diff --git "a/venv/lib/python3.10/site-packages/lxml/etree.pyx" "b/venv/lib/python3.10/site-packages/lxml/etree.pyx" new file mode 100644--- /dev/null +++ "b/venv/lib/python3.10/site-packages/lxml/etree.pyx" @@ -0,0 +1,3712 @@ +# cython: binding=True +# cython: auto_pickle=False +# cython: language_level=3 + +""" +The ``lxml.etree`` module implements the extended ElementTree API for XML. +""" + +__docformat__ = "restructuredtext en" + +__all__ = [ + 'AttributeBasedElementClassLookup', 'C14NError', 'C14NWriterTarget', 'CDATA', + 'Comment', 'CommentBase', 'CustomElementClassLookup', 'DEBUG', + 'DTD', 'DTDError', 'DTDParseError', 'DTDValidateError', + 'DocumentInvalid', 'ETCompatXMLParser', 'ETXPath', 'Element', + 'ElementBase', 'ElementClassLookup', 'ElementDefaultClassLookup', + 'ElementNamespaceClassLookup', 'ElementTree', 'Entity', 'EntityBase', + 'Error', 'ErrorDomains', 'ErrorLevels', 'ErrorTypes', 'Extension', + 'FallbackElementClassLookup', 'FunctionNamespace', 'HTML', + 'HTMLParser', 'LIBXML_COMPILED_VERSION', 'LIBXML_VERSION', + 'LIBXSLT_COMPILED_VERSION', 'LIBXSLT_VERSION', 'LXML_VERSION', + 'LxmlError', 'LxmlRegistryError', 'LxmlSyntaxError', + 'NamespaceRegistryError', 'PI', 'PIBase', 'ParseError', + 'ParserBasedElementClassLookup', 'ParserError', 'ProcessingInstruction', + 'PyErrorLog', 'PythonElementClassLookup', 'QName', 'RelaxNG', + 'RelaxNGError', 'RelaxNGErrorTypes', 'RelaxNGParseError', + 'RelaxNGValidateError', 'Resolver', 'Schematron', 'SchematronError', + 'SchematronParseError', 'SchematronValidateError', 'SerialisationError', + 'SubElement', 'TreeBuilder', 'XInclude', 'XIncludeError', 'XML', + 'XMLDTDID', 'XMLID', 'XMLParser', 'XMLSchema', 'XMLSchemaError', + 'XMLSchemaParseError', 'XMLSchemaValidateError', 'XMLSyntaxError', + 'XMLTreeBuilder', 'XPath', 'XPathDocumentEvaluator', 'XPathError', + 'XPathEvalError', 'XPathEvaluator', 'XPathFunctionError', 'XPathResultError', + 'XPathSyntaxError', 'XSLT', 'XSLTAccessControl', 'XSLTApplyError', + 'XSLTError', 'XSLTExtension', 'XSLTExtensionError', 'XSLTParseError', + 'XSLTSaveError', 'canonicalize', + 'cleanup_namespaces', 'clear_error_log', 'dump', + 'fromstring', 'fromstringlist', 'get_default_parser', 'iselement', + 'iterparse', 'iterwalk', 'parse', 'parseid', 'register_namespace', + 'set_default_parser', 'set_element_class_lookup', 'strip_attributes', + 'strip_elements', 'strip_tags', 'tostring', 'tostringlist', 'tounicode', + 'use_global_python_log' + ] + +cimport cython + +from lxml cimport python +from lxml.includes cimport tree, config +from lxml.includes.tree cimport xmlDoc, xmlNode, xmlAttr, xmlNs, _isElement, _getNs +from lxml.includes.tree cimport const_xmlChar, xmlChar, _xcstr +from lxml.python cimport _cstr, _isString +from lxml.includes cimport xpath +from lxml.includes cimport c14n + +# Cython's standard declarations +cimport cpython.mem +cimport cpython.ref +from libc cimport limits, stdio, stdlib +from libc cimport string as cstring_h # not to be confused with stdlib 'string' +from libc.string cimport const_char + +cdef object os_path_abspath +from os.path import abspath as os_path_abspath + +cdef object BytesIO, StringIO +from io import BytesIO, StringIO + +cdef object OrderedDict +from collections import OrderedDict + +cdef object _elementpath +from lxml import _elementpath + +cdef object sys +import sys + +cdef object re +import re + +cdef object partial +from functools import partial + +cdef object islice +from itertools import islice + +cdef object ITER_EMPTY = iter(()) + +cdef object MutableMapping +from collections.abc import MutableMapping + +class _ImmutableMapping(MutableMapping): + def __getitem__(self, key): + raise KeyError, key + + def __setitem__(self, key, value): + raise KeyError, key + + def __delitem__(self, key): + raise KeyError, key + + def __contains__(self, key): + return False + + def __len__(self): + return 0 + + def __iter__(self): + return ITER_EMPTY + iterkeys = itervalues = iteritems = __iter__ + +cdef object IMMUTABLE_EMPTY_MAPPING = _ImmutableMapping() +del _ImmutableMapping + + +# the rules +# --------- +# any libxml C argument/variable is prefixed with c_ +# any non-public function/class is prefixed with an underscore +# instance creation is always through factories + +# what to do with libxml2/libxslt error messages? +# 0 : drop +# 1 : use log +DEF __DEBUG = 1 + +# maximum number of lines in the libxml2/xslt log if __DEBUG == 1 +DEF __MAX_LOG_SIZE = 100 + +# make the compiled-in debug state publicly available +DEBUG = __DEBUG + +# A struct to store a cached qualified tag name+href pair. +# While we can borrow the c_name from the document dict, +# PyPy requires us to store a Python reference for the +# namespace in order to keep the byte buffer alive. +cdef struct qname: + const_xmlChar* c_name + python.PyObject* href + +# initialize parser (and threading) +xmlparser.xmlInitParser() + +# global per-thread setup +tree.xmlThrDefIndentTreeOutput(1) +tree.xmlThrDefLineNumbersDefaultValue(1) + +_initThreadLogging() + +# filename encoding +cdef bytes _FILENAME_ENCODING = (sys.getfilesystemencoding() or sys.getdefaultencoding() or 'ascii').encode("UTF-8") +cdef char* _C_FILENAME_ENCODING = _cstr(_FILENAME_ENCODING) + +# set up some default namespace prefixes +cdef dict _DEFAULT_NAMESPACE_PREFIXES = { + b"http://www.w3.org/XML/1998/namespace": b'xml', + b"http://www.w3.org/1999/xhtml": b"html", + b"http://www.w3.org/1999/XSL/Transform": b"xsl", + b"http://www.w3.org/1999/02/22-rdf-syntax-ns#": b"rdf", + b"http://schemas.xmlsoap.org/wsdl/": b"wsdl", + # xml schema + b"http://www.w3.org/2001/XMLSchema": b"xs", + b"http://www.w3.org/2001/XMLSchema-instance": b"xsi", + # dublin core + b"http://purl.org/dc/elements/1.1/": b"dc", + # objectify + b"http://codespeak.net/lxml/objectify/pytype" : b"py", +} + +# To avoid runtime encoding overhead, we keep a Unicode copy +# of the uri-prefix mapping as (str, str) items view. +cdef object _DEFAULT_NAMESPACE_PREFIXES_ITEMS = [] + +cdef _update_default_namespace_prefixes_items(): + cdef bytes ns, prefix + global _DEFAULT_NAMESPACE_PREFIXES_ITEMS + _DEFAULT_NAMESPACE_PREFIXES_ITEMS = { + ns.decode('utf-8') : prefix.decode('utf-8') + for ns, prefix in _DEFAULT_NAMESPACE_PREFIXES.items() + }.items() + +_update_default_namespace_prefixes_items() + +cdef object _check_internal_prefix = re.compile(br"ns\d+$").match + +def register_namespace(prefix, uri): + """Registers a namespace prefix that newly created Elements in that + namespace will use. The registry is global, and any existing + mapping for either the given prefix or the namespace URI will be + removed. + """ + prefix_utf, uri_utf = _utf8(prefix), _utf8(uri) + if _check_internal_prefix(prefix_utf): + raise ValueError("Prefix format reserved for internal use") + _tagValidOrRaise(prefix_utf) + _uriValidOrRaise(uri_utf) + if (uri_utf == b"http://www.w3.org/XML/1998/namespace" and prefix_utf != b'xml' + or prefix_utf == b'xml' and uri_utf != b"http://www.w3.org/XML/1998/namespace"): + raise ValueError("Cannot change the 'xml' prefix of the XML namespace") + for k, v in list(_DEFAULT_NAMESPACE_PREFIXES.items()): + if k == uri_utf or v == prefix_utf: + del _DEFAULT_NAMESPACE_PREFIXES[k] + _DEFAULT_NAMESPACE_PREFIXES[uri_utf] = prefix_utf + _update_default_namespace_prefixes_items() + + +# Error superclass for ElementTree compatibility +cdef class Error(Exception): + pass + +# module level superclass for all exceptions +cdef class LxmlError(Error): + """Main exception base class for lxml. All other exceptions inherit from + this one. + """ + def __init__(self, message, error_log=None): + super(_Error, self).__init__(message) + if error_log is None: + self.error_log = __copyGlobalErrorLog() + else: + self.error_log = error_log.copy() + +cdef object _Error = Error + + +# superclass for all syntax errors +class LxmlSyntaxError(LxmlError, SyntaxError): + """Base class for all syntax errors. + """ + +cdef class C14NError(LxmlError): + """Error during C14N serialisation. + """ + +# version information +cdef __unpackDottedVersion(version): + version_list = [] + l = (version.decode("ascii").replace('-', '.').split('.') + [0]*4)[:4] + for item in l: + try: + item = int(item) + except ValueError: + if item.startswith('dev'): + count = item[3:] + item = -300 + elif item.startswith('alpha'): + count = item[5:] + item = -200 + elif item.startswith('beta'): + count = item[4:] + item = -100 + else: + count = 0 + if count: + item += int(count) + version_list.append(item) + return tuple(version_list) + +cdef __unpackIntVersion(int c_version): + return ( + ((c_version // (100*100)) % 100), + ((c_version // 100) % 100), + (c_version % 100) + ) + +cdef int _LIBXML_VERSION_INT +try: + _LIBXML_VERSION_INT = int( + re.match('[0-9]+', (tree.xmlParserVersion).decode("ascii")).group(0)) +except Exception: + print("Unknown libxml2 version: " + (tree.xmlParserVersion).decode("latin1")) + _LIBXML_VERSION_INT = 0 + +LIBXML_VERSION = __unpackIntVersion(_LIBXML_VERSION_INT) +LIBXML_COMPILED_VERSION = __unpackIntVersion(tree.LIBXML_VERSION) +LXML_VERSION = __unpackDottedVersion(tree.LXML_VERSION_STRING) + +__version__ = tree.LXML_VERSION_STRING.decode("ascii") + + +# class for temporary storage of Python references, +# used e.g. for XPath results +@cython.final +@cython.internal +cdef class _TempStore: + cdef list _storage + def __init__(self): + self._storage = [] + + cdef int add(self, obj) except -1: + self._storage.append(obj) + return 0 + + cdef int clear(self) except -1: + del self._storage[:] + return 0 + + +# class for temporarily storing exceptions raised in extensions +@cython.internal +cdef class _ExceptionContext: + cdef object _exc_info + cdef int clear(self) except -1: + self._exc_info = None + return 0 + + cdef void _store_raised(self) noexcept: + try: + self._exc_info = sys.exc_info() + except BaseException as e: + self._store_exception(e) + finally: + return # and swallow any further exceptions + + cdef int _store_exception(self, exception) except -1: + self._exc_info = (exception, None, None) + return 0 + + cdef bint _has_raised(self) except -1: + return self._exc_info is not None + + cdef int _raise_if_stored(self) except -1: + if self._exc_info is None: + return 0 + type, value, traceback = self._exc_info + self._exc_info = None + if value is None and traceback is None: + raise type + else: + raise type, value, traceback + + +# type of a function that steps from node to node +ctypedef public xmlNode* (*_node_to_node_function)(xmlNode*) + + +################################################################################ +# Include submodules + +include "proxy.pxi" # Proxy handling (element backpointers/memory/etc.) +include "apihelpers.pxi" # Private helper functions +include "xmlerror.pxi" # Error and log handling + + +################################################################################ +# Public Python API + +@cython.final +@cython.freelist(8) +cdef public class _Document [ type LxmlDocumentType, object LxmlDocument ]: + """Internal base class to reference a libxml document. + + When instances of this class are garbage collected, the libxml + document is cleaned up. + """ + cdef int _ns_counter + cdef bytes _prefix_tail + cdef xmlDoc* _c_doc + cdef _BaseParser _parser + + def __dealloc__(self): + # if there are no more references to the document, it is safe + # to clean the whole thing up, as all nodes have a reference to + # the document + tree.xmlFreeDoc(self._c_doc) + + @cython.final + cdef getroot(self): + # return an element proxy for the document root + cdef xmlNode* c_node + c_node = tree.xmlDocGetRootElement(self._c_doc) + if c_node is NULL: + return None + return _elementFactory(self, c_node) + + @cython.final + cdef bint hasdoctype(self) noexcept: + # DOCTYPE gets parsed into internal subset (xmlDTD*) + return self._c_doc is not NULL and self._c_doc.intSubset is not NULL + + @cython.final + cdef getdoctype(self): + # get doctype info: root tag, public/system ID (or None if not known) + cdef tree.xmlDtd* c_dtd + cdef xmlNode* c_root_node + public_id = None + sys_url = None + c_dtd = self._c_doc.intSubset + if c_dtd is not NULL: + if c_dtd.ExternalID is not NULL: + public_id = funicode(c_dtd.ExternalID) + if c_dtd.SystemID is not NULL: + sys_url = funicode(c_dtd.SystemID) + c_dtd = self._c_doc.extSubset + if c_dtd is not NULL: + if not public_id and c_dtd.ExternalID is not NULL: + public_id = funicode(c_dtd.ExternalID) + if not sys_url and c_dtd.SystemID is not NULL: + sys_url = funicode(c_dtd.SystemID) + c_root_node = tree.xmlDocGetRootElement(self._c_doc) + if c_root_node is NULL: + root_name = None + else: + root_name = funicode(c_root_node.name) + return root_name, public_id, sys_url + + @cython.final + cdef getxmlinfo(self): + # return XML version and encoding (or None if not known) + cdef xmlDoc* c_doc = self._c_doc + if c_doc.version is NULL: + version = None + else: + version = funicode(c_doc.version) + if c_doc.encoding is NULL: + encoding = None + else: + encoding = funicode(c_doc.encoding) + return version, encoding + + @cython.final + cdef isstandalone(self): + # returns True for "standalone=true", + # False for "standalone=false", None if not provided + if self._c_doc.standalone == -1: + return None + else: + return (self._c_doc.standalone == 1) + + @cython.final + cdef bytes buildNewPrefix(self): + # get a new unique prefix ("nsX") for this document + cdef bytes ns + if self._ns_counter < len(_PREFIX_CACHE): + ns = _PREFIX_CACHE[self._ns_counter] + else: + ns = python.PyBytes_FromFormat("ns%d", self._ns_counter) + if self._prefix_tail is not None: + ns += self._prefix_tail + self._ns_counter += 1 + if self._ns_counter < 0: + # overflow! + self._ns_counter = 0 + if self._prefix_tail is None: + self._prefix_tail = b"A" + else: + self._prefix_tail += b"A" + return ns + + @cython.final + cdef xmlNs* _findOrBuildNodeNs(self, xmlNode* c_node, + const_xmlChar* c_href, const_xmlChar* c_prefix, + bint is_attribute) except NULL: + """Get or create namespace structure for a node. Reuses the prefix if + possible. + """ + cdef xmlNs* c_ns + cdef xmlNs* c_doc_ns + cdef python.PyObject* dict_result + if c_node.type != tree.XML_ELEMENT_NODE: + assert c_node.type == tree.XML_ELEMENT_NODE, \ + "invalid node type %d, expected %d" % ( + c_node.type, tree.XML_ELEMENT_NODE) + # look for existing ns declaration + c_ns = _searchNsByHref(c_node, c_href, is_attribute) + if c_ns is not NULL: + if is_attribute and c_ns.prefix is NULL: + # do not put namespaced attributes into the default + # namespace as this would break serialisation + pass + else: + return c_ns + + # none found => determine a suitable new prefix + if c_prefix is NULL: + dict_result = python.PyDict_GetItem( + _DEFAULT_NAMESPACE_PREFIXES, c_href) + if dict_result is not NULL: + prefix = dict_result + else: + prefix = self.buildNewPrefix() + c_prefix = _xcstr(prefix) + + # make sure the prefix is not in use already + while tree.xmlSearchNs(self._c_doc, c_node, c_prefix) is not NULL: + prefix = self.buildNewPrefix() + c_prefix = _xcstr(prefix) + + # declare the namespace and return it + c_ns = tree.xmlNewNs(c_node, c_href, c_prefix) + if c_ns is NULL: + raise MemoryError() + return c_ns + + @cython.final + cdef int _setNodeNs(self, xmlNode* c_node, const_xmlChar* c_href) except -1: + "Lookup namespace structure and set it for the node." + c_ns = self._findOrBuildNodeNs(c_node, c_href, NULL, 0) + tree.xmlSetNs(c_node, c_ns) + +cdef tuple __initPrefixCache(): + cdef int i + return tuple([ python.PyBytes_FromFormat("ns%d", i) + for i in range(30) ]) + +cdef tuple _PREFIX_CACHE = __initPrefixCache() + +cdef _Document _documentFactory(xmlDoc* c_doc, _BaseParser parser): + cdef _Document result + result = _Document.