Hotel/env/lib/python3.5/site-packages/django/urls/resolvers.py

"""
This module converts requested URLs to callback view functions.

URLResolver is the main class here. Its resolve() method takes a URL (as
a string) and returns a ResolverMatch object which provides access to all
attributes of the resolved URL match.
"""
import functools
import re
import threading
from importlib import import_module
from urllib.parse import quote

from django.conf import settings
from django.core.checks import Warning
from django.core.checks.urls import check_resolver
from django.core.exceptions import ImproperlyConfigured
from django.utils.datastructures import MultiValueDict
from django.utils.functional import cached_property
from django.utils.http import RFC3986_SUBDELIMS, escape_leading_slashes
from django.utils.regex_helper import normalize
from django.utils.translation import get_language

from .converters import get_converter
from .exceptions import NoReverseMatch, Resolver404
from .utils import get_callable


class ResolverMatch:
    def __init__(self, func, args, kwargs, url_name=None, app_names=None, namespaces=None):
        self.func = func
        self.args = args
        self.kwargs = kwargs
        self.url_name = url_name

        # If a URLRegexResolver doesn't have a namespace or app_name, it passes
        # in an empty value.
        self.app_names = [x for x in app_names if x] if app_names else []
        self.app_name = ':'.join(self.app_names)
        self.namespaces = [x for x in namespaces if x] if namespaces else []
        self.namespace = ':'.join(self.namespaces)

        if not hasattr(func, '__name__'):
            # A class-based view
            self._func_path = func.__class__.__module__ + '.' + func.__class__.__name__
        else:
            # A function-based view
            self._func_path = func.__module__ + '.' + func.__name__

        view_path = url_name or self._func_path
        self.view_name = ':'.join(self.namespaces + [view_path])

    def __getitem__(self, index):
        return (self.func, self.args, self.kwargs)[index]

    def __repr__(self):
        return "ResolverMatch(func=%s, args=%s, kwargs=%s, url_name=%s, app_names=%s, namespaces=%s)" % (
            self._func_path, self.args, self.kwargs, self.url_name,
            self.app_names, self.namespaces,
        )


@functools.lru_cache(maxsize=None)
def get_resolver(urlconf=None):
    if urlconf is None:
        urlconf = settings.ROOT_URLCONF
    return URLResolver(RegexPattern(r'^/'), urlconf)


@functools.lru_cache(maxsize=None)
def get_ns_resolver(ns_pattern, resolver, converters):
    # Build a namespaced resolver for the given parent URLconf pattern.
    # This makes it possible to have captured parameters in the parent
    # URLconf pattern.
    pattern = RegexPattern(ns_pattern)
    pattern.converters = dict(converters)
    ns_resolver = URLResolver(pattern, resolver.url_patterns)
    return URLResolver(RegexPattern(r'^/'), [ns_resolver])


class LocaleRegexDescriptor:
    def __init__(self, attr):
        self.attr = attr

    def __get__(self, instance, cls=None):
        """
        Return a compiled regular expression based on the active language.
        """
        if instance is None:
            return self
        # As a performance optimization, if the given regex string is a regular
        # string (not a lazily-translated string proxy), compile it once and
        # avoid per-language compilation.
        pattern = getattr(instance, self.attr)
        if isinstance(pattern, str):
            instance.__dict__['regex'] = instance._compile(pattern)
            return instance.__dict__['regex']
        language_code = get_language()
        if language_code not in instance._regex_dict:
            instance._regex_dict[language_code] = instance._compile(str(pattern))
        return instance._regex_dict[language_code]


class CheckURLMixin:
    def describe(self):
        """
        Format the URL pattern for display in warning messages.
        """
        description = "'{}'".format(self)
        if self.name:
            description += " [name='{}']".format(self.name)
        return description

    def _check_pattern_startswith_slash(self):
        """
        Check that the pattern does not begin with a forward slash.
        """
        regex_pattern = self.regex.pattern
        if not settings.APPEND_SLASH:
            # Skip check as it can be useful to start a URL pattern with a slash
            # when APPEND_SLASH=False.
            return []
        if regex_pattern.startswith(('/', '^/', '^\\/')) and not regex_pattern.endswith('/'):
            warning = Warning(
                "Your URL pattern {} has a route beginning with a '/'. Remove this "
                "slash as it is unnecessary. If this pattern is targeted in an "
                "include(), ensure the include() pattern has a trailing '/'.".format(
                    self.describe()
                ),
                id="urls.W002",
            )
            return [warning]
        else:
            return []


class RegexPattern(CheckURLMixin):
    regex = LocaleRegexDescriptor('_regex')

    def __init__(self, regex, name=None, is_endpoint=False):
        self._regex = regex
        self._regex_dict = {}
        self._is_endpoint = is_endpoint
        self.name = name
        self.converters = {}

    def match(self, path):
        match = self.regex.search(path)
        if match:
            # If there are any named groups, use those as kwargs, ignoring
            # non-named groups. Otherwise, pass all non-named arguments as
            # positional arguments.
            kwargs = match.groupdict()
            args = () if kwargs else match.groups()
            return path[match.end():], args, kwargs
        return None

    def check(self):
        warnings = []
        warnings.extend(self._check_pattern_startswith_slash())
        if not self._is_endpoint:
            warnings.extend(self._check_include_trailing_dollar())
        return warnings

    def _check_include_trailing_dollar(self):
        regex_pattern = self.regex.pattern
        if regex_pattern.endswith('$') and not regex_pattern.endswith(r'\$'):
            return [Warning(
                "Your URL pattern {} uses include with a route ending with a '$'. "
                "Remove the dollar from the route to avoid problems including "
                "URLs.".format(self.describe()),
                id='urls.W001',
            )]
        else:
            return []

    def _compile(self, regex):
        """Compile and return the given regular expression."""
        try:
            return re.compile(regex)
        except re.error as e:
            raise ImproperlyConfigured(
                '"%s" is not a valid regular expression: %s' % (regex, e)
            )

    def __str__(self):
        return str(self._regex)


