Briq
/
django-polymorphic
6
0
Fork 0
Code Issues Pull Requests Releases Wiki Activity
django-polymorphic/polymorphic/query_translate.py

234 lines
8.9 KiB
Python
Raw Blame History

# -*- coding: utf-8 -*-
""" PolymorphicQuerySet support functions
Please see README.rst or DOCS.rst or http://chrisglass.github.com/django_polymorphic/
"""
from django.db import models
from django.contrib.contenttypes.models import ContentType
from django.db.models import Q
from compatibility_tools import compat_partition
###################################################################################
### PolymorphicQuerySet support functions
# These functions implement the additional filter- and Q-object functionality.
# They form a kind of small framework for easily adding more
# functionality to filters and Q objects.
# Probably a more general queryset enhancement class could be made out of them.
def translate_polymorphic_filter_definitions_in_kwargs(queryset_model, kwargs):
"""
Translate the keyword argument list for PolymorphicQuerySet.filter()
Any kwargs with special polymorphic functionality are replaced in the kwargs
dict with their vanilla django equivalents.
For some kwargs a direct replacement is not possible, as a Q object is needed
instead to implement the required functionality. In these cases the kwarg is
deleted from the kwargs dict and a Q object is added to the return list.
Modifies: kwargs dict
Returns: a list of non-keyword-arguments (Q objects) to be added to the filter() query.
"""
additional_args = []
for field_path, val in kwargs.items():
new_expr = _translate_polymorphic_filter_definition(queryset_model, field_path, val)
if type(new_expr) == tuple:
# replace kwargs element
del(kwargs[field_path])
kwargs[new_expr[0]] = new_expr[1]
elif isinstance(new_expr, models.Q):
del(kwargs[field_path])
additional_args.append(new_expr)
return additional_args
def translate_polymorphic_Q_object(queryset_model, potential_q_object):
def tree_node_correct_field_specs(my_model, node):
" process all children of this Q node "
for i in range(len(node.children)):
child = node.children[i]
if type(child) == tuple:
# this Q object child is a tuple => a kwarg like Q( instance_of=ModelB )
key, val = child
new_expr = _translate_polymorphic_filter_definition(my_model, key, val)
if new_expr:
node.children[i] = new_expr
else:
# this Q object child is another Q object, recursively process this as well
tree_node_correct_field_specs(my_model, child)
if isinstance(potential_q_object, models.Q):
tree_node_correct_field_specs(queryset_model, potential_q_object)
return potential_q_object
def translate_polymorphic_filter_definitions_in_args(queryset_model, args):
"""
Translate the non-keyword argument list for PolymorphicQuerySet.filter()
In the args list, we replace all kwargs to Q-objects that contain special
polymorphic functionality with their vanilla django equivalents.
We traverse the Q object tree for this (which is simple).
TODO: investigate: we modify the Q-objects ina args in-place. Is this OK?
Modifies: args list
"""
for q in args:
translate_polymorphic_Q_object(queryset_model, q)
def _translate_polymorphic_filter_definition(queryset_model, field_path, field_val):
"""
Translate a keyword argument (field_path=field_val), as used for
PolymorphicQuerySet.filter()-like functions (and Q objects).
A kwarg with special polymorphic functionality is translated into
its vanilla django equivalent, which is returned, either as tuple
(field_path, field_val) or as Q object.
Returns: kwarg tuple or Q object or None (if no change is required)
"""
# handle instance_of expressions or alternatively,
# if this is a normal Django filter expression, return None
if field_path == 'instance_of':
return _create_model_filter_Q(field_val)
elif field_path == 'not_instance_of':
return _create_model_filter_Q(field_val, not_instance_of=True)
elif not '___' in field_path:
return None # no change
# filter expression contains '___' (i.e. filter for polymorphic field)
# => get the model class specified in the filter expression
newpath = translate_polymorphic_field_path(queryset_model, field_path)
return (newpath, field_val)
def translate_polymorphic_field_path(queryset_model, field_path):
"""
Translate a field path from a keyword argument, as used for
PolymorphicQuerySet.filter()-like functions (and Q objects).
