fr/fr_env/lib/python3.8/site-packages/pandas/io/html.py

1102 lines
34 KiB
Python

"""
:mod:`pandas.io.html` is a module containing functionality for dealing with
HTML IO.
"""
from collections import abc
import numbers
import os
import re
from typing import Dict, List, Optional, Pattern, Sequence, Tuple, Union
from pandas._typing import FilePathOrBuffer
from pandas.compat._optional import import_optional_dependency
from pandas.errors import AbstractMethodError, EmptyDataError
from pandas.util._decorators import deprecate_nonkeyword_arguments
from pandas.core.dtypes.common import is_list_like
from pandas.core.construction import create_series_with_explicit_dtype
from pandas.core.frame import DataFrame
from pandas.io.common import is_url, stringify_path, urlopen, validate_header_arg
from pandas.io.formats.printing import pprint_thing
from pandas.io.parsers import TextParser
_IMPORTS = False
_HAS_BS4 = False
_HAS_LXML = False
_HAS_HTML5LIB = False
def _importers():
# import things we need
# but make this done on a first use basis
global _IMPORTS
if _IMPORTS:
return
global _HAS_BS4, _HAS_LXML, _HAS_HTML5LIB
bs4 = import_optional_dependency("bs4", raise_on_missing=False, on_version="ignore")
_HAS_BS4 = bs4 is not None
lxml = import_optional_dependency(
"lxml.etree", raise_on_missing=False, on_version="ignore"
)
_HAS_LXML = lxml is not None
html5lib = import_optional_dependency(
"html5lib", raise_on_missing=False, on_version="ignore"
)
_HAS_HTML5LIB = html5lib is not None
_IMPORTS = True
#############
# READ HTML #
#############
_RE_WHITESPACE = re.compile(r"[\r\n]+|\s{2,}")
def _remove_whitespace(s: str, regex=_RE_WHITESPACE) -> str:
"""
Replace extra whitespace inside of a string with a single space.
Parameters
----------
s : str or unicode
The string from which to remove extra whitespace.
regex : re.Pattern
The regular expression to use to remove extra whitespace.
Returns
-------
subd : str or unicode
`s` with all extra whitespace replaced with a single space.
"""
return regex.sub(" ", s.strip())
def _get_skiprows(skiprows):
"""
Get an iterator given an integer, slice or container.
Parameters
----------
skiprows : int, slice, container
The iterator to use to skip rows; can also be a slice.
Raises
------
TypeError
* If `skiprows` is not a slice, integer, or Container
Returns
-------
it : iterable
A proper iterator to use to skip rows of a DataFrame.
"""
if isinstance(skiprows, slice):
start, step = skiprows.start or 0, skiprows.step or 1
return list(range(start, skiprows.stop, step))
elif isinstance(skiprows, numbers.Integral) or is_list_like(skiprows):
return skiprows
elif skiprows is None:
return 0
raise TypeError(f"{type(skiprows).__name__} is not a valid type for skipping rows")
def _read(obj):
"""
Try to read from a url, file or string.
Parameters
----------
obj : str, unicode, or file-like
Returns
-------
raw_text : str
"""
if is_url(obj):
with urlopen(obj) as url:
text = url.read()
elif hasattr(obj, "read"):
text = obj.read()
elif isinstance(obj, (str, bytes)):
text = obj
try:
if os.path.isfile(text):
with open(text, "rb") as f:
return f.read()
except (TypeError, ValueError):
pass
else:
raise TypeError(f"Cannot read object of type '{type(obj).__name__}'")
return text
class _HtmlFrameParser:
"""
Base class for parsers that parse HTML into DataFrames.
