Mini Shell
# XML serialization and output functions
cdef object GzipFile
from gzip import GzipFile
cdef class SerialisationError(LxmlError):
"""A libxml2 error that occurred during serialisation.
"""
cdef enum _OutputMethods:
OUTPUT_METHOD_XML
OUTPUT_METHOD_HTML
OUTPUT_METHOD_TEXT
cdef int _findOutputMethod(method) except -1:
if method is None:
return OUTPUT_METHOD_XML
method = method.lower()
if method == "xml":
return OUTPUT_METHOD_XML
if method == "html":
return OUTPUT_METHOD_HTML
if method == "text":
return OUTPUT_METHOD_TEXT
raise ValueError(f"unknown output method {method!r}")
cdef _textToString(xmlNode* c_node, encoding, bint with_tail):
cdef bint needs_conversion
cdef const_xmlChar* c_text
cdef xmlNode* c_text_node
cdef tree.xmlBuffer* c_buffer
cdef int error_result
c_buffer = tree.xmlBufferCreate()
if c_buffer is NULL:
raise MemoryError()
with nogil:
error_result = tree.xmlNodeBufGetContent(c_buffer, c_node)
if with_tail:
c_text_node = _textNodeOrSkip(c_node.next)
while c_text_node is not NULL:
tree.xmlBufferWriteChar(c_buffer, <const_char*>c_text_node.content)
c_text_node = _textNodeOrSkip(c_text_node.next)
c_text = tree.xmlBufferContent(c_buffer)
if error_result < 0 or c_text is NULL:
tree.xmlBufferFree(c_buffer)
raise SerialisationError, u"Error during serialisation (out of memory?)"
try:
needs_conversion = 0
if encoding is unicode:
needs_conversion = 1
elif encoding is not None:
# Python prefers lower case encoding names
encoding = encoding.lower()
if encoding not in (u'utf8', u'utf-8'):
if encoding == u'ascii':
if isutf8l(c_text, tree.xmlBufferLength(c_buffer)):
# will raise a decode error below
needs_conversion = 1
else:
needs_conversion = 1
if needs_conversion:
text = (<const_char*>c_text)[:tree.xmlBufferLength(c_buffer)].decode('utf8')
if encoding is not unicode:
encoding = _utf8(encoding)
text = python.PyUnicode_AsEncodedString(
text, encoding, 'strict')
else:
text = (<unsigned char*>c_text)[:tree.xmlBufferLength(c_buffer)]
finally:
tree.xmlBufferFree(c_buffer)
return text
cdef _tostring(_Element element, encoding, doctype, method,
bint write_xml_declaration, bint write_complete_document,
bint pretty_print, bint with_tail, int standalone):
u"""Serialize an element to an encoded string representation of its XML
tree.
"""
cdef tree.xmlOutputBuffer* c_buffer
cdef tree.xmlBuf* c_result_buffer
cdef tree.xmlCharEncodingHandler* enchandler
cdef const_char* c_enc
cdef const_xmlChar* c_version
cdef const_xmlChar* c_doctype
cdef int c_method
cdef int error_result
if element is None:
return None
_assertValidNode(element)
c_method = _findOutputMethod(method)
if c_method == OUTPUT_METHOD_TEXT:
return _textToString(element._c_node, encoding, with_tail)
if encoding is None or encoding is unicode:
c_enc = NULL
else:
encoding = _utf8(encoding)
c_enc = _cstr(encoding)
if doctype is None:
c_doctype = NULL
else:
doctype = _utf8(doctype)
c_doctype = _xcstr(doctype)
# it is necessary to *and* find the encoding handler *and* use
# encoding during output
enchandler = tree.xmlFindCharEncodingHandler(c_enc)
if enchandler is NULL and c_enc is not NULL:
if encoding is not None:
encoding = encoding.decode('UTF-8')
raise LookupError, f"unknown encoding: '{encoding}'"
c_buffer = tree.xmlAllocOutputBuffer(enchandler)
if c_buffer is NULL:
tree.xmlCharEncCloseFunc(enchandler)
raise MemoryError()
with nogil:
_writeNodeToBuffer(c_buffer, element._c_node, c_enc, c_doctype, c_method,
write_xml_declaration, write_complete_document,
pretty_print, with_tail, standalone)
tree.xmlOutputBufferFlush(c_buffer)
if c_buffer.conv is not NULL:
c_result_buffer = c_buffer.conv
else:
c_result_buffer = c_buffer.buffer
error_result = c_buffer.error
if error_result != xmlerror.XML_ERR_OK:
tree.xmlOutputBufferClose(c_buffer)
_raiseSerialisationError(error_result)
try:
if encoding is unicode:
result = (<unsigned char*>tree.xmlBufContent(
c_result_buffer))[:tree.xmlBufUse(c_result_buffer)].decode('UTF-8')
else:
result = <bytes>(<unsigned char*>tree.xmlBufContent(
c_result_buffer))[:tree.xmlBufUse(c_result_buffer)]
finally:
error_result = tree.xmlOutputBufferClose(c_buffer)
if error_result == -1:
_raiseSerialisationError(error_result)
return result
cdef bytes _tostringC14N(element_or_tree, bint exclusive, bint with_comments, inclusive_ns_prefixes):
cdef xmlDoc* c_doc
cdef xmlChar* c_buffer = NULL
cdef int byte_count = -1
cdef bytes result
cdef _Document doc
cdef _Element element
cdef xmlChar **c_inclusive_ns_prefixes
if isinstance(element_or_tree, _Element):
_assertValidNode(<_Element>element_or_tree)
doc = (<_Element>element_or_tree)._doc
c_doc = _plainFakeRootDoc(doc._c_doc, (<_Element>element_or_tree)._c_node, 0)
else:
doc = _documentOrRaise(element_or_tree)
_assertValidDoc(doc)
c_doc = doc._c_doc
c_inclusive_ns_prefixes = _convert_ns_prefixes(c_doc.dict, inclusive_ns_prefixes) if inclusive_ns_prefixes else NULL
try:
with nogil:
byte_count = c14n.xmlC14NDocDumpMemory(
c_doc, NULL, exclusive, c_inclusive_ns_prefixes, with_comments, &c_buffer)
finally:
_destroyFakeDoc(doc._c_doc, c_doc)
if c_inclusive_ns_prefixes is not NULL:
python.lxml_free(c_inclusive_ns_prefixes)
if byte_count < 0 or c_buffer is NULL:
if c_buffer is not NULL:
tree.xmlFree(c_buffer)
raise C14NError, u"C14N failed"
try:
result = c_buffer[:byte_count]
finally:
tree.xmlFree(c_buffer)
return result
cdef _raiseSerialisationError(int error_result):
if error_result == xmlerror.XML_ERR_NO_MEMORY:
raise MemoryError()
message = ErrorTypes._getName(error_result)
if message is None:
message = f"unknown error {error_result}"
raise SerialisationError, message
############################################################
# low-level serialisation functions
cdef void _writeDoctype(tree.xmlOutputBuffer* c_buffer,
const_xmlChar* c_doctype) nogil:
tree.xmlOutputBufferWrite(c_buffer, tree.xmlStrlen(c_doctype),
<const_char*>c_doctype)
tree.xmlOutputBufferWriteString(c_buffer, "\n")
cdef void _writeNodeToBuffer(tree.xmlOutputBuffer* c_buffer,
xmlNode* c_node, const_char* encoding, const_xmlChar* c_doctype,
int c_method, bint write_xml_declaration,
bint write_complete_document,
bint pretty_print, bint with_tail,
int standalone) nogil:
cdef xmlNode* c_nsdecl_node
cdef xmlDoc* c_doc = c_node.doc
if write_xml_declaration and c_method == OUTPUT_METHOD_XML:
_writeDeclarationToBuffer(c_buffer, c_doc.version, encoding, standalone)
# comments/processing instructions before doctype declaration
if write_complete_document and not c_buffer.error and c_doc.intSubset:
_writePrevSiblings(c_buffer, <xmlNode*>c_doc.intSubset, encoding, pretty_print)
if c_doctype:
_writeDoctype(c_buffer, c_doctype)
