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Python

import ast
import re
import typing as t
from dataclasses import dataclass
from string import Template
from types import CodeType
from .._internal import _to_bytes
from ..urls import url_encode
from ..urls import url_quote
from .converters import ValidationError
if t.TYPE_CHECKING:
from .converters import BaseConverter
from .map import Map
class Weighting(t.NamedTuple):
number_static_weights: int
static_weights: t.List[t.Tuple[int, int]]
number_argument_weights: int
argument_weights: t.List[int]
@dataclass
class RulePart:
"""A part of a rule.
Rules can be represented by parts as delimited by `/` with
instances of this class representing those parts. The *content* is
either the raw content if *static* or a regex string to match
against. The *weight* can be used to order parts when matching.
"""
content: str
final: bool
static: bool
weight: Weighting
_part_re = re.compile(
r"""
(?:
(?P<slash>\/) # a slash
|
(?P<static>[^<\/]+) # static rule data
|
(?:
<
(?:
(?P<converter>[a-zA-Z_][a-zA-Z0-9_]*) # converter name
(?:\((?P<arguments>.*?)\))? # converter arguments
\: # variable delimiter
)?
(?P<variable>[a-zA-Z_][a-zA-Z0-9_]*) # variable name
>
)
)
""",
re.VERBOSE,
)
_simple_rule_re = re.compile(r"<([^>]+)>")
_converter_args_re = re.compile(
r"""
((?P<name>\w+)\s*=\s*)?
(?P<value>
True|False|
\d+.\d+|
\d+.|
\d+|
[\w\d_.]+|
[urUR]?(?P<stringval>"[^"]*?"|'[^']*')
)\s*,
""",
re.VERBOSE,
)
_PYTHON_CONSTANTS = {"None": None, "True": True, "False": False}
def _find(value: str, target: str, pos: int) -> int:
"""Find the *target* in *value* after *pos*.
Returns the *value* length if *target* isn't found.
"""
try:
return value.index(target, pos)
except ValueError:
return len(value)
def _pythonize(value: str) -> t.Union[None, bool, int, float, str]:
if value in _PYTHON_CONSTANTS:
return _PYTHON_CONSTANTS[value]
for convert in int, float:
try:
return convert(value) # type: ignore
except ValueError:
pass
if value[:1] == value[-1:] and value[0] in "\"'":
value = value[1:-1]
return str(value)
def parse_converter_args(argstr: str) -> t.Tuple[t.Tuple, t.Dict[str, t.Any]]:
argstr += ","
args = []
kwargs = {}
for item in _converter_args_re.finditer(argstr):
value = item.group("stringval")
if value is None:
value = item.group("value")
value = _pythonize(value)
if not item.group("name"):
args.append(value)
else:
name = item.group("name")
kwargs[name] = value
return tuple(args), kwargs
class RuleFactory:
"""As soon as you have more complex URL setups it's a good idea to use rule
factories to avoid repetitive tasks. Some of them are builtin, others can
be added by subclassing `RuleFactory` and overriding `get_rules`.
"""
def get_rules(self, map: "Map") -> t.Iterable["Rule"]:
"""Subclasses of `RuleFactory` have to override this method and return
an iterable of rules."""
raise NotImplementedError()
class Subdomain(RuleFactory):
"""All URLs provided by this factory have the subdomain set to a
specific domain. For example if you want to use the subdomain for
the current language this can be a good setup::
url_map = Map([
Rule('/', endpoint='#select_language'),
Subdomain('<string(length=2):lang_code>', [
Rule('/', endpoint='index'),
Rule('/about', endpoint='about'),
Rule('/help', endpoint='help')
])
])
All the rules except for the ``'#select_language'`` endpoint will now
listen on a two letter long subdomain that holds the language code
for the current request.
"""
def __init__(self, subdomain: str, rules: t.Iterable[RuleFactory]) -> None:
self.subdomain = subdomain
self.rules = rules
def get_rules(self, map: "Map") -> t.Iterator["Rule"]:
for rulefactory in self.rules:
for rule in rulefactory.get_rules(map):
rule = rule.empty()
rule.subdomain = self.subdomain
yield rule
class Submount(RuleFactory):
"""Like `Subdomain` but prefixes the URL rule with a given string::
url_map = Map([
Rule('/', endpoint='index'),
Submount('/blog', [
Rule('/', endpoint='blog/index'),
Rule('/entry/<entry_slug>', endpoint='blog/show')
])
])
Now the rule ``'blog/show'`` matches ``/blog/entry/<entry_slug>``.
