AIM-PIbd-32-Kurbanova-A-A/aimenv/Lib/site-packages/scipy/_lib/_docscrape.py
2024-10-02 22:15:59 +04:00

680 lines
21 KiB
Python

"""Extract reference documentation from the NumPy source tree.
"""
# copied from numpydoc/docscrape.py
import inspect
import textwrap
import re
import pydoc
from warnings import warn
from collections import namedtuple
from collections.abc import Callable, Mapping
import copy
import sys
def strip_blank_lines(l):
"Remove leading and trailing blank lines from a list of lines"
while l and not l[0].strip():
del l[0]
while l and not l[-1].strip():
del l[-1]
return l
class Reader:
"""A line-based string reader.
"""
def __init__(self, data):
"""
Parameters
----------
data : str
String with lines separated by '\\n'.
"""
if isinstance(data, list):
self._str = data
else:
self._str = data.split('\n') # store string as list of lines
self.reset()
def __getitem__(self, n):
return self._str[n]
def reset(self):
self._l = 0 # current line nr
def read(self):
if not self.eof():
out = self[self._l]
self._l += 1
return out
else:
return ''
def seek_next_non_empty_line(self):
for l in self[self._l:]:
if l.strip():
break
else:
self._l += 1
def eof(self):
return self._l >= len(self._str)
def read_to_condition(self, condition_func):
start = self._l
for line in self[start:]:
if condition_func(line):
return self[start:self._l]
self._l += 1
if self.eof():
return self[start:self._l+1]
return []
def read_to_next_empty_line(self):
self.seek_next_non_empty_line()
def is_empty(line):
return not line.strip()
return self.read_to_condition(is_empty)
def read_to_next_unindented_line(self):
def is_unindented(line):
return (line.strip() and (len(line.lstrip()) == len(line)))
return self.read_to_condition(is_unindented)
def peek(self, n=0):
if self._l + n < len(self._str):
return self[self._l + n]
else:
return ''
def is_empty(self):
return not ''.join(self._str).strip()
class ParseError(Exception):
def __str__(self):
message = self.args[0]
if hasattr(self, 'docstring'):
message = f"{message} in {self.docstring!r}"
return message
Parameter = namedtuple('Parameter', ['name', 'type', 'desc'])
class NumpyDocString(Mapping):
"""Parses a numpydoc string to an abstract representation
Instances define a mapping from section title to structured data.
"""
sections = {
'Signature': '',
'Summary': [''],
'Extended Summary': [],
'Parameters': [],
'Returns': [],
'Yields': [],
'Receives': [],
'Raises': [],
'Warns': [],
'Other Parameters': [],
'Attributes': [],
'Methods': [],
'See Also': [],
'Notes': [],
'Warnings': [],
'References': '',
'Examples': '',
'index': {}
}
def __init__(self, docstring, config={}):
orig_docstring = docstring
docstring = textwrap.dedent(docstring).split('\n')
self._doc = Reader(docstring)
self._parsed_data = copy.deepcopy(self.sections)
try:
self._parse()
except ParseError as e:
e.docstring = orig_docstring
raise
def __getitem__(self, key):
return self._parsed_data[key]
def __setitem__(self, key, val):
if key not in self._parsed_data:
self._error_location("Unknown section %s" % key, error=False)
else:
self._parsed_data[key] = val
def __iter__(self):
return iter(self._parsed_data)
def __len__(self):
return len(self._parsed_data)
def _is_at_section(self):
self._doc.seek_next_non_empty_line()
if self._doc.eof():
return False
l1 = self._doc.peek().strip() # e.g. Parameters
if l1.startswith('.. index::'):
return True
l2 = self._doc.peek(1).strip() # ---------- or ==========
return l2.startswith('-'*len(l1)) or l2.startswith('='*len(l1))
def _strip(self, doc):
i = 0
j = 0
for i, line in enumerate(doc):
if line.strip():
break
for j, line in enumerate(doc[::-1]):
if line.strip():
break
return doc[i:len(doc)-j]
def _read_to_next_section(self):
section = self._doc.read_to_next_empty_line()
while not self._is_at_section() and not self._doc.eof():
if not self._doc.peek(-1).strip(): # previous line was empty
section += ['']
section += self._doc.read_to_next_empty_line()
return section
def _read_sections(self):
while not self._doc.eof():
data = self._read_to_next_section()
name = data[0].strip()
if name.startswith('..'): # index section
yield name, data[1:]
elif len(data) < 2:
yield StopIteration
else:
yield name, self._strip(data[2:])
def _parse_param_list(self, content, single_element_is_type=False):
r = Reader(content)
params = []
while not r.eof():
header = r.read().strip()
if ' : ' in header:
arg_name, arg_type = header.split(' : ')[:2]
else:
if single_element_is_type:
arg_name, arg_type = '', header
else:
arg_name, arg_type = header, ''
desc = r.read_to_next_unindented_line()
desc = dedent_lines(desc)
desc = strip_blank_lines(desc)
params.append(Parameter(arg_name, arg_type, desc))
