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parser: move _relabelaliasargs() to common rule-set class...
Yuya Nishihara -
r28872:5f31d224 default
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1 1 # parser.py - simple top-down operator precedence parser for mercurial
2 2 #
3 3 # Copyright 2010 Matt Mackall <mpm@selenic.com>
4 4 #
5 5 # This software may be used and distributed according to the terms of the
6 6 # GNU General Public License version 2 or any later version.
7 7
8 8 # see http://effbot.org/zone/simple-top-down-parsing.htm and
9 9 # http://eli.thegreenplace.net/2010/01/02/top-down-operator-precedence-parsing/
10 10 # for background
11 11
12 12 # takes a tokenizer and elements
13 13 # tokenizer is an iterator that returns (type, value, pos) tuples
14 14 # elements is a mapping of types to binding strength, primary, prefix, infix
15 15 # and suffix actions
16 16 # an action is a tree node name, a tree label, and an optional match
17 17 # __call__(program) parses program into a labeled tree
18 18
19 19 from __future__ import absolute_import
20 20
21 21 from .i18n import _
22 22 from . import error
23 23
24 24 class parser(object):
25 25 def __init__(self, elements, methods=None):
26 26 self._elements = elements
27 27 self._methods = methods
28 28 self.current = None
29 29 def _advance(self):
30 30 'advance the tokenizer'
31 31 t = self.current
32 32 self.current = next(self._iter, None)
33 33 return t
34 34 def _hasnewterm(self):
35 35 'True if next token may start new term'
36 36 return any(self._elements[self.current[0]][1:3])
37 37 def _match(self, m):
38 38 'make sure the tokenizer matches an end condition'
39 39 if self.current[0] != m:
40 40 raise error.ParseError(_("unexpected token: %s") % self.current[0],
41 41 self.current[2])
42 42 self._advance()
43 43 def _parseoperand(self, bind, m=None):
44 44 'gather right-hand-side operand until an end condition or binding met'
45 45 if m and self.current[0] == m:
46 46 expr = None
47 47 else:
48 48 expr = self._parse(bind)
49 49 if m:
50 50 self._match(m)
51 51 return expr
52 52 def _parse(self, bind=0):
53 53 token, value, pos = self._advance()
54 54 # handle prefix rules on current token, take as primary if unambiguous
55 55 primary, prefix = self._elements[token][1:3]
56 56 if primary and not (prefix and self._hasnewterm()):
57 57 expr = (primary, value)
58 58 elif prefix:
59 59 expr = (prefix[0], self._parseoperand(*prefix[1:]))
60 60 else:
61 61 raise error.ParseError(_("not a prefix: %s") % token, pos)
62 62 # gather tokens until we meet a lower binding strength
63 63 while bind < self._elements[self.current[0]][0]:
64 64 token, value, pos = self._advance()
65 65 # handle infix rules, take as suffix if unambiguous
66 66 infix, suffix = self._elements[token][3:]
67 67 if suffix and not (infix and self._hasnewterm()):
68 68 expr = (suffix[0], expr)
69 69 elif infix:
70 70 expr = (infix[0], expr, self._parseoperand(*infix[1:]))
71 71 else:
72 72 raise error.ParseError(_("not an infix: %s") % token, pos)
73 73 return expr
74 74 def parse(self, tokeniter):
75 75 'generate a parse tree from tokens'
76 76 self._iter = tokeniter
77 77 self._advance()
78 78 res = self._parse()
79 79 token, value, pos = self.current
80 80 return res, pos
81 81 def eval(self, tree):
82 82 'recursively evaluate a parse tree using node methods'
83 83 if not isinstance(tree, tuple):
84 84 return tree
85 85 return self._methods[tree[0]](*[self.eval(t) for t in tree[1:]])
86 86 def __call__(self, tokeniter):
87 87 'parse tokens into a parse tree and evaluate if methods given'
88 88 t = self.parse(tokeniter)
89 89 if self._methods:
90 90 return self.eval(t)
91 91 return t
92 92
93 93 def buildargsdict(trees, funcname, keys, keyvaluenode, keynode):
94 94 """Build dict from list containing positional and keyword arguments
95 95
96 96 Invalid keywords or too many positional arguments are rejected, but
97 97 missing arguments are just omitted.