_PATH_PARAMETER_COMPONENT_RE = re.compile(
    r'<(?:(?P<converter>[^>:]+):)?(?P<parameter>\w+)>'
)


def _route_to_regex(route, is_endpoint=False):
    """
    Convert a path pattern into a regular expression. Return the regular
    expression and a dictionary mapping the capture names to the converters.
    For example, 'foo/<int:pk>' returns '^foo\\/(?P<pk>[0-9]+)'
    and {'pk': <django.urls.converters.IntConverter>}.
    """
    original_route = route
    parts = ['^']
    converters = {}
    while True:
        match = _PATH_PARAMETER_COMPONENT_RE.search(route)
        if not match:
            parts.append(re.escape(route))
            break
        parts.append(re.escape(route[:match.start()]))
        route = route[match.end():]
        parameter = match.group('parameter')
        if not parameter.isidentifier():
            raise ImproperlyConfigured(
                "URL route '%s' uses parameter name %r which isn't a valid "
                "Python identifier." % (original_route, parameter)
            )
        raw_converter = match.group('converter')
        if raw_converter is None:
            # If a converter isn't specified, the default is `str`.
            raw_converter = 'str'
        try:
            converter = get_converter(raw_converter)
        except KeyError as e:
            raise ImproperlyConfigured(
                "URL route '%s' uses invalid converter %s." % (original_route, e)
            )
        converters[parameter] = converter
        parts.append('(?P<' + parameter + '>' + converter.regex + ')')
    if is_endpoint:
        parts.append('$')
    return ''.join(parts), converters


class RoutePattern(CheckURLMixin):
    regex = LocaleRegexDescriptor('_route')

    def __init__(self, route, name=None, is_endpoint=False):
        self._route = route
        self._regex_dict = {}
        self._is_endpoint = is_endpoint
        self.name = name
        self.converters = _route_to_regex(str(route), is_endpoint)[1]

    def match(self, path):
        match = self.regex.search(path)
        if match:
            # RoutePattern doesn't allow non-named groups so args are ignored.
            kwargs = match.groupdict()
            for key, value in kwargs.items():
                converter = self.converters[key]
                try:
                    kwargs[key] = converter.to_python(value)
                except ValueError:
                    return None
            return path[match.end():], (), kwargs
        return None

    def check(self):
        warnings = self._check_pattern_startswith_slash()
        route = self._route
        if '(?P<' in route or route.startswith('^') or route.endswith('$'):
            warnings.append(Warning(
                "Your URL pattern {} has a route that contains '(?P<', begins "
                "with a '^', or ends with a '$'. This was likely an oversight "
                "when migrating to django.urls.path().".format(self.describe()),
                id='2_0.W001',
            ))
        return warnings

    def _compile(self, route):
        return re.compile(_route_to_regex(route, self._is_endpoint)[0])

    def __str__(self):
        return str(self._route)


class LocalePrefixPattern:
    def __init__(self, prefix_default_language=True):
        self.prefix_default_language = prefix_default_language
        self.converters = {}

    @property
    def regex(self):
        # This is only used by reverse() and cached in _reverse_dict.
        return re.compile(self.language_prefix)

    @property
    def language_prefix(self):
        language_code = get_language() or settings.LANGUAGE_CODE
        if language_code == settings.LANGUAGE_CODE and not self.prefix_default_language:
            return ''
        else:
            return '%s/' % language_code

    def match(self, path):
        language_prefix = self.language_prefix
        if path.startswith(language_prefix):
            return path[len(language_prefix):], (), {}
        return None

    def check(self):
        return []

    def describe(self):
        return "'{}'".format(self)

    def __str__(self):
        return self.language_prefix


class URLPattern:
    def __init__(self, pattern, callback, default_args=None, name=None):
        self.pattern = pattern
        self.callback = callback  # the view
        self.default_args = default_args or {}
        self.name = name

    def __repr__(self):
        return '<%s %s>' % (self.__class__.__name__, self.pattern.describe())

    def check(self):
        warnings = self._check_pattern_name()
        warnings.extend(self.pattern.check())
        return warnings

    def _check_pattern_name(self):
        """
        Check that the pattern name does not contain a colon.
        """
        if self.pattern.name is not None and ":" in self.pattern.name:
            warning = Warning(
                "Your URL pattern {} has a name including a ':'. Remove the colon, to "
                "avoid ambiguous namespace references.".format(self.pattern.describe()),
                id="urls.W003",
            )
            return [warning]
        else:
            return []

    def resolve(self, path):
        match = self.pattern.match(path)
        if match:
            new_path, args, kwargs = match
            # Pass any extra_kwargs as **kwargs.
            kwargs.update(self.default_args)
            return ResolverMatch(self.callback, args, kwargs, self.pattern.name)