return params
# See also supports the following formats.
#
# <FUNCNAME>
# <FUNCNAME> SPACE* COLON SPACE+ <DESC> SPACE*
# <FUNCNAME> ( COMMA SPACE+ <FUNCNAME>)+ (COMMA | PERIOD)? SPACE*
# <FUNCNAME> ( COMMA SPACE+ <FUNCNAME>)* SPACE* COLON SPACE+ <DESC> SPACE*
# <FUNCNAME> is one of
# <PLAIN_FUNCNAME>
# COLON <ROLE> COLON BACKTICK <PLAIN_FUNCNAME> BACKTICK
# where
# <PLAIN_FUNCNAME> is a legal function name, and
# <ROLE> is any nonempty sequence of word characters.
# Examples: func_f1 :meth:`func_h1` :obj:`~baz.obj_r` :class:`class_j`
# <DESC> is a string describing the function.
_role = r":(?P<role>\w+):"
_funcbacktick = r"`(?P<name>(?:~\w+\.)?[a-zA-Z0-9_\.-]+)`"
_funcplain = r"(?P<name2>[a-zA-Z0-9_\.-]+)"
_funcname = r"(" + _role + _funcbacktick + r"|" + _funcplain + r")"
_funcnamenext = _funcname.replace('role', 'rolenext')
_funcnamenext = _funcnamenext.replace('name', 'namenext')
_description = r"(?P<description>\s*:(\s+(?P<desc>\S+.*))?)?\s*$"
_func_rgx = re.compile(r"^\s*" + _funcname + r"\s*")
_line_rgx = re.compile(
r"^\s*" +
r"(?P<allfuncs>" + # group for all function names
_funcname +
r"(?P<morefuncs>([,]\s+" + _funcnamenext + r")*)" +
r")" + # end of "allfuncs"
# Some function lists have a trailing comma (or period) '\s*'
r"(?P<trailing>[,\.])?" +
_description)
# Empty <DESC> elements are replaced with '..'
empty_description = '..'
def _parse_see_also(self, content):
"""
func_name : Descriptive text
continued text
another_func_name : Descriptive text
func_name1, func_name2, :meth:`func_name`, func_name3
"""
items = []
def parse_item_name(text):
"""Match ':role:`name`' or 'name'."""
m = self._func_rgx.match(text)
if not m:
raise ParseError("%s is not a item name" % text)
role = m.group('role')
name = m.group('name') if role else m.group('name2')
return name, role, m.end()
rest = []
for line in content:
if not line.strip():
continue
line_match = self._line_rgx.match(line)
description = None
if line_match:
description = line_match.group('desc')
if line_match.group('trailing') and description:
self._error_location(
'Unexpected comma or period after function list at '
'index %d of line "%s"' % (line_match.end('trailing'),
line),
error=False)
if not description and line.startswith(' '):
rest.append(line.strip())
elif line_match:
funcs = []
text = line_match.group('allfuncs')
while True:
if not text.strip():
break
name, role, match_end = parse_item_name(text)
funcs.append((name, role))
text = text[match_end:].strip()
if text and text[0] == ',':
text = text[1:].strip()
rest = list(filter(None, [description]))
items.append((funcs, rest))
else:
raise ParseError("%s is not a item name" % line)
return items
def _parse_index(self, section, content):
"""
.. index:: default
:refguide: something, else, and more
"""
def strip_each_in(lst):
return [s.strip() for s in lst]
out = {}
section = section.split('::')
if len(section) > 1:
out['default'] = strip_each_in(section[1].split(','))[0]
for line in content:
line = line.split(':')
if len(line) > 2:
out[line[1]] = strip_each_in(line[2].split(','))
return out
def _parse_summary(self):
"""Grab signature (if given) and summary"""
if self._is_at_section():
return
# If several signatures present, take the last one
while True:
summary = self._doc.read_to_next_empty_line()
summary_str = " ".join([s.strip() for s in summary]).strip()
compiled = re.compile(r'^([\w., ]+=)?\s*[\w\.]+\(.*\)$')
if compiled.match(summary_str):
self['Signature'] = summary_str
if not self._is_at_section():
continue
break
if summary is not None:
self['Summary'] = summary
if not self._is_at_section():
self['Extended Summary'] = self._read_to_next_section()
def _parse(self):
self._doc.reset()
self._parse_summary()
sections = list(self._read_sections())
