matekasse/venv/lib/python3.11/site-packages/werkzeug/datastructures/accept.py

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2023-07-28 21:30:45 +00:00
from __future__ import annotations
import codecs
import re
from .structures import ImmutableList
class Accept(ImmutableList):
"""An :class:`Accept` object is just a list subclass for lists of
``(value, quality)`` tuples. It is automatically sorted by specificity
and quality.
All :class:`Accept` objects work similar to a list but provide extra
functionality for working with the data. Containment checks are
normalized to the rules of that header:
>>> a = CharsetAccept([('ISO-8859-1', 1), ('utf-8', 0.7)])
>>> a.best
'ISO-8859-1'
>>> 'iso-8859-1' in a
True
>>> 'UTF8' in a
True
>>> 'utf7' in a
False
To get the quality for an item you can use normal item lookup:
>>> print a['utf-8']
0.7
>>> a['utf7']
0
.. versionchanged:: 0.5
:class:`Accept` objects are forced immutable now.
.. versionchanged:: 1.0.0
:class:`Accept` internal values are no longer ordered
alphabetically for equal quality tags. Instead the initial
order is preserved.
"""
def __init__(self, values=()):
if values is None:
list.__init__(self)
self.provided = False
elif isinstance(values, Accept):
self.provided = values.provided
list.__init__(self, values)
else:
self.provided = True
values = sorted(
values, key=lambda x: (self._specificity(x[0]), x[1]), reverse=True
)
list.__init__(self, values)
def _specificity(self, value):
"""Returns a tuple describing the value's specificity."""
return (value != "*",)
def _value_matches(self, value, item):
"""Check if a value matches a given accept item."""
return item == "*" or item.lower() == value.lower()
def __getitem__(self, key):
"""Besides index lookup (getting item n) you can also pass it a string
to get the quality for the item. If the item is not in the list, the
returned quality is ``0``.
"""
if isinstance(key, str):
return self.quality(key)
return list.__getitem__(self, key)
def quality(self, key):
"""Returns the quality of the key.
.. versionadded:: 0.6
In previous versions you had to use the item-lookup syntax
(eg: ``obj[key]`` instead of ``obj.quality(key)``)
"""
for item, quality in self:
if self._value_matches(key, item):
return quality
return 0
def __contains__(self, value):
for item, _quality in self:
if self._value_matches(value, item):
return True
return False
def __repr__(self):
pairs_str = ", ".join(f"({x!r}, {y})" for x, y in self)
return f"{type(self).__name__}([{pairs_str}])"
def index(self, key):
"""Get the position of an entry or raise :exc:`ValueError`.
:param key: The key to be looked up.
.. versionchanged:: 0.5
This used to raise :exc:`IndexError`, which was inconsistent
with the list API.
"""
if isinstance(key, str):
for idx, (item, _quality) in enumerate(self):
if self._value_matches(key, item):
return idx
raise ValueError(key)
return list.index(self, key)
def find(self, key):
"""Get the position of an entry or return -1.
:param key: The key to be looked up.
"""
try:
return self.index(key)
except ValueError:
return -1
def values(self):
"""Iterate over all values."""
for item in self:
yield item[0]
def to_header(self):
"""Convert the header set into an HTTP header string."""
result = []
for value, quality in self:
if quality != 1:
value = f"{value};q={quality}"
result.append(value)
return ",".join(result)
def __str__(self):
return self.to_header()
def _best_single_match(self, match):
for client_item, quality in self:
if self._value_matches(match, client_item):
# self is sorted by specificity descending, we can exit
return client_item, quality
return None
def best_match(self, matches, default=None):
"""Returns the best match from a list of possible matches based
on the specificity and quality of the client. If two items have the
same quality and specificity, the one is returned that comes first.