    @cached_property
    def lookup_str(self):
        """
        A string that identifies the view (e.g. 'path.to.view_function' or
        'path.to.ClassBasedView').
        """
        callback = self.callback
        if isinstance(callback, functools.partial):
            callback = callback.func
        if not hasattr(callback, '__name__'):
            return callback.__module__ + "." + callback.__class__.__name__
        return callback.__module__ + "." + callback.__qualname__


class URLResolver:
    def __init__(self, pattern, urlconf_name, default_kwargs=None, app_name=None, namespace=None):
        self.pattern = pattern
        # urlconf_name is the dotted Python path to the module defining
        # urlpatterns. It may also be an object with an urlpatterns attribute
        # or urlpatterns itself.
        self.urlconf_name = urlconf_name
        self.callback = None
        self.default_kwargs = default_kwargs or {}
        self.namespace = namespace
        self.app_name = app_name
        self._reverse_dict = {}
        self._namespace_dict = {}
        self._app_dict = {}
        # set of dotted paths to all functions and classes that are used in
        # urlpatterns
        self._callback_strs = set()
        self._populated = False
        self._local = threading.local()

    def __repr__(self):
        if isinstance(self.urlconf_name, list) and self.urlconf_name:
            # Don't bother to output the whole list, it can be huge
            urlconf_repr = '<%s list>' % self.urlconf_name[0].__class__.__name__
        else:
            urlconf_repr = repr(self.urlconf_name)
        return '<%s %s (%s:%s) %s>' % (
            self.__class__.__name__, urlconf_repr, self.app_name,
            self.namespace, self.pattern.describe(),
        )

    def check(self):
        warnings = []
        for pattern in self.url_patterns:
            warnings.extend(check_resolver(pattern))
        return warnings or self.pattern.check()

    def _populate(self):
        # Short-circuit if called recursively in this thread to prevent
        # infinite recursion. Concurrent threads may call this at the same
        # time and will need to continue, so set 'populating' on a
        # thread-local variable.
        if getattr(self._local, 'populating', False):
            return
        try:
            self._local.populating = True
            lookups = MultiValueDict()
            namespaces = {}
            apps = {}
            language_code = get_language()
            for url_pattern in reversed(self.url_patterns):
                p_pattern = url_pattern.pattern.regex.pattern
                if p_pattern.startswith('^'):
                    p_pattern = p_pattern[1:]
                if isinstance(url_pattern, URLPattern):
                    self._callback_strs.add(url_pattern.lookup_str)
                    bits = normalize(url_pattern.pattern.regex.pattern)
                    lookups.appendlist(
                        url_pattern.callback,
                        (bits, p_pattern, url_pattern.default_args, url_pattern.pattern.converters)
                    )
                    if url_pattern.name is not None:
                        lookups.appendlist(
                            url_pattern.name,
                            (bits, p_pattern, url_pattern.default_args, url_pattern.pattern.converters)
                        )
                else:  # url_pattern is a URLResolver.
                    url_pattern._populate()
                    if url_pattern.app_name:
                        apps.setdefault(url_pattern.app_name, []).append(url_pattern.namespace)
                        namespaces[url_pattern.namespace] = (p_pattern, url_pattern)
                    else:
                        for name in url_pattern.reverse_dict:
                            for matches, pat, defaults, converters in url_pattern.reverse_dict.getlist(name):
                                new_matches = normalize(p_pattern + pat)
                                lookups.appendlist(
                                    name,
                                    (
                                        new_matches,
                                        p_pattern + pat,
                                        {**defaults, **url_pattern.default_kwargs},
                                        {**self.pattern.converters, **url_pattern.pattern.converters, **converters}
                                    )
                                )
                        for namespace, (prefix, sub_pattern) in url_pattern.namespace_dict.items():
                            namespaces[namespace] = (p_pattern + prefix, sub_pattern)
                        for app_name, namespace_list in url_pattern.app_dict.items():
                            apps.setdefault(app_name, []).extend(namespace_list)
                    self._callback_strs.update(url_pattern._callback_strs)
            self._namespace_dict[language_code] = namespaces
            self._app_dict[language_code] = apps
            self._reverse_dict[language_code] = lookups
            self._populated = True
        finally:
            self._local.populating = False

    @property
    def reverse_dict(self):
        language_code = get_language()
        if language_code not in self._reverse_dict:
            self._populate()
        return self._reverse_dict[language_code]

    @property
    def namespace_dict(self):
        language_code = get_language()
        if language_code not in self._namespace_dict:
            self._populate()
        return self._namespace_dict[language_code]

    @property
    def app_dict(self):
        language_code = get_language()
        if language_code not in self._app_dict:
            self._populate()
        return self._app_dict[language_code]

    def _is_callback(self, name):
        if not self._populated:
            self._populate()
        return name in self._callback_strs

    def resolve(self, path):
        path = str(path)  # path may be a reverse_lazy object
        tried = []
        match = self.pattern.match(path)
        if match:
            new_path, args, kwargs = match
            for pattern in self.url_patterns:
                try:
                    sub_match = pattern.resolve(new_path)
                except Resolver404 as e:
                    sub_tried = e.args[0].get('tried')
                    if sub_tried is not None:
                        tried.extend([pattern] + t for t in sub_tried)
                    else:
                        tried.append([pattern])
                else:
                    if sub_match:
                        # Merge captured arguments in match with submatch
                        sub_match_dict = {**kwargs, **self.default_kwargs}
                        # Update the sub_match_dict with the kwargs from the sub_match.
                        sub_match_dict.update(sub_match.kwargs)
                        # If there are *any* named groups, ignore all non-named groups.
                        # Otherwise, pass all non-named arguments as positional arguments.
                        sub_match_args = sub_match.args
                        if not sub_match_dict:
                            sub_match_args = args + sub_match.args
                        return ResolverMatch(
                            sub_match.func,
                            sub_match_args,
                            sub_match_dict,
                            sub_match.url_name,
                            [self.app_name] + sub_match.app_names,
                            [self.namespace] + sub_match.namespaces,
                        )
                    tried.append([pattern])
            raise Resolver404({'tried': tried, 'path': new_path})
        raise Resolver404({'path': path})

