import re import sys import urllib if sys.version < '2.4': from sets import ImmutableSet as frozenset from routes.util import _url_quote as url_quote, _str_encode class Route(object): """The Route object holds a route recognition and generation routine. See Route.__init__ docs for usage. """ # reserved keys that don't count reserved_keys = ['requirements'] # special chars to indicate a natural split in the URL done_chars = ('/', ',', ';', '.', '#') def __init__(self, name, routepath, **kargs): """Initialize a route, with a given routepath for matching/generation The set of keyword args will be used as defaults. Usage:: >>> from routes.base import Route >>> newroute = Route(None, ':controller/:action/:id') >>> sorted(newroute.defaults.items()) [('action', 'index'), ('id', None)] >>> newroute = Route(None, 'date/:year/:month/:day', ... controller="blog", action="view") >>> newroute = Route(None, 'archives/:page', controller="blog", ... action="by_page", requirements = { 'page':'\d{1,2}' }) >>> newroute.reqs {'page': '\\\d{1,2}'} .. Note:: Route is generally not called directly, a Mapper instance connect method should be used to add routes. """ self.routepath = routepath self.sub_domains = False self.prior = None self.redirect = False self.name = name self._kargs = kargs self.minimization = kargs.pop('_minimize', False) self.encoding = kargs.pop('_encoding', 'utf-8') self.reqs = kargs.get('requirements', {}) self.decode_errors = 'replace' # Don't bother forming stuff we don't need if its a static route self.static = kargs.pop('_static', False) self.filter = kargs.pop('_filter', None) self.absolute = kargs.pop('_absolute', False) # Pull out the member/collection name if present, this applies only to # map.resource self.member_name = kargs.pop('_member_name', None) self.collection_name = kargs.pop('_collection_name', None) self.parent_resource = kargs.pop('_parent_resource', None) # Pull out route conditions self.conditions = kargs.pop('conditions', None) # Determine if explicit behavior should be used self.explicit = kargs.pop('_explicit', False) # Since static need to be generated exactly, treat them as # non-minimized if self.static: self.external = '://' in self.routepath self.minimization = False # Strip preceding '/' if present, and not minimizing if routepath.startswith('/') and self.minimization: self.routepath = routepath[1:] self._setup_route() def _setup_route(self): # Build our routelist, and the keys used in the route self.routelist = routelist = self._pathkeys(self.routepath) routekeys = frozenset([key['name'] for key in routelist if isinstance(key, dict)]) self.dotkeys = frozenset([key['name'] for key in routelist if isinstance(key, dict) and key['type'] == '.']) if not self.minimization: self.make_full_route() # Build a req list with all the regexp requirements for our args self.req_regs = {} for key, val in self.reqs.iteritems(): self.req_regs[key] = re.compile('^' + val + '$') # Update our defaults and set new default keys if needed. defaults # needs to be saved (self.defaults, defaultkeys) = self._defaults(routekeys, self.reserved_keys, self._kargs.copy()) # Save the maximum keys we could utilize self.maxkeys = defaultkeys | routekeys # Populate our minimum keys, and save a copy of our backward keys for # quicker generation later (self.minkeys, self.routebackwards) = self._minkeys(routelist[:]) # Populate our hardcoded keys, these are ones that are set and don't # exist in the route self.hardcoded = frozenset([key for key in self.maxkeys \ if key not in routekeys and self.defaults[key] is not None]) # Cache our default keys self._default_keys = frozenset(self.defaults.keys()) def make_full_route(self): """Make a full routelist string for use with non-minimized generation""" regpath = '' for part in self.routelist: if isinstance(part, dict): regpath += '%(' + part['name'] + ')s' else: regpath += part self.regpath = regpath def make_unicode(self, s): """Transform the given argument into a unicode string.""" if isinstance(s, unicode): return s elif isinstance(s, str): return s.decode(self.encoding) elif callable(s): return s else: return unicode(s) def _pathkeys(self, routepath): """Utility function to walk the route, and pull out the valid dynamic/wildcard keys.""" collecting = False current = '' done_on = '' var_type = '' just_started = False routelist = [] for char in routepath: if char in [':', '*', '{'] and not collecting and not self.static \ or char in ['{'] and not collecting: just_started = True collecting = True var_type = char if char == '{': done_on = '}' just_started = False if len(current) > 0: routelist.append(current) current = '' elif collecting and just_started: just_started = False if char == '(': done_on = ')' else: current = char done_on = self.done_chars + ('-',) elif collecting and char not in done_on: current += char elif collecting: collecting = False if var_type == '{': if current[0] == '.': var_type = '.' current = current[1:] else: var_type = ':' opts = current.split(':') if len(opts) > 