98 98 """
99 99 if len(trees) > len(keys):
100 100 raise error.ParseError(_("%(func)s takes at most %(nargs)d arguments")
101 101 % {'func': funcname, 'nargs': len(keys)})
102 102 args = {}
103 103 # consume positional arguments
104 104 for k, x in zip(keys, trees):
105 105 if x[0] == keyvaluenode:
106 106 break
107 107 args[k] = x
108 108 # remainder should be keyword arguments
109 109 for x in trees[len(args):]:
110 110 if x[0] != keyvaluenode or x[1][0] != keynode:
111 111 raise error.ParseError(_("%(func)s got an invalid argument")
112 112 % {'func': funcname})
113 113 k = x[1][1]
114 114 if k not in keys:
115 115 raise error.ParseError(_("%(func)s got an unexpected keyword "
116 116 "argument '%(key)s'")
117 117 % {'func': funcname, 'key': k})
118 118 if k in args:
119 119 raise error.ParseError(_("%(func)s got multiple values for keyword "
120 120 "argument '%(key)s'")
121 121 % {'func': funcname, 'key': k})
122 122 args[k] = x[2]
123 123 return args
124 124
125 125 def unescapestr(s):
126 126 try:
127 127 return s.decode("string_escape")
128 128 except ValueError as e:
129 129 # mangle Python's exception into our format
130 130 raise error.ParseError(str(e).lower())
131 131
132 132 def _prettyformat(tree, leafnodes, level, lines):
133 133 if not isinstance(tree, tuple) or tree[0] in leafnodes:
134 134 lines.append((level, str(tree)))
135 135 else:
136 136 lines.append((level, '(%s' % tree[0]))
137 137 for s in tree[1:]:
138 138 _prettyformat(s, leafnodes, level + 1, lines)
139 139 lines[-1:] = [(lines[-1][0], lines[-1][1] + ')')]
140 140
141 141 def prettyformat(tree, leafnodes):
142 142 lines = []
143 143 _prettyformat(tree, leafnodes, 0, lines)
144 144 output = '\n'.join((' ' * l + s) for l, s in lines)
145 145 return output
146 146
147 147 def simplifyinfixops(tree, targetnodes):
148 148 """Flatten chained infix operations to reduce usage of Python stack
149 149
150 150 >>> def f(tree):
151 151 ... print prettyformat(simplifyinfixops(tree, ('or',)), ('symbol',))
152 152 >>> f(('or',
153 153 ... ('or',
154 154 ... ('symbol', '1'),
155 155 ... ('symbol', '2')),
156 156 ... ('symbol', '3')))
157 157 (or
158 158 ('symbol', '1')
159 159 ('symbol', '2')
160 160 ('symbol', '3'))
161 161 >>> f(('func',
162 162 ... ('symbol', 'p1'),
163 163 ... ('or',
164 164 ... ('or',
165 165 ... ('func',
166 166 ... ('symbol', 'sort'),
167 167 ... ('list',
168 168 ... ('or',
169 169 ... ('or',
170 170 ... ('symbol', '1'),
171 171 ... ('symbol', '2')),
172 172 ... ('symbol', '3')),
173 173 ... ('negate',
174 174 ... ('symbol', 'rev')))),
175 175 ... ('and',
176 176 ... ('symbol', '4'),
177 177 ... ('group',
178 178 ... ('or',
179 179 ... ('or',
180 180 ... ('symbol', '5'),
181 181 ... ('symbol', '6')),
182 182 ... ('symbol', '7'))))),
183 183 ... ('symbol', '8'))))
184 184 (func
185 185 ('symbol', 'p1')
186 186 (or
187 187 (func
188 188 ('symbol', 'sort')
189 189 (list
190 190 (or
191 191 ('symbol', '1')
192 192 ('symbol', '2')
193 193 ('symbol', '3'))
194 194 (negate
195 195 ('symbol', 'rev'))))
196 196 (and
197 197 ('symbol', '4')
198 198 (group
199 199 (or
200 200 ('symbol', '5')
201 201 ('symbol', '6')
202 202 ('symbol', '7'))))
203 203 ('symbol', '8')))
204 204 """
205 205 if not isinstance(tree, tuple):
206 206 return tree
207 207 op = tree[0]
208 208 if op not in targetnodes:
209 209 return (op,) + tuple(simplifyinfixops(x, targetnodes) for x in tree[1:])
210 210
211 211 # walk down left nodes taking each right node. no recursion to left nodes
212 212 # because infix operators are left-associative, i.e. left tree is deep.
