# # Copyright (c), 2016-2020, SISSA (International School for Advanced Studies). # All rights reserved. # This file is distributed under the terms of the MIT License. # See the file 'LICENSE' in the root directory of the present # distribution, or http://opensource.org/licenses/MIT. # # @author Davide Brunato # """ This module contains base functions and classes XML Schema components. """ import logging from collections.abc import Iterator, MutableMapping from functools import cached_property from typing import TYPE_CHECKING, cast, Any, Optional, Union from elementpath import select from elementpath.etree import etree_tostring from xmlschema.exceptions import XMLSchemaTypeError from xmlschema.names import XSD_ANNOTATION, XSD_APPINFO, XSD_DOCUMENTATION, \ XSD_ANY_TYPE, XSD_ANY_SIMPLE_TYPE, XSD_ANY_ATOMIC_TYPE, XSD_BOOLEAN, XSD_ID, \ XSD_QNAME, XSD_OVERRIDE, XSD_NOTATION_TYPE, XSD_DECIMAL, XMLNS_NAMESPACE from xmlschema.aliases import ElementType, NsmapType, SchemaType, BaseXsdType, \ ComponentClassType, DecodedValueType, ModelParticleType from xmlschema.translation import gettext as _ from xmlschema.exceptions import XMLSchemaValueError from xmlschema.utils.qnames import get_qname, local_name, get_prefixed_qname from xmlschema.utils.etree import is_etree_element from xmlschema.utils.logger import format_xmlschema_stack, dump_data from xmlschema.resources import XMLResource from .validation import check_validation_mode, DecodeContext from .exceptions import XMLSchemaParseError, XMLSchemaNotBuiltError from .helpers import get_xsd_annotation_child if TYPE_CHECKING: from .simple_types import XsdSimpleType from .complex_types import XsdComplexType from .elements import XsdElement from .groups import XsdGroup from .xsd_globals import XsdGlobals logger = logging.getLogger('xmlschema') XSD_TYPE_DERIVATIONS = {'extension', 'restriction'} XSD_ELEMENT_DERIVATIONS = {'extension', 'restriction', 'substitution'} class XsdValidator: """ Common base class for XML Schema validator, that represents a PSVI (Post Schema Validation Infoset) information item. A concrete XSD validator have to report its validity collecting building errors and implementing the properties. :param validation: defines the XSD validation mode to use for build the validator, \ its value can be 'strict', 'lax' or 'skip'. Strict mode is the default. :type validation: str :ivar validation: XSD validation mode. :vartype validation: str :ivar errors: XSD validator building errors. :vartype errors: list """ def __init__(self, validation: str = 'strict') -> None: self.validation = validation self.errors: list[XMLSchemaParseError] = [] @classmethod def _mro_slots(cls) -> Iterator[str]: for c in cls.__mro__: if hasattr(c, '__slots__'): yield from c.__slots__ @property def built(self) -> bool: """Defines whether the XSD validator has been fully parsed and built""" raise NotImplementedError() def build(self) -> None: """ Build the validator and its components. Do nothing if the validator is already built. """ raise NotImplementedError() @property def validation_attempted(self) -> str: """ Property that returns the *validation status* of the XSD validator. It can be 'full', 'partial' or 'none'. | https://www.w3.org/TR/xmlschema-1/#e-validation_attempted | https://www.w3.org/TR/2012/REC-xmlschema11-1-20120405/#e-validation_attempted """ raise NotImplementedError() @property def validity(self) -> str: """ Property that returns the XSD validator's validity. It can be ‘valid’, ‘invalid’ or ‘notKnown’. | https://www.w3.org/TR/xmlschema-1/#e-validity | https://www.w3.org/TR/2012/REC-xmlschema11-1-20120405/#e-validity """ if self.validation == 'skip': return 'notKnown' elif self.errors: return 'invalid' elif self.validation_attempted == 'full': return 'valid' else: return 'notKnown' def check_validator(self, validation: Optional[str] = None) -> None: """Checks the status of a schema validator against a validation mode.""" if validation is None: # Validator self-check validation = self.validation if self.validation_attempted == 'none' and self.validity == 'notKnown': return else: # Check called before