311 lines
19 KiB
Python
311 lines
19 KiB
Python
import sys
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from django.contrib.contenttypes.generic import GenericForeignKey, GenericRelation
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from django.core.management.color import color_style
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from django.utils.itercompat import is_iterable
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try:
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any
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except NameError:
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from django.utils.itercompat import any
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class ModelErrorCollection:
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def __init__(self, outfile=sys.stdout):
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self.errors = []
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self.outfile = outfile
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self.style = color_style()
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def add(self, context, error):
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self.errors.append((context, error))
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self.outfile.write(self.style.ERROR("%s: %s\n" % (context, error)))
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def get_validation_errors(outfile, app=None):
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"""
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Validates all models that are part of the specified app. If no app name is provided,
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validates all models of all installed apps. Writes errors, if any, to outfile.
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Returns number of errors.
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"""
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from django.conf import settings
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from django.db import models, connection
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from django.db.models.loading import get_app_errors
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from django.db.models.fields.related import RelatedObject
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from django.db.models.deletion import SET_NULL, SET_DEFAULT
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e = ModelErrorCollection(outfile)
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for (app_name, error) in get_app_errors().items():
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e.add(app_name, error)
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for cls in models.get_models(app):
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opts = cls._meta
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# Do field-specific validation.
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for f in opts.local_fields:
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if f.name == 'id' and not f.primary_key and opts.pk.name == 'id':
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e.add(opts, '"%s": You can\'t use "id" as a field name, because each model automatically gets an "id" field if none of the fields have primary_key=True. You need to either remove/rename your "id" field or add primary_key=True to a field.' % f.name)
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if f.name.endswith('_'):
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e.add(opts, '"%s": Field names cannot end with underscores, because this would lead to ambiguous queryset filters.' % f.name)
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if isinstance(f, models.CharField):
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try:
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max_length = int(f.max_length)
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if max_length <= 0:
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e.add(opts, '"%s": CharFields require a "max_length" attribute that is a positive integer.' % f.name)
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except (ValueError, TypeError):
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e.add(opts, '"%s": CharFields require a "max_length" attribute that is a positive integer.' % f.name)
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if isinstance(f, models.DecimalField):
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decimalp_ok, mdigits_ok = False, False
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decimalp_msg ='"%s": DecimalFields require a "decimal_places" attribute that is a non-negative integer.'
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try:
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decimal_places = int(f.decimal_places)
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if decimal_places < 0:
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e.add(opts, decimalp_msg % f.name)
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else:
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decimalp_ok = True
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except (ValueError, TypeError):
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e.add(opts, decimalp_msg % f.name)
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mdigits_msg = '"%s": DecimalFields require a "max_digits" attribute that is a positive integer.'
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try:
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max_digits = int(f.max_digits)
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if max_digits <= 0:
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e.add(opts, mdigits_msg % f.name)
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else:
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mdigits_ok = True
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except (ValueError, TypeError):
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e.add(opts, mdigits_msg % f.name)
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invalid_values_msg = '"%s": DecimalFields require a "max_digits" attribute value that is greater than the value of the "decimal_places" attribute.'
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if decimalp_ok and mdigits_ok:
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if decimal_places >= max_digits:
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e.add(opts, invalid_values_msg % f.name)
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if isinstance(f, models.FileField) and not f.upload_to:
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e.add(opts, '"%s": FileFields require an "upload_to" attribute.' % f.name)
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if isinstance(f, models.ImageField):
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# Try to import PIL in either of the two ways it can end up installed.