__new__(_Document) + result._c_doc = c_doc + result._ns_counter = 0 + result._prefix_tail = None + if parser is None: + parser = __GLOBAL_PARSER_CONTEXT.getDefaultParser() + result._parser = parser + return result + + +cdef object _find_invalid_public_id_characters = re.compile( + ur"[^\x20\x0D\x0Aa-zA-Z0-9'()+,./:=?;!*#@$_%-]+").search + + +cdef class DocInfo: + "Document information provided by parser and DTD." + cdef _Document _doc + def __cinit__(self, tree): + "Create a DocInfo object for an ElementTree object or root Element." + self._doc = _documentOrRaise(tree) + root_name, public_id, system_url = self._doc.getdoctype() + if not root_name and (public_id or system_url): + raise ValueError, "Could not find root node" + + @property + def root_name(self): + """Returns the name of the root node as defined by the DOCTYPE.""" + root_name, public_id, system_url = self._doc.getdoctype() + return root_name + + @cython.final + cdef tree.xmlDtd* _get_c_dtd(self): + """"Return the DTD. Create it if it does not yet exist.""" + cdef xmlDoc* c_doc = self._doc._c_doc + cdef xmlNode* c_root_node + cdef const_xmlChar* c_name + + if c_doc.intSubset: + return c_doc.intSubset + + c_root_node = tree.xmlDocGetRootElement(c_doc) + c_name = c_root_node.name if c_root_node else NULL + return tree.xmlCreateIntSubset(c_doc, c_name, NULL, NULL) + + def clear(self): + """Removes DOCTYPE and internal subset from the document.""" + cdef xmlDoc* c_doc = self._doc._c_doc + cdef tree.xmlNode* c_dtd = c_doc.intSubset + if c_dtd is NULL: + return + tree.xmlUnlinkNode(c_dtd) + tree.xmlFreeNode(c_dtd) + + property public_id: + """Public ID of the DOCTYPE. + + Mutable. May be set to a valid string or None. If a DTD does not + exist, setting this variable (even to None) will create one. + """ + def __get__(self): + root_name, public_id, system_url = self._doc.getdoctype() + return public_id + + def __set__(self, value): + cdef xmlChar* c_value = NULL + if value is not None: + match = _find_invalid_public_id_characters(value) + if match: + raise ValueError, f'Invalid character(s) {match.group(0)!r} in public_id.' + value = _utf8(value) + c_value = tree.xmlStrdup(_xcstr(value)) + if not c_value: + raise MemoryError() + + c_dtd = self._get_c_dtd() + if not c_dtd: + tree.xmlFree(c_value) + raise MemoryError() + if c_dtd.ExternalID: + tree.xmlFree(c_dtd.ExternalID) + c_dtd.ExternalID = c_value + + property system_url: + """System ID of the DOCTYPE. + + Mutable. May be set to a valid string or None. If a DTD does not + exist, setting this variable (even to None) will create one. + """ + def __get__(self): + root_name, public_id, system_url = self._doc.getdoctype() + return system_url + + def __set__(self, value): + cdef xmlChar* c_value = NULL + if value is not None: + bvalue = _utf8(value) + # sys_url may be any valid unicode string that can be + # enclosed in single quotes or quotes. + if b"'" in bvalue and b'"' in bvalue: + raise ValueError( + 'System URL may not contain both single (\') and double quotes (").') + c_value = tree.xmlStrdup(_xcstr(bvalue)) + if not c_value: + raise MemoryError() + + c_dtd = self._get_c_dtd() + if not c_dtd: + tree.xmlFree(c_value) + raise MemoryError() + if c_dtd.SystemID: + tree.xmlFree(c_dtd.SystemID) + c_dtd.SystemID = c_value + + @property + def xml_version(self): + """Returns the XML version as declared by the document.""" + xml_version, encoding = self._doc.getxmlinfo() + return xml_version + + @property + def encoding(self): + """Returns the encoding name as declared by the document.""" + xml_version, encoding = self._doc.getxmlinfo() + return encoding + + @property + def standalone(self): + """Returns the standalone flag as declared by the document. The possible + values are True (``standalone='yes'``), False + (``standalone='no'`` or flag not provided in the declaration), + and None (unknown or no declaration found). Note that a + normal truth test on this value will always tell if the + ``standalone`` flag was set to ``'yes'`` or not. + """ + return self._doc.isstandalone() + + property URL: + "The source URL of the document (or None if unknown)." + def __get__(self): + if self._doc._c_doc.URL is NULL: + return None + return _decodeFilename(self._doc._c_doc.URL) + def __set__(self, url): + url = _encodeFilename(url) + c_oldurl = self._doc._c_doc.URL + if url is None: + self._doc._c_doc.URL = NULL + else: + self._doc._c_doc.URL = tree.xmlStrdup(_xcstr(url)) + if c_oldurl is not NULL: + tree.xmlFree(c_oldurl) + + @property + def doctype(self): + """Returns a DOCTYPE declaration string for the document.""" + root_name, public_id, system_url = self._doc.getdoctype() + if system_url: + # If '"' in system_url, we must escape it with single + # quotes, otherwise escape with double quotes. If url + # contains both a single quote and a double quote, XML + # standard is being violated. + if '"' in system_url: + quoted_system_url = f"'{system_url}'" + else: + quoted_system_url = f'"{system_url}"' + if public_id: + if system_url: + return f'' + else: + return f'' + elif system_url: + return f'' + elif self._doc.hasdoctype(): + return f'' + else: + return '' + + @property + def internalDTD(self): + """Returns a DTD validator based on the internal subset of the document.""" + return _dtdFactory(self._doc._c_doc.intSubset) + + @property + def externalDTD(self): + """Returns a DTD validator based on the external subset of the document.""" + return _dtdFactory(self._doc._c_doc.extSubset) + + +@cython.no_gc_clear +cdef public class _Element [ type LxmlElementType, object LxmlElement ]: + """Element class. + + References a document object and a libxml node. + + By pointing to a Document instance, a reference is kept to + _Document as long as there is some pointer to a node in it. + """ + cdef _Document _doc + cdef xmlNode* _c_node + cdef object _tag + + def _init(self): + """_init(self) + + Called after object initialisation. Custom subclasses may override + this if they recursively call _init() in the superclasses. + """ + + @cython.linetrace(False) + @cython.profile(False) + def __dealloc__(self): + #print("trying to free node:", self._c_node) + #displayNode(self._c_node, 0) + if self._c_node is not NULL: + _unregisterProxy(self) + attemptDeallocation(self._c_node) + + # MANIPULATORS + + def __setitem__(self, x, value): + """__setitem__(self, x, value) + + Replaces the given subelement index or slice. + """ + cdef xmlNode* c_node = NULL + cdef xmlNode* c_next + cdef xmlDoc* c_source_doc + cdef _Element element + cdef bint left_to_right + cdef Py_ssize_t slicelength = 0, step = 0 + _assertValidNode(self) + if value is None: + raise ValueError, "cannot assign None" + if isinstance(x, slice): + # slice assignment + _findChildSlice(x, self._c_node, &c_node, &step, &slicelength) + if step > 0: + left_to_right = 1 + else: + left_to_right = 0 + step = -step + _replaceSlice(self, c_node, slicelength, step, left_to_right, value) + return + else: + # otherwise: normal item assignment + element = value + _assertValidNode(element) + c_node = _findChild(self._c_node, x) + if c_node is NULL: + raise IndexError, "list index out of range" + c_source_doc = element._c_node.doc + c_next = element._c_node.next + _removeText(c_node.next) + tree.xmlReplaceNode(c_node, element._c_node) + _moveTail(c_next, element._c_node) + moveNodeToDocument(self._doc, c_source_doc, element._c_node) + if not attemptDeallocation(c_node): + moveNodeToDocument(self._doc, c_node.doc, c_node) + + def __delitem__(self, x): + """__delitem__(self, x) + + Deletes the given subelement or a slice. + """ + cdef xmlNode* c_node = NULL + cdef xmlNode* c_next + cdef Py_ssize_t step = 0, slicelength = 0 + _assertValidNode(self) + if isinstance(x, slice): + # slice deletion + if _isFullSlice(x): + c_node = self._c_node.children + if c_node is not NULL: + if not _isElement(c_node): + c_node = _nextElement(c_node) + while c_node is not NULL: + c_next = _nextElement(c_node) + _removeNode(self._doc, c_node) + c_node = c_next + else: + _findChildSlice(x, self._c_node, &c_node, &step, &slicelength) + _deleteSlice(self._doc, c_node, slicelength, step) + else: + # item deletion + c_node = _findChild(self._c_node, x) + if c_node is NULL: + raise IndexError, f"index out of range: {x}" + _removeNode(self._doc, c_node) + + def __deepcopy__(self, memo): + "__deepcopy__(self, memo)" + return self.__copy__() + + def __copy__(self): + "__copy__(self)" + cdef xmlDoc* c_doc + cdef xmlNode* c_node + cdef _Document new_doc + _assertValidNode(self) + c_doc = _copyDocRoot(self._doc._c_doc, self._c_node) # recursive + new_doc = _documentFactory(c_doc, self._doc._parser) + root = new_doc.getroot() + if root is not None: + return root + # Comment/PI + c_node = c_doc.children + while c_node is not NULL and c_node.type != self._c_node.type: + c_node = c_node.next + if c_node is NULL: + return None + return _elementFactory(new_doc, c_node) + + def set(self, key, value): + """set(self, key, value) + + Sets an element attribute. + In HTML documents (not XML or XHTML), the value None is allowed and creates + an attribute without value (just the attribute name). + """ + _assertValidNode(self) + _setAttributeValue(self, key, value) + + def append(self, _Element element not None): + """append(self, element) + + Adds a subelement to the end of this element. + """ + _assertValidNode(self) + _assertValidNode(element) + _appendChild(self, element) + + def addnext(self, _Element element not None): + """addnext(self, element) + + Adds the element as a following sibling directly after this + element. + + This is normally used to set a processing instruction or comment after + the root node of a document. Note that tail text is automatically + discarded when adding at the root level. + """ + _assertValidNode(self) + _assertValidNode(element) + if self._c_node.parent != NULL and not _isElement(self._c_node.parent): + if element._c_node.type not in (tree.XML_PI_NODE, tree.XML_COMMENT_NODE): + raise TypeError, "Only processing instructions and comments can be siblings of the root element" + element.tail = None + _appendSibling(self, element) + + def addprevious(self, _Element element not None): + """addprevious(self, element) + + Adds the element as a preceding sibling directly before this + element. + + This is normally used to set a processing instruction or comment + before the root node of a document. Note that tail text is + automatically discarded when adding at the root level. + """ + _assertValidNode(self) + _assertValidNode(element) + if self._c_node.parent != NULL and not _isElement(self._c_node.parent): + if element._c_node.type != tree.XML_PI_NODE: + if element._c_node.type != tree.XML_COMMENT_NODE: + raise TypeError, "Only processing instructions and comments can be siblings of the root element" + element.tail = None + _prependSibling(self, element) + + def extend(self, elements): + """extend(self, elements) + + Extends the current children by the elements in the iterable. + """ + cdef _Element element + _assertValidNode(self) + for element in elements: + if element is None: + raise TypeError, "Node must not be None" + _assertValidNode(element) + _appendChild(self, element) + + def clear(self, bint keep_tail=False): + """clear(self, keep_tail=False) + + Resets an element. This function removes all subelements, clears + all attributes and sets the text and tail properties to None. + + Pass ``keep_tail=True`` to leave the tail text untouched. + """ + cdef xmlAttr* c_attr + cdef xmlAttr* c_attr_next + cdef xmlNode* c_node + cdef xmlNode* c_node_next + _assertValidNode(self) + c_node = self._c_node + # remove self.text and self.tail + _removeText(c_node.children) + if not keep_tail: + _removeText(c_node.next) + # remove all attributes + c_attr = c_node.properties + if c_attr: + c_node.properties = NULL + tree.xmlFreePropList(c_attr) + # remove all subelements + c_node = c_node.children + if c_node and not _isElement(c_node): + c_node = _nextElement(c_node) + while c_node is not NULL: + c_node_next = _nextElement(c_node) + _removeNode(self._doc, c_node) + c_node = c_node_next + + def insert(self, index: int, _Element element not None): + """insert(self, index, element) + + Inserts a subelement at the given position in this element + """ + cdef xmlNode* c_node + cdef xmlNode* c_next + cdef xmlDoc* c_source_doc + _assertValidNode(self) + _assertValidNode(element) + c_node = _findChild(self._c_node, index) + if c_node is NULL: + _appendChild(self, element) + return + # prevent cycles + if _isAncestorOrSame(element._c_node, self._c_node): + raise ValueError("cannot append parent to itself") + c_source_doc = element._c_node.doc + c_next = element._c_node.next + tree.xmlAddPrevSibling(c_node, element._c_node) + _moveTail(c_next, element._c_node) + moveNodeToDocument(self._doc, c_source_doc, element._c_node) + + def remove(self, _Element element not None): + """remove(self, element) + + Removes a