"""
def __init__(self, path: str, rules: t.Iterable[RuleFactory]) -> None:
self.path = path.rstrip("/")
self.rules = rules
def get_rules(self, map: "Map") -> t.Iterator["Rule"]:
for rulefactory in self.rules:
for rule in rulefactory.get_rules(map):
rule = rule.empty()
rule.rule = self.path + rule.rule
yield rule
class EndpointPrefix(RuleFactory):
"""Prefixes all endpoints (which must be strings for this factory) with
another string. This can be useful for sub applications::
url_map = Map([
Rule('/', endpoint='index'),
EndpointPrefix('blog/', [Submount('/blog', [
Rule('/', endpoint='index'),
Rule('/entry/<entry_slug>', endpoint='show')
])])
])
"""
def __init__(self, prefix: str, rules: t.Iterable[RuleFactory]) -> None:
self.prefix = prefix
self.rules = rules
def get_rules(self, map: "Map") -> t.Iterator["Rule"]:
for rulefactory in self.rules:
for rule in rulefactory.get_rules(map):
rule = rule.empty()
rule.endpoint = self.prefix + rule.endpoint
yield rule
class RuleTemplate:
"""Returns copies of the rules wrapped and expands string templates in
the endpoint, rule, defaults or subdomain sections.
Here a small example for such a rule template::
from werkzeug.routing import Map, Rule, RuleTemplate
resource = RuleTemplate([
Rule('/$name/', endpoint='$name.list'),
Rule('/$name/<int:id>', endpoint='$name.show')
])
url_map = Map([resource(name='user'), resource(name='page')])
When a rule template is called the keyword arguments are used to
replace the placeholders in all the string parameters.
"""
def __init__(self, rules: t.Iterable["Rule"]) -> None:
self.rules = list(rules)
def __call__(self, *args: t.Any, **kwargs: t.Any) -> "RuleTemplateFactory":
return RuleTemplateFactory(self.rules, dict(*args, **kwargs))
class RuleTemplateFactory(RuleFactory):
"""A factory that fills in template variables into rules. Used by
`RuleTemplate` internally.
:internal:
"""
def __init__(
self, rules: t.Iterable[RuleFactory], context: t.Dict[str, t.Any]
) -> None:
self.rules = rules
self.context = context
def get_rules(self, map: "Map") -> t.Iterator["Rule"]:
for rulefactory in self.rules:
for rule in rulefactory.get_rules(map):
new_defaults = subdomain = None
if rule.defaults:
new_defaults = {}
for key, value in rule.defaults.items():
if isinstance(value, str):
value = Template(value).substitute(self.context)
new_defaults[key] = value
if rule.subdomain is not None:
subdomain = Template(rule.subdomain).substitute(self.context)
new_endpoint = rule.endpoint
if isinstance(new_endpoint, str):
new_endpoint = Template(new_endpoint).substitute(self.context)
yield Rule(
Template(rule.rule).substitute(self.context),
new_defaults,
subdomain,
rule.methods,
rule.build_only,
new_endpoint,
rule.strict_slashes,
)
def _prefix_names(src: str) -> ast.stmt:
"""ast parse and prefix names with `.` to avoid collision with user vars"""
tree = ast.parse(src).body[0]
if isinstance(tree, ast.Expr):
tree = tree.value # type: ignore
for node in ast.walk(tree):
if isinstance(node, ast.Name):
node.id = f".{node.id}"
return tree
_CALL_CONVERTER_CODE_FMT = "self._converters[{elem!r}].to_url()"
_IF_KWARGS_URL_ENCODE_CODE = """\
if kwargs:
params = self._encode_query_vars(kwargs)
q = "?" if params else ""
else:
q = params = ""
"""
_IF_KWARGS_URL_ENCODE_AST = _prefix_names(_IF_KWARGS_URL_ENCODE_CODE)
_URL_ENCODE_AST_NAMES = (_prefix_names("q"), _prefix_names("params"))
class Rule(RuleFactory):
"""A Rule represents one URL pattern. There are some options for `Rule`
that change the way it behaves and are passed to the `Rule` constructor.