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try:
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from PIL import Image
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except ImportError:
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try:
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import Image
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except ImportError:
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e.add(opts, '"%s": To use ImageFields, you need to install the Python Imaging Library. Get it at http://www.pythonware.com/products/pil/ .' % f.name)
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if isinstance(f, models.BooleanField) and getattr(f, 'null', False):
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e.add(opts, '"%s": BooleanFields do not accept null values. Use a NullBooleanField instead.' % f.name)
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if f.choices:
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if isinstance(f.choices, basestring) or not is_iterable(f.choices):
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e.add(opts, '"%s": "choices" should be iterable (e.g., a tuple or list).' % f.name)
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else:
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for c in f.choices:
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if not isinstance(c, (list, tuple)) or len(c) != 2:
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e.add(opts, '"%s": "choices" should be a sequence of two-tuples.' % f.name)
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if f.db_index not in (None, True, False):
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e.add(opts, '"%s": "db_index" should be either None, True or False.' % f.name)
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# Perform any backend-specific field validation.
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connection.validation.validate_field(e, opts, f)
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# Check if the on_delete behavior is sane
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if f.rel and hasattr(f.rel, 'on_delete'):
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if f.rel.on_delete == SET_NULL and not f.null:
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e.add(opts, "'%s' specifies on_delete=SET_NULL, but cannot be null." % f.name)
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elif f.rel.on_delete == SET_DEFAULT and not f.has_default():
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e.add(opts, "'%s' specifies on_delete=SET_DEFAULT, but has no default value." % f.name)
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# Check to see if the related field will clash with any existing
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# fields, m2m fields, m2m related objects or related objects
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if f.rel:
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if f.rel.to not in models.get_models():
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e.add(opts, "'%s' has a relation with model %s, which has either not been installed or is abstract." % (f.name, f.rel.to))
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# it is a string and we could not find the model it refers to
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# so skip the next section
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if isinstance(f.rel.to, (str, unicode)):
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continue
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# Make sure the related field specified by a ForeignKey is unique
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if not f.rel.to._meta.get_field(f.rel.field_name).unique:
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e.add(opts, "Field '%s' under model '%s' must have a unique=True constraint." % (f.rel.field_name, f.rel.to.__name__))
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rel_opts = f.rel.to._meta
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rel_name = RelatedObject(f.rel.to, cls, f).get_accessor_name()
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rel_query_name = f.related_query_name()
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if not f.rel.is_hidden():
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for r in rel_opts.fields:
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if r.name == rel_name:
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e.add(opts, "Accessor for field '%s' clashes with field '%s.%s'. Add a related_name argument to the definition for '%s'." % (f.name, rel_opts.object_name, r.name, f.name))
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if r.name == rel_query_name:
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e.add(opts, "Reverse query name for field '%s' clashes with field '%s.%s'. Add a related_name argument to the definition for '%s'." % (f.name, rel_opts.object_name, r.name, f.name))
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for r in rel_opts.local_many_to_many:
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if r.name == rel_name:
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e.add(opts, "Accessor for field '%s' clashes with m2m field '%s.%s'. Add a related_name argument to the definition for '%s'." % (f.name, rel_opts.object_name, r.name, f.name))
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if r.name == rel_query_name:
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e.add(opts, "Reverse query name for field '%s' clashes with m2m field '%s.%s'. Add a related_name argument to the definition for '%s'." % (f.name, rel_opts.object_name, r.name, f.name))
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for r in rel_opts.get_all_related_many_to_many_objects():
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if r.get_accessor_name() == rel_name:
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e.add(opts, "Accessor for field '%s' clashes with related m2m field '%s.%s'. Add a related_name argument to the definition for '%s'." % (f.name, rel_opts.object_name, r.get_accessor_name(), f.name))
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if r.get_accessor_name() == rel_query_name:
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e.add(opts, "Reverse query name for field '%s' clashes with related m2m field '%s.%s'. Add a related_name argument to the definition for '%s'." % (f.name, rel_opts.object_name, r.get_accessor_name(), f.name))
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for r in rel_opts.get_all_related_objects():
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if r.field is not f:
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if r.get_accessor_name() == rel_name:
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e.add(opts, "Accessor for field '%s' clashes with related field '%s.%s'. Add a related_name argument to the definition for '%s'." % (f.name, rel_opts.object_name, r.get_accessor_name(), f.name))
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if r.get_accessor_name() == rel_query_name:
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e.add(opts, "Reverse query name for field '%s' clashes with related field '%s.%s'. Add a related_name argument to the definition for '%s'." % (f.name, rel_opts.object_name, r.get_accessor_name(), f.name))
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seen_intermediary_signatures = []
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for i, f in enumerate(opts.local_many_to_many):
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# Check to see if the related m2m field will clash with any
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# existing fields, m2m fields, m2m related objects or related
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# objects
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if f.rel.to not in models.get_models():
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e.add(opts, "'%s' has an m2m relation with model %s, which has either not been installed or is abstract." % (f.name, f.rel.to))
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# it is a string and we could not find the model it refers to
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# so skip the next section
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if isinstance(f.rel.to, (str, unicode)):
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continue
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# Check that the field is not set to unique. ManyToManyFields do not support unique.