213 213 # e.g. '1 + 2 + 3' -> (+ (+ 1 2) 3) -> (+ 1 2 3)
214 214 simplified = []
215 215 x = tree
216 216 while x[0] == op:
217 217 l, r = x[1:]
218 218 simplified.append(simplifyinfixops(r, targetnodes))
219 219 x = l
220 220 simplified.append(simplifyinfixops(x, targetnodes))
221 221 simplified.append(op)
222 222 return tuple(reversed(simplified))
223 223
224 224 def parseerrordetail(inst):
225 225 """Compose error message from specified ParseError object
226 226 """
227 227 if len(inst.args) > 1:
228 228 return _('at %s: %s') % (inst.args[1], inst.args[0])
229 229 else:
230 230 return inst.args[0]
231 231
232 232 class basealiasrules(object):
233 233 """Parsing and expansion rule set of aliases
234 234
235 235 This is a helper for fileset/revset/template aliases. A concrete rule set
236 236 should be made by sub-classing this and implementing class/static methods.
237 237
238 238 It supports alias expansion of symbol and funciton-call styles::
239 239
240 240 # decl = defn
241 241 h = heads(default)
242 242 b($1) = ancestors($1) - ancestors(default)
243 243 """
244 244 # typically a config section, which will be included in error messages
245 245 _section = None
246 246 # tags of symbol and function nodes
247 247 _symbolnode = 'symbol'
248 248 _funcnode = 'func'
249 249
250 250 def __new__(cls):
251 251 raise TypeError("'%s' is not instantiatable" % cls.__name__)
252 252
253 253 @staticmethod
254 254 def _parsedecl(spec):
255 255 """Parse an alias name and arguments"""
256 256 raise NotImplementedError
257 257
258 258 @staticmethod
259 259 def _parsedefn(spec):
260 260 """Parse an alias definition"""
261 261 raise NotImplementedError
262 262
263 263 @staticmethod
264 264 def _getlist(tree):
265 265 """Extract a list of arguments from parsed tree"""
266 266 raise NotImplementedError
267 267
268 268 @classmethod
269 269 def _builddecl(cls, decl):
270 270 """Parse an alias declaration into ``(name, tree, args, errorstr)``
271 271
272 272 This function analyzes the parsed tree. The parsing rule is provided
273 273 by ``_parsedecl()``.
274 274
275 275 - ``name``: of declared alias (may be ``decl`` itself at error)
276 276 - ``tree``: parse result (or ``None`` at error)
277 277 - ``args``: list of argument names (or None for symbol declaration)
278 278 - ``errorstr``: detail about detected error (or None)
279 279
280 280 >>> sym = lambda x: ('symbol', x)
281 281 >>> symlist = lambda *xs: ('list',) + tuple(sym(x) for x in xs)
282 282 >>> func = lambda n, a: ('func', sym(n), a)
283 283 >>> parsemap = {
284 284 ... 'foo': sym('foo'),
285 285 ... '$foo': sym('$foo'),
286 286 ... 'foo::bar': ('dagrange', sym('foo'), sym('bar')),
287 287 ... 'foo()': func('foo', None),
288 288 ... '$foo()': func('$foo', None),
289 289 ... 'foo($1, $2)': func('foo', symlist('$1', '$2')),
290 290 ... 'foo(bar_bar, baz.baz)':
291 291 ... func('foo', symlist('bar_bar', 'baz.baz')),
292 292 ... 'foo(bar($1, $2))':
293 293 ... func('foo', func('bar', symlist('$1', '$2'))),
294 294 ... 'foo($1, $2, nested($1, $2))':
295 295 ... func('foo', (symlist('$1', '$2') +
296 296 ... (func('nested', symlist('$1', '$2')),))),
297 297 ... 'foo("bar")': func('foo', ('string', 'bar')),
298 298 ... 'foo($1, $2': error.ParseError('unexpected token: end', 10),
299 299 ... 'foo("bar': error.ParseError('unterminated string', 5),
300 300 ... 'foo($1, $2, $1)': func('foo', symlist('$1', '$2', '$1')),
301 301 ... }
302 302 >>> def parse(expr):
303 303 ... x = parsemap[expr]
304 304 ... if isinstance(x, Exception):
305 305 ... raise x
