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django-stubs/mypy_django_plugin/transformers/models.py
Maksim Kurnikov 665f4d8ea1 Make related manager inherit from objects of related model (#278) 
* related manager inherits from objects of related model

* fix test typechecking

* lint
2019-12-17 19:06:27 +03:00

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from typing import Dict, List, Optional, Type, cast
from django.db.models.base import Model
from django.db.models.fields import DateField, DateTimeField
from django.db.models.fields.related import ForeignKey
from django.db.models.fields.reverse_related import (
ManyToManyRel, ManyToOneRel, OneToOneRel,
)
from mypy.nodes import ARG_STAR2, Argument, Context, FuncDef, TypeInfo, Var
from mypy.plugin import ClassDefContext
from mypy.plugins import common
from mypy.semanal import SemanticAnalyzer
from mypy.types import AnyType, Instance
from mypy.types import Type as MypyType
from mypy.types import TypeOfAny
from mypy_django_plugin.django.context import DjangoContext
from mypy_django_plugin.lib import fullnames, helpers
from mypy_django_plugin.transformers import fields
from mypy_django_plugin.transformers.fields import get_field_descriptor_types
class ModelClassInitializer:
api: SemanticAnalyzer
def __init__(self, ctx: ClassDefContext, django_context: DjangoContext):
self.api = cast(SemanticAnalyzer, ctx.api)
self.model_classdef = ctx.cls
self.django_context = django_context
self.ctx = ctx
def lookup_typeinfo(self, fullname: str) -> Optional[TypeInfo]:
return helpers.lookup_fully_qualified_typeinfo(self.api, fullname)
def lookup_typeinfo_or_incomplete_defn_error(self, fullname: str) -> TypeInfo:
info = self.lookup_typeinfo(fullname)
if info is None:
raise helpers.IncompleteDefnException(f'No {fullname!r} found')
return info
def lookup_class_typeinfo_or_incomplete_defn_error(self, klass: type) -> TypeInfo:
fullname = helpers.get_class_fullname(klass)
field_info = self.lookup_typeinfo_or_incomplete_defn_error(fullname)
return field_info
def create_new_var(self, name: str, typ: MypyType) -> Var:
# type=: type of the variable itself
var = Var(name=name, type=typ)
# var.info: type of the object variable is bound to
var.info = self.model_classdef.info
var._fullname = self.model_classdef.info.fullname + '.' + name
var.is_initialized_in_class = True
var.is_inferred = True
return var
def add_new_node_to_model_class(self, name: str, typ: MypyType) -> None:
helpers.add_new_sym_for_info(self.model_classdef.info,
name=name,
sym_type=typ)
def add_new_class_for_current_module(self, name: str, bases: List[Instance]) -> TypeInfo:
current_module = self.api.modules[self.model_classdef.info.module_name]
new_class_info = helpers.add_new_class_for_module(current_module,
name=name, bases=bases)
return new_class_info
def run(self) -> None:
model_cls = self.django_context.get_model_class_by_fullname(self.model_classdef.fullname)
if model_cls is None:
return
self.run_with_model_cls(model_cls)
def run_with_model_cls(self, model_cls):
pass
class InjectAnyAsBaseForNestedMeta(ModelClassInitializer):
"""
Replaces
class MyModel(models.Model):
class Meta:
pass
with
class MyModel(models.Model):
class Meta(Any):
pass
to get around incompatible Meta inner classes for different models.
