view 2.00/compat.py @ 40:af9c45708987

Cemented a decision previously being unsure about The mere presense of the tasknames configuration variable now always makes problem names to be printed. This is not new, but the old behaviour (only printing names if we test more than one problem), previously commented out, has now been removed altogether.
author Oleg Oshmyan <chortos@inbox.lv>
date Sun, 05 Dec 2010 14:34:24 +0100
parents 23aa8da5be5f
children
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#! /usr/bin/env python
# Copyright (c) 2010 Chortos-2 <chortos@inbox.lv>

# A compatibility layer for Python 2.5+. This is what lets test.py
# run on all versions of Python starting with 2.5, including Python 3.

# A few notes regarding some compatibility-driven peculiarities
# in the use of the language that can be seen in all modules:
#
# * Except statements never specify target; instead, when needed,
#   the exception is taken from sys.exc_info(). Blame the incompatible
#   syntaxes of the except clause in Python 2.5 and Python 3 and the lack
#   of preprocessor macros in Python of any version ;P.
#
# * Keyword-only parameters are never used, even for parameters
#   that should never be given in as arguments. The reason is
#   the laziness of some Python developers who have failed to finish
#   implementing them in Python 2 even though they had several years
#   of time and multiple version releases to sneak them in.
#
# * Abstract classes are only implemented for Python 2.6 and 2.7.
#   ABC's require the abc module and the specification of metaclasses,
#   but in Python 2.5, the abc module does not exist, while in Python 3,
#   metaclasses are specified using a syntax totally incompatible
#   with Python 2 and not usable conditionally via exec() and such
#   because it is a detail of the syntax of the class statement itself.

try:
	import builtins
except ImportError:
	import __builtin__ as builtins

__all__ = ('say', 'basestring', 'range', 'map', 'zip', 'filter', 'items',
           'keys', 'values', 'zip_longest', 'callable',
           'ABCMeta', 'abstractmethod', 'CompatBuiltins')

try:
	# Python 3
	exec('say = print')
except SyntaxError:
	try:
		# Python 2.6/2.7
		# An alternative is exec('from __future__ import print_function; say = print');
		# if problems arise with the current line, one should try replacing it
		# with this one with the future import before abandoning the idea altogether
		say = getattr(builtins, 'print')
	except Exception:
		# Python 2.5
		import sys
		# This should fully emulate the print function of Python 2.6 in Python 2.3+
		# The error messages are taken from Python 2.6
		# The name bindings at the bottom of this file are in effect
		def saytypeerror(value, name):
			return TypeError(' '.join((name, 'must be None, str or unicode, not', type(value).__name__)))
		def say(*values, **kwargs):
			sep  = kwargs.pop('sep' , None)
			end  = kwargs.pop('end' , None)
			file = kwargs.pop('file', None)
			if kwargs: raise TypeError("'%s' is an invalid keyword argument for this function" % kwargs.popitem()[0])
			if sep  is None: sep  = ' '
			if end  is None: end  = '\n'
			if file is None: file = sys.stdout
			if not isinstance(sep, basestring): raise saytypeerror(sep, 'sep')
			if not isinstance(end, basestring): raise saytypeerror(end, 'end')
			file.write(sep.join(map(str, values)) + end)

try:
	from os.path import relpath
except ImportError:
	# Python 2.5
	import os.path as _path
	
	# Adapted from Python 2.7.1
	
	if hasattr(_path, 'splitunc'):
		def _abspath_split(path):
			abs = _path.abspath(_path.normpath(path))
			prefix, rest = _path.splitunc(abs)
			is_unc = bool(prefix)
			if not is_unc:
				prefix, rest = _path.splitdrive(abs)
			return is_unc, prefix, [x for x in rest.split(_path.sep) if x]
	else:
		def _abspath_split(path):
			prefix, rest = _path.splitdrive(_path.abspath(_path.normpath(path)))
			return False, prefix, [x for x in rest.split(_path.sep) if x]
	
	def relpath(path, start=_path.curdir):
		"""Return a relative version of a path"""
		
		if not path:
			raise ValueError("no path specified")
		
		start_is_unc, start_prefix, start_list = _abspath_split(start)
		path_is_unc, path_prefix, path_list = _abspath_split(path)
		
		if path_is_unc ^ start_is_unc:
			raise ValueError("Cannot mix UNC and non-UNC paths (%s and %s)"
	                                                    		% (path, start))
		if path_prefix.lower() != start_prefix.lower():
			if path_is_unc:
				raise ValueError("path is on UNC root %s, start on UNC root %s"
		                                    		% (path_prefix, start_prefix))
			else:
				raise ValueError("path is on drive %s, start on drive %s"
		                                    		% (path_prefix, start_prefix))
		# Work out how much of the filepath is shared by start and path.
		i = 0
		for e1, e2 in zip(start_list, path_list):
			if e1.lower() != e2.lower():
				break
			i += 1
		
		rel_list = [_path.pardir] * (len(start_list)-i) + path_list[i:]
		if not rel_list:
			return _path.curdir
		return _path.join(*rel_list)
	
	_path.relpath = relpath

def import_urllib():
	try:
		# Python 3
		import urllib.request
		return urllib.request, lambda url: urllib.request.urlopen(url).read().decode()
	except ImportError:
		# Python 2
		import urllib
		return urllib, lambda url: urllib.urlopen(url).read()

try:
	from abc import ABCMeta, abstractmethod
except ImportError:
	ABCMeta, abstractmethod = None, lambda x: x

# In all of the following, the try clause is for Python 2 and the except
# clause is for Python 3. More checks are performed than needed
# for standard builds of Python to ensure as much as possible works
# on custom builds.
try:
	basestring = basestring
except NameError:
	basestring = str

try:
	range = xrange
except NameError:
	range = range

try:
	callable = callable
except NameError:
	callable = lambda obj: hasattr(obj, '__call__')

try:
	next = next
except NameError:
	next = lambda obj: obj.next()

try:
	from itertools import imap as map
except ImportError:
	map = map

try:
	from itertools import izip as zip
except ImportError:
	zip = zip

try:
	from itertools import ifilter as filter
except ImportError:
	filter = filter

items = dict.iteritems if hasattr(dict, 'iteritems') else dict.items
keys = dict.iterkeys if hasattr(dict, 'iterkeys') else dict.keys
values = dict.itervalues if hasattr(dict, 'itervalues') else dict.values

try:
	# Python 3
	from itertools import zip_longest
except ImportError:
	try:
		# Python 2.6/2.7
		from itertools import izip_longest as zip_longest
	except ImportError:
		# Python 2.5
		from itertools import chain, repeat
		# Adapted from the documentation of itertools.izip_longest
		def zip_longest(*args, **kwargs):
			fillvalue = kwargs.get('fillvalue')
			def sentinel(counter=([fillvalue]*(len(args)-1)).pop):
				yield counter()
			fillers = repeat(fillvalue)
			iters = [chain(it, sentinel(), fillers) for it in args]
			try:
				for tup in zip(*iters):
					yield tup
			except IndexError:
				pass

# Automatically import * from this module into testconf.py's
class CompatBuiltins(object):
	__slots__ = 'originals'
	def __init__(self):
		self.originals = {}
	def __enter__(self):
		g = globals()
		for name in __all__:
			if hasattr(builtins, name):
				self.originals[name] = getattr(builtins, name)
			setattr(builtins, name, g[name])
	def __exit__(self, exc_type, exc_val, exc_tb):
		for name in self.originals:
			setattr(builtins, name, self.originals[name])

# Support simple testconf.py's written for test.py 1.x
builtins.xrange = range