#!/usr/bin/env python ### # Copyright (c) 2004, Jeremiah Fincher # All rights reserved. # # Redistribution and use in source and binary forms, with or without # modification, are permitted provided that the following conditions are met: # # * Redistributions of source code must retain the above copyright notice, # this list of conditions, and the following disclaimer. # * Redistributions in binary form must reproduce the above copyright notice, # this list of conditions, and the following disclaimer in the # documentation and/or other materials provided with the distribution. # * Neither the name of the author of this software nor the name of # contributors to this software may be used to endorse or promote products # derived from this software without specific prior written consent. # # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" # AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE # IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE # ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE # LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR # CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF # SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS # INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN # CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) # ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE # POSSIBILITY OF SUCH DAMAGE. ### __revision__ = "$Id$" import re import copy import sets import types import textwrap import utils class RegistryException(Exception): pass class InvalidRegistryFile(RegistryException): pass class InvalidRegistryValue(RegistryException): pass class NonExistentRegistryEntry(RegistryException): pass _cache = {} def open(filename): """Initializes the module by loading the registry file into memory.""" _cache.clear() fd = utils.nonCommentNonEmptyLines(file(filename)) for (i, line) in enumerate(fd): line = line.rstrip('\r\n') try: (key, value) = re.split(r':\s*', line, 1) except ValueError: raise InvalidRegistryFile, 'Error unpacking line #%s' % (i+1) _cache[key.lower()] = value def close(registry, filename, annotated=True): fd = file(filename, 'w') for (name, value) in registry.getValues(getChildren=True): if annotated and hasattr(value, 'help'): lines = textwrap.wrap(value.help) for (i, line) in enumerate(lines): lines[i] = '# %s\n' % line lines.insert(0, '###\n') lines.insert(0, '\n') lines.append('###\n') fd.writelines(lines) fd.write('%s: %s\n' % (name, value)) fd.close() class Value(object): def __init__(self, default, help): self.default = default self.help = utils.normalizeWhitespace(help.strip()) self.setValue(default) self.set(str(self)) # This is needed. def set(self, s): """Override this with a function to convert a string to whatever type you want, and call self.setValue to set the value.""" raise NotImplementedError def setValue(self, v): """Check conditions on the actual value type here. I.e., if you're a IntegerLessThanOneHundred (all your values must be integers less than 100) convert to an integer in set() and check that the integer is less than 100 in this method.""" self.value = v def __str__(self): return repr(self.value) # This is simply prettier than naming this function get(self) def __call__(self): return self.value class Boolean(Value): def set(self, s): s = s.lower() if s in ('true', 'on', 'enable', 'enabled'): value = True elif s in ('false', 'off', 'disable', 'disabled'): value = False elif s == 'toggle': value = not self.value else: raise InvalidRegistryValue, 'Value must be True or False.' self.setValue(value) def setValue(self, v): self.value = bool(v) class Integer(Value): def set(self, s): try: self.setValue(int(s)) except ValueError: raise InvalidRegistryValue, 'Value must be an integer.' class PositiveInteger(Value): def set(self, s): try: self.setValue(int(s)) except ValueError: raise InvalidRegistryValue, 'Value must be a positive integer.' def setValue(self, v): if v <= 0: raise InvalidRegistryValue, 'Value must be a positive integer.' self.value = v class Float(Value): def set(self, s): try: self.setValue(float(s)) except ValueError: raise InvalidRegistryValue, 'Value must be a float.' def setValue(self, v): try: self.value = float(v) except ValueError: raise InvalidRegistryValue, 'Value must be a float.' class String(Value): def set(self, s): if not s: s = '""' elif s[0] != s[-1] or s[0] not in '\'"': s = repr(s) try: v = utils.safeEval(s) if not isinstance(v, basestring): raise ValueError self.value = v except ValueError: # This catches utils.safeEval(s) errors too. raise InvalidRegistryValue, 'Value must be a string.' class NormalizedString(String): def set(self, s): s = utils.normalizeWhitespace(s.strip()) String.set(self, s) def setValue(self, s): s = utils.normalizeWhitespace(s.strip()) String.setValue(self, s) class StringSurroundedBySpaces(String): def set(self, s): String.set(self, s) self.setValue(self.value) def setValue(self, v): if v.lstrip() == v: v= ' ' + v if v.rstrip() == v: v += ' ' self.value = v class CommaSeparatedListOfStrings(String): def set(self, s): String.set(self, s) self.setValue(map(str.strip, re.split(r'\s*,\s*', self.value))) def __str__(self): return ','.join(self.value) class CommaSeparatedSetOfStrings(CommaSeparatedListOfStrings): def setValue(self, v): self.value = sets.Set(v) class Group(object): def __init__(self): self.name = 'unset' self.values = {} self.children = {} self.originals = {} def __nonExistentEntry(self, attr): s = '%s is not a valid entry in %s' % (attr, self.name) raise NonExistentRegistryEntry, s def __getattr__(self, attr): original = attr attr = attr.lower() if attr in self.values: return self.values[attr] elif attr in self.children: return self.children[attr] else: self.__nonExistentEntry(original) def get(self, attr): return self.__getattr__(attr) def getChild(self, attr): return self.children[attr.lower()] def setName(self, name): self.name = name def getName(self): return self.name def register(self, name, value): original = name name = name.lower() self.values[name] = value self.originals[name] = original if _cache: fullname = '%s.%s' % (self.name, name) if fullname in _cache: value.set(_cache[fullname]) def registerGroup(self, name, group=None): original = name name = name.lower() if name in self.children: return # Ignore redundant group inserts. if group is None: group = Group() self.children[name] = group self.originals[name] = original fullname = '%s.%s' % (self.name, name) group.setName(fullname) if _cache and fullname in _cache: group.set(_cache[fullname]) def getValues(self, getChildren=False, fullNames=True): L = [] items = self.values.items() for (name, child) in self.children.items(): if hasattr(child, 'value'): items.append((name, child)) utils.sortBy(lambda (k, _): (k.lower(), len(k), k), items) if fullNames: for (name, value) in items: L.append(('%s.%s'%(self.getName(),self.originals[name]),value)) if getChildren: items = self.children.items() utils.sortBy(lambda (k, _): (k.lower(), len(k), k), items) for (_, child) in items: L.extend(child.getValues(getChildren, fullNames)) return L class GroupWithValue(Group): def __init__(self, value): Group.__init__(self) self.value = value self.help = value.help def set(self, s): self.value.set(s) def setValue(self, v): self.value.setValue(v) def __call__(self): return self.value() def __str__(self): return str(self.value) class GroupWithDefault(GroupWithValue): def __init__(self, value): class X(value.__class__): def set(self, *args): self.__class__ = value.__class__ self.set(*args) def setValue(self, *args): self.__class__ = value.__class__ self.setValue(*args) self.X = X GroupWithValue.__init__(self, value) def __makeChild(self, attr, s): v = copy.copy(self.value) v.set(s) v.__class__ = self.X self.register(attr, v) return v def __getattr__(self, attr): try: v = GroupWithValue.__getattr__(self, attr) if v.__class__ is self.X: raise NonExistentRegistryEntry except NonExistentRegistryEntry: v = self.__makeChild(attr, str(self)) return v def setName(self, name): GroupWithValue.setName(self, name) for (k, v) in _cache.iteritems(): if k.startswith(self.name): (_, group) = rsplit(k, '.', 1) self.__makeChild(group, v) def getValues(self, getChildren=False, fullNames=True): L = GroupWithValue.getValues(self, getChildren, fullNames) L = [v for v in L if v[1].__class__ is not self.X] return L if __name__ == '__main__': import sys sys.setrecursionlimit(40) supybot = Group() supybot.setName('supybot') supybot.register('throttleTime', Float(1, """Determines the minimum number of seconds the bot will wait between sending messages to the server. """)) supybot.registerGroup('plugins') supybot.plugins.registerGroup('topic') supybot.plugins.topic.registerGroup('separator', GroupWithDefault(StringSurroundedBySpaces(' || ', 'Determines what separator the bot uses to separate topic entries.'))) supybot.plugins.topic.separator.setChild('#supybot', ' |||| ') supybot.plugins.topic.separator.set(' <> ') supybot.throttleTime.set(10) supybot.registerGroup('log') supybot.log.registerGroup('stdout', GroupWithValue(Boolean(False, """Help for stdout."""))) supybot.log.stdout.register('colorized', Boolean(False, 'Help colorized')) supybot.log.stdout.setValue(True) for (k, v) in supybot.getValues(): print '%s: %s' % (k, v) print print 'Asking children' print for (k, v) in supybot.getValues(getChildren=True): print '%s: %s' % (k, v) print supybot.throttleTime.help print supybot.plugins.topic.separator.help # vim:set shiftwidth=4 tabstop=8 expandtab textwidth=78: