django1/django/core/meta/fields.py

959 lines
41 KiB
Python

from django.conf import settings
from django.core import formfields, validators
from django.core.exceptions import ObjectDoesNotExist
from django.utils.functional import curry, lazy
from django.utils.text import capfirst
from django.utils.translation import gettext_lazy, ngettext
import datetime, os
# Random entropy string used by "default" param.
NOT_PROVIDED = 'oijpwojefiojpanv'
# Values for filter_interface.
HORIZONTAL, VERTICAL = 1, 2
# The values to use for "blank" in SelectFields. Will be appended to the start of most "choices" lists.
BLANK_CHOICE_DASH = [("", "---------")]
BLANK_CHOICE_NONE = [("", "None")]
# Values for Relation.edit_inline.
TABULAR, STACKED = 1, 2
RECURSIVE_RELATIONSHIP_CONSTANT = 'self'
# prepares a value for use in a LIKE query
prep_for_like_query = lambda x: str(x).replace("%", "\%").replace("_", "\_")
# returns the <ul> class for a given radio_admin value
get_ul_class = lambda x: 'radiolist%s' % ((x == HORIZONTAL) and ' inline' or '')
def string_concat(*strings):
""""
lazy variant of string concatenation, needed for translations that are
constructed from multiple parts. Handles lazy strings and non-strings by
first turning all arguments to strings, before joining them.
"""
return ''.join([str(el) for el in strings])
string_concat = lazy(string_concat, str)
def manipulator_valid_rel_key(f, self, field_data, all_data):
"Validates that the value is a valid foreign key"
mod = f.rel.to.get_model_module()
try:
mod.get_object(pk=field_data)
except ObjectDoesNotExist:
raise validators.ValidationError, _("Please enter a valid %s.") % f.verbose_name
def manipulator_validator_unique(f, opts, self, field_data, all_data):
"Validates that the value is unique for this field."
if f.rel and isinstance(f.rel, ManyToOne):
lookup_type = '%s__%s__exact' % (f.name, f.rel.get_related_field().name)
else:
lookup_type = '%s__exact' % f.name
try:
old_obj = opts.get_model_module().get_object(**{lookup_type: field_data})
except ObjectDoesNotExist:
return
if hasattr(self, 'original_object') and getattr(self.original_object, opts.pk.attname) == getattr(old_obj, opts.pk.attname):
return
raise validators.ValidationError, _("%(optname)s with this %(fieldname)s already exists.") % {'optname': capfirst(opts.verbose_name), 'fieldname': f.verbose_name}
class BoundField(object):
def __init__(self, field, field_mapping, original):
self.field = field
self.original = original
self.form_fields = self.resolve_form_fields(field_mapping)
def resolve_form_fields(self, field_mapping):
return [field_mapping[name] for name in self.field.get_manipulator_field_names('')]
def as_field_list(self):
return [self.field]
def original_value(self):
if self.original:
return self.original.__dict__[self.field.column]
def __repr__(self):
return "BoundField:(%s, %s)" % (self.field.name, self.form_fields)
# A guide to Field parameters:
#
# * name: The name of the field specifed in the model.
# * attname: The attribute to use on the model object. This is the same as
# "name", except in the case of ForeignKeys, where "_id" is
# appended.
# * db_column: The db_column specified in the model (or None).
# * column: The database column for this field. This is the same as
# "attname", except if db_column is specified.
#
# Code that introspects values, or does other dynamic things, should use
# attname. For example, this gets the primary key value of object "obj":
#
# getattr(obj, opts.pk.attname)
class Field(object):
# Designates whether empty strings fundamentally are allowed at the
# database level.
empty_strings_allowed = True
# Tracks each time a Field instance is created. Used to retain order.
creation_counter = 0
def __init__(self, verbose_name=None, name=None, primary_key=False,
maxlength=None, unique=False, blank=False, null=False, db_index=None,
core=False, rel=None, default=NOT_PROVIDED, editable=True,
prepopulate_from=None, unique_for_date=None, unique_for_month=None,
unique_for_year=None, validator_list=None, choices=None, radio_admin=None,
help_text='', db_column=None):
self.name = name
self.verbose_name = verbose_name or (name and name.replace('_', ' '))
self.primary_key = primary_key
self.maxlength, self.unique = maxlength, unique
self.blank, self.null = blank, null
self.core, self.rel, self.default = core, rel, default
self.editable = editable
self.validator_list = validator_list or []
self.prepopulate_from = prepopulate_from
self.unique_for_date, self.unique_for_month = unique_for_date, unique_for_month
self.unique_for_year = unique_for_year
self.choices = choices or []
self.radio_admin = radio_admin
self.help_text = help_text
self.db_column = db_column
if rel and isinstance(rel, ManyToMany):
if rel.raw_id_admin:
self.help_text = string_concat(self.help_text,
gettext_lazy(' Separate multiple IDs with commas.'))
else:
self.help_text = string_concat(self.help_text,
gettext_lazy(' Hold down "Control", or "Command" on a Mac, to select more than one.'))
