django-polymorphic/polymorphic/base.py

# -*- coding: utf-8 -*-
"""
PolymorphicModel Meta Class
"""
from __future__ import absolute_import

import inspect
import os
import sys

from django.db import models
from django.db.models.base import ModelBase
from django.db.models.manager import ManagerDescriptor

from .managers import PolymorphicManager
from .query import PolymorphicQuerySet

# PolymorphicQuerySet Q objects (and filter()) support these additional key words.
# These are forbidden as field names (a descriptive exception is raised)
POLYMORPHIC_SPECIAL_Q_KWORDS = ['instance_of', 'not_instance_of']

DUMPDATA_COMMAND = os.path.join('django', 'core', 'management', 'commands', 'dumpdata.py')


###################################################################################
# PolymorphicModel meta class

class PolymorphicModelBase(ModelBase):
    """
    Manager inheritance is a pretty complex topic which may need
    more thought regarding how this should be handled for polymorphic
    models.

    In any case, we probably should propagate 'objects' and 'base_objects'
    from PolymorphicModel to every subclass. We also want to somehow
    inherit/propagate _default_manager as well, as it needs to be polymorphic.

    The current implementation below is an experiment to solve this
    problem with a very simplistic approach: We unconditionally
    inherit/propagate any and all managers (using _copy_to_model),
    as long as they are defined on polymorphic models
    (the others are left alone).

    Like Django ModelBase, we special-case _default_manager:
    if there are any user-defined managers, it is set to the first of these.

    We also require that _default_manager as well as any user defined
    polymorphic managers produce querysets that are derived from
    PolymorphicQuerySet.
    """

    def __new__(self, model_name, bases, attrs):
        # print; print '###', model_name, '- bases:', bases

        # Workaround compatibility issue with six.with_metaclass() and custom Django model metaclasses:
        if not attrs and model_name == 'NewBase':
            return super(PolymorphicModelBase, self).__new__(self, model_name, bases, attrs)

        # create new model
        new_class = self.call_superclass_new_method(model_name, bases, attrs)

        # check if the model fields are all allowed
        self.validate_model_fields(new_class)

        # validate resulting default manager
        if not new_class._meta.abstract and not new_class._meta.swapped:
            self.validate_model_manager(new_class.objects, model_name, "objects")

        # for __init__ function of this class (monkeypatching inheritance accessors)
        new_class.polymorphic_super_sub_accessors_replaced = False

        # determine the name of the primary key field and store it into the class variable
        # polymorphic_primary_key_name (it is needed by query.py)
        for f in new_class._meta.fields:
            if f.primary_key and type(f) != models.OneToOneField:
                new_class.polymorphic_primary_key_name = f.name
                break

        return new_class

        @classmethod
        def get_first_user_defined_manager(mcs, new_class):
            # See if there is a manager attribute directly stored at this inheritance level.
            mgr_list = []
            for key, val in new_class.__dict__.items():
                if isinstance(val, ManagerDescriptor):
                    val = val.manager
                if not isinstance(val, PolymorphicManager):
                    continue

                mgr_list.append((val.creation_counter, key, val))

            # if there are user defined managers, use first one as _default_manager
            if mgr_list:
                _, manager_name, manager = sorted(mgr_list)[0]
                # sys.stderr.write( '\n# first user defined manager for model "{model}":\n#  "{mgrname}": {mgr}\n#  manager model: {mgrmodel}\n\n'
                #    .format( model=self.__name__, mgrname=manager_name, mgr=manager, mgrmodel=manager.model ) )
                return manager
            return None

    @classmethod
    def call_superclass_new_method(self, model_name, bases, attrs):
        """call __new__ method of super class and return the newly created class.
        Also work around a limitation in Django's ModelBase."""
        # There seems to be a general limitation in Django's app_label handling
        # regarding abstract models (in ModelBase). See issue 1 on github - TODO: propose patch for Django
        # We run into this problem if polymorphic.py is located in a top-level directory
        # which is directly in the python path. To work around this we temporarily set
        # app_label here for PolymorphicModel.
        meta = attrs.get('Meta', None)
        do_app_label_workaround = (meta
                                   and attrs['__module__'] == 'polymorphic'
                                   and model_name == 'PolymorphicModel'
                                   and getattr(meta, 'app_label', None) is None)

        if do_app_label_workaround:
            meta.app_label = 'poly_dummy_app_label'
        new_class = super(PolymorphicModelBase, self).__new__(self, model_name, bases, attrs)
        if do_app_label_workaround:
            del(meta.app_label)
        return new_class

    @classmethod
    def validate_model_fields(self, new_class):
        "check if all fields names are allowed (i.e. not in POLYMORPHIC_SPECIAL_Q_KWORDS)"
        for f in new_class._meta.fields:
            if f.name in POLYMORPHIC_SPECIAL_Q_KWORDS:
                e = 'PolymorphicModel: "%s" - field name "%s" is not allowed in polymorphic models'
                raise AssertionError(e % (new_class.__name__, f.name))

    @classmethod
    def validate_model_manager(self, manager, model_name, manager_name):
        """check if the manager is derived from PolymorphicManager
        and its querysets from PolymorphicQuerySet - throw AssertionError if not"""

        if not issubclass(type(manager), PolymorphicManager):
            e = 'PolymorphicModel: "' + model_name + '.' + manager_name + '" manager is of type "' + type(manager).__name__
            e += '", but must be a subclass of PolymorphicManager'
            raise AssertionError(e)
        if not getattr(manager, 'queryset_class', None) or not issubclass(manager.queryset_class, PolymorphicQuerySet):
            e = 'PolymorphicModel: "' + model_name + '.' + manager_name + '" (PolymorphicManager) has been instantiated with a queryset class which is'
            e += ' not a subclass of PolymorphicQuerySet (which is required)'
            raise AssertionError(e)
        return manager

    # hack: a small patch to Django would be a better solution.
    # Django's management command 'dumpdata' relies on non-polymorphic
    # behaviour of the _default_manager. Therefore, we catch any access to _default_manager
    # here and return the non-polymorphic default manager instead if we are called from 'dumpdata.py'
    # Otherwise, the base objects will be upcasted to polymorphic models, and be outputted as such.
    # (non-polymorphic default manager is 'base_objects' for polymorphic models).
    # This way we don't need to patch django.core.management.commands.dumpdata
    # for all supported Django versions.
    if len(sys.argv) > 1 and sys.argv[1] == 'dumpdata':
        # manage.py dumpdata is running

        def __getattribute__(self, name):
            if name == '_default_manager':
                frm = inspect.stack()[1]  # frm[1] is caller file name, frm[3] is caller function name
                if DUMPDATA_COMMAND in frm[1]:
                    return self.base_objects
                # caller_mod_name = inspect.getmodule(frm[0]).__name__  # does not work with python 2.4
                # if caller_mod_name == 'django.core.management.commands.dumpdata':

            return super(PolymorphicModelBase, self).__getattribute__(name)
    # TODO: investigate Django how this can be avoided