revsetlang.py
684 lines
| 22.5 KiB
| text/x-python
|
PythonLexer
/ mercurial / revsetlang.py
Yuya Nishihara
|
r31024 | # 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 . import ( | ||||
error, | ||||
node, | ||||
parser, | ||||
pycompat, | ||||
) | ||||
elements = { | ||||
# token-type: binding-strength, primary, prefix, infix, suffix | ||||
"(": (21, None, ("group", 1, ")"), ("func", 1, ")"), None), | ||||
"##": (20, None, None, ("_concat", 20), None), | ||||
"~": (18, None, None, ("ancestor", 18), None), | ||||
"^": (18, None, None, ("parent", 18), "parentpost"), | ||||
"-": (5, None, ("negate", 19), ("minus", 5), None), | ||||
"::": (17, None, ("dagrangepre", 17), ("dagrange", 17), "dagrangepost"), | ||||
"..": (17, None, ("dagrangepre", 17), ("dagrange", 17), "dagrangepost"), | ||||
":": (15, "rangeall", ("rangepre", 15), ("range", 15), "rangepost"), | ||||
"not": (10, None, ("not", 10), None, None), | ||||
"!": (10, None, ("not", 10), None, None), | ||||
"and": (5, None, None, ("and", 5), None), | ||||
"&": (5, None, None, ("and", 5), None), | ||||
"%": (5, None, None, ("only", 5), "onlypost"), | ||||
"or": (4, None, None, ("or", 4), None), | ||||
"|": (4, None, None, ("or", 4), None), | ||||
"+": (4, None, None, ("or", 4), None), | ||||
"=": (3, None, None, ("keyvalue", 3), None), | ||||
",": (2, None, None, ("list", 2), None), | ||||
")": (0, None, None, None, None), | ||||
"symbol": (0, "symbol", None, None, None), | ||||
"string": (0, "string", None, None, None), | ||||
"end": (0, None, None, None, None), | ||||
} | ||||
keywords = set(['and', 'or', 'not']) | ||||
# default set of valid characters for the initial letter of symbols | ||||
_syminitletters = set( | ||||
string.ascii_letters + | ||||
string.digits + pycompat.sysstr('._@')) | set(map(chr, xrange(128, 256))) | ||||
# default set of valid characters for non-initial letters of symbols | ||||
_symletters = _syminitletters | set(pycompat.sysstr('-/')) | ||||
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("@::")) | ||||
[('symbol', '@', 0), ('::', None, 1), ('end', None, 3)] | ||||
''' | ||||
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(':', 1) | ||||
if all(lookup(sym) for sym in parts if sym): | ||||
if parts[0]: | ||||
yield ('symbol', parts[0], 0) | ||||
if len(parts) > 1: | ||||
s = len(parts[0]) | ||||
yield (':', None, s) | ||||
if parts[1]: | ||||
yield ('symbol', parts[1], s + 1) | ||||
yield ('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 == ':' and program[pos:pos + 2] == '::': # look ahead carefully | ||||
yield ('::', None, pos) | ||||
pos += 1 # skip ahead | ||||
elif c == '.' and program[pos:pos + 2] == '..': # look ahead carefully | ||||
yield ('..', None, pos) | ||||
pos += 1 # skip ahead | ||||
elif c == '#' and program[pos:pos + 2] == '##': # look ahead carefully | ||||
yield ('##', None, pos) | ||||
pos += 1 # skip ahead | ||||
elif c in "():=,-|&+!~^%": # handle simple operators | ||||
yield (c, None, pos) | ||||
elif (c in '"\'' or c == 'r' and | ||||
program[pos:pos + 2] in ("r'", 'r"')): # handle quoted strings | ||||
if c == '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 == '\\': # skip over escaped characters | ||||
pos += 2 | ||||
continue | ||||
if d == c: | ||||
yield ('string', decode(program[s:pos]), s) | ||||
break | ||||
pos += 1 | ||||
else: | ||||
raise error.ParseError(_("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 == '.' and program[pos - 1] == '.': # special case for .. | ||||
pos -= 1 | ||||
break | ||||
pos += 1 | ||||
sym = program[s:pos] | ||||
if sym in keywords: # operator keywords | ||||
yield (sym, None, s) | ||||
elif '-' 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 ('symbol', sym, s) | ||||
else: | ||||
# looks like an expression | ||||
parts = sym.split('-') | ||||
for p in parts[:-1]: | ||||
if p: # possible consecutive - | ||||
yield ('symbol', p, s) | ||||
s += len(p) | ||||
yield ('-', None, pos) | ||||
s += 1 | ||||
if parts[-1]: # possible trailing - | ||||
yield ('symbol', parts[-1], s) | ||||
else: | ||||
yield ('symbol', sym, s) | ||||
pos -= 1 | ||||
else: | ||||
raise error.ParseError(_("syntax error in revset '%s'") % | ||||
program, pos) | ||||
pos += 1 | ||||
yield ('end', None, pos) | ||||
# helpers | ||||
_notset = object() | ||||
def getsymbol(x): | ||||
if x and x[0] == 'symbol': | ||||
return x[1] | ||||
raise error.ParseError(_('not a symbol')) | ||||
def getstring(x, err): | ||||
if x and (x[0] == 'string' or x[0] == '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 getlist(x): | ||||
if not x: | ||||
return [] | ||||
if x[0] == 'list': | ||||
return list(x[1:]) | ||||
return [x] | ||||
def getrange(x, err): | ||||
if not x: | ||||
raise error.ParseError(err) | ||||
op = x[0] | ||||
if op == 'range': | ||||
return x[1], x[2] | ||||
elif op == 'rangepre': | ||||
return None, x[1] | ||||
elif op == 'rangepost': | ||||
return x[1], None | ||||
elif op == 'rangeall': | ||||
return None, None | ||||
raise error.ParseError(err) | ||||
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='keyvalue', keynode='symbol') | ||||
# Constants for ordering requirement, used in _analyze(): | ||||
# | ||||
# If 'define', any nested functions and operations can change the ordering of | ||||
# the entries in the set. If 'follow', any nested functions and operations | ||||
# should take the ordering specified by the first operand to the '&' operator. | ||||
# | ||||
# For instance, | ||||
# | ||||
# X & (Y | Z) | ||||
# ^ ^^^^^^^ | ||||
# | follow | ||||
# define | ||||
# | ||||
# will be evaluated as 'or(y(x()), z(x()))', where 'x()' can change the order | ||||
# of the entries in the set, but 'y()', 'z()' and 'or()' shouldn't. | ||||
# | ||||
# 'any' means the order doesn't matter. For instance, | ||||
# | ||||
# X & !Y | ||||
# ^ | ||||
# any | ||||
# | ||||
# 'y()' can either enforce its ordering requirement or take the ordering | ||||
# specified by 'x()' because 'not()' doesn't care the order. | ||||
# | ||||
# Transition of ordering requirement: | ||||
# | ||||
# 1. starts with 'define' | ||||
# 2. shifts to 'follow' by 'x & y' | ||||
# 3. changes back to 'define' on function call 'f(x)' or function-like | ||||
# operation 'x (f) y' because 'f' may have its own ordering requirement | ||||
# for 'x' and 'y' (e.g. 'first(x)') | ||||
# | ||||
anyorder = 'any' # don't care the order | ||||
defineorder = 'define' # should define the order | ||||
followorder = 'follow' # must follow the current order | ||||
# transition table for 'x & y', from the current expression 'x' to 'y' | ||||
_tofolloworder = { | ||||
anyorder: anyorder, | ||||
defineorder: followorder, | ||||
followorder: followorder, | ||||
} | ||||
def _matchonly(revs, bases): | ||||
""" | ||||
>>> f = lambda *args: _matchonly(*map(parse, args)) | ||||
>>> f('ancestors(A)', 'not ancestors(B)') | ||||
('list', ('symbol', 'A'), ('symbol', 'B')) | ||||
""" | ||||
if (revs is not None | ||||
and revs[0] == 'func' | ||||
and getsymbol(revs[1]) == 'ancestors' | ||||
and bases is not None | ||||
and bases[0] == 'not' | ||||
and bases[1][0] == 'func' | ||||
and getsymbol(bases[1][1]) == 'ancestors'): | ||||
return ('list', revs[2], bases[1][2]) | ||||
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 == 'parent': | ||||
# x^:y means (x^) : y, not x ^ (:y) | ||||
# x^: means (x^) :, not x ^ (:) | ||||
post = ('parentpost', x[1]) | ||||
if x[2][0] == 'dagrangepre': | ||||
return _fixops(('dagrange', post, x[2][1])) | ||||
elif x[2][0] == 'rangepre': | ||||
return _fixops(('range', post, x[2][1])) | ||||
elif x[2][0] == 'rangeall': | ||||
return _fixops(('rangepost', post)) | ||||
elif op == 'or': | ||||
# make number of arguments deterministic: | ||||
# x + y + z -> (or x y z) -> (or (list x y z)) | ||||
return (op, _fixops(('list',) + x[1:])) | ||||
return (op,) + tuple(_fixops(y) for y in x[1:]) | ||||
def _analyze(x, order): | ||||
if x is None: | ||||
return x | ||||
op = x[0] | ||||
if op == 'minus': | ||||
return _analyze(('and', x[1], ('not', x[2])), order) | ||||
elif op == 'only': | ||||
t = ('func', ('symbol', 'only'), ('list', x[1], x[2])) | ||||
return _analyze(t, order) | ||||
elif op == 'onlypost': | ||||
return _analyze(('func', ('symbol', 'only'), x[1]), order) | ||||
elif op == 'dagrangepre': | ||||
return _analyze(('func', ('symbol', 'ancestors'), x[1]), order) | ||||
elif op == 'dagrangepost': | ||||
return _analyze(('func', ('symbol', 'descendants'), x[1]), order) | ||||
elif op == 'negate': | ||||
s = getstring(x[1], _("can't negate that")) | ||||
return _analyze(('string', '-' + s), order) | ||||
elif op in ('string', 'symbol'): | ||||
return x | ||||
elif op == 'and': | ||||
ta = _analyze(x[1], order) | ||||
tb = _analyze(x[2], _tofolloworder[order]) | ||||
return (op, ta, tb, order) | ||||
elif op == 'or': | ||||
return (op, _analyze(x[1], order), order) | ||||
elif op == 'not': | ||||
return (op, _analyze(x[1], anyorder), order) | ||||
elif op == 'rangeall': | ||||
return (op, None, order) | ||||
elif op in ('rangepre', 'rangepost', 'parentpost'): | ||||
return (op, _analyze(x[1], defineorder), order) | ||||
elif op == 'group': | ||||
return _analyze(x[1], order) | ||||
elif op in ('dagrange', 'range', 'parent', 'ancestor'): | ||||
ta = _analyze(x[1], defineorder) | ||||
tb = _analyze(x[2], defineorder) | ||||
return (op, ta, tb, order) | ||||
elif op == 'list': | ||||
return (op,) + tuple(_analyze(y, order) for y in x[1:]) | ||||
elif op == 'keyvalue': | ||||
return (op, x[1], _analyze(x[2], order)) | ||||
elif op == 'func': | ||||
f = getsymbol(x[1]) | ||||
d = defineorder | ||||
if f == 'present': | ||||
# 'present(set)' is known to return the argument set with no | ||||
# modification, so forward the current order to its argument | ||||
d = order | ||||
return (op, x[1], _analyze(x[2], d), order) | ||||
raise ValueError('invalid operator %r' % op) | ||||
def analyze(x, order=defineorder): | ||||
"""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. | ||||
'order' specifies how the current expression 'x' is ordered (see the | ||||
constants defined above.) | ||||
""" | ||||
return _analyze(x, order) | ||||
def _optimize(x, small): | ||||
if x is None: | ||||
return 0, x | ||||
smallbonus = 1 | ||||
if small: | ||||
smallbonus = .5 | ||||
op = x[0] | ||||
if op in ('string', 'symbol'): | ||||
return smallbonus, x # single revisions are small | ||||
elif op == 'and': | ||||
wa, ta = _optimize(x[1], True) | ||||
wb, tb = _optimize(x[2], True) | ||||
order = x[3] | ||||
w = min(wa, wb) | ||||
# (::x and not ::y)/(not ::y and ::x) have a fast path | ||||
tm = _matchonly(ta, tb) or _matchonly(tb, ta) | ||||
if tm: | ||||
return w, ('func', ('symbol', 'only'), tm, order) | ||||
if tb is not None and tb[0] == 'not': | ||||
return wa, ('difference', ta, tb[1], order) | ||||
if wa > wb: | ||||
return w, (op, tb, ta, order) | ||||
return w, (op, ta, tb, order) | ||||
elif op == 'or': | ||||
# fast path for machine-generated expression, that is likely to have | ||||
# lots of trivial revisions: 'a + b + c()' to '_list(a b) + c()' | ||||
order = x[2] | ||||
ws, ts, ss = [], [], [] | ||||
def flushss(): | ||||
if not ss: | ||||
return | ||||
if len(ss) == 1: | ||||
w, t = ss[0] | ||||
else: | ||||
s = '\0'.join(t[1] for w, t in ss) | ||||
y = ('func', ('symbol', '_list'), ('string', s), order) | ||||
w, t = _optimize(y, False) | ||||
ws.append(w) | ||||
ts.append(t) | ||||
del ss[:] | ||||
for y in getlist(x[1]): | ||||
w, t = _optimize(y, False) | ||||
if t is not None and (t[0] == 'string' or t[0] == '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 | ||||
# we can't reorder trees by weight because it would change the order. | ||||
# ("sort(a + b)" == "sort(b + a)", but "a + b" != "b + a") | ||||
# ts = tuple(t for w, t in sorted(zip(ws, ts), key=lambda wt: wt[0])) | ||||
return max(ws), (op, ('list',) + tuple(ts), order) | ||||
elif op == 'not': | ||||
# Optimize not public() to _notpublic() because we have a fast version | ||||
if x[1][:3] == ('func', ('symbol', 'public'), None): | ||||
order = x[1][3] | ||||
newsym = ('func', ('symbol', '_notpublic'), None, order) | ||||
o = _optimize(newsym, not small) | ||||
return o[0], o[1] | ||||
else: | ||||
o = _optimize(x[1], not small) | ||||
order = x[2] | ||||
return o[0], (op, o[1], order) | ||||
elif op == 'rangeall': | ||||
return smallbonus, x | ||||
elif op in ('rangepre', 'rangepost', 'parentpost'): | ||||
o = _optimize(x[1], small) | ||||
order = x[2] | ||||
return o[0], (op, o[1], order) | ||||
elif op in ('dagrange', 'range', 'parent', 'ancestor'): | ||||
wa, ta = _optimize(x[1], small) | ||||
wb, tb = _optimize(x[2], small) | ||||
order = x[3] | ||||
return wa + wb, (op, ta, tb, order) | ||||
elif op == 'list': | ||||
ws, ts = zip(*(_optimize(y, small) for y in x[1:])) | ||||
return sum(ws), (op,) + ts | ||||
elif op == 'keyvalue': | ||||
w, t = _optimize(x[2], small) | ||||
return w, (op, x[1], t) | ||||
elif op == 'func': | ||||
f = getsymbol(x[1]) | ||||
wa, ta = _optimize(x[2], small) | ||||
if f in ('author', 'branch', 'closed', 'date', 'desc', 'file', 'grep', | ||||
'keyword', 'outgoing', 'user', 'destination'): | ||||
w = 10 # slow | ||||
elif f in ('modifies', 'adds', 'removes'): | ||||
w = 30 # slower | ||||
elif f == "contains": | ||||
w = 100 # very slow | ||||
elif f == "ancestor": | ||||
w = 1 * smallbonus | ||||
elif f in ('reverse', 'limit', 'first', 'wdir', '_intlist'): | ||||
w = 0 | ||||
elif f == "sort": | ||||
w = 10 # assume most sorts look at changelog | ||||
else: | ||||
w = 1 | ||||
order = x[3] | ||||
return w + wa, (op, x[1], ta, order) | ||||
raise ValueError('invalid operator %r' % op) | ||||
def optimize(tree): | ||||
"""Optimize evaluatable tree | ||||
All pseudo operations should be transformed beforehand. | ||||
""" | ||||
_weight, newtree = _optimize(tree, small=True) | ||||
return newtree | ||||
# the set of valid characters for the initial letter of symbols in | ||||
# alias declarations and definitions | ||||
_aliassyminitletters = _syminitletters | set(pycompat.sysstr('$')) | ||||
def _parsewith(spec, lookup=None, syminitletters=None): | ||||
"""Generate a parse tree of given spec with given tokenizing options | ||||
>>> _parsewith('foo($1)', syminitletters=_aliassyminitletters) | ||||
('func', ('symbol', 'foo'), ('symbol', '$1')) | ||||
>>> _parsewith('$1') | ||||
Traceback (most recent call last): | ||||
... | ||||
ParseError: ("syntax error in revset '$1'", 0) | ||||
>>> _parsewith('foo bar') | ||||
Traceback (most recent call last): | ||||
... | ||||
ParseError: ('invalid token', 4) | ||||
""" | ||||
p = parser.parser(elements) | ||||
tree, pos = p.parse(tokenize(spec, lookup=lookup, | ||||
syminitletters=syminitletters)) | ||||
if pos != len(spec): | ||||
raise error.ParseError(_('invalid token'), pos) | ||||
return _fixops(parser.simplifyinfixops(tree, ('list', 'or'))) | ||||
class _aliasrules(parser.basealiasrules): | ||||
"""Parsing and expansion rule set of revset aliases""" | ||||
_section = _('revset alias') | ||||
@staticmethod | ||||
def _parse(spec): | ||||
"""Parse alias declaration/definition ``spec`` | ||||
This allows symbol names to use also ``$`` 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] == 'func' and tree[1][0] == 'symbol': | ||||
return tree[1][1], getlist(tree[2]) | ||||
def expandaliases(ui, tree): | ||||
aliases = _aliasrules.buildmap(ui.configitems('revsetalias')) | ||||
tree = _aliasrules.expand(aliases, tree) | ||||
# warn about problematic (but not referred) aliases | ||||
for name, alias in sorted(aliases.iteritems()): | ||||
if alias.error and not alias.warned: | ||||
ui.warn(_('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 ('string', 'symbol'): | ||||
return tree | ||||
if tree[0] == '_concat': | ||||
pending = [tree] | ||||
l = [] | ||||
while pending: | ||||
e = pending.pop() | ||||
if e[0] == '_concat': | ||||
pending.extend(reversed(e[1:])) | ||||
elif e[0] in ('string', 'symbol'): | ||||
l.append(e[1]) | ||||
else: | ||||
msg = _("\"##\" can't concatenate \"%s\" element") % (e[0]) | ||||
raise error.ParseError(msg) | ||||
return ('string', ''.join(l)) | ||||
else: | ||||
return tuple(foldconcat(t) for t in tree) | ||||
def parse(spec, lookup=None): | ||||
return _parsewith(spec, lookup=lookup) | ||||
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 = 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. | ||||
>>> formatspec('%r:: and %lr', '10 or 11', ("this()", "that()")) | ||||
'(10 or 11):: and ((this()) or (that()))' | ||||
>>> formatspec('%d:: and not %d::', 10, 20) | ||||
'10:: and not 20::' | ||||
>>> formatspec('%ld or %ld', [], [1]) | ||||
"_list('') or 1" | ||||
>>> formatspec('keyword(%s)', 'foo\\xe9') | ||||
"keyword('foo\\\\xe9')" | ||||
>>> b = lambda: 'default' | ||||
>>> b.branch = b | ||||
>>> formatspec('branch(%b)', b) | ||||
"branch('default')" | ||||
>>> formatspec('root(%ls)', ['a', 'b', 'c', 'd']) | ||||
"root(_list('a\\x00b\\x00c\\x00d'))" | ||||
''' | ||||
def quote(s): | ||||
return repr(str(s)) | ||||
def argtype(c, arg): | ||||
if c == 'd': | ||||
return str(int(arg)) | ||||
elif c == 's': | ||||
return quote(arg) | ||||
elif c == 'r': | ||||
parse(arg) # make sure syntax errors are confined | ||||
return '(%s)' % arg | ||||
elif c == 'n': | ||||
return quote(node.hex(arg)) | ||||
elif c == 'b': | ||||
return quote(arg.branch()) | ||||
def listexp(s, t): | ||||
l = len(s) | ||||
if l == 0: | ||||
return "_list('')" | ||||
elif l == 1: | ||||
return argtype(t, s[0]) | ||||
elif t == 'd': | ||||
return "_intlist('%s')" % "\0".join(str(int(a)) for a in s) | ||||
elif t == 's': | ||||
return "_list('%s')" % "\0".join(s) | ||||
elif t == 'n': | ||||
return "_hexlist('%s')" % "\0".join(node.hex(a) for a in s) | ||||
elif t == 'b': | ||||
return "_list('%s')" % "\0".join(a.branch() for a in s) | ||||
m = l // 2 | ||||
return '(%s or %s)' % (listexp(s[:m], t), listexp(s[m:], t)) | ||||
ret = '' | ||||
pos = 0 | ||||
arg = 0 | ||||
while pos < len(expr): | ||||
c = expr[pos] | ||||
if c == '%': | ||||
pos += 1 | ||||
d = expr[pos] | ||||
if d == '%': | ||||
ret += d | ||||
elif d in 'dsnbr': | ||||
ret += argtype(d, args[arg]) | ||||
arg += 1 | ||||
elif d == 'l': | ||||
# a list of some type | ||||
pos += 1 | ||||
d = expr[pos] | ||||
ret += listexp(list(args[arg]), d) | ||||
arg += 1 | ||||
else: | ||||
raise error.Abort(_('unexpected revspec format character %s') | ||||
% d) | ||||
else: | ||||
ret += c | ||||
pos += 1 | ||||
return ret | ||||
def prettyformat(tree): | ||||
return parser.prettyformat(tree, ('string', '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 ('string', 'symbol'): | ||||
return set() | ||||
else: | ||||
funcs = set() | ||||
for s in tree[1:]: | ||||
funcs |= funcsused(s) | ||||
if tree[0] == 'func': | ||||
funcs.add(tree[1][1]) | ||||
return funcs | ||||