# Set db_index to True if the field has a relationship and doesn't explicitly set db_index.
if db_index is None:
if isinstance(rel, OneToOne) or isinstance(rel, ManyToOne):
self.db_index = True
else:
self.db_index = False
else:
self.db_index = db_index
# Increase the creation counter, and save our local copy.
self.creation_counter = Field.creation_counter
Field.creation_counter += 1
self.attname, self.column = self.get_attname_column()
def set_name(self, name):
self.name = name
self.verbose_name = self.verbose_name or name.replace('_', ' ')
self.attname, self.column = self.get_attname_column()
def get_attname_column(self):
if isinstance(self.rel, ManyToOne):
attname = '%s_id' % self.name
else:
attname = self.name
column = self.db_column or attname
return attname, column
def get_cache_name(self):
return '_%s_cache' % self.name
def get_internal_type(self):
return self.__class__.__name__
def pre_save(self, value, add):
"Returns field's value just before saving."
return value
def get_db_prep_save(self, value):
"Returns field's value prepared for saving into a database."
return value
def get_db_prep_lookup(self, lookup_type, value):
"Returns field's value prepared for database lookup."
if lookup_type in ('exact', 'gt', 'gte', 'lt', 'lte', 'ne', 'year', 'month', 'day'):
return [value]
elif lookup_type in ('range', 'in'):
return value
elif lookup_type in ('contains', 'icontains'):
return ["%%%s%%" % prep_for_like_query(value)]
elif lookup_type == 'iexact':
return [prep_for_like_query(value)]
elif lookup_type in ('startswith', 'istartswith'):
return ["%s%%" % prep_for_like_query(value)]
elif lookup_type in ('endswith', 'iendswith'):
return ["%%%s" % prep_for_like_query(value)]
elif lookup_type == 'isnull':
return []
raise TypeError, "Field has invalid lookup: %s" % lookup_type
def has_default(self):
"Returns a boolean of whether this field has a default value."
return self.default != NOT_PROVIDED
def get_default(self):
"Returns the default value for this field."
if self.default != NOT_PROVIDED:
if hasattr(self.default, '__get_value__'):
return self.default.__get_value__()
return self.default
if not self.empty_strings_allowed or self.null:
return None
return ""
def get_manipulator_field_names(self, name_prefix):
"""
Returns a list of field names that this object adds to the manipulator.
"""
return [name_prefix + self.name]
def get_manipulator_fields(self, opts, manipulator, change, name_prefix='', rel=False):
"""
Returns a list of formfields.FormField instances for this field. It
calculates the choices at runtime, not at compile time.
name_prefix is a prefix to prepend to the "field_name" argument.
rel is a boolean specifying whether this field is in a related context.
"""
params = {'validator_list': self.validator_list[:]}
if self.maxlength and not self.choices: # Don't give SelectFields a maxlength parameter.
params['maxlength'] = self.maxlength
if isinstance(self.rel, ManyToOne):
params['member_name'] = name_prefix + self.attname
if self.rel.raw_id_admin:
field_objs = self.get_manipulator_field_objs()
params['validator_list'].append(curry(manipulator_valid_rel_key, self, manipulator))
else:
if self.radio_admin:
field_objs = [formfields.RadioSelectField]
params['ul_class'] = get_ul_class(self.radio_admin)
else:
if self.null:
field_objs = [formfields.NullSelectField]
else:
field_objs = [formfields.SelectField]
params['choices'] = self.get_choices_default()
elif self.choices:
if self.radio_admin:
field_objs = [formfields.RadioSelectField]
params['ul_class'] = get_ul_class(self.radio_admin)
else:
field_objs = [formfields.SelectField]
params['choices'] = self.get_choices_default()
else:
field_objs = self.get_manipulator_field_objs()
# Add the "unique" validator(s).
for field_name_list in opts.unique_together:
if field_name_list[0] == self.name:
params['validator_list'].append(getattr(manipulator, 'isUnique%s' % '_'.join(field_name_list)))