Parameters
----------
io : str or file-like
This can be either a string of raw HTML, a valid URL using the HTTP,
FTP, or FILE protocols or a file-like object.
match : str or regex
The text to match in the document.
attrs : dict
List of HTML <table> element attributes to match.
encoding : str
Encoding to be used by parser
displayed_only : bool
Whether or not items with "display:none" should be ignored
Attributes
----------
io : str or file-like
raw HTML, URL, or file-like object
match : regex
The text to match in the raw HTML
attrs : dict-like
A dictionary of valid table attributes to use to search for table
elements.
encoding : str
Encoding to be used by parser
displayed_only : bool
Whether or not items with "display:none" should be ignored
Notes
-----
To subclass this class effectively you must override the following methods:
* :func:`_build_doc`
* :func:`_attr_getter`
* :func:`_text_getter`
* :func:`_parse_td`
* :func:`_parse_thead_tr`
* :func:`_parse_tbody_tr`
* :func:`_parse_tfoot_tr`
* :func:`_parse_tables`
* :func:`_equals_tag`
See each method's respective documentation for details on their
functionality.
"""
def __init__(self, io, match, attrs, encoding, displayed_only):
self.io = io
self.match = match
self.attrs = attrs
self.encoding = encoding
self.displayed_only = displayed_only
def parse_tables(self):
"""
Parse and return all tables from the DOM.
Returns
-------
list of parsed (header, body, footer) tuples from tables.
"""
tables = self._parse_tables(self._build_doc(), self.match, self.attrs)
return (self._parse_thead_tbody_tfoot(table) for table in tables)
def _attr_getter(self, obj, attr):
"""
Return the attribute value of an individual DOM node.
Parameters
----------
obj : node-like
A DOM node.
attr : str or unicode
The attribute, such as "colspan"
Returns
-------
str or unicode
The attribute value.
"""
# Both lxml and BeautifulSoup have the same implementation:
return obj.get(attr)
def _text_getter(self, obj):
"""
Return the text of an individual DOM node.
Parameters
----------
obj : node-like
A DOM node.
Returns
-------
text : str or unicode
The text from an individual DOM node.
"""
raise AbstractMethodError(self)
def _parse_td(self, obj):
"""
Return the td elements from a row element.
Parameters
----------
obj : node-like
A DOM <tr> node.
Returns
-------
list of node-like
These are the elements of each row, i.e., the columns.
"""
raise AbstractMethodError(self)
def _parse_thead_tr(self, table):
"""
Return the list of thead row elements from the parsed table element.
Parameters
----------
table : a table element that contains zero or more thead elements.
Returns
-------
list of node-like
These are the <tr> row elements of a table.
"""
raise AbstractMethodError(self)
def _parse_tbody_tr(self, table):
"""
Return the list of tbody row elements from the parsed table element.
HTML5 table bodies consist of either 0 or more <tbody> elements (which
only contain <tr> elements) or 0 or more <tr> elements. This method
checks for both structures.
Parameters
----------
table : a table element that contains row elements.
Returns
-------
list of node-like
These are the <tr> row elements of a table.
"""
raise AbstractMethodError(self)
def _parse_tfoot_tr(self, table):
"""
Return the list of tfoot row elements from the parsed table element.
Parameters
----------
table : a table element that contains row elements.
Returns
-------
list of node-like
These are the <tr> row elements of a table.
"""
raise AbstractMethodError(self)
def _parse_tables(self, doc, match, attrs):
"""
Return all tables from the parsed DOM.
Parameters
----------
doc : the DOM from which to parse the table element.
match : str or regular expression
The text to search for in the DOM tree.
attrs : dict
A dictionary of table attributes that can be used to disambiguate
multiple tables on a page.
Raises
------
ValueError : `match` does not match any text in the document.
Returns
-------
list of node-like
HTML <table> elements to be parsed into raw data.
"""
raise AbstractMethodError(self)
def _equals_tag(self, obj, tag):
"""
Return whether an individual DOM node matches a tag
Parameters
----------
obj : node-like
A DOM node.
tag : str
Tag name to be checked for equality.
Returns
-------
boolean
Whether `obj`'s tag name is `tag`
"""
raise AbstractMethodError(self)
def _build_doc(self):
"""
Return a tree-like object that can be used to iterate over the DOM.
Returns
-------
node-like
The DOM from which to parse the table element.
"""
raise AbstractMethodError(self)
def _parse_thead_tbody_tfoot(self, table_html):
"""
Given a table, return parsed header, body, and foot.
Parameters
----------
table_html : node-like
Returns
-------
tuple of (header, body, footer), each a list of list-of-text rows.