# write internal DTD subset, preceding PIs/comments, etc.
if write_complete_document and not c_buffer.error:
if c_doctype is NULL:
_writeDtdToBuffer(c_buffer, c_doc, c_node.name, c_method, encoding)
_writePrevSiblings(c_buffer, c_node, encoding, pretty_print)
c_nsdecl_node = c_node
if not c_node.parent or c_node.parent.type != tree.XML_DOCUMENT_NODE:
# copy the node and add namespaces from parents
# this is required to make libxml write them
c_nsdecl_node = tree.xmlCopyNode(c_node, 2)
if not c_nsdecl_node:
c_buffer.error = xmlerror.XML_ERR_NO_MEMORY
return
_copyParentNamespaces(c_node, c_nsdecl_node)
c_nsdecl_node.parent = c_node.parent
c_nsdecl_node.children = c_node.children
c_nsdecl_node.last = c_node.last
# write node
if c_method == OUTPUT_METHOD_HTML:
tree.htmlNodeDumpFormatOutput(
c_buffer, c_doc, c_nsdecl_node, encoding, pretty_print)
else:
tree.xmlNodeDumpOutput(
c_buffer, c_doc, c_nsdecl_node, 0, pretty_print, encoding)
if c_nsdecl_node is not c_node:
# clean up
c_nsdecl_node.children = c_nsdecl_node.last = NULL
tree.xmlFreeNode(c_nsdecl_node)
if c_buffer.error:
return
# write tail, trailing comments, etc.
if with_tail:
_writeTail(c_buffer, c_node, encoding, c_method, pretty_print)
if write_complete_document:
_writeNextSiblings(c_buffer, c_node, encoding, pretty_print)
if pretty_print:
tree.xmlOutputBufferWrite(c_buffer, 1, "\n")
cdef void _writeDeclarationToBuffer(tree.xmlOutputBuffer* c_buffer,
const_xmlChar* version, const_char* encoding,
int standalone) nogil:
if version is NULL:
version = <unsigned char*>"1.0"
tree.xmlOutputBufferWrite(c_buffer, 15, "<?xml version='")
tree.xmlOutputBufferWriteString(c_buffer, <const_char*>version)
tree.xmlOutputBufferWrite(c_buffer, 12, "' encoding='")
tree.xmlOutputBufferWriteString(c_buffer, encoding)
if standalone == 0:
tree.xmlOutputBufferWrite(c_buffer, 20, "' standalone='no'?>\n")
elif standalone == 1:
tree.xmlOutputBufferWrite(c_buffer, 21, "' standalone='yes'?>\n")
else:
tree.xmlOutputBufferWrite(c_buffer, 4, "'?>\n")
cdef void _writeDtdToBuffer(tree.xmlOutputBuffer* c_buffer,
xmlDoc* c_doc, const_xmlChar* c_root_name,
int c_method, const_char* encoding) nogil:
cdef tree.xmlDtd* c_dtd
cdef xmlNode* c_node
cdef char* quotechar
c_dtd = c_doc.intSubset
if not c_dtd or not c_dtd.name:
return
# Name in document type declaration must match the root element tag.
# For XML, case sensitive match, for HTML insensitive.
if c_method == OUTPUT_METHOD_HTML:
if tree.xmlStrcasecmp(c_root_name, c_dtd.name) != 0:
return
else:
if tree.xmlStrcmp(c_root_name, c_dtd.name) != 0:
return
tree.xmlOutputBufferWrite(c_buffer, 10, "<!DOCTYPE ")
tree.xmlOutputBufferWriteString(c_buffer, <const_char*>c_dtd.name)
cdef const_xmlChar* public_id = c_dtd.ExternalID
cdef const_xmlChar* sys_url = c_dtd.SystemID
if public_id and public_id[0] == b'\0':
public_id = NULL
if sys_url and sys_url[0] == b'\0':
sys_url = NULL
if public_id:
tree.xmlOutputBufferWrite(c_buffer, 9, ' PUBLIC "')
tree.xmlOutputBufferWriteString(c_buffer, <const_char*>public_id)
if sys_url:
tree.xmlOutputBufferWrite(c_buffer, 2, '" ')
else:
tree.xmlOutputBufferWrite(c_buffer, 1, '"')
elif sys_url:
tree.xmlOutputBufferWrite(c_buffer, 8, ' SYSTEM ')
if sys_url:
if tree.xmlStrchr(sys_url, b'"'):
quotechar = '\''
else:
quotechar = '"'
tree.xmlOutputBufferWrite(c_buffer, 1, quotechar)
tree.xmlOutputBufferWriteString(c_buffer, <const_char*>sys_url)
tree.xmlOutputBufferWrite(c_buffer, 1, quotechar)
if (not c_dtd.entities and not c_dtd.elements and
not c_dtd.attributes and not c_dtd.notations and
not c_dtd.pentities):
tree.xmlOutputBufferWrite(c_buffer, 2, '>\n')
return
tree.xmlOutputBufferWrite(c_buffer, 3, ' [\n')
if c_dtd.notations and not c_buffer.error:
c_buf = tree.xmlBufferCreate()
if not c_buf:
c_buffer.error = xmlerror.XML_ERR_NO_MEMORY
return
tree.xmlDumpNotationTable(c_buf, <tree.xmlNotationTable*>c_dtd.notations)
tree.xmlOutputBufferWrite(
c_buffer, tree.xmlBufferLength(c_buf),
<const_char*>tree.xmlBufferContent(c_buf))
tree.xmlBufferFree(c_buf)
c_node = c_dtd.children
while c_node and not c_buffer.error:
tree.xmlNodeDumpOutput(c_buffer, c_node.doc, c_node, 0, 0, encoding)
c_node = c_node.next
tree.xmlOutputBufferWrite(c_buffer, 3, "]>\n")
cdef void _writeTail(tree.xmlOutputBuffer* c_buffer, xmlNode* c_node,
const_char* encoding, int c_method, bint pretty_print) nogil:
u"Write the element tail."
