# Copyright (c) 2008-2011 testtools developers. See LICENSE for details. """Compatibility support for python 2 and 3.""" __metaclass__ = type __all__ = [ '_b', '_u', 'advance_iterator', 'all', 'BytesIO', 'classtypes', 'isbaseexception', 'istext', 'str_is_unicode', 'StringIO', 'reraise', 'unicode_output_stream', ] import codecs import linecache import locale import os import re import sys import traceback import unicodedata from testtools.helpers import try_imports BytesIO = try_imports(['StringIO.StringIO', 'io.BytesIO']) StringIO = try_imports(['StringIO.StringIO', 'io.StringIO']) try: from testtools import _compat2x as _compat except SyntaxError: from testtools import _compat3x as _compat reraise = _compat.reraise __u_doc = """A function version of the 'u' prefix. This is needed becayse the u prefix is not usable in Python 3 but is required in Python 2 to get a unicode object. To migrate code that was written as u'\u1234' in Python 2 to 2+3 change it to be _u('\u1234'). The Python 3 interpreter will decode it appropriately and the no-op _u for Python 3 lets it through, in Python 2 we then call unicode-escape in the _u function. """ if sys.version_info > (3, 0): import builtins def _u(s): return s _r = ascii def _b(s): """A byte literal.""" return s.encode("latin-1") advance_iterator = next # GZ 2011-08-24: Seems istext() is easy to misuse and makes for bad code. def istext(x): return isinstance(x, str) def classtypes(): return (type,) str_is_unicode = True else: import __builtin__ as builtins def _u(s): # The double replace mangling going on prepares the string for # unicode-escape - \foo is preserved, \u and \U are decoded. return (s.replace("\\", "\\\\").replace("\\\\u", "\\u") .replace("\\\\U", "\\U").decode("unicode-escape")) _r = repr def _b(s): return s advance_iterator = lambda it: it.next() def istext(x): return isinstance(x, basestring) def classtypes(): import types return (type, types.ClassType) str_is_unicode = sys.platform == "cli" _u.__doc__ = __u_doc if sys.version_info > (2, 5): all = all _error_repr = BaseException.__repr__ def isbaseexception(exception): """Return whether exception inherits from BaseException only""" return (isinstance(exception, BaseException) and not isinstance(exception, Exception)) else: def all(iterable): """If contents of iterable all evaluate as boolean True""" for obj in iterable: if not obj: return False return True def _error_repr(exception): """Format an exception instance as Python 2.5 and later do""" return exception.__class__.__name__ + repr(exception.args) def isbaseexception(exception): """Return whether exception would inherit from BaseException only This approximates the hierarchy in Python 2.5 and later, compare the difference between the diagrams at the bottom of the pages: """ return isinstance(exception, (KeyboardInterrupt, SystemExit)) # GZ 2011-08-24: Using isinstance checks like this encourages bad interfaces, # there should be better ways to write code needing this. if not issubclass(getattr(builtins, "bytes", str), str): def _isbytes(x): return isinstance(x, bytes) else: # Never return True on Pythons that provide the name but not the real type def _isbytes(x): return False def _slow_escape(text): """Escape unicode ``text`` leaving printable characters unmodified The behaviour emulates the Python 3 implementation of repr, see unicode_repr in unicodeobject.c and isprintable definition. Because this iterates over the input a codepoint at a time, it's slow, and does not handle astral characters correctly on Python builds with 16 bit rather than 32 bit unicode type. """ output = [] for c in text: o = ord(c) if o < 256: if o < 32 or 126 < o < 161: output.append(c.encode("unicode-escape")) elif o == 92: # Separate due to bug in unicode-escape codec in Python 2.4 output.append("\\\\") else: output.append(c) else: # To get correct behaviour would need to pair up surrogates here if unicodedata.category(c)[0] in "CZ": output.append(c.encode("unicode-escape")) else: output.append(c) return "".join(output) def text_repr(text, multiline=None): """Rich repr for ``text`` returning unicode, triple quoted if ``multiline``. """ is_py3k = sys.version_info > (3, 0) nl = _isbytes(text) and bytes((0xA,)) or "\n" if multiline is None: multiline = nl in text if not multiline and (is_py3k or not str_is_unicode and type(text) is str): # Use normal repr for single line of unicode on Python 3 or bytes return repr(text) prefix = repr(text[:0])[:-2] if multiline: # To escape multiline strings, split and process each line in turn, # making sure that quotes are not escaped. if is_py3k: offset = len(prefix) + 1 lines = [] for l in text.split(nl): r = repr(l) q = r[-1] lines.append(r[offset:-1].replace("\\" + q, q)) elif not str_is_unicode and isinstance(text, str): lines = [l.encode("string-escape").replace("\\'", "'") for l in text.split("\n")] else: lines = [_slow_escape(l) for l in text.split("\n")] # Combine the escaped lines and append two of the closing quotes, # then iterate over the result to escape triple quotes correctly. _semi_done = "\n".join(lines) + "''" p = 0 while True: p = _semi_done.find("'''", p) if p == -1: break _semi_done = "\\".join([_semi_done[:p], _semi_done[p:]]) p += 2 return "".join([prefix, "'''\\\n", _semi_done, "'"]) escaped_text = _slow_escape(text) # Determine which quote character to use and if one gets prefixed with a # backslash following the same logic Python uses for repr() on strings quote = "'" if "'" in text: if '"' in text: escaped_text = escaped_text.replace("'", "\\'") else: quote = '"' return "".join([prefix, quote, escaped_text, quote]) def unicode_output_stream(stream): """Get wrapper for given stream that writes any unicode without exception Characters that can't be coerced to the encoding of the stream, or 'ascii' if valid encoding is not found, will be replaced. The original stream may be returned in situations where a wrapper is determined unneeded. The wrapper only allows unicode to be written, not non-ascii bytestrings, which is a good thing to ensure sanity and sanitation. """ if sys.platform == "cli": # Best to never encode before writing in IronPython return stream try: writer = codecs.getwriter(stream.encoding or "") except (AttributeError, LookupError): # GZ 2010-06-16: Python 3 StringIO ends up here, but probably needs # different handling as it doesn't want bytestrings return codecs.getwriter("ascii")(stream, "replace") if writer.