Notes
-----
Header and body are lists-of-lists. Top level list is a list of
rows. Each row is a list of str text.
Logic: Use <thead>, <tbody>, <tfoot> elements to identify
header, body, and footer, otherwise:
- Put all rows into body
- Move rows from top of body to header only if
all elements inside row are <th>
- Move rows from bottom of body to footer only if
all elements inside row are <th>
"""
header_rows = self._parse_thead_tr(table_html)
body_rows = self._parse_tbody_tr(table_html)
footer_rows = self._parse_tfoot_tr(table_html)
def row_is_all_th(row):
return all(self._equals_tag(t, "th") for t in self._parse_td(row))
if not header_rows:
# The table has no <thead>. Move the top all-<th> rows from
# body_rows to header_rows. (This is a common case because many
# tables in the wild have no <thead> or <tfoot>
while body_rows and row_is_all_th(body_rows[0]):
header_rows.append(body_rows.pop(0))
header = self._expand_colspan_rowspan(header_rows)
body = self._expand_colspan_rowspan(body_rows)
footer = self._expand_colspan_rowspan(footer_rows)
return header, body, footer
def _expand_colspan_rowspan(self, rows):
"""
Given a list of <tr>s, return a list of text rows.
Parameters
----------
rows : list of node-like
List of <tr>s
Returns
-------
list of list
Each returned row is a list of str text.
Notes
-----
Any cell with ``rowspan`` or ``colspan`` will have its contents copied
to subsequent cells.
"""
all_texts = [] # list of rows, each a list of str
remainder: List[Tuple[int, str, int]] = [] # list of (index, text, nrows)
for tr in rows:
texts = [] # the output for this row
next_remainder = []
index = 0
tds = self._parse_td(tr)
for td in tds:
# Append texts from previous rows with rowspan>1 that come
# before this <td>
while remainder and remainder[0][0] <= index:
prev_i, prev_text, prev_rowspan = remainder.pop(0)
texts.append(prev_text)
if prev_rowspan > 1:
next_remainder.append((prev_i, prev_text, prev_rowspan - 1))
index += 1
# Append the text from this <td>, colspan times
text = _remove_whitespace(self._text_getter(td))
rowspan = int(self._attr_getter(td, "rowspan") or 1)
colspan = int(self._attr_getter(td, "colspan") or 1)
for _ in range(colspan):
texts.append(text)
if rowspan > 1:
next_remainder.append((index, text, rowspan - 1))
index += 1
# Append texts from previous rows at the final position
for prev_i, prev_text, prev_rowspan in remainder:
texts.append(prev_text)
if prev_rowspan > 1:
next_remainder.append((prev_i, prev_text, prev_rowspan - 1))
all_texts.append(texts)
remainder = next_remainder
# Append rows that only appear because the previous row had non-1
# rowspan
while remainder:
next_remainder = []
texts = []
for prev_i, prev_text, prev_rowspan in remainder:
texts.append(prev_text)
if prev_rowspan > 1:
next_remainder.append((prev_i, prev_text, prev_rowspan - 1))
all_texts.append(texts)
remainder = next_remainder
return all_texts
def _handle_hidden_tables(self, tbl_list, attr_name):
"""
Return list of tables, potentially removing hidden elements
Parameters
----------
tbl_list : list of node-like
Type of list elements will vary depending upon parser used
attr_name : str
Name of the accessor for retrieving HTML attributes
Returns
-------
list of node-like
Return type matches `tbl_list`
"""
if not self.displayed_only:
return tbl_list
return [
x
for x in tbl_list
if "display:none"
not in getattr(x, attr_name).get("style", "").replace(" ", "")
]
class _BeautifulSoupHtml5LibFrameParser(_HtmlFrameParser):
"""
HTML to DataFrame parser that uses BeautifulSoup under the hood.
See Also
--------
pandas.io.html._HtmlFrameParser
pandas.io.html._LxmlFrameParser
Notes
-----
Documentation strings for this class are in the base class
:class:`pandas.io.html._HtmlFrameParser`.
"""
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
from bs4 import SoupStrainer
self._strainer = SoupStrainer("table")
def _parse_tables(self, doc, match, attrs):
element_name = self._strainer.name
tables = doc.find_all(element_name, attrs=attrs)
if not tables:
raise ValueError("No tables found")
result = []
unique_tables = set()
tables = self._handle_hidden_tables(tables, "attrs")
for table in tables:
if self.displayed_only:
for elem in table.find_all(style=re.compile(r"display:\s*none")):
elem.decompose()
if table not in unique_tables and table.find(text=match) is not None:
result.append(table)
unique_tables.add(table)
if not result:
raise ValueError(f"No tables found matching pattern {repr(match.pattern)}")
return result
def _text_getter(self, obj):
return obj.text
def _equals_tag(self, obj, tag):
return obj.name == tag
def _parse_td(self, row):
return row.find_all(("td", "th"), recursive=False)
def _parse_thead_tr(self, table):
return table.select("thead tr")
def _parse_tbody_tr(self, table):
from_tbody = table.select("tbody tr")
from_root = table.find_all("tr", recursive=False)
# HTML spec: at most one of these lists has content
return from_tbody + from_root
def _parse_tfoot_tr(self, table):
return table.select("tfoot tr")
def _setup_build_doc(self):
raw_text = _read(self.io)
if not raw_text:
raise ValueError(f"No text parsed from document: {self.io}")
return raw_text
def _build_doc(self):
from bs4 import BeautifulSoup
bdoc = self._setup_build_doc()
if isinstance(bdoc, bytes) and self.encoding is not None:
udoc = bdoc.decode(self.encoding)
from_encoding = None
else:
udoc = bdoc
from_encoding = self.encoding
return BeautifulSoup(udoc, features="html5lib", from_encoding=from_encoding)
def _build_xpath_expr(attrs) -> str:
"""
Build an xpath expression to simulate bs4's ability to pass in kwargs to
search for attributes when using the lxml parser.
Parameters
----------
attrs : dict
A dict of HTML attributes. These are NOT checked for validity.
Returns
-------
expr : unicode
An XPath expression that checks for the given HTML attributes.
"""
# give class attribute as class_ because class is a python keyword
if "class_" in attrs:
attrs["class"] = attrs.pop("class_")
s = " and ".join([f"@{k}={repr(v)}" for k, v in attrs.items()])
return f"[{s}]"
_re_namespace = {"re": "http://exslt.org/regular-expressions"}
_valid_schemes = "http", "file", "ftp"
class _LxmlFrameParser(_HtmlFrameParser):
"""
HTML to DataFrame parser that uses lxml under the hood.
Warning
-------
This parser can only handle HTTP, FTP, and FILE urls.
See Also
--------
_HtmlFrameParser
_BeautifulSoupLxmlFrameParser
Notes
-----
Documentation strings for this class are in the base class
:class:`_HtmlFrameParser`.
"""
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
def _text_getter(self, obj):
return obj.text_content()
def _parse_td(self, row):
# Look for direct children only: the "row" element here may be a
# <thead> or <tfoot> (see _parse_thead_tr).
return row.xpath("./td|./th")
def _parse_tables(self, doc, match, kwargs):
pattern = match.pattern
# 1. check all descendants for the given pattern and only search tables
# 2. go up the tree until we find a table
xpath_expr = f"//table//*[re:test(text(), {repr(pattern)})]/ancestor::table"
# if any table attributes were given build an xpath expression to
# search for them
if kwargs:
xpath_expr += _build_xpath_expr(kwargs)
tables = doc.xpath(xpath_expr, namespaces=_re_namespace)
tables = self._handle_hidden_tables(tables, "attrib")
if self.displayed_only:
for table in tables:
# lxml utilizes XPATH 1.0 which does not have regex
# support. As a result, we find all elements with a style
# attribute and iterate them to check for display:none
for elem in table.xpath(".//*[@style]"):
if "display:none" in elem.attrib.get("style", "").replace(" ", ""):
elem.getparent().remove(elem)
if not tables:
raise ValueError(f"No tables found matching regex {repr(pattern)}")
return tables
def _equals_tag(self, obj, tag):
return obj.tag == tag
def _build_doc(self):
"""
Raises
------
ValueError
* If a URL that lxml cannot parse is passed.
