, self.connection, checkfirst=False, _ddl_runner=self ) self._exec(schema.DropTable(table)) table.dispatch.after_drop( table, self.connection, checkfirst=False, _ddl_runner=self ) def create_index(self, index: Index, **kw: Any) -> None: self._exec(schema.CreateIndex(index, **kw)) def create_table_comment(self, table: Table) -> None: self._exec(schema.SetTableComment(table)) def drop_table_comment(self, table: Table) -> None: self._exec(schema.DropTableComment(table)) def create_column_comment(self, column: ColumnElement[Any]) -> None: self._exec(schema.SetColumnComment(column)) def drop_index(self, index: Index, **kw: Any) -> None: self._exec(schema.DropIndex(index, **kw)) def bulk_insert( self, table: Union[TableClause, Table], rows: List[dict], multiinsert: bool = True, ) -> None: if not isinstance(rows, list): raise TypeError("List expected") elif rows and not isinstance(rows[0], dict): raise TypeError("List of dictionaries expected") if self.as_sql: for row in rows: self._exec( sqla_compat._insert_inline(table).values( **{ k: ( sqla_compat._literal_bindparam( k, v, type_=table.c[k].type ) if not isinstance( v, sqla_compat._literal_bindparam ) else v ) for k, v in row.items() } ) ) else: if rows: if multiinsert: self._exec( sqla_compat._insert_inline(table), multiparams=rows ) else: for row in rows: self._exec( sqla_compat._insert_inline(table).values(**row) ) def _tokenize_column_type(self, column: Column) -> Params: definition: str definition = self.dialect.type_compiler.process(column.type).lower() # tokenize the SQLAlchemy-generated version of a type, so that # the two can be compared. # # examples: # NUMERIC(10, 5) # TIMESTAMP WITH TIMEZONE # INTEGER UNSIGNED # INTEGER (10) UNSIGNED # INTEGER(10) UNSIGNED # varchar character set utf8 # tokens: List[str] = re.findall(r"[\w\-_]+|\(.+?\)", definition) term_tokens: List[str] = [] paren_term = None for token in tokens: if re.match(r"^\(.*\)$", token): paren_term = token else: term_tokens.append(token) params = Params(term_tokens[0], term_tokens[1:], [], {}) if paren_term: term: str for term in re.findall("[^(),]+", paren_term): if "=" in term: key, val = term.split("=") params.kwargs[key.strip()] = val.strip() else: params.args.append(term.strip()) return params def _column_types_match( self, inspector_params: Params, metadata_params: Params ) -> bool: if inspector_params.token0 == metadata_params.token0: return True synonyms = [{t.lower() for t in batch} for batch in self.type_synonyms] inspector_all_terms = " ".join( [inspector_params.token0] + inspector_params.tokens ) metadata_all_terms = " ".join( [metadata_params.token0] + metadata_params.tokens ) for batch in synonyms: if {inspector_all_terms, metadata_all_terms}.issubset(batch) or { inspector_params.token0, metadata_params.token0, }.issubset(batch): return True return False def _column_args_match( self, inspected_params: Params, meta_params: Params ) -> bool: """We want to compare column parameters. However, we only want to compare parameters that are set. If they both have `collation`, we want to make sure they are the same. However, if only one specifies it, dont flag it for being less specific """ if ( len(meta_params.tokens) == len(inspected_params.tokens) and meta_params.tokens != inspected_params.tokens ): return False if ( len(meta_params.args) == len(inspected_params.args) and meta_params.args != inspected_params.args ): return False insp = " ".join(inspected_params.tokens).lower() meta = " ".join(meta_params.tokens).lower() for reg in self.type_arg_extract: mi = re.search(reg, insp) mm = re.search(reg, meta) if mi and mm and mi.group(1) != mm.group(1): return False return True def compare_type( self, inspector_column: Column[Any], metadata_column: Column ) -> bool: """Returns True if there ARE differences between the types of the two columns. Takes impl.type_synonyms into account between retrospected and metadata types """ inspector_params = self._tokenize_column_type(inspector_column) metadata_params = self._tokenize_column_type(metadata_column) if not self._column_types_match(inspector_params, metadata_params): return True if not self._column_args_match(inspector_params, metadata_params): return True return False def compare_server_default( self, inspector_column, metadata_column, rendered_metadata_default, rendered_inspector_default, ): return rendered_inspector_default != rendered_metadata_default def correct_for_autogen_constraints( self, conn_uniques: Set[UniqueConstraint], conn_indexes: Set[Index], metadata_unique_constraints: Set[UniqueConstraint], metadata_indexes: Set[Index], ) -> None: pass def cast_for_batch_migrate(self, existing, existing_transfer, new_type): if existing.type._type_affinity is not new_type._type_affinity: existing_transfer["expr"] = cast( existing_transfer["expr"], new_type ) def render_ddl_sql_expr( self, expr: ClauseElement, is_server_default: bool = False, **kw: Any ) -> str: """Render a SQL expression that is typically a server default, index expression, etc. """ compile_kw = {"literal_binds": True, "include_table": False} return str( expr.compile(dialect=self.dialect, compile_kwargs=compile_kw) ) def _compat_autogen_column_reflect(self, inspector: Inspector) -> Callable: return self.autogen_column_reflect def correct_for_autogen_foreignkeys( self, conn_fks: Set[ForeignKeyConstraint], metadata_fks: Set[ForeignKeyConstraint], ) -> None: pass def autogen_column_reflect(self, inspector, table, column_info): """A hook that is attached to the 'column_reflect' event for when a Table is reflected from the database during the autogenerate process. Dialects can elect to modify the information gathered here. """ def start_migrations(self) -> None: """A hook called when :meth:`.EnvironmentContext.run_migrations` is called. Implementations can set up per-migration-run state here. """ def emit_begin(self) -> None: """Emit the string ``BEGIN``, or the backend-specific equivalent, on the current connection context. This is used in offline mode and typically via :meth:`.EnvironmentContext.begin_transaction`. """ self.static_output("BEGIN" + self.command_terminator) def emit_commit(self) -> None: """Emit the string ``COMMIT``, or the backend-specific equivalent, on the current connection context. This is used in offline mode and typically via :meth:`.EnvironmentContext.begin_transaction`. """ self.static_output("COMMIT" + self.command_terminator) def render_type( self, type_obj: TypeEngine, autogen_context: AutogenContext ) -> Union[str, Literal[False]]: return False def _compare_identity_default(self, metadata_identity, inspector_identity): # ignored contains the attributes that were not considered # because assumed to their default values in the db. diff, ignored = _compare_identity_options( metadata_identity, inspector_identity, sqla_compat.Identity(), skip={"always"}, ) meta_always = getattr(metadata_identity, "always", None) inspector_always = getattr(inspector_identity, "always", None) # None and False are the same in this comparison if bool(meta_always) != bool(inspector_always): diff.add("always") diff.difference_update(self.identity_attrs_ignore) # returns 3 values: return ( # different identity attributes diff, # ignored identity attributes ignored, # if the two identity should be considered different bool(diff) or bool(metadata_identity) != bool(inspector_identity), ) def _compare_index_unique( self, metadata_index: Index, reflected_index: Index ) -> Optional[str]: conn_unique = bool(reflected_index.unique) meta_unique = bool(metadata_index.unique) if conn_unique != meta_unique: return f"unique={conn_unique} to unique={meta_unique}" else: return None def _create_metadata_constraint_sig( self, constraint: _autogen._C, **opts: Any ) -> _constraint_sig[_autogen._C]: return _constraint_sig.from_constraint(True, self, constraint, **opts) def _create_reflected_constraint_sig( self, constraint: _autogen._C, **opts: Any ) -> _constraint_sig[_autogen._C]: return _constraint_sig.from_constraint(False, self, constraint, **opts) def