matching subelement. Unlike the find methods, this + method compares elements based on identity, not on tag value + or contents. + """ + cdef xmlNode* c_node + cdef xmlNode* c_next + _assertValidNode(self) + _assertValidNode(element) + c_node = element._c_node + if c_node.parent is not self._c_node: + raise ValueError, "Element is not a child of this node." + c_next = element._c_node.next + tree.xmlUnlinkNode(c_node) + _moveTail(c_next, c_node) + # fix namespace declarations + moveNodeToDocument(self._doc, c_node.doc, c_node) + + def replace(self, _Element old_element not None, + _Element new_element not None): + """replace(self, old_element, new_element) + + Replaces a subelement with the element passed as second argument. + """ + cdef xmlNode* c_old_node + cdef xmlNode* c_old_next + cdef xmlNode* c_new_node + cdef xmlNode* c_new_next + cdef xmlDoc* c_source_doc + _assertValidNode(self) + _assertValidNode(old_element) + _assertValidNode(new_element) + c_old_node = old_element._c_node + if c_old_node.parent is not self._c_node: + raise ValueError, "Element is not a child of this node." + c_new_node = new_element._c_node + # prevent cycles + if _isAncestorOrSame(c_new_node, self._c_node): + raise ValueError("cannot append parent to itself") + # replace node + c_old_next = c_old_node.next + c_new_next = c_new_node.next + c_source_doc = c_new_node.doc + tree.xmlReplaceNode(c_old_node, c_new_node) + _moveTail(c_new_next, c_new_node) + _moveTail(c_old_next, c_old_node) + moveNodeToDocument(self._doc, c_source_doc, c_new_node) + # fix namespace declarations + moveNodeToDocument(self._doc, c_old_node.doc, c_old_node) + + # PROPERTIES + property tag: + """Element tag + """ + def __get__(self): + if self._tag is not None: + return self._tag + _assertValidNode(self) + self._tag = _namespacedName(self._c_node) + return self._tag + + def __set__(self, value): + cdef _BaseParser parser + _assertValidNode(self) + ns, name = _getNsTag(value) + parser = self._doc._parser + if parser is not None and parser._for_html: + _htmlTagValidOrRaise(name) + else: + _tagValidOrRaise(name) + self._tag = value + tree.xmlNodeSetName(self._c_node, _xcstr(name)) + if ns is None: + self._c_node.ns = NULL + else: + self._doc._setNodeNs(self._c_node, _xcstr(ns)) + + @property + def attrib(self): + """Element attribute dictionary. Where possible, use get(), set(), + keys(), values() and items() to access element attributes. + """ + return _Attrib.__new__(_Attrib, self) + + property text: + """Text before the first subelement. This is either a string or + the value None, if there was no text. + """ + def __get__(self): + _assertValidNode(self) + return _collectText(self._c_node.children) + + def __set__(self, value): + _assertValidNode(self) + if isinstance(value, QName): + value = _resolveQNameText(self, value).decode('utf8') + _setNodeText(self._c_node, value) + + # using 'del el.text' is the wrong thing to do + #def __del__(self): + # _setNodeText(self._c_node, None) + + property tail: + """Text after this element's end tag, but before the next sibling + element's start tag. This is either a string or the value None, if + there was no text. + """ + def __get__(self): + _assertValidNode(self) + return _collectText(self._c_node.next) + + def __set__(self, value): + _assertValidNode(self) + _setTailText(self._c_node, value) + + # using 'del el.tail' is the wrong thing to do + #def __del__(self): + # _setTailText(self._c_node, None) + + # not in ElementTree, read-only + @property + def prefix(self): + """Namespace prefix or None. + """ + if self._c_node.ns is not NULL: + if self._c_node.ns.prefix is not NULL: + return funicode(self._c_node.ns.prefix) + return None + + # not in ElementTree, read-only + property sourceline: + """Original line number as found by the parser or None if unknown. + """ + def __get__(self): + cdef long line + _assertValidNode(self) + line = tree.xmlGetLineNo(self._c_node) + return line if line > 0 else None + + def __set__(self, line): + _assertValidNode(self) + if line <= 0: + self._c_node.line = 0 + else: + self._c_node.line = line + + # not in ElementTree, read-only + @property + def nsmap(self): + """Namespace prefix->URI mapping known in the context of this + Element. This includes all namespace declarations of the + parents. + + Note that changing the returned dict has no effect on the Element. + """ + _assertValidNode(self) + return _build_nsmap(self._c_node) + + # not in ElementTree, read-only + property base: + """The base URI of the Element (xml:base or HTML base URL). + None if the base URI is unknown. + + Note that the value depends on the URL of the document that + holds the Element if there is no xml:base attribute on the + Element or its ancestors. + + Setting this property will set an xml:base attribute on the + Element, regardless of the document type (XML or HTML). + """ + def __get__(self): + _assertValidNode(self) + c_base = tree.xmlNodeGetBase(self._doc._c_doc, self._c_node) + if c_base is NULL: + if self._doc._c_doc.URL is NULL: + return None + return _decodeFilename(self._doc._c_doc.URL) + try: + base = _decodeFilename(c_base) + finally: + tree.xmlFree(c_base) + return base + + def __set__(self, url): + _assertValidNode(self) + if url is None: + c_base = NULL + else: + url = _encodeFilename(url) + c_base = _xcstr(url) + tree.xmlNodeSetBase(self._c_node, c_base) + + # ACCESSORS + def __repr__(self): + "__repr__(self)" + return "" % (self.tag, id(self)) + + def __getitem__(self, x): + """Returns the subelement at the given position or the requested + slice. + """ + cdef xmlNode* c_node = NULL + cdef Py_ssize_t step = 0, slicelength = 0 + cdef Py_ssize_t c, i + cdef _node_to_node_function next_element + cdef list result + _assertValidNode(self) + if isinstance(x, slice): + # slicing + if _isFullSlice(x): + return _collectChildren(self) + _findChildSlice(x, self._c_node, &c_node, &step, &slicelength) + if c_node is NULL: + return [] + if step > 0: + next_element = _nextElement + else: + step = -step + next_element = _previousElement + result = [] + c = 0 + while c_node is not NULL and c < slicelength: + result.append(_elementFactory(self._doc, c_node)) + c += 1 + for i in range(step): + c_node = next_element(c_node) + if c_node is NULL: + break + return result + else: + # indexing + c_node = _findChild(self._c_node, x) + if c_node is NULL: + raise IndexError, "list index out of range" + return _elementFactory(self._doc, c_node) + + def __len__(self): + """__len__(self) + + Returns the number of subelements. + """ + _assertValidNode(self) + return _countElements(self._c_node.children) + + def __bool__(self): + """__bool__(self)""" + import warnings + warnings.warn( + "The behavior of this method will change in future versions. " + "Use specific 'len(elem)' or 'elem is not None' test instead.", + FutureWarning + ) + # emulate old behaviour + _assertValidNode(self) + return _hasChild(self._c_node) + + def __contains__(self, element): + "__contains__(self, element)" + cdef xmlNode* c_node + _assertValidNode(self) + if not isinstance(element, _Element): + return 0 + c_node = (<_Element>element)._c_node + return c_node is not NULL and c_node.parent is self._c_node + + def __iter__(self): + "__iter__(self)" + return ElementChildIterator(self) + + def __reversed__(self): + "__reversed__(self)" + return ElementChildIterator(self, reversed=True) + + def index(self, child: _Element, start: int = None, stop: int = None): + """index(self, child, start=None, stop=None) + + Find the position of the child within the parent. + + This method is not part of the original ElementTree API. + """ + cdef Py_ssize_t k, l + cdef Py_ssize_t c_start, c_stop + cdef xmlNode* c_child + cdef xmlNode* c_start_node + _assertValidNode(self) + _assertValidNode(child) + c_child = child._c_node + if c_child.parent is not self._c_node: + raise ValueError, "Element is not a child of this node." + + # handle the unbounded search straight away (normal case) + if stop is None and (start is None or start == 0): + k = 0 + c_child = c_child.prev + while c_child is not NULL: + if _isElement(c_child): + k += 1 + c_child = c_child.prev + return k + + # check indices + if start is None: + c_start = 0 + else: + c_start = start + if stop is None: + c_stop = 0 + else: + c_stop = stop + if c_stop == 0 or \ + c_start >= c_stop and (c_stop > 0 or c_start < 0): + raise ValueError, "list.index(x): x not in slice" + + # for negative slice indices, check slice before searching index + if c_start < 0 or c_stop < 0: + # start from right, at most up to leftmost(c_start, c_stop) + if c_start < c_stop: + k = -c_start + else: + k = -c_stop + c_start_node = self._c_node.last + l = 1 + while c_start_node != c_child and l < k: + if _isElement(c_start_node): + l += 1 + c_start_node = c_start_node.prev + if c_start_node == c_child: + # found! before slice end? + if c_stop < 0 and l <= -c_stop: + raise ValueError, "list.index(x): x not in slice" + elif c_start < 0: + raise ValueError, "list.index(x): x not in slice" + + # now determine the index backwards from child + c_child = c_child.prev + k = 0 + if c_stop > 0: + # we can optimize: stop after c_stop elements if not found + while c_child != NULL and k < c_stop: + if _isElement(c_child): + k += 1 + c_child = c_child.prev + if k < c_stop: + return k + else: + # traverse all + while c_child != NULL: + if _isElement(c_child): + k = k + 1 + c_child = c_child.prev + if c_start > 0: + if k >= c_start: + return k + else: + return k + if c_start != 0 or c_stop != 0: + raise ValueError, "list.index(x): x not in slice" + else: + raise ValueError, "list.index(x): x not in list" + + def get(self, key, default=None): + """get(self, key, default=None) + + Gets an element attribute. + """ + _assertValidNode(self) + return _getAttributeValue(self, key, default) + + def keys(self): + """keys(self) + + Gets a list of attribute names. The names are returned in an + arbitrary order (just like for an ordinary Python dictionary). + """ + _assertValidNode(self) + return _collectAttributes(self._c_node, 1) + + def values(self): + """values(self) + + Gets element attribute values as a sequence of strings. The + attributes are returned in an arbitrary order. + """ + _assertValidNode(self) + return _collectAttributes(self._c_node, 2) + + def items(self): + """items(self) + + Gets element attributes, as a sequence. The attributes are returned in + an arbitrary order. + """ + _assertValidNode(self) + return _collectAttributes(self._c_node, 3) + + def getchildren(self): + """getchildren(self) + + Returns all direct children. The elements are returned in document + order. + + :deprecated: Note that this method has been deprecated as of + ElementTree 1.3 and lxml 2.0. New code should use + ``list(element)`` or simply iterate over elements. + """ + _assertValidNode(self) + return _collectChildren(self) + + def getparent(self): + """getparent(self) + + Returns the parent of this element or None for the root element. + """ + cdef xmlNode* c_node + #_assertValidNode(self) # not needed + c_node = _parentElement(self._c_node) + if c_node is NULL: + return None + return _elementFactory(self._doc, c_node) + + def getnext(self): + """getnext(self) + + Returns the following sibling of this element or None. + """ + cdef xmlNode* c_node + #_assertValidNode(self) # not needed + c_node = _nextElement(self._c_node) + if c_node is NULL: + return None + return _elementFactory(self._doc, c_node) + + def getprevious(self): + """getprevious(self) + + Returns the preceding sibling of this element or None. + """ + cdef xmlNode* c_node + #_assertValidNode(self) # not needed + c_node = _previousElement(self._c_node) + if c_node is NULL: + return None + return _elementFactory(self._doc, c_node) + + def itersiblings(self, tag=None, *tags, preceding=False): + """itersiblings(self, tag=None, *tags, preceding=False) + + Iterate over the following or preceding siblings of this element. + + The direction is determined by the 'preceding' keyword which + defaults to False, i.e. forward iteration over the following + siblings. When True, the iterator yields the preceding + siblings in reverse document order, i.e. starting right before + the current element and going backwards. + + Can be restricted to find only elements with specific tags, + see `iter`. + """ + if preceding: + if self._c_node and not self._c_node.prev: + return ITER_EMPTY + elif self._c_node and not self._c_node.next: + return ITER_EMPTY + if tag is not None: + tags += (tag,) + return SiblingsIterator(self, tags, preceding=preceding) + + def iterancestors(self, tag=None, *tags): + """iterancestors(self, tag=None, *tags) + + Iterate over the ancestors of this element (from parent to parent). + + Can be restricted to find only elements with specific tags, + see `iter`. + """ + if self._c_node and not self._c_node.parent: + return ITER_EMPTY + if tag is not None: + tags += (tag,) + return AncestorsIterator(self, tags) + + def iterdescendants(self, tag=None, *tags): + """iterdescendants(self, tag=None, *tags) + + Iterate over the descendants of this element in document order. + + As opposed to ``el.iter()``, this iterator does not yield the element + itself. The returned elements can be restricted to find only elements + with specific tags, see `iter`. + """ + if self._c_node and not self._c_node.children: + return ITER_EMPTY + if tag is not None: + tags += (tag,) + return ElementDepthFirstIterator(self, tags, inclusive=False) + + def iterchildren(self, tag=None, *tags, reversed=False): + """iterchildren(self, tag=None, *tags, reversed=False) + + Iterate over the children of this element. + + As opposed to using normal iteration on this element, the returned + elements can be reversed with the 'reversed' keyword and restricted + to find only elements with specific tags, see `iter`. + """ + if self._c_node and not self._c_node.children: + return ITER_EMPTY + if tag is not None: + tags += (tag,) + return ElementChildIterator(self, tags, reversed=reversed) + + def getroottree(self): + """getroottree(self) + + Return an ElementTree for the root node of the document that + contains this element. + + This is the same as following element.getparent() up the tree until it + returns None (for the root element) and then build an ElementTree for + the last parent that was returned.""" + _assertValidDoc(self._doc) + return _elementTreeFactory(self._doc, None) + + def getiterator(self, tag=None, *tags): + """getiterator(self, tag=None, *tags) + + Returns a sequence or iterator of all elements in the subtree in + document order (depth first pre-order), starting with this + element. + + Can be restricted to find only elements with specific tags, + see `iter`. + + :deprecated: Note that this method is deprecated as of + ElementTree 1.3 and lxml 2.0. It returns an iterator in + lxml, which diverges from the original ElementTree + behaviour. If you want an efficient iterator, use the + ``element.iter()`` method instead. You should only use this + method in new code if you require backwards compatibility + with older versions of lxml or ElementTree. + """ + if tag is not None: + tags += (tag,) + return ElementDepthFirstIterator(self, tags) + + def iter(self, tag=None, *tags): + """iter(self, tag=None, *tags) + + Iterate over all elements in the subtree in document order (depth + first pre-order), starting with this element. + + Can be restricted to find only elements with specific tags: + pass ``"{ns}localname"`` as tag. Either or both of ``ns`` and + ``localname`` can be ``*`` for a wildcard; ``ns`` can be empty + for no namespace. ``"localname"`` is equivalent to ``"{}localname"`` + (i.e. no namespace) but ``"*"`` is ``"{*}*"`` (any or no namespace), + not ``"{}*"``. + + You can also pass the Element, Comment, ProcessingInstruction and + Entity factory functions to look only for the specific element type. + + Passing multiple tags (or a sequence of tags) instead of a single tag + will let the iterator return all elements matching any of these tags, + in document order. + """ + if tag is not None: + tags += (tag,) + return ElementDepthFirstIterator(self, tags) + + def itertext(self, tag=None, *tags, with_tail=True): + """itertext(self, tag=None, *tags, with_tail=True) + + Iterates over the text content of a subtree. + + You can pass tag names to restrict text content to specific elements, + see `iter`. + + You can set the ``with_tail`` keyword argument to ``False`` to skip + over tail text. + """ + if tag is not None: + tags += (tag,) + return ElementTextIterator(self, tags, with_tail=with_tail) + + def makeelement(self, _tag, attrib=None, nsmap=None, **_extra): + """makeelement(self, _tag, attrib=None, nsmap=None, **_extra) + + Creates a new element associated with the same document. + """ + _assertValidDoc(self._doc) + return _makeElement(_tag, NULL, self._doc, None, None, None, + attrib, nsmap, _extra) + + def find(self, path, namespaces=None): + """find(self, path, namespaces=None) + + Finds the first matching subelement, by tag name or path. + + The optional ``namespaces`` argument accepts a + prefix-to-namespace mapping that allows the usage of XPath + prefixes in the path expression. + """ + if isinstance(path, QName): + path = (path).text + return _elementpath.find(self, path, namespaces, with_prefixes=not _isHtmlDocument(self)) + + def findtext(self, path, default=None, namespaces=None): + """findtext(self, path, default=None, namespaces=None) + + Finds text for the first matching subelement, by tag name or path. + + The optional ``namespaces`` argument accepts a + prefix-to-namespace mapping that allows the usage of XPath + prefixes in the path expression. + """ + if isinstance(path, QName): + path = (path).text + return _elementpath.findtext(self, path, default, namespaces, with_prefixes=not _isHtmlDocument(self)) + + def findall(self, path, namespaces=None): + """findall(self, path, namespaces=None) + + Finds all matching subelements, by tag name or path. + + The optional ``namespaces`` argument accepts a + prefix-to-namespace mapping that allows the usage of XPath + prefixes in the path expression. + """ + if isinstance(path, QName): + path = (path).text + return _elementpath.findall(self, path, namespaces, with_prefixes=not _isHtmlDocument(self)) + + def iterfind(self, path, namespaces=None): + """iterfind(self, path, namespaces=None) + + Iterates over all matching subelements, by tag name or path. + + The optional ``namespaces`` argument accepts a + prefix-to-namespace mapping that allows the usage of XPath + prefixes in the path expression. + """ + if isinstance(path, QName): + path = (path).text + return _elementpath.iterfind(self, path, namespaces, with_prefixes=not _isHtmlDocument(self)) + + def xpath(self, _path, *, namespaces=None, extensions=None, + smart_strings=True, **_variables): + """xpath(self, _path, namespaces=None, extensions=None, smart_strings=True, **_variables) + + Evaluate an xpath expression using the element as context node. + """ + evaluator = XPathElementEvaluator(self, namespaces=namespaces, + extensions=extensions, + smart_strings=smart_strings) + return evaluator(_path, **_variables) + + def cssselect(self, expr, *, translator='xml'): + """ + Run the CSS expression on this element and its children, + returning a list of the results. + + Equivalent to lxml.cssselect.CSSSelect(expr)(self) -- note + that pre-compiling the expression can provide a substantial + speedup. + """ + # Do the import here to make the dependency optional. + from lxml.cssselect import CSSSelector + return CSSSelector(expr, translator=translator)(self) + + +cdef extern from "includes/etree_defs.h": + # macro call to 't->tp_new()' for fast instantiation + cdef object NEW_ELEMENT "PY_NEW" (object t) + + +@cython.linetrace(False) +cdef _Element _elementFactory(_Document doc, xmlNode* c_node): + cdef _Element result + result = getProxy(c_node) + if result is not None: + return result + if c_node is NULL: + return None + + element_class = LOOKUP_ELEMENT_CLASS( + ELEMENT_CLASS_LOOKUP_STATE, doc, c_node) + if hasProxy(c_node): + # prevent re-entry race condition - we just called into Python + return getProxy(c_node) + result = NEW_ELEMENT(element_class) + if hasProxy(c_node): + # prevent re-entry race condition - we just called into Python + result._c_node = NULL + return getProxy(c_node) + + _registerProxy(result, doc, c_node) + if element_class is not _Element: + result._init() + return result + + +@cython.internal +cdef class __ContentOnlyElement(_Element): + cdef int _raiseImmutable(self) except -1: + raise TypeError, "this element does not have children or attributes" + + def set(self, key, value): + "set(self, key, value)" + self._raiseImmutable() + + def append(self, value): + "append(self, value)" + self._raiseImmutable() + + def insert(self, index, value): + "insert(self, index, value)" + self._raiseImmutable() + + def __setitem__(self, index, value): + "__setitem__(self, index, value)" + self._raiseImmutable() + + @property + def attrib(self): + return IMMUTABLE_EMPTY_MAPPING + + property text: + def __get__(self): + _assertValidNode(self) + return funicodeOrEmpty(self._c_node.content) + + def __set__(self, value): + cdef tree.xmlDict* c_dict + _assertValidNode(self) + if value is None: + c_text = NULL + else: + value = _utf8(value) + c_text = _xcstr(value) + tree.xmlNodeSetContent(self._c_node, c_text) + + # ACCESSORS + def __getitem__(self, x): + "__getitem__(self, x)" + if isinstance(x, slice): + return [] + else: + raise IndexError, "list index out of range" + + def __len__(self): + "__len__(self)" + return 0 + + def get(self, key, default=None): + "get(self, key, default=None)" + return None + + def keys(self): + "keys(self)" + return [] + + def items(self): + "items(self)" + return [] + + def values(self): + "values(self)" + return [] + +cdef class _Comment(__ContentOnlyElement): + @property + def tag(self): + return Comment + + def __repr__(self): + return "" % self.text + +cdef class _ProcessingInstruction(__ContentOnlyElement): + @property + def tag(self): + return ProcessingInstruction + + property target: + # not in ElementTree + def __get__(self): + _assertValidNode(self) + return funicode(self._c_node.name) + + def __set__(self, value): + _assertValidNode(self) + value = _utf8(value) + c_text = _xcstr(value) + tree.xmlNodeSetName(self._c_node, c_text) + + def __repr__(self): + text = self.text + if text: + return "" % (self.target, text) + else: + return "" % self.target + + def get(self, key, default=None): + """get(self, key, default=None) + + Try to parse pseudo-attributes from the text content of the + processing instruction, search for one with the given key as + name and return its associated value. + + Note that this is only a convenience method for the most + common case that all text content is structured in + attribute-like name-value pairs with properly quoted values. + It is not guaranteed to work for all possible text content. + """ + return self.attrib.get(key, default) + + @property + def attrib(self): + """Returns a dict containing all pseudo-attributes that can be + parsed from the text content of this processing instruction. + Note that modifying the dict currently has no effect on the + XML node, although this is not guaranteed to stay this way. + """ + return { attr : (value1 or value2) + for attr, value1, value2 in _FIND_PI_ATTRIBUTES(' ' + self.text) } + +cdef object _FIND_PI_ATTRIBUTES = re.compile(r'\s+(\w+)\s*=\s*(?:\'([^\']*)\'|"([^"]*)")', re.U).findall + +cdef class _Entity(__ContentOnlyElement): + @property + def tag(self): + return Entity + + property name: + # not in ElementTree + def __get__(self): + _assertValidNode(self) + return funicode(self._c_node.name) + + def __set__(self, value): + _assertValidNode(self) + value_utf = _utf8(value) + if b'&' in value_utf or b';' in value_utf: + raise ValueError, f"Invalid entity name '{value}'" + tree.xmlNodeSetName(self._c_node, _xcstr(value_utf)) + + @property + def text(self): + # FIXME: should this be None or '&[VALUE];' or the resolved + # entity value ? + _assertValidNode(self) + return f'&{funicode(self._c_node.name)};' + + def __repr__(self): + return "&%s;" % self.name + + +cdef class QName: + """QName(text_or_uri_or_element, tag=None) + + QName wrapper for qualified XML names. + + Pass a tag name by itself or a namespace URI and a tag name to + create a qualified name. Alternatively, pass an Element to + extract its tag name. ``None`` as first argument is ignored in + order to allow for generic 2-argument usage. + + The ``text`` property holds the qualified name in + ``{namespace}tagname`` notation. The ``namespace`` and + ``localname`` properties hold the respective parts of the tag + name. + + You can pass QName objects wherever a tag name is expected. Also, + setting Element text from a QName will resolve the namespace prefix + on assignment and set a qualified text value. This is helpful in XML + languages like SOAP or XML-Schema that use prefixed tag names in + their text content. + """ + cdef readonly unicode text + cdef readonly unicode localname + cdef readonly unicode namespace + def __init__(self, text_or_uri_or_element, tag=None): + if text_or_uri_or_element is None: + # Allow None as no namespace. + text_or_uri_or_element, tag = tag, None + if not _isString(text_or_uri_or_element): + if isinstance(text_or_uri_or_element, _Element): + text_or_uri_or_element = (<_Element>text_or_uri_or_element).tag + if not _isString(text_or_uri_or_element): + raise ValueError, f"Invalid input tag of type {type(text_or_uri_or_element)!r}" + elif isinstance(text_or_uri_or_element, QName): + text_or_uri_or_element = (text_or_uri_or_element).text + elif text_or_uri_or_element is not None: + text_or_uri_or_element = unicode(text_or_uri_or_element) + else: + raise ValueError, f"Invalid input tag of type {type(text_or_uri_or_element)!r}" + + ns_utf, tag_utf = _getNsTag(text_or_uri_or_element) + if tag is not None: + # either ('ns', 'tag') or ('{ns}oldtag', 'newtag') + if ns_utf is None: + ns_utf = tag_utf # case 1: namespace ended up as tag name + tag_utf = _utf8(tag) + _tagValidOrRaise(tag_utf) + self.localname = (tag_utf).decode('utf8') + if ns_utf is None: + self.namespace = None + self.text = self.localname + else: + self.namespace = (ns_utf).decode('utf8') + self.text = "{%s}%s" % (self.namespace, self.localname) + def __str__(self): + return self.text + def __hash__(self): + return hash(self.text) + def __richcmp__(self, other, int op): + try: + if type(other) is QName: + other = (other).text + elif not isinstance(other, unicode): + other = unicode(other) + except (ValueError, UnicodeDecodeError): + return NotImplemented + return python.PyObject_RichCompare(self.text, other, op) + + +cdef public class _ElementTree [ type LxmlElementTreeType, + object LxmlElementTree ]: + cdef _Document _doc + cdef _Element _context_node + + # Note that _doc is only used to store the original document if we do not + # have a _context_node. All methods should prefer self._context_node._doc + # to honour tree restructuring. _doc can happily be None! + + @cython.final + cdef int _assertHasRoot(self) except -1: + """We have to take care here: the document may not have a root node! + This can happen if ElementTree() is called without any argument and + the caller 'forgets' to call parse() afterwards, so this is a bug in + the caller program. + """ + assert self._context_node is not None, \ + "ElementTree not initialized, missing root" + return 0 + + def parse(self, source, _BaseParser parser=None, *, base_url=None): + """parse(self, source, parser=None, base_url=None) + + Updates self with the content of source and returns its root. + """ + cdef _Document doc = None + try: + doc = _parseDocument(source, parser, base_url) + except _TargetParserResult as result_container: + # raises a TypeError if we don't get an _Element + self._context_node = result_container.result + else: + self._context_node = doc.getroot() + self._doc = None if self._context_node is not None else doc + return self._context_node + + def _setroot(self, _Element root not None): + """_setroot(self, root) + + Relocate the ElementTree to a new root node. + """ + _assertValidNode(root) + if root._c_node.type != tree.XML_ELEMENT_NODE: + raise TypeError, "Only elements can be the root of an ElementTree" + self._context_node = root + self._doc = None + + def getroot(self): + """getroot(self) + + Gets the root element for this tree. + """ + return self._context_node + + def __copy__(self): + return _elementTreeFactory(self._doc, self._context_node) + + def __deepcopy__(self, memo): + cdef _Element root + cdef _Document doc + cdef xmlDoc* c_doc + if self._context_node is not None: + root = self._context_node.