Exception
* Any other ``Exception`` thrown. For example, trying to parse a
URL that is syntactically correct on a machine with no internet
connection will fail.
See Also
--------
pandas.io.html._HtmlFrameParser._build_doc
"""
from lxml.etree import XMLSyntaxError
from lxml.html import HTMLParser, fromstring, parse
parser = HTMLParser(recover=True, encoding=self.encoding)
try:
if is_url(self.io):
with urlopen(self.io) as f:
r = parse(f, parser=parser)
else:
# try to parse the input in the simplest way
r = parse(self.io, parser=parser)
try:
r = r.getroot()
except AttributeError:
pass
except (UnicodeDecodeError, OSError) as e:
# if the input is a blob of html goop
if not is_url(self.io):
r = fromstring(self.io, parser=parser)
try:
r = r.getroot()
except AttributeError:
pass
else:
raise e
else:
if not hasattr(r, "text_content"):
raise XMLSyntaxError("no text parsed from document", 0, 0, 0)
return r
def _parse_thead_tr(self, table):
rows = []
for thead in table.xpath(".//thead"):
rows.extend(thead.xpath("./tr"))
# HACK: lxml does not clean up the clearly-erroneous
# <thead><th>foo</th><th>bar</th></thead>. (Missing <tr>). Add
# the <thead> and _pretend_ it's a <tr>; _parse_td() will find its
# children as though it's a <tr>.
#
# Better solution would be to use html5lib.
elements_at_root = thead.xpath("./td|./th")
if elements_at_root:
rows.append(thead)
return rows
def _parse_tbody_tr(self, table):
from_tbody = table.xpath(".//tbody//tr")
from_root = table.xpath("./tr")
# HTML spec: at most one of these lists has content
return from_tbody + from_root
def _parse_tfoot_tr(self, table):
return table.xpath(".//tfoot//tr")
def _expand_elements(body):
data = [len(elem) for elem in body]
lens = create_series_with_explicit_dtype(data, dtype_if_empty=object)
lens_max = lens.max()
not_max = lens[lens != lens_max]
empty = [""]
for ind, length in not_max.items():
body[ind] += empty * (lens_max - length)
def _data_to_frame(**kwargs):
head, body, foot = kwargs.pop("data")
header = kwargs.pop("header")
kwargs["skiprows"] = _get_skiprows(kwargs["skiprows"])
if head:
body = head + body
# Infer header when there is a <thead> or top <th>-only rows
if header is None:
if len(head) == 1:
header = 0
else:
# ignore all-empty-text rows
header = [i for i, row in enumerate(head) if any(text for text in row)]
if foot:
body += foot
# fill out elements of body that are "ragged"
_expand_elements(body)
with TextParser(body, header=header, **kwargs) as tp:
return tp.read()
_valid_parsers = {
"lxml": _LxmlFrameParser,
None: _LxmlFrameParser,
"html5lib": _BeautifulSoupHtml5LibFrameParser,
"bs4": _BeautifulSoupHtml5LibFrameParser,
}
def _parser_dispatch(flavor):
"""
Choose the parser based on the input flavor.
Parameters
----------
flavor : str
The type of parser to use. This must be a valid backend.
Returns
-------
cls : _HtmlFrameParser subclass
The parser class based on the requested input flavor.
Raises
------
ValueError
* If `flavor` is not a valid backend.
