"""Configuration file parser. A setup file consists of sections, lead by a "[section]" header, and followed by "name: value" entries, with continuations and such in the style of RFC 822. The option values can contain format strings which refer to other values in the same section, or values in a special [DEFAULT] section. For example: something: %(dir)s/whatever would resolve the "%(dir)s" to the value of dir. All reference expansions are done late, on demand. Intrinsic defaults can be specified by passing them into the ConfigParser constructor as a dictionary. class: ConfigParser -- responsible for for parsing a list of configuration files, and managing the parsed database. methods: __init__(defaults=None) create the parser and specify a dictionary of intrinsic defaults. The keys must be strings, the values must be appropriate for %()s string interpolation. Note that `__name__' is always an intrinsic default; it's value is the section's name. sections() return all the configuration section names, sans DEFAULT has_section(section) return whether the given section exists has_option(section, option) return whether the given option exists in the given section options(section) return list of configuration options for the named section has_option(section, option) return whether the given section has the given option read(filenames) read and parse the list of named configuration files, given by name. A single filename is also allowed. Non-existing files are ignored. readfp(fp, filename=None) read and parse one configuration file, given as a file object. The filename defaults to fp.name; it is only used in error messages (if fp has no `name' attribute, the string `' is used). get(section, option, raw=0, vars=None) return a string value for the named option. All % interpolations are expanded in the return values, based on the defaults passed into the constructor and the DEFAULT section. Additional substitutions may be provided using the `vars' argument, which must be a dictionary whose contents override any pre-existing defaults. getint(section, options) like get(), but convert value to an integer getfloat(section, options) like get(), but convert value to a float getboolean(section, options) like get(), but convert value to a boolean (currently defined as 0 or 1, only) remove_section(section) remove the given file section and all its options remove_option(section, option) remove the given option from the given section set(section, option, value) set the given option write(fp) write the configuration state in .ini format """ import sys import string import re __all__ = ["NoSectionError","DuplicateSectionError","NoOptionError", "InterpolationError","InterpolationDepthError","ParsingError", "MissingSectionHeaderError","ConfigParser", "MAX_INTERPOLATION_DEPTH"] DEFAULTSECT = "DEFAULT" MAX_INTERPOLATION_DEPTH = 10 # exception classes class Error(Exception): def __init__(self, msg=''): self._msg = msg Exception.__init__(self, msg) def __repr__(self): return self._msg __str__ = __repr__ class NoSectionError(Error): def __init__(self, section): Error.__init__(self, 'No section: %s' % section) self.section = section class DuplicateSectionError(Error): def __init__(self, section): Error.__init__(self, "Section %s already exists" % section) self.section = section class NoOptionError(Error): def __init__(self, option, section): Error.__init__(self, "No option `%s' in section: %s" % (option, section)) self.option = option self.section = section class InterpolationError(Error): def __init__(self, reference, option, section, rawval): Error.__init__(self, "Bad value substitution:\n" "\tsection: [%s]\n" "\toption : %s\n" "\tkey : %s\n" "\trawval : %s\n" % (section, option, reference, rawval)) self.reference = reference self.option = option self.section = section class InterpolationDepthError(Error): def __init__(self, option, section, rawval): Error.__init__(self, "Value interpolation too deeply recursive:\n" "\tsection: [%s]\n" "\toption : %s\n" "\trawval : %s\n" % (section, option, rawval)) self.option = option self.section = section class ParsingError(Error): def __init__(self, filename): Error.__init__(self, 'File contains parsing errors: %s' % filename) self.filename = filename self.errors = [] def append(self, lineno, line): self.errors.append((lineno, line)) self._msg = self._msg + '\n\t[line %2d]: %s' % (lineno, line) class MissingSectionHeaderError(ParsingError): def __init__(self, filename, lineno, line): Error.__init__( self, 'File contains no section headers.\nfile: %s, line: %d\n%s' % (filename, lineno, line)) self.filename = filename self.lineno = lineno self.line = line class ConfigParser: def __init__(self, defaults=None): self.__sections = {} if defaults is None: self.__defaults = {} else: self.__defaults = defaults def defaults(self): return self.__defaults def sections(self): """Return a list of section names, excluding [DEFAULT]""" # self.__sections will never have [DEFAULT] in it return self.__sections.keys() def add_section(self, section): """Create a new section in the configuration. Raise DuplicateSectionError if a section by the specified name already exists. """ if self.