"""
def run(self) -> None:
meta_node = helpers.get_nested_meta_node_for_current_class(self.model_classdef.info)
if meta_node is None:
return None
meta_node.fallback_to_any = True
class AddDefaultPrimaryKey(ModelClassInitializer):
def run_with_model_cls(self, model_cls: Type[Model]) -> None:
auto_field = model_cls._meta.auto_field
if auto_field and not self.model_classdef.info.has_readable_member(auto_field.attname):
# autogenerated field
auto_field_fullname = helpers.get_class_fullname(auto_field.__class__)
auto_field_info = self.lookup_typeinfo_or_incomplete_defn_error(auto_field_fullname)
set_type, get_type = fields.get_field_descriptor_types(auto_field_info, is_nullable=False)
self.add_new_node_to_model_class(auto_field.attname, Instance(auto_field_info,
[set_type, get_type]))
class AddRelatedModelsId(ModelClassInitializer):
def run_with_model_cls(self, model_cls: Type[Model]) -> None:
for field in model_cls._meta.get_fields():
if isinstance(field, ForeignKey):
related_model_cls = self.django_context.get_field_related_model_cls(field)
if related_model_cls is None:
error_context: Context = self.ctx.cls
field_sym = self.ctx.cls.info.get(field.name)
if field_sym is not None and field_sym.node is not None:
error_context = field_sym.node
self.api.fail(f'Cannot find model {field.related_model!r} '
f'referenced in field {field.name!r} ',
ctx=error_context)
self.add_new_node_to_model_class(field.attname,
AnyType(TypeOfAny.explicit))
continue
if related_model_cls._meta.abstract:
continue
rel_primary_key_field = self.django_context.get_primary_key_field(related_model_cls)
try:
field_info = self.lookup_class_typeinfo_or_incomplete_defn_error(rel_primary_key_field.__class__)
except helpers.IncompleteDefnException as exc:
if not self.api.final_iteration:
raise exc
else:
continue
is_nullable = self.django_context.get_field_nullability(field, None)
set_type, get_type = get_field_descriptor_types(field_info, is_nullable)
self.add_new_node_to_model_class(field.attname,
Instance(field_info, [set_type, get_type]))
class AddManagers(ModelClassInitializer):
def has_any_parametrized_manager_as_base(self, info: TypeInfo) -> bool:
for base in helpers.iter_bases(info):
if self.is_any_parametrized_manager(base):
return True
return False
def is_any_parametrized_manager(self, typ: Instance) -> bool:
return typ.type.fullname in fullnames.MANAGER_CLASSES and isinstance(typ.args[0], AnyType)
def get_generated_manager_mappings(self, base_manager_fullname: str) -> Dict[str, str]:
base_manager_info = self.lookup_typeinfo(base_manager_fullname)
if (base_manager_info is None
or 'from_queryset_managers' not in base_manager_info.metadata):
return {}
return base_manager_info.metadata['from_queryset_managers']
def create_new_model_parametrized_manager(self, name: str, base_manager_info: TypeInfo) -> Instance:
bases = []
for original_base in base_manager_info.bases:
if self.is_any_parametrized_manager(original_base):
if original_base.type is None:
raise helpers.IncompleteDefnException()
original_base = helpers.reparametrize_instance(original_base,
[Instance(self.model_classdef.info, [])])
bases.append(original_base)
new_manager_info = self.add_new_class_for_current_module(name, bases)
# copy fields to a new manager
new_cls_def_context = ClassDefContext(cls=new_manager_info.defn,
reason=self.ctx.reason,
api=self.api)
custom_manager_type = Instance(new_manager_info, [Instance(self.model_classdef.info, [])])
for name, sym in base_manager_info.names.items():
# replace self type with new class, if copying method
if isinstance(sym.node, FuncDef):
helpers.copy_method_to_another_class(new_cls_def_context,
self_type=custom_manager_type,
new_method_name=name,
method_node=sym.node)
continue
new_sym = sym.copy()
if isinstance(new_sym.node, Var):
new_var = Var(name, type=sym.type)
new_var.info = new_manager_info
new_var._fullname = new_manager_info.fullname + '.' + name
new_sym.node = new_var
new_manager_info.names[name] = new_sym
return custom_manager_type
def run_with_model_cls(self, model_cls: Type[Model]) -> None:
for manager_name, manager in model_cls._meta.managers_map.items():
manager_class_name = manager.__class__.__name__
manager_fullname = helpers.get_class_fullname(manager.__class__)
try:
manager_info = self.lookup_typeinfo_or_incomplete_defn_error(manager_fullname)
except helpers.IncompleteDefnException as exc:
if not self.api.final_iteration:
raise exc
else:
base_manager_fullname = helpers.get_class_fullname(manager.__class__.__bases__[0])
generated_managers = self.get_generated_manager_mappings(base_manager_fullname)
if manager_fullname not in generated_managers:
# not a generated manager, continue with the loop
continue
real_manager_fullname = generated_managers[manager_fullname]
manager_info = self.lookup_typeinfo(real_manager_fullname) # type: ignore
if manager_info is None:
continue
manager_class_name = real_manager_fullname.rsplit('.', maxsplit=1)[1]
if manager_name not in self.model_classdef.info.names:
manager_type = Instance(manager_info, [Instance(self.model_classdef.info, [])])
self.add_new_node_to_model_class(manager_name, manager_type)
else:
# creates new MODELNAME_MANAGERCLASSNAME class that represents manager parametrized with current model
if not self.has_any_parametrized_manager_as_base(manager_info):
continue
custom_model_manager_name = manager.model.__name__ + '_' + manager_class_name
try:
custom_manager_type = self.create_new_model_parametrized_manager(custom_model_manager_name,
base_manager_info=manager_info)
except helpers.IncompleteDefnException:
continue
self.add_new_node_to_model_class(manager_name, custom_manager_type)
class AddDefaultManagerAttribute(ModelClassInitializer):
def run_with_model_cls(self, model_cls: Type[Model]) -> None:
# add _default_manager
if '_default_manager' not in self.model_classdef.info.names:
default_manager_fullname = helpers.get_class_fullname(model_cls._meta.default_manager.__class__)
default_manager_info = self.lookup_typeinfo_or_incomplete_defn_error(default_manager_fullname)
default_manager = Instance(default_manager_info, [Instance(self.model_classdef.info, [])])
self.add_new_node_to_model_class('_default_manager', default_manager)
class AddRelatedManagers(ModelClassInitializer):
def run_with_model_cls(self, model_cls: Type[Model]) -> None:
# add related managers
for relation in self.django_context.get_model_relations(model_cls):
attname = relation.get_accessor_name()
if attname is None:
# no reverse accessor
continue
related_model_cls = self.django_context.get_field_related_model_cls(relation)
if related_model_cls is None:
continue
try:
related_model_info = self.lookup_class_typeinfo_or_incomplete_defn_error(related_model_cls)
except helpers.IncompleteDefnException as exc:
if not self.api.final_iteration:
raise exc
else:
continue
if isinstance(relation, OneToOneRel):
self.add_new_node_to_model_class(attname, Instance(related_model_info, []))
continue
if isinstance(relation, (ManyToOneRel, ManyToManyRel)):
try:
related_manager_info = self.lookup_typeinfo_or_incomplete_defn_error(fullnames.RELATED_MANAGER_CLASS) # noqa: E501
if 'objects' not in related_model_info.names:
raise helpers.IncompleteDefnException()
except helpers.IncompleteDefnException as exc:
if not self.api.final_iteration:
raise exc
else:
continue
# create new RelatedManager subclass
parametrized_related_manager_type = Instance(related_manager_info,
[Instance(related_model_info, [])])
default_manager_type = related_model_info.names['objects'].type
if (default_manager_type is None
or not isinstance(default_manager_type, Instance)
or default_manager_type.type.fullname == fullnames.MANAGER_CLASS_FULLNAME):
self.add_new_node_to_model_class(attname, parametrized_related_manager_type)
continue
name = related_model_cls.__name__ + '_' + 'RelatedManager'
bases = [parametrized_related_manager_type, default_manager_type]
new_related_manager_info = self.add_new_class_for_current_module(name, bases)
self.add_new_node_to_model_class(attname, Instance(new_related_manager_info, []))
class AddExtraFieldMethods(ModelClassInitializer):
def run_with_model_cls(self, model_cls: Type[Model]) -> None:
# get_FOO_display for choices
for field in self.django_context.get_model_fields(model_cls):
if field.choices:
info = self.lookup_typeinfo_or_incomplete_defn_error('builtins.str')
return_type = Instance(info, [])
common.add_method(self.ctx,
name='get_{}_display'.format(field.attname),
args=[],
return_type=return_type)
# get_next_by, get_previous_by for Date, DateTime
for field in self.django_context.get_model_fields(model_cls):
if isinstance(field, (DateField, DateTimeField)) and not field.null:
return_type = Instance(self.model_classdef.info, [])
common.add_method(self.ctx,
name='get_next_by_{}'.format(field.attname),
args=[Argument(Var('kwargs', AnyType(TypeOfAny.explicit)),
AnyType(TypeOfAny.explicit),
initializer=None,
kind=ARG_STAR2)],
return_type=return_type)
common.add_method(self.ctx,
name='get_previous_by_{}'.format(field.attname),
args=[Argument(Var('kwargs', AnyType(TypeOfAny.explicit)),
AnyType(TypeOfAny.explicit),
initializer=None,
kind=ARG_STAR2)],
return_type=return_type)
class AddMetaOptionsAttribute(ModelClassInitializer):
def run_with_model_cls(self, model_cls: Type[Model]) -> None:
if '_meta' not in self.model_classdef.info.names:
options_info = self.lookup_typeinfo_or_incomplete_defn_error(fullnames.OPTIONS_CLASS_FULLNAME)
self.add_new_node_to_model_class('_meta',
Instance(options_info, [
Instance(self.model_classdef.info, [])
]))
def process_model_class(ctx: ClassDefContext,
django_context: DjangoContext) -> None:
initializers = [
InjectAnyAsBaseForNestedMeta,
AddDefaultPrimaryKey,
AddRelatedModelsId,
AddManagers,
AddDefaultManagerAttribute,
AddRelatedManagers,
AddExtraFieldMethods,
AddMetaOptionsAttribute,
]
for initializer_cls in initializers:
try:
initializer_cls(ctx, django_context).run()
except helpers.IncompleteDefnException:
if not ctx.api.final_iteration:
ctx.api.defer()
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