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Direktori : /opt/alt/python37/lib64/python3.7/site-packages/sqlalchemy/ext/declarative/ |
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# ext/declarative/base.py # Copyright (C) 2005-2019 the SQLAlchemy authors and contributors # <see AUTHORS file> # # This module is part of SQLAlchemy and is released under # the MIT License: http://www.opensource.org/licenses/mit-license.php """Internal implementation for declarative.""" import collections import weakref from sqlalchemy.orm import instrumentation from . import clsregistry from ... import event from ... import exc from ... import util from ...orm import class_mapper from ...orm import exc as orm_exc from ...orm import mapper from ...orm import mapperlib from ...orm import synonym from ...orm.attributes import QueryableAttribute from ...orm.base import _is_mapped_class from ...orm.base import InspectionAttr from ...orm.interfaces import MapperProperty from ...orm.properties import ColumnProperty from ...orm.properties import CompositeProperty from ...schema import Column from ...schema import Table from ...sql import expression from ...util import topological declared_attr = declarative_props = None def _declared_mapping_info(cls): # deferred mapping if _DeferredMapperConfig.has_cls(cls): return _DeferredMapperConfig.config_for_cls(cls) # regular mapping elif _is_mapped_class(cls): return class_mapper(cls, configure=False) else: return None def _resolve_for_abstract_or_classical(cls): if cls is object: return None if _get_immediate_cls_attr(cls, "__abstract__", strict=True): for sup in cls.__bases__: sup = _resolve_for_abstract_or_classical(sup) if sup is not None: return sup else: return None else: classical = _dive_for_classically_mapped_class(cls) if classical is not None: return classical else: return cls def _dive_for_classically_mapped_class(cls): # support issue #4321 # if we are within a base hierarchy, don't # search at all for classical mappings if hasattr(cls, "_decl_class_registry"): return None manager = instrumentation.manager_of_class(cls) if manager is not None: return cls else: for sup in cls.__bases__: mapper = _dive_for_classically_mapped_class(sup) if mapper is not None: return sup else: return None def _get_immediate_cls_attr(cls, attrname, strict=False): """return an attribute of the class that is either present directly on the class, e.g. not on a superclass, or is from a superclass but this superclass is a non-mapped mixin, that is, not a descendant of the declarative base and is also not classically mapped. This is used to detect attributes that indicate something about a mapped class independently from any mapped classes that it may inherit from. """ if not issubclass(cls, object): return None for base in cls.__mro__: _is_declarative_inherits = hasattr(base, "_decl_class_registry") _is_classicial_inherits = ( not _is_declarative_inherits and _dive_for_classically_mapped_class(base) is not None ) if attrname in base.__dict__ and ( base is cls or ( (base in cls.__bases__ if strict else True) and not _is_declarative_inherits and not _is_classicial_inherits ) ): return getattr(base, attrname) else: return None def _as_declarative(cls, classname, dict_): global declared_attr, declarative_props if declared_attr is None: from .api import declared_attr declarative_props = (declared_attr, util.classproperty) if _get_immediate_cls_attr(cls, "__abstract__", strict=True): return _MapperConfig.setup_mapping(cls, classname, dict_) def _check_declared_props_nocascade(obj, name, cls): if isinstance(obj, declarative_props): if getattr(obj, "_cascading", False): util.warn( "@declared_attr.cascading is not supported on the %s " "attribute on class %s. This attribute invokes for " "subclasses in any case." % (name, cls) ) return True else: return False class _MapperConfig(object): @classmethod def setup_mapping(cls, cls_, classname, dict_): defer_map = _get_immediate_cls_attr( cls_, "_sa_decl_prepare_nocascade", strict=True ) or hasattr(cls_, "_sa_decl_prepare") if defer_map: cfg_cls = _DeferredMapperConfig else: cfg_cls = _MapperConfig cfg_cls(cls_, classname, dict_) def __init__(self, cls_, classname, dict_): self.cls = cls_ # dict_ will be a dictproxy, which we can't write to, and we need to! self.dict_ = dict(dict_) self.classname = classname self.persist_selectable = None self.properties = util.OrderedDict() self.declared_columns = set() self.column_copies = {} self._setup_declared_events() # temporary registry. While early 1.0 versions # set up the ClassManager here, by API contract # we can't do that until there's a mapper. self.cls._sa_declared_attr_reg = {} self._scan_attributes() mapperlib._CONFIGURE_MUTEX.acquire() try: clsregistry.add_class(self.classname, self.cls) self._extract_mappable_attributes() self._extract_declared_columns() self._setup_table() self._setup_inheritance() self._early_mapping() finally: mapperlib._CONFIGURE_MUTEX.release() def _early_mapping(self): self.map() def _setup_declared_events(self): if _get_immediate_cls_attr(self.cls, "__declare_last__"): @event.listens_for(mapper, "after_configured") def after_configured(): self.cls.__declare_last__() if _get_immediate_cls_attr(self.cls, "__declare_first__"): @event.listens_for(mapper, "before_configured") def before_configured(): self.cls.__declare_first__() def _scan_attributes(self): cls = self.cls dict_ = self.dict_ column_copies = self.column_copies mapper_args_fn = None table_args = inherited_table_args = None tablename = None for base in cls.__mro__: class_mapped = ( base is not cls and _declared_mapping_info(base) is not None and not _get_immediate_cls_attr( base, "_sa_decl_prepare_nocascade", strict=True ) ) if not class_mapped and base is not cls: self._produce_column_copies(base) for name, obj in vars(base).items(): if name == "__mapper_args__": check_decl = _check_declared_props_nocascade( obj, name, cls ) if not mapper_args_fn and (not class_mapped or check_decl): # don't even invoke __mapper_args__ until # after we've determined everything about the # mapped table. # make a copy of it so a class-level dictionary # is not overwritten when we update column-based # arguments. def mapper_args_fn(): return dict(cls.__mapper_args__) elif name == "__tablename__": check_decl = _check_declared_props_nocascade( obj, name, cls ) if not tablename and (not class_mapped or check_decl): tablename = cls.__tablename__ elif name == "__table_args__": check_decl = _check_declared_props_nocascade( obj, name, cls ) if not table_args and (not class_mapped or check_decl): table_args = cls.__table_args__ if not isinstance( table_args, (tuple, dict, type(None)) ): raise exc.ArgumentError( "__table_args__ value must be a tuple, " "dict, or None" ) if base is not cls: inherited_table_args = True elif class_mapped: if isinstance(obj, declarative_props): util.warn( "Regular (i.e. not __special__) " "attribute '%s.%s' uses @declared_attr, " "but owning class %s is mapped - " "not applying to subclass %s." % (base.__name__, name, base, cls) ) continue elif base is not cls: # we're a mixin, abstract base, or something that is # acting like that for now. if isinstance(obj, Column): # already copied columns to the mapped class. continue elif isinstance(obj, MapperProperty): raise exc.InvalidRequestError( "Mapper properties (i.e. deferred," "column_property(), relationship(), etc.) must " "be declared as @declared_attr callables " "on declarative mixin classes." ) elif isinstance(obj, declarative_props): oldclassprop = isinstance(obj, util.classproperty) if not oldclassprop and obj._cascading: if name in dict_: # unfortunately, while we can use the user- # defined attribute here to allow a clean # override, if there's another # subclass below then it still tries to use # this. not sure if there is enough # information here to add this as a feature # later on. util.warn( "Attribute '%s' on class %s cannot be " "processed due to " "@declared_attr.cascading; " "skipping" % (name, cls) ) dict_[name] = column_copies[ obj ] = ret = obj.__get__(obj, cls) setattr(cls, name, ret) else: if oldclassprop: util.warn_deprecated( "Use of sqlalchemy.util.classproperty on " "declarative classes is deprecated." ) # access attribute using normal class access ret = getattr(cls, name) # correct for proxies created from hybrid_property # or similar. note there is no known case that # produces nested proxies, so we are only # looking one level deep right now. if ( isinstance(ret, InspectionAttr) and ret._is_internal_proxy and not isinstance( ret.original_property, MapperProperty ) ): ret = ret.descriptor dict_[name] = column_copies[obj] = ret if ( isinstance(ret, (Column, MapperProperty)) and ret.doc is None ): ret.doc = obj.