    @cached_property
    def urlconf_module(self):
        if isinstance(self.urlconf_name, str):
            return import_module(self.urlconf_name)
        else:
            return self.urlconf_name

    @cached_property
    def url_patterns(self):
        # urlconf_module might be a valid set of patterns, so we default to it
        patterns = getattr(self.urlconf_module, "urlpatterns", self.urlconf_module)
        try:
            iter(patterns)
        except TypeError:
            msg = (
                "The included URLconf '{name}' does not appear to have any "
                "patterns in it. If you see valid patterns in the file then "
                "the issue is probably caused by a circular import."
            )
            raise ImproperlyConfigured(msg.format(name=self.urlconf_name))
        return patterns

    def resolve_error_handler(self, view_type):
        callback = getattr(self.urlconf_module, 'handler%s' % view_type, None)
        if not callback:
            # No handler specified in file; use lazy import, since
            # django.conf.urls imports this file.
            from django.conf import urls
            callback = getattr(urls, 'handler%s' % view_type)
        return get_callable(callback), {}

    def reverse(self, lookup_view, *args, **kwargs):
        return self._reverse_with_prefix(lookup_view, '', *args, **kwargs)

    def _reverse_with_prefix(self, lookup_view, _prefix, *args, **kwargs):
        if args and kwargs:
            raise ValueError("Don't mix *args and **kwargs in call to reverse()!")

        if not self._populated:
            self._populate()

        possibilities = self.reverse_dict.getlist(lookup_view)

        for possibility, pattern, defaults, converters in possibilities:
            for result, params in possibility:
                if args:
                    if len(args) != len(params):
                        continue
                    candidate_subs = dict(zip(params, args))
                else:
                    if set(kwargs).symmetric_difference(params).difference(defaults):
                        continue
                    if any(kwargs.get(k, v) != v for k, v in defaults.items()):
                        continue
                    candidate_subs = kwargs
                # Convert the candidate subs to text using Converter.to_url().
                text_candidate_subs = {}
                for k, v in candidate_subs.items():
                    if k in converters:
                        text_candidate_subs[k] = converters[k].to_url(v)
                    else:
                        text_candidate_subs[k] = str(v)
                # WSGI provides decoded URLs, without %xx escapes, and the URL
                # resolver operates on such URLs. First substitute arguments
                # without quoting to build a decoded URL and look for a match.
                # Then, if we have a match, redo the substitution with quoted
                # arguments in order to return a properly encoded URL.
                candidate_pat = _prefix.replace('%', '%%') + result
                if re.search('^%s%s' % (re.escape(_prefix), pattern), candidate_pat % text_candidate_subs):
                    # safe characters from `pchar` definition of RFC 3986
                    url = quote(candidate_pat % text_candidate_subs, safe=RFC3986_SUBDELIMS + '/~:@')
                    # Don't allow construction of scheme relative urls.
                    return escape_leading_slashes(url)
        # lookup_view can be URL name or callable, but callables are not
        # friendly in error messages.
        m = getattr(lookup_view, '__module__', None)
        n = getattr(lookup_view, '__name__', None)
        if m is not None and n is not None:
            lookup_view_s = "%s.%s" % (m, n)
        else:
            lookup_view_s = lookup_view

        patterns = [pattern for (_, pattern, _, _) in possibilities]
        if patterns:
            if args:
                arg_msg = "arguments '%s'" % (args,)
            elif kwargs:
                arg_msg = "keyword arguments '%s'" % (kwargs,)
            else:
                arg_msg = "no arguments"
            msg = (
                "Reverse for '%s' with %s not found. %d pattern(s) tried: %s" %
                (lookup_view_s, arg_msg, len(patterns), patterns)
            )
        else:
            msg = (
                "Reverse for '%(view)s' not found. '%(view)s' is not "
                "a valid view function or pattern name." % {'view': lookup_view_s}
            )
        raise NoReverseMatch(msg)
szkielet aplikacji, baza i wyswietlanie danych 2019-01-13 11:33:21 +01:00			`"""`
			`This module converts requested URLs to callback view functions.`

			`URLResolver is the main class here. Its resolve() method takes a URL (as`
			`a string) and returns a ResolverMatch object which provides access to all`
			`attributes of the resolved URL match.`
			`"""`
			`import functools`
			`import re`
			`import threading`
			`from importlib import import_module`
			`from urllib.parse import quote`

			`from django.conf import settings`
			`from django.core.checks import Warning`
			`from django.core.checks.urls import check_resolver`
			`from django.core.exceptions import ImproperlyConfigured`
			`from django.utils.datastructures import MultiValueDict`
			`from django.utils.functional import cached_property`
			`from django.utils.http import RFC3986_SUBDELIMS, escape_leading_slashes`
			`from django.utils.regex_helper import normalize`
			`from django.utils.translation import get_language`

			`from .converters import get_converter`
			`from .exceptions import NoReverseMatch, Resolver404`
			`from .utils import get_callable`


			`class ResolverMatch:`
			`def __init__(self, func, args, kwargs, url_name=None, app_names=None, namespaces=None):`
			`self.func = func`
			`self.args = args`
			`self.kwargs = kwargs`
			`self.url_name = url_name`

