wireprototypes: make `baseprotocolhandler` methods abstract
The documentation says it's an abstract base class, so let's enforce it. The
`typing.Protocol` class is already an ABC, but it only prevents instantiation if
there are abstract attrs that are missing. For example, from `hg debugshell`:
>>> from mercurial import wireprototypes
>>> x = wireprototypes.baseprotocolhandler()
Traceback (most recent call last):
File "<console>", line 1, in <module>
TypeError: Can't instantiate abstract class baseprotocolhandler with abstract method name
>>> class fake(wireprototypes.baseprotocolhandler):
... pass
...
>>> x = fake()
Traceback (most recent call last):
File "<console>", line 1, in <module>
TypeError: Can't instantiate abstract class fake with abstract method name
That's great, but it doesn't protect against calling non-abstract methods at
runtime, rather it depends on the protocol type hint being added to method
signatures or class attrs, and then running a type checker to notice when an
instance is assigned that doesn't conform to the protocol. We don't widely use
type hints yet, and do have a lot of class hierarchy in the repository area,
which could lead to surprises like this:
>>> class fake(wireprototypes.baseprotocolhandler):
... @property
... def name(self) -> bytes:
... return b'name'
...
>>> z = fake()
>>> z.client()
>>> print(z.client())
None
Oops. That was supposed to return `bytes`. So not only is a bad/unexpected
value returned, but it's one that violates the type hints (since the base
client() method will be annotated to return bytes). With this change, we get:
>>> from mercurial import wireprototypes
>>> class fake(wireprototypes.baseprotocolhandler):
... @property
... def name(self) -> bytes:
... return b'name'
...
>>> x = fake()
Traceback (most recent call last):
File "<console>", line 1, in <module>
TypeError: Can't instantiate abstract class fake with abstract methods
addcapabilities, checkperm, client, getargs, getpayload, getprotocaps, mayberedirectstdio
So this looks like a reasonable safety harness to me, and lets us catch problems
by running the standard tests while the type hints are being added, and pytype
is improved. We should probably do this for all Protocol class methods that
don't supply a method implementation.
# testparseutil.py - utilities to parse test script for check tools
#
# Copyright 2018 FUJIWARA Katsunori <foozy@lares.dti.ne.jp> and others
#
# This software may be used and distributed according to the terms of the
# GNU General Public License version 2 or any later version.
import abc
import builtins
import re
####################
# for Python3 compatibility (almost comes from mercurial/pycompat.py)
def identity(a):
return a
def _rapply(f, xs):
if xs is None:
# assume None means non-value of optional data
return xs
if isinstance(xs, (list, set, tuple)):
return type(xs)(_rapply(f, x) for x in xs)
if isinstance(xs, dict):
return type(xs)((_rapply(f, k), _rapply(f, v)) for k, v in xs.items())
return f(xs)
def rapply(f, xs):
if f is identity:
# fast path mainly for py2
return xs
return _rapply(f, xs)
def bytestr(s):
# tiny version of pycompat.bytestr
return s.encode('latin1')
def sysstr(s):
if isinstance(s, builtins.str):
return s
return s.decode('latin-1')
def opentext(f):
return open(f, 'r')
def b2s(x):
# convert BYTES elements in "x" to SYSSTR recursively
return rapply(sysstr, x)
def writeout(data):
# write "data" in BYTES into stdout
sys.stdout.write(data)
def writeerr(data):
# write "data" in BYTES into stderr
sys.stderr.write(data)
####################
class embeddedmatcher: # pytype: disable=ignored-metaclass
"""Base class to detect embedded code fragments in *.t test script"""
__metaclass__ = abc.ABCMeta
def __init__(self, desc):
self.desc = desc
@abc.abstractmethod
def startsat(self, line):
"""Examine whether embedded code starts at line
This can return arbitrary object, and it is used as 'ctx' for
subsequent method invocations.
"""
@abc.abstractmethod
def endsat(self, ctx, line):
"""Examine whether embedded code ends at line"""
@abc.abstractmethod
def isinside(self, ctx, line):
"""Examine whether line is inside embedded code, if not yet endsat"""
@abc.abstractmethod
def ignores(self, ctx):
"""Examine whether detected embedded code should be ignored"""
@abc.abstractmethod
def filename(self, ctx):
"""Return filename of embedded code
If filename isn't specified for embedded code explicitly, this
returns None.