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if f.unique:
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e.add(opts, "ManyToManyFields cannot be unique. Remove the unique argument on '%s'." % f.name)
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if f.rel.through is not None and not isinstance(f.rel.through, basestring):
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from_model, to_model = cls, f.rel.to
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if from_model == to_model and f.rel.symmetrical and not f.rel.through._meta.auto_created:
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e.add(opts, "Many-to-many fields with intermediate tables cannot be symmetrical.")
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seen_from, seen_to, seen_self = False, False, 0
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for inter_field in f.rel.through._meta.fields:
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rel_to = getattr(inter_field.rel, 'to', None)
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if from_model == to_model: # relation to self
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if rel_to == from_model:
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seen_self += 1
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if seen_self > 2:
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e.add(opts, "Intermediary model %s has more than "
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"two foreign keys to %s, which is ambiguous "
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"and is not permitted." % (
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f.rel.through._meta.object_name,
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from_model._meta.object_name
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)
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)
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else:
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if rel_to == from_model:
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if seen_from:
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e.add(opts, "Intermediary model %s has more "
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"than one foreign key to %s, which is "
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"ambiguous and is not permitted." % (
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f.rel.through._meta.object_name,
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from_model._meta.object_name
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)
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)
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else:
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seen_from = True
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elif rel_to == to_model:
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if seen_to:
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e.add(opts, "Intermediary model %s has more "
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"than one foreign key to %s, which is "
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"ambiguous and is not permitted." % (
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f.rel.through._meta.object_name,
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rel_to._meta.object_name
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)
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)
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else:
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seen_to = True
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if f.rel.through not in models.get_models(include_auto_created=True):
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e.add(opts, "'%s' specifies an m2m relation through model "
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"%s, which has not been installed." % (f.name, f.rel.through)
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)
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signature = (f.rel.to, cls, f.rel.through)
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if signature in seen_intermediary_signatures:
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e.add(opts, "The model %s has two manually-defined m2m "
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"relations through the model %s, which is not "
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"permitted. Please consider using an extra field on "
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"your intermediary model instead." % (
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cls._meta.object_name,
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f.rel.through._meta.object_name
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)
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)
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else:
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seen_intermediary_signatures.append(signature)
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if not f.rel.through._meta.auto_created:
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seen_related_fk, seen_this_fk = False, False
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for field in f.rel.through._meta.fields:
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if field.rel:
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if not seen_related_fk and field.rel.to == f.rel.to:
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seen_related_fk = True
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elif field.rel.to == cls:
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seen_this_fk = True
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if not seen_related_fk or not seen_this_fk:
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e.add(opts, "'%s' is a manually-defined m2m relation "
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"through model %s, which does not have foreign keys "
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"to %s and %s" % (f.name, f.rel.through._meta.object_name,
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f.rel.to._meta.object_name, cls._meta.object_name)
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)
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elif isinstance(f.rel.through, basestring):
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e.add(opts, "'%s' specifies an m2m relation through model %s, "
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"which has not been installed" % (f.name, f.rel.through)
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)
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elif isinstance(f, GenericRelation):
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if not any([isinstance(vfield, GenericForeignKey) for vfield in f.rel.to._meta.virtual_fields]):
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e.add(opts, "Model '%s' must have a GenericForeignKey in "
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"order to create a GenericRelation that points to it."
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% f.rel.to.__name__
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)
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rel_opts = f.rel.to._meta
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rel_name = RelatedObject(f.rel.to, cls, f).get_accessor_name()
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rel_query_name = f.related_query_name()
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# If rel_name is none, there is no reverse accessor (this only
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# occurs for symmetrical m2m relations to self). If this is the
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# case, there are no clashes to check for this field, as there are
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# no reverse descriptors for this field.
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if rel_name is not None:
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for r in rel_opts.fields:
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if r.name == rel_name:
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e.add(opts, "Accessor for m2m field '%s' clashes with field '%s.%s'. Add a related_name argument to the definition for '%s'." % (f.name, rel_opts.object_name, r.name, f.name))
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if r.name == rel_query_name:
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e.add(opts, "Reverse query name for m2m field '%s' clashes with field '%s.%s'. Add a related_name argument to the definition for '%s'." % (f.name, rel_opts.object_name, r.name, f.name))
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for r in rel_opts.local_many_to_many:
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if r.name == rel_name:
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e.add(opts, "Accessor for m2m field '%s' clashes with m2m field '%s.%s'. Add a related_name argument to the definition for '%s'." % (f.name, rel_opts.object_name, r.name, f.name))
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if r.name == rel_query_name:
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e.add(opts, "Reverse query name for m2m field '%s' clashes with m2m field '%s.%s'. Add a related_name argument to the definition for '%s'." % (f.name, rel_opts.object_name, r.name, f.name))
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for r in rel_opts.get_all_related_many_to_many_objects():
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if r.field is not f:
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if r.get_accessor_name() == rel_name:
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e.add(opts, "Accessor for m2m field '%s' clashes with related m2m field '%s.%s'. Add a related_name argument to the definition for '%s'." % (f.name, rel_opts.object_name, r.get_accessor_name(), f.name))
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if r.get_accessor_name() == rel_query_name:
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e.add(opts, "Reverse query name for m2m field '%s' clashes with related m2m field '%s.%s'. Add a related_name argument to the definition for '%s'." % (f.name, rel_opts.object_name, r.get_accessor_name(), f.name))
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for r in rel_opts.get_all_related_objects():
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if r.get_accessor_name() == rel_name:
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e.add(opts, "Accessor for m2m field '%s' clashes with related field '%s.%s'. Add a related_name argument to the definition for '%s'." % (f.name, rel_opts.object_name, r.get_accessor_name(), f.name))
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if r.get_accessor_name() == rel_query_name:
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e.add(opts, "Reverse query name for m2m field '%s' clashes with related field '%s.%s'. Add a related_name argument to the definition for '%s'." % (f.name, rel_opts.object_name, r.get_accessor_name(), f.name))
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# Check ordering attribute.
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if opts.ordering:
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for field_name in opts.ordering:
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if field_name == '?': continue
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if field_name.startswith('-'):
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field_name = field_name[1:]
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if opts.order_with_respect_to and field_name == '_order':
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continue
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# Skip ordering in the format field1__field2 (FIXME: checking
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# this format would be nice, but it's a little fiddly).
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if '__' in field_name:
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continue
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try:
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opts.get_field(field_name, many_to_many=False)
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except models.FieldDoesNotExist:
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e.add(opts, '"ordering" refers to "%s", a field that doesn\'t exist.' % field_name)
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# Check unique_together.
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for ut in opts.unique_together:
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for field_name in ut:
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try:
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f = opts.get_field(field_name, many_to_many=True)
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except models.FieldDoesNotExist:
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e.add(opts, '"unique_together" refers to %s, a field that doesn\'t exist. Check your syntax.' % field_name)
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else:
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if isinstance(f.rel, models.ManyToManyRel):
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e.add(opts, '"unique_together" refers to %s. ManyToManyFields are not supported in unique_together.' % f.name)
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if f not in opts.local_fields:
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e.add(opts, '"unique_together" refers to %s. This is not in the same model as the unique_together statement.' % f.name)
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return len(e.errors)
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