""" Core classes for validation. """ import declarative import gettext import os import re import textwrap try: from pkg_resources import resource_filename except ImportError: resource_filename = None __all__ = ['NoDefault', 'Invalid', 'Validator', 'Identity', 'FancyValidator', 'is_empty', 'is_validator'] def get_localedir(): """ Retrieve the location of locales. If we're built as an egg, we need to find the resource within the egg. Otherwise, we need to look for the locales on the filesystem or in the system message catalog. """ locale_dir = '' # Check the egg first if resource_filename is not None: try: locale_dir = resource_filename(__name__, "/i18n") except NotImplementedError: # resource_filename doesn't work with non-egg zip files pass if not hasattr(os, 'access'): # This happens on Google App Engine return os.path.join(os.path.dirname(__file__), 'i18n') if os.access(locale_dir, os.R_OK | os.X_OK): # If the resource is present in the egg, use it return locale_dir # Otherwise, search the filesystem locale_dir = os.path.join(os.path.dirname(__file__), 'i18n') if not os.access(locale_dir, os.R_OK | os.X_OK): # Fallback on the system catalog locale_dir = os.path.normpath('/usr/share/locale') return locale_dir def set_stdtranslation(domain="FormEncode", languages=None, localedir=get_localedir()): t = gettext.translation(domain=domain, languages=languages, localedir=localedir, fallback=True) global _stdtrans _stdtrans = t.ugettext set_stdtranslation() # Dummy i18n translation function, nothing is translated here. # Instead this is actually done in api.Validator.message. # The surrounding _('string') of the strings is only for extracting # the strings automatically. # If you run pygettext with this source comment this function out temporarily. _ = lambda s: s class NoDefault(object): """A dummy value used for parameters with no default.""" def is_empty(value): """Check whether the given value should be considered "empty".""" return value is None or value == '' or ( isinstance(value, (list, tuple, dict)) and not value) def is_validator(obj): """Check whether obj is a Validator instance or class.""" return (isinstance(obj, Validator) or (isinstance(obj, type) and issubclass(obj, Validator))) class Invalid(Exception): """ This is raised in response to invalid input. It has several public attributes: ``msg``: The message, *without* values substituted. For instance, if you want HTML quoting of values, you can apply that. ``substituteArgs``: The arguments (a dictionary) to go with ``msg``. ``str(self)``: The message describing the error, with values substituted. ``value``: The offending (invalid) value. ``state``: The state that went with this validator. This is an application-specific object. ``error_list``: If this was a compound validator that takes a repeating value, and sub-validator(s) had errors, then this is a list of those exceptions. The list will be the same length as the number of values -- valid values will have None instead of an exception. ``error_dict``: Like ``error_list``, but for dictionary compound validators. """ def __init__(self, msg, value, state, error_list=None, error_dict=None): Exception.__init__(self, msg, value, state, error_list, error_dict) self.msg = msg self.value = value self.state = state self.error_list = error_list self.error_dict = error_dict assert (not self.error_list or not self.error_dict), ( "Errors shouldn't have both error dicts and lists " "(error %s has %s and %s)" % (self, self.error_list, self.error_dict)) def __str__(self): val = self.msg #if self.value: # val += " (value: %s)" % repr(self.value) return val def __unicode__(self): if isinstance(self.msg, unicode): return self.msg elif isinstance(self.msg, str): return self.msg.decode('utf8') else: return unicode(self.msg) def unpack_errors(self, encode_variables=False, dict_char='.', list_char='-'): """ Returns the error as a simple data structure -- lists, dictionaries, and strings. If ``encode_variables`` is true, then this will return a flat dictionary, encoded with variable_encode """ if self.error_list: assert not encode_variables, ( "You can only encode dictionary errors") assert not self.error_dict result = [] for item in self.error_list: if not item: result.append(item) else: result.append(item.unpack_errors()) return result elif self.error_dict: result = {} for name, item in self.error_dict.items(): if isinstance(item, (str, unicode)): result[name] = item else: result[name] = item.unpack_errors() if encode_variables: import variabledecode result = variabledecode.variable_encode( result, add_repetitions=False, dict_char=dict_char, list_char=list_char) for key in result.keys(): if not result[key]: del result[key] return result else: assert not encode_variables, ( "You can only encode dictionary errors") return self.msg ############################################################ ## Base Classes ############################################################ class Validator(declarative.Declarative): """ The base class of most validators. See ``IValidator`` for more, and ``FancyValidator`` for the more common (and more featureful) class. """ _messages = {} if_missing = NoDefault repeating = False compound = False accept_iterator = False gettextargs = {} use_builtins_gettext = True # In case you don't want to use __builtins__._ # although it may be defined, set this to False __singletonmethods__ = ('to_python', 'from_python', 'message', 'all_messages', 'subvalidators') def __classinit__(cls, new_attrs): if 'messages' in new_attrs: cls._messages = cls._messages.copy() cls._messages.update(cls.messages) del cls.messages cls._initialize_docstring() def __init__(self, *args, **kw): if 'messages' in kw: self._messages = self._messages.copy() self._messages.update(kw.pop('messages')) declarative.Declarative.__init__(self, *args, **kw) def to_python(self, value, state=None): return value def from_python(self, value, state=None): return value def message(self, msgName, state, **kw): # determine translation function try: trans = state._ except AttributeError: try: if self.use_builtins_gettext: import __builtin__ trans = __builtin__._ else: trans = _stdtrans except AttributeError: trans = _stdtrans if not callable(trans): trans = _stdtrans msg = self._messages[msgName] msg = trans(msg, **self.gettextargs) try: return msg % kw except KeyError, e: raise KeyError( "Key not found (%s) for %r=%r %% %r (from: %s)" % (e, msgName, self._messages.get(msgName), kw, ', '.join(self._messages))) def all_messages(self): """ Return a dictionary of all the messages of this validator, and any subvalidators if present. Keys are message names, values may be a message or list of messages. This is really just intended for documentation purposes, to show someone all the messages that a validator or compound validator (like Schemas) can produce. @@: Should this produce a more structured set of messages, so that messages could be unpacked into a rendered form to see the placement of all the messages? Well, probably so. """ msgs = self._messages.copy() for v in self.subvalidators(): inner = v.all_messages() for key, msg in inner: if key in msgs: if msgs[key] == msg: continue if isinstance(msgs[key], list): msgs[key].append(msg) else: msgs[key] = [msgs[key], msg] else: msgs[key] = msg return msgs def subvalidators(self): """ Return any validators that this validator contains. This is not useful for functional, except to inspect what values are available. Specifically the ``.all_messages()`` method uses this to accumulate all possible messages. """ return [] def _initialize_docstring(cls): """ This changes the class's docstring to include information about all the messages this validator uses. """ doc = cls.__doc__ or '' doc = [textwrap.dedent(doc).rstrip()] messages = cls._messages.items() messages.sort() doc.append('\n\n**Messages**\n\n') for name, default in messages: default = re.sub(r'(%\(.*?\)[rsifcx])', r'``\1``', default) doc.append('``' + name + '``:\n') doc.append(' ' + default + '\n\n') cls.__doc__ = ''.join(doc) _initialize_docstring = classmethod(_initialize_docstring) class _Identity(Validator): def __repr__(self): return 'validators.Identity' Identity = _Identity() class FancyValidator(Validator): """ FancyValidator is the (abstract) superclass for various validators and converters. A subclass can validate, convert, or do both. There is no formal distinction made here. Validators have two important external methods: ``.to_python(value, state)``: Attempts to convert the value. If there is a problem, or the value is not valid, an Invalid exception is raised. The argument for this exception is the (potentially HTML-formatted) error message to give the user. ``.from_python(value, state)``: Reverses ``.to_python()``. These two external methods make use of the following four important internal methods that can be overridden. However, none of these *have* to be overridden, only the ones that are appropriate for the validator. ``._to_python(value, state)``: This method converts the source to a Python value. It returns the converted