			`# If a URLRegexResolver doesn't have a namespace or app_name, it passes`
			`# in an empty value.`
			`self.app_names = [x for x in app_names if x] if app_names else []`
			`self.app_name = ':'.join(self.app_names)`
			`self.namespaces = [x for x in namespaces if x] if namespaces else []`
			`self.namespace = ':'.join(self.namespaces)`

			`if not hasattr(func, '__name__'):`
			`# A class-based view`
			`self._func_path = func.__class__.__module__ + '.' + func.__class__.__name__`
			`else:`
			`# A function-based view`
			`self._func_path = func.__module__ + '.' + func.__name__`

			`view_path = url_name or self._func_path`
			`self.view_name = ':'.join(self.namespaces + [view_path])`

			`def __getitem__(self, index):`
			`return (self.func, self.args, self.kwargs)[index]`

			`def __repr__(self):`
			`return "ResolverMatch(func=%s, args=%s, kwargs=%s, url_name=%s, app_names=%s, namespaces=%s)" % (`
			`self._func_path, self.args, self.kwargs, self.url_name,`
			`self.app_names, self.namespaces,`
			`)`


			`@functools.lru_cache(maxsize=None)`
			`def get_resolver(urlconf=None):`
			`if urlconf is None:`
			`urlconf = settings.ROOT_URLCONF`
			`return URLResolver(RegexPattern(r'^/'), urlconf)`


			`@functools.lru_cache(maxsize=None)`
			`def get_ns_resolver(ns_pattern, resolver, converters):`
			`# Build a namespaced resolver for the given parent URLconf pattern.`
			`# This makes it possible to have captured parameters in the parent`
			`# URLconf pattern.`
			`pattern = RegexPattern(ns_pattern)`
			`pattern.converters = dict(converters)`
			`ns_resolver = URLResolver(pattern, resolver.url_patterns)`
			`return URLResolver(RegexPattern(r'^/'), [ns_resolver])`


			`class LocaleRegexDescriptor:`
			`def __init__(self, attr):`
			`self.attr = attr`

			`def __get__(self, instance, cls=None):`
			`"""`
			`Return a compiled regular expression based on the active language.`
			`"""`
			`if instance is None:`
			`return self`
			`# As a performance optimization, if the given regex string is a regular`
			`# string (not a lazily-translated string proxy), compile it once and`
			`# avoid per-language compilation.`
			`pattern = getattr(instance, self.attr)`
			`if isinstance(pattern, str):`
			`instance.__dict__['regex'] = instance._compile(pattern)`
			`return instance.__dict__['regex']`
			`language_code = get_language()`
			`if language_code not in instance._regex_dict:`
			`instance._regex_dict[language_code] = instance._compile(str(pattern))`
			`return instance._regex_dict[language_code]`


			`class CheckURLMixin:`
			`def describe(self):`
			`"""`
			`Format the URL pattern for display in warning messages.`
			`"""`
			`description = "'{}'".format(self)`
			`if self.name:`
			`description += " [name='{}']".format(self.name)`
			`return description`

			`def _check_pattern_startswith_slash(self):`
			`"""`
			`Check that the pattern does not begin with a forward slash.`
			`"""`
			`regex_pattern = self.regex.pattern`
			`if not settings.APPEND_SLASH:`
			`# Skip check as it can be useful to start a URL pattern with a slash`
			`# when APPEND_SLASH=False.`
			`return []`
			`if regex_pattern.startswith(('/', '^/', '^\\/')) and not regex_pattern.endswith('/'):`
			`warning = Warning(`
			`"Your URL pattern {} has a route beginning with a '/'. Remove this "`
			`"slash as it is unnecessary. If this pattern is targeted in an "`
			`"include(), ensure the include() pattern has a trailing '/'.".format(`
			`self.describe()`
			`),`
			`id="urls.W002",`
			`)`
			`return [warning]`
			`else:`
			`return []`


			`class RegexPattern(CheckURLMixin):`
			`regex = LocaleRegexDescriptor('_regex')`

			`def __init__(self, regex, name=None, is_endpoint=False):`
			`self._regex = regex`
			`self._regex_dict = {}`
			`self._is_endpoint = is_endpoint`
			`self.name = name`
			`self.converters = {}`

			`def match(self, path):`
			`match = self.regex.search(path)`
			`if match:`
			`# If there are any named groups, use those as kwargs, ignoring`
			`# non-named groups. Otherwise, pass all non-named arguments as`
			`# positional arguments.`
			`kwargs = match.groupdict()`
			`args = () if kwargs else match.groups()`
			`return path[match.end():], args, kwargs`
			`return None`

			`def check(self):`
			`warnings = []`
			`warnings.extend(self._check_pattern_startswith_slash())`
			`if not self._is_endpoint:`
			`warnings.extend(self._check_include_trailing_dollar())`
			`return warnings`

			`def _check_include_trailing_dollar(self):`
			`regex_pattern = self.regex.pattern`
			`if regex_pattern.endswith('$') and not regex_pattern.endswith(r'\$'):`
			`return [Warning(`
			`"Your URL pattern {} uses include with a route ending with a '$'. "`
			`"Remove the dollar from the route to avoid problems including "`
			`"URLs.".format(self.describe()),`
			`id='urls.W001',`
			`)]`
			`else:`
			`return []`

			`def _compile(self, regex):`
			`"""Compile and return the given regular expression."""`
			`try:`
			`return re.compile(regex)`
			`except re.error as e:`
			`raise ImproperlyConfigured(`
			`'"%s" is not a valid regular expression: %s' % (regex, e)`
			`)`