__copy__() + assert root is not None + _assertValidNode(root) + _copyNonElementSiblings(self._context_node._c_node, root._c_node) + return _elementTreeFactory(None, root) + elif self._doc is not None: + _assertValidDoc(self._doc) + c_doc = tree.xmlCopyDoc(self._doc._c_doc, 1) + if c_doc is NULL: + raise MemoryError() + doc = _documentFactory(c_doc, self._doc._parser) + return _elementTreeFactory(doc, None) + else: + # so what ... + return self + + # not in ElementTree + @property + def docinfo(self) -> DocInfo: + """Information about the document provided by parser and DTD.""" + self._assertHasRoot() + return DocInfo(self._context_node._doc) + + # not in ElementTree, read-only + @property + def parser(self): + """The parser that was used to parse the document in this ElementTree. + """ + if self._context_node is not None and \ + self._context_node._doc is not None: + return self._context_node._doc._parser + if self._doc is not None: + return self._doc._parser + return None + + def write(self, file, *, encoding=None, method="xml", + bint pretty_print=False, xml_declaration=None, bint with_tail=True, + standalone=None, doctype=None, compression=0, + bint exclusive=False, inclusive_ns_prefixes=None, + bint with_comments=True, bint strip_text=False, + docstring=None): + """write(self, file, encoding=None, method="xml", + pretty_print=False, xml_declaration=None, with_tail=True, + standalone=None, doctype=None, compression=0, + exclusive=False, inclusive_ns_prefixes=None, + with_comments=True, strip_text=False) + + Write the tree to a filename, file or file-like object. + + Defaults to ASCII encoding and writing a declaration as needed. + + The keyword argument 'method' selects the output method: + 'xml', 'html', 'text', 'c14n' or 'c14n2'. Default is 'xml'. + + With ``method="c14n"`` (C14N version 1), the options ``exclusive``, + ``with_comments`` and ``inclusive_ns_prefixes`` request exclusive + C14N, include comments, and list the inclusive prefixes respectively. + + With ``method="c14n2"`` (C14N version 2), the ``with_comments`` and + ``strip_text`` options control the output of comments and text space + according to C14N 2.0. + + Passing a boolean value to the ``standalone`` option will + output an XML declaration with the corresponding + ``standalone`` flag. + + The ``doctype`` option allows passing in a plain string that will + be serialised before the XML tree. Note that passing in non + well-formed content here will make the XML output non well-formed. + Also, an existing doctype in the document tree will not be removed + when serialising an ElementTree instance. + + The ``compression`` option enables GZip compression level 1-9. + + The ``inclusive_ns_prefixes`` should be a list of namespace strings + (i.e. ['xs', 'xsi']) that will be promoted to the top-level element + during exclusive C14N serialisation. This parameter is ignored if + exclusive mode=False. + + If exclusive=True and no list is provided, a namespace will only be + rendered if it is used by the immediate parent or one of its attributes + and its prefix and values have not already been rendered by an ancestor + of the namespace node's parent element. + """ + cdef bint write_declaration + cdef int is_standalone + + self._assertHasRoot() + _assertValidNode(self._context_node) + if compression is None or compression < 0: + compression = 0 + + # C14N serialisation + if method in ('c14n', 'c14n2'): + if encoding is not None: + raise ValueError("Cannot specify encoding with C14N") + if xml_declaration: + raise ValueError("Cannot enable XML declaration in C14N") + + if method == 'c14n': + _tofilelikeC14N(file, self._context_node, exclusive, with_comments, + compression, inclusive_ns_prefixes) + else: # c14n2 + with _open_utf8_file(file, compression=compression) as f: + target = C14NWriterTarget( + f.write, with_comments=with_comments, strip_text=strip_text) + _tree_to_target(self, target) + return + + if not with_comments: + raise ValueError("Can only discard comments in C14N serialisation") + # suppress decl. in default case (purely for ElementTree compatibility) + if xml_declaration is not None: + write_declaration = xml_declaration + if encoding is None: + encoding = 'ASCII' + else: + encoding = encoding.upper() + elif encoding is None: + encoding = 'ASCII' + write_declaration = 0 + else: + encoding = encoding.upper() + write_declaration = encoding not in ( + 'US-ASCII', 'ASCII', 'UTF8', 'UTF-8') + if standalone is None: + is_standalone = -1 + elif standalone: + write_declaration = 1 + is_standalone = 1 + else: + write_declaration = 1 + is_standalone = 0 + + if docstring is not None and doctype is None: + import warnings + warnings.warn( + "The 'docstring' option is deprecated. Use 'doctype' instead.", + DeprecationWarning) + doctype = docstring + + _tofilelike(file, self._context_node, encoding, doctype, method, + write_declaration, 1, pretty_print, with_tail, + is_standalone, compression) + + def getpath(self, _Element element not None): + """getpath(self, element) + + Returns a structural, absolute XPath expression to find the element. + + For namespaced elements, the expression uses prefixes from the + document, which therefore need to be provided in order to make any + use of the expression in XPath. + + Also see the method getelementpath(self, element), which returns a + self-contained ElementPath expression. + """ + cdef _Document doc + cdef _Element root + cdef xmlDoc* c_doc + _assertValidNode(element) + if self._context_node is not None: + root = self._context_node + doc = root._doc + elif self._doc is not None: + doc = self._doc + root = doc.getroot() + else: + raise ValueError, "Element is not in this tree." + _assertValidDoc(doc) + _assertValidNode(root) + if element._doc is not doc: + raise ValueError, "Element is not in this tree." + + c_doc = _fakeRootDoc(doc._c_doc, root._c_node) + c_path = tree.xmlGetNodePath(element._c_node) + _destroyFakeDoc(doc._c_doc, c_doc) + if c_path is NULL: + raise MemoryError() + path = funicode(c_path) + tree.xmlFree(c_path) + return path + + def getelementpath(self, _Element element not None): + """getelementpath(self, element) + + Returns a structural, absolute ElementPath expression to find the + element. This path can be used in the .find() method to look up + the element, provided that the elements along the path and their + list of immediate children were not modified in between. + + ElementPath has the advantage over an XPath expression (as returned + by the .getpath() method) that it does not require additional prefix + declarations. It is always self-contained. + """ + cdef _Element root + cdef Py_ssize_t count + _assertValidNode(element) + if element._c_node.type != tree.XML_ELEMENT_NODE: + raise ValueError, "input is not an Element" + if self._context_node is not None: + root = self._context_node + elif self._doc is not None: + root = self._doc.getroot() + else: + raise ValueError, "Element is not in this tree" + _assertValidNode(root) + if element._doc is not root._doc: + raise ValueError, "Element is not in this tree" + + path = [] + c_element = element._c_node + while c_element is not root._c_node: + c_name = c_element.name + c_href = _getNs(c_element) + tag = _namespacedNameFromNsName(c_href, c_name) + if c_href is NULL: + c_href = b'' # no namespace (NULL is wildcard) + # use tag[N] if there are preceding siblings with the same tag + count = 0 + c_node = c_element.prev + while c_node is not NULL: + if c_node.type == tree.XML_ELEMENT_NODE: + if _tagMatches(c_node, c_href, c_name): + count += 1 + c_node = c_node.prev + if count: + tag = f'{tag}[{count+1}]' + else: + # use tag[1] if there are following siblings with the same tag + c_node = c_element.next + while c_node is not NULL: + if c_node.type == tree.XML_ELEMENT_NODE: + if _tagMatches(c_node, c_href, c_name): + tag += '[1]' + break + c_node = c_node.next + + path.append(tag) + c_element = c_element.parent + if c_element is NULL or c_element.type != tree.XML_ELEMENT_NODE: + raise ValueError, "Element is not in this tree." + if not path: + return '.' + path.reverse() + return '/'.join(path) + + def getiterator(self, tag=None, *tags): + """getiterator(self, *tags, tag=None) + + Returns a sequence or iterator of all elements in document order + (depth first pre-order), starting with the root element. + + Can be restricted to find only elements with specific tags, + see `_Element.iter`. + + :deprecated: Note that this method is deprecated as of + ElementTree 1.3 and lxml 2.0. It returns an iterator in + lxml, which diverges from the original ElementTree + behaviour. If you want an efficient iterator, use the + ``tree.iter()`` method instead. You should only use this + method in new code if you require backwards compatibility + with older versions of lxml or ElementTree. + """ + root = self.getroot() + if root is None: + return ITER_EMPTY + if tag is not None: + tags += (tag,) + return root.getiterator(*tags) + + def iter(self, tag=None, *tags): + """iter(self, tag=None, *tags) + + Creates an iterator for the root element. The iterator loops over + all elements in this tree, in document order. Note that siblings + of the root element (comments or processing instructions) are not + returned by the iterator. + + Can be restricted to find only elements with specific tags, + see `_Element.iter`. + """ + root = self.getroot() + if root is None: + return ITER_EMPTY + if tag is not None: + tags += (tag,) + return root.iter(*tags) + + def find(self, path, namespaces=None): + """find(self, path, namespaces=None) + + Finds the first toplevel element with given tag. Same as + ``tree.getroot().find(path)``. + + The optional ``namespaces`` argument accepts a + prefix-to-namespace mapping that allows the usage of XPath + prefixes in the path expression. + """ + self._assertHasRoot() + root = self.getroot() + if _isString(path): + if path[:1] == "/": + path = "." + path + from warnings import warn + warn( + "This search incorrectly ignores the root element, and will be " + "fixed in a future version. If you rely on the current " + f"behaviour, change it to {path!r}", + FutureWarning, stacklevel=1 + ) + return root.find(path, namespaces) + + def findtext(self, path, default=None, namespaces=None): + """findtext(self, path, default=None, namespaces=None) + + Finds the text for the first element matching the ElementPath + expression. Same as getroot().findtext(path) + + The optional ``namespaces`` argument accepts a + prefix-to-namespace mapping that allows the usage of XPath + prefixes in the path expression. + """ + self._assertHasRoot() + root = self.getroot() + if _isString(path): + if path[:1] == "/": + path = "." + path + from warnings import warn + warn( + "This search incorrectly ignores the root element, and will be " + "fixed in a future version. If you rely on the current " + f"behaviour, change it to {path!r}", + FutureWarning, stacklevel=1 + ) + return root.findtext(path, default, namespaces) + + def findall(self, path, namespaces=None): + """findall(self, path, namespaces=None) + + Finds all elements matching the ElementPath expression. Same as + getroot().findall(path). + + The optional ``namespaces`` argument accepts a + prefix-to-namespace mapping that allows the usage of XPath + prefixes in the path expression. + """ + self._assertHasRoot() + root = self.getroot() + if _isString(path): + if path[:1] == "/": + path = "." + path + from warnings import warn + warn( + "This search incorrectly ignores the root element, and will be " + "fixed in a future version. If you rely on the current " + f"behaviour, change it to {path!r}", + FutureWarning, stacklevel=1 + ) + return root.findall(path, namespaces) + + def iterfind(self, path, namespaces=None): + """iterfind(self, path, namespaces=None) + + Iterates over all elements matching the ElementPath expression. + Same as getroot().iterfind(path). + + The optional ``namespaces`` argument accepts a + prefix-to-namespace mapping that allows the usage of XPath + prefixes in the path expression. + """ + self._assertHasRoot() + root = self.getroot() + if _isString(path): + if path[:1] == "/": + path = "." + path + from warnings import warn + warn( + "This search incorrectly ignores the root element, and will be " + "fixed in a future version. If you rely on the current " + f"behaviour, change it to {path!r}", + FutureWarning, stacklevel=1 + ) + return root.iterfind(path, namespaces) + + def xpath(self, _path, *, namespaces=None, extensions=None, + smart_strings=True, **_variables): + """xpath(self, _path, namespaces=None, extensions=None, smart_strings=True, **_variables) + + XPath evaluate in context of document. + + ``namespaces`` is an optional dictionary with prefix to namespace URI + mappings, used by XPath. ``extensions`` defines additional extension + functions. + + Returns a list (nodeset), or bool, float or string. + + In case of a list result, return Element for element nodes, + string for text and attribute values. + + Note: if you are going to apply multiple XPath expressions + against the same document, it is more efficient to use + XPathEvaluator directly. + """ + self._assertHasRoot() + evaluator = XPathDocumentEvaluator(self, namespaces=namespaces, + extensions=extensions, + smart_strings=smart_strings) + return evaluator(_path, **_variables) + + def xslt(self, _xslt, extensions=None, access_control=None, **_kw): + """xslt(self, _xslt, extensions=None, access_control=None, **_kw) + + Transform this document using other document. + + xslt is a tree that should be XSLT + keyword parameters are XSLT transformation parameters. + + Returns the transformed tree. + + Note: if you are going to apply the same XSLT stylesheet against + multiple documents, it is more efficient to use the XSLT + class directly. + """ + self._assertHasRoot() + style = XSLT(_xslt, extensions=extensions, + access_control=access_control) + return style(self, **_kw) + + def relaxng(self, relaxng): + """relaxng(self, relaxng) + + Validate this document using other document. + + The relaxng argument is a tree that should contain a Relax NG schema. + + Returns True or False, depending on whether validation + succeeded. + + Note: if you are going to apply the same Relax NG schema against + multiple documents, it is more