Supports leading '-' (for order_by args).
E.g.: if queryset_model is ModelA, then "ModelC___field3" is translated
into modela__modelb__modelc__field3.
Returns: translated path (unchanged, if no translation needed)
"""
classname, sep, pure_field_path = compat_partition(field_path, '___')
if not sep:
return field_path
assert classname, 'PolymorphicModel: %s: bad field specification' % field_path
negated = False
if classname[0] == '-':
negated = True
classname = classname.lstrip('-')
if '__' in classname:
# the user has app label prepended to class name via __ => use Django's get_model function
appname, sep, classname = compat_partition(classname, '__')
model = models.get_model(appname, classname)
assert model, 'PolymorphicModel: model %s (in app %s) not found!' % (model.__name__, appname)
if not issubclass(model, queryset_model):
e = 'PolymorphicModel: queryset filter error: "' + model.__name__ + '" is not derived from "' + queryset_model.__name__ + '"'
raise AssertionError(e)
else:
# the user has only given us the class name via __
# => select the model from the sub models of the queryset base model
# function to collect all sub-models, this should be optimized (cached)
def add_all_sub_models(model, result):
if issubclass(model, models.Model) and model != models.Model:
# model name is occurring twice in submodel inheritance tree => Error
if model.__name__ in result and model != result[model.__name__]:
e = 'PolymorphicModel: model name alone is ambiguous: %s.%s and %s.%s!\n'
e += 'In this case, please use the syntax: applabel__ModelName___field'
assert model, e % (
model._meta.app_label, model.__name__,
result[model.__name__]._meta.app_label, result[model.__name__].__name__)
result[model.__name__] = model
for b in model.__subclasses__():
add_all_sub_models(b, result)
submodels = {}
add_all_sub_models(queryset_model, submodels)
model = submodels.get(classname, None)
assert model, 'PolymorphicModel: model %s not found (not a subclass of %s)!' % (classname, queryset_model.__name__)
# create new field path for expressions, e.g. for baseclass=ModelA, myclass=ModelC
# 'modelb__modelc" is returned
def _create_base_path(baseclass, myclass):
bases = myclass.__bases__
for b in bases:
if b == baseclass:
return myclass.__name__.lower()
path = _create_base_path(baseclass, b)
if path:
return path + '__' + myclass.__name__.lower()
return ''
basepath = _create_base_path(queryset_model, model)
if negated:
newpath = '-'
else:
newpath = ''
newpath += basepath
if basepath:
newpath += '__'
newpath += pure_field_path
return newpath
def _create_model_filter_Q(modellist, not_instance_of=False):
"""
Helper function for instance_of / not_instance_of
Creates and returns a Q object that filters for the models in modellist,
including all subclasses of these models (as we want to do the same
as pythons isinstance() ).
.
We recursively collect all __subclasses__(), create a Q filter for each,
and or-combine these Q objects. This could be done much more
efficiently however (regarding the resulting sql), should an optimization
be needed.
"""
if not modellist:
return None
from polymorphic_model import PolymorphicModel
if type(modellist) != list and type(modellist) != tuple:
if issubclass(modellist, PolymorphicModel):
modellist = [modellist]
else:
assert False, 'PolymorphicModel: instance_of expects a list of (polymorphic) models or a single (polymorphic) model'
def q_class_with_subclasses(model):
q = Q(polymorphic_ctype=ContentType.objects.get_for_model(model, for_concrete_model=False))
for subclass in model.__subclasses__():
q = q | q_class_with_subclasses(subclass)
return q
qlist = [q_class_with_subclasses(m) for m in modellist]
q_ored = reduce(lambda a, b: a | b, qlist)
if not_instance_of:
q_ored = ~q_ored
return q_ored
Reference in New Issue View Git Blame Copy Permalink