c_node = c_node.next
while c_node and not c_buffer.error and c_node.type in (
tree.XML_TEXT_NODE, tree.XML_CDATA_SECTION_NODE):
if c_method == OUTPUT_METHOD_HTML:
tree.htmlNodeDumpFormatOutput(
c_buffer, c_node.doc, c_node, encoding, pretty_print)
else:
tree.xmlNodeDumpOutput(
c_buffer, c_node.doc, c_node, 0, pretty_print, encoding)
c_node = c_node.next
cdef void _writePrevSiblings(tree.xmlOutputBuffer* c_buffer, xmlNode* c_node,
const_char* encoding, bint pretty_print) nogil:
cdef xmlNode* c_sibling
if c_node.parent and _isElement(c_node.parent):
return
# we are at a root node, so add PI and comment siblings
c_sibling = c_node
while c_sibling.prev and \
(c_sibling.prev.type == tree.XML_PI_NODE or
c_sibling.prev.type == tree.XML_COMMENT_NODE):
c_sibling = c_sibling.prev
while c_sibling is not c_node and not c_buffer.error:
tree.xmlNodeDumpOutput(c_buffer, c_node.doc, c_sibling, 0,
pretty_print, encoding)
if pretty_print:
tree.xmlOutputBufferWriteString(c_buffer, "\n")
c_sibling = c_sibling.next
cdef void _writeNextSiblings(tree.xmlOutputBuffer* c_buffer, xmlNode* c_node,
const_char* encoding, bint pretty_print) nogil:
cdef xmlNode* c_sibling
if c_node.parent and _isElement(c_node.parent):
return
# we are at a root node, so add PI and comment siblings
c_sibling = c_node.next
while not c_buffer.error and c_sibling and \
(c_sibling.type == tree.XML_PI_NODE or
c_sibling.type == tree.XML_COMMENT_NODE):
if pretty_print:
tree.xmlOutputBufferWriteString(c_buffer, "\n")
tree.xmlNodeDumpOutput(c_buffer, c_node.doc, c_sibling, 0,
pretty_print, encoding)
c_sibling = c_sibling.next
# copied and adapted from libxml2
cdef unsigned char *xmlSerializeHexCharRef(unsigned char *out, int val):
cdef xmlChar *ptr
cdef xmlChar c
out[0] = '&'
out += 1
out[0] = '#'
out += 1
out[0] = 'x'
out += 1
if val < 0x10:
ptr = out
elif val < 0x100:
ptr = out + 1
elif val < 0x1000:
ptr = out + 2
elif val < 0x10000:
ptr = out + 3
elif val < 0x100000:
ptr = out + 4
else:
ptr = out + 5
out = ptr + 1
while val > 0:
c = (val & 0xF)
if c == 0:
ptr[0] = '0'
elif c == 1:
ptr[0] = '1'
elif c == 2:
ptr[0] = '2'
elif c == 3:
ptr[0] = '3'
elif c == 4:
ptr[0] = '4'
elif c == 5:
ptr[0] = '5'
elif c == 6:
ptr[0] = '6'
elif c == 7:
ptr[0] = '7'
elif c == 8:
ptr[0] = '8'
elif c == 9:
ptr[0] = '9'
elif c == 0xA:
ptr[0] = 'A'
elif c == 0xB:
ptr[0] = 'B'
elif c == 0xC:
ptr[0] = 'C'
elif c == 0xD:
ptr[0] = 'D'
elif c == 0xE:
ptr[0] = 'E'
elif c == 0xF:
ptr[0] = 'F'
else:
ptr[0] = '0'
ptr -= 1
val >>= 4
out[0] = ';'
out += 1
out[0] = 0
return out
# copied and adapted from libxml2 (xmlBufAttrSerializeTxtContent())
cdef _write_attr_string(tree.xmlOutputBuffer* buf, const char *string):
cdef const char *base
cdef const char *cur
cdef const unsigned char *ucur
cdef unsigned char tmp[12]
cdef int val = 0
cdef int l
if string == NULL:
return
base = cur = <const char*>string
while cur[0] != 0:
if cur[0] == '\n':
if base != cur:
tree.xmlOutputBufferWrite(buf, cur - base, base)
tree.xmlOutputBufferWrite(buf, 5, " ")
cur += 1
base = cur
elif cur[0] == '\r':
if base != cur:
tree.xmlOutputBufferWrite(buf, cur - base, base)
tree.xmlOutputBufferWrite(buf, 5, " ")
cur += 1
base = cur
elif cur[0] == '\t':
if base != cur:
tree.xmlOutputBufferWrite(buf, cur - base, base)
tree.xmlOutputBufferWrite(buf, 4, "	")
cur += 1
base = cur
elif cur[0] == '"':
if base != cur:
tree.xmlOutputBufferWrite(buf, cur - base, base)
tree.xmlOutputBufferWrite(buf, 6, """)
cur += 1
base = cur
elif cur[0] == '<':
if base != cur:
tree.xmlOutputBufferWrite(buf, cur - base, base)
tree.xmlOutputBufferWrite(buf, 4, "<")
cur += 1
base = cur
elif cur[0] == '>':
if base != cur:
tree.xmlOutputBufferWrite(buf, cur - base, base)
tree.xmlOutputBufferWrite(buf, 4, ">")
cur += 1
base = cur
elif cur[0] == '&':
if base != cur:
tree.xmlOutputBufferWrite(buf, cur - base, base)
tree.xmlOutputBufferWrite(buf, 5, "&")
cur += 1
base = cur
elif (<const unsigned char>cur[0] >= 0x80) and (cur[1] != 0):
if base != cur:
tree.xmlOutputBufferWrite(buf, cur - base, base)
ucur = <const unsigned char *>cur
if ucur[0] < 0xC0:
# invalid UTF-8 sequence
val = ucur[0]
l = 1
elif ucur[0] < 0xE0:
val = (ucur[0]) & 0x1F
val <<= 6
val |= (ucur[1]) & 0x3F
l = 2
elif (ucur[0] < 0xF0) and (ucur[2] != 0):
val = (ucur[0]) & 0x0F
val <<= 6
val |= (ucur[1]) & 0x3F
val <<= 6
val |= (ucur[2]) & 0x3F
l = 3
elif (ucur[0] < 0xF8) and (ucur[2] != 0) and (ucur[3] != 0):
val = (ucur[0]) & 0x07
val <<= 6
val |= (ucur[1]) & 0x3F
val <<= 6
val |= (ucur[2]) & 0x3F
val <<= 6
val |= (ucur[3]) & 0x3F
l = 4
else:
# invalid UTF-8 sequence
val = ucur[0]
l = 1
if (l == 1) or (not tree.xmlIsCharQ(val)):
raise ValueError(f"Invalid character: {val:X}")
# We could do multiple things here. Just save
# as a char ref
xmlSerializeHexCharRef(tmp, val)
tree.xmlOutputBufferWrite(buf, len(tmp), <const char*> tmp)
cur += l
base = cur
else:
cur += 1
if base != cur:
tree.xmlOutputBufferWrite(buf, cur - base, base)
############################################################
# output to file-like objects
cdef object io_open
from io import open
cdef object gzip
import gzip
cdef object getwriter
from codecs import getwriter
cdef object utf8_writer = getwriter('utf8')
cdef object contextmanager
from contextlib import contextmanager
cdef object _open_utf8_file
@contextmanager
def _open_utf8_file(file, compression=0):
file = _getFSPathOrObject(file)
if _isString(file):
if compression:
with gzip.GzipFile(file, mode='wb', compresslevel=compression) as zf:
yield utf8_writer(zf)
else:
with io_open(file, 'w', encoding='utf8') as f:
yield f
else:
if compression:
with gzip.GzipFile(fileobj=file, mode='wb', compresslevel=compression) as zf:
yield utf8_writer(zf)
else:
yield utf8_writer(file)
@cython.final
@cython.internal
cdef class _FilelikeWriter:
cdef object _filelike
cdef object _close_filelike
cdef _ExceptionContext _exc_context
cdef _ErrorLog error_log
def __cinit__(self, filelike, exc_context=None, compression=None, close=False):
if compression is not None and compression > 0:
filelike = GzipFile(
fileobj=filelike, mode='wb', compresslevel=compression)
self._close_filelike = filelike.close
elif close:
self._close_filelike = filelike.close
self._filelike = filelike
if exc_context is None:
self._exc_context = _ExceptionContext()
else:
self._exc_context = exc_context
self.error_log = _ErrorLog()
cdef tree.xmlOutputBuffer* _createOutputBuffer(
self, tree.xmlCharEncodingHandler* enchandler) except NULL:
cdef tree.xmlOutputBuffer* c_buffer
c_buffer = tree.xmlOutputBufferCreateIO(
<tree.xmlOutputWriteCallback>_writeFilelikeWriter, _closeFilelikeWriter,
<python.PyObject*>self, enchandler)
if c_buffer is NULL:
raise IOError, u"Could not create I/O writer context."