validation check_validation_mode(validation) if self.validation_attempted == 'none' and validation != 'skip': msg = _("%r is not built") % self raise XMLSchemaNotBuiltError(self, msg) if validation == 'strict': if self.validation_attempted != 'full': msg = _("validation mode is 'strict' and %r is not built") % self raise XMLSchemaNotBuiltError(self, msg) if self.validity != 'valid': msg = _("validation mode is 'strict' and %r is not valid") % self raise XMLSchemaNotBuiltError(self, msg) def iter_components(self, xsd_classes: ComponentClassType = None) \ -> Iterator[Union['XsdComponent', SchemaType, 'XsdGlobals']]: """ Creates an iterator for traversing all XSD components of the validator. :param xsd_classes: returns only a specific class/classes of components, \ otherwise returns all components. """ raise NotImplementedError() @property def all_errors(self) -> list[XMLSchemaParseError]: """ A list with all the building errors of the XSD validator and its components. """ errors = [] for comp in self.iter_components(): if comp.errors: errors.extend(comp.errors) return errors @property def total_errors(self) -> int: return sum(len(comp.errors) for comp in self.iter_components()) def __copy__(self) -> 'XsdValidator': validator: 'XsdValidator' = object.__new__(self.__class__) validator.validation = self.validation validator.errors = self.errors.copy() return validator def parse_error(self, error: Union[str, Exception], elem: Optional[ElementType] = None, validation: Optional[str] = None, namespaces: Optional[NsmapType] = None) -> None: """ Helper method for registering parse errors. Does nothing if validation mode is 'skip'. Il validation mode is 'lax' collects the error, otherwise raise the error. :param error: can be a parse error or an error message. :param elem: the Element instance related to the error, for default uses the 'elem' \ attribute of the validator, if it's present. :param validation: overrides the default validation mode of the validator. :param namespaces: overrides the namespaces of the validator, or provides a mapping \ if the validator hasn't a namespaces attribute. """ if validation is not None: check_validation_mode(validation) else: validation = self.validation if validation == 'skip': return elif elem is None: elem = getattr(self, 'elem', None) elif not is_etree_element(elem): msg = "the argument 'elem' must be an Element instance, not {!r}." raise XMLSchemaTypeError(msg.format(elem)) if namespaces is None: namespaces = getattr(self, 'namespaces', None) if isinstance(error, XMLSchemaParseError): if error.namespaces is None: error.namespaces = namespaces if error.elem is None: error.elem = elem if error.source is None: error.source = getattr(self, 'source', None) elif isinstance(error, Exception): message = str(error).strip() if message[0] in '\'"' and message[0] == message[-1]: message = message.strip('\'"') error = XMLSchemaParseError(self, message, elem, namespaces=namespaces) elif isinstance(error, str): error = XMLSchemaParseError(self, error, elem, namespaces=namespaces) else: msg = "'error' argument must be an exception or a string, not {!r}." raise XMLSchemaTypeError(msg.format(error)) if validation == 'lax': if error.stack_trace is None and logger.level == logging.DEBUG: error.stack_trace = format_xmlschema_stack('xmlschema/validators') logger.debug("Collect %r with traceback:\n%s", error, error.stack_trace) self.errors.append(error) else: raise error def _parse_xpath_default_namespace(self, elem: ElementType) -> str: """ Parse XSD 1.1 xpathDefaultNamespace attribute for schema, alternative, assert, assertion and selector declarations, checking if the value is conforming to the specification. In case the attribute is missing or for wrong attribute values defaults to ''. """ try: value = elem.attrib['xpathDefaultNamespace'] except KeyError: return '' value = value.strip() if value == '##local': return '' elif value == '##defaultNamespace': default_namespace = getattr(self, 'default_namespace', None) return default_namespace if isinstance(default_namespace, str) else '' elif value == '##targetNamespace': target_namespace = getattr(self, 'target_namespace', '') return target_namespace if isinstance(target_namespace, str) else '' elif len(value.split()) == 1: return value else: admitted_values = ('##defaultNamespace', '##targetNamespace', '##local') msg = _("wrong value {0!r} for 'xpathDefaultNamespace' " "attribute, can be (anyURI | {1}).") self.parse_error(msg.format(value, ' | '.join(admitted_values)), elem) return '' class XsdComponent(XsdValidator): """ Class for XSD components. See: https://www.w3.org/TR/xmlschema-ref/ :param elem: ElementTree's node containing the definition. :param schema: the XMLSchema object that owns the definition. :param parent: the XSD parent, `None` means that is a global component that \ has the schema as parent. :param name: name of the component, maybe overwritten by the parse of the `elem` argument. """ @classmethod def meta_tag(cls) -> str: """The reference tag for the component type.""" try: return cls._ADMITTED_TAGS[0] except IndexError: raise NotImplementedError(f"not available for {cls!r}") _ADMITTED_TAGS: Union[tuple[str, ...], tuple[()]] = () maps: 'XsdGlobals' elem: ElementType qualified: bool = True """For name matching, unqualified matching may be admitted only for elements and attributes""" ref: Optional['XsdComponent'] redefine: Optional['XsdComponent'] __slots__ = ('name', 'parent', 'schema', 'xsd_version', 'target_namespace', 'maps', 'builders', 'elem', 'validation', 'errors', 'ref', 'redefine', '_built') def __init__(self, elem: ElementType, schema: SchemaType, parent: Optional['XsdComponent'] = None, name: Optional[str] = None) -> None: super().__init__(schema.validation) self._built = False self.ref = self.redefine = None self.name = name self.parent = parent self.schema = schema self.xsd_version = schema.XSD_VERSION self.target_namespace = schema.target_namespace self.maps = schema.maps self.builders = schema.builders self.parse(elem) def __repr__(self) -> str: if self.ref is not None: return '%s(ref=%r)' % (self.__class__.__name__, self.prefixed_name) else: return '%s(name=%r)' % (self.__class__.__name__, self.prefixed_name) def __copy__(self) -> 'XsdComponent': component: 'XsdComponent' = object.__new__(self.__class__) component.__dict__.update(self.__dict__) for cls in self.__class__.__mro__: for attr in getattr(cls, '__slots__', ()): object.__setattr__(component, attr, getattr(self, attr)) component.errors = self.errors.copy() return component @property def built(self) -> bool: return self._built def build(self) -> None: self._built = True @property def validation_attempted(self) -> str: return 'full' if self._built else 'partial' def is_global(self) -> bool: """Returns `True` if the instance is a global component, `False` if it's local.""" return self.parent is None def is_override(self) -> bool: """Returns `True` if the instance is an override of a global component.""" if self.parent is not None: return False return any(self.elem in x for x in self.schema.root if x.tag == XSD_OVERRIDE) @property def schema_elem(self) -> ElementType: """The reference element of the schema for the component instance.""" return self.elem @property def source(self) -> XMLResource: """Property that references to schema source.""" return self.schema.source @property def default_namespace(self) -> Optional[str]: """Property that references to schema's default namespaces.""" return self.schema.namespaces.get('') @property def namespaces(self) -> NsmapType: """Property that references to schema's namespace mapping.""" return self.schema.namespaces @property def any_type(self) -> 'XsdComplexType': """Property that references to the xs:anyType instance of the global maps.""" return cast('XsdComplexType', self.maps.types[XSD_ANY_TYPE]) @property def any_simple_type(self) -> 'XsdSimpleType': """Property that references to the xs:anySimpleType instance of the global maps.""" return cast('XsdSimpleType', self.maps.types[XSD_ANY_SIMPLE_TYPE]) @property def any_atomic_type(self) -> 'XsdSimpleType': """Property that references to the xs:anyAtomicType instance of the global maps.""" return cast('XsdSimpleType', self.maps.types[XSD_ANY_ATOMIC_TYPE]) @cached_property