value, or raises an Invalid exception if the conversion cannot be done. The argument to this exception should be the error message. Contrary to ``.to_python()`` it is only meant to convert the value, not to fully validate it. ``._from_python(value, state)``: Should undo ``._to_python()`` in some reasonable way, returning a string. ``.validate_other(value, state)``: Validates the source, before ``._to_python()``, or after ``._from_python()``. It's usually more convenient to use ``.validate_python()`` however. ``.validate_python(value, state)``: Validates a Python value, either the result of ``._to_python()``, or the input to ``._from_python()``. You should make sure that all possible validation errors are raised in at least one these four methods, not matter which. Subclasses can also override the ``__init__()`` method if the ``declarative.Declarative`` model doesn't work for this. Validators should have no internal state besides the values given at instantiation. They should be reusable and reentrant. All subclasses can take the arguments/instance variables: ``if_empty``: If set, then this value will be returned if the input evaluates to false (empty list, empty string, None, etc), but not the 0 or False objects. This only applies to ``.to_python()``. ``not_empty``: If true, then if an empty value is given raise an error. (Both with ``.to_python()`` and also ``.from_python()`` if ``.validate_python`` is true). ``strip``: If true and the input is a string, strip it (occurs before empty tests). ``if_invalid``: If set, then when this validator would raise Invalid during ``.to_python()``, instead return this value. ``if_invalid_python``: If set, when the Python value (converted with ``.from_python()``) is invalid, this value will be returned. ``accept_python``: If True (the default), then ``.validate_python()`` and ``.validate_other()`` will not be called when ``.from_python()`` is used. These parameters are handled at the level of the external methods ``.to_python()`` and ``.from_python`` already; if you overwrite one of the internal methods, you usually don't need to care about them. """ if_invalid = NoDefault if_invalid_python = NoDefault if_empty = NoDefault not_empty = False accept_python = True strip = False messages = { 'empty': _("Please enter a value"), 'badType': _("The input must be a string (not a %(type)s: %(value)r)"), 'noneType': _("The input must be a string (not None)"), } def to_python(self, value, state=None): try: if self.strip and isinstance(value, (str, unicode)): value = value.strip() elif hasattr(value, 'mixed'): # Support Paste's MultiDict value = value.mixed() if self.is_empty(value): if self.not_empty: raise Invalid(self.message('empty', state), value, state) else: if self.if_empty is not NoDefault: return self.if_empty else: return self.empty_value(value) vo = self.validate_other if vo and vo is not self._validate_noop: vo(value, state) tp = self._to_python if tp: value = tp(value, state) vp = self.validate_python if vp and vp is not self._validate_noop: vp(value, state) return value except Invalid: if self.if_invalid is NoDefault: raise else: return self.if_invalid def from_python(self, value, state=None): try: if self.strip and isinstance(value, (str, unicode)): value = value.strip() if not self.accept_python: if self.is_empty(value): if self.not_empty: raise Invalid(self.message('empty', state), value, state) else: return self.empty_value(value) vp = self.validate_python if vp and vp is not self._validate_noop: vp(value, state) fp = self._from_python if fp: value = fp(value, state) vo = self.validate_other if vo and vo is not self._validate_noop: vo(value, state) return value else: if self.is_empty(value): return self.empty_value(value) fp = self._from_python if fp: value = self._from_python(value, state) return value except Invalid: if self.if_invalid_python is NoDefault: raise else: return self.if_invalid_python def is_empty(self, value): return is_empty(value) def empty_value(self, value): return None def assert_string(self, value, state): if not isinstance(value, (str, unicode)): raise Invalid(self.message('badType', state, type=type(value), value=value), value, state) def base64encode(self, value): """ Encode a string in base64, stripping whitespace and removing newlines. """ return value.encode('base64').strip().replace('\n', '') def _validate_noop(self, value, state=None): """ A validation method that doesn't do anything. """ pass validate_python = validate_other = _validate_noop _to_python = None _from_python = None