compare_indexes( self, metadata_index: Index, reflected_index: Index, ) -> ComparisonResult: """Compare two indexes by comparing the signature generated by ``create_index_sig``. This method returns a ``ComparisonResult``. """ msg: List[str] = [] unique_msg = self._compare_index_unique( metadata_index, reflected_index ) if unique_msg: msg.append(unique_msg) m_sig = self._create_metadata_constraint_sig(metadata_index) r_sig = self._create_reflected_constraint_sig(reflected_index) assert _autogen.is_index_sig(m_sig) assert _autogen.is_index_sig(r_sig) # The assumption is that the index have no expression for sig in m_sig, r_sig: if sig.has_expressions: log.warning( "Generating approximate signature for index %s. " "The dialect " "implementation should either skip expression indexes " "or provide a custom implementation.", sig.const, ) if m_sig.column_names != r_sig.column_names: msg.append( f"expression {r_sig.column_names} to {m_sig.column_names}" ) if msg: return ComparisonResult.Different(msg) else: return ComparisonResult.Equal() def compare_unique_constraint( self, metadata_constraint: UniqueConstraint, reflected_constraint: UniqueConstraint, ) -> ComparisonResult: """Compare two unique constraints by comparing the two signatures. The arguments are two tuples that contain the unique constraint and the signatures generated by ``create_unique_constraint_sig``. This method returns a ``ComparisonResult``. """ metadata_tup = self._create_metadata_constraint_sig( metadata_constraint ) reflected_tup = self._create_reflected_constraint_sig( reflected_constraint ) meta_sig = metadata_tup.unnamed conn_sig = reflected_tup.unnamed if conn_sig != meta_sig: return ComparisonResult.Different( f"expression {conn_sig} to {meta_sig}" ) else: return ComparisonResult.Equal() def _skip_functional_indexes(self, metadata_indexes, conn_indexes): conn_indexes_by_name = {c.name: c for c in conn_indexes} for idx in list(metadata_indexes): if idx.name in conn_indexes_by_name: continue iex = sqla_compat.is_expression_index(idx) if iex: util.warn( "autogenerate skipping metadata-specified " "expression-based index " f"{idx.name!r}; dialect {self.__dialect__!r} under " f"SQLAlchemy {sqla_compat.sqlalchemy_version} can't " "reflect these indexes so they can't be compared" ) metadata_indexes.discard(idx) def adjust_reflected_dialect_options( self, reflected_object: Dict[str, Any], kind: str ) -> Dict[str, Any]: return reflected_object.get("dialect_options", {}) class Params(NamedTuple): token0: str tokens: List[str] args: List[str] kwargs: Dict[str, str] def _compare_identity_options( metadata_io: Union[schema.Identity, schema.Sequence, None], inspector_io: Union[schema.Identity, schema.Sequence, None], default_io: Union[schema.Identity, schema.Sequence], skip: Set[str], ): # this can be used for identity or sequence compare. # default_io is an instance of IdentityOption with all attributes to the # default value. meta_d = sqla_compat._get_identity_options_dict(metadata_io) insp_d = sqla_compat._get_identity_options_dict(inspector_io) diff = set() ignored_attr = set() def check_dicts( meta_dict: Mapping[str, Any], insp_dict: Mapping[str, Any], default_dict: Mapping[str, Any], attrs: Iterable[str], ): for attr in set(attrs).difference(skip): meta_value = meta_dict.get(attr) insp_value = insp_dict.get(attr) if insp_value != meta_value: default_value = default_dict.get(attr) if meta_value == default_value: ignored_attr.add(attr) else: diff.add(attr) check_dicts( meta_d, insp_d, sqla_compat._get_identity_options_dict(default_io), set(meta_d).union(insp_d), ) if sqla_compat.identity_has_dialect_kwargs: # use only the dialect kwargs in inspector_io since metadata_io # can have options for many backends check_dicts( getattr(metadata_io, "dialect_kwargs", {}), getattr(inspector_io, "dialect_kwargs", {}), default_io.dialect_kwargs, # type: ignore[union-attr] getattr(inspector_io, "dialect_kwargs", {}), ) return diff, ignored_attr