			`def __str__(self):`
			`return str(self._regex)`


			`_PATH_PARAMETER_COMPONENT_RE = re.compile(`
			`r'<(?:(?P<converter>[^>:]+):)?(?P<parameter>\w+)>'`
			`)`


			`def _route_to_regex(route, is_endpoint=False):`
			`"""`
			`Convert a path pattern into a regular expression. Return the regular`
			`expression and a dictionary mapping the capture names to the converters.`
			`For example, 'foo/<int:pk>' returns '^foo\\/(?P<pk>[0-9]+)'`
			`and {'pk': <django.urls.converters.IntConverter>}.`
			`"""`
			`original_route = route`
			`parts = ['^']`
			`converters = {}`
			`while True:`
			`match = _PATH_PARAMETER_COMPONENT_RE.search(route)`
			`if not match:`
			`parts.append(re.escape(route))`
			`break`
			`parts.append(re.escape(route[:match.start()]))`
			`route = route[match.end():]`
			`parameter = match.group('parameter')`
			`if not parameter.isidentifier():`
			`raise ImproperlyConfigured(`
			`"URL route '%s' uses parameter name %r which isn't a valid "`
			`"Python identifier." % (original_route, parameter)`
			`)`
			`raw_converter = match.group('converter')`
			`if raw_converter is None:`
			# If a converter isn't specified, the default is `str`.
			`raw_converter = 'str'`
			`try:`
			`converter = get_converter(raw_converter)`
			`except KeyError as e:`
			`raise ImproperlyConfigured(`
			`"URL route '%s' uses invalid converter %s." % (original_route, e)`
			`)`
			`converters[parameter] = converter`
			`parts.append('(?P<' + parameter + '>' + converter.regex + ')')`
			`if is_endpoint:`
			`parts.append('$')`
			`return ''.join(parts), converters`


			`class RoutePattern(CheckURLMixin):`
			`regex = LocaleRegexDescriptor('_route')`

			`def __init__(self, route, name=None, is_endpoint=False):`
			`self._route = route`
			`self._regex_dict = {}`
			`self._is_endpoint = is_endpoint`
			`self.name = name`
			`self.converters = _route_to_regex(str(route), is_endpoint)[1]`

			`def match(self, path):`
			`match = self.regex.search(path)`
			`if match:`
			`# RoutePattern doesn't allow non-named groups so args are ignored.`
			`kwargs = match.groupdict()`
			`for key, value in kwargs.items():`
			`converter = self.converters[key]`
			`try:`
			`kwargs[key] = converter.to_python(value)`
			`except ValueError:`
			`return None`
			`return path[match.end():], (), kwargs`
			`return None`

			`def check(self):`
			`warnings = self._check_pattern_startswith_slash()`
			`route = self._route`
			`if '(?P<' in route or route.startswith('^') or route.endswith('$'):`
			`warnings.append(Warning(`
			`"Your URL pattern {} has a route that contains '(?P<', begins "`
			`"with a '^', or ends with a '$'. This was likely an oversight "`
			`"when migrating to django.urls.path().".format(self.describe()),`
			`id='2_0.W001',`
			`))`
			`return warnings`

			`def _compile(self, route):`
			`return re.compile(_route_to_regex(route, self._is_endpoint)[0])`

			`def __str__(self):`
			`return str(self._route)`


			`class LocalePrefixPattern:`
			`def __init__(self, prefix_default_language=True):`
			`self.prefix_default_language = prefix_default_language`
			`self.converters = {}`

			`@property`
			`def regex(self):`
			`# This is only used by reverse() and cached in _reverse_dict.`
			`return re.compile(self.language_prefix)`

			`@property`
			`def language_prefix(self):`
			`language_code = get_language() or settings.LANGUAGE_CODE`
			`if language_code == settings.LANGUAGE_CODE and not self.prefix_default_language:`
			`return ''`
			`else:`
			`return '%s/' % language_code`

			`def match(self, path):`
			`language_prefix = self.language_prefix`
			`if path.startswith(language_prefix):`
			`return path[len(language_prefix):], (), {}`
			`return None`

			`def check(self):`
			`return []`

			`def describe(self):`
			`return "'{}'".format(self)`

			`def __str__(self):`
			`return self.language_prefix`


			`class URLPattern:`
			`def __init__(self, pattern, callback, default_args=None, name=None):`
			`self.pattern = pattern`
			`self.callback = callback # the view`
			`self.default_args = default_args or {}`
			`self.name = name`

			`def __repr__(self):`
			`return '<%s %s>' % (self.__class__.__name__, self.pattern.describe())`

			`def check(self):`
			`warnings = self._check_pattern_name()`
			`warnings.extend(self.pattern.check())`
			`return warnings`

			`def _check_pattern_name(self):`
			`"""`
			`Check that the pattern name does not contain a colon.`
			`"""`
			`if self.pattern.name is not None and ":" in self.pattern.name:`
			`warning = Warning(`
			`"Your URL pattern {} has a name including a ':'. Remove the colon, to "`
			`"avoid ambiguous namespace references.".format(self.pattern.describe()),`
			`id="urls.W003",`
			`)`
			`return [warning]`
			`else:`
			`return []`

			`def resolve(self, path):`
			`match = self.pattern.match(path)`
			`if match:`
			`new_path, args, kwargs = match`
			`# Pass any extra_kwargs as **kwargs.`
			`kwargs.update(self.default_args)`
			`return ResolverMatch(self.callback, args, kwargs, self.pattern.name)`