__doc__ # here, the attribute is some other kind of property that # we assume is not part of the declarative mapping. # however, check for some more common mistakes else: self._warn_for_decl_attributes(base, name, obj) if inherited_table_args and not tablename: table_args = None self.table_args = table_args self.tablename = tablename self.mapper_args_fn = mapper_args_fn def _warn_for_decl_attributes(self, cls, key, c): if isinstance(c, expression.ColumnClause): util.warn( "Attribute '%s' on class %s appears to be a non-schema " "'sqlalchemy.sql.column()' " "object; this won't be part of the declarative mapping" % (key, cls) ) def _produce_column_copies(self, base): cls = self.cls dict_ = self.dict_ column_copies = self.column_copies # copy mixin columns to the mapped class for name, obj in vars(base).items(): if isinstance(obj, Column): if getattr(cls, name) is not obj: # if column has been overridden # (like by the InstrumentedAttribute of the # superclass), skip continue elif obj.foreign_keys: raise exc.InvalidRequestError( "Columns with foreign keys to other columns " "must be declared as @declared_attr callables " "on declarative mixin classes. " ) elif name not in dict_ and not ( "__table__" in dict_ and (obj.name or name) in dict_["__table__"].c ): column_copies[obj] = copy_ = obj.copy() copy_._creation_order = obj._creation_order setattr(cls, name, copy_) dict_[name] = copy_ def _extract_mappable_attributes(self): cls = self.cls dict_ = self.dict_ our_stuff = self.properties late_mapped = _get_immediate_cls_attr( cls, "_sa_decl_prepare_nocascade", strict=True ) for k in list(dict_): if k in ("__table__", "__tablename__", "__mapper_args__"): continue value = dict_[k] if isinstance(value, declarative_props): if isinstance(value, declared_attr) and value._cascading: util.warn( "Use of @declared_attr.cascading only applies to " "Declarative 'mixin' and 'abstract' classes. " "Currently, this flag is ignored on mapped class " "%s" % self.cls ) value = getattr(cls, k) elif ( isinstance(value, QueryableAttribute) and value.class_ is not cls and value.key != k ): # detect a QueryableAttribute that's already mapped being # assigned elsewhere in userland, turn into a synonym() value = synonym(value.key) setattr(cls, k, value) if ( isinstance(value, tuple) and len(value) == 1 and isinstance(value[0], (Column, MapperProperty)) ): util.warn( "Ignoring declarative-like tuple value of attribute " "'%s': possibly a copy-and-paste error with a comma " "accidentally placed at the end of the line?" % k ) continue elif not isinstance(value, (Column, MapperProperty)): # using @declared_attr for some object that # isn't Column/MapperProperty; remove from the dict_ # and place the evaluated value onto the class. if not k.startswith("__"): dict_.pop(k) self._warn_for_decl_attributes(cls, k, value) if not late_mapped: setattr(cls, k, value) continue # we expect to see the name 'metadata' in some valid cases; # however at this point we see it's assigned to something trying # to be mapped, so raise for that. elif k == "metadata": raise exc.InvalidRequestError( "Attribute name 'metadata' is reserved " "for the MetaData instance when using a " "declarative base class." ) prop = clsregistry._deferred_relationship(cls, value) our_stuff[k] = prop def _extract_declared_columns(self): our_stuff = self.properties # set up attributes in the order they were created our_stuff.sort(key=lambda key: our_stuff[key]._creation_order) # extract columns from the class dict declared_columns = self.declared_columns name_to_prop_key = collections.defaultdict(set) for key, c in list(our_stuff.items()): if isinstance(c, (ColumnProperty, CompositeProperty)): for col in c.columns: if isinstance(col, Column) and col.table is None: _undefer_column_name(key, col) if not isinstance(c, CompositeProperty): name_to_prop_key[col.name].add(key) declared_columns.add(col) elif isinstance(c, Column): _undefer_column_name(key, c) name_to_prop_key[c.name].add(key) declared_columns.add(c) # if the column is the same name as the key, # remove it from the explicit properties dict. # the normal rules for assigning column-based properties # will take over, including precedence of columns # in multi-column ColumnProperties. if key == c.key: del our_stuff[key] for name, keys in name_to_prop_key.items(): if len(keys) > 1: util.warn( "On class %r, Column object %r named " "directly multiple times, " "only one will be used: %s. " "Consider using orm.synonym instead" % (self.classname, name, (", ".join(sorted(keys)))) ) def _setup_table(self): cls = self.cls tablename = self.tablename table_args = self.table_args dict_ = self.dict_ declared_columns = self.declared_columns declared_columns = self.declared_columns = sorted( declared_columns, key=lambda c: c._creation_order ) table = None if hasattr(cls, "__table_cls__"): table_cls = util.unbound_method_to_callable(cls.