"""
@abc.abstractmethod
def codeatstart(self, ctx, line):
"""Return actual code at the start line of embedded code
This might return None, if the start line doesn't contain
actual code.
"""
@abc.abstractmethod
def codeatend(self, ctx, line):
"""Return actual code at the end line of embedded code
This might return None, if the end line doesn't contain actual
code.
"""
@abc.abstractmethod
def codeinside(self, ctx, line):
"""Return actual code at line inside embedded code"""
def embedded(basefile, lines, errors, matchers):
"""pick embedded code fragments up from given lines
This is common parsing logic, which examines specified matchers on
given lines.
:basefile: a name of a file, from which lines to be parsed come.
:lines: to be parsed (might be a value returned by "open(basefile)")
:errors: an array, into which messages for detected error are stored
:matchers: an array of embeddedmatcher objects
This function yields '(filename, starts, ends, code)' tuple.
:filename: a name of embedded code, if it is explicitly specified
(e.g. "foobar" of "cat >> foobar <<EOF").
Otherwise, this is None
:starts: line number (1-origin), at which embedded code starts (inclusive)
:ends: line number (1-origin), at which embedded code ends (exclusive)
:code: extracted embedded code, which is single-stringified
>>> class ambigmatcher:
... # mock matcher class to examine implementation of
... # "ambiguous matching" corner case
... def __init__(self, desc, matchfunc):
... self.desc = desc
... self.matchfunc = matchfunc
... def startsat(self, line):
... return self.matchfunc(line)
>>> ambig1 = ambigmatcher('ambiguous #1',
... lambda l: l.startswith(' $ cat '))
>>> ambig2 = ambigmatcher('ambiguous #2',
... lambda l: l.endswith('<< EOF\\n'))
>>> lines = [' $ cat > foo.py << EOF\\n']
>>> errors = []
>>> matchers = [ambig1, ambig2]
>>> list(t for t in embedded('<dummy>', lines, errors, matchers))
[]
>>> b2s(errors)
['<dummy>:1: ambiguous line for "ambiguous #1", "ambiguous #2"']
"""
matcher = None
ctx = filename = code = startline = None # for pyflakes
for lineno, line in enumerate(lines, 1):
if not line.endswith('\n'):
line += '\n' # to normalize EOF line
if matcher: # now, inside embedded code
if matcher.endsat(ctx, line):
codeatend = matcher.codeatend(ctx, line)
if codeatend is not None:
code.append(codeatend)
if not matcher.ignores(ctx):
yield (filename, startline, lineno, ''.join(code))
matcher = None
# DO NOT "continue", because line might start next fragment
elif not matcher.isinside(ctx, line):
# this is an error of basefile
# (if matchers are implemented correctly)
errors.append(
'%s:%d: unexpected line for "%s"'
% (basefile, lineno, matcher.desc)
)
# stop extracting embedded code by current 'matcher',
# because appearance of unexpected line might mean
# that expected end-of-embedded-code line might never
# appear
matcher = None
# DO NOT "continue", because line might start next fragment
else:
code.append(matcher.codeinside(ctx, line))
continue
# examine whether current line starts embedded code or not
assert not matcher
matched = []
for m in matchers:
ctx = m.startsat(line)
if ctx:
matched.append((m, ctx))
if matched:
if len(matched) > 1:
# this is an error of matchers, maybe
errors.append(
'%s:%d: ambiguous line for %s'
% (
basefile,
lineno,
', '.join(['"%s"' % m.desc for m, c in matched]),
)
)
# omit extracting embedded code, because choosing
# arbitrary matcher from matched ones might fail to
# detect the end of embedded code as expected.
continue
matcher, ctx = matched[0]
filename = matcher.filename(ctx)
code = []
codeatstart = matcher.codeatstart(ctx, line)
if codeatstart is not None:
code.append(codeatstart)
startline = lineno
else:
startline = lineno + 1
if matcher:
# examine whether EOF ends embedded code, because embedded
# code isn't yet ended explicitly
if matcher.endsat(ctx, '\n'):
codeatend = matcher.codeatend(ctx, '\n')
if codeatend is not None:
code.append(codeatend)
if not matcher.ignores(ctx):
yield (filename, startline, lineno + 1, ''.join(code))
else:
# this is an error of basefile
# (if matchers are implemented correctly)
errors.append(
'%s:%d: unexpected end of file for "%s"'
% (basefile, lineno, matcher.desc)
)
# heredoc limit mark to ignore embedded code at check-code.py or so
heredocignorelimit = 'NO_CHECK_EOF'
# the pattern to match against cases below, and to return a limit mark
# string as 'lname' group
#
# - << LIMITMARK
# - << "LIMITMARK"
# - << 'LIMITMARK'
heredoclimitpat = r'\s*<<\s*(?P<lquote>["\']?)(?P<limit>\w+)(?P=lquote)'
class fileheredocmatcher(embeddedmatcher):
"""Detect "cat > FILE << LIMIT" style embedded code
>>> matcher = fileheredocmatcher('heredoc .py file', r'[^<]+\\.py')
>>> b2s(matcher.startsat(' $ cat > file.py << EOF\\n'))
('file.py', ' > EOF\\n')
>>> b2s(matcher.startsat(' $ cat >>file.py <<EOF\\n'))
('file.py', ' > EOF\\n')
>>> b2s(matcher.startsat(' $ cat> \\x27any file.py\\x27<< "EOF"\\n'))
('any file.py', ' > EOF\\n')
>>> b2s(matcher.startsat(" $ cat > file.py << 'ANYLIMIT'\\n"))
('file.py', ' > ANYLIMIT\\n')
>>> b2s(matcher.startsat(' $ cat<<ANYLIMIT>"file.py"\\n'))
('file.py', ' > ANYLIMIT\\n')
>>> start = ' $ cat > file.py << EOF\\n'
>>> ctx = matcher.startsat(start)
>>> matcher.codeatstart(ctx, start)
>>> b2s(matcher.filename(ctx))
'file.py'
>>> matcher.ignores(ctx)
False
>>> inside = ' > foo = 1\\n'
>>> matcher.endsat(ctx, inside)
False
>>> matcher.isinside(ctx, inside)
True
>>> b2s(matcher.codeinside(ctx, inside))
'foo = 1\\n'
>>> end = ' > EOF\\n'
>>> matcher.endsat(ctx, end)
True
>>> matcher.codeatend(ctx, end)
>>> matcher.endsat(ctx, ' > EOFEOF\\n')
False
>>> ctx = matcher.startsat(' $ cat > file.py << NO_CHECK_EOF\\n')
>>> matcher.ignores(ctx)
True
"""
_prefix = ' > '
def __init__(self, desc, namepat):
super(fileheredocmatcher, self).__init__(desc)
# build the pattern to match against cases below (and ">>"
# variants), and to return a target filename string as 'name'
# group
#
# - > NAMEPAT
# - > "NAMEPAT"
# - > 'NAMEPAT'
namepat = (
r'\s*>>?\s*(?P<nquote>["\']?)(?P<name>%s)(?P=nquote)' % namepat
)
self._fileres = [
# "cat > NAME << LIMIT" case
re.compile(r' {2}\$ \s*cat' + namepat + heredoclimitpat),
# "cat << LIMIT > NAME" case
re.compile(r' {2}\$ \s*cat' + heredoclimitpat + namepat),
]
def startsat(self, line):
# ctx is (filename, END-LINE-OF-EMBEDDED-CODE) tuple
for filere in self._fileres:
matched = filere.match(line)
if matched:
return (
matched.group('name'),
' > %s\n' % matched.group('limit'),
)
def endsat(self, ctx, line):
return ctx[1] == line
def isinside(self, ctx, line):
return line.startswith(self._prefix)
def ignores(self, ctx):
return ' > %s\n' % heredocignorelimit == ctx[1]
def filename(self, ctx):
return ctx[0]
def codeatstart(self, ctx, line):
return None # no embedded code at start line
def codeatend(self, ctx, line):
return None # no embedded code at end line
def codeinside(self, ctx, line):
return line[len(self._prefix) :] # strip prefix