ImportError
* If you do not have the requested `flavor`
"""
valid_parsers = list(_valid_parsers.keys())
if flavor not in valid_parsers:
raise ValueError(
f"{repr(flavor)} is not a valid flavor, valid flavors are {valid_parsers}"
)
if flavor in ("bs4", "html5lib"):
if not _HAS_HTML5LIB:
raise ImportError("html5lib not found, please install it")
if not _HAS_BS4:
raise ImportError("BeautifulSoup4 (bs4) not found, please install it")
# Although we call this above, we want to raise here right before use.
bs4 = import_optional_dependency("bs4") # noqa:F841
else:
if not _HAS_LXML:
raise ImportError("lxml not found, please install it")
return _valid_parsers[flavor]
def _print_as_set(s) -> str:
arg = ", ".join(pprint_thing(el) for el in s)
return f"{{{arg}}}"
def _validate_flavor(flavor):
if flavor is None:
flavor = "lxml", "bs4"
elif isinstance(flavor, str):
flavor = (flavor,)
elif isinstance(flavor, abc.Iterable):
if not all(isinstance(flav, str) for flav in flavor):
raise TypeError(
f"Object of type {repr(type(flavor).__name__)} "
f"is not an iterable of strings"
)
else:
msg = repr(flavor) if isinstance(flavor, str) else str(flavor)
msg += " is not a valid flavor"
raise ValueError(msg)
flavor = tuple(flavor)
valid_flavors = set(_valid_parsers)
flavor_set = set(flavor)
if not flavor_set & valid_flavors:
raise ValueError(
f"{_print_as_set(flavor_set)} is not a valid set of flavors, valid "
f"flavors are {_print_as_set(valid_flavors)}"
)
return flavor
def _parse(flavor, io, match, attrs, encoding, displayed_only, **kwargs):
flavor = _validate_flavor(flavor)
compiled_match = re.compile(match) # you can pass a compiled regex here
retained = None
for flav in flavor:
parser = _parser_dispatch(flav)
p = parser(io, compiled_match, attrs, encoding, displayed_only)
try:
tables = p.parse_tables()
except ValueError as caught:
# if `io` is an io-like object, check if it's seekable
# and try to rewind it before trying the next parser
if hasattr(io, "seekable") and io.seekable():
io.seek(0)
elif hasattr(io, "seekable") and not io.seekable():
# if we couldn't rewind it, let the user know
raise ValueError(
f"The flavor {flav} failed to parse your input. "
"Since you passed a non-rewindable file "
"object, we can't rewind it to try "
"another parser. Try read_html() with a different flavor."
) from caught
retained = caught
else:
break
else:
assert retained is not None # for mypy
raise retained
ret = []
for table in tables:
try:
ret.append(_data_to_frame(data=table, **kwargs))
except EmptyDataError: # empty table
continue
return ret
@deprecate_nonkeyword_arguments(version="2.0")
def read_html(
io: FilePathOrBuffer,
match: Union[str, Pattern] = ".+",
flavor: Optional[str] = None,
header: Optional[Union[int, Sequence[int]]] = None,
index_col: Optional[Union[int, Sequence[int]]] = None,
skiprows: Optional[Union[int, Sequence[int], slice]] = None,
attrs: Optional[Dict[str, str]] = None,
parse_dates: bool = False,
thousands: Optional[str] = ",",
encoding: Optional[str] = None,
decimal: str = ".",
converters: Optional[Dict] = None,
na_values=None,
keep_default_na: bool = True,
displayed_only: bool = True,
) -> List[DataFrame]:
r"""
Read HTML tables into a ``list`` of ``DataFrame`` objects.
Parameters
----------
io : str, path object or file-like object
A URL, a file-like object, or a raw string containing HTML. Note that
lxml only accepts the http, ftp and file url protocols. If you have a
URL that starts with ``'https'`` you might try removing the ``'s'``.
match : str or compiled regular expression, optional
The set of tables containing text matching this regex or string will be
returned. Unless the HTML is extremely simple you will probably need to
pass a non-empty string here. Defaults to '.+' (match any non-empty
string). The default value will return all tables contained on a page.