return c_buffer
cdef int write(self, char* c_buffer, int size):
try:
if self._filelike is None:
raise IOError, u"File is already closed"
py_buffer = <bytes>c_buffer[:size]
self._filelike.write(py_buffer)
except:
size = -1
self._exc_context._store_raised()
finally:
return size # and swallow any further exceptions
cdef int close(self):
retval = 0
try:
if self._close_filelike is not None:
self._close_filelike()
# we should not close the file here as we didn't open it
self._filelike = None
except:
retval = -1
self._exc_context._store_raised()
finally:
return retval # and swallow any further exceptions
cdef int _writeFilelikeWriter(void* ctxt, char* c_buffer, int length):
return (<_FilelikeWriter>ctxt).write(c_buffer, length)
cdef int _closeFilelikeWriter(void* ctxt):
return (<_FilelikeWriter>ctxt).close()
cdef _tofilelike(f, _Element element, encoding, doctype, method,
bint write_xml_declaration, bint write_doctype,
bint pretty_print, bint with_tail, int standalone,
int compression):
cdef _FilelikeWriter writer = None
cdef tree.xmlOutputBuffer* c_buffer
cdef tree.xmlCharEncodingHandler* enchandler
cdef const_char* c_enc
cdef const_xmlChar* c_doctype
cdef int error_result
c_method = _findOutputMethod(method)
if c_method == OUTPUT_METHOD_TEXT:
data = _textToString(element._c_node, encoding, with_tail)
if compression:
bytes_out = BytesIO()
with GzipFile(fileobj=bytes_out, mode='wb', compresslevel=compression) as gzip_file:
gzip_file.write(data)
data = bytes_out.getvalue()
f = _getFSPathOrObject(f)
if _isString(f):
filename8 = _encodeFilename(f)
with open(filename8, 'wb') as f:
f.write(data)
else:
f.write(data)
return
if encoding is None:
c_enc = NULL
else:
encoding = _utf8(encoding)
c_enc = _cstr(encoding)
if doctype is None:
c_doctype = NULL
else:
doctype = _utf8(doctype)
c_doctype = _xcstr(doctype)
writer = _create_output_buffer(f, c_enc, compression, &c_buffer, close=False)
if writer is None:
with nogil:
error_result = _serialise_node(
c_buffer, c_doctype, c_enc, element._c_node, c_method,
write_xml_declaration, write_doctype, pretty_print, with_tail, standalone)
else:
error_result = _serialise_node(
c_buffer, c_doctype, c_enc, element._c_node, c_method,
write_xml_declaration, write_doctype, pretty_print, with_tail, standalone)
if writer is not None:
writer._exc_context._raise_if_stored()
if error_result != xmlerror.XML_ERR_OK:
_raiseSerialisationError(error_result)
cdef int _serialise_node(tree.xmlOutputBuffer* c_buffer, const_xmlChar* c_doctype,
const_char* c_enc, xmlNode* c_node, int c_method,
bint write_xml_declaration, bint write_doctype, bint pretty_print,
bint with_tail, int standalone) nogil:
_writeNodeToBuffer(
c_buffer, c_node, c_enc, c_doctype, c_method,
write_xml_declaration, write_doctype, pretty_print, with_tail, standalone)
error_result = c_buffer.error
if error_result == xmlerror.XML_ERR_OK:
error_result = tree.xmlOutputBufferClose(c_buffer)
if error_result != -1:
error_result = xmlerror.XML_ERR_OK
else:
tree.xmlOutputBufferClose(c_buffer)
return error_result
cdef _FilelikeWriter _create_output_buffer(
f, const_char* c_enc, int c_compression,
tree.xmlOutputBuffer** c_buffer_ret, bint close):
cdef tree.xmlOutputBuffer* c_buffer
cdef _FilelikeWriter writer
cdef bytes filename8
enchandler = tree.xmlFindCharEncodingHandler(c_enc)
if enchandler is NULL:
raise LookupError(
f"unknown encoding: '{c_enc.decode('UTF-8') if c_enc is not NULL else u''}'")
try:
f = _getFSPathOrObject(f)
if _isString(f):
filename8 = _encodeFilename(f)
if b'%' in filename8 and (
# Exclude absolute Windows paths and file:// URLs.
_isFilePath(<const xmlChar*>filename8) not in (NO_FILE_PATH, ABS_WIN_FILE_PATH)
or filename8[:7].lower() == b'file://'):
# A file path (not a URL) containing the '%' URL escape character.
# libxml2 uses URL-unescaping on these, so escape the path before passing it in.
filename8 = filename8.replace(b'%', b'%25')
c_buffer = tree.xmlOutputBufferCreateFilename(
_cstr(filename8), enchandler, c_compression)
if c_buffer is NULL:
python.PyErr_SetFromErrno(IOError) # raises IOError
writer = None
elif hasattr(f, 'write'):
writer = _FilelikeWriter(f, compression=c_compression, close=close)
c_buffer = writer._createOutputBuffer(enchandler)
else:
raise TypeError(
f"File or filename expected, got '{python._fqtypename(f).decode('UTF-8')}'")
except:
tree.xmlCharEncCloseFunc(enchandler)
raise
c_buffer_ret[0] = c_buffer
return writer
cdef xmlChar **_convert_ns_prefixes(tree.xmlDict* c_dict, ns_prefixes) except NULL:
cdef size_t i, num_ns_prefixes = len(ns_prefixes)
# Need to allocate one extra memory block to handle last NULL entry
c_ns_prefixes = <xmlChar **>python.lxml_malloc(num_ns_prefixes + 1, sizeof(xmlChar*))
if not c_ns_prefixes:
raise MemoryError()
i = 0
try:
for prefix in ns_prefixes:
prefix_utf = _utf8(prefix)
c_prefix = tree.xmlDictExists(c_dict, _xcstr(prefix_utf), len(prefix_utf))
if c_prefix:
# unknown prefixes do not need to get serialised
c_ns_prefixes[i] = <xmlChar*>c_prefix
i += 1
except:
python.lxml_free(c_ns_prefixes)
raise
c_ns_prefixes[i] = NULL # append end marker
return c_ns_prefixes
cdef _tofilelikeC14N(f, _Element element, bint exclusive, bint with_comments,
int compression, inclusive_ns_prefixes):
cdef _FilelikeWriter writer = None
cdef tree.xmlOutputBuffer* c_buffer
cdef xmlChar **c_inclusive_ns_prefixes = NULL
cdef char* c_filename
cdef xmlDoc* c_base_doc
cdef xmlDoc* c_doc
cdef int bytes_count, error = 0
c_base_doc = element._c_node.doc
c_doc = _fakeRootDoc(c_base_doc, element._c_node)
try:
c_inclusive_ns_prefixes = (
_convert_ns_prefixes(c_doc.dict, inclusive_ns_prefixes)
if inclusive_ns_prefixes else NULL)
f = _getFSPathOrObject(f)
if _isString(f):
filename8 = _encodeFilename(f)
c_filename = _cstr(filename8)
with nogil:
error = c14n.xmlC14NDocSave(
c_doc, NULL, exclusive, c_inclusive_ns_prefixes,
with_comments, c_filename, compression)
elif hasattr(f, 'write'):
writer = _FilelikeWriter(f, compression=compression)
c_buffer = writer._createOutputBuffer(NULL)
try:
with writer.error_log:
bytes_count = c14n.xmlC14NDocSaveTo(
c_doc, NULL, exclusive, c_inclusive_ns_prefixes,
with_comments, c_buffer)
finally:
error = tree.xmlOutputBufferClose(c_buffer)
if bytes_count < 0:
error = bytes_count
elif error != -1:
error = xmlerror.XML_ERR_OK
else:
raise TypeError(f"File or filename expected, got '{python._fqtypename(f).decode('UTF-8')}'")
finally:
_destroyFakeDoc(c_base_doc, c_doc)
if c_inclusive_ns_prefixes is not NULL:
python.lxml_free(c_inclusive_ns_prefixes)
if writer is not None:
writer._exc_context._raise_if_stored()
if error < 0:
message = u"C14N failed"
if writer is not None:
errors = writer.error_log
if len(errors):
message = errors[0].message
raise C14NError(message)
# C14N 2.0
def canonicalize(xml_data=None, *, out=None, from_file=None, **options):
"""Convert XML to its C14N 2.0 serialised form.