efficient to use the RelaxNG + class directly. + """ + self._assertHasRoot() + schema = RelaxNG(relaxng) + return schema.validate(self) + + def xmlschema(self, xmlschema): + """xmlschema(self, xmlschema) + + Validate this document using other document. + + The xmlschema argument is a tree that should contain an XML Schema. + + Returns True or False, depending on whether validation + succeeded. + + Note: If you are going to apply the same XML Schema against + multiple documents, it is more efficient to use the XMLSchema + class directly. + """ + self._assertHasRoot() + schema = XMLSchema(xmlschema) + return schema.validate(self) + + def xinclude(self): + """xinclude(self) + + Process the XInclude nodes in this document and include the + referenced XML fragments. + + There is support for loading files through the file system, HTTP and + FTP. + + Note that XInclude does not support custom resolvers in Python space + due to restrictions of libxml2 <= 2.6.29. + """ + self._assertHasRoot() + XInclude()(self._context_node) + + def write_c14n(self, file, *, bint exclusive=False, bint with_comments=True, + compression=0, inclusive_ns_prefixes=None): + """write_c14n(self, file, exclusive=False, with_comments=True, + compression=0, inclusive_ns_prefixes=None) + + C14N write of document. Always writes UTF-8. + + The ``compression`` option enables GZip compression level 1-9. + + The ``inclusive_ns_prefixes`` should be a list of namespace strings + (i.e. ['xs', 'xsi']) that will be promoted to the top-level element + during exclusive C14N serialisation. This parameter is ignored if + exclusive mode=False. + + If exclusive=True and no list is provided, a namespace will only be + rendered if it is used by the immediate parent or one of its attributes + and its prefix and values have not already been rendered by an ancestor + of the namespace node's parent element. + + NOTE: This method is deprecated as of lxml 4.4 and will be removed in a + future release. Use ``.write(f, method="c14n")`` instead. + """ + self._assertHasRoot() + _assertValidNode(self._context_node) + if compression is None or compression < 0: + compression = 0 + + _tofilelikeC14N(file, self._context_node, exclusive, with_comments, + compression, inclusive_ns_prefixes) + +cdef _ElementTree _elementTreeFactory(_Document doc, _Element context_node): + return _newElementTree(doc, context_node, _ElementTree) + +cdef _ElementTree _newElementTree(_Document doc, _Element context_node, + object baseclass): + cdef _ElementTree result + result = baseclass() + if context_node is None and doc is not None: + context_node = doc.getroot() + if context_node is None: + _assertValidDoc(doc) + result._doc = doc + else: + _assertValidNode(context_node) + result._context_node = context_node + return result + + +@cython.final +@cython.freelist(16) +cdef class _Attrib: + """A dict-like proxy for the ``Element.attrib`` property. + """ + cdef _Element _element + def __cinit__(self, _Element element not None): + _assertValidNode(element) + self._element = element + + # MANIPULATORS + def __setitem__(self, key, value): + _assertValidNode(self._element) + _setAttributeValue(self._element, key, value) + + def __delitem__(self, key): + _assertValidNode(self._element) + _delAttribute(self._element, key) + + def update(self, sequence_or_dict): + _assertValidNode(self._element) + if isinstance(sequence_or_dict, (dict, _Attrib)): + sequence_or_dict = sequence_or_dict.items() + for key, value in sequence_or_dict: + _setAttributeValue(self._element, key, value) + + def pop(self, key, *default): + if len(default) > 1: + raise TypeError, f"pop expected at most 2 arguments, got {len(default)+1}" + _assertValidNode(self._element) + result = _getAttributeValue(self._element, key, None) + if result is None: + if not default: + raise KeyError, key + result = default[0] + else: + _delAttribute(self._element, key) + return result + + def clear(self): + _assertValidNode(self._element) + c_attrs = self._element._c_node.properties + if c_attrs: + self._element._c_node.properties = NULL + tree.xmlFreePropList(c_attrs) + + # ACCESSORS + def __repr__(self): + _assertValidNode(self._element) + return repr(dict( _collectAttributes(self._element._c_node, 3) )) + + def __copy__(self): + _assertValidNode(self._element) + return dict(_collectAttributes(self._element._c_node, 3)) + + def __deepcopy__(self, memo): + _assertValidNode(self._element) + return dict(_collectAttributes(self._element._c_node, 3)) + + def __getitem__(self, key): + _assertValidNode(self._element) + result = _getAttributeValue(self._element, key, None) + if result is None: + raise KeyError, key + return result + + def __bool__(self): + _assertValidNode(self._element) + cdef xmlAttr* c_attr = self._element._c_node.properties + while c_attr is not NULL: + if c_attr.type == tree.XML_ATTRIBUTE_NODE: + return 1 + c_attr = c_attr.next + return 0 + + def __len__(self): + _assertValidNode(self._element) + cdef xmlAttr* c_attr = self._element._c_node.properties + cdef Py_ssize_t c = 0 + while c_attr is not NULL: + if c_attr.type == tree.XML_ATTRIBUTE_NODE: + c += 1 + c_attr = c_attr.next + return c + + def get(self, key, default=None): + _assertValidNode(self._element) + return _getAttributeValue(self._element, key, default) + + def keys(self): + _assertValidNode(self._element) + return _collectAttributes(self._element._c_node, 1) + + def __iter__(self): + _assertValidNode(self._element) + return iter(_collectAttributes(self._element._c_node, 1)) + + def iterkeys(self): + _assertValidNode(self._element) + return iter(_collectAttributes(self._element._c_node, 1)) + + def values(self): + _assertValidNode(self._element) + return _collectAttributes(self._element._c_node, 2) + + def itervalues(self): + _assertValidNode(self._element) + return iter(_collectAttributes(self._element._c_node, 2)) + + def items(self): + _assertValidNode(self._element) + return _collectAttributes(self._element._c_node, 3) + + def iteritems(self): + _assertValidNode(self._element) + return iter(_collectAttributes(self._element._c_node, 3)) + + def has_key(self, key): + _assertValidNode(self._element) + return key in self + + def __contains__(self, key): + _assertValidNode(self._element) + cdef xmlNode* c_node + ns, tag = _getNsTag(key) + c_node = self._element._c_node + c_href = NULL if ns is None else _xcstr(ns) + return 1 if tree.xmlHasNsProp(c_node, _xcstr(tag), c_href) else 0 + + def __richcmp__(self, other, int op): + try: + one = dict(self.items()) + if not isinstance(other, dict): + other = dict(other) + except (TypeError, ValueError): + return NotImplemented + return python.PyObject_RichCompare(one, other, op) + +MutableMapping.register(_Attrib) + + +@cython.final +@cython.internal +cdef class _AttribIterator: + """Attribute iterator - for internal use only! + """ + # XML attributes must not be removed while running! + cdef _Element _node + cdef xmlAttr* _c_attr + cdef int _keysvalues # 1 - keys, 2 - values, 3 - items (key, value) + def __iter__(self): + return self + + def __next__(self): + cdef xmlAttr* c_attr + if self._node is None: + raise StopIteration + c_attr = self._c_attr + while c_attr is not NULL and c_attr.type != tree.XML_ATTRIBUTE_NODE: + c_attr = c_attr.next + if c_attr is NULL: + self._node = None + raise StopIteration + + self._c_attr = c_attr.next + if self._keysvalues == 1: + return _namespacedName(c_attr) + elif self._keysvalues == 2: + return _attributeValue(self._node._c_node, c_attr) + else: + return (_namespacedName(c_attr), + _attributeValue(self._node._c_node, c_attr)) + +cdef object _attributeIteratorFactory(_Element element, int keysvalues): + cdef _AttribIterator attribs + if element._c_node.properties is NULL: + return ITER_EMPTY + attribs = _AttribIterator() + attribs._node = element + attribs._c_attr = element._c_node.properties + attribs._keysvalues = keysvalues + return attribs + + +cdef public class _ElementTagMatcher [ object LxmlElementTagMatcher, + type LxmlElementTagMatcherType ]: + """ + Dead but public. :) + """ + cdef object _pystrings + cdef int _node_type + cdef char* _href + cdef char* _name + cdef _initTagMatch(self, tag): + self._href = NULL + self._name = NULL + if tag is None: + self._node_type = 0 + elif tag is Comment: + self._node_type = tree.XML_COMMENT_NODE + elif tag is ProcessingInstruction: + self._node_type = tree.XML_PI_NODE + elif tag is Entity: + self._node_type = tree.XML_ENTITY_REF_NODE + elif tag is Element: + self._node_type = tree.XML_ELEMENT_NODE + else: + self._node_type = tree.XML_ELEMENT_NODE + self._pystrings = _getNsTag(tag) + if self._pystrings[0] is not None: + self._href = _cstr(self._pystrings[0]) + self._name = _cstr(self._pystrings[1]) + if self._name[0] == c'*' and self._name[1] == c'\0': + self._name = NULL + +cdef public class _ElementIterator(_ElementTagMatcher) [ + object LxmlElementIterator, type LxmlElementIteratorType ]: + """ + Dead but public. :) + """ + # we keep Python references here to control GC + cdef _Element _node + cdef _node_to_node_function _next_element + def __iter__(self): + return self + + cdef void _storeNext(self, _Element node): + cdef xmlNode* c_node + c_node = self._next_element(node._c_node) + while c_node is not NULL and \ + self._node_type != 0 and \ + (self._node_type != c_node.type or + not _tagMatches(c_node, self._href, self._name)): + c_node = self._next_element(c_node) + if c_node is NULL: + self._node = None + else: + # Python ref: + self._node = _elementFactory(node._doc, c_node) + + def __next__(self): + cdef xmlNode* c_node + cdef _Element current_node + if self._node is None: + raise StopIteration + # Python ref: + current_node = self._node + self._storeNext(current_node) + return current_node + +@cython.final +@cython.internal +cdef class _MultiTagMatcher: + """ + Match an xmlNode against a list of tags. + """ + cdef list _py_tags + cdef qname* _cached_tags + cdef size_t _tag_count + cdef size_t _cached_size + cdef _Document _cached_doc + cdef int _node_types + + def __cinit__(self, tags): + self._py_tags = [] + self.initTagMatch(tags) + + def __dealloc__(self): + self._clear() + + cdef bint rejectsAll(self) noexcept: + return not self._tag_count and not self._node_types + + cdef bint rejectsAllAttributes(self) noexcept: + return not self._tag_count + + cdef bint matchesType(self, int node_type) noexcept: + if node_type == tree.XML_ELEMENT_NODE and self._tag_count: + return True + return self._node_types & (1 << node_type) + + cdef void _clear(self) noexcept: + cdef size_t i, count + count = self._tag_count + self._tag_count = 0 + if self._cached_tags: + for i in range(count): + cpython.ref.Py_XDECREF(self._cached_tags[i].href) + python.lxml_free(self._cached_tags) + self._cached_tags = NULL + + cdef initTagMatch(self, tags): + self._cached_doc = None + del self._py_tags[:] + self._clear() + if tags is None or tags == (): + # no selection in tags argument => match anything + self._node_types = ( + 1 << tree.XML_COMMENT_NODE | + 1 << tree.XML_PI_NODE | + 1 << tree.XML_ENTITY_REF_NODE | + 1 << tree.XML_ELEMENT_NODE) + else: + self._node_types = 0 + self._storeTags(tags, set()) + + cdef _storeTags(self, tag, set seen): + if tag is Comment: + self._node_types |= 1 << tree.XML_COMMENT_NODE + elif tag is ProcessingInstruction: + self._node_types |= 1 << tree.XML_PI_NODE + elif tag is Entity: + self._node_types |= 1 << tree.XML_ENTITY_REF_NODE + elif tag is Element: + self._node_types |= 1 << tree.XML_ELEMENT_NODE + elif python._isString(tag): + if tag in seen: + return + seen.add(tag) + if tag in ('*', '{*}*'): + self._node_types |= 1 << tree.XML_ELEMENT_NODE + else: + href, name = _getNsTag(tag) + if name == b'*': + name = None + if href is None: + href = b'' # no namespace + elif href == b'*': + href = None # wildcard: any namespace, including none + self._py_tags.append((href, name)) + elif isinstance(tag, QName): + self._storeTags(tag.text, seen) + else: + # support a sequence of tags + for item in tag: + self._storeTags(item, seen) + + cdef inline int cacheTags(self, _Document doc, bint force_into_dict=False) except -1: + """ + Look up the tag names in the doc dict to enable string pointer comparisons. + """ + cdef size_t dict_size = tree.xmlDictSize(doc._c_doc.dict) + if doc is self._cached_doc and dict_size == self._cached_size: + # doc and dict didn't change => names already cached + return 0 + self._tag_count = 0 + if not self._py_tags: + self._cached_doc = doc + self._cached_size = dict_size + return 0 + if not self._cached_tags: + self._cached_tags = python.lxml_malloc(len(self._py_tags), sizeof(qname)) + if not self._cached_tags: + self._cached_doc = None + raise MemoryError() + self._tag_count = _mapTagsToQnameMatchArray( + doc._c_doc, self._py_tags, self._cached_tags, force_into_dict) + self._cached_doc = doc + self._cached_size = dict_size + return 0 + + cdef inline bint matches(self, xmlNode* c_node) noexcept: + cdef qname* c_qname + if self._node_types & (1 << c_node.type): + return True + elif c_node.type == tree.XML_ELEMENT_NODE: + for c_qname in self._cached_tags[:self._tag_count]: + if _tagMatchesExactly(c_node, c_qname): + return True + return False + + cdef inline bint matchesNsTag(self, const_xmlChar* c_href, + const_xmlChar* c_name) noexcept: + cdef qname* c_qname + if self._node_types & (1 << tree.XML_ELEMENT_NODE): + return True + for c_qname in self._cached_tags[:self._tag_count]: + if _nsTagMatchesExactly(c_href, c_name, c_qname): + return True + return False + + cdef inline bint matchesAttribute(self, xmlAttr* c_attr) noexcept: + """Attribute matches differ from Element matches in that they do + not care about node types. + """ + cdef qname* c_qname + for c_qname in self._cached_tags[:self._tag_count]: + if _tagMatchesExactly(c_attr, c_qname): + return True + return False + +cdef class _ElementMatchIterator: + cdef _Element _node + cdef _node_to_node_function _next_element + cdef _MultiTagMatcher _matcher + + @cython.final + cdef _initTagMatcher(self, tags): + self._matcher = _MultiTagMatcher.