Note that besides the rule-string all arguments *must* be keyword arguments
in order to not break the application on Werkzeug upgrades.
`string`
Rule strings basically are just normal URL paths with placeholders in
the format ``<converter(arguments):name>`` where the converter and the
arguments are optional. If no converter is defined the `default`
converter is used which means `string` in the normal configuration.
URL rules that end with a slash are branch URLs, others are leaves.
If you have `strict_slashes` enabled (which is the default), all
branch URLs that are matched without a trailing slash will trigger a
redirect to the same URL with the missing slash appended.
The converters are defined on the `Map`.
`endpoint`
The endpoint for this rule. This can be anything. A reference to a
function, a string, a number etc. The preferred way is using a string
because the endpoint is used for URL generation.
`defaults`
An optional dict with defaults for other rules with the same endpoint.
This is a bit tricky but useful if you want to have unique URLs::
url_map = Map([
Rule('/all/', defaults={'page': 1}, endpoint='all_entries'),
Rule('/all/page/<int:page>', endpoint='all_entries')
])
If a user now visits ``http://example.com/all/page/1`` they will be
redirected to ``http://example.com/all/``. If `redirect_defaults` is
disabled on the `Map` instance this will only affect the URL
generation.
`subdomain`
The subdomain rule string for this rule. If not specified the rule
only matches for the `default_subdomain` of the map. If the map is
not bound to a subdomain this feature is disabled.
Can be useful if you want to have user profiles on different subdomains
and all subdomains are forwarded to your application::
url_map = Map([
Rule('/', subdomain='<username>', endpoint='user/homepage'),
Rule('/stats', subdomain='<username>', endpoint='user/stats')
])
`methods`
A sequence of http methods this rule applies to. If not specified, all
methods are allowed. For example this can be useful if you want different
endpoints for `POST` and `GET`. If methods are defined and the path
matches but the method matched against is not in this list or in the
list of another rule for that path the error raised is of the type
`MethodNotAllowed` rather than `NotFound`. If `GET` is present in the
list of methods and `HEAD` is not, `HEAD` is added automatically.
`strict_slashes`
Override the `Map` setting for `strict_slashes` only for this rule. If
not specified the `Map` setting is used.
`merge_slashes`
Override :attr:`Map.merge_slashes` for this rule.
`build_only`
Set this to True and the rule will never match but will create a URL
that can be build. This is useful if you have resources on a subdomain
or folder that are not handled by the WSGI application (like static data)
`redirect_to`
If given this must be either a string or callable. In case of a
callable it's called with the url adapter that triggered the match and
the values of the URL as keyword arguments and has to return the target
for the redirect, otherwise it has to be a string with placeholders in
rule syntax::
def foo_with_slug(adapter, id):
# ask the database for the slug for the old id. this of
# course has nothing to do with werkzeug.
return f'foo/{Foo.get_slug_for_id(id)}'
url_map = Map([
Rule('/foo/<slug>', endpoint='foo'),
Rule('/some/old/url/<slug>', redirect_to='foo/<slug>'),
Rule('/other/old/url/<int:id>', redirect_to=foo_with_slug)
])
When the rule is matched the routing system will raise a
`RequestRedirect` exception with the target for the redirect.
Keep in mind that the URL will be joined against the URL root of the
script so don't use a leading slash on the target URL unless you
really mean root of that domain.
`alias`
If enabled this rule serves as an alias for another rule with the same
endpoint and arguments.
`host`
If provided and the URL map has host matching enabled this can be
used to provide a match rule for the whole host. This also means
that the subdomain feature is disabled.
`websocket`
If ``True``, this rule is only matches for WebSocket (``ws://``,
``wss://``) requests. By default, rules will only match for HTTP
requests.
.. versionchanged:: 2.1
Percent-encoded newlines (``%0a``), which are decoded by WSGI
servers, are considered when routing instead of terminating the
match early.
.. versionadded:: 1.0
Added ``websocket``.
.. versionadded:: 1.0
Added ``merge_slashes``.
.. versionadded:: 0.7
Added ``alias`` and ``host``.
.. versionchanged:: 0.6.1
``HEAD`` is added to ``methods`` if ``GET`` is present.