# Add the "unique for..." validator(s).
if self.unique_for_date:
params['validator_list'].append(getattr(manipulator, 'isUnique%sFor%s' % (self.name, self.unique_for_date)))
if self.unique_for_month:
params['validator_list'].append(getattr(manipulator, 'isUnique%sFor%s' % (self.name, self.unique_for_month)))
if self.unique_for_year:
params['validator_list'].append(getattr(manipulator, 'isUnique%sFor%s' % (self.name, self.unique_for_year)))
if self.unique or (self.primary_key and not rel):
params['validator_list'].append(curry(manipulator_validator_unique, self, opts, manipulator))
# Only add is_required=True if the field cannot be blank. Primary keys
# are a special case, and fields in a related context should set this
# as False, because they'll be caught by a separate validator --
# RequiredIfOtherFieldGiven.
params['is_required'] = not self.blank and not self.primary_key and not rel
# If this field is in a related context, check whether any other fields
# in the related object have core=True. If so, add a validator --
# RequiredIfOtherFieldsGiven -- to this FormField.
if rel and not self.blank and not isinstance(self, AutoField) and not isinstance(self, FileField):
# First, get the core fields, if any.
core_field_names = []
for f in opts.fields:
if f.core and f != self:
core_field_names.extend(f.get_manipulator_field_names(name_prefix))
# Now, if there are any, add the validator to this FormField.
if core_field_names:
params['validator_list'].append(validators.RequiredIfOtherFieldsGiven(core_field_names, gettext_lazy("This field is required.")))
# BooleanFields (CheckboxFields) are a special case. They don't take
# is_required or validator_list.
if isinstance(self, BooleanField):
del params['validator_list'], params['is_required']
# Finally, add the field_names.
field_names = self.get_manipulator_field_names(name_prefix)
return [man(field_name=field_names[i], **params) for i, man in enumerate(field_objs)]
def get_manipulator_new_data(self, new_data, rel=False):
"""
Given the full new_data dictionary (from the manipulator), returns this
field's data.
"""
if rel:
return new_data.get(self.name, [self.get_default()])[0]
else:
val = new_data.get(self.name, self.get_default())
if not self.empty_strings_allowed and val == '' and self.null:
val = None
return val
def get_choices(self, include_blank=True, blank_choice=BLANK_CHOICE_DASH):
"Returns a list of tuples used as SelectField choices for this field."
first_choice = include_blank and blank_choice or []
if self.choices:
return first_choice + list(self.choices)
rel_obj = self.rel.to
return first_choice + [(getattr(x, rel_obj.pk.attname), str(x))
for x in rel_obj.get_model_module().get_list(**self.rel.limit_choices_to)]
def get_choices_default(self):
if(self.radio_admin):
return self.get_choices(include_blank=self.blank, blank_choice=BLANK_CHOICE_NONE)
else:
return self.get_choices()
def _get_val_from_obj(self, obj):
if obj:
return getattr(obj, self.attname)
else:
return self.get_default()
def flatten_data(self, follow, obj=None):
"""
Returns a dictionary mapping the field's manipulator field names to its
"flattened" string values for the admin view. obj is the instance to
extract the values from.
"""
return {self.attname: self._get_val_from_obj(obj)}
def get_follow(self, override=None):
if override != None:
return override
else:
return self.editable
def bind(self, fieldmapping, original, bound_field_class=BoundField):
return bound_field_class(self, fieldmapping, original)
class AutoField(Field):
empty_strings_allowed = False
def __init__(self, *args, **kwargs):
assert kwargs.get('primary_key', False) is True, "%ss must have primary_key=True." % self.__class__.__name__
Field.__init__(self, *args, **kwargs)
def get_manipulator_fields(self, opts, manipulator, change, name_prefix='', rel=False):
if not rel:
return [] # Don't add a FormField unless it's in a related context.
return Field.get_manipulator_fields(self, opts, manipulator, change, name_prefix, rel)
def get_manipulator_field_objs(self):
return [formfields.HiddenField]
def get_manipulator_new_data(self, new_data, rel=False):
if not rel:
return None
return Field.get_manipulator_new_data(self, new_data, rel)
class BooleanField(Field):
def __init__(self, *args, **kwargs):
kwargs['blank'] = True
Field.__init__(self, *args, **kwargs)
def get_manipulator_field_objs(self):
return [formfields.CheckboxField]
class CharField(Field):
def get_manipulator_field_objs(self):
return [formfields.TextField]
class CommaSeparatedIntegerField(CharField):
def get_manipulator_field_objs(self):
return [formfields.CommaSeparatedIntegerField]
class DateField(Field):
empty_strings_allowed = False
def __init__(self, verbose_name=None, name=None, auto_now=False, auto_now_add=False, **kwargs):
self.auto_now, self.auto_now_add = auto_now, auto_now_add
#HACKs : auto_now_add/auto_now should be done as a default or a pre_save...