			`@cached_property`
			`def lookup_str(self):`
			`"""`
			`A string that identifies the view (e.g. 'path.to.view_function' or`
			`'path.to.ClassBasedView').`
			`"""`
			`callback = self.callback`
			`if isinstance(callback, functools.partial):`
			`callback = callback.func`
			`if not hasattr(callback, '__name__'):`
			`return callback.__module__ + "." + callback.__class__.__name__`
			`return callback.__module__ + "." + callback.__qualname__`


			`class URLResolver:`
			`def __init__(self, pattern, urlconf_name, default_kwargs=None, app_name=None, namespace=None):`
			`self.pattern = pattern`
			`# urlconf_name is the dotted Python path to the module defining`
			`# urlpatterns. It may also be an object with an urlpatterns attribute`
			`# or urlpatterns itself.`
			`self.urlconf_name = urlconf_name`
			`self.callback = None`
			`self.default_kwargs = default_kwargs or {}`
			`self.namespace = namespace`
			`self.app_name = app_name`
			`self._reverse_dict = {}`
			`self._namespace_dict = {}`
			`self._app_dict = {}`
			`# set of dotted paths to all functions and classes that are used in`
			`# urlpatterns`
			`self._callback_strs = set()`
			`self._populated = False`
			`self._local = threading.local()`

			`def __repr__(self):`
			`if isinstance(self.urlconf_name, list) and self.urlconf_name:`
			`# Don't bother to output the whole list, it can be huge`
			`urlconf_repr = '<%s list>' % self.urlconf_name[0].__class__.__name__`
			`else:`
			`urlconf_repr = repr(self.urlconf_name)`
			`return '<%s %s (%s:%s) %s>' % (`
			`self.__class__.__name__, urlconf_repr, self.app_name,`
			`self.namespace, self.pattern.describe(),`
			`)`

			`def check(self):`
			`warnings = []`
			`for pattern in self.url_patterns:`
			`warnings.extend(check_resolver(pattern))`
			`return warnings or self.pattern.check()`

			`def _populate(self):`
			`# Short-circuit if called recursively in this thread to prevent`
			`# infinite recursion. Concurrent threads may call this at the same`
			`# time and will need to continue, so set 'populating' on a`
			`# thread-local variable.`
			`if getattr(self._local, 'populating', False):`
			`return`
			`try:`
			`self._local.populating = True`
			`lookups = MultiValueDict()`
			`namespaces = {}`
			`apps = {}`
			`language_code = get_language()`
			`for url_pattern in reversed(self.url_patterns):`
			`p_pattern = url_pattern.pattern.regex.pattern`
			`if p_pattern.startswith('^'):`
			`p_pattern = p_pattern[1:]`
			`if isinstance(url_pattern, URLPattern):`
			`self._callback_strs.add(url_pattern.lookup_str)`
			`bits = normalize(url_pattern.pattern.regex.pattern)`
			`lookups.appendlist(`
			`url_pattern.callback,`
			`(bits, p_pattern, url_pattern.default_args, url_pattern.pattern.converters)`
			`)`
			`if url_pattern.name is not None:`
			`lookups.appendlist(`
			`url_pattern.name,`
			`(bits, p_pattern, url_pattern.default_args, url_pattern.pattern.converters)`
			`)`
			`else: # url_pattern is a URLResolver.`
			`url_pattern._populate()`
			`if url_pattern.app_name:`
			`apps.setdefault(url_pattern.app_name, []).append(url_pattern.namespace)`
			`namespaces[url_pattern.namespace] = (p_pattern, url_pattern)`
			`else:`
			`for name in url_pattern.reverse_dict:`
			`for matches, pat, defaults, converters in url_pattern.reverse_dict.getlist(name):`
			`new_matches = normalize(p_pattern + pat)`
			`lookups.appendlist(`
			`name,`
			`(`
			`new_matches,`
			`p_pattern + pat,`
			`{defaults, url_pattern.default_kwargs},`
			`{self.pattern.converters, url_pattern.pattern.converters, **converters}`
			`)`
			`)`
			`for namespace, (prefix, sub_pattern) in url_pattern.namespace_dict.items():`
			`namespaces[namespace] = (p_pattern + prefix, sub_pattern)`
			`for app_name, namespace_list in url_pattern.app_dict.items():`
			`apps.setdefault(app_name, []).extend(namespace_list)`
			`self._callback_strs.update(url_pattern._callback_strs)`
			`self._namespace_dict[language_code] = namespaces`
			`self._app_dict[language_code] = apps`
			`self._reverse_dict[language_code] = lookups`
			`self._populated = True`
			`finally:`
			`self._local.populating = False`

			`@property`
			`def reverse_dict(self):`
			`language_code = get_language()`
			`if language_code not in self._reverse_dict:`
			`self._populate()`
			`return self._reverse_dict[language_code]`

			`@property`
			`def namespace_dict(self):`
			`language_code = get_language()`
			`if language_code not in self._namespace_dict:`
			`self._populate()`
			`return self._namespace_dict[language_code]`

			`@property`
			`def app_dict(self):`
			`language_code = get_language()`
			`if language_code not in self._app_dict:`
			`self._populate()`
			`return self._app_dict[language_code]`

			`def _is_callback(self, name):`
			`if not self._populated:`
			`self._populate()`
			`return name in self._callback_strs`