section_names = {section for section, content in sections}
has_returns = 'Returns' in section_names
has_yields = 'Yields' in section_names
# We could do more tests, but we are not. Arbitrarily.
if has_returns and has_yields:
msg = 'Docstring contains both a Returns and Yields section.'
raise ValueError(msg)
if not has_yields and 'Receives' in section_names:
msg = 'Docstring contains a Receives section but not Yields.'
raise ValueError(msg)
for (section, content) in sections:
if not section.startswith('..'):
section = (s.capitalize() for s in section.split(' '))
section = ' '.join(section)
if self.get(section):
self._error_location("The section %s appears twice"
% section)
if section in ('Parameters', 'Other Parameters', 'Attributes',
'Methods'):
self[section] = self._parse_param_list(content)
elif section in ('Returns', 'Yields', 'Raises', 'Warns',
'Receives'):
self[section] = self._parse_param_list(
content, single_element_is_type=True)
elif section.startswith('.. index::'):
self['index'] = self._parse_index(section, content)
elif section == 'See Also':
self['See Also'] = self._parse_see_also(content)
else:
self[section] = content
def _error_location(self, msg, error=True):
if hasattr(self, '_obj'):
# we know where the docs came from:
try:
filename = inspect.getsourcefile(self._obj)
except TypeError:
filename = None
msg = msg + (f" in the docstring of {self._obj} in {filename}.")
if error:
raise ValueError(msg)
else:
warn(msg, stacklevel=3)
# string conversion routines
def _str_header(self, name, symbol='-'):
return [name, len(name)*symbol]
def _str_indent(self, doc, indent=4):
out = []
for line in doc:
out += [' '*indent + line]
return out
def _str_signature(self):
if self['Signature']:
return [self['Signature'].replace('*', r'\*')] + ['']
else:
return ['']
def _str_summary(self):
if self['Summary']:
return self['Summary'] + ['']
else:
return []
def _str_extended_summary(self):
if self['Extended Summary']:
return self['Extended Summary'] + ['']
else:
return []
def _str_param_list(self, name):
out = []
if self[name]:
out += self._str_header(name)
for param in self[name]:
parts = []
if param.name:
parts.append(param.name)
if param.type:
parts.append(param.type)
out += [' : '.join(parts)]
if param.desc and ''.join(param.desc).strip():
out += self._str_indent(param.desc)
out += ['']
return out
def _str_section(self, name):
out = []
if self[name]:
out += self._str_header(name)
out += self[name]
out += ['']
return out
def _str_see_also(self, func_role):
if not self['See Also']:
return []
out = []
out += self._str_header("See Also")
out += ['']
last_had_desc = True
for funcs, desc in self['See Also']:
assert isinstance(funcs, list)
links = []
for func, role in funcs:
if role:
link = f':{role}:`{func}`'
elif func_role:
link = f':{func_role}:`{func}`'
else:
link = "`%s`_" % func
links.append(link)
link = ', '.join(links)
out += [link]
if desc:
out += self._str_indent([' '.join(desc)])
last_had_desc = True
else:
last_had_desc = False
out += self._str_indent([self.empty_description])
if last_had_desc:
out += ['']
out += ['']
return out
def _str_index(self):
idx = self['index']
out = []
output_index = False
default_index = idx.get('default', '')
if default_index:
output_index = True
out += ['.. index:: %s' % default_index]
for section, references in idx.items():
if section == 'default':
continue
output_index = True
out += [' :{}: {}'.format(section, ', '.join(references))]
if output_index:
return out
else:
return ''
def __str__(self, func_role=''):
out = []
out += self._str_signature()
out += self._str_summary()
out += self._str_extended_summary()
for param_list in ('Parameters', 'Returns', 'Yields', 'Receives',