if auto_now or auto_now_add:
kwargs['editable'] = False
kwargs['blank'] = True
Field.__init__(self, verbose_name, name, **kwargs)
def get_db_prep_lookup(self, lookup_type, value):
if lookup_type == 'range':
value = [str(v) for v in value]
else:
value = str(value)
return Field.get_db_prep_lookup(self, lookup_type, value)
def pre_save(self, value, add):
if self.auto_now or (self.auto_now_add and add):
return datetime.datetime.now()
return value
# Needed because of horrible auto_now[_add] behaviour wrt. editable
def get_follow(self, override=None):
if override != None:
return override
else:
return self.editable or self.auto_now or self.auto_now_add
def get_db_prep_save(self, value):
# Casts dates into string format for entry into database.
if value is not None:
value = value.strftime('%Y-%m-%d')
return Field.get_db_prep_save(self, value)
def get_manipulator_field_objs(self):
return [formfields.DateField]
def flatten_data(self, follow, obj = None):
val = self._get_val_from_obj(obj)
return {self.attname: (val is not None and val.strftime("%Y-%m-%d") or '')}
class DateTimeField(DateField):
def get_db_prep_save(self, value):
# Casts dates into string format for entry into database.
if value is not None:
# MySQL will throw a warning if microseconds are given, because it
# doesn't support microseconds.
if settings.DATABASE_ENGINE == 'mysql':
value = value.replace(microsecond=0)
value = str(value)
return Field.get_db_prep_save(self, value)
def get_manipulator_field_objs(self):
return [formfields.DateField, formfields.TimeField]
def get_manipulator_field_names(self, name_prefix):
return [name_prefix + self.name + '_date', name_prefix + self.name + '_time']
def get_manipulator_new_data(self, new_data, rel=False):
date_field, time_field = self.get_manipulator_field_names('')
if rel:
d = new_data.get(date_field, [None])[0]
t = new_data.get(time_field, [None])[0]
else:
d = new_data.get(date_field, None)
t = new_data.get(time_field, None)
if d is not None and t is not None:
return datetime.datetime.combine(d, t)
return self.get_default()
def flatten_data(self,follow, obj = None):
val = self._get_val_from_obj(obj)
date_field, time_field = self.get_manipulator_field_names('')
return {date_field: (val is not None and val.strftime("%Y-%m-%d") or ''),
time_field: (val is not None and val.strftime("%H:%M:%S") or '')}
class EmailField(Field):
def __init__(self, *args, **kwargs):
kwargs['maxlength'] = 75
Field.__init__(self, *args, **kwargs)
def get_internal_type(self):
return "CharField"
def get_manipulator_field_objs(self):
return [formfields.EmailField]
class FileField(Field):
def __init__(self, verbose_name=None, name=None, upload_to='', **kwargs):
self.upload_to = upload_to
Field.__init__(self, verbose_name, name, **kwargs)
def get_manipulator_fields(self, opts, manipulator, change, name_prefix='', rel=False):
field_list = Field.get_manipulator_fields(self, opts, manipulator, change, name_prefix, rel)
if not self.blank:
if rel:
# This validator makes sure FileFields work in a related context.
class RequiredFileField:
def __init__(self, other_field_names, other_file_field_name):
self.other_field_names = other_field_names
self.other_file_field_name = other_file_field_name
self.always_test = True
def __call__(self, field_data, all_data):
if not all_data.get(self.other_file_field_name, False):
c = validators.RequiredIfOtherFieldsGiven(self.other_field_names, gettext_lazy("This field is required."))
c(field_data, all_data)
# First, get the core fields, if any.
core_field_names = []
for f in opts.fields:
if f.core and f != self:
core_field_names.extend(f.get_manipulator_field_names(name_prefix))
# Now, if there are any, add the validator to this FormField.
if core_field_names:
field_list[0].validator_list.append(RequiredFileField(core_field_names, field_list[1].field_name))
else:
v = validators.RequiredIfOtherFieldNotGiven(field_list[1].field_name, gettext_lazy("This field is required."))
v.always_test = True
field_list[0].validator_list.append(v)
field_list[0].is_required = field_list[1].is_required = False
# If the raw path is passed in, validate it's under the MEDIA_ROOT.
def isWithinMediaRoot(field_data, all_data):
f = os.path.abspath(os.path.join(settings.MEDIA_ROOT, field_data))
if not f.startswith(os.path.normpath(settings.MEDIA_ROOT)):
raise validators.ValidationError, _("Enter a valid filename.")