If *out* is provided, it must be a file or file-like object that receives
the serialised canonical XML output (text, not bytes) through its ``.write()``
method. To write to a file, open it in text mode with encoding "utf-8".
If *out* is not provided, this function returns the output as text string.
Either *xml_data* (an XML string, tree or Element) or *file*
(a file path or file-like object) must be provided as input.
The configuration options are the same as for the ``C14NWriterTarget``.
"""
if xml_data is None and from_file is None:
raise ValueError("Either 'xml_data' or 'from_file' must be provided as input")
sio = None
if out is None:
sio = out = StringIO()
target = C14NWriterTarget(out.write, **options)
if xml_data is not None and not isinstance(xml_data, basestring):
_tree_to_target(xml_data, target)
return sio.getvalue() if sio is not None else None
cdef _FeedParser parser = XMLParser(
target=target,
attribute_defaults=True,
collect_ids=False,
)
if xml_data is not None:
parser.feed(xml_data)
parser.close()
elif from_file is not None:
try:
_parseDocument(from_file, parser, base_url=None)
except _TargetParserResult:
pass
return sio.getvalue() if sio is not None else None
cdef _tree_to_target(element, target):
for event, elem in iterwalk(element, events=('start', 'end', 'start-ns', 'comment', 'pi')):
text = None
if event == 'start':
target.start(elem.tag, elem.attrib)
text = elem.text
elif event == 'end':
target.end(elem.tag)
text = elem.tail
elif event == 'start-ns':
target.start_ns(*elem)
continue
elif event == 'comment':
target.comment(elem.text)
text = elem.tail
elif event == 'pi':
target.pi(elem.target, elem.text)
text = elem.tail
if text:
target.data(text)
return target.close()
cdef object _looks_like_prefix_name = re.compile('^\w+:\w+$', re.UNICODE).match
cdef class C14NWriterTarget:
"""
Canonicalization writer target for the XMLParser.
Serialises parse events to XML C14N 2.0.
Configuration options:
- *with_comments*: set to true to include comments
- *strip_text*: set to true to strip whitespace before and after text content
- *rewrite_prefixes*: set to true to replace namespace prefixes by "n{number}"
- *qname_aware_tags*: a set of qname aware tag names in which prefixes
should be replaced in text content
- *qname_aware_attrs*: a set of qname aware attribute names in which prefixes
should be replaced in text content
- *exclude_attrs*: a set of attribute names that should not be serialised
- *exclude_tags*: a set of tag names that should not be serialised
"""
cdef object _write
cdef list _data
cdef set _qname_aware_tags
cdef object _find_qname_aware_attrs
cdef list _declared_ns_stack
cdef list _ns_stack
cdef dict _prefix_map
cdef list _preserve_space
cdef tuple _pending_start
cdef set _exclude_tags
cdef set _exclude_attrs
cdef Py_ssize_t _ignored_depth
cdef bint _with_comments
cdef bint _strip_text
cdef bint _rewrite_prefixes
cdef bint _root_seen
cdef bint _root_done
def __init__(self, write, *,
with_comments=False, strip_text=False, rewrite_prefixes=False,
qname_aware_tags=None, qname_aware_attrs=None,
exclude_attrs=None, exclude_tags=None):
self._write = write
self._data = []
self._with_comments = with_comments
self._strip_text = strip_text
self._exclude_attrs = set(exclude_attrs) if exclude_attrs else None
self._exclude_tags = set(exclude_tags) if exclude_tags else None
self._rewrite_prefixes = rewrite_prefixes
if qname_aware_tags:
self._qname_aware_tags = set(qname_aware_tags)
else:
self._qname_aware_tags = None
if qname_aware_attrs:
self._find_qname_aware_attrs = set(qname_aware_attrs).intersection
else:
self._find_qname_aware_attrs = None
# Stack with globally and newly declared namespaces as (uri, prefix) pairs.
self._declared_ns_stack = [[
("http://www.w3.org/XML/1998/namespace", "xml"),
]]
# Stack with user declared namespace prefixes as (uri, prefix) pairs.
self._ns_stack = []
if not rewrite_prefixes:
self._ns_stack.append(_DEFAULT_NAMESPACE_PREFIXES_ITEMS)
self._ns_stack.append([])
self._prefix_map = {}
self._preserve_space = [False]
self._pending_start = None
self._ignored_depth = 0
self._root_seen = False
self._root_done = False
def _iter_namespaces(self, ns_stack):
for namespaces in reversed(ns_stack):
if namespaces: # almost no element declares new namespaces
yield from namespaces
cdef _resolve_prefix_name(self, prefixed_name):
prefix, name = prefixed_name.split(':', 1)
for uri, p in self._iter_namespaces(self._ns_stack):
if p == prefix:
return f'{{{uri}}}{name}'
raise ValueError(f'Prefix {prefix} of QName "{prefixed_name}" is not declared in scope')
cdef _qname(self, qname, uri=None):
if uri is None:
uri, tag = qname[1:].rsplit('}', 1) if qname[:1] == '{' else ('', qname)
else:
tag = qname
prefixes_seen = set()
for u, prefix in self._iter_namespaces(self._declared_ns_stack):
if u == uri and prefix not in prefixes_seen:
return f'{prefix}:{tag}' if prefix else tag, tag, uri
prefixes_seen.add(prefix)
# Not declared yet => add new declaration.
if self._rewrite_prefixes:
if uri in self._prefix_map:
prefix = self._prefix_map[uri]
else:
prefix = self._prefix_map[uri] = f'n{len(self._prefix_map)}'
self._declared_ns_stack[-1].append((uri, prefix))
return f'{prefix}:{tag}', tag, uri
if not uri and '' not in prefixes_seen:
# No default namespace declared => no prefix needed.
return tag, tag, uri
for u, prefix in self._iter_namespaces(self._ns_stack):
if u == uri:
self._declared_ns_stack[-1].append((uri, prefix))
return f'{prefix}:{tag}' if prefix else tag, tag, uri
if not uri:
# As soon as a default namespace is defined,
# anything that has no namespace (and thus, no prefix) goes there.
return tag, tag, uri
raise ValueError(f'Namespace "{uri}" of name "{tag}" is not declared in scope')
def data(self, data):
if not self._ignored_depth:
self._data.append(data)
cdef _flush(self):
data = u''.join(self._data)
del self._data[:]
if self._strip_text and not self._preserve_space[-1]:
data = data.strip()
if self._pending_start is not None:
(tag, attrs, new_namespaces), self._pending_start = self._pending_start, None
qname_text = data if u':' in data and _looks_like_prefix_name(data) else None
self._start(tag, attrs, new_namespaces, qname_text)
if qname_text is not None:
return
if data and self._root_seen:
self._write(_escape_cdata_c14n(data))
def start_ns(self, prefix, uri):
if self._ignored_depth:
return
# we may have to resolve qnames in text content
if self._data:
self._flush()
self._ns_stack[-1].append((uri, prefix))
def start(self, tag, attrs):
if self._exclude_tags is not None and (
self._ignored_depth or tag in self._exclude_tags):
self._ignored_depth += 1
return
if self._data:
self._flush()
new_namespaces = []
self._declared_ns_stack.append(new_namespaces)
if self._qname_aware_tags is not None and tag in self._qname_aware_tags:
# Need to parse text first to see if it requires a prefix declaration.
self._pending_start = (tag, attrs, new_namespaces)
return
self._start(tag, attrs, new_namespaces)
cdef _start(self, tag, attrs, new_namespaces, qname_text=None):
if self._exclude_attrs is not None and attrs:
attrs = {k: v for k, v in attrs.items() if k not in self._exclude_attrs}
qnames = {tag, *attrs}
resolved_names = {}
# Resolve prefixes in attribute and tag text.
if qname_text is not None:
qname = resolved_names[qname_text] = self._resolve_prefix_name(qname_text)
qnames.add(qname)
if self._find_qname_aware_attrs is not None and attrs:
qattrs = self._find_qname_aware_attrs(attrs)
if qattrs:
for attr_name in qattrs:
value = attrs[attr_name]
if _looks_like_prefix_name(value):
qname = resolved_names[value] = self._resolve_prefix_name(value)
qnames.add(qname)
else:
qattrs = None
else:
qattrs = None
# Assign prefixes in lexicographical order of used URIs.
parsed_qnames = {n: self._qname(n) for n in sorted(
qnames, key=lambda n: n.split('}', 1))}
# Write namespace declarations in prefix order ...
if new_namespaces:
attr_list = [
(u'xmlns:' + prefix if prefix else u'xmlns', uri)
for uri, prefix in new_namespaces
]
attr_list.sort()
else:
# almost always empty
attr_list = []
# ... followed by attributes in URI+name order
if attrs:
for k, v in sorted(attrs.items()):
if qattrs is not None and k in qattrs and v in resolved_names:
v = parsed_qnames[resolved_names[v]][0]
attr_qname, attr_name, uri = parsed_qnames[k]
# No prefix for attributes in default ('') namespace.
attr_list.append((attr_qname if uri else attr_name, v))
# Honour xml:space attributes.
space_behaviour = attrs.get('{http://www.w3.org/XML/1998/namespace}space')
self._preserve_space.append(
space_behaviour == 'preserve' if space_behaviour
else self._preserve_space[-1])
# Write the tag.
write = self._write
write(u'<' + parsed_qnames[tag][0])
if attr_list:
write(u''.join([f' {k}="{_escape_attrib_c14n(v)}"' for k, v in attr_list]))
write(u'>')
# Write the resolved qname text content.
if qname_text is not None:
write(_escape_cdata_c14n(parsed_qnames[resolved_names[qname_text]][0]))
self._root_seen = True
self._ns_stack.append([])
def end(self, tag):
if self._ignored_depth:
self._ignored_depth -= 1
return
if self._data:
self._flush()
self._write(f'</{self._qname(tag)[0]}>')
self._preserve_space.pop()
self._root_done = len(self._preserve_space) == 1
self._declared_ns_stack.pop()
self._ns_stack.pop()
def comment(self, text):
if not self._with_comments:
return
if self._ignored_depth:
return
if self._root_done:
self._write(u'\n')
elif self._root_seen and self._data:
self._flush()
self._write(f'<!--{_escape_cdata_c14n(text)}-->')
if not self._root_seen:
self._write(u'\n')
def pi(self, target, data):
if self._ignored_depth:
return
if self._root_done:
self._write(u'\n')
elif self._root_seen and self._data:
self._flush()
self._write(
f'<?{target} {_escape_cdata_c14n(data)}?>' if data else f'<?{target}?>')
if not self._root_seen:
self._write(u'\n')
def close(self):
return None
cdef _raise_serialization_error(text):
raise TypeError("cannot serialize %r (type %s)" % (text, type(text).__name__))
cdef unicode _escape_cdata_c14n(stext):
# escape character data
cdef unicode text
try:
# it's worth avoiding do-nothing calls for strings that are
# shorter than 500 character, or so. assume that's, by far,
# the most common case in most applications.
text = unicode(stext)
if u'&' in text:
text = text.replace(u'&', u'&')
if u'<' in text:
text = text.replace(u'<', u'<')
if u'>' in text:
text = text.replace(u'>', u'>')
if u'\r' in text:
text = text.replace(u'\r', u'
')
return text
except (TypeError, AttributeError):
_raise_serialization_error(stext)
cdef unicode _escape_attrib_c14n(stext):
# escape attribute value
cdef unicode text
try:
text = unicode(stext)
if u'&' in text:
text = text.replace(u'&', u'&')
if u'<' in text:
text = text.replace(u'<', u'<')
if u'"' in text:
text = text.replace(u'"', u'"')
if u'\t' in text:
text = text.replace(u'\t', u'	')
if u'\n' in text:
text = text.replace(u'\n', u'
')
if u'\r' in text:
text = text.replace(u'\r', u'
')
return text
except (TypeError, AttributeError):
_raise_serialization_error(stext)
# incremental serialisation
cdef class xmlfile:
"""xmlfile(self, output_file, encoding=None, compression=None, close=False, buffered=True)
A simple mechanism for incremental XML serialisation.
Usage example::
with xmlfile("somefile.xml", encoding='utf-8') as xf:
xf.write_declaration(standalone=True)
xf.write_doctype('<!DOCTYPE root SYSTEM "some.dtd">')
# generate an element (the root element)
with xf.element('root'):
# write a complete Element into the open root element
xf.write(etree.Element('test'))
# generate and write more Elements, e.g. through iterparse
for element in generate_some_elements():
# serialise generated elements into the XML file
xf.write(element)
# or write multiple Elements or strings at once
xf.write(etree.Element('start'), "text", etree.Element('end'))
If 'output_file' is a file(-like) object, passing ``close=True`` will
close it when exiting the context manager. By default, it is left
to the owner to do that. When a file path is used, lxml will take care
of opening and closing the file itself. Also, when a compression level
is set, lxml will deliberately close the file to make sure all data gets
compressed and written.
Setting ``buffered=False`` will flush the output after each operation,
such as opening or closing an ``xf.element()`` block or calling
``xf.write()``. Alternatively, calling ``xf.flush()`` can be used to
explicitly flush any pending output when buffering is enabled.
"""
cdef object output_file
cdef bytes encoding
cdef _IncrementalFileWriter writer
cdef _AsyncIncrementalFileWriter async_writer
cdef int compresslevel
cdef bint close
cdef bint buffered
cdef int method
def __init__(self, output_file not None, encoding=None, compression=None,
close=False, buffered=True):
self.output_file = output_file
self.encoding = _utf8orNone(encoding)
self.compresslevel = compression or 0
self.close = close
self.buffered = buffered
self.method = OUTPUT_METHOD_XML
def __enter__(self):
assert self.output_file is not None
self.writer = _IncrementalFileWriter(
self.output_file, self.encoding, self.compresslevel,
self.close, self.buffered, self.method)
return self.writer
def __exit__(self, exc_type, exc_val, exc_tb):
if self.writer is not None:
old_writer, self.writer = self.writer, None
raise_on_error = exc_type is None
old_writer._close(raise_on_error)
if self.close:
self.output_file = None
async def __aenter__(self):
assert self.output_file is not None
if isinstance(self.output_file, basestring):
raise TypeError("Cannot asynchronously write to a plain file")
if not hasattr(self.output_file, 'write'):
raise TypeError("Output file needs an async .write() method")
self.async_writer = _AsyncIncrementalFileWriter(
self.output_file, self.encoding, self.compresslevel,
self.close, self.buffered, self.method)
return self.async_writer
async def __aexit__(self, exc_type, exc_val, exc_tb):
if self.async_writer is not None:
old_writer, self.async_writer = self.async_writer, None
raise_on_error = exc_type is None
await old_writer._close(raise_on_error)
if self.close:
self.output_file = None
cdef class htmlfile(xmlfile):
"""htmlfile(self, output_file, encoding=None, compression=None, close=False, buffered=True)
A simple mechanism for incremental HTML serialisation. Works the same as
xmlfile.