1: current = opts[0] self.reqs[current] = opts[1] routelist.append(dict(type=var_type, name=current)) if char in self.done_chars: routelist.append(char) done_on = var_type = current = '' else: current += char if collecting: routelist.append(dict(type=var_type, name=current)) elif current: routelist.append(current) return routelist def _minkeys(self, routelist): """Utility function to walk the route backwards Will also determine the minimum keys we can handle to generate a working route. routelist is a list of the '/' split route path defaults is a dict of all the defaults provided for the route """ minkeys = [] backcheck = routelist[:] # If we don't honor minimization, we need all the keys in the # route path if not self.minimization: for part in backcheck: if isinstance(part, dict): minkeys.append(part['name']) return (frozenset(minkeys), backcheck) gaps = False backcheck.reverse() for part in backcheck: if not isinstance(part, dict) and part not in self.done_chars: gaps = True continue elif not isinstance(part, dict): continue key = part['name'] if self.defaults.has_key(key) and not gaps: continue minkeys.append(key) gaps = True return (frozenset(minkeys), backcheck) def _defaults(self, routekeys, reserved_keys, kargs): """Creates default set with values stringified Put together our list of defaults, stringify non-None values and add in our action/id default if they use it and didn't specify it. defaultkeys is a list of the currently assumed default keys routekeys is a list of the keys found in the route path reserved_keys is a list of keys that are not """ defaults = {} # Add in a controller/action default if they don't exist if 'controller' not in routekeys and 'controller' not in kargs \ and not self.explicit: kargs['controller'] = 'content' if 'action' not in routekeys and 'action' not in kargs \ and not self.explicit: kargs['action'] = 'index' defaultkeys = frozenset([key for key in kargs.keys() \ if key not in reserved_keys]) for key in defaultkeys: if kargs[key] is not None: defaults[key] = self.make_unicode(kargs[key]) else: defaults[key] = None if 'action' in routekeys and not defaults.has_key('action') \ and not self.explicit: defaults['action'] = 'index' if 'id' in routekeys and not defaults.has_key('id') \ and not self.explicit: defaults['id'] = None newdefaultkeys = frozenset([key for key in defaults.keys() \ if key not in reserved_keys]) return (defaults, newdefaultkeys) def makeregexp(self, clist, include_names=True): """Create a regular expression for matching purposes Note: This MUST be called before match can function properly. clist should be a list of valid controller strings that can be matched, for this reason makeregexp should be called by the web framework after it knows all available controllers that can be utilized. include_names indicates whether this should be a match regexp assigned to itself using regexp grouping names, or if names should be excluded for use in a single larger regexp to determine if any routes match """ if self.minimization: reg = self.buildnextreg(self.routelist, clist, include_names)[0] if not reg: reg = '/' reg = reg + '/?' + '$' if not reg.startswith('/'): reg = '/' + reg else: reg = self.buildfullreg(clist, include_names) reg = '^' + reg if not include_names: return reg self.regexp = reg self.regmatch = re.compile(reg) def buildfullreg(self, clist, include_names=True): """Build the regexp by iterating through the routelist and replacing dicts with the appropriate regexp match""" regparts = [] for part in self.routelist: if isinstance(part, dict): var = part['name'] if var == 'controller': partmatch = '|'.join(map(re.escape, clist)) elif part['type'] == ':': partmatch = self.reqs.get(var) or '[^/]+?' elif part['type'] == '.': partmatch = self.reqs.get(var) or '[^/.]+?' else: partmatch = self.reqs.get(var) or '.+?' if include_names: regpart = '(?P<%s>%s)' % (var, partmatch) else: regpart = '(?:%s)' % partmatch if part['type'] == '.': regparts.append('(?:\.%s)??' % regpart) else: regparts.append(regpart) else: regparts.append(re.escape(part)) regexp = ''.join(regparts) + '$' return regexp def buildnextreg(self, path, clist, include_names=True): """Recursively build our regexp given a path, and a controller list. Returns the regular expression string, and two booleans that can be ignored as they're only used internally by buildnextreg. """ if path: part = path[0] else: part = '' reg = '' # noreqs will remember whether the remainder has either a string # match, or a non-defaulted regexp match on a key, allblank remembers # if the rest could possible be completely empty (rest, noreqs, allblank) = ('', True, True) if len(path[1:]) > 0: self.prior = part (rest, noreqs, allblank) = self.buildnextreg(path[1:], clist, include_names) if isinstance(part, dict) and part['type'] in (':', '.'): var = part['name'] typ = part['type'] partreg = '' # First we plug in the proper part matcher if self.reqs.has_key(var): if include_names: partreg = '(?P<%s>%s)' % (var, self.reqs[var]) else: partreg = '(?:%s)' % self.reqs[var] if typ == '.': partreg = '(?:\.