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"""Helper functions for CP apps."""
import urllib.parse
from cherrypy._cpcompat import text_or_bytes
import cherrypy
def expose(func=None, alias=None):
"""Expose the function or class.
Optionally provide an alias or set of aliases.
"""
def expose_(func):
func.exposed = True
if alias is not None:
if isinstance(alias, text_or_bytes):
parents[alias.replace('.', '_')] = func
else:
for a in alias:
parents[a.replace('.', '_')] = func
return func
import sys
import types
decoratable_types = types.FunctionType, types.MethodType, type,
if isinstance(func, decoratable_types):
if alias is None:
# @expose
func.exposed = True
return func
else:
# func = expose(func, alias)
parents = sys._getframe(1).f_locals
return expose_(func)
elif func is None:
if alias is None:
# @expose()
parents = sys._getframe(1).f_locals
return expose_
else:
# @expose(alias="alias") or
# @expose(alias=["alias1", "alias2"])
parents = sys._getframe(1).f_locals
return expose_
else:
# @expose("alias") or
# @expose(["alias1", "alias2"])
parents = sys._getframe(1).f_locals
alias = func
return expose_
def popargs(*args, **kwargs):
"""Decorate _cp_dispatch.
(cherrypy.dispatch.Dispatcher.dispatch_method_name)
Optional keyword argument: handler=(Object or Function)
Provides a _cp_dispatch function that pops off path segments into
cherrypy.request.params under the names specified. The dispatch
is then forwarded on to the next vpath element.
Note that any existing (and exposed) member function of the class that
popargs is applied to will override that value of the argument. For
instance, if you have a method named "list" on the class decorated with
popargs, then accessing "/list" will call that function instead of popping
it off as the requested parameter. This restriction applies to all
_cp_dispatch functions. The only way around this restriction is to create
a "blank class" whose only function is to provide _cp_dispatch.
If there are path elements after the arguments, or more arguments
are requested than are available in the vpath, then the 'handler'
keyword argument specifies the next object to handle the parameterized
request. If handler is not specified or is None, then self is used.
If handler is a function rather than an instance, then that function
will be called with the args specified and the return value from that
function used as the next object INSTEAD of adding the parameters to
cherrypy.request.args.
This decorator may be used in one of two ways:
As a class decorator:
.. code-block:: python
@cherrypy.popargs('year', 'month', 'day')
class Blog:
def index(self, year=None, month=None, day=None):
#Process the parameters here; any url like
#/, /2009, /2009/12, or /2009/12/31
#will fill in the appropriate parameters.
def create(self):
#This link will still be available at /create.
#Defined functions take precedence over arguments.
Or as a member of a class:
.. code-block:: python
class Blog:
_cp_dispatch = cherrypy.popargs('year', 'month', 'day')
#...
The handler argument may be used to mix arguments with built in functions.
For instance, the following setup allows different activities at the
day, month, and year level:
.. code-block:: python
class DayHandler:
def index(self, year, month, day):
#Do something with this day; probably list entries
def delete(self, year, month, day):
#Delete all entries for this day
@cherrypy.popargs('day', handler=DayHandler())
class MonthHandler:
def index(self, year, month):
#Do something with this month; probably list entries
def delete(self, year, month):
#Delete all entries for this month
@cherrypy.popargs('month', handler=MonthHandler())
class YearHandler:
def index(self, year):
#Do something with this year
#...
@cherrypy.popargs('year', handler=YearHandler())
class Root:
def index(self):
#...
"""
# Since keyword arg comes after *args, we have to process it ourselves
# for lower versions of python.
handler = None
handler_call = False
for k, v in kwargs.items():
if k == 'handler':
handler = v
else:
tm = "cherrypy.popargs() got an unexpected keyword argument '{0}'"
raise TypeError(tm.format(k))
import inspect
if handler is not None \
and (hasattr(handler, '__call__') or inspect.isclass(handler)):
handler_call = True
def decorated(cls_or_self=None, vpath=None):
if inspect.isclass(cls_or_self):
# cherrypy.popargs is a class decorator
cls = cls_or_self
name = cherrypy.dispatch.Dispatcher.dispatch_method_name
setattr(cls, name, decorated)
return cls
# We're in the actual function
self = cls_or_self
parms = {}
for arg in args:
if not vpath:
break
parms[arg] = vpath.pop(0)
if handler is not None:
if handler_call:
return handler(**parms)
else:
cherrypy.request.params.update(parms)
return handler
cherrypy.request.params.update(parms)
# If we are the ultimate handler, then to prevent our _cp_dispatch
# from being called again, we will resolve remaining elements through
# getattr() directly.
if vpath:
return getattr(self, vpath.pop(0), None)
else:
return self
return decorated
def url(path='', qs='', script_name=None, base=None, relative=None):
"""Create an absolute URL for the given path.