:param matches: a list of matches to check for
:param default: the value that is returned if none match
"""
result = default
best_quality = -1
best_specificity = (-1,)
for server_item in matches:
match = self._best_single_match(server_item)
if not match:
continue
client_item, quality = match
specificity = self._specificity(client_item)
if quality <= 0 or quality < best_quality:
continue
# better quality or same quality but more specific => better match
if quality > best_quality or specificity > best_specificity:
result = server_item
best_quality = quality
best_specificity = specificity
return result
@property
def best(self):
"""The best match as value."""
if self:
return self[0][0]
_mime_split_re = re.compile(r"/|(?:\s*;\s*)")
def _normalize_mime(value):
return _mime_split_re.split(value.lower())
class MIMEAccept(Accept):
"""Like :class:`Accept` but with special methods and behavior for
mimetypes.
"""
def _specificity(self, value):
return tuple(x != "*" for x in _mime_split_re.split(value))
def _value_matches(self, value, item):
# item comes from the client, can't match if it's invalid.
if "/" not in item:
return False
# value comes from the application, tell the developer when it
# doesn't look valid.
if "/" not in value:
raise ValueError(f"invalid mimetype {value!r}")
# Split the match value into type, subtype, and a sorted list of parameters.
normalized_value = _normalize_mime(value)
value_type, value_subtype = normalized_value[:2]
value_params = sorted(normalized_value[2:])
# "*/*" is the only valid value that can start with "*".
if value_type == "*" and value_subtype != "*":
raise ValueError(f"invalid mimetype {value!r}")
# Split the accept item into type, subtype, and parameters.
normalized_item = _normalize_mime(item)
item_type, item_subtype = normalized_item[:2]
item_params = sorted(normalized_item[2:])
# "*/not-*" from the client is invalid, can't match.
if item_type == "*" and item_subtype != "*":
return False
return (
(item_type == "*" and item_subtype == "*")
or (value_type == "*" and value_subtype == "*")
) or (
item_type == value_type
and (
item_subtype == "*"
or value_subtype == "*"
or (item_subtype == value_subtype and item_params == value_params)
)
)
@property
def accept_html(self):
"""True if this object accepts HTML."""
return (
"text/html" in self or "application/xhtml+xml" in self or self.accept_xhtml
)
@property
def accept_xhtml(self):
"""True if this object accepts XHTML."""
return "application/xhtml+xml" in self or "application/xml" in self
@property
def accept_json(self):
"""True if this object accepts JSON."""
return "application/json" in self
_locale_delim_re = re.compile(r"[_-]")
def _normalize_lang(value):
"""Process a language tag for matching."""
return _locale_delim_re.split(value.lower())
class LanguageAccept(Accept):
"""Like :class:`Accept` but with normalization for language tags."""
def _value_matches(self, value, item):
return item == "*" or _normalize_lang(value) == _normalize_lang(item)
def best_match(self, matches, default=None):
"""Given a list of supported values, finds the best match from
the list of accepted values.
Language tags are normalized for the purpose of matching, but
are returned unchanged.
If no exact match is found, this will fall back to matching
the first subtag (primary language only), first with the
accepted values then with the match values. This partial is not
applied to any other language subtags.
The default is returned if no exact or fallback match is found.
:param matches: A list of supported languages to find a match.
:param default: The value that is returned if none match.
"""
# Look for an exact match first. If a client accepts "en-US",
# "en-US" is a valid match at this point.
result = super().best_match(matches)
if result is not None:
return result
# Fall back to accepting primary tags. If a client accepts
# "en-US", "en" is a valid match at this point. Need to use
# re.split to account for 2 or 3 letter codes.
fallback = Accept(
[(_locale_delim_re.split(item[0], 1)[0], item[1]) for item in self]
)
result = fallback.best_match(matches)
if result is not None:
return result
# Fall back to matching primary tags. If the client accepts
# "en", "en-US" is a valid match at this point.
fallback_matches = [_locale_delim_re.split(item, 1)[0] for item in matches]
result = super().best_match(fallback_matches)
# Return a value from the original match list. Find the first
# original value that starts with the matched primary tag.
if result is not None:
return next(item for item in matches if item.startswith(result))
return default
class CharsetAccept(Accept):
"""Like :class:`Accept` but with normalization for charsets."""
def _value_matches(self, value, item):
def _normalize(name):
try:
return codecs.lookup(name).name
except LookupError:
return name.lower()
return item == "*" or _normalize(value) == _normalize(item)