%s)??' % partreg elif var == 'controller': if include_names: partreg = '(?P<%s>%s)' % (var, '|'.join(map(re.escape, clist))) else: partreg = '(?:%s)' % '|'.join(map(re.escape, clist)) elif self.prior in ['/', '#']: if include_names: partreg = '(?P<' + var + '>[^' + self.prior + ']+?)' else: partreg = '(?:[^' + self.prior + ']+?)' else: if not rest: if typ == '.': exclude_chars = '/.' else: exclude_chars = '/' if include_names: partreg = '(?P<%s>[^%s]+?)' % (var, exclude_chars) else: partreg = '(?:[^%s]+?)' % exclude_chars if typ == '.': partreg = '(?:\.%s)??' % partreg else: end = ''.join(self.done_chars) rem = rest if rem[0] == '\\' and len(rem) > 1: rem = rem[1] elif rem.startswith('(\\') and len(rem) > 2: rem = rem[2] else: rem = end rem = frozenset(rem) | frozenset(['/']) if include_names: partreg = '(?P<%s>[^%s]+?)' % (var, ''.join(rem)) else: partreg = '(?:[^%s]+?)' % ''.join(rem) if self.reqs.has_key(var): noreqs = False if not self.defaults.has_key(var): allblank = False noreqs = False # Now we determine if its optional, or required. This changes # depending on what is in the rest of the match. If noreqs is # true, then its possible the entire thing is optional as there's # no reqs or string matches. if noreqs: # The rest is optional, but now we have an optional with a # regexp. Wrap to ensure that if we match anything, we match # our regexp first. It's still possible we could be completely # blank as we have a default if self.reqs.has_key(var) and self.defaults.has_key(var): reg = '(' + partreg + rest + ')?' # Or we have a regexp match with no default, so now being # completely blank form here on out isn't possible elif self.reqs.has_key(var): allblank = False reg = partreg + rest # If the character before this is a special char, it has to be # followed by this elif self.defaults.has_key(var) and \ self.prior in (',', ';', '.'): reg = partreg + rest # Or we have a default with no regexp, don't touch the allblank elif self.defaults.has_key(var): reg = partreg + '?' + rest # Or we have a key with no default, and no reqs. Not possible # to be all blank from here else: allblank = False reg = partreg + rest # In this case, we have something dangling that might need to be # matched else: # If they can all be blank, and we have a default here, we know # its safe to make everything from here optional. Since # something else in the chain does have req's though, we have # to make the partreg here required to continue matching if allblank and self.defaults.has_key(var): reg = '(' + partreg + rest + ')?' # Same as before, but they can't all be blank, so we have to # require it all to ensure our matches line up right else: reg = partreg + rest elif isinstance(part, dict) and part['type'] == '*': var = part['name'] if noreqs: if include_names: reg = '(?P<%s>.*)' % var + rest else: reg = '(?:.*)' + rest if not self.defaults.has_key(var): allblank = False noreqs = False else: if allblank and self.defaults.has_key(var): if include_names: reg = '(?P<%s>.*)' % var + rest else: reg = '(?:.*)' + rest elif self.defaults.has_key(var): if include_names: reg = '(?P<%s>.*)' % var + rest else: reg = '(?:.*)' + rest else: if include_names: reg = '(?P<%s>.*)' % var + rest else: reg = '(?:.*)' + rest allblank = False noreqs = False elif part and part[-1] in self.done_chars: if allblank: reg = re.escape(part[:-1]) + '(' + re.escape(part[-1]) + rest reg += ')?' else: allblank = False reg = re.escape(part) + rest # We have a normal string here, this is a req, and it prevents us from # being all blank else: noreqs = False allblank = False reg = re.escape(part) + rest return (reg, noreqs, allblank) def match(self, url, environ=None, sub_domains=False, sub_domains_ignore=None, domain_match=''): """Match a url to our regexp. While the regexp might match, this operation isn't guaranteed as there's other factors that can cause a match to fail even though the regexp succeeds (Default that was relied on wasn't given, requirement regexp doesn't pass, etc.). Therefore the calling function shouldn't assume this will return a valid dict, the other possible return is False if a match doesn't work out. """ # Static routes don't match, they generate only if self.static: return False match = self.regmatch.match(url) if not match: return False sub_domain = None if sub_domains and environ and 'HTTP_HOST' in environ: host = environ['HTTP_HOST'].split(':')[0] sub_match = re.compile('^(.+?)\.