'Other Parameters', 'Raises', 'Warns'):
out += self._str_param_list(param_list)
out += self._str_section('Warnings')
out += self._str_see_also(func_role)
for s in ('Notes', 'References', 'Examples'):
out += self._str_section(s)
for param_list in ('Attributes', 'Methods'):
out += self._str_param_list(param_list)
out += self._str_index()
return '\n'.join(out)
def indent(str, indent=4):
indent_str = ' '*indent
if str is None:
return indent_str
lines = str.split('\n')
return '\n'.join(indent_str + l for l in lines)
def dedent_lines(lines):
"""Deindent a list of lines maximally"""
return textwrap.dedent("\n".join(lines)).split("\n")
def header(text, style='-'):
return text + '\n' + style*len(text) + '\n'
class FunctionDoc(NumpyDocString):
def __init__(self, func, role='func', doc=None, config={}):
self._f = func
self._role = role # e.g. "func" or "meth"
if doc is None:
if func is None:
raise ValueError("No function or docstring given")
doc = inspect.getdoc(func) or ''
NumpyDocString.__init__(self, doc, config)
def get_func(self):
func_name = getattr(self._f, '__name__', self.__class__.__name__)
if inspect.isclass(self._f):
func = getattr(self._f, '__call__', self._f.__init__)
else:
func = self._f
return func, func_name
def __str__(self):
out = ''
func, func_name = self.get_func()
roles = {'func': 'function',
'meth': 'method'}
if self._role:
if self._role not in roles:
print("Warning: invalid role %s" % self._role)
out += '.. {}:: {}\n \n\n'.format(roles.get(self._role, ''),
func_name)
out += super().__str__(func_role=self._role)
return out
class ClassDoc(NumpyDocString):
extra_public_methods = ['__call__']
def __init__(self, cls, doc=None, modulename='', func_doc=FunctionDoc,
config={}):
if not inspect.isclass(cls) and cls is not None:
raise ValueError("Expected a class or None, but got %r" % cls)
self._cls = cls
if 'sphinx' in sys.modules:
from sphinx.ext.autodoc import ALL
else:
ALL = object()
self.show_inherited_members = config.get(
'show_inherited_class_members', True)
if modulename and not modulename.endswith('.'):
modulename += '.'
self._mod = modulename
if doc is None:
if cls is None:
raise ValueError("No class or documentation string given")
doc = pydoc.getdoc(cls)
NumpyDocString.__init__(self, doc)
_members = config.get('members', [])
if _members is ALL:
_members = None
_exclude = config.get('exclude-members', [])
if config.get('show_class_members', True) and _exclude is not ALL:
def splitlines_x(s):
if not s:
return []
else:
return s.splitlines()
for field, items in [('Methods', self.methods),
('Attributes', self.properties)]:
if not self[field]:
doc_list = []
for name in sorted(items):
if (name in _exclude or
(_members and name not in _members)):
continue
try:
doc_item = pydoc.getdoc(getattr(self._cls, name))
doc_list.append(
Parameter(name, '', splitlines_x(doc_item)))
except AttributeError:
pass # method doesn't exist
self[field] = doc_list
@property
def methods(self):
if self._cls is None:
return []
return [name for name, func in inspect.getmembers(self._cls)
if ((not name.startswith('_')
or name in self.extra_public_methods)
and isinstance(func, Callable)
and self._is_show_member(name))]
@property
def properties(self):
if self._cls is None:
return []
return [name for name, func in inspect.getmembers(self._cls)
if (not name.startswith('_') and
(func is None or isinstance(func, property) or
inspect.isdatadescriptor(func))
and self._is_show_member(name))]
def _is_show_member(self, name):
if self.show_inherited_members:
return True # show all class members
if name not in self._cls.__dict__:
return False # class member is inherited, we do not show it
return True