"""
def __init__(
self,
string: str,
defaults: t.Optional[t.Mapping[str, t.Any]] = None,
subdomain: t.Optional[str] = None,
methods: t.Optional[t.Iterable[str]] = None,
build_only: bool = False,
endpoint: t.Optional[str] = None,
strict_slashes: t.Optional[bool] = None,
merge_slashes: t.Optional[bool] = None,
redirect_to: t.Optional[t.Union[str, t.Callable[..., str]]] = None,
alias: bool = False,
host: t.Optional[str] = None,
websocket: bool = False,
) -> None:
if not string.startswith("/"):
raise ValueError("urls must start with a leading slash")
self.rule = string
self.is_leaf = not string.endswith("/")
self.is_branch = string.endswith("/")
self.map: "Map" = None # type: ignore
self.strict_slashes = strict_slashes
self.merge_slashes = merge_slashes
self.subdomain = subdomain
self.host = host
self.defaults = defaults
self.build_only = build_only
self.alias = alias
self.websocket = websocket
if methods is not None:
if isinstance(methods, str):
raise TypeError("'methods' should be a list of strings.")
methods = {x.upper() for x in methods}
if "HEAD" not in methods and "GET" in methods:
methods.add("HEAD")
if websocket and methods - {"GET", "HEAD", "OPTIONS"}:
raise ValueError(
"WebSocket rules can only use 'GET', 'HEAD', and 'OPTIONS' methods."
)
self.methods = methods
self.endpoint: str = endpoint # type: ignore
self.redirect_to = redirect_to
if defaults:
self.arguments = set(map(str, defaults))
else:
self.arguments = set()
self._converters: t.Dict[str, "BaseConverter"] = {}
self._trace: t.List[t.Tuple[bool, str]] = []
self._parts: t.List[RulePart] = []
def empty(self) -> "Rule":
"""
Return an unbound copy of this rule.
This can be useful if want to reuse an already bound URL for another
map. See ``get_empty_kwargs`` to override what keyword arguments are
provided to the new copy.
"""
return type(self)(self.rule, **self.get_empty_kwargs())
def get_empty_kwargs(self) -> t.Mapping[str, t.Any]:
"""
Provides kwargs for instantiating empty copy with empty()
Use this method to provide custom keyword arguments to the subclass of
``Rule`` when calling ``some_rule.empty()``. Helpful when the subclass
has custom keyword arguments that are needed at instantiation.
Must return a ``dict`` that will be provided as kwargs to the new
instance of ``Rule``, following the initial ``self.rule`` value which
is always provided as the first, required positional argument.
"""
defaults = None
if self.defaults:
defaults = dict(self.defaults)
return dict(
defaults=defaults,
subdomain=self.subdomain,
methods=self.methods,
build_only=self.build_only,
endpoint=self.endpoint,
strict_slashes=self.strict_slashes,
redirect_to=self.redirect_to,
alias=self.alias,
host=self.host,
)
def get_rules(self, map: "Map") -> t.Iterator["Rule"]:
yield self
def refresh(self) -> None:
"""Rebinds and refreshes the URL. Call this if you modified the
rule in place.
:internal:
"""
self.bind(self.map, rebind=True)
def bind(self, map: "Map", rebind: bool = False) -> None:
"""Bind the url to a map and create a regular expression based on
the information from the rule itself and the defaults from the map.
:internal:
"""
if self.map is not None and not rebind:
raise RuntimeError(f"url rule {self!r} already bound to map {self.map!r}")
self.map = map
if self.strict_slashes is None:
self.strict_slashes = map.strict_slashes
if self.merge_slashes is None:
self.merge_slashes = map.merge_slashes
if self.subdomain is None:
self.subdomain = map.default_subdomain
self.compile()
def get_converter(
self,
variable_name: str,
converter_name: str,
args: t.Tuple,
kwargs: t.Mapping[str, t.Any],
) -> "BaseConverter":
"""Looks up the converter for the given parameter.