%s$' % domain_match) subdomain = re.sub(sub_match, r'\1', host) if subdomain not in sub_domains_ignore and host != subdomain: sub_domain = subdomain if self.conditions: if 'method' in self.conditions and environ and \ environ['REQUEST_METHOD'] not in self.conditions['method']: return False # Check sub-domains? use_sd = self.conditions.get('sub_domain') if use_sd and not sub_domain: return False elif not use_sd and 'sub_domain' in self.conditions and sub_domain: return False if isinstance(use_sd, list) and sub_domain not in use_sd: return False matchdict = match.groupdict() result = {} extras = self._default_keys - frozenset(matchdict.keys()) for key, val in matchdict.iteritems(): if key != 'path_info' and self.encoding: # change back into python unicode objects from the URL # representation try: val = val and val.decode(self.encoding, self.decode_errors) except UnicodeDecodeError: return False if not val and key in self.defaults and self.defaults[key]: result[key] = self.defaults[key] else: result[key] = val for key in extras: result[key] = self.defaults[key] # Add the sub-domain if there is one if sub_domains: result['sub_domain'] = sub_domain # If there's a function, call it with environ and expire if it # returns False if self.conditions and 'function' in self.conditions and \ not self.conditions['function'](environ, result): return False return result def generate_non_minimized(self, kargs): """Generate a non-minimal version of the URL""" # Iterate through the keys that are defaults, and NOT in the route # path. If its not in kargs, or doesn't match, or is None, this # route won't work for k in self.maxkeys - self.minkeys: if k not in kargs: return False elif self.make_unicode(kargs[k]) != \ self.make_unicode(self.defaults[k]): return False # Ensure that all the args in the route path are present and not None for arg in self.minkeys: if arg not in kargs or kargs[arg] is None: if arg in self.dotkeys: kargs[arg] = '' else: return False # Encode all the argument that the regpath can use for k in kargs: if k in self.maxkeys: if k in self.dotkeys: if kargs[k]: kargs[k] = url_quote('.' + kargs[k], self.encoding) else: kargs[k] = url_quote(kargs[k], self.encoding) return self.regpath % kargs def generate_minimized(self, kargs): """Generate a minimized version of the URL""" routelist = self.routebackwards urllist = [] gaps = False for part in routelist: if isinstance(part, dict) and part['type'] in (':', '.'): arg = part['name'] # For efficiency, check these just once has_arg = kargs.has_key(arg) has_default = self.defaults.has_key(arg) # Determine if we can leave this part off # First check if the default exists and wasn't provided in the # call (also no gaps) if has_default and not has_arg and not gaps: continue # Now check to see if there's a default and it matches the # incoming call arg if (has_default and has_arg) and self.make_unicode(kargs[arg]) == \ self.make_unicode(self.defaults[arg]) and not gaps: continue # We need to pull the value to append, if the arg is None and # we have a default, use that if has_arg and kargs[arg] is None and has_default and not gaps: continue # Otherwise if we do have an arg, use that elif has_arg: val = kargs[arg] elif has_default and self.defaults[arg] is not None: val = self.defaults[arg] # Optional format parameter? elif part['type'] == '.': continue # No arg at all? This won't work else: return False urllist.append(url_quote(val, self.encoding)) if part['type'] == '.': urllist.append('.') if has_arg: del kargs[arg] gaps = True elif isinstance(part, dict) and part['type'] == '*': arg = part['name'] kar = kargs.get(arg) if kar is not None: urllist.append(url_quote(kar, self.encoding)) gaps = True elif part and part[-1] in self.done_chars: if not gaps and part in self.done_chars: continue elif not gaps: urllist.append(part[:-1]) gaps = True else: gaps = True urllist.append(part) else: gaps = True urllist.append(part) urllist.reverse() url = ''.join(urllist) return url def generate(self, _ignore_req_list=False, _append_slash=False, **kargs): """Generate a URL from ourself given a set of keyword arguments Toss an exception if this set of keywords would cause a gap in the url. """ # Verify that our args pass any regexp requirements if not _ignore_req_list: for key in self.reqs.keys(): val = kargs.get(key) if val and not self.req_regs[key].match(self.make_unicode(val)): return False # Verify that if we have a method arg, its in the method accept list. # Also, method will be changed to _method for route generation meth = kargs.get('method') if meth: if self.conditions and 'method' in self.conditions \ and meth.upper() not in self.conditions['method']: return False kargs.pop('method') if self.minimization: url = self.generate_minimized(kargs) else: url = self.generate_non_minimized(kargs) if url is False: return url if not url.startswith('/') and not self.static: url = '/' + url extras = frozenset(kargs.keys()) - self.maxkeys if extras: if _append_slash and not url.endswith('/'): url += '/' fragments = [] # don't assume the 'extras' set preserves order: iterate # through the ordered kargs instead for key in kargs: if key not in extras: continue if key == 'action' or key == 'controller': continue val = kargs[key] if isinstance(val, (tuple, list)): for value in val: fragments.append((key, _str_encode(value, self.encoding))) else: fragments.append((key, _str_encode(val, self.encoding))) if fragments: url += '?' url += urllib.urlencode(fragments) elif _append_slash and not url.endswith('/'): url += '/' return url