306 306 ... return x
307 307 >>> def getlist(tree):
308 308 ... if not tree:
309 309 ... return []
310 310 ... if tree[0] == 'list':
311 311 ... return list(tree[1:])
312 312 ... return [tree]
313 313 >>> class aliasrules(basealiasrules):
314 314 ... _parsedecl = staticmethod(parse)
315 315 ... _getlist = staticmethod(getlist)
316 316 >>> builddecl = aliasrules._builddecl
317 317 >>> builddecl('foo')
318 318 ('foo', ('symbol', 'foo'), None, None)
319 319 >>> builddecl('$foo')
320 320 ('$foo', None, None, "'$' not for alias arguments")
321 321 >>> builddecl('foo::bar')
322 322 ('foo::bar', None, None, 'invalid format')
323 323 >>> builddecl('foo()')
324 324 ('foo', ('func', ('symbol', 'foo')), [], None)
325 325 >>> builddecl('$foo()')
326 326 ('$foo()', None, None, "'$' not for alias arguments")
327 327 >>> builddecl('foo($1, $2)')
328 328 ('foo', ('func', ('symbol', 'foo')), ['$1', '$2'], None)
329 329 >>> builddecl('foo(bar_bar, baz.baz)')
330 330 ('foo', ('func', ('symbol', 'foo')), ['bar_bar', 'baz.baz'], None)
331 331 >>> builddecl('foo($1, $2, nested($1, $2))')
332 332 ('foo($1, $2, nested($1, $2))', None, None, 'invalid argument list')
333 333 >>> builddecl('foo(bar($1, $2))')
334 334 ('foo(bar($1, $2))', None, None, 'invalid argument list')
335 335 >>> builddecl('foo("bar")')
336 336 ('foo("bar")', None, None, 'invalid argument list')
337 337 >>> builddecl('foo($1, $2')
338 338 ('foo($1, $2', None, None, 'at 10: unexpected token: end')
339 339 >>> builddecl('foo("bar')
340 340 ('foo("bar', None, None, 'at 5: unterminated string')
341 341 >>> builddecl('foo($1, $2, $1)')
342 342 ('foo', None, None, 'argument names collide with each other')
343 343 """
344 344 try:
345 345 tree = cls._parsedecl(decl)
346 346 except error.ParseError as inst:
347 347 return (decl, None, None, parseerrordetail(inst))
348 348
349 349 if tree[0] == cls._symbolnode:
350 350 # "name = ...." style
351 351 name = tree[1]
352 352 if name.startswith('$'):
353 353 return (decl, None, None, _("'$' not for alias arguments"))
354 354 return (name, tree, None, None)
355 355
356 356 if tree[0] == cls._funcnode and tree[1][0] == cls._symbolnode:
357 357 # "name(arg, ....) = ...." style
358 358 name = tree[1][1]
359 359 if name.startswith('$'):
360 360 return (decl, None, None, _("'$' not for alias arguments"))
361 361 args = []
362 362 for arg in cls._getlist(tree[2]):
363 363 if arg[0] != cls._symbolnode:
364 364 return (decl, None, None, _("invalid argument list"))
365 365 args.append(arg[1])
366 366 if len(args) != len(set(args)):
367 367 return (name, None, None,
368 368 _("argument names collide with each other"))
369 369 return (name, tree[:2], args, None)
370 370
371 371 return (decl, None, None, _("invalid format"))
372
373 @classmethod
374 def _relabelargs(cls, tree, args):
375 """Mark alias arguments as ``_aliasarg``"""
376 if not isinstance(tree, tuple):
377 return tree
378 op = tree[0]
379 if op != cls._symbolnode:
380 return (op,) + tuple(cls._relabelargs(x, args) for x in tree[1:])
381
382 assert len(tree) == 2
383 sym = tree[1]
384 if sym in args:
385 op = '_aliasarg'
386 elif sym.startswith('$'):
387 raise error.ParseError(_("'$' not for alias arguments"))
388 return (op, sym)
Show file before | Show file after | Hide comments
@@ -1,3544 +1,3532 b''
1 1 # revset.py - revision set queries for mercurial
2 2 #
3 3 # Copyright 2010 Matt Mackall <mpm@selenic.com>
4 4 #
5 5 # This software may be used and distributed according to the terms of the
6 6 # GNU General Public License version 2 or any later version.