If 'path' starts with a slash ('/'), this will return
(base + script_name + path + qs).
If it does not start with a slash, this returns
(base + script_name [+ request.path_info] + path + qs).
If script_name is None, cherrypy.request will be used
to find a script_name, if available.
If base is None, cherrypy.request.base will be used (if available).
Note that you can use cherrypy.tools.proxy to change this.
Finally, note that this function can be used to obtain an absolute URL
for the current request path (minus the querystring) by passing no args.
If you call url(qs=cherrypy.request.query_string), you should get the
original browser URL (assuming no internal redirections).
If relative is None or not provided, request.app.relative_urls will
be used (if available, else False). If False, the output will be an
absolute URL (including the scheme, host, vhost, and script_name).
If True, the output will instead be a URL that is relative to the
current request path, perhaps including '..' atoms. If relative is
the string 'server', the output will instead be a URL that is
relative to the server root; i.e., it will start with a slash.
"""
if isinstance(qs, (tuple, list, dict)):
qs = urllib.parse.urlencode(qs)
if qs:
qs = '?' + qs
if cherrypy.request.app:
if not path.startswith('/'):
# Append/remove trailing slash from path_info as needed
# (this is to support mistyped URL's without redirecting;
# if you want to redirect, use tools.trailing_slash).
pi = cherrypy.request.path_info
if cherrypy.request.is_index is True:
if not pi.endswith('/'):
pi = pi + '/'
elif cherrypy.request.is_index is False:
if pi.endswith('/') and pi != '/':
pi = pi[:-1]
if path == '':
path = pi
else:
path = urllib.parse.urljoin(pi, path)
if script_name is None:
script_name = cherrypy.request.script_name
if base is None:
base = cherrypy.request.base
newurl = base + script_name + normalize_path(path) + qs
else:
# No request.app (we're being called outside a request).
# We'll have to guess the base from server.* attributes.
# This will produce very different results from the above
# if you're using vhosts or tools.proxy.
if base is None:
base = cherrypy.server.base()
path = (script_name or '') + path
newurl = base + normalize_path(path) + qs
# At this point, we should have a fully-qualified absolute URL.
if relative is None:
relative = getattr(cherrypy.request.app, 'relative_urls', False)
# See http://www.ietf.org/rfc/rfc2396.txt
if relative == 'server':
# "A relative reference beginning with a single slash character is
# termed an absolute-path reference, as defined by <abs_path>..."
# This is also sometimes called "server-relative".
newurl = '/' + '/'.join(newurl.split('/', 3)[3:])
elif relative:
# "A relative reference that does not begin with a scheme name
# or a slash character is termed a relative-path reference."
old = url(relative=False).split('/')[:-1]
new = newurl.split('/')
while old and new:
a, b = old[0], new[0]
if a != b:
break
old.pop(0)
new.pop(0)
new = (['..'] * len(old)) + new
newurl = '/'.join(new)
return newurl
def normalize_path(path):
"""Resolve given path from relative into absolute form."""
if './' not in path:
return path
# Normalize the URL by removing ./ and ../
atoms = []
for atom in path.split('/'):
if atom == '.':
pass
elif atom == '..':
# Don't pop from empty list
# (i.e. ignore redundant '..')
if atoms:
atoms.pop()
elif atom:
atoms.append(atom)
newpath = '/'.join(atoms)
# Preserve leading '/'
if path.startswith('/'):
newpath = '/' + newpath
return newpath
####
# Inlined from jaraco.classes 1.4.3
# Ref #1673
class _ClassPropertyDescriptor(object):
"""Descript for read-only class-based property.
Turns a classmethod-decorated func into a read-only property of that class
type (means the value cannot be set).
"""
def __init__(self, fget, fset=None):
"""Initialize a class property descriptor.
Instantiated by ``_helper.classproperty``.
"""
self.fget = fget
self.fset = fset
def __get__(self, obj, klass=None):
"""Return property value."""
if klass is None:
klass = type(obj)
return self.fget.__get__(obj, klass)()
def classproperty(func): # noqa: D401; irrelevant for properties
"""Decorator like classmethod to implement a static class property."""
if not isinstance(func, (classmethod, staticmethod)):
func = classmethod(func)
return _ClassPropertyDescriptor(func)
####
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