field_list[1].validator_list.append(isWithinMediaRoot)
return field_list
def get_manipulator_field_objs(self):
return [formfields.FileUploadField, formfields.HiddenField]
def get_manipulator_field_names(self, name_prefix):
return [name_prefix + self.name + '_file', name_prefix + self.name]
def save_file(self, new_data, new_object, original_object, change, rel):
upload_field_name = self.get_manipulator_field_names('')[0]
if new_data.get(upload_field_name, False):
func = getattr(new_object, 'save_%s_file' % self.name)
if rel:
func(new_data[upload_field_name][0]["filename"], new_data[upload_field_name][0]["content"])
else:
func(new_data[upload_field_name]["filename"], new_data[upload_field_name]["content"])
def get_directory_name(self):
return os.path.normpath(datetime.datetime.now().strftime(self.upload_to))
def get_filename(self, filename):
from django.utils.text import get_valid_filename
f = os.path.join(self.get_directory_name(), get_valid_filename(os.path.basename(filename)))
return os.path.normpath(f)
class FilePathField(Field):
def __init__(self, verbose_name=None, name=None, path='', match=None, recursive=False, **kwargs):
self.path, self.match, self.recursive = path, match, recursive
Field.__init__(self, verbose_name, name, **kwargs)
def get_manipulator_field_objs(self):
return [curry(formfields.FilePathField, path=self.path, match=self.match, recursive=self.recursive)]
class FloatField(Field):
empty_strings_allowed = False
def __init__(self, verbose_name=None, name=None, max_digits=None, decimal_places=None, **kwargs):
self.max_digits, self.decimal_places = max_digits, decimal_places
Field.__init__(self, verbose_name, name, **kwargs)
def get_manipulator_field_objs(self):
return [curry(formfields.FloatField, max_digits=self.max_digits, decimal_places=self.decimal_places)]
class ImageField(FileField):
def __init__(self, verbose_name=None, name=None, width_field=None, height_field=None, **kwargs):
self.width_field, self.height_field = width_field, height_field
FileField.__init__(self, verbose_name, name, **kwargs)
def get_manipulator_field_objs(self):
return [formfields.ImageUploadField, formfields.HiddenField]
def save_file(self, new_data, new_object, original_object, change, rel):
FileField.save_file(self, new_data, new_object, original_object, change, rel)
# If the image has height and/or width field(s) and they haven't
# changed, set the width and/or height field(s) back to their original
# values.
if change and (self.width_field or self.height_field):
if self.width_field:
setattr(new_object, self.width_field, getattr(original_object, self.width_field))
if self.height_field:
setattr(new_object, self.height_field, getattr(original_object, self.height_field))
new_object.save()
class IntegerField(Field):
empty_strings_allowed = False
def get_manipulator_field_objs(self):
return [formfields.IntegerField]
class IPAddressField(Field):
def __init__(self, *args, **kwargs):
kwargs['maxlength'] = 15
Field.__init__(self, *args, **kwargs)
def get_manipulator_field_objs(self):
return [formfields.IPAddressField]
class NullBooleanField(Field):
def __init__(self, *args, **kwargs):
kwargs['null'] = True
Field.__init__(self, *args, **kwargs)
def get_manipulator_field_objs(self):
return [formfields.NullBooleanField]
class PhoneNumberField(IntegerField):
def get_manipulator_field_objs(self):
return [formfields.PhoneNumberField]
class PositiveIntegerField(IntegerField):
def get_manipulator_field_objs(self):
return [formfields.PositiveIntegerField]
class PositiveSmallIntegerField(IntegerField):
def get_manipulator_field_objs(self):
return [formfields.PositiveSmallIntegerField]
class SlugField(Field):
def __init__(self, *args, **kwargs):
# Default to a maxlength of 50 but allow overrides.
kwargs['maxlength'] = kwargs.get('maxlength', 50)
kwargs.setdefault('validator_list', []).append(validators.isSlug)
# Set db_index=True unless it's been set manually.
if not kwargs.has_key('db_index'):
kwargs['db_index'] = True
Field.__init__(self, *args, **kwargs)
def get_manipulator_field_objs(self):
return [formfields.TextField]
class SmallIntegerField(IntegerField):
def get_manipulator_field_objs(self):
return [formfields.SmallIntegerField]
class TextField(Field):
def get_manipulator_field_objs(self):
return [formfields.LargeTextField]
class TimeField(Field):
empty_strings_allowed = False
def __init__(self, verbose_name=None, name=None, auto_now=False, auto_now_add=False, **kwargs):
self.auto_now, self.auto_now_add = auto_now, auto_now_add
if auto_now or auto_now_add:
kwargs['editable'] = False
Field.__init__(self, verbose_name, name, **kwargs)
def get_db_prep_lookup(self, lookup_type, value):
if lookup_type == 'range':
value = [str(v) for v in value]
else:
value = str(value)
return Field.get_db_prep_lookup(self, lookup_type, value)
def pre_save(self, value, add):
if self.auto_now or (self.auto_now_add and add):
return datetime.datetime.now().time()
return value
def get_db_prep_save(self, value):
# Casts dates into string format for entry into database.
if value is not None:
# MySQL will throw a warning if microseconds are given, because it
# doesn't support microseconds.
if settings.DATABASE_ENGINE == 'mysql':
value = value.replace(microsecond=0)
value = str(value)
return Field.get_db_prep_save(self, value)
def get_manipulator_field_objs(self):
return [formfields.TimeField]
def flatten_data(self,follow, obj = None):
val = self._get_val_from_obj(obj)
return {self.attname: (val is not None and val.strftime("%H:%M:%S") or '')}
class URLField(Field):
def __init__(self, verbose_name=None, name=None, verify_exists=True, **kwargs):
if verify_exists:
kwargs.setdefault('validator_list', []).append(validators.isExistingURL)
Field.__init__(self, verbose_name, name, **kwargs)
def get_manipulator_field_objs(self):
return [formfields.URLField]
class USStateField(Field):
def get_manipulator_field_objs(self):
return [formfields.USStateField]
class XMLField(TextField):
def __init__(self, verbose_name=None, name=None, schema_path=None, **kwargs):
self.schema_path = schema_path
Field.__init__(self, verbose_name, name, **kwargs)
def get_internal_type(self):
return "TextField"
def get_manipulator_field_objs(self):
return [curry(formfields.XMLLargeTextField, schema_path=self.schema_path)]
class ForeignKey(Field):
empty_strings_allowed = False
def __init__(self, to, to_field=None, **kwargs):
try:
to_name = to._meta.object_name.lower()
except AttributeError: # to._meta doesn't exist, so it must be RECURSIVE_RELATIONSHIP_CONSTANT
assert to == 'self', "ForeignKey(%r) is invalid. First parameter to ForeignKey must be either a model or the string %r" % (to, RECURSIVE_RELATIONSHIP_CONSTANT)
kwargs['verbose_name'] = kwargs.get('verbose_name', '')
else:
to_field = to_field or to._meta.pk.name
kwargs['verbose_name'] = kwargs.get('verbose_name', to._meta.verbose_name)
if kwargs.has_key('edit_inline_type'):
import warnings
warnings.warn("edit_inline_type is deprecated. Use edit_inline instead.")
kwargs['edit_inline'] = kwargs.pop('edit_inline_type')
kwargs['rel'] = ManyToOne(to, to_field,
num_in_admin=kwargs.pop('num_in_admin', 3),
min_num_in_admin=kwargs.pop('min_num_in_admin', None),
max_num_in_admin=kwargs.pop('max_num_in_admin', None),
num_extra_on_change=kwargs.pop('num_extra_on_change', 1),
edit_inline=kwargs.pop('edit_inline', False),
related_name=kwargs.pop('related_name', None),
limit_choices_to=kwargs.pop('limit_choices_to', None),
lookup_overrides=kwargs.pop('lookup_overrides', None),
raw_id_admin=kwargs.pop('raw_id_admin', False))
Field.__init__(self, **kwargs)
def get_manipulator_field_objs(self):
rel_field = self.rel.get_related_field()
if self.rel.raw_id_admin and not isinstance(rel_field, AutoField):
return rel_field.get_manipulator_field_objs()
else:
return [formfields.IntegerField]
def get_db_prep_save(self,value):
if value == '' or value == None:
return None
else:
return self.rel.get_related_field().get_db_prep_save(value)
def flatten_data(self, follow, obj=None):
if not obj:
# In required many-to-one fields with only one available choice,
# select that one available choice. Note: For SelectFields
# (radio_admin=False), we have to check that the length of choices
# is *2*, not 1, because SelectFields always have an initial
# "blank" value. Otherwise (radio_admin=True), we check that the
# length is 1.
if not self.blank and (not self.rel.raw_id_admin or self.choices):
choice_list = self.get_choices_default()
if self.radio_admin and len(choice_list) == 1:
return {self.attname: choice_list[0][0]}
if not self.radio_admin and len(choice_list) == 2:
return {self.attname: choice_list[1][0]}
return Field.flatten_data(self, follow, obj)
class ManyToManyField(Field):
def __init__(self, to, **kwargs):
kwargs['verbose_name'] = kwargs.get('verbose_name', to._meta.verbose_name_plural)
kwargs['rel'] = ManyToMany(to, kwargs.pop('singular', None),
num_in_admin=kwargs.pop('num_in_admin', 0),
related_name=kwargs.pop('related_name', None),
filter_interface=kwargs.pop('filter_interface', None),
limit_choices_to=kwargs.pop('limit_choices_to', None),
raw_id_admin=kwargs.pop('raw_id_admin', False))
if kwargs["rel"].raw_id_admin:
kwargs.setdefault("validator_list", []).append(self.isValidIDList)
Field.__init__(self, **kwargs)
def get_manipulator_field_objs(self):
if self.rel.raw_id_admin:
return [formfields.RawIdAdminField]
else:
choices = self.get_choices_default()
return [curry(formfields.SelectMultipleField, size=min(max(len(choices), 5), 15), choices=choices)]
def get_choices_default(self):
return Field.get_choices(self, include_blank=False)
def get_m2m_db_table(self, original_opts):
"Returns the name of the many-to-many 'join' table."
return '%s_%s' % (original_opts.db_table, self.name)
def isValidIDList(self, field_data, all_data):
"Validates that the value is a valid list of foreign keys"
mod = self.rel.to.get_model_module()
try:
pks = map(int, field_data.split(','))
except ValueError:
# the CommaSeparatedIntegerField validator will catch this error
return
objects = mod.get_in_bulk(pks)
if len(objects) != len(pks):
badkeys = [k for k in pks if k not in objects]
raise validators.ValidationError, ngettext("Please enter valid %(self)s IDs. The value %(value)r is invalid.",
"Please enter valid %(self)s IDs. The values %(value)r are invalid.", len(badkeys)) % {
'self': self.verbose_name,
'value': len(badkeys) == 1 and badkeys[0] or tuple(badkeys),
}
def flatten_data(self, follow, obj = None):
new_data = {}
if obj:
get_list_func = getattr(obj, 'get_%s_list' % self.rel.singular)
instance_ids = [getattr(instance, self.rel.to.pk.attname) for instance in get_list_func()]
if self.rel.raw_id_admin:
new_data[self.name] = ",".join([str(id) for id in instance_ids])
else:
new_data[self.name] = instance_ids
else:
# In required many-to-many fields with only one available choice,
# select that one available choice.
if not self.blank and not self.rel.edit_inline and not self.rel.raw_id_admin:
choices_list = self.get_choices_default()
if len(choices_list) == 1:
print self.name, choices_list[0][0]
new_data[self.name] = [choices_list[0][0]]
return new_data
class OneToOneField(IntegerField):
def __init__(self, to, to_field=None, **kwargs):
kwargs['verbose_name'] = kwargs.get('verbose_name', 'ID')
to_field = to_field or to._meta.pk.name
if kwargs.has_key('edit_inline_type'):
import warnings
warnings.warn("edit_inline_type is deprecated. Use edit_inline instead.")
kwargs['edit_inline'] = kwargs.pop('edit_inline_type')
kwargs['rel'] = OneToOne(to, to_field,
num_in_admin=kwargs.pop('num_in_admin', 0),
edit_inline=kwargs.pop('edit_inline', False),
related_name=kwargs.pop('related_name', None),
limit_choices_to=kwargs.pop('limit_choices_to', None),
lookup_overrides=kwargs.pop('lookup_overrides', None),
raw_id_admin=kwargs.pop('raw_id_admin', False))
kwargs['primary_key'] = True
IntegerField.__init__(self, **kwargs)
class ManyToOne:
def __init__(self, to, field_name, num_in_admin=3, min_num_in_admin=None,
max_num_in_admin=None, num_extra_on_change=1, edit_inline=False,
related_name=None, limit_choices_to=None, lookup_overrides=None, raw_id_admin=False):
try:
self.to = to._meta
except AttributeError: # to._meta doesn't exist, so it must be RECURSIVE_RELATIONSHIP_CONSTANT
assert to == RECURSIVE_RELATIONSHIP_CONSTANT, "'to' must be either a model or the string '%s'" % RECURSIVE_RELATIONSHIP_CONSTANT
self.to = to
self.field_name = field_name
self.num_in_admin, self.edit_inline = num_in_admin, edit_inline
self.min_num_in_admin, self.max_num_in_admin = min_num_in_admin, max_num_in_admin
self.num_extra_on_change, self.related_name = num_extra_on_change, related_name
self.limit_choices_to = limit_choices_to or {}
self.lookup_overrides = lookup_overrides or {}
self.raw_id_admin = raw_id_admin
def get_related_field(self):
"Returns the Field in the 'to' object to which this relationship is tied."
