def validate_fieldsets(self, cls, model):
" Validate that fieldsets is properly formatted and doesn't contain duplicates. "
from myrobogals.admin.options import flatten_fieldsets
if cls.fieldsets: # default value is None
check_isseq(cls, 'fieldsets', cls.fieldsets)
for idx, fieldset in enumerate(cls.fieldsets):
check_isseq(cls, 'fieldsets[%d]' % idx, fieldset)
if len(fieldset) != 2:
raise ImproperlyConfigured("'%s.fieldsets[%d]' does not "
"have exactly two elements." % (cls.__name__, idx))
check_isdict(cls, 'fieldsets[%d][1]' % idx, fieldset[1])
if 'fields' not in fieldset[1]:
raise ImproperlyConfigured("'fields' key is required in "
"%s.fieldsets[%d][1] field options dict."
% (cls.__name__, idx))
self.check_field_spec(cls, model, fieldset[1]['fields'], "fieldsets[%d][1]['fields']" % idx)
flattened_fieldsets = flatten_fieldsets(cls.fieldsets)
if len(flattened_fieldsets) > len(set(flattened_fieldsets)):
raise ImproperlyConfigured('There are duplicate field(s) in %s.fieldsets' % cls.__name__)
def validate_fieldsets(self, cls, model):
" Validate that fieldsets is properly formatted and doesn't contain duplicates. "
from myrobogals.admin.options import flatten_fieldsets
if cls.fieldsets: # default value is None
check_isseq(cls, 'fieldsets', cls.fieldsets)
for idx, fieldset in enumerate(cls.fieldsets):
check_isseq(cls, 'fieldsets[%d]' % idx, fieldset)
if len(fieldset) != 2:
raise ImproperlyConfigured("'%s.fieldsets[%d]' does not "
"have exactly two elements." %
(cls.__name__, idx))
check_isdict(cls, 'fieldsets[%d][1]' % idx, fieldset[1])
if 'fields' not in fieldset[1]:
raise ImproperlyConfigured(
"'fields' key is required in "
"%s.fieldsets[%d][1] field options dict." %
(cls.__name__, idx))
self.check_field_spec(cls, model, fieldset[1]['fields'],
"fieldsets[%d][1]['fields']" % idx)
flattened_fieldsets = flatten_fieldsets(cls.fieldsets)
if len(flattened_fieldsets) > len(set(flattened_fieldsets)):
raise ImproperlyConfigured(
'There are duplicate field(s) in %s.fieldsets' %
cls.__name__)
def validate_base(cls, model):
opts = model._meta
# raw_id_fields
if hasattr(cls, 'raw_id_fields'):
check_isseq(cls, 'raw_id_fields', cls.raw_id_fields)
for idx, field in enumerate(cls.raw_id_fields):
f = get_field(cls, model, opts, 'raw_id_fields', field)
if not isinstance(f, (models.ForeignKey, models.ManyToManyField)):
raise ImproperlyConfigured("'%s.raw_id_fields[%d]', '%s' must "
"be either a ForeignKey or ManyToManyField."
% (cls.__name__, idx, field))
# fields
if cls.fields: # default value is None
check_isseq(cls, 'fields', cls.fields)
for field in cls.fields:
if field in cls.readonly_fields:
# Stuff can be put in fields that isn't actually a model field
# if it's in readonly_fields, readonly_fields will handle the
# validation of such things.
continue
check_formfield(cls, model, opts, 'fields', field)
try:
f = opts.get_field(field)
except models.FieldDoesNotExist:
# If we can't find a field on the model that matches,
# it could be an extra field on the form.
continue
if isinstance(f, models.ManyToManyField) and not f.rel.through._meta.auto_created:
raise ImproperlyConfigured("'%s.fields' can't include the ManyToManyField "
"field '%s' because '%s' manually specifies "
"a 'through' model." % (cls.__name__, field, field))
if cls.fieldsets:
raise ImproperlyConfigured('Both fieldsets and fields are specified in %s.' % cls.__name__)
if len(cls.fields) > len(set(cls.fields)):
raise ImproperlyConfigured('There are duplicate field(s) in %s.fields' % cls.__name__)
# fieldsets
if cls.fieldsets: # default value is None
check_isseq(cls, 'fieldsets', cls.fieldsets)
for idx, fieldset in enumerate(cls.fieldsets):
check_isseq(cls, 'fieldsets[%d]' % idx, fieldset)
if len(fieldset) != 2:
raise ImproperlyConfigured("'%s.fieldsets[%d]' does not "
"have exactly two elements." % (cls.__name__, idx))
check_isdict(cls, 'fieldsets[%d][1]' % idx, fieldset[1])
if 'fields' not in fieldset[1]:
raise ImproperlyConfigured("'fields' key is required in "
"%s.fieldsets[%d][1] field options dict."