__module__.rsplit(".", 1)[1].startswith("utf"): # The current stream has a unicode encoding so no error handler is needed if sys.version_info > (3, 0): return stream return writer(stream) if sys.version_info > (3, 0): # Python 3 doesn't seem to make this easy, handle a common case try: return stream.__class__(stream.buffer, stream.encoding, "replace", stream.newlines, stream.line_buffering) except AttributeError: pass return writer(stream, "replace") # The default source encoding is actually "iso-8859-1" until Python 2.5 but # using non-ascii causes a deprecation warning in 2.4 and it's cleaner to # treat all versions the same way _default_source_encoding = "ascii" # Pattern specified in _cookie_search=re.compile("coding[:=]\s*([-\w.]+)").search def _detect_encoding(lines): """Get the encoding of a Python source file from a list of lines as bytes This function does less than tokenize.detect_encoding added in Python 3 as it does not attempt to raise a SyntaxError when the interpreter would, it just wants the encoding of a source file Python has already compiled and determined is valid. """ if not lines: return _default_source_encoding if lines[0].startswith("\xef\xbb\xbf"): # Source starting with UTF-8 BOM is either UTF-8 or a SyntaxError return "utf-8" # Only the first two lines of the source file are examined magic = _cookie_search("".join(lines[:2])) if magic is None: return _default_source_encoding encoding = magic.group(1) try: codecs.lookup(encoding) except LookupError: # Some codecs raise something other than LookupError if they don't # support the given error handler, but not the text ones that could # actually be used for Python source code return _default_source_encoding return encoding class _EncodingTuple(tuple): """A tuple type that can have an encoding attribute smuggled on""" def _get_source_encoding(filename): """Detect, cache and return the encoding of Python source at filename""" try: return linecache.cache[filename].encoding except (AttributeError, KeyError): encoding = _detect_encoding(linecache.getlines(filename)) if filename in linecache.cache: newtuple = _EncodingTuple(linecache.cache[filename]) newtuple.encoding = encoding linecache.cache[filename] = newtuple return encoding def _get_exception_encoding(): """Return the encoding we expect messages from the OS to be encoded in""" if os.name == "nt": # GZ 2010-05-24: Really want the codepage number instead, the error # handling of standard codecs is more deterministic return "mbcs" # GZ 2010-05-23: We need this call to be after initialisation, but there's # no benefit in asking more than once as it's a global # setting that can change after the message is formatted. return locale.getlocale(locale.LC_MESSAGES)[1] or "ascii" def _exception_to_text(evalue): """Try hard to get a sensible text value out of an exception instance""" try: return unicode(evalue) except KeyboardInterrupt: raise except: # Apparently this is what traceback._some_str does. Sigh - RBC 20100623 pass try: return str(evalue).decode(_get_exception_encoding(), "replace") except KeyboardInterrupt: raise except: # Apparently this is what traceback._some_str does. Sigh - RBC 20100623 pass # Okay, out of ideas, let higher level handle it return None # GZ 2010-05-23: This function is huge and horrible and I welcome suggestions # on the best way to break it up _TB_HEADER = _u('Traceback (most recent call last):\n') def _format_exc_info(eclass, evalue, tb, limit=None): """Format a stack trace and the exception information as unicode Compatibility function for Python 2 which ensures each component of a traceback is correctly decoded according to its origins. Based on traceback.format_exception and related functions. """ fs_enc = sys.getfilesystemencoding() if tb: list = [_TB_HEADER] extracted_list = [] for filename, lineno, name, line in traceback.extract_tb(tb, limit): extracted_list.append(( filename.decode(fs_enc, "replace"), lineno, name.decode("ascii", "replace"), line and line.decode( _get_source_encoding(filename), "replace"))) list.extend(traceback.format_list(extracted_list)) else: list = [] if evalue is None: # Is a (deprecated) string exception list.append((eclass + "\n").decode("ascii", "replace")) return list if isinstance(evalue, SyntaxError): # Avoid duplicating the special formatting for SyntaxError here, # instead create a new instance with unicode filename and line # Potentially gives duff spacing, but that's a pre-existing issue try: msg, (filename, lineno, offset, line) = evalue except (TypeError, ValueError): pass # Strange exception instance, fall through to generic code else: # Errors during parsing give the line from buffer encoded as # latin-1 or utf-8 or the encoding of the file depending on the # coding and whether the patch for issue #1031213 is applied, so # give up on trying to decode it and just read the file again if line: bytestr = linecache.getline(filename, lineno) if bytestr: if lineno == 1 and bytestr.startswith("\xef\xbb\xbf"): bytestr = bytestr[3:] line = bytestr.decode( _get_source_encoding(filename), "replace") del linecache.cache[filename] else: line = line.decode("ascii", "replace") if filename: filename = filename.decode(fs_enc, "replace") evalue = eclass(msg, (filename, lineno, offset, line)) list.extend(traceback.format_exception_only(eclass, evalue)) return list sclass = eclass.__name__ svalue = _exception_to_text(evalue) if svalue: list.append("%s: %s\n" % (sclass, svalue)) elif svalue is None: # GZ 2010-05-24: Not a great fallback message, but keep for the moment list.append("%s: \n" % (sclass, sclass)) else: list.append("%s\n" % sclass) return list