__table_cls__) else: table_cls = Table if "__table__" not in dict_: if tablename is not None: args, table_kw = (), {} if table_args: if isinstance(table_args, dict): table_kw = table_args elif isinstance(table_args, tuple): if isinstance(table_args[-1], dict): args, table_kw = table_args[0:-1], table_args[-1] else: args = table_args autoload = dict_.get("__autoload__") if autoload: table_kw["autoload"] = True cls.__table__ = table = table_cls( tablename, cls.metadata, *(tuple(declared_columns) + tuple(args)), **table_kw ) else: table = cls.__table__ if declared_columns: for c in declared_columns: if not table.c.contains_column(c): raise exc.ArgumentError( "Can't add additional column %r when " "specifying __table__" % c.key ) self.local_table = table def _setup_inheritance(self): table = self.local_table cls = self.cls table_args = self.table_args declared_columns = self.declared_columns # since we search for classical mappings now, search for # multiple mapped bases as well and raise an error. inherits = [] for c in cls.__bases__: c = _resolve_for_abstract_or_classical(c) if c is None: continue if _declared_mapping_info( c ) is not None and not _get_immediate_cls_attr( c, "_sa_decl_prepare_nocascade", strict=True ): inherits.append(c) if inherits: if len(inherits) > 1: raise exc.InvalidRequestError( "Class %s has multiple mapped bases: %r" % (cls, inherits) ) self.inherits = inherits[0] else: self.inherits = None if ( table is None and self.inherits is None and not _get_immediate_cls_attr(cls, "__no_table__") ): raise exc.InvalidRequestError( "Class %r does not have a __table__ or __tablename__ " "specified and does not inherit from an existing " "table-mapped class." % cls ) elif self.inherits: inherited_mapper = _declared_mapping_info(self.inherits) inherited_table = inherited_mapper.local_table inherited_persist_selectable = inherited_mapper.persist_selectable if table is None: # single table inheritance. # ensure no table args if table_args: raise exc.ArgumentError( "Can't place __table_args__ on an inherited class " "with no table." ) # add any columns declared here to the inherited table. for c in declared_columns: if c.name in inherited_table.c: if inherited_table.c[c.name] is c: continue raise exc.ArgumentError( "Column '%s' on class %s conflicts with " "existing column '%s'" % (c, cls, inherited_table.c[c.name]) ) if c.primary_key: raise exc.ArgumentError( "Can't place primary key columns on an inherited " "class with no table." ) inherited_table.append_column(c) if ( inherited_persist_selectable is not None and inherited_persist_selectable is not inherited_table ): inherited_persist_selectable._refresh_for_new_column(c) def _prepare_mapper_arguments(self): properties = self.properties if self.mapper_args_fn: mapper_args = self.mapper_args_fn() else: mapper_args = {} # make sure that column copies are used rather # than the original columns from any mixins for k in ("version_id_col", "polymorphic_on"): if k in mapper_args: v = mapper_args[k] mapper_args[k] = self.column_copies.get(v, v) assert ( "inherits" not in mapper_args ), "Can't specify 'inherits' explicitly with declarative mappings" if self.inherits: mapper_args["inherits"] = self.inherits if self.inherits and not mapper_args.get("concrete", False): # single or joined inheritance # exclude any cols on the inherited table which are # not mapped on the parent class, to avoid # mapping columns specific to sibling/nephew classes inherited_mapper = _declared_mapping_info(self.inherits) inherited_table = inherited_mapper.local_table if "exclude_properties" not in mapper_args: mapper_args["exclude_properties"] = exclude_properties = set( [ c.key for c in inherited_table.c if c not in inherited_mapper._columntoproperty ] ).union(inherited_mapper.exclude_properties or ()) exclude_properties.difference_update( [c.key for c in self.declared_columns] ) # look through columns in the current mapper that # are keyed to a propname different than the colname # (if names were the same, we'd have popped it out above, # in which case the mapper makes this combination). # See if the superclass has a similar column property. # If so, join them together. for k, col in list(properties.items()): if not isinstance(col, expression.ColumnElement): continue if k in inherited_mapper._props: p = inherited_mapper._props[k] if isinstance(p, ColumnProperty): # note here we place the subclass column # first. See [ticket:1892] for background. properties[k] = [col] + p.columns result_mapper_args = mapper_args.copy() result_mapper_args["properties"] = properties self.mapper_args = result_mapper_args def map(self): self._prepare_mapper_arguments() if hasattr(self.cls, "__mapper_cls__"): mapper_cls = util.unbound_method_to_callable( self.cls.