return self.to.get_field(self.field_name)
class ManyToMany:
def __init__(self, to, singular=None, num_in_admin=0, related_name=None,
filter_interface=None, limit_choices_to=None, raw_id_admin=False):
self.to = to._meta
self.singular = singular or to._meta.object_name.lower()
self.num_in_admin = num_in_admin
self.related_name = related_name
self.filter_interface = filter_interface
self.limit_choices_to = limit_choices_to or {}
self.edit_inline = False
self.raw_id_admin = raw_id_admin
assert not (self.raw_id_admin and self.filter_interface), "ManyToMany relationships may not use both raw_id_admin and filter_interface"
class OneToOne(ManyToOne):
def __init__(self, to, field_name, num_in_admin=0, edit_inline=False,
related_name=None, limit_choices_to=None, lookup_overrides=None,
raw_id_admin=False):
self.to, self.field_name = to._meta, field_name
self.num_in_admin, self.edit_inline = num_in_admin, edit_inline
self.related_name = related_name
self.limit_choices_to = limit_choices_to or {}
self.lookup_overrides = lookup_overrides or {}
self.raw_id_admin = raw_id_admin
class BoundFieldLine(object):
def __init__(self, field_line, field_mapping, original, bound_field_class=BoundField):
self.bound_fields = [field.bind(field_mapping, original, bound_field_class) for field in field_line]
def __iter__(self):
for bound_field in self.bound_fields:
yield bound_field
def __len__(self):
return len(self.bound_fields)
class FieldLine(object):
def __init__(self, field_locator_func, linespec):
if isinstance(linespec, basestring):
self.fields = [field_locator_func(linespec)]
else:
self.fields = [field_locator_func(field_name) for field_name in linespec]
def bind(self, field_mapping, original, bound_field_line_class=BoundFieldLine):
return bound_field_line_class(self, field_mapping, original)
def __iter__(self):
for field in self.fields:
yield field
def __len__(self):
return len(self.fields)
class BoundFieldSet(object):
def __init__(self, field_set, field_mapping, original, bound_field_line_class=BoundFieldLine):
self.name = field_set.name
self.classes = field_set.classes
self.bound_field_lines = [field_line.bind(field_mapping,original, bound_field_line_class) for field_line in field_set]
def __iter__(self):
for bound_field_line in self.bound_field_lines:
yield bound_field_line
def __len__(self):
return len(self.bound_field_lines)
class FieldSet(object):
def __init__(self, name, classes, field_locator_func, line_specs):
self.name = name
self.field_lines = [FieldLine(field_locator_func, line_spec) for line_spec in line_specs]
self.classes = classes
def __repr__(self):
return "FieldSet:(%s,%s)" % (self.name, self.field_lines)
def bind(self, field_mapping, original, bound_field_set_class=BoundFieldSet):
return bound_field_set_class(self, field_mapping, original)
def __iter__(self):
for field_line in self.field_lines:
yield field_line
def __len__(self):
return len(self.field_lines)
class Admin:
def __init__(self, fields=None, js=None, list_display=None, list_filter=None, date_hierarchy=None,
save_as=False, ordering=None, search_fields=None, save_on_top=False, list_select_related=False):
self.fields = fields
self.js = js or []
self.list_display = list_display or ['__repr__']
self.list_filter = list_filter or []
self.date_hierarchy = date_hierarchy
self.save_as, self.ordering = save_as, ordering
self.search_fields = search_fields or []
self.save_on_top = save_on_top
self.list_select_related = list_select_related
def get_field_sets(self, opts):
if self.fields is None:
field_struct = ((None, {
'fields': [f.name for f in opts.fields + opts.many_to_many if f.editable and not isinstance(f, AutoField)]
}),)
else:
field_struct = self.fields
new_fieldset_list = []
for fieldset in field_struct:
name = fieldset[0]
fs_options = fieldset[1]
classes = fs_options.get('classes', ())
line_specs = fs_options['fields']
new_fieldset_list.append(FieldSet(name, classes, opts.get_field, line_specs))
return new_fieldset_list