def annotation(self) -> Optional['XsdAnnotation']: """ The primary annotation of the XSD component, if any. This is the annotation defined in the first child of the element where the component is defined. """ child = get_xsd_annotation_child(self.elem) if child is not None: return XsdAnnotation(child, self.schema, self) else: return None @cached_property def annotations(self) -> Union[tuple[()], list['XsdAnnotation']]: """A list containing all the annotations of the XSD component.""" annotations = [] components = self.schema.components parent_map = self.schema.source.parent_map for elem in self.elem.iter(): if elem is self.elem: if self.annotation is not None: annotations.append(self.annotation) elif elem in components: break elif elem.tag == XSD_ANNOTATION: parent_elem = parent_map[elem] if parent_elem is not self.elem: annotations.append(XsdAnnotation(elem, self.schema, self, parent_elem)) return annotations def parse(self, elem: ElementType) -> None: """Set and parse the component Element.""" if elem.tag not in self._ADMITTED_TAGS: msg = "wrong XSD element {!r} for {!r}, must be one of {!r}" raise XMLSchemaValueError( msg.format(elem.tag, self.__class__, self._ADMITTED_TAGS) ) if hasattr(self, 'elem'): # Redefinition of a global component if self.parent is not None: raise XMLSchemaValueError(f'{self!r} is not a global component') self.__dict__.clear() self.elem = elem if self.errors: self.errors.clear() self._parse() if self.__class__.build is XsdComponent.build: self._built = True def _parse(self) -> None: return def _parse_reference(self) -> Optional[bool]: """ Helper method for referable components. Returns `True` if a valid reference QName is found without any error, otherwise returns `None`. Sets an id-related name for the component ('nameless_') if both the attributes 'ref' and 'name' are missing. """ ref = self.elem.get('ref') if ref is None: if 'name' in self.elem.attrib: return None elif self.parent is None: msg = _("missing attribute 'name' in a global %r") self.parse_error(msg % type(self)) else: msg = _("missing both attributes 'name' and 'ref' in local %r") self.parse_error(msg % type(self)) elif 'name' in self.elem.attrib: msg = _("attributes 'name' and 'ref' are mutually exclusive") self.parse_error(msg) elif self.parent is None: msg = _("attribute 'ref' not allowed in a global %r") self.parse_error(msg % type(self)) else: try: self.name = self.schema.resolve_qname(ref) except (KeyError, ValueError, RuntimeError) as err: self.parse_error(err) else: if self._parse_child_component(self.elem, strict=False) is not None: msg = _("a reference component cannot have child definitions/declarations") self.parse_error(msg) return True return None def _parse_child_component(self, elem: ElementType, strict: bool = True) \ -> Optional[ElementType]: child = None for e in elem: if e.tag == XSD_ANNOTATION or callable(e.tag): continue elif not strict: return e elif child is not None: msg = _("too many XSD components, unexpected {0!r} found at position {1}") self.parse_error(msg.format(child, elem[:].index(e)), elem) break else: child = e return child def _parse_target_namespace(self) -> None: """ XSD 1.1 targetNamespace attribute in elements and attributes declarations. """ if 'targetNamespace' not in self.elem.attrib: return target_namespace = self.elem.attrib['targetNamespace'].strip() if target_namespace == XMLNS_NAMESPACE: # https://www.w3.org/TR/xmlschema11-1/#sec-nss-special msg = _(f"The namespace {XMLNS_NAMESPACE} cannot be used as 'targetNamespace'") raise XMLSchemaValueError(msg) if 'name' not in self.elem.attrib: msg = _("attribute 'name' must be present when " "'targetNamespace' attribute is provided") self.parse_error(msg) if 'form' in self.elem.attrib: msg = _("attribute 'form' must be absent when " "'targetNamespace' attribute is provided") self.parse_error(msg) if target_namespace != self.target_namespace: if self.parent is None: msg = _("a global %s must have the same namespace as its parent schema") self.parse_error(msg % self.__class__.