__mapper_cls__ ) else: mapper_cls = mapper self.cls.__mapper__ = mp_ = mapper_cls( self.cls, self.local_table, **self.mapper_args ) del self.cls._sa_declared_attr_reg return mp_ class _DeferredMapperConfig(_MapperConfig): _configs = util.OrderedDict() def _early_mapping(self): pass @property def cls(self): return self._cls() @cls.setter def cls(self, class_): self._cls = weakref.ref(class_, self._remove_config_cls) self._configs[self._cls] = self @classmethod def _remove_config_cls(cls, ref): cls._configs.pop(ref, None) @classmethod def has_cls(cls, class_): # 2.6 fails on weakref if class_ is an old style class return isinstance(class_, type) and weakref.ref(class_) in cls._configs @classmethod def raise_unmapped_for_cls(cls, class_): if hasattr(class_, "_sa_raise_deferred_config"): class_._sa_raise_deferred_config() raise orm_exc.UnmappedClassError( class_, msg="Class %s has a deferred mapping on it. It is not yet " "usable as a mapped class." % orm_exc._safe_cls_name(class_), ) @classmethod def config_for_cls(cls, class_): return cls._configs[weakref.ref(class_)] @classmethod def classes_for_base(cls, base_cls, sort=True): classes_for_base = [ m for m, cls_ in [(m, m.cls) for m in cls._configs.values()] if cls_ is not None and issubclass(cls_, base_cls) ] if not sort: return classes_for_base all_m_by_cls = dict((m.cls, m) for m in classes_for_base) tuples = [] for m_cls in all_m_by_cls: tuples.extend( (all_m_by_cls[base_cls], all_m_by_cls[m_cls]) for base_cls in m_cls.__bases__ if base_cls in all_m_by_cls ) return list(topological.sort(tuples, classes_for_base)) def map(self): self._configs.pop(self._cls, None) return super(_DeferredMapperConfig, self).map() def _add_attribute(cls, key, value): """add an attribute to an existing declarative class. This runs through the logic to determine MapperProperty, adds it to the Mapper, adds a column to the mapped Table, etc. """ if "__mapper__" in cls.__dict__: if isinstance(value, Column): _undefer_column_name(key, value) cls.__table__.append_column(value) cls.__mapper__.add_property(key, value) elif isinstance(value, ColumnProperty): for col in value.columns: if isinstance(col, Column) and col.table is None: _undefer_column_name(key, col) cls.__table__.append_column(col) cls.__mapper__.add_property(key, value) elif isinstance(value, MapperProperty): cls.__mapper__.add_property( key, clsregistry._deferred_relationship(cls, value) ) elif isinstance(value, QueryableAttribute) and value.key != key: # detect a QueryableAttribute that's already mapped being # assigned elsewhere in userland, turn into a synonym() value = synonym(value.key) cls.__mapper__.add_property( key, clsregistry._deferred_relationship(cls, value) ) else: type.__setattr__(cls, key, value) cls.__mapper__._expire_memoizations() else: type.__setattr__(cls, key, value) def _del_attribute(cls, key): if ( "__mapper__" in cls.__dict__ and key in cls.__dict__ and not cls.__mapper__._dispose_called ): value = cls.__dict__[key] if isinstance( value, (Column, ColumnProperty, MapperProperty, QueryableAttribute) ): raise NotImplementedError( "Can't un-map individual mapped attributes on a mapped class." ) else: type.__delattr__(cls, key) cls.__mapper__._expire_memoizations() else: type.__delattr__(cls, key) def _declarative_constructor(self, **kwargs): """A simple constructor that allows initialization from kwargs. Sets attributes on the constructed instance using the names and values in ``kwargs``. Only keys that are present as attributes of the instance's class are allowed. These could be, for example, any mapped columns or relationships. """ cls_ = type(self) for k in kwargs: if not hasattr(cls_, k): raise TypeError( "%r is an invalid keyword argument for %s" % (k, cls_.__name__) ) setattr(self, k, kwargs[k]) _declarative_constructor.__name__ = "__init__" def _undefer_column_name(key, column): if column.key is None: column.key = key if column.name is None: column.name = key