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"""Python 2.x/3.x compatibility utilities. This module defines a collection of functions that allow the same Python source code to be used in both Python 2.x and Python 3.x. - prnt() prints its arguments to a file, with given separator and ending. - to_long() creates a (long) integer object from its input parameter. - u() allows string literals involving non-ASCII characters to be used in both Python 2.x / 3.x, e.g. u("\u0101 is a-with-macron") - unicod() forces its argument to a Unicode string. - rpr() generates a representation of a string that can be parsed in either Python 2.x or 3.x, assuming use of the u() function above. >>> from .util import prnt, u, rpr >>> prnt("hello") hello >>> prnt("hello", "world") hello world >>> prnt("hello", "world", sep=":") hello:world >>> prnt("hello", "world", sep=":", end='!\\n') hello:world! >>> u('\u0101') == u('\U00000101') True >>> u('\u0101') == u('\N{LATIN SMALL LETTER A WITH MACRON}') True >>> a_macron = u('\u0101') >>> rpr(a_macron) "u('\\\\u0101')" >>> rpr(u('abc')) == "'abc'" # In Python 2, LHS is Unicode but RHS is string True >>> rpr("'") "'\\\\''" """ import sys if sys.version_info >= (3, 0): # pragma no cover import builtins print3 = builtins.__dict__['print'] unicod = str u = str to_long = int def prnt(*args, **kwargs): sep = kwargs.get('sep', ' ') end = kwargs.get('end', '\n') file = kwargs.get('file', None) print3(*args, **{'sep': sep, 'end': end, 'file': file}) class UnicodeMixin(object): """Mixin class to define a __str__ method in terms of __unicode__ method""" def __str__(self): return self.__unicode__() else: # pragma no cover unicod = unicode import unicodedata import re # \N{name} = character named name in the Unicode database _UNAME_RE = re.compile(r'\\N\{(?P<name>[^}]+)\}') # \uxxxx = character with 16-bit hex value xxxx _U16_RE = re.compile(r'\\u(?P<hexval>[0-9a-fA-F]{4})') # \Uxxxxxxxx = character with 32-bit hex value xxxxxxxx _U32_RE = re.compile(r'\\U(?P<hexval>[0-9a-fA-F]{8})') def u(s): """Generate Unicode string from a string input, encoding Unicode characters. This is expected to work in the same way as u'<string>' would work in Python 2.x (although it is not completely robust as it is based on a simple set of regexps). """ us = re.sub(_U16_RE, lambda m: unichr(int(m.group('hexval'), 16)), unicode(s)) us = re.sub(_U32_RE, lambda m: unichr(int(m.group('hexval'), 16)), us) us = re.sub(_UNAME_RE, lambda m: unicodedata.lookup(m.group('name')), us) return us to_long = long def prnt(*args, **kwargs): sep = kwargs.get('sep', ' ') end = kwargs.get('end', '\n') file = kwargs.get('file', None) if file is None: file = sys.stdout print >> file, sep.join([str(arg) for arg in args]) + end, class UnicodeMixin(object): # pragma no cover """Mixin class to define a __str__ method in terms of __unicode__ method""" def __str__(self): return unicode(self).encode('utf-8') # Constants for Unicode strings U_EMPTY_STRING = unicod("") U_SPACE = unicod(" ") U_DASH = unicod("-") U_TILDE = unicod("~") U_PLUS = unicod("+") U_STAR = unicod("*") U_ZERO = unicod("0") U_SLASH = unicod("/") U_SEMICOLON = unicod(";") U_X_LOWER = unicod("x") U_X_UPPER = unicod("X") U_PERCENT = unicod("%") def rpr(s): """Create a representation of a Unicode string that can be used in both Python 2 and Python 3k, allowing for use of the u() function""" if s is None: return 'None' seen_unicode = False results = [] for cc in s: ccn = ord(cc) if ccn >= 32 and ccn < 127: if cc == "'": # escape single quote results.append('\\') results.append(cc) elif cc == "\\": # escape backslash results.append('\\') results.append(cc) else: results.append(cc) else: seen_unicode = True if ccn <= 0xFFFF: results.append('\\u') results.append("%04x" % ccn) else: # pragma no cover results.append('\\U') results.append("%08x" % ccn) result = "'" + "".join(results) + "'" if seen_unicode: return "u(" + result + ")" else: return result def force_unicode(s): """Force the argument to be a Unicode string, preserving None""" if s is None: return None else: return unicod(s) class ImmutableMixin(object): """Mixin class to make objects of subclasses immutable""" _mutable = False def __setattr__(self, name, value): if self._mutable or name == "_mutable": object.__setattr__(self, name, value) else: raise TypeError("Can't modify immutable instance") def __delattr__(self, name): if self._mutable: object.__delattr__(self, name) else: raise TypeError("Can't modify immutable instance") def mutating_method(func): """Decorator for methods that are allowed to modify immutable objects""" def wrapper(self, *__args, **__kwargs): old_mutable = self._mutable self._mutable = True try: # Call the wrapped function return func(self, *__args, **__kwargs) finally: self._mutable = old_mutable return wrapper if __name__ == '__main__': # pragma no cover import doctest doctest.testmod()