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phabricator: add a "phabstatus" template keyword...
phabricator: add a "phabstatus" template keyword We add a "phabstatus" template keyword, returning an object with "url" and "status" keys. This is quite similar to "phabreview" template keyword, but it queries phabricator for each specified revision so it's going to be slow (as compared to the "phabstatus" show view from previous changeset). Differential Revision: https://phab.mercurial-scm.org/D7507
Gregory Szorc - - Load All Authors

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revsetlang.py
935 lines | 28.3 KiB | text/x-python | PythonLexer
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# revsetlang.py - parser, tokenizer and utility for revision set language
#
# Copyright 2010 Matt Mackall <mpm@selenic.com>
#
# This software may be used and distributed according to the terms of the
# GNU General Public License version 2 or any later version.
from __future__ import absolute_import
import string
from .i18n import _
from .pycompat import getattr
from . import (
error,
node,
parser,
pycompat,
smartset,
util,
)
from .utils import stringutil
elements = {
# token-type: binding-strength, primary, prefix, infix, suffix
b"(": (21, None, (b"group", 1, b")"), (b"func", 1, b")"), None),
b"[": (21, None, None, (b"subscript", 1, b"]"), None),
b"#": (21, None, None, (b"relation", 21), None),
b"##": (20, None, None, (b"_concat", 20), None),
b"~": (18, None, None, (b"ancestor", 18), None),
b"^": (18, None, None, (b"parent", 18), b"parentpost"),
b"-": (5, None, (b"negate", 19), (b"minus", 5), None),
b"::": (
17,
b"dagrangeall",
(b"dagrangepre", 17),
(b"dagrange", 17),
b"dagrangepost",
),
b"..": (
17,
b"dagrangeall",
(b"dagrangepre", 17),
(b"dagrange", 17),
b"dagrangepost",
),
b":": (15, b"rangeall", (b"rangepre", 15), (b"range", 15), b"rangepost"),
b"not": (10, None, (b"not", 10), None, None),
b"!": (10, None, (b"not", 10), None, None),
b"and": (5, None, None, (b"and", 5), None),
b"&": (5, None, None, (b"and", 5), None),
b"%": (5, None, None, (b"only", 5), b"onlypost"),
b"or": (4, None, None, (b"or", 4), None),
b"|": (4, None, None, (b"or", 4), None),
b"+": (4, None, None, (b"or", 4), None),
b"=": (3, None, None, (b"keyvalue", 3), None),
b",": (2, None, None, (b"list", 2), None),
b")": (0, None, None, None, None),
b"]": (0, None, None, None, None),
b"symbol": (0, b"symbol", None, None, None),
b"string": (0, b"string", None, None, None),
b"end": (0, None, None, None, None),
}
keywords = {b'and', b'or', b'not'}
symbols = {}
_quoteletters = {b'"', b"'"}
_simpleopletters = set(pycompat.iterbytestr(b"()[]#:=,-|&+!~^%"))
# default set of valid characters for the initial letter of symbols
_syminitletters = set(
pycompat.iterbytestr(
pycompat.sysbytes(string.ascii_letters)
+ pycompat.sysbytes(string.digits)
+ b'._@'
)
) | set(map(pycompat.bytechr, pycompat.xrange(128, 256)))
# default set of valid characters for non-initial letters of symbols
_symletters = _syminitletters | set(pycompat.iterbytestr(b'-/'))
def tokenize(program, lookup=None, syminitletters=None, symletters=None):
'''
Parse a revset statement into a stream of tokens
``syminitletters`` is the set of valid characters for the initial
letter of symbols.
By default, character ``c`` is recognized as valid for initial
letter of symbols, if ``c.isalnum() or c in '._@' or ord(c) > 127``.
``symletters`` is the set of valid characters for non-initial
letters of symbols.
By default, character ``c`` is recognized as valid for non-initial
letters of symbols, if ``c.isalnum() or c in '-._/@' or ord(c) > 127``.
Check that @ is a valid unquoted token character (issue3686):
>>> list(tokenize(b"@::"))
[('symbol', '@', 0), ('::', None, 1), ('end', None, 3)]
'''
if not isinstance(program, bytes):
raise error.ProgrammingError(
b'revset statement must be bytes, got %r' % program
)
program = pycompat.bytestr(program)
if syminitletters is None:
syminitletters = _syminitletters
if symletters is None:
symletters = _symletters
if program and lookup:
# attempt to parse old-style ranges first to deal with
# things like old-tag which contain query metacharacters
parts = program.split(b':', 1)
if all(lookup(sym) for sym in parts if sym):
if parts[0]:
yield (b'symbol', parts[0], 0)
if len(parts) > 1:
s = len(parts[0])
yield (b':', None, s)
if parts[1]:
yield (b'symbol', parts[1], s + 1)
yield (b'end', None, len(program))
return
pos, l = 0, len(program)
while pos < l:
c = program[pos]
if c.isspace(): # skip inter-token whitespace
pass
elif (
c == b':' and program[pos : pos + 2] == b'::'
): # look ahead carefully
yield (b'::', None, pos)
pos += 1 # skip ahead
elif (
c == b'.' and program[pos : pos + 2] == b'..'
): # look ahead carefully
yield (b'..', None, pos)
pos += 1 # skip ahead
elif (
c == b'#' and program[pos : pos + 2] == b'##'
): # look ahead carefully
yield (b'##', None, pos)
pos += 1 # skip ahead
elif c in _simpleopletters: # handle simple operators
yield (c, None, pos)
elif (
c in _quoteletters
or c == b'r'
and program[pos : pos + 2] in (b"r'", b'r"')
): # handle quoted strings
if c == b'r':
pos += 1
c = program[pos]
decode = lambda x: x
else:
decode = parser.unescapestr
pos += 1
s = pos
while pos < l: # find closing quote
d = program[pos]
if d == b'\\': # skip over escaped characters
pos += 2
continue
if d == c:
yield (b'string', decode(program[s:pos]), s)
break
pos += 1
else:
raise error.ParseError(_(b"unterminated string"), s)
# gather up a symbol/keyword
elif c in syminitletters:
s = pos
pos += 1
while pos < l: # find end of symbol
d = program[pos]
if d not in symletters:
break
if (
d == b'.' and program[pos - 1] == b'.'
): # special case for ..
pos -= 1
break
pos += 1
sym = program[s:pos]
if sym in keywords: # operator keywords
yield (sym, None, s)
elif b'-' in sym:
# some jerk gave us foo-bar-baz, try to check if it's a symbol
if lookup and lookup(sym):
# looks like a real symbol
yield (b'symbol', sym, s)
else:
# looks like an expression
parts = sym.split(b'-')
for p in parts[:-1]:
if p: # possible consecutive -
yield (b'symbol', p, s)
s += len(p)
yield (b'-', None, s)
s += 1
if parts[-1]: # possible trailing -
yield (b'symbol', parts[-1], s)
else:
yield (b'symbol', sym, s)
pos -= 1
else:
raise error.ParseError(
_(b"syntax error in revset '%s'") % program, pos
)
pos += 1
yield (b'end', None, pos)
# helpers
_notset = object()
def getsymbol(x):
if x and x[0] == b'symbol':
return x[1]
raise error.ParseError(_(b'not a symbol'))
def getstring(x, err):
if x and (x[0] == b'string' or x[0] == b'symbol'):
return x[1]
raise error.ParseError(err)
def getinteger(x, err, default=_notset):
if not x and default is not _notset:
return default
try:
return int(getstring(x, err))
except ValueError:
raise error.ParseError(err)
def getboolean(x, err):
value = stringutil.parsebool(getsymbol(x))
if value is not None:
return value
raise error.ParseError(err)
def getlist(x):
if not x:
return []
if x[0] == b'list':
return list(x[1:])
return [x]
def getrange(x, err):
if not x:
raise error.ParseError(err)
op = x[0]
if op == b'range':
return x[1], x[2]
elif op == b'rangepre':
return None, x[1]
elif op == b'rangepost':
return x[1], None
elif op == b'rangeall':
return None, None
raise error.ParseError(err)
def getintrange(x, err1, err2, deffirst=_notset, deflast=_notset):
"""Get [first, last] integer range (both inclusive) from a parsed tree
If any of the sides omitted, and if no default provided, ParseError will
be raised.
"""
if x and (x[0] == b'string' or x[0] == b'symbol'):
n = getinteger(x, err1)
return n, n
a, b = getrange(x, err1)
return getinteger(a, err2, deffirst), getinteger(b, err2, deflast)
def getargs(x, min, max, err):
l = getlist(x)
if len(l) < min or (max >= 0 and len(l) > max):
raise error.ParseError(err)
return l
def getargsdict(x, funcname, keys):
return parser.buildargsdict(
getlist(x),
funcname,
parser.splitargspec(keys),
keyvaluenode=b'keyvalue',
keynode=b'symbol',
)
# cache of {spec: raw parsed tree} built internally
_treecache = {}
def _cachedtree(spec):
# thread safe because parse() is reentrant and dict.__setitem__() is atomic
tree = _treecache.get(spec)
if tree is None:
_treecache[spec] = tree = parse(spec)
return tree
def _build(tmplspec, *repls):
"""Create raw parsed tree from a template revset statement
>>> _build(b'f(_) and _', (b'string', b'1'), (b'symbol', b'2'))
('and', ('func', ('symbol', 'f'), ('string', '1')), ('symbol', '2'))
"""
template = _cachedtree(tmplspec)
return parser.buildtree(template, (b'symbol', b'_'), *repls)
def _match(patspec, tree):
"""Test if a tree matches the given pattern statement; return the matches
>>> _match(b'f(_)', parse(b'f()'))
>>> _match(b'f(_)', parse(b'f(1)'))
[('func', ('symbol', 'f'), ('symbol', '1')), ('symbol', '1')]
>>> _match(b'f(_)', parse(b'f(1, 2)'))
"""
pattern = _cachedtree(patspec)
return parser.matchtree(
pattern, tree, (b'symbol', b'_'), {b'keyvalue', b'list'}
)
def _matchonly(revs, bases):
return _match(b'ancestors(_) and not ancestors(_)', (b'and', revs, bases))
def _fixops(x):
"""Rewrite raw parsed tree to resolve ambiguous syntax which cannot be
handled well by our simple top-down parser"""
if not isinstance(x, tuple):
return x
op = x[0]
if op == b'parent':
# x^:y means (x^) : y, not x ^ (:y)
# x^: means (x^) :, not x ^ (:)
post = (b'parentpost', x[1])
if x[2][0] == b'dagrangepre':
return _fixops((b'dagrange', post, x[2][1]))
elif x[2][0] == b'dagrangeall':
return _fixops((b'dagrangepost', post))
elif x[2][0] == b'rangepre':
return _fixops((b'range', post, x[2][1]))
elif x[2][0] == b'rangeall':
return _fixops((b'rangepost', post))
elif op == b'or':
# make number of arguments deterministic:
# x + y + z -> (or x y z) -> (or (list x y z))
return (op, _fixops((b'list',) + x[1:]))
elif op == b'subscript' and x[1][0] == b'relation':
# x#y[z] ternary
return _fixops((b'relsubscript', x[1][1], x[1][2], x[2]))
return (op,) + tuple(_fixops(y) for y in x[1:])
def _analyze(x):
if x is None:
return x
op = x[0]
if op == b'minus':
return _analyze(_build(b'_ and not _', *x[1:]))
elif op == b'only':
return _analyze(_build(b'only(_, _)', *x[1:]))
elif op == b'onlypost':
return _analyze(_build(b'only(_)', x[1]))
elif op == b'dagrangeall':
raise error.ParseError(_(b"can't use '::' in this context"))
elif op == b'dagrangepre':
return _analyze(_build(b'ancestors(_)', x[1]))
elif op == b'dagrangepost':
return _analyze(_build(b'descendants(_)', x[1]))
elif op == b'negate':
s = getstring(x[1], _(b"can't negate that"))
return _analyze((b'string', b'-' + s))
elif op in (b'string', b'symbol', b'smartset'):
return x
elif op == b'rangeall':
return (op, None)
elif op in {b'or', b'not', b'rangepre', b'rangepost', b'parentpost'}:
return (op, _analyze(x[1]))
elif op == b'group':
return _analyze(x[1])
elif op in {
b'and',
b'dagrange',
b'range',
b'parent',
b'ancestor',
b'relation',
b'subscript',
}:
ta = _analyze(x[1])
tb = _analyze(x[2])
return (op, ta, tb)
elif op == b'relsubscript':
ta = _analyze(x[1])
tb = _analyze(x[2])
tc = _analyze(x[3])
return (op, ta, tb, tc)
elif op == b'list':
return (op,) + tuple(_analyze(y) for y in x[1:])
elif op == b'keyvalue':
return (op, x[1], _analyze(x[2]))
elif op == b'func':
return (op, x[1], _analyze(x[2]))
raise ValueError(b'invalid operator %r' % op)
def analyze(x):
"""Transform raw parsed tree to evaluatable tree which can be fed to
optimize() or getset()
All pseudo operations should be mapped to real operations or functions
defined in methods or symbols table respectively.
"""
return _analyze(x)
def _optimize(x):
if x is None:
return 0, x
op = x[0]
if op in (b'string', b'symbol', b'smartset'):
return 0.5, x # single revisions are small
elif op == b'and':
wa, ta = _optimize(x[1])
wb, tb = _optimize(x[2])
w = min(wa, wb)
# (draft/secret/_notpublic() & ::x) have a fast path
m = _match(b'_() & ancestors(_)', (b'and', ta, tb))
if m and getsymbol(m[1]) in {b'draft', b'secret', b'_notpublic'}:
return w, _build(b'_phaseandancestors(_, _)', m[1], m[2])
# (::x and not ::y)/(not ::y and ::x) have a fast path
m = _matchonly(ta, tb) or _matchonly(tb, ta)
if m:
return w, _build(b'only(_, _)', *m[1:])
m = _match(b'not _', tb)
if m:
return wa, (b'difference', ta, m[1])
if wa > wb:
op = b'andsmally'
return w, (op, ta, tb)
elif op == b'or':
# fast path for machine-generated expression, that is likely to have
# lots of trivial revisions: 'a + b + c()' to '_list(a b) + c()'
ws, ts, ss = [], [], []
def flushss():
if not ss:
return
if len(ss) == 1:
w, t = ss[0]
else:
s = b'\0'.join(t[1] for w, t in ss)
y = _build(b'_list(_)', (b'string', s))
w, t = _optimize(y)
ws.append(w)
ts.append(t)
del ss[:]
for y in getlist(x[1]):
w, t = _optimize(y)
if t is not None and (t[0] == b'string' or t[0] == b'symbol'):
ss.append((w, t))
continue
flushss()
ws.append(w)
ts.append(t)
flushss()
if len(ts) == 1:
return ws[0], ts[0] # 'or' operation is fully optimized out
return max(ws), (op, (b'list',) + tuple(ts))
elif op == b'not':
# Optimize not public() to _notpublic() because we have a fast version
if _match(b'public()', x[1]):
o = _optimize(_build(b'_notpublic()'))
return o[0], o[1]
else:
o = _optimize(x[1])
return o[0], (op, o[1])
elif op == b'rangeall':
return 1, x
elif op in (b'rangepre', b'rangepost', b'parentpost'):
o = _optimize(x[1])
return o[0], (op, o[1])
elif op in (b'dagrange', b'range'):
wa, ta = _optimize(x[1])
wb, tb = _optimize(x[2])
return wa + wb, (op, ta, tb)
elif op in (b'parent', b'ancestor', b'relation', b'subscript'):
w, t = _optimize(x[1])
return w, (op, t, x[2])
elif op == b'relsubscript':
w, t = _optimize(x[1])
return w, (op, t, x[2], x[3])
elif op == b'list':
ws, ts = zip(*(_optimize(y) for y in x[1:]))
return sum(ws), (op,) + ts
elif op == b'keyvalue':
w, t = _optimize(x[2])
return w, (op, x[1], t)
elif op == b'func':
f = getsymbol(x[1])
wa, ta = _optimize(x[2])
w = getattr(symbols.get(f), '_weight', 1)
m = _match(b'commonancestors(_)', ta)
# Optimize heads(commonancestors(_)) because we have a fast version
if f == b'heads' and m:
return w + wa, _build(b'_commonancestorheads(_)', m[1])
return w + wa, (op, x[1], ta)
raise ValueError(b'invalid operator %r' % op)
def optimize(tree):
"""Optimize evaluatable tree
All pseudo operations should be transformed beforehand.
"""
_weight, newtree = _optimize(tree)
return newtree
# the set of valid characters for the initial letter of symbols in
# alias declarations and definitions
_aliassyminitletters = _syminitletters | {b'$'}
def _parsewith(spec, lookup=None, syminitletters=None):
"""Generate a parse tree of given spec with given tokenizing options
>>> _parsewith(b'foo($1)', syminitletters=_aliassyminitletters)
('func', ('symbol', 'foo'), ('symbol', '$1'))
>>> _parsewith(b'$1')
Traceback (most recent call last):
...
ParseError: ("syntax error in revset '$1'", 0)
>>> _parsewith(b'foo bar')
Traceback (most recent call last):
...
ParseError: ('invalid token', 4)
"""
if lookup and spec.startswith(b'revset(') and spec.endswith(b')'):
lookup = None
p = parser.parser(elements)
tree, pos = p.parse(
tokenize(spec, lookup=lookup, syminitletters=syminitletters)
)
if pos != len(spec):
raise error.ParseError(_(b'invalid token'), pos)
return _fixops(parser.simplifyinfixops(tree, (b'list', b'or')))
class _aliasrules(parser.basealiasrules):
"""Parsing and expansion rule set of revset aliases"""
_section = _(b'revset alias')
@staticmethod
def _parse(spec):
"""Parse alias declaration/definition ``spec``
This allows symbol names to use also ``$`` as an initial letter
(for backward compatibility), and callers of this function should
examine whether ``$`` is used also for unexpected symbols or not.
"""
return _parsewith(spec, syminitletters=_aliassyminitletters)
@staticmethod
def _trygetfunc(tree):
if tree[0] == b'func' and tree[1][0] == b'symbol':
return tree[1][1], getlist(tree[2])
def expandaliases(tree, aliases, warn=None):
"""Expand aliases in a tree, aliases is a list of (name, value) tuples"""
aliases = _aliasrules.buildmap(aliases)
tree = _aliasrules.expand(aliases, tree)
# warn about problematic (but not referred) aliases
if warn is not None:
for name, alias in sorted(pycompat.iteritems(aliases)):
if alias.error and not alias.warned:
warn(_(b'warning: %s\n') % (alias.error))
alias.warned = True
return tree
def foldconcat(tree):
"""Fold elements to be concatenated by `##`
"""
if not isinstance(tree, tuple) or tree[0] in (
b'string',
b'symbol',
b'smartset',
):
return tree
if tree[0] == b'_concat':
pending = [tree]
l = []
while pending:
e = pending.pop()
if e[0] == b'_concat':
pending.extend(reversed(e[1:]))
elif e[0] in (b'string', b'symbol'):
l.append(e[1])
else:
msg = _(b"\"##\" can't concatenate \"%s\" element") % (e[0])
raise error.ParseError(msg)
return (b'string', b''.join(l))
else:
return tuple(foldconcat(t) for t in tree)
def parse(spec, lookup=None):
try:
return _parsewith(spec, lookup=lookup)
except error.ParseError as inst:
if len(inst.args) > 1: # has location
loc = inst.args[1]
# Remove newlines -- spaces are equivalent whitespace.
spec = spec.replace(b'\n', b' ')
# We want the caret to point to the place in the template that
# failed to parse, but in a hint we get a open paren at the
# start. Therefore, we print "loc + 1" spaces (instead of "loc")
# to line up the caret with the location of the error.
inst.hint = spec + b'\n' + b' ' * (loc + 1) + b'^ ' + _(b'here')
raise
def _quote(s):
r"""Quote a value in order to make it safe for the revset engine.
>>> _quote(b'asdf')
"'asdf'"
>>> _quote(b"asdf'\"")
'\'asdf\\\'"\''
>>> _quote(b'asdf\'')
"'asdf\\''"
>>> _quote(1)
"'1'"
"""
return b"'%s'" % stringutil.escapestr(pycompat.bytestr(s))
def _formatargtype(c, arg):
if c == b'd':
return b'_rev(%d)' % int(arg)
elif c == b's':
return _quote(arg)
elif c == b'r':
if not isinstance(arg, bytes):
raise TypeError
parse(arg) # make sure syntax errors are confined
return b'(%s)' % arg
elif c == b'n':
return _quote(node.hex(arg))
elif c == b'b':
try:
return _quote(arg.branch())
except AttributeError:
raise TypeError
raise error.ParseError(_(b'unexpected revspec format character %s') % c)
def _formatlistexp(s, t):
l = len(s)
if l == 0:
return b"_list('')"
elif l == 1:
return _formatargtype(t, s[0])
elif t == b'd':
return _formatintlist(s)
elif t == b's':
return b"_list(%s)" % _quote(b"\0".join(s))
elif t == b'n':
return b"_hexlist('%s')" % b"\0".join(node.hex(a) for a in s)
elif t == b'b':
try:
return b"_list('%s')" % b"\0".join(a.branch() for a in s)
except AttributeError:
raise TypeError
m = l // 2
return b'(%s or %s)' % (_formatlistexp(s[:m], t), _formatlistexp(s[m:], t))
def _formatintlist(data):
try:
l = len(data)
if l == 0:
return b"_list('')"
elif l == 1:
return _formatargtype(b'd', data[0])
return b"_intlist('%s')" % b"\0".join(b'%d' % int(a) for a in data)
except (TypeError, ValueError):
raise error.ParseError(_(b'invalid argument for revspec'))
def _formatparamexp(args, t):
return b', '.join(_formatargtype(t, a) for a in args)
_formatlistfuncs = {
b'l': _formatlistexp,
b'p': _formatparamexp,
}
def formatspec(expr, *args):
'''
This is a convenience function for using revsets internally, and
escapes arguments appropriately. Aliases are intentionally ignored
so that intended expression behavior isn't accidentally subverted.
Supported arguments:
%r = revset expression, parenthesized
%d = rev(int(arg)), no quoting
%s = string(arg), escaped and single-quoted
%b = arg.branch(), escaped and single-quoted
%n = hex(arg), single-quoted
%% = a literal '%'
Prefixing the type with 'l' specifies a parenthesized list of that type,
and 'p' specifies a list of function parameters of that type.
>>> formatspec(b'%r:: and %lr', b'10 or 11', (b"this()", b"that()"))
'(10 or 11):: and ((this()) or (that()))'
>>> formatspec(b'%d:: and not %d::', 10, 20)
'_rev(10):: and not _rev(20)::'
>>> formatspec(b'%ld or %ld', [], [1])
"_list('') or _rev(1)"
>>> formatspec(b'keyword(%s)', b'foo\\xe9')
"keyword('foo\\\\xe9')"
>>> b = lambda: b'default'
>>> b.branch = b
>>> formatspec(b'branch(%b)', b)
"branch('default')"
>>> formatspec(b'root(%ls)', [b'a', b'b', b'c', b'd'])
"root(_list('a\\\\x00b\\\\x00c\\\\x00d'))"
>>> formatspec(b'sort(%r, %ps)', b':', [b'desc', b'user'])
"sort((:), 'desc', 'user')"
>>> formatspec(b'%ls', [b'a', b"'"])
"_list('a\\\\x00\\\\'')"
'''
parsed = _parseargs(expr, args)
ret = []
for t, arg in parsed:
if t is None:
ret.append(arg)
elif t == b'baseset':
if isinstance(arg, set):
arg = sorted(arg)
ret.append(_formatintlist(list(arg)))
else:
raise error.ProgrammingError(b"unknown revspec item type: %r" % t)
return b''.join(ret)
def spectree(expr, *args):
"""similar to formatspec but return a parsed and optimized tree"""
parsed = _parseargs(expr, args)
ret = []
inputs = []
for t, arg in parsed:
if t is None:
ret.append(arg)
elif t == b'baseset':
newtree = (b'smartset', smartset.baseset(arg))
inputs.append(newtree)
ret.append(b"$")
else:
raise error.ProgrammingError(b"unknown revspec item type: %r" % t)
expr = b''.join(ret)
tree = _parsewith(expr, syminitletters=_aliassyminitletters)
tree = parser.buildtree(tree, (b'symbol', b'$'), *inputs)
tree = foldconcat(tree)
tree = analyze(tree)
tree = optimize(tree)
return tree
def _parseargs(expr, args):
"""parse the expression and replace all inexpensive args
return a list of tuple [(arg-type, arg-value)]
Arg-type can be:
* None: a string ready to be concatenated into a final spec
* 'baseset': an iterable of revisions
"""
expr = pycompat.bytestr(expr)
argiter = iter(args)
ret = []
pos = 0
while pos < len(expr):
q = expr.find(b'%', pos)
if q < 0:
ret.append((None, expr[pos:]))
break
ret.append((None, expr[pos:q]))
pos = q + 1
try:
d = expr[pos]
except IndexError:
raise error.ParseError(_(b'incomplete revspec format character'))
if d == b'%':
ret.append((None, d))
pos += 1
continue
try:
arg = next(argiter)
except StopIteration:
raise error.ParseError(_(b'missing argument for revspec'))
f = _formatlistfuncs.get(d)
if f:
# a list of some type, might be expensive, do not replace
pos += 1
islist = d == b'l'
try:
d = expr[pos]
except IndexError:
raise error.ParseError(
_(b'incomplete revspec format character')
)
if islist and d == b'd' and arg:
# we don't create a baseset yet, because it come with an
# extra cost. If we are going to serialize it we better
# skip it.
ret.append((b'baseset', arg))
pos += 1
continue
try:
ret.append((None, f(list(arg), d)))
except (TypeError, ValueError):
raise error.ParseError(_(b'invalid argument for revspec'))
else:
# a single entry, not expensive, replace
try:
ret.append((None, _formatargtype(d, arg)))
except (TypeError, ValueError):
raise error.ParseError(_(b'invalid argument for revspec'))
pos += 1
try:
next(argiter)
raise error.ParseError(_(b'too many revspec arguments specified'))
except StopIteration:
pass
return ret
def prettyformat(tree):
return parser.prettyformat(tree, (b'string', b'symbol'))
def depth(tree):
if isinstance(tree, tuple):
return max(map(depth, tree)) + 1
else:
return 0
def funcsused(tree):
if not isinstance(tree, tuple) or tree[0] in (b'string', b'symbol'):
return set()
else:
funcs = set()
for s in tree[1:]:
funcs |= funcsused(s)
if tree[0] == b'func':
funcs.add(tree[1][1])
return funcs
_hashre = util.re.compile(b'[0-9a-fA-F]{1,40}$')
def _ishashlikesymbol(symbol):
"""returns true if the symbol looks like a hash"""
return _hashre.match(symbol)
def gethashlikesymbols(tree):
"""returns the list of symbols of the tree that look like hashes
>>> gethashlikesymbols(parse(b'3::abe3ff'))
['3', 'abe3ff']
>>> gethashlikesymbols(parse(b'precursors(.)'))
[]
>>> gethashlikesymbols(parse(b'precursors(34)'))
['34']
>>> gethashlikesymbols(parse(b'abe3ffZ'))
[]
"""
if not tree:
return []
if tree[0] == b"symbol":
if _ishashlikesymbol(tree[1]):
return [tree[1]]
elif len(tree) >= 3:
results = []
for subtree in tree[1:]:
results += gethashlikesymbols(subtree)
return results
return []