PEP 223 – Change the Meaning of \x
Escapes
- Author:
- Tim Peters <tim.peters at gmail.com>
- Status:
- Final
- Type:
- Standards Track
- Created:
- 20-Aug-2000
- Python-Version:
- 2.0
- Post-History:
- 23-Aug-2000
Abstract
Change \x
escapes, in both 8-bit and Unicode strings, to consume
exactly the two hex digits following. The proposal views this as
correcting an original design flaw, leading to clearer expression
in all flavors of string, a cleaner Unicode story, better
compatibility with Perl regular expressions, and with minimal risk
to existing code.
Syntax
The syntax of \x
escapes, in all flavors of non-raw strings, becomes
\xhh
where h is a hex digit (0-9, a-f, A-F). The exact syntax in 1.5.2 is not clearly specified in the Reference Manual; it says
\xhh...
implying “two or more” hex digits, but one-digit forms are also
accepted by the 1.5.2 compiler, and a plain \x
is “expanded” to
itself (i.e., a backslash followed by the letter x). It’s unclear
whether the Reference Manual intended either of the 1-digit or
0-digit behaviors.
Semantics
In an 8-bit non-raw string,
\xij
expands to the character
chr(int(ij, 16))
Note that this is the same as in 1.6 and before.
In a Unicode string,
\xij
acts the same as
\u00ij
i.e. it expands to the obvious Latin-1 character from the initial segment of the Unicode space.
An \x
not followed by at least two hex digits is a compile-time error,
specifically ValueError
in 8-bit strings, and UnicodeError
(a subclass
of ValueError
) in Unicode strings. Note that if an \x
is followed by
more than two hex digits, only the first two are “consumed”. In 1.6
and before all but the last two were silently ignored.
Example
In 1.5.2:
>>> "\x123465" # same as "\x65"
'e'
>>> "\x65"
'e'
>>> "\x1"
'\001'
>>> "\x\x"
'\\x\\x'
>>>
In 2.0:
>>> "\x123465" # \x12 -> \022, "3456" left alone
'\0223456'
>>> "\x65"
'e'
>>> "\x1"
[ValueError is raised]
>>> "\x\x"
[ValueError is raised]
>>>
History and Rationale
\x
escapes were introduced in C as a way to specify variable-width
character encodings. Exactly which encodings those were, and how many
hex digits they required, was left up to each implementation. The
language simply stated that \x
“consumed” all hex digits following,
and left the meaning up to each implementation. So, in effect, \x
in C
is a standard hook to supply platform-defined behavior.
Because Python explicitly aims at platform independence, the \x
escape
in Python (up to and including 1.6) has been treated the same way
across all platforms: all except the last two hex digits were
silently ignored. So the only actual use for \x
escapes in Python was
to specify a single byte using hex notation.
Larry Wall appears to have realized that this was the only real use for
\x
escapes in a platform-independent language, as the proposed rule for
Python 2.0 is in fact what Perl has done from the start (although you
need to run in Perl -w mode to get warned about \x
escapes with fewer
than 2 hex digits following – it’s clearly more Pythonic to insist on
2 all the time).
When Unicode strings were introduced to Python, \x
was generalized so
as to ignore all but the last four hex digits in Unicode strings.
This caused a technical difficulty for the new regular expression engine:
SRE tries very hard to allow mixing 8-bit and Unicode patterns and
strings in intuitive ways, and it no longer had any way to guess what,
for example, r"\x123456"
should mean as a pattern: is it asking to match
the 8-bit character \x56
or the Unicode character \u3456
?
There are hacky ways to guess, but it doesn’t end there. The ISO C99
standard also introduces 8-digit \U12345678
escapes to cover the entire
ISO 10646 character space, and it’s also desired that Python 2 support
that from the start. But then what are \x
escapes supposed to mean?
Do they ignore all but the last eight hex digits then? And if less
than 8 following in a Unicode string, all but the last 4? And if less
than 4, all but the last 2?
This was getting messier by the minute, and the proposal cuts the
Gordian knot by making \x
simpler instead of more complicated. Note
that the 4-digit generalization to \xijkl
in Unicode strings was also
redundant, because it meant exactly the same thing as \uijkl
in Unicode
strings. It’s more Pythonic to have just one obvious way to specify a
Unicode character via hex notation.
Development and Discussion
The proposal was worked out among Guido van Rossum, Fredrik Lundh and Tim Peters in email. It was subsequently explained and discussed on Python-Dev under subject “Go x yourself” [1], starting 2000-08-03. Response was overwhelmingly positive; no objections were raised.
Backward Compatibility
Changing the meaning of \x
escapes does carry risk of breaking existing
code, although no instances of incompatibility have yet been discovered.
The risk is believed to be minimal.
Tim Peters verified that, except for pieces of the standard test suite
deliberately provoking end cases, there are no instances of \xabcdef...
with fewer or more than 2 hex digits following, in either the Python
CVS development tree, or in assorted Python packages sitting on his
machine.
It’s unlikely there are any with fewer than 2, because the Reference Manual implied they weren’t legal (although this is debatable!). If there are any with more than 2, Guido is ready to argue they were buggy anyway <0.9 wink>.
Guido reported that the O’Reilly Python books already document that Python works the proposed way, likely due to their Perl editing heritage (as above, Perl worked (very close to) the proposed way from its start).
Finn Bock reported that what JPython does with \x
escapes is
unpredictable today. This proposal gives a clear meaning that can be
consistently and easily implemented across all Python implementations.
Effects on Other Tools
Believed to be none. The candidates for breakage would mostly be
parsing tools, but the author knows of none that worry about the
internal structure of Python strings beyond the approximation “when
there’s a backslash, swallow the next character”. Tim Peters checked
python-mode.el
, the std tokenize.py
and pyclbr.py
, and the IDLE syntax
coloring subsystem, and believes there’s no need to change any of
them. Tools like tabnanny.py
and checkappend.py
inherit their immunity
from tokenize.py
.
Reference Implementation
The code changes are so simple that a separate patch will not be produced. Fredrik Lundh is writing the code, is an expert in the area, and will simply check the changes in before 2.0b1 is released.
BDFL Pronouncements
Yes, ValueError
, not SyntaxError
. “Problems with literal interpretations
traditionally raise ‘runtime’ exceptions rather than syntax errors.”
References
Copyright
This document has been placed in the public domain.
Source: https://github.com/python/peps/blob/main/peps/pep-0223.rst
Last modified: 2023-09-09 17:39:29 GMT