""" :mod:`pandas.io.formats.xml` is a module for formatting data in XML. """ from __future__ import annotations import codecs import io from typing import ( TYPE_CHECKING, Any, ) from pandas._typing import ( CompressionOptions, FilePath, ReadBuffer, StorageOptions, WriteBuffer, ) from pandas.errors import AbstractMethodError from pandas.util._decorators import doc from pandas.core.dtypes.common import is_list_like from pandas.core.dtypes.missing import isna from pandas.core.shared_docs import _shared_docs from pandas.io.common import get_handle from pandas.io.xml import ( get_data_from_filepath, preprocess_data, ) if TYPE_CHECKING: from pandas import DataFrame @doc( storage_options=_shared_docs["storage_options"], compression_options=_shared_docs["compression_options"] % "path_or_buffer", ) class BaseXMLFormatter: """ Subclass for formatting data in XML. Parameters ---------- path_or_buffer : str or file-like This can be either a string of raw XML, a valid URL, file or file-like object. index : bool Whether to include index in xml document. row_name : str Name for root of xml document. Default is 'data'. root_name : str Name for row elements of xml document. Default is 'row'. na_rep : str Missing data representation. attrs_cols : list List of columns to write as attributes in row element. elem_cols : list List of columns to write as children in row element. namespaces : dict The namespaces to define in XML document as dicts with key being namespace and value the URI. prefix : str The prefix for each element in XML document including root. encoding : str Encoding of xml object or document. xml_declaration : bool Whether to include xml declaration at top line item in xml. pretty_print : bool Whether to write xml document with line breaks and indentation. stylesheet : str or file-like A URL, file, file-like object, or a raw string containing XSLT. {compression_options} .. versionchanged:: 1.4.0 Zstandard support. {storage_options} See also -------- pandas.io.formats.xml.EtreeXMLFormatter pandas.io.formats.xml.LxmlXMLFormatter """ def __init__( self, frame: DataFrame, path_or_buffer: FilePath | WriteBuffer[bytes] | WriteBuffer[str] | None = None, index: bool = True, root_name: str | None = "data", row_name: str | None = "row", na_rep: str | None = None, attr_cols: list[str] | None = None, elem_cols: list[str] | None = None, namespaces: dict[str | None, str] | None = None, prefix: str | None = None, encoding: str = "utf-8", xml_declaration: bool | None = True, pretty_print: bool | None = True, stylesheet: FilePath | ReadBuffer[str] | ReadBuffer[bytes] | None = None, compression: CompressionOptions = "infer", storage_options: StorageOptions = None, ) -> None: self.frame = frame self.path_or_buffer = path_or_buffer self.index = index self.root_name = root_name self.row_name = row_name self.na_rep = na_rep self.attr_cols = attr_cols self.elem_cols = elem_cols self.namespaces = namespaces self.prefix = prefix self.encoding = encoding self.xml_declaration = xml_declaration self.pretty_print = pretty_print self.stylesheet = stylesheet self.compression = compression self.storage_options = storage_options self.orig_cols = self.frame.columns.tolist() self.frame_dicts = self.process_dataframe() self.validate_columns() self.validate_encoding() self.prefix_uri = self.get_prefix_uri() self.handle_indexes() def build_tree(self) -> bytes: """ Build tree from data. This method initializes the root and builds attributes and elements with optional namespaces. """ raise AbstractMethodError(self) def validate_columns(self) -> None: """ Validate elems_cols and attrs_cols. This method will check if columns is list-like. Raises ------ ValueError * If value is not a list and less then length of nodes. """ if self.attr_cols and not is_list_like(self.attr_cols): raise TypeError( f"{type(self.attr_cols).__name__} is not a valid type for attr_cols" ) if self.elem_cols and not is_list_like(self.elem_cols): raise TypeError( f"{type(self.elem_cols).__name__} is not a valid type for elem_cols" ) def validate_encoding(self) -> None: """ Validate encoding. This method will check if encoding is among listed under codecs. Raises ------ LookupError * If encoding is not available in codecs. """ codecs.lookup(self.encoding) def process_dataframe(self) -> dict[int | str, dict[str, Any]]: """ Adjust Data Frame to fit xml output. This method will adjust underlying data frame for xml output, including optionally replacing missing values and including indexes. """ df = self.frame if self.index: df = df.reset_index() if self.na_rep is not None: df = df.fillna(self.na_rep) return df.to_dict(orient="index") def handle_indexes(self) -> None: """ Handle indexes. This method will add indexes into attr_cols or elem_cols. """ if not self.index: return first_key = next(iter(self.frame_dicts)) indexes: list[str] = [ x for x in self.frame_dicts[first_key].keys() if x not in self.orig_cols ] if self.attr_cols: self.attr_cols = indexes + self.attr_cols if self.elem_cols: self.elem_cols = indexes + self.elem_cols def get_prefix_uri(self) -> str: """ Get uri of namespace prefix. This method retrieves corresponding URI to prefix in namespaces. Raises ------ KeyError *If prefix is not included in namespace dict. """ raise AbstractMethodError(self) def other_namespaces(self) -> dict: """ Define other namespaces. This method will build dictionary of namespaces attributes for root element, conditionally with optional namespaces and prefix. """ nmsp_dict: dict[str, str] = {} if self.namespaces and self.prefix is None: nmsp_dict = {"xmlns": n for p, n in self.namespaces.items() if p != ""} if self.namespaces and self.prefix: nmsp_dict = {"xmlns": n for p, n in self.namespaces.items() if p == ""} return nmsp_dict def build_attribs(self, d: dict[str, Any], elem_row: Any) -> Any: """ Create attributes of row. This method adds attributes using attr_cols to row element and works with tuples for multindex or hierarchical columns. """ if not self.attr_cols: return elem_row for col in self.attr_cols: attr_name = self._get_flat_col_name(col) try: if not isna(d[col]): elem_row.attrib[attr_name] = str(d[col]) except KeyError: raise KeyError(f"no valid column, {col}") return elem_row def _get_flat_col_name(self, col: str | tuple) -> str: flat_col = col if isinstance(col, tuple): flat_col = ( "".join([str(c) for c in col]).strip() if "" in col else "_".join([str(c) for c in col]).strip() ) return f"{self.prefix_uri}{flat_col}" def build_elems(self, d: dict[str, Any], elem_row: Any) -> None: """ Create child elements of row. This method adds child elements using elem_cols to row element and works with tuples for multindex or hierarchical columns. """ raise AbstractMethodError(self) def _build_elems(self, sub_element_cls, d: dict[str, Any], elem_row: Any) -> None: if not self.elem_cols: return for col in self.elem_cols: elem_name = self._get_flat_col_name(col) try: val = None if isna(d[col]) or d[col] == "" else str(d[col]) sub_element_cls(elem_row, elem_name).text = val except KeyError: raise KeyError(f"no valid column, {col}") def write_output(self) -> str | None: xml_doc = self.build_tree() if self.path_or_buffer is not None: with get_handle( self.path_or_buffer, "wb", compression=self.compression, storage_options=self.storage_options, is_text=False, ) as handles: handles.handle.write(xml_doc) return None else: return xml_doc.decode(self.encoding).rstrip() class EtreeXMLFormatter(BaseXMLFormatter): """ Class for formatting data in xml using Python standard library modules: `xml.etree.ElementTree` and `xml.dom.minidom`. """ def build_tree(self) -> bytes: from xml.etree.ElementTree import ( Element, SubElement, tostring, ) self.root = Element( f"{self.prefix_uri}{self.root_name}", attrib=self.other_namespaces() ) for d in self.frame_dicts.values(): elem_row = SubElement(self.root, f"{self.prefix_uri}{self.row_name}") if not self.attr_cols and not self.elem_cols: self.elem_cols = list(d.keys()) self.build_elems(d, elem_row) else: elem_row = self.build_attribs(d, elem_row) self.build_elems(d, elem_row) self.out_xml = tostring(self.root, method="xml", encoding=self.encoding) if self.pretty_print: self.out_xml = self.prettify_tree() if self.xml_declaration: self.out_xml = self.add_declaration() else: self.out_xml = self.remove_declaration() if self.stylesheet is not None: raise ValueError( "To use stylesheet, you need lxml installed and selected as parser." ) return self.out_xml def get_prefix_uri(self) -> str: from xml.etree.ElementTree import register_namespace uri = "" if self.namespaces: for p, n in self.namespaces.items(): if isinstance(p, str) and isinstance(n, str): register_namespace(p, n) if self.prefix: try: uri = f"{{{self.namespaces[self.prefix]}}}" except KeyError: raise KeyError(f"{self.prefix} is not included in namespaces") else: uri = f'{{{self.namespaces[""]}}}' return uri def build_elems(self, d: dict[str, Any], elem_row: Any) -> None: from xml.etree.ElementTree import SubElement self._build_elems(SubElement, d, elem_row) def prettify_tree(self) -> bytes: """ Output tree for pretty print format. This method will pretty print xml with line breaks and indentation. """ from xml.dom.minidom import parseString dom = parseString(self.out_xml) return dom.toprettyxml(indent=" ", encoding=self.encoding) def add_declaration(self) -> bytes: """ Add xml declaration. This method will add xml declaration of working tree. Currently, xml_declaration is supported in etree starting in Python 3.8. """ decl = f'\n' doc = ( self.out_xml if self.out_xml.startswith(b" bytes: """ Remove xml declaration. This method will remove xml declaration of working tree. Currently, pretty_print is not supported in etree. """ return self.out_xml.split(b"?>")[-1].strip() class LxmlXMLFormatter(BaseXMLFormatter): """ Class for formatting data in xml using Python standard library modules: `xml.etree.ElementTree` and `xml.dom.minidom`. """ def __init__(self, *args, **kwargs) -> None: super().__init__(*args, **kwargs) self.convert_empty_str_key() def build_tree(self) -> bytes: """ Build tree from data. This method initializes the root and builds attributes and elements with optional namespaces. """ from lxml.etree import ( Element, SubElement, tostring, ) self.root = Element(f"{self.prefix_uri}{self.root_name}", nsmap=self.namespaces) for d in self.frame_dicts.values(): elem_row = SubElement(self.root, f"{self.prefix_uri}{self.row_name}") if not self.attr_cols and not self.elem_cols: self.elem_cols = list(d.keys()) self.build_elems(d, elem_row) else: elem_row = self.build_attribs(d, elem_row) self.build_elems(d, elem_row) self.out_xml = tostring( self.root, pretty_print=self.pretty_print, method="xml", encoding=self.encoding, xml_declaration=self.xml_declaration, ) if self.stylesheet is not None: self.out_xml = self.transform_doc() return self.out_xml def convert_empty_str_key(self) -> None: """ Replace zero-length string in `namespaces`. This method will replace '' with None to align to `lxml` requirement that empty string prefixes are not allowed. """ if self.namespaces and "" in self.namespaces.keys(): self.namespaces[None] = self.namespaces.pop("", "default") def get_prefix_uri(self) -> str: uri = "" if self.namespaces: if self.prefix: try: uri = f"{{{self.namespaces[self.prefix]}}}" except KeyError: raise KeyError(f"{self.prefix} is not included in namespaces") else: uri = f'{{{self.namespaces[""]}}}' return uri def build_elems(self, d: dict[str, Any], elem_row: Any) -> None: from lxml.etree import SubElement self._build_elems(SubElement, d, elem_row) def transform_doc(self) -> bytes: """ Parse stylesheet from file or buffer and run it. This method will parse stylesheet object into tree for parsing conditionally by its specific object type, then transforms original tree with XSLT script. """ from lxml.etree import ( XSLT, XMLParser, fromstring, parse, ) style_doc = self.stylesheet assert style_doc is not None # is ensured by caller handle_data = get_data_from_filepath( filepath_or_buffer=style_doc, encoding=self.encoding, compression=self.compression, storage_options=self.storage_options, ) with preprocess_data(handle_data) as xml_data: curr_parser = XMLParser(encoding=self.encoding) if isinstance(xml_data, io.StringIO): xsl_doc = fromstring( xml_data.getvalue().encode(self.encoding), parser=curr_parser ) else: xsl_doc = parse(xml_data, parser=curr_parser) transformer = XSLT(xsl_doc) new_doc = transformer(self.root) return bytes(new_doc)