% (cls.__name__, idx))
for fields in fieldset[1]['fields']:
# The entry in fields might be a tuple. If it is a standalone
# field, make it into a tuple to make processing easier.
if type(fields) != tuple:
fields = (fields,)
for field in fields:
if field in cls.readonly_fields:
# Stuff can be put in fields that isn't actually a
# model field if it's in readonly_fields,
# readonly_fields will handle the validation of such
# things.
continue
check_formfield(cls, model, opts, "fieldsets[%d][1]['fields']" % idx, field)
try:
f = opts.get_field(field)
if isinstance(f, models.ManyToManyField) and not f.rel.through._meta.auto_created:
raise ImproperlyConfigured("'%s.fieldsets[%d][1]['fields']' "
"can't include the ManyToManyField field '%s' because "
"'%s' manually specifies a 'through' model." % (
cls.__name__, idx, field, field))
except models.FieldDoesNotExist:
# If we can't find a field on the model that matches,
# it could be an extra field on the form.
pass
flattened_fieldsets = flatten_fieldsets(cls.fieldsets)
if len(flattened_fieldsets) > len(set(flattened_fieldsets)):
raise ImproperlyConfigured('There are duplicate field(s) in %s.fieldsets' % cls.__name__)
# exclude
if cls.exclude: # default value is None
check_isseq(cls, 'exclude', cls.exclude)
for field in cls.exclude:
check_formfield(cls, model, opts, 'exclude', field)
try:
f = opts.get_field(field)
except models.FieldDoesNotExist:
# If we can't find a field on the model that matches,
# it could be an extra field on the form.
continue
if len(cls.exclude) > len(set(cls.exclude)):
raise ImproperlyConfigured('There are duplicate field(s) in %s.exclude' % cls.__name__)
# form
if hasattr(cls, 'form') and not issubclass(cls.form, BaseModelForm):
raise ImproperlyConfigured("%s.form does not inherit from "
"BaseModelForm." % cls.__name__)
# filter_vertical
if hasattr(cls, 'filter_vertical'):
check_isseq(cls, 'filter_vertical', cls.filter_vertical)
for idx, field in enumerate(cls.filter_vertical):
f = get_field(cls, model, opts, 'filter_vertical', field)
if not isinstance(f, models.ManyToManyField):
raise ImproperlyConfigured("'%s.filter_vertical[%d]' must be "
"a ManyToManyField." % (cls.__name__, idx))
# filter_horizontal
if hasattr(cls, 'filter_horizontal'):
check_isseq(cls, 'filter_horizontal', cls.filter_horizontal)
for idx, field in enumerate(cls.filter_horizontal):
f = get_field(cls, model, opts, 'filter_horizontal', field)
if not isinstance(f, models.ManyToManyField):
raise ImproperlyConfigured("'%s.filter_horizontal[%d]' must be "
"a ManyToManyField." % (cls.__name__, idx))
# radio_fields
if hasattr(cls, 'radio_fields'):
check_isdict(cls, 'radio_fields', cls.radio_fields)
for field, val in cls.radio_fields.items():
f = get_field(cls, model, opts, 'radio_fields', field)
if not (isinstance(f, models.ForeignKey) or f.choices):
raise ImproperlyConfigured("'%s.radio_fields['%s']' "
"is neither an instance of ForeignKey nor does "
"have choices set." % (cls.__name__, field))
if not val in (HORIZONTAL, VERTICAL):
raise ImproperlyConfigured("'%s.radio_fields['%s']' "
"is neither admin.HORIZONTAL nor admin.VERTICAL."
% (cls.__name__, field))
# prepopulated_fields
if hasattr(cls, 'prepopulated_fields'):
check_isdict(cls, 'prepopulated_fields', cls.prepopulated_fields)
for field, val in cls.prepopulated_fields.items():
f = get_field(cls, model, opts, 'prepopulated_fields', field)
if isinstance(f, (models.DateTimeField, models.ForeignKey,
models.ManyToManyField)):
raise ImproperlyConfigured("'%s.prepopulated_fields['%s']' "
"is either a DateTimeField, ForeignKey or "
"ManyToManyField. This isn't allowed."
% (cls.__name__, field))
check_isseq(cls, "prepopulated_fields['%s']" % field, val)
for idx, f in enumerate(val):
get_field(cls, model, opts, "prepopulated_fields['%s'][%d]" % (field, idx), f)