__new__(_MultiTagMatcher, tags) + + def __iter__(self): + return self + + @cython.final + cdef int _storeNext(self, _Element node) except -1: + self._matcher.cacheTags(node._doc) + c_node = self._next_element(node._c_node) + while c_node is not NULL and not self._matcher.matches(c_node): + c_node = self._next_element(c_node) + # store Python ref to next node to make sure it's kept alive + self._node = _elementFactory(node._doc, c_node) if c_node is not NULL else None + return 0 + + def __next__(self): + cdef _Element current_node = self._node + if current_node is None: + raise StopIteration + self._storeNext(current_node) + return current_node + +cdef class ElementChildIterator(_ElementMatchIterator): + """ElementChildIterator(self, node, tag=None, reversed=False) + Iterates over the children of an element. + """ + def __cinit__(self, _Element node not None, tag=None, *, bint reversed=False): + cdef xmlNode* c_node + _assertValidNode(node) + self._initTagMatcher(tag) + if reversed: + c_node = _findChildBackwards(node._c_node, 0) + self._next_element = _previousElement + else: + c_node = _findChildForwards(node._c_node, 0) + self._next_element = _nextElement + self._matcher.cacheTags(node._doc) + while c_node is not NULL and not self._matcher.matches(c_node): + c_node = self._next_element(c_node) + # store Python ref to next node to make sure it's kept alive + self._node = _elementFactory(node._doc, c_node) if c_node is not NULL else None + +cdef class SiblingsIterator(_ElementMatchIterator): + """SiblingsIterator(self, node, tag=None, preceding=False) + Iterates over the siblings of an element. + + You can pass the boolean keyword ``preceding`` to specify the direction. + """ + def __cinit__(self, _Element node not None, tag=None, *, bint preceding=False): + _assertValidNode(node) + self._initTagMatcher(tag) + if preceding: + self._next_element = _previousElement + else: + self._next_element = _nextElement + self._storeNext(node) + +cdef class AncestorsIterator(_ElementMatchIterator): + """AncestorsIterator(self, node, tag=None) + Iterates over the ancestors of an element (from parent to parent). + """ + def __cinit__(self, _Element node not None, tag=None): + _assertValidNode(node) + self._initTagMatcher(tag) + self._next_element = _parentElement + self._storeNext(node) + +cdef class ElementDepthFirstIterator: + """ElementDepthFirstIterator(self, node, tag=None, inclusive=True) + Iterates over an element and its sub-elements in document order (depth + first pre-order). + + Note that this also includes comments, entities and processing + instructions. To filter them out, check if the ``tag`` property + of the returned element is a string (i.e. not None and not a + factory function), or pass the ``Element`` factory for the ``tag`` + argument to receive only Elements. + + If the optional ``tag`` argument is not None, the iterator returns only + the elements that match the respective name and namespace. + + The optional boolean argument 'inclusive' defaults to True and can be set + to False to exclude the start element itself. + + Note that the behaviour of this iterator is completely undefined if the + tree it traverses is modified during iteration. + """ + # we keep Python references here to control GC + # keep the next Element after the one we return, and the (s)top node + cdef _Element _next_node + cdef _Element _top_node + cdef _MultiTagMatcher _matcher + def __cinit__(self, _Element node not None, tag=None, *, bint inclusive=True): + _assertValidNode(node) + self._top_node = node + self._next_node = node + self._matcher = _MultiTagMatcher.__new__(_MultiTagMatcher, tag) + self._matcher.cacheTags(node._doc) + if not inclusive or not self._matcher.matches(node._c_node): + # find start node (this cannot raise StopIteration, self._next_node != None) + next(self) + + def __iter__(self): + return self + + def __next__(self): + cdef xmlNode* c_node + cdef _Element current_node = self._next_node + if current_node is None: + raise StopIteration + c_node = current_node._c_node + self._matcher.cacheTags(current_node._doc) + if not self._matcher._tag_count: + # no tag name was found in the dict => not in document either + # try to match by node type + c_node = self._nextNodeAnyTag(c_node) + else: + c_node = self._nextNodeMatchTag(c_node) + if c_node is NULL: + self._next_node = None + else: + self._next_node = _elementFactory(current_node._doc, c_node) + return current_node + + @cython.final + cdef xmlNode* _nextNodeAnyTag(self, xmlNode* c_node) noexcept: + cdef int node_types = self._matcher._node_types + if not node_types: + return NULL + tree.BEGIN_FOR_EACH_ELEMENT_FROM(self._top_node._c_node, c_node, 0) + if node_types & (1 << c_node.type): + return c_node + tree.END_FOR_EACH_ELEMENT_FROM(c_node) + return NULL + + @cython.final + cdef xmlNode* _nextNodeMatchTag(self, xmlNode* c_node) noexcept: + tree.BEGIN_FOR_EACH_ELEMENT_FROM(self._top_node._c_node, c_node, 0) + if self._matcher.matches(c_node): + return c_node + tree.END_FOR_EACH_ELEMENT_FROM(c_node) + return NULL + + +cdef class ElementTextIterator: + """ElementTextIterator(self, element, tag=None, with_tail=True) + Iterates over the text content of a subtree. + + You can pass the ``tag`` keyword argument to restrict text content to a + specific tag name. + + You can set the ``with_tail`` keyword argument to ``False`` to skip over + tail text (e.g. if you know that it's only whitespace from pretty-printing). + """ + cdef object _events + cdef _Element _start_element + def __cinit__(self, _Element element not None, tag=None, *, bint with_tail=True): + _assertValidNode(element) + if with_tail: + events = ("start", "comment", "pi", "end") + else: + events = ("start",) + self._start_element = element + self._events = iterwalk(element, events=events, tag=tag) + + def __iter__(self): + return self + + def __next__(self): + cdef _Element element + result = None + while result is None: + event, element = next(self._events) # raises StopIteration + if event == "start": + result = element.text + elif element is not self._start_element: + result = element.tail + return result + + +cdef xmlNode* _createElement(xmlDoc* c_doc, object name_utf) except NULL: + cdef xmlNode* c_node + c_node = tree.xmlNewDocNode(c_doc, NULL, _xcstr(name_utf), NULL) + return c_node + +cdef xmlNode* _createComment(xmlDoc* c_doc, const_xmlChar* text) noexcept: + cdef xmlNode* c_node + c_node = tree.xmlNewDocComment(c_doc, text) + return c_node + +cdef xmlNode* _createPI(xmlDoc* c_doc, const_xmlChar* target, const_xmlChar* text) noexcept: + cdef xmlNode* c_node + c_node = tree.xmlNewDocPI(c_doc, target, text) + return c_node + +cdef xmlNode* _createEntity(xmlDoc* c_doc, const_xmlChar* name) noexcept: + cdef xmlNode* c_node + c_node = tree.xmlNewReference(c_doc, name) + return c_node + +# module-level API for ElementTree + +def Element(_tag, attrib=None, nsmap=None, **_extra): + """Element(_tag, attrib=None, nsmap=None, **_extra) + + Element factory. This function returns an object implementing the + Element interface. + + Also look at the `_Element.makeelement()` and + `_BaseParser.makeelement()` methods, which provide a faster way to + create an Element within a specific document or parser context. + """ + return _makeElement(_tag, NULL, None, None, None, None, + attrib, nsmap, _extra) + + +def Comment(text=None): + """Comment(text=None) + + Comment element factory. This factory function creates a special element that will + be serialized as an XML comment. + """ + cdef _Document doc + cdef xmlNode* c_node + cdef xmlDoc* c_doc + + if text is None: + text = b'' + else: + text = _utf8(text) + if b'--' in text or text.endswith(b'-'): + raise ValueError("Comment may not contain '--' or end with '-'") + + c_doc = _newXMLDoc() + doc = _documentFactory(c_doc, None) + c_node = _createComment(c_doc, _xcstr(text)) + tree.xmlAddChild(c_doc, c_node) + return _elementFactory(doc, c_node) + + +def ProcessingInstruction(target, text=None): + """ProcessingInstruction(target, text=None) + + ProcessingInstruction element factory. This factory function creates a + special element that will be serialized as an XML processing instruction. + """ + cdef _Document doc + cdef xmlNode* c_node + cdef xmlDoc* c_doc + + target = _utf8(target) + _tagValidOrRaise(target) + if target.lower() == b'xml': + raise ValueError, f"Invalid PI name '{target}'" + + if text is None: + text = b'' + else: + text = _utf8(text) + if b'?>' in text: + raise ValueError, "PI text must not contain '?>'" + + c_doc = _newXMLDoc() + doc = _documentFactory(c_doc, None) + c_node = _createPI(c_doc, _xcstr(target), _xcstr(text)) + tree.xmlAddChild(c_doc, c_node) + return _elementFactory(doc, c_node) + +PI = ProcessingInstruction + + +cdef class CDATA: + """CDATA(data) + + CDATA factory. This factory creates an opaque data object that + can be used to set Element text. The usual way to use it is:: + + >>> el = Element('content') + >>> el.text = CDATA('a string') + + >>> print(el.text) + a string + >>> print(tostring(el, encoding="unicode")) + + """ + cdef bytes _utf8_data + def __cinit__(self, data): + _utf8_data = _utf8(data) + if b']]>' in _utf8_data: + raise ValueError, "']]>' not allowed inside CDATA" + self._utf8_data = _utf8_data + + +def Entity(name): + """Entity(name) + + Entity factory. This factory function creates a special element + that will be serialized as an XML entity reference or character + reference. Note, however, that entities will not be automatically + declared in the document. A document that uses entity references + requires a DTD to define the entities. + """ + cdef _Document doc + cdef xmlNode* c_node + cdef xmlDoc* c_doc + name_utf = _utf8(name) + c_name = _xcstr(name_utf) + if c_name[0] == c'#': + if not _characterReferenceIsValid(c_name + 1): + raise ValueError, f"Invalid character reference: '{name}'" + elif not _xmlNameIsValid(c_name): + raise ValueError, f"Invalid entity reference: '{name}'" + c_doc = _newXMLDoc() + doc = _documentFactory(c_doc, None) + c_node = _createEntity(c_doc, c_name) + tree.xmlAddChild(c_doc, c_node) + return _elementFactory(doc, c_node) + + +def SubElement(_Element _parent not None, _tag, + attrib=None, nsmap=None, **_extra): + """SubElement(_parent, _tag, attrib=None, nsmap=None, **_extra) + + Subelement factory. This function creates an element instance, and + appends it to an existing element. + """ + return _makeSubElement(_parent, _tag, None, None, attrib, nsmap, _extra) + + +def ElementTree(_Element element=None, *, file=None, _BaseParser parser=None): + """ElementTree(element=None, file=None, parser=None) + + ElementTree wrapper class. + """ + cdef xmlNode* c_next + cdef xmlNode* c_node + cdef xmlNode* c_node_copy + cdef xmlDoc* c_doc + cdef _ElementTree etree + cdef _Document doc + + if element is not None: + doc = element._doc + elif file is not None: + try: + doc = _parseDocument(file, parser, None) + except _TargetParserResult as result_container: + return result_container.result + else: + c_doc = _newXMLDoc() + doc = _documentFactory(c_doc, parser) + + return _elementTreeFactory(doc, element) + + +def HTML(text, _BaseParser parser=None, *, base_url=None): + """HTML(text, parser=None, base_url=None) + + Parses an HTML document from a string constant. Returns the root + node (or the result returned by a parser target). This function + can be used to embed "HTML literals" in Python code. + + To override the parser with a different ``HTMLParser`` you can pass it to + the ``parser`` keyword argument. + + The ``base_url`` keyword argument allows to set the original base URL of + the document to support relative Paths when looking up external entities + (DTD, XInclude, ...). + """ + cdef _Document doc + if parser is None: + parser = __GLOBAL_PARSER_CONTEXT.getDefaultParser() + if not isinstance(parser, HTMLParser): + parser = __DEFAULT_HTML_PARSER + try: + doc = _parseMemoryDocument(text, base_url, parser) + return doc.getroot() + except _TargetParserResult as result_container: + return result_container.result + + +def XML(text, _BaseParser parser=None, *, base_url=None): + """XML(text, parser=None, base_url=None) + + Parses an XML document or fragment from a string constant. + Returns the root node (or the result returned by a parser target). + This function can be used to embed "XML literals" in Python code, + like in + + >>> root = XML("") + >>> print(root.tag) + root + + To override the parser with a different ``XMLParser`` you can pass it to + the ``parser`` keyword argument. + + The ``base_url`` keyword argument allows to set the original base URL of + the document to support relative Paths when looking up external entities + (DTD, XInclude, ...). + """ + cdef _Document doc + if parser is None: + parser = __GLOBAL_PARSER_CONTEXT.getDefaultParser() + if not isinstance(parser, XMLParser): + parser = __DEFAULT_XML_PARSER + try: + doc = _parseMemoryDocument(text, base_url, parser) + return doc.getroot() + except _TargetParserResult as result_container: + return result_container.result + + +def fromstring(text, _BaseParser parser=None, *, base_url=None): + """fromstring(text, parser=None, base_url=None) + + Parses an XML document or fragment from a string. Returns the + root node (or the result returned by a parser target). + + To override the default parser with a different parser you can pass it to + the ``parser`` keyword argument. + + The ``base_url`` keyword argument allows to set the original base URL of + the document to support relative Paths when looking up external entities + (DTD, XInclude, ...). + """ + cdef _Document doc + try: + doc = _parseMemoryDocument(text, base_url, parser) + return doc.getroot() + except _TargetParserResult as result_container: + return result_container.result + + +def fromstringlist(strings, _BaseParser parser=None): + """fromstringlist(strings, parser=None) + + Parses an XML document from a sequence of strings. Returns the + root node (or the result returned by a parser target). + + To override the default parser with a different parser you can pass it to + the ``parser`` keyword argument. + """ + cdef _Document doc + if isinstance(strings, (bytes, unicode)): + raise ValueError("passing a single string into fromstringlist() is not" + " efficient, use fromstring() instead") + if parser is None: + parser = __GLOBAL_PARSER_CONTEXT.getDefaultParser() + feed = parser.feed + for data in strings: + feed(data) + return parser.close() + + +def iselement(element): + """iselement(element) + + Checks if an object appears to be a valid element object. + """ + return isinstance(element, _Element) and (<_Element>element)._c_node is