####
# for embedded python script
class pydoctestmatcher(embeddedmatcher):
"""Detect ">>> code" style embedded python code
>>> matcher = pydoctestmatcher()
>>> startline = ' >>> foo = 1\\n'
>>> matcher.startsat(startline)
True
>>> matcher.startsat(' ... foo = 1\\n')
False
>>> ctx = matcher.startsat(startline)
>>> matcher.filename(ctx)
>>> matcher.ignores(ctx)
False
>>> b2s(matcher.codeatstart(ctx, startline))
'foo = 1\\n'
>>> inside = ' >>> foo = 1\\n'
>>> matcher.endsat(ctx, inside)
False
>>> matcher.isinside(ctx, inside)
True
>>> b2s(matcher.codeinside(ctx, inside))
'foo = 1\\n'
>>> inside = ' ... foo = 1\\n'
>>> matcher.endsat(ctx, inside)
False
>>> matcher.isinside(ctx, inside)
True
>>> b2s(matcher.codeinside(ctx, inside))
'foo = 1\\n'
>>> inside = ' expected output\\n'
>>> matcher.endsat(ctx, inside)
False
>>> matcher.isinside(ctx, inside)
True
>>> b2s(matcher.codeinside(ctx, inside))
'\\n'
>>> inside = ' \\n'
>>> matcher.endsat(ctx, inside)
False
>>> matcher.isinside(ctx, inside)
True
>>> b2s(matcher.codeinside(ctx, inside))
'\\n'
>>> end = ' $ foo bar\\n'
>>> matcher.endsat(ctx, end)
True
>>> matcher.codeatend(ctx, end)
>>> end = '\\n'
>>> matcher.endsat(ctx, end)
True
>>> matcher.codeatend(ctx, end)
"""
_prefix = ' >>> '
_prefixre = re.compile(r' {2}(>>>|\.\.\.) ')
# If a line matches against not _prefixre but _outputre, that line
# is "an expected output line" (= not a part of code fragment).
#
# Strictly speaking, a line matching against "(#if|#else|#endif)"
# is also treated similarly in "inline python code" semantics by
# run-tests.py. But "directive line inside inline python code"
# should be rejected by Mercurial reviewers. Therefore, this
# regexp does not matche against such directive lines.
_outputre = re.compile(r' {2}$| {2}[^$]')
def __init__(self):
super(pydoctestmatcher, self).__init__("doctest style python code")
def startsat(self, line):
# ctx is "True"
return line.startswith(self._prefix)
def endsat(self, ctx, line):
return not (self._prefixre.match(line) or self._outputre.match(line))
def isinside(self, ctx, line):
return True # always true, if not yet ended
def ignores(self, ctx):
return False # should be checked always
def filename(self, ctx):
return None # no filename
def codeatstart(self, ctx, line):
return line[len(self._prefix) :] # strip prefix ' >>> '/' ... '
def codeatend(self, ctx, line):
return None # no embedded code at end line
def codeinside(self, ctx, line):
if self._prefixre.match(line):
return line[len(self._prefix) :] # strip prefix ' >>> '/' ... '
return '\n' # an expected output line is treated as an empty line
class pyheredocmatcher(embeddedmatcher):
"""Detect "python << LIMIT" style embedded python code
>>> matcher = pyheredocmatcher()
>>> b2s(matcher.startsat(' $ python << EOF\\n'))
' > EOF\\n'
>>> b2s(matcher.startsat(' $ $PYTHON <<EOF\\n'))
' > EOF\\n'
>>> b2s(matcher.startsat(' $ "$PYTHON"<< "EOF"\\n'))
' > EOF\\n'
>>> b2s(matcher.startsat(" $ $PYTHON << 'ANYLIMIT'\\n"))
' > ANYLIMIT\\n'
>>> matcher.startsat(' $ "$PYTHON" < EOF\\n')
>>> start = ' $ python << EOF\\n'
>>> ctx = matcher.startsat(start)
>>> matcher.codeatstart(ctx, start)
>>> matcher.filename(ctx)
>>> matcher.ignores(ctx)
False
>>> inside = ' > foo = 1\\n'
>>> matcher.endsat(ctx, inside)
False
>>> matcher.isinside(ctx, inside)
True
>>> b2s(matcher.codeinside(ctx, inside))
'foo = 1\\n'
>>> end = ' > EOF\\n'
>>> matcher.endsat(ctx, end)
True
>>> matcher.codeatend(ctx, end)
>>> matcher.endsat(ctx, ' > EOFEOF\\n')
False
>>> ctx = matcher.startsat(' $ python << NO_CHECK_EOF\\n')
>>> matcher.ignores(ctx)
True
"""
_prefix = ' > '