__name__) xsd_type = self.get_parent_type() if xsd_type is None or xsd_type.parent is not None: pass elif xsd_type.derivation != 'restriction' or \ getattr(xsd_type.base_type, 'name', None) == XSD_ANY_TYPE: msg = _("a declaration contained in a global complexType " "must have the same namespace as its parent schema") self.parse_error(msg) self.target_namespace = target_namespace if self.name is None: pass # pragma: no cover elif not target_namespace: self.name = local_name(self.name) else: self.name = f'{{{target_namespace}}}{local_name(self.name)}' @cached_property def local_name(self) -> Optional[str]: """The local part of the name of the component, or `None` if the name is `None`.""" return None if self.name is None else local_name(self.name) @cached_property def qualified_name(self) -> Optional[str]: """The name of the component in extended format, or `None` if the name is `None`.""" return None if self.name is None else get_qname(self.target_namespace, self.name) @cached_property def prefixed_name(self) -> Optional[str]: """The name of the component in prefixed format, or `None` if the name is `None`.""" return None if self.name is None else get_prefixed_qname(self.name, self.namespaces) @cached_property def display_name(self) -> Optional[str]: """ The name of the component to display when you have to refer to it with a simple unambiguous format. """ prefixed_name = self.prefixed_name if prefixed_name is None: return None return self.name if ':' not in prefixed_name else prefixed_name @property def id(self) -> Optional[str]: """The ``'id'`` attribute of the component tag, ``None`` if missing.""" return self.elem.get('id') def is_matching(self, name: Optional[str], default_namespace: Optional[str] = None, **kwargs: Any) -> bool: """ Returns `True` if the component name is matching the name provided as argument, `False` otherwise. For XSD elements the matching is extended to substitutes. :param name: a local or fully-qualified name. :param default_namespace: used by the XPath processor for completing \ the name argument in case it's a local name. :param kwargs: additional options that can be used by certain components. """ return bool(self.name == name or default_namespace and name and name[0] != '{' and self.name == f'{{{default_namespace}}}{name}') def match(self, name: Optional[str], default_namespace: Optional[str] = None, **kwargs: Any) -> Optional['XsdComponent']: """ Returns the component if its name is matching the name provided as argument, `None` otherwise. """ return self if self.is_matching(name, default_namespace, **kwargs) else None def get_matching_item(self, mapping: MutableMapping[str, Any], ns_prefix: str = 'xmlns', match_local_name: bool = False) -> Optional[Any]: """ If a key is matching component name, returns its value, otherwise returns `None`. """ if self.name is None: return None elif not self.target_namespace: return mapping.get(self.name) elif self.qualified_name in mapping: return mapping[cast(str, self.qualified_name)] elif self.prefixed_name in mapping: return mapping[cast(str, self.prefixed_name)] # Try a match with other prefixes target_namespace = self.target_namespace suffix = f':{self.local_name}' for k in filter(lambda x: x.endswith(suffix), mapping): prefix = k.split(':')[0] if self.schema.namespaces.get(prefix) == target_namespace: return mapping[k] # Match namespace declaration within value ns_declaration = f'{ns_prefix}:{prefix}' try: if mapping[k][ns_declaration] == target_namespace: return mapping[k] except (KeyError, TypeError): pass else: if match_local_name: return mapping.get(self.local_name) # type: ignore[arg-type] return None def get_global(self) -> 'XsdComponent': """Returns the global XSD component that contains the component instance.""" if self.parent is None: return self component = self.parent while component is not self: if component.parent is None: return component component = component.parent else: # pragma: no cover msg = _("parent circularity from {}") raise XMLSchemaValueError(msg.format(self)) def get_parent_type(self) -> Optional['XsdType']: """ Returns the nearest XSD type that contains the component instance, or `None` if the