not NULL + + +def indent(tree, space=" ", *, Py_ssize_t level=0): + """indent(tree, space=" ", level=0) + + Indent an XML document by inserting newlines and indentation space + after elements. + + *tree* is the ElementTree or Element to modify. The (root) element + itself will not be changed, but the tail text of all elements in its + subtree will be adapted. + + *space* is the whitespace to insert for each indentation level, two + space characters by default. + + *level* is the initial indentation level. Setting this to a higher + value than 0 can be used for indenting subtrees that are more deeply + nested inside of a document. + """ + root = _rootNodeOrRaise(tree) + if level < 0: + raise ValueError(f"Initial indentation level must be >= 0, got {level}") + if _hasChild(root._c_node): + space = _utf8(space) + indent = b"\n" + level * space + _indent_children(root._c_node, 1, space, [indent, indent + space]) + + +cdef int _indent_children(xmlNode* c_node, Py_ssize_t level, bytes one_space, list indentations) except -1: + # Reuse indentation strings for speed. + if len(indentations) <= level: + indentations.append(indentations[-1] + one_space) + + # Start a new indentation level for the first child. + child_indentation = indentations[level] + if not _hasNonWhitespaceText(c_node): + _setNodeText(c_node, child_indentation) + + # Recursively indent all children. + cdef xmlNode* c_child = _findChildForwards(c_node, 0) + while c_child is not NULL: + if _hasChild(c_child): + _indent_children(c_child, level+1, one_space, indentations) + c_next_child = _nextElement(c_child) + if not _hasNonWhitespaceTail(c_child): + if c_next_child is NULL: + # Dedent after the last child. + child_indentation = indentations[level-1] + _setTailText(c_child, child_indentation) + c_child = c_next_child + return 0 + + +def dump(_Element elem not None, *, bint pretty_print=True, bint with_tail=True): + """dump(elem, pretty_print=True, with_tail=True) + + Writes an element tree or element structure to sys.stdout. This function + should be used for debugging only. + """ + xml = tostring(elem, pretty_print=pretty_print, with_tail=with_tail, encoding='unicode') + if not pretty_print: + xml += '\n' + sys.stdout.write(xml) + + +def tostring(element_or_tree, *, encoding=None, method="xml", + xml_declaration=None, bint pretty_print=False, bint with_tail=True, + standalone=None, doctype=None, + # method='c14n' + bint exclusive=False, inclusive_ns_prefixes=None, + # method='c14n2' + bint with_comments=True, bint strip_text=False, + ): + """tostring(element_or_tree, encoding=None, method="xml", + xml_declaration=None, pretty_print=False, with_tail=True, + standalone=None, doctype=None, + exclusive=False, inclusive_ns_prefixes=None, + with_comments=True, strip_text=False, + ) + + Serialize an element to an encoded string representation of its XML + tree. + + Defaults to ASCII encoding without XML declaration. This + behaviour can be configured with the keyword arguments 'encoding' + (string) and 'xml_declaration' (bool). Note that changing the + encoding to a non UTF-8 compatible encoding will enable a + declaration by default. + + You can also serialise to a Unicode string without declaration by + passing the name ``'unicode'`` as encoding (or the ``str`` function + in Py3 or ``unicode`` in Py2). This changes the return value from + a byte string to an unencoded unicode string. + + The keyword argument 'pretty_print' (bool) enables formatted XML. + + The keyword argument 'method' selects the output method: 'xml', + 'html', plain 'text' (text content without tags), 'c14n' or 'c14n2'. + Default is 'xml'. + + With ``method="c14n"`` (C14N version 1), the options ``exclusive``, + ``with_comments`` and ``inclusive_ns_prefixes`` request exclusive + C14N, include comments, and list the inclusive prefixes respectively. + + With ``method="c14n2"`` (C14N version 2), the ``with_comments`` and + ``strip_text`` options control the output of comments and text space + according to C14N 2.0. + + Passing a boolean value to the ``standalone`` option will output + an XML declaration with the corresponding ``standalone`` flag. + + The ``doctype`` option allows passing in a plain string that will + be serialised before the XML tree. Note that passing in non + well-formed content here will make the XML output non well-formed. + Also, an existing doctype in the document tree will not be removed + when serialising an ElementTree instance. + + You can prevent the tail text of the element from being serialised + by passing the boolean ``with_tail`` option. This has no impact + on the tail text of children, which will always be serialised. + """ + cdef bint write_declaration + cdef int is_standalone + # C14N serialisation + if method in ('c14n', 'c14n2'): + if encoding is not None: + raise ValueError("Cannot specify encoding with C14N") + if xml_declaration: + raise ValueError("Cannot enable XML declaration in C14N") + if method == 'c14n': + return _tostringC14N(element_or_tree, exclusive, with_comments, inclusive_ns_prefixes) + else: + out = BytesIO() + target = C14NWriterTarget( + utf8_writer(out).write, + with_comments=with_comments, strip_text=strip_text) + _tree_to_target(element_or_tree, target) + return out.getvalue() + if not with_comments: + raise ValueError("Can only discard comments in C14N serialisation") + if strip_text: + raise ValueError("Can only strip text in C14N 2.0 serialisation") + if encoding is unicode or (encoding is not None and encoding.lower() == 'unicode'): + if xml_declaration: + raise ValueError, \ + "Serialisation to unicode must not request an XML declaration" + write_declaration = 0 + encoding = unicode + elif xml_declaration is None: + # by default, write an XML declaration only for non-standard encodings + write_declaration = encoding is not None and encoding.upper() not in \ + ('ASCII', 'UTF-8', 'UTF8', 'US-ASCII') + else: + write_declaration = xml_declaration + if encoding is None: + encoding = 'ASCII' + if standalone is None: + is_standalone = -1 + elif standalone: + write_declaration = 1 + is_standalone = 1 + else: + write_declaration = 1 + is_standalone = 0 + + if isinstance(element_or_tree, _Element): + return _tostring(<_Element>element_or_tree, encoding, doctype, method, + write_declaration, 0, pretty_print, with_tail, + is_standalone) + elif isinstance(element_or_tree, _ElementTree): + return _tostring((<_ElementTree>element_or_tree)._context_node, + encoding, doctype, method, write_declaration, 1, + pretty_print, with_tail, is_standalone) + else: + raise TypeError, f"Type '{python._fqtypename(element_or_tree).decode('utf8')}' cannot be serialized." + + + +def tostringlist(element_or_tree, *args, **kwargs): + """tostringlist(element_or_tree, *args, **kwargs) + + Serialize an element to an encoded string representation of its XML + tree, stored in a list of partial strings. + + This is purely for ElementTree 1.3 compatibility. The result is a + single string wrapped in a list. + """ + return [tostring(element_or_tree, *args, **kwargs)] + + +def tounicode(element_or_tree, *, method="xml", bint pretty_print=False, + bint with_tail=True, doctype=None): + """tounicode(element_or_tree, method="xml", pretty_print=False, + with_tail=True, doctype=None) + + Serialize an element to the Python unicode representation of its XML + tree. + + :deprecated: use ``tostring(el, encoding='unicode')`` instead. + + Note that the result does not carry an XML encoding declaration and is + therefore not necessarily suited for serialization to byte streams without + further treatment. + + The boolean keyword argument 'pretty_print' enables formatted XML. + + The keyword argument 'method' selects the output method: 'xml', + 'html' or plain 'text'. + + You can prevent the tail text of the element from being serialised + by passing the boolean ``with_tail`` option. This has no impact + on the tail text of children, which will always be serialised. + """ + if isinstance(element_or_tree, _Element): + return _tostring(<_Element>element_or_tree, unicode, doctype, method, + 0, 0, pretty_print, with_tail, -1) + elif isinstance(element_or_tree, _ElementTree): + return _tostring((<_ElementTree>element_or_tree)._context_node, + unicode, doctype, method, 0, 1, pretty_print, + with_tail, -1) + else: + raise TypeError, f"Type '{type(element_or_tree)}' cannot be serialized." + + +def parse(source, _BaseParser parser=None, *, base_url=None): + """parse(source, parser=None, base_url=None) + + Return an ElementTree object loaded with source elements. If no parser + is provided as second argument, the default parser is used. + + The ``source`` can be any of the following: + + - a file name/path + - a file object + - a file-like object + - a URL using the HTTP or FTP protocol + + To parse from a string, use the ``fromstring()`` function instead. + + Note that it is generally faster to parse from a file path or URL + than from an open file object or file-like object. Transparent + decompression from gzip compressed sources is supported (unless + explicitly disabled in libxml2). + + The ``base_url`` keyword allows setting a URL for the document + when parsing from a file-like object. This is needed when looking + up external entities (DTD, XInclude, ...) with relative paths. + """ + cdef _Document doc + try: + doc = _parseDocument(source, parser, base_url) + return _elementTreeFactory(doc, None) + except _TargetParserResult as result_container: + return result_container.result + + +def adopt_external_document(capsule, _BaseParser parser=None): + """adopt_external_document(capsule, parser=None) + + Unpack a libxml2 document pointer from a PyCapsule and wrap it in an + lxml ElementTree object. + + This allows external libraries to build XML/HTML trees using libxml2 + and then pass them efficiently into lxml for further processing. + + If a ``parser`` is provided, it will be used for configuring the + lxml document. No parsing will be done. + + The capsule must have the name ``"libxml2:xmlDoc"`` and its pointer + value must reference a correct libxml2 document of type ``xmlDoc*``. + The creator of the capsule must take care to correctly clean up the + document using an appropriate capsule destructor. By default, the + libxml2 document will be copied to let lxml safely own the memory + of the internal tree that it uses. + + If the capsule context is non-NULL, it must point to a C string that + can be compared using ``strcmp()``. If the context string equals + ``"destructor:xmlFreeDoc"``, the libxml2 document will not be copied + but the capsule invalidated instead by clearing its destructor and + name. That way, lxml takes ownership of the libxml2 document in memory + without creating a copy first, and the capsule destructor will not be + called. The document will then eventually be cleaned up by lxml using + the libxml2 API function ``xmlFreeDoc()`` once it is no longer used. + + If no copy is made, later modifications of the tree outside of lxml + should not be attempted after transferring the ownership. + """ + cdef xmlDoc* c_doc + cdef bint is_owned = False + c_doc = python.lxml_unpack_xmldoc_capsule(capsule, &is_owned) + doc = _adoptForeignDoc(c_doc, parser, is_owned) + return _elementTreeFactory(doc, None) + + +################################################################################ +# Include submodules + +include "readonlytree.pxi" # Read-only implementation of Element proxies +include "classlookup.pxi" # Element class lookup mechanisms +include "nsclasses.pxi" # Namespace implementation and registry +include "docloader.pxi" # Support for custom document loaders +include "parser.pxi" # XML and HTML parsers +include "saxparser.pxi" # SAX-like Parser interface and tree builder +include "parsertarget.pxi" # ET Parser target +include "serializer.pxi" # XML output functions +include "iterparse.pxi" # incremental XML parsing +include "xmlid.pxi" # XMLID and IDDict +include "xinclude.pxi" # XInclude +include "cleanup.pxi" # Cleanup and recursive element removal functions + + +################################################################################ +# Include submodules for XPath and XSLT + +include "extensions.pxi" # XPath/XSLT extension functions +include "xpath.pxi" # XPath evaluation +include "xslt.pxi" # XSL transformations +include "xsltext.pxi" # XSL extension elements + + +################################################################################ +# Validation + +cdef class DocumentInvalid(LxmlError): + """Validation error. + + Raised by all document validators when their ``assertValid(tree)`` + method fails. + """ + + +cdef class _Validator: + "Base class for XML validators." + cdef _ErrorLog _error_log + def __cinit__(self): + self._error_log = _ErrorLog() + + def validate(self, etree): + """validate(self, etree) + + Validate the document using this schema. + + Returns true if document is valid, false if not. + """ + return self(etree) + + def assertValid(self, etree): + """assertValid(self, etree) + + Raises `DocumentInvalid` if the document does not comply with the schema. + """ + if not self(etree): + raise DocumentInvalid(self._error_log._buildExceptionMessage( + "Document does not comply with schema"), + self._error_log) + + def assert_(self, etree): + """assert_(self, etree) + + Raises `AssertionError` if the document does not comply with the schema. + """ + if not self(etree): + raise AssertionError, self._error_log._buildExceptionMessage( + "Document does not comply with schema") + + cpdef _append_log_message(self, int domain, int type, int level, int line, + message, filename): + self._error_log._receiveGeneric(domain, type, level, line, message, + filename) + + cpdef _clear_error_log(self): + self._error_log.clear() + + @property + def error_log(self): + """The log of validation errors and warnings.""" + assert self._error_log is not None, "XPath evaluator not initialised" + return self._error_log.copy() + +include "dtd.pxi" # DTD +include "relaxng.pxi" # RelaxNG +include "xmlschema.pxi" # XMLSchema +include "schematron.pxi" # Schematron (requires libxml2 2.6.21+) + +################################################################################ +# Public C API + +include "public-api.pxi" + +################################################################################ +# Other stuff + +include "debug.pxi"