7 7
8 8 from __future__ import absolute_import
9 9
10 10 import heapq
11 11 import re
12 12
13 13 from .i18n import _
14 14 from . import (
15 15 destutil,
16 16 encoding,
17 17 error,
18 18 hbisect,
19 19 match as matchmod,
20 20 node,
21 21 obsolete as obsmod,
22 22 parser,
23 23 pathutil,
24 24 phases,
25 25 registrar,
26 26 repoview,
27 27 util,
28 28 )
29 29
30 30 def _revancestors(repo, revs, followfirst):
31 31 """Like revlog.ancestors(), but supports followfirst."""
32 32 if followfirst:
33 33 cut = 1
34 34 else:
35 35 cut = None
36 36 cl = repo.changelog
37 37
38 38 def iterate():
39 39 revs.sort(reverse=True)
40 40 irevs = iter(revs)
41 41 h = []
42 42
43 43 inputrev = next(irevs, None)
44 44 if inputrev is not None:
45 45 heapq.heappush(h, -inputrev)
46 46
47 47 seen = set()
48 48 while h:
49 49 current = -heapq.heappop(h)
50 50 if current == inputrev:
51 51 inputrev = next(irevs, None)
52 52 if inputrev is not None:
53 53 heapq.heappush(h, -inputrev)
54 54 if current not in seen:
55 55 seen.add(current)
56 56 yield current
57 57 for parent in cl.parentrevs(current)[:cut]:
58 58 if parent != node.nullrev:
59 59 heapq.heappush(h, -parent)
60 60
61 61 return generatorset(iterate(), iterasc=False)
62 62
63 63 def _revdescendants(repo, revs, followfirst):
64 64 """Like revlog.descendants() but supports followfirst."""
65 65 if followfirst:
66 66 cut = 1
67 67 else:
68 68 cut = None
69 69
70 70 def iterate():
71 71 cl = repo.changelog
72 72 # XXX this should be 'parentset.min()' assuming 'parentset' is a
73 73 # smartset (and if it is not, it should.)
74 74 first = min(revs)
75 75 nullrev = node.nullrev
76 76 if first == nullrev:
77 77 # Are there nodes with a null first parent and a non-null
78 78 # second one? Maybe. Do we care? Probably not.
79 79 for i in cl:
80 80 yield i
81 81 else:
82 82 seen = set(revs)
83 83 for i in cl.revs(first + 1):
84 84 for x in cl.parentrevs(i)[:cut]:
85 85 if x != nullrev and x in seen:
86 86 seen.add(i)
87 87 yield i
88 88 break
89 89
90 90 return generatorset(iterate(), iterasc=True)
91 91
92 92 def _reachablerootspure(repo, minroot, roots, heads, includepath):
93 93 """return (heads(::<roots> and ::<heads>))
94 94
95 95 If includepath is True, return (<roots>::<heads>)."""
96 96 if not roots:
97 97 return []
98 98 parentrevs = repo.changelog.parentrevs
99 99 roots = set(roots)
100 100 visit = list(heads)
101 101 reachable = set()
102 102 seen = {}
103 103 # prefetch all the things! (because python is slow)
104 104 reached = reachable.add
105 105 dovisit = visit.append
106 106 nextvisit = visit.pop
107 107 # open-code the post-order traversal due to the tiny size of
108 108 # sys.getrecursionlimit()
109 109 while visit:
110 110 rev = nextvisit()
111 111 if rev in roots:
112 112 reached(rev)
113 113 if not includepath:
114 114 continue
115 115 parents = parentrevs(rev)
116 116 seen[rev] = parents
117 117 for parent in parents:
118 118 if parent >= minroot and parent not in seen:
119 119 dovisit(parent)
120 120 if not reachable:
121 121 return baseset()
122 122 if not includepath:
123 123 return reachable
124 124 for rev in sorted(seen):
125 125 for parent in seen[rev]:
126 126 if parent in reachable:
127 127 reached(rev)
128 128 return reachable
129 129
130 130 def reachableroots(repo, roots, heads, includepath=False):
131 131 """return (heads(::<roots> and ::<heads>))
132 132
133 133 If includepath is True, return (<roots>::<heads>)."""