"""
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self.method = OUTPUT_METHOD_HTML
cdef enum _IncrementalFileWriterStatus:
WRITER_STARTING = 0
WRITER_DECL_WRITTEN = 1
WRITER_DTD_WRITTEN = 2
WRITER_IN_ELEMENT = 3
WRITER_FINISHED = 4
@cython.final
@cython.internal
cdef class _IncrementalFileWriter:
cdef tree.xmlOutputBuffer* _c_out
cdef bytes _encoding
cdef const_char* _c_encoding
cdef _FilelikeWriter _target
cdef list _element_stack
cdef int _status
cdef int _method
cdef bint _buffered
def __cinit__(self, outfile, bytes encoding, int compresslevel, bint close,
bint buffered, int method):
self._status = WRITER_STARTING
self._element_stack = []
if encoding is None:
encoding = b'ASCII'
self._encoding = encoding
self._c_encoding = _cstr(encoding) if encoding is not None else NULL
self._buffered = buffered
self._target = _create_output_buffer(
outfile, self._c_encoding, compresslevel, &self._c_out, close)
self._method = method
def __dealloc__(self):
if self._c_out is not NULL:
tree.xmlOutputBufferClose(self._c_out)
def write_declaration(self, version=None, standalone=None, doctype=None):
"""write_declaration(self, version=None, standalone=None, doctype=None)
Write an XML declaration and (optionally) a doctype into the file.
"""
assert self._c_out is not NULL
cdef const_xmlChar* c_version
cdef int c_standalone
if self._method != OUTPUT_METHOD_XML:
raise LxmlSyntaxError("only XML documents have declarations")
if self._status >= WRITER_DECL_WRITTEN:
raise LxmlSyntaxError("XML declaration already written")
version = _utf8orNone(version)
c_version = _xcstr(version) if version is not None else NULL
doctype = _utf8orNone(doctype)
if standalone is None:
c_standalone = -1
else:
c_standalone = 1 if standalone else 0
_writeDeclarationToBuffer(self._c_out, c_version, self._c_encoding, c_standalone)
if doctype is not None:
_writeDoctype(self._c_out, _xcstr(doctype))
self._status = WRITER_DTD_WRITTEN
else:
self._status = WRITER_DECL_WRITTEN
if not self._buffered:
tree.xmlOutputBufferFlush(self._c_out)
self._handle_error(self._c_out.error)
def write_doctype(self, doctype):
"""write_doctype(self, doctype)
Writes the given doctype declaration verbatimly into the file.
"""
assert self._c_out is not NULL
if doctype is None:
return
if self._status >= WRITER_DTD_WRITTEN:
raise LxmlSyntaxError("DOCTYPE already written or cannot write it here")
doctype = _utf8(doctype)
_writeDoctype(self._c_out, _xcstr(doctype))
self._status = WRITER_DTD_WRITTEN
if not self._buffered:
tree.xmlOutputBufferFlush(self._c_out)
self._handle_error(self._c_out.error)
def method(self, method):
"""method(self, method)
Returns a context manager that overrides and restores the output method.
method is one of (None, 'xml', 'html') where None means 'xml'.
"""
assert self._c_out is not NULL
c_method = self._method if method is None else _findOutputMethod(method)
return _MethodChanger(self, c_method)
def element(self, tag, attrib=None, nsmap=None, method=None, **_extra):
"""element(self, tag, attrib=None, nsmap=None, method, **_extra)
Returns a context manager that writes an opening and closing tag.
method is one of (None, 'xml', 'html') where None means 'xml'.
"""
assert self._c_out is not NULL
attributes = []
if attrib is not None:
for name, value in _iter_attrib(attrib):
if name not in _extra:
ns, name = _getNsTag(name)
attributes.append((ns, name, _utf8(value)))
if _extra:
for name, value in _extra.iteritems():
ns, name = _getNsTag(name)
attributes.append((ns, name, _utf8(value)))
reversed_nsmap = {}
if nsmap:
for prefix, ns in nsmap.items():
if prefix is not None:
prefix = _utf8(prefix)
_prefixValidOrRaise(prefix)
reversed_nsmap[_utf8(ns)] = prefix
ns, name = _getNsTag(tag)
c_method = self._method if method is None else _findOutputMethod(method)
return _FileWriterElement(self, (ns, name, attributes, reversed_nsmap), c_method)
cdef _write_qname(self, bytes name, bytes prefix):
if prefix: # empty bytes for no prefix (not None to allow sorting)
tree.xmlOutputBufferWrite(self._c_out, len(prefix), _cstr(prefix))
tree.xmlOutputBufferWrite(self._c_out, 1, ':')
tree.xmlOutputBufferWrite(self._c_out, len(name), _cstr(name))
cdef _write_start_element(self, element_config):
if self._status > WRITER_IN_ELEMENT:
raise LxmlSyntaxError("cannot append trailing element to complete XML document")
ns, name, attributes, nsmap = element_config
flat_namespace_map, new_namespaces = self._collect_namespaces(nsmap)
prefix = self._find_prefix(ns, flat_namespace_map, new_namespaces)
tree.xmlOutputBufferWrite(self._c_out, 1, '<')
self._write_qname(name, prefix)
self._write_attributes_and_namespaces(
attributes, flat_namespace_map, new_namespaces)
tree.xmlOutputBufferWrite(self._c_out, 1, '>')
if not self._buffered:
tree.xmlOutputBufferFlush(self._c_out)
self._handle_error(self._c_out.error)
self._element_stack.append((ns, name, prefix, flat_namespace_map))
self._status = WRITER_IN_ELEMENT
cdef _write_attributes_and_namespaces(self, list attributes,
dict flat_namespace_map,
list new_namespaces):
if attributes:
# _find_prefix() may append to new_namespaces => build them first
attributes = [
(self._find_prefix(ns, flat_namespace_map, new_namespaces), name, value)
for ns, name, value in attributes ]
if new_namespaces:
new_namespaces.sort()
self._write_attributes_list(new_namespaces)
if attributes:
self._write_attributes_list(attributes)
cdef _write_attributes_list(self, list attributes):
for prefix, name, value in attributes:
tree.xmlOutputBufferWrite(self._c_out, 1, ' ')
self._write_qname(name, prefix)
tree.xmlOutputBufferWrite(self._c_out, 2, '="')
_write_attr_string(self._c_out, _cstr(value))
tree.xmlOutputBufferWrite(self._c_out, 1, '"')
cdef _write_end_element(self, element_config):
if self._status != WRITER_IN_ELEMENT:
raise LxmlSyntaxError("not in an element")
if not self._element_stack or self._element_stack[-1][:2] != element_config[:2]:
raise LxmlSyntaxError("inconsistent exit action in context manager")
# If previous write operations failed, the context manager exit might still call us.
# That is ok, but we stop writing closing tags and handling errors in that case.
# For all non-I/O errors, we continue writing closing tags if we can.
ok_to_write = self._c_out.error == xmlerror.XML_ERR_OK
name, prefix = self._element_stack.pop()[1:3]
if ok_to_write:
tree.xmlOutputBufferWrite(self._c_out, 2, '</')
self._write_qname(name, prefix)
tree.xmlOutputBufferWrite(self._c_out, 1, '>')
if not self._element_stack:
self._status = WRITER_FINISHED
if ok_to_write:
if not self._buffered:
tree.xmlOutputBufferFlush(self._c_out)
self._handle_error(self._c_out.error)
cdef _find_prefix(self, bytes href, dict flat_namespaces_map, list new_namespaces):
if href is None:
return None
if href in flat_namespaces_map:
return flat_namespaces_map[href]
# need to create a new prefix
prefixes = flat_namespaces_map.values()
i = 0
while True:
prefix = _utf8('ns%d' % i)
if prefix not in prefixes:
new_namespaces.append((b'xmlns', prefix, href))
flat_namespaces_map[href] = prefix
return prefix
i += 1
cdef _collect_namespaces(self, dict nsmap):
new_namespaces = []
flat_namespaces_map = {}
for ns, prefix in nsmap.iteritems():
flat_namespaces_map[ns] = prefix
if prefix is None:
# use empty bytes rather than None to allow sorting
new_namespaces.append((b'', b'xmlns', ns))
else:
new_namespaces.append((b'xmlns', prefix, ns))
# merge in flat namespace map of parent
if self._element_stack:
for ns, prefix in (<dict>self._element_stack[-1][-1]).iteritems():
if flat_namespaces_map.get(ns) is None:
# unknown or empty prefix => prefer a 'real' prefix
flat_namespaces_map[ns] = prefix
return flat_namespaces_map, new_namespaces
def write(self, *args, bint with_tail=True, bint pretty_print=False, method=None):
"""write(self, *args, with_tail=True, pretty_print=False, method=None)
Write subtrees or strings into the file.
If method is not None, it should be one of ('html', 'xml', 'text')
to temporarily override the output method.
"""
assert self._c_out is not NULL
c_method = self._method if method is None else _findOutputMethod(method)
for content in args:
if _isString(content):
if self._status != WRITER_IN_ELEMENT:
if self._status > WRITER_IN_ELEMENT or content.strip():
raise LxmlSyntaxError("not in an element")
bstring = _utf8(content)
if not bstring:
continue
ns, name, _, _ = self._element_stack[-1]
if (c_method == OUTPUT_METHOD_HTML and
ns in (None, b'http://www.w3.org/1999/xhtml') and
name in (b'script', b'style')):
tree.xmlOutputBufferWrite(self._c_out, len(bstring), _cstr(bstring))
else:
tree.xmlOutputBufferWriteEscape(self._c_out, _xcstr(bstring), NULL)
elif iselement(content):
if self._status > WRITER_IN_ELEMENT:
raise LxmlSyntaxError("cannot append trailing element to complete XML document")
_writeNodeToBuffer(self._c_out, (<_Element>content)._c_node,
self._c_encoding, NULL, c_method,
False, False, pretty_print, with_tail, False)
if (<_Element>content)._c_node.type == tree.XML_ELEMENT_NODE:
if not self._element_stack:
self._status = WRITER_FINISHED
elif content is not None:
raise TypeError(
f"got invalid input value of type {type(content)}, expected string or Element")
self._handle_error(self._c_out.error)
if not self._buffered:
tree.xmlOutputBufferFlush(self._c_out)
self._handle_error(self._c_out.error)
def flush(self):
"""flush(self)
Write any pending content of the current output buffer to the stream.
"""
assert self._c_out is not NULL
tree.xmlOutputBufferFlush(self._c_out)
self._handle_error(self._c_out.error)
cdef _close(self, bint raise_on_error):
if raise_on_error:
if self._status < WRITER_IN_ELEMENT:
raise LxmlSyntaxError("no content written")
if self._element_stack:
raise LxmlSyntaxError("pending open tags on close")
error_result = self._c_out.error
if error_result == xmlerror.XML_ERR_OK:
error_result = tree.xmlOutputBufferClose(self._c_out)
if error_result != -1:
error_result = xmlerror.XML_ERR_OK
else:
tree.xmlOutputBufferClose(self._c_out)
self._status = WRITER_FINISHED
self._c_out = NULL
del self._element_stack[:]
if raise_on_error:
self._handle_error(error_result)
cdef _handle_error(self, int error_result):
if error_result != xmlerror.XML_ERR_OK:
if self._target is not None:
self._target._exc_context._raise_if_stored()
_raiseSerialisationError(error_result)
@cython.final
@cython.internal
cdef class _AsyncDataWriter:
cdef list _data
def __cinit__(self):
self._data = []
cdef bytes collect(self):
data = b''.join(self._data)
del self._data[:]
return data
def write(self, data):
self._data.append(data)
def close(self):
pass
@cython.final
@cython.internal
cdef class _AsyncIncrementalFileWriter:
cdef _IncrementalFileWriter _writer
cdef _AsyncDataWriter _buffer
cdef object _async_outfile
cdef int _flush_after_writes
cdef bint _should_close
cdef bint _buffered
def __cinit__(self, async_outfile, bytes encoding, int compresslevel, bint close,
bint buffered, int method):
self._flush_after_writes = 20
self._async_outfile = async_outfile
self._should_close = close
self._buffered = buffered
self._buffer = _AsyncDataWriter()
self._writer = _IncrementalFileWriter(
self._buffer, encoding, compresslevel, close=True, buffered=False, method=method)
cdef bytes _flush(self):
if not self._buffered or len(self._buffer._data) > self._flush_after_writes:
return self._buffer.collect()
return None
async def flush(self):
self._writer.flush()
data = self._buffer.collect()
if data:
await self._async_outfile.write(data)
async def write_declaration(self, version=None, standalone=None, doctype=None):
self._writer.write_declaration(version, standalone, doctype)
data = self._flush()
if data:
await self._async_outfile.write(data)
async def write_doctype(self, doctype):
self._writer.write_doctype(doctype)
data = self._flush()
if data:
await self._async_outfile.write(data)
async def write(self, *args, with_tail=True, pretty_print=False, method=None):
self._writer.write(*args, with_tail=with_tail, pretty_print=pretty_print, method=method)
data = self._flush()
if data:
await self._async_outfile.write(data)
def method(self, method):
return self._writer.method(method)
def element(self, tag, attrib=None, nsmap=None, method=None, **_extra):
element_writer = self._writer.element(tag, attrib, nsmap, method, **_extra)
return _AsyncFileWriterElement(element_writer, self)
async def _close(self, bint raise_on_error):
self._writer._close(raise_on_error)
data = self._buffer.collect()
if data:
await self._async_outfile.write(data)
if self._should_close:
await self._async_outfile.close()
@cython.final
@cython.internal
cdef class _AsyncFileWriterElement:
cdef _FileWriterElement _element_writer
cdef _AsyncIncrementalFileWriter _writer
def __cinit__(self, _FileWriterElement element_writer not None,
_AsyncIncrementalFileWriter writer not None):
self._element_writer = element_writer
self._writer = writer
async def __aenter__(self):
self._element_writer.__enter__()
data = self._writer._flush()
if data:
await self._writer._async_outfile.write(data)
async def __aexit__(self, *args):
self._element_writer.__exit__(*args)
data = self._writer._flush()
if data:
await self._writer._async_outfile.write(data)
@cython.final
@cython.internal
@cython.freelist(8)
cdef class _FileWriterElement:
cdef _IncrementalFileWriter _writer
cdef object _element
cdef int _new_method
cdef int _old_method
def __cinit__(self, _IncrementalFileWriter writer not None, element_config, int method):
self._writer = writer
self._element = element_config
self._new_method = method
self._old_method = writer._method
def __enter__(self):
self._writer._method = self._new_method
self._writer._write_start_element(self._element)
def __exit__(self, exc_type, exc_val, exc_tb):
self._writer._write_end_element(self._element)
self._writer._method = self._old_method
@cython.final
@cython.internal
@cython.freelist(8)
cdef class _MethodChanger:
cdef _IncrementalFileWriter _writer
cdef int _new_method
cdef int _old_method
cdef bint _entered
cdef bint _exited
def __cinit__(self, _IncrementalFileWriter writer not None, int method):
self._writer = writer
self._new_method = method
self._old_method = writer._method
self._entered = False
self._exited = False
def __enter__(self):
if self._entered:
raise LxmlSyntaxError("Inconsistent enter action in context manager")
self._writer._method = self._new_method
self._entered = True
def __exit__(self, exc_type, exc_val, exc_tb):
if self._exited:
raise LxmlSyntaxError("Inconsistent exit action in context manager")
if self._writer._method != self._new_method:
raise LxmlSyntaxError("Method changed outside of context manager")
self._writer._method = self._old_method
self._exited = True
async def __aenter__(self):
# for your async convenience
return self.__enter__()
async def __aexit__(self, *args):
# for your async convenience
return self.__exit__(*args)
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