			`def resolve(self, path):`
			`path = str(path) # path may be a reverse_lazy object`
			`tried = []`
			`match = self.pattern.match(path)`
			`if match:`
			`new_path, args, kwargs = match`
			`for pattern in self.url_patterns:`
			`try:`
			`sub_match = pattern.resolve(new_path)`
			`except Resolver404 as e:`
			`sub_tried = e.args[0].get('tried')`
			`if sub_tried is not None:`
			`tried.extend([pattern] + t for t in sub_tried)`
			`else:`
			`tried.append([pattern])`
			`else:`
			`if sub_match:`
			`# Merge captured arguments in match with submatch`
			`sub_match_dict = {kwargs, self.default_kwargs}`
			`# Update the sub_match_dict with the kwargs from the sub_match.`
			`sub_match_dict.update(sub_match.kwargs)`
			`# If there are any named groups, ignore all non-named groups.`
			`# Otherwise, pass all non-named arguments as positional arguments.`
			`sub_match_args = sub_match.args`
			`if not sub_match_dict:`
			`sub_match_args = args + sub_match.args`
			`return ResolverMatch(`
			`sub_match.func,`
			`sub_match_args,`
			`sub_match_dict,`
			`sub_match.url_name,`
			`[self.app_name] + sub_match.app_names,`
			`[self.namespace] + sub_match.namespaces,`
			`)`
			`tried.append([pattern])`
			`raise Resolver404({'tried': tried, 'path': new_path})`
			`raise Resolver404({'path': path})`

			`@cached_property`
			`def urlconf_module(self):`
			`if isinstance(self.urlconf_name, str):`
			`return import_module(self.urlconf_name)`
			`else:`
			`return self.urlconf_name`

			`@cached_property`
			`def url_patterns(self):`
			`# urlconf_module might be a valid set of patterns, so we default to it`
			`patterns = getattr(self.urlconf_module, "urlpatterns", self.urlconf_module)`
			`try:`
			`iter(patterns)`
			`except TypeError:`
			`msg = (`
			`"The included URLconf '{name}' does not appear to have any "`
			`"patterns in it. If you see valid patterns in the file then "`
			`"the issue is probably caused by a circular import."`
			`)`
			`raise ImproperlyConfigured(msg.format(name=self.urlconf_name))`
			`return patterns`

			`def resolve_error_handler(self, view_type):`
			`callback = getattr(self.urlconf_module, 'handler%s' % view_type, None)`
			`if not callback:`
			`# No handler specified in file; use lazy import, since`
			`# django.conf.urls imports this file.`
			`from django.conf import urls`
			`callback = getattr(urls, 'handler%s' % view_type)`
			`return get_callable(callback), {}`

			`def reverse(self, lookup_view, args, *kwargs):`
			`return self._reverse_with_prefix(lookup_view, '', args, *kwargs)`

			`def _reverse_with_prefix(self, lookup_view, _prefix, args, *kwargs):`
			`if args and kwargs:`
			`raise ValueError("Don't mix args and *kwargs in call to reverse()!")`

			`if not self._populated:`
			`self._populate()`

			`possibilities = self.reverse_dict.getlist(lookup_view)`

			`for possibility, pattern, defaults, converters in possibilities:`
			`for result, params in possibility:`
			`if args:`
			`if len(args) != len(params):`
			`continue`
			`candidate_subs = dict(zip(params, args))`
			`else:`
			`if set(kwargs).symmetric_difference(params).difference(defaults):`
			`continue`
			`if any(kwargs.get(k, v) != v for k, v in defaults.items()):`
			`continue`
			`candidate_subs = kwargs`
			`# Convert the candidate subs to text using Converter.to_url().`
			`text_candidate_subs = {}`
			`for k, v in candidate_subs.items():`
			`if k in converters:`
			`text_candidate_subs[k] = converters[k].to_url(v)`
			`else:`
			`text_candidate_subs[k] = str(v)`
			`# WSGI provides decoded URLs, without %xx escapes, and the URL`
			`# resolver operates on such URLs. First substitute arguments`
			`# without quoting to build a decoded URL and look for a match.`
			`# Then, if we have a match, redo the substitution with quoted`
			`# arguments in order to return a properly encoded URL.`
			`candidate_pat = _prefix.replace('%', '%%') + result`
			`if re.search('^%s%s' % (re.escape(_prefix), pattern), candidate_pat % text_candidate_subs):`
			# safe characters from `pchar` definition of RFC 3986
			`url = quote(candidate_pat % text_candidate_subs, safe=RFC3986_SUBDELIMS + '/~:@')`
			`# Don't allow construction of scheme relative urls.`
			`return escape_leading_slashes(url)`
			`# lookup_view can be URL name or callable, but callables are not`
			`# friendly in error messages.`
			`m = getattr(lookup_view, '__module__', None)`
			`n = getattr(lookup_view, '__name__', None)`
			`if m is not None and n is not None:`
			`lookup_view_s = "%s.%s" % (m, n)`
			`else:`
			`lookup_view_s = lookup_view`

			`patterns = [pattern for (_, pattern, _, _) in possibilities]`
			`if patterns:`
			`if args:`
			`arg_msg = "arguments '%s'" % (args,)`
			`elif kwargs:`
			`arg_msg = "keyword arguments '%s'" % (kwargs,)`
			`else:`
			`arg_msg = "no arguments"`
			`msg = (`
			`"Reverse for '%s' with %s not found. %d pattern(s) tried: %s" %`
			`(lookup_view_s, arg_msg, len(patterns), patterns)`
			`)`
			`else:`
			`msg = (`
			`"Reverse for '%(view)s' not found. '%(view)s' is not "`
			`"a valid view function or pattern name." % {'view': lookup_view_s}`
			`)`
			`raise NoReverseMatch(msg)`