134 134 if not roots:
135 135 return baseset()
136 136 minroot = roots.min()
137 137 roots = list(roots)
138 138 heads = list(heads)
139 139 try:
140 140 revs = repo.changelog.reachableroots(minroot, heads, roots, includepath)
141 141 except AttributeError:
142 142 revs = _reachablerootspure(repo, minroot, roots, heads, includepath)
143 143 revs = baseset(revs)
144 144 revs.sort()
145 145 return revs
146 146
147 147 elements = {
148 148 # token-type: binding-strength, primary, prefix, infix, suffix
149 149 "(": (21, None, ("group", 1, ")"), ("func", 1, ")"), None),
150 150 "##": (20, None, None, ("_concat", 20), None),
151 151 "~": (18, None, None, ("ancestor", 18), None),
152 152 "^": (18, None, None, ("parent", 18), ("parentpost", 18)),
153 153 "-": (5, None, ("negate", 19), ("minus", 5), None),
154 154 "::": (17, None, ("dagrangepre", 17), ("dagrange", 17),
155 155 ("dagrangepost", 17)),
156 156 "..": (17, None, ("dagrangepre", 17), ("dagrange", 17),
157 157 ("dagrangepost", 17)),
158 158 ":": (15, "rangeall", ("rangepre", 15), ("range", 15), ("rangepost", 15)),
159 159 "not": (10, None, ("not", 10), None, None),
160 160 "!": (10, None, ("not", 10), None, None),
161 161 "and": (5, None, None, ("and", 5), None),
162 162 "&": (5, None, None, ("and", 5), None),
163 163 "%": (5, None, None, ("only", 5), ("onlypost", 5)),
164 164 "or": (4, None, None, ("or", 4), None),
165 165 "|": (4, None, None, ("or", 4), None),
166 166 "+": (4, None, None, ("or", 4), None),
167 167 "=": (3, None, None, ("keyvalue", 3), None),
168 168 ",": (2, None, None, ("list", 2), None),
169 169 ")": (0, None, None, None, None),
170 170 "symbol": (0, "symbol", None, None, None),
171 171 "string": (0, "string", None, None, None),
172 172 "end": (0, None, None, None, None),
173 173 }
174 174
175 175 keywords = set(['and', 'or', 'not'])
176 176
177 177 # default set of valid characters for the initial letter of symbols
178 178 _syminitletters = set(c for c in [chr(i) for i in xrange(256)]
179 179 if c.isalnum() or c in '._@' or ord(c) > 127)
180 180
181 181 # default set of valid characters for non-initial letters of symbols
182 182 _symletters = set(c for c in [chr(i) for i in xrange(256)]
183 183 if c.isalnum() or c in '-._/@' or ord(c) > 127)
184 184
185 185 def tokenize(program, lookup=None, syminitletters=None, symletters=None):
186 186 '''
187 187 Parse a revset statement into a stream of tokens
188 188
189 189 ``syminitletters`` is the set of valid characters for the initial
190 190 letter of symbols.
191 191
192 192 By default, character ``c`` is recognized as valid for initial
193 193 letter of symbols, if ``c.isalnum() or c in '._@' or ord(c) > 127``.
194 194
195 195 ``symletters`` is the set of valid characters for non-initial
196 196 letters of symbols.
197 197
198 198 By default, character ``c`` is recognized as valid for non-initial
199 199 letters of symbols, if ``c.isalnum() or c in '-._/@' or ord(c) > 127``.