component doesn't have an XSD type parent. """ component = self.parent while component is not self and component is not None: if isinstance(component, XsdType): return component component = component.parent return None def iter_components(self, xsd_classes: ComponentClassType = None) \ -> Iterator['XsdComponent']: """ Creates an iterator for XSD subcomponents. :param xsd_classes: provide a class or a tuple of classes to iterate \ over only a specific classes of components. """ if xsd_classes is None or isinstance(self, xsd_classes): yield self def iter_ancestors(self, xsd_classes: ComponentClassType = None)\ -> Iterator['XsdComponent']: """ Creates an iterator for XSD ancestor components, schema excluded. Stops when the component is global or if the ancestor is not an instance of the specified class/classes. :param xsd_classes: provide a class or a tuple of classes to iterate \ over only a specific classes of components. """ ancestor = self while True: if ancestor.parent is None: break ancestor = ancestor.parent if xsd_classes is not None and not isinstance(ancestor, xsd_classes): break yield ancestor def tostring(self, indent: str = '', max_lines: Optional[int] = None, spaces_for_tab: int = 4) -> Union[str, bytes]: """Serializes the XML elements that declare or define the component to a string.""" return etree_tostring(self.schema_elem, self.namespaces, indent, max_lines, spaces_for_tab) def dump_status(self, *args: Any) -> None: """Dump component status to logger for debugging purposes.""" dump_data(self.schema.source, *args) class XsdAnnotation(XsdComponent): """ Class for XSD *annotation* definitions. :ivar appinfo: a list containing the xs:appinfo children. :ivar documentation: a list containing the xs:documentation children. .. Content: (appinfo | documentation)* .. Content: ({any})* .. Content: ({any})* """ _ADMITTED_TAGS = XSD_ANNOTATION, annotation = None annotations = () def __init__(self, elem: ElementType, schema: SchemaType, parent: Optional[XsdComponent] = None, parent_elem: Optional[ElementType] = None) -> None: super().__init__(elem, schema, parent) if parent_elem is not None: self.parent_elem = parent_elem elif parent is not None: self.parent_elem = parent.elem else: self.parent_elem = schema.source.root def __repr__(self) -> str: return '%s(%r)' % (self.__class__.__name__, str(self)[:40]) def __str__(self) -> str: return '\n'.join(select(self.elem, '*/fn:string()')) def _parse(self) -> None: self.appinfo = [] self.documentation = [] for child in self.elem: if child.tag == XSD_APPINFO: self.appinfo.append(child) elif child.tag == XSD_DOCUMENTATION: self.documentation.append(child) class XsdType(XsdComponent): """Common base class for XSD types.""" __slots__ = () base_type: Optional[BaseXsdType] = None derivation: Optional[str] = None _final: Optional[str] = None ref: Optional[BaseXsdType] @property def final(self) -> str: return self.schema.final_default if self._final is None else self._final @property def content_type_label(self) -> str: """ The content type classification. Can be 'simple', 'mixed', 'element-only' or 'empty'. """ raise NotImplementedError() @property def sequence_type(self) -> str: """The XPath sequence type associated with the content.""" raise NotImplementedError() @property def root_type(self) -> BaseXsdType: """ The root type of the type definition hierarchy. For an atomic type is the primitive type. For a list is the primitive type of the item. For a union is the base union type. For a complex type is xs:anyType. """ raise NotImplementedError() @property def simple_type(self) -> Optional['XsdSimpleType']: """ Property that is the instance itself for a simpleType. For a complexType is the instance's *content* if this is a simpleType or `None` if the instance's *content* is a model group. """ raise NotImplementedError() @property def model_group(self) -> Optional['XsdGroup']: """ Property that is `None` for a simpleType. For a complexType is the instance's *content* if this is a model group or `None` if the instance's *content* is a simpleType. """ return None @staticmethod def is_simple() -> bool: """Returns `True` if the instance is a simpleType, `False` otherwise.""" raise NotImplementedError() @staticmethod def is_complex() -> bool: """Returns `True` if the instance is a complexType, `False` otherwise.""" raise NotImplementedError() def is_atomic(self) -> bool: """Returns `True` if the instance is an atomic simpleType, `False` otherwise.""" return False def is_primitive(self) -> bool: """Returns `True` if the type is an XSD primitive builtin type, `False` otherwise.""" return False def is_list(self) -> bool: """Returns `True` if the instance is a list simpleType, `False` otherwise.""" return False def is_union(self) -> bool: """Returns `True` if the instance is a union simpleType, `False` otherwise.""" return False def is_datetime(self) -> bool: """ Returns `True` if the instance is a datetime/duration XSD builtin-type, `False` otherwise. """ return False def is_empty(self) -> bool: """Returns `True` if the instance has an empty content, `False` otherwise.""" raise NotImplementedError() def is_emptiable(self) -> bool: """Returns `True` if the instance has an emptiable value or content, `False` otherwise.""" raise NotImplementedError() def has_simple_content(self) -> bool: """ Returns `True` if the instance has a simple content, `False` otherwise. """ raise NotImplementedError() def has_complex_content(self) -> bool: """ Returns `True` if the instance is a complexType with mixed or element-only content, `False` otherwise. """ raise NotImplementedError() def has_mixed_content(self) -> bool: """ Returns `True` if the instance is a complexType with mixed content, `False` otherwise. """ raise NotImplementedError() def is_element_only(self) -> bool: """ Returns `True` if the instance is a complexType with element-only content, `False` otherwise. """ raise NotImplementedError() def is_derived(self, other: BaseXsdType, derivation: Optional[str] = None) -> bool: """ Returns `True` if the instance is derived from *other*, `False` otherwise. The optional argument derivation can be a string containing the words 'extension' or 'restriction' or both. """ raise NotImplementedError() def is_extension(self) -> bool: return self.derivation == 'extension' def is_restriction(self) -> bool: return self.derivation == 'restriction' def is_blocked(self, xsd_element: 'XsdElement') -> bool: """ Returns `True` if the base type derivation is blocked, `False` otherwise. """ xsd_type = xsd_element.type if self is xsd_type: return False block = f'{xsd_element.block} {xsd_type.block}'.strip() if not block: return False _block = {x for x in block.split() if x in ('extension', 'restriction')} return any(self.is_derived(xsd_type, derivation) for derivation in _block) def is_dynamic_consistent(self, other: Any) -> bool: raise NotImplementedError() def is_key(self) -> bool: return self.is_derived(self.maps.types[XSD_ID]) def is_qname(self) -> bool: return self.is_derived(self.maps.types[XSD_QNAME]) def is_notation(self) -> bool: return self.is_derived(self.maps.types[XSD_NOTATION_TYPE]) def is_decimal(self) -> bool: return self.is_derived(self.maps.types[XSD_DECIMAL]) def is_boolean(self) -> bool: return self.is_derived(self.maps.types[XSD_BOOLEAN]) def text_decode(self, text: str, validation: str = 'skip', context: Optional[DecodeContext] = None) -> DecodedValueType: raise NotImplementedError() def text_is_valid(self, text: str, context: Optional[DecodeContext] = None) -> bool: raise NotImplementedError() def overall_min_occurs(self, particle: ModelParticleType) -> int: """Returns the overall minimum for occurrences of a content model particle.""" content = self.model_group if content is None or self.is_empty(): raise XMLSchemaTypeError(_("content type must be 'element-only' or 'mixed'")) return content.overall_min_occurs(particle) def overall_max_occurs(self, particle: ModelParticleType) -> Optional[int]: """Returns the overall maximum for occurrences of a content model particle.""" content = self.model_group if content is None or self.is_empty(): raise XMLSchemaTypeError(_("content must type be 'element-only' or 'mixed'")) return content.overall_max_occurs(particle)