__sections.has_key(section): raise DuplicateSectionError(section) self.__sections[section] = {} def has_section(self, section): """Indicate whether the named section is present in the configuration. The DEFAULT section is not acknowledged. """ return section in self.sections() def options(self, section): """Return a list of option names for the given section name.""" try: opts = self.__sections[section].copy() except KeyError: raise NoSectionError(section) opts.update(self.__defaults) if opts.has_key('__name__'): del opts['__name__'] return opts.keys() def has_option(self, section, option): """Return whether the given section has the given option.""" return option in self.options(section) def read(self, filenames): """Read and parse a filename or a list of filenames. Files that cannot be opened are silently ignored; this is designed so that you can specify a list of potential configuration file locations (e.g. current directory, user's home directory, systemwide directory), and all existing configuration files in the list will be read. A single filename may also be given. """ if type(filenames) in [type(''), type(u'')]: filenames = [filenames] for filename in filenames: try: fp = open(filename) except IOError: continue self.__read(fp, filename) fp.close() def readfp(self, fp, filename=None): """Like read() but the argument must be a file-like object. The `fp' argument must have a `readline' method. Optional second argument is the `filename', which if not given, is taken from fp.name. If fp has no `name' attribute, `' is used. """ if filename is None: try: filename = fp.name except AttributeError: filename = '' self.__read(fp, filename) def get(self, section, option, raw=0, vars=None): """Get an option value for a given section. All % interpolations are expanded in the return values, based on the defaults passed into the constructor, unless the optional argument `raw' is true. Additional substitutions may be provided using the `vars' argument, which must be a dictionary whose contents overrides any pre-existing defaults. The section DEFAULT is special. """ try: sectdict = self.__sections[section].copy() except KeyError: if section == DEFAULTSECT: sectdict = {} else: raise NoSectionError(section) d = self.__defaults.copy() d.update(sectdict) # Update with the entry specific variables if vars: d.update(vars) option = self.optionxform(option) try: rawval = d[option] except KeyError: raise NoOptionError(option, section) if raw: return rawval # do the string interpolation value = rawval # Make it a pretty variable name depth = 0 while depth < 10: # Loop through this until it's done depth = depth + 1 if value.find("%(") >= 0: try: value = value % d except KeyError, key: raise InterpolationError(key, option, section, rawval) else: break if value.find("%(") >= 0: raise InterpolationDepthError(option, section, rawval) return value def __get(self, section, conv, option): return conv(self.get(section, option)) def getint(self, section, option): return self.__get(section, string.atoi, option) def getfloat(self, section, option): return self.__get(section, string.atof, option) def getboolean(self, section, option): v = self.get(section, option) val = int(v) if val not in (0, 1): raise ValueError, 'Not a boolean: %s' % v return val def optionxform(self, optionstr): return optionstr.lower() def has_option(self, section, option): """Check for the existence of a given option in a given section.""" if not section or section == "DEFAULT": return self.__defaults.has_key(option) elif not self.has_section(section): return 0 else: return self.__sections[section].has_key(option) def set(self, section, option, value): """Set an option.""" if not section or section == "DEFAULT": sectdict = self.__defaults else: try: sectdict = self.__sections[section] except KeyError: raise NoSectionError(section) sectdict[option] = value def write(self, fp): """Write an .ini-format representation of the configuration state.""" if self.__defaults: fp.write("[DEFAULT]\n") for (key, value) in self.__defaults.items(): fp.write("%s = %s\n" % (key, value)) fp.write("\n") for section in self.sections(): fp.write("[" + section + "]\n") sectdict = self.__sections[section] for (key, value) in sectdict.items(): if key == "__name__": continue fp.write("%s = %s\n" % (key, value)) fp.write("\n") def remove_option(self, section, option): """Remove an option.""" if not section or section == "DEFAULT": sectdict = self.__defaults else: try: sectdict = self.__sections[section] except KeyError: raise NoSectionError(section) existed = sectdict.has_key(option) if existed: del sectdict[option] return existed def remove_section(self, section): """Remove a file section.""" if self.__sections.has_key(section): del self.__sections[section] return 1 else: return 0 # # Regular expressions for parsing section headers and options. Note a # slight semantic change from the previous version, because of the use # of \w, _ is allowed in section header names. SECTCRE = re.compile( r'\[' # [ r'(?P
[-\w_.*,(){} ]+)' # a lot of stuff found by IvL r'\]' # ] ) OPTCRE = re.compile( r'(?P