200 200
201 201 Check that @ is a valid unquoted token character (issue3686):
202 202 >>> list(tokenize("@::"))
203 203 [('symbol', '@', 0), ('::', None, 1), ('end', None, 3)]
204 204
205 205 '''
206 206 if syminitletters is None:
207 207 syminitletters = _syminitletters
208 208 if symletters is None:
209 209 symletters = _symletters
210 210
211 211 if program and lookup:
212 212 # attempt to parse old-style ranges first to deal with
213 213 # things like old-tag which contain query metacharacters
214 214 parts = program.split(':', 1)
215 215 if all(lookup(sym) for sym in parts if sym):
216 216 if parts[0]:
217 217 yield ('symbol', parts[0], 0)
218 218 if len(parts) > 1:
219 219 s = len(parts[0])
220 220 yield (':', None, s)
221 221 if parts[1]:
222 222 yield ('symbol', parts[1], s + 1)
223 223 yield ('end', None, len(program))
224 224 return
225 225
226 226 pos, l = 0, len(program)
227 227 while pos < l:
228 228 c = program[pos]
229 229 if c.isspace(): # skip inter-token whitespace
230 230 pass
231 231 elif c == ':' and program[pos:pos + 2] == '::': # look ahead carefully
232 232 yield ('::', None, pos)
233 233 pos += 1 # skip ahead
234 234 elif c == '.' and program[pos:pos + 2] == '..': # look ahead carefully
235 235 yield ('..', None, pos)
236 236 pos += 1 # skip ahead
237 237 elif c == '#' and program[pos:pos + 2] == '##': # look ahead carefully
238 238 yield ('##', None, pos)
239 239 pos += 1 # skip ahead
240 240 elif c in "():=,-|&+!~^%": # handle simple operators
241 241 yield (c, None, pos)
242 242 elif (c in '"\'' or c == 'r' and
243 243 program[pos:pos + 2] in ("r'", 'r"')): # handle quoted strings
244 244 if c == 'r':
245 245 pos += 1
246 246 c = program[pos]
247 247 decode = lambda x: x
248 248 else:
249 249 decode = parser.unescapestr
250 250 pos += 1
251 251 s = pos
252 252 while pos < l: # find closing quote
253 253 d = program[pos]
254 254 if d == '\\': # skip over escaped characters
255 255 pos += 2
256 256 continue
257 257 if d == c:
258 258 yield ('string', decode(program[s:pos]), s)
259 259 break
260 260 pos += 1
261 261 else:
262 262 raise error.ParseError(_("unterminated string"), s)
263 263 # gather up a symbol/keyword
264 264 elif c in syminitletters:
265 265 s = pos
266 266 pos += 1
267 267 while pos < l: # find end of symbol
268 268 d = program[pos]
269 269 if d not in symletters:
270 270 break
271 271 if d == '.' and program[pos - 1] == '.': # special case for ..
272 272 pos -= 1
273 273 break
274 274 pos += 1
275 275 sym = program[s:pos]
276 276 if sym in keywords: # operator keywords
277 277 yield (sym, None, s)
278 278 elif '-' in sym:
279 279 # some jerk gave us foo-bar-baz, try to check if it's a symbol
280 280 if lookup and lookup(sym):
281 281 # looks like a real symbol
282 282 yield ('symbol', sym, s)
283 283 else:
284 284 # looks like an expression
285 285 parts = sym.split('-')
286 286 for p in parts[:-1]:
287 287 if p: # possible consecutive -
288 288 yield ('symbol', p, s)
289 289 s += len(p)
290 290 yield ('-', None, pos)
291 291 s += 1
292 292 if parts[-1]: # possible trailing -
293 293 yield ('symbol', parts[-1], s)
294 294 else:
295 295 yield ('symbol', sym, s)
296 296 pos -= 1
297 297 else:
298 298 raise error.ParseError(_("syntax error in revset '%s'") %
299 299 program, pos)
300 300 pos += 1
301 301 yield ('end', None, pos)
302 302
303 303 # helpers
304 304
305 305 def getstring(x, err):
306 306 if x and (x[0] == 'string' or x[0] == 'symbol'):
307 307 return x[1]
308 308 raise error.ParseError(err)
309 309
310 310 def getlist(x):
311 311 if not x:
312 312 return []
313 313 if x[0] == 'list':
314 314 return list(x[1:])
315 315 return [x]
316 316
317 317 def getargs(x, min, max, err):
318 318 l = getlist(x)
319 319 if len(l) < min or (max >= 0 and len(l) > max):
320 320 raise error.