.. versionadded:: 0.9
"""
if converter_name not in self.map.converters:
raise LookupError(f"the converter {converter_name!r} does not exist")
return self.map.converters[converter_name](self.map, *args, **kwargs)
def _encode_query_vars(self, query_vars: t.Mapping[str, t.Any]) -> str:
return url_encode(
query_vars,
charset=self.map.charset,
sort=self.map.sort_parameters,
key=self.map.sort_key,
)
def _parse_rule(self, rule: str) -> t.Iterable[RulePart]:
content = ""
static = True
argument_weights = []
static_weights: t.List[t.Tuple[int, int]] = []
final = False
pos = 0
while pos < len(rule):
match = _part_re.match(rule, pos)
if match is None:
raise ValueError(f"malformed url rule: {rule!r}")
data = match.groupdict()
if data["static"] is not None:
static_weights.append((len(static_weights), -len(data["static"])))
self._trace.append((False, data["static"]))
content += data["static"] if static else re.escape(data["static"])
if data["variable"] is not None:
if static:
# Switching content to represent regex, hence the need to escape
content = re.escape(content)
static = False
c_args, c_kwargs = parse_converter_args(data["arguments"] or "")
convobj = self.get_converter(
data["variable"], data["converter"] or "default", c_args, c_kwargs
)
self._converters[data["variable"]] = convobj
self.arguments.add(data["variable"])
if not convobj.part_isolating:
final = True
content += f"({convobj.regex})"
argument_weights.append(convobj.weight)
self._trace.append((True, data["variable"]))
if data["slash"] is not None:
self._trace.append((False, "/"))
if final:
content += "/"
else:
if not static:
content += r"\Z"
weight = Weighting(
-len(static_weights),
static_weights,
-len(argument_weights),
argument_weights,
)
yield RulePart(
content=content, final=final, static=static, weight=weight
)
content = ""
static = True
argument_weights = []
static_weights = []
final = False
pos = match.end()
if not static:
content += r"\Z"
weight = Weighting(
-len(static_weights),
static_weights,
-len(argument_weights),
argument_weights,
)
yield RulePart(content=content, final=final, static=static, weight=weight)
def compile(self) -> None:
"""Compiles the regular expression and stores it."""
assert self.map is not None, "rule not bound"
if self.map.host_matching:
domain_rule = self.host or ""
else:
domain_rule = self.subdomain or ""
self._parts = []
self._trace = []
self._converters = {}
if domain_rule == "":
self._parts = [
RulePart(
content="", final=False, static=True, weight=Weighting(0, [], 0, [])
)
]
else:
self._parts.extend(self._parse_rule(domain_rule))
self._trace.append((False, "|"))
rule = self.rule
if self.merge_slashes:
rule = re.sub("/{2,}?", "/", self.rule)
self._parts.extend(self._parse_rule(rule))
self._build: t.Callable[..., t.Tuple[str, str]]
self._build = self._compile_builder(False).__get__(self, None)
self._build_unknown: t.Callable[..., t.Tuple[str, str]]
self._build_unknown = self._compile_builder(True).__get__(self, None)
@staticmethod
def _get_func_code(code: CodeType, name: str) -> t.Callable[..., t.Tuple[str, str]]:
globs: t.Dict[str, t.Any] = {}
locs: t.Dict[str, t.Any] = {}
exec(code, globs, locs)
return locs[name] # type: ignore
def _compile_builder(
self, append_unknown: bool = True
) -> t.Callable[..., t.Tuple[str, str]]:
defaults = self.defaults or {}
dom_ops: t.List[t.Tuple[bool, str]] = []
url_ops: t.List[t.Tuple[bool, str]] = []
opl = dom_ops
for is_dynamic, data in self._trace:
if data == "|" and opl is dom_ops:
opl = url_ops
continue
# this seems like a silly case to ever come up but:
# if a default is given for a value that appears in the rule,
# resolve it to a constant ahead of time
if is_dynamic and data in defaults:
data = self._converters[data].to_url(defaults[data])
opl.append((False, data))
elif not is_dynamic:
opl.append(
(False, url_quote(_to_bytes(data, self.map.charset), safe="/:|+"))
)
else:
opl.append((True, data))
def _convert(elem: str) -> ast.stmt:
ret = _prefix_names(_CALL_CONVERTER_CODE_FMT.format(elem=elem))
ret.args = [ast.Name(str(elem), ast.Load())] # type: ignore # str for py2
return ret
def _parts(ops: t.List[t.Tuple[bool, str]]) -> t.List[ast.AST]:
parts = [
_convert(elem) if is_dynamic else ast.Str(s=elem)
for is_dynamic, elem in ops
]
parts = parts or [ast.Str("")]
# constant fold
ret = [parts[0]]
for p in parts[1:]:
if isinstance(p, ast.Str) and isinstance(ret[-1], ast.Str):
ret[-1] = ast.Str(ret[-1].s + p.s)
else:
ret.append(p)
return ret
dom_parts = _parts(dom_ops)
url_parts = _parts(url_ops)
if not append_unknown:
body = []
else:
body = [_IF_KWARGS_URL_ENCODE_AST]
url_parts.extend(_URL_ENCODE_AST_NAMES)
def _join(parts: t.List[ast.AST]) -> ast.AST:
if len(parts) == 1: # shortcut
return parts[0]
return ast.JoinedStr(parts)
body.append(
ast.Return(ast.Tuple([_join(dom_parts), _join(url_parts)], ast.Load()))
)
pargs = [
elem
for is_dynamic, elem in dom_ops + url_ops
if is_dynamic and elem not in defaults
]
kargs = [str(k) for k in defaults]
func_ast: ast.FunctionDef = _prefix_names("def _(): pass") # type: ignore
func_ast.name = f"<builder:{self.rule!r}>"
func_ast.args.args.append(ast.arg(".self", None))
for arg in pargs + kargs:
func_ast.args.args.append(ast.arg(arg, None))
func_ast.args.kwarg = ast.arg(".kwargs", None)
for _ in kargs:
func_ast.args.defaults.append(ast.Str(""))
func_ast.body = body
# use `ast.parse` instead of `ast.Module` for better portability
# Python 3.8 changes the signature of `ast.Module`
module = ast.parse("")
module.body = [func_ast]
# mark everything as on line 1, offset 0
# less error-prone than `ast.fix_missing_locations`
# bad line numbers cause an assert to fail in debug builds
for node in ast.walk(module):
if "lineno" in node._attributes:
node.lineno = 1
if "end_lineno" in node._attributes:
node.end_lineno = node.lineno # type: ignore[attr-defined]
if "col_offset" in node._attributes:
node.col_offset = 0
if "end_col_offset" in node._attributes:
node.end_col_offset = node.col_offset # type: ignore[attr-defined]
code = compile(module, "<werkzeug routing>", "exec")
return self._get_func_code(code, func_ast.name)
def build(
self, values: t.Mapping[str, t.Any], append_unknown: bool = True
) -> t.Optional[t.Tuple[str, str]]:
"""Assembles the relative url for that rule and the subdomain.
If building doesn't work for some reasons `None` is returned.
:internal:
"""
try:
if append_unknown:
return self._build_unknown(**values)
else:
return self._build(**values)
except ValidationError:
return None
def provides_defaults_for(self, rule: "Rule") -> bool:
"""Check if this rule has defaults for a given rule.
:internal:
"""
return bool(
not self.build_only
and self.defaults
and self.endpoint == rule.endpoint
and self != rule
and self.arguments == rule.arguments
)
def suitable_for(
self, values: t.Mapping[str, t.Any], method: t.Optional[str] = None
) -> bool:
"""Check if the dict of values has enough data for url generation.
:internal:
"""
# if a method was given explicitly and that method is not supported
# by this rule, this rule is not suitable.
if (
method is not None
and self.methods is not None
and method not in self.methods
):
return False
defaults = self.defaults or ()
# all arguments required must be either in the defaults dict or
# the value dictionary otherwise it's not suitable
for key in self.arguments:
if key not in defaults and key not in values:
return False
# in case defaults are given we ensure that either the value was
# skipped or the value is the same as the default value.
if defaults:
for key, value in defaults.items():
if key in values and value != values[key]:
return False
return True
def build_compare_key(self) -> t.Tuple[int, int, int]:
"""The build compare key for sorting.
:internal:
"""
return (1 if self.alias else 0, -len(self.arguments), -len(self.defaults or ()))
def __eq__(self, other: object) -> bool:
return isinstance(other, type(self)) and self._trace == other._trace
__hash__ = None # type: ignore
def __str__(self) -> str:
return self.rule
def __repr__(self) -> str:
if self.map is None:
return f"<{type(self).__name__} (unbound)>"
parts = []
for is_dynamic, data in self._trace:
if is_dynamic:
parts.append(f"<{data}>")
else:
parts.append(data)
parts = "".join(parts).lstrip("|")
methods = f" ({', '.join(self.methods)})" if self.methods is not None else ""
return f"<{type(self).__name__} {parts!r}{methods} -> {self.endpoint}>"