_startre = re.compile(
r' {2}\$ (\$PYTHON|"\$PYTHON"|python).*' + heredoclimitpat
)
def __init__(self):
super(pyheredocmatcher, self).__init__("heredoc python invocation")
def startsat(self, line):
# ctx is END-LINE-OF-EMBEDDED-CODE
matched = self._startre.match(line)
if matched:
return ' > %s\n' % matched.group('limit')
def endsat(self, ctx, line):
return ctx == line
def isinside(self, ctx, line):
return line.startswith(self._prefix)
def ignores(self, ctx):
return ' > %s\n' % heredocignorelimit == ctx
def filename(self, ctx):
return None # no filename
def codeatstart(self, ctx, line):
return None # no embedded code at start line
def codeatend(self, ctx, line):
return None # no embedded code at end line
def codeinside(self, ctx, line):
return line[len(self._prefix) :] # strip prefix
_pymatchers = [
pydoctestmatcher(),
pyheredocmatcher(),
# use '[^<]+' instead of '\S+', in order to match against
# paths including whitespaces
fileheredocmatcher('heredoc .py file', r'[^<]+\.py'),
]
def pyembedded(basefile, lines, errors):
return embedded(basefile, lines, errors, _pymatchers)
####
# for embedded shell script
_shmatchers = [
# use '[^<]+' instead of '\S+', in order to match against
# paths including whitespaces
fileheredocmatcher('heredoc .sh file', r'[^<]+\.sh'),
]
def shembedded(basefile, lines, errors):
return embedded(basefile, lines, errors, _shmatchers)
####
# for embedded hgrc configuration
_hgrcmatchers = [
# use '[^<]+' instead of '\S+', in order to match against
# paths including whitespaces
fileheredocmatcher(
'heredoc hgrc file', r'(([^/<]+/)+hgrc|\$HGRCPATH|\${HGRCPATH})'
),
]
def hgrcembedded(basefile, lines, errors):
return embedded(basefile, lines, errors, _hgrcmatchers)
####
if __name__ == "__main__":
import optparse
import sys
def showembedded(basefile, lines, embeddedfunc, opts):
errors = []
for name, starts, ends, code in embeddedfunc(basefile, lines, errors):
if not name:
name = '<anonymous>'
writeout("%s:%d: %s starts\n" % (basefile, starts, name))
if opts.verbose and code:
writeout(" |%s\n" % "\n |".join(l for l in code.splitlines()))
writeout("%s:%d: %s ends\n" % (basefile, ends, name))
for e in errors:
writeerr("%s\n" % e)
return len(errors)
def applyembedded(args, embeddedfunc, opts):
ret = 0
if args:
for f in args:
with opentext(f) as fp:
if showembedded(f, fp, embeddedfunc, opts):
ret = 1
else:
lines = [l for l in sys.stdin.readlines()]
if showembedded('<stdin>', lines, embeddedfunc, opts):
ret = 1
return ret
commands = {}
def command(name, desc):
def wrap(func):
commands[name] = (desc, func)
return wrap
@command("pyembedded", "detect embedded python script")
def pyembeddedcmd(args, opts):
return applyembedded(args, pyembedded, opts)
@command("shembedded", "detect embedded shell script")
def shembeddedcmd(args, opts):
return applyembedded(args, shembedded, opts)
@command("hgrcembedded", "detect embedded hgrc configuration")
def hgrcembeddedcmd(args, opts):
return applyembedded(args, hgrcembedded, opts)
availablecommands = "\n".join(
[" - %s: %s" % (key, value[0]) for key, value in commands.items()]
)
parser = optparse.OptionParser(
"""%prog COMMAND [file ...]
Pick up embedded code fragments from given file(s) or stdin, and list
up start/end lines of them in standard compiler format
("FILENAME:LINENO:").
Available commands are:
"""
+ availablecommands
+ """
"""
)
parser.add_option(
"-v",
"--verbose",
help="enable additional output (e.g. actual code)",
action="store_true",
)
(opts, args) = parser.parse_args()
if not args or args[0] not in commands:
parser.print_help()
sys.exit(255)
sys.exit(commands[args[0]][1](args[1:], opts))