This value is converted to a regular expression so that there is
consistent behavior between Beautiful Soup and lxml.
flavor : str, optional
The parsing engine to use. 'bs4' and 'html5lib' are synonymous with
each other, they are both there for backwards compatibility. The
default of ``None`` tries to use ``lxml`` to parse and if that fails it
falls back on ``bs4`` + ``html5lib``.
header : int or list-like, optional
The row (or list of rows for a :class:`~pandas.MultiIndex`) to use to
make the columns headers.
index_col : int or list-like, optional
The column (or list of columns) to use to create the index.
skiprows : int, list-like or slice, optional
Number of rows to skip after parsing the column integer. 0-based. If a
sequence of integers or a slice is given, will skip the rows indexed by
that sequence. Note that a single element sequence means 'skip the nth
row' whereas an integer means 'skip n rows'.
attrs : dict, optional
This is a dictionary of attributes that you can pass to use to identify
the table in the HTML. These are not checked for validity before being
passed to lxml or Beautiful Soup. However, these attributes must be
valid HTML table attributes to work correctly. For example, ::
attrs = {'id': 'table'}
is a valid attribute dictionary because the 'id' HTML tag attribute is
a valid HTML attribute for *any* HTML tag as per `this document
<https://html.spec.whatwg.org/multipage/dom.html#global-attributes>`__. ::
attrs = {'asdf': 'table'}
is *not* a valid attribute dictionary because 'asdf' is not a valid
HTML attribute even if it is a valid XML attribute. Valid HTML 4.01
table attributes can be found `here
<http://www.w3.org/TR/REC-html40/struct/tables.html#h-11.2>`__. A
working draft of the HTML 5 spec can be found `here
<https://html.spec.whatwg.org/multipage/tables.html>`__. It contains the
latest information on table attributes for the modern web.
parse_dates : bool, optional
See :func:`~read_csv` for more details.
thousands : str, optional
Separator to use to parse thousands. Defaults to ``','``.
encoding : str, optional
The encoding used to decode the web page. Defaults to ``None``.``None``
preserves the previous encoding behavior, which depends on the
underlying parser library (e.g., the parser library will try to use
the encoding provided by the document).
decimal : str, default '.'
Character to recognize as decimal point (e.g. use ',' for European
data).
converters : dict, default None
Dict of functions for converting values in certain columns. Keys can
either be integers or column labels, values are functions that take one
input argument, the cell (not column) content, and return the
transformed content.
na_values : iterable, default None
Custom NA values.
keep_default_na : bool, default True
If na_values are specified and keep_default_na is False the default NaN
values are overridden, otherwise they're appended to.
displayed_only : bool, default True
Whether elements with "display: none" should be parsed.
Returns
-------
dfs
A list of DataFrames.
See Also
--------
read_csv : Read a comma-separated values (csv) file into DataFrame.
Notes
-----
Before using this function you should read the :ref:`gotchas about the
HTML parsing libraries <io.html.gotchas>`.
Expect to do some cleanup after you call this function. For example, you
might need to manually assign column names if the column names are
converted to NaN when you pass the `header=0` argument. We try to assume as
little as possible about the structure of the table and push the
idiosyncrasies of the HTML contained in the table to the user.
This function searches for ``<table>`` elements and only for ``<tr>``
and ``<th>`` rows and ``<td>`` elements within each ``<tr>`` or ``<th>``
element in the table. ``<td>`` stands for "table data". This function
attempts to properly handle ``colspan`` and ``rowspan`` attributes.
If the function has a ``<thead>`` argument, it is used to construct
the header, otherwise the function attempts to find the header within
the body (by putting rows with only ``<th>`` elements into the header).
Similar to :func:`~read_csv` the `header` argument is applied
**after** `skiprows` is applied.
This function will *always* return a list of :class:`DataFrame` *or*
it will fail, e.g., it will *not* return an empty list.
Examples
--------
See the :ref:`read_html documentation in the IO section of the docs
<io.read_html>` for some examples of reading in HTML tables.
"""
_importers()
# Type check here. We don't want to parse only to fail because of an
# invalid value of an integer skiprows.
if isinstance(skiprows, numbers.Integral) and skiprows < 0:
raise ValueError(
"cannot skip rows starting from the end of the "
"data (you passed a negative value)"
)
validate_header_arg(header)
io = stringify_path(io)
return _parse(
flavor=flavor,
io=io,
match=match,
header=header,
index_col=index_col,
skiprows=skiprows,
parse_dates=parse_dates,
thousands=thousands,
attrs=attrs,
encoding=encoding,
decimal=decimal,
converters=converters,
na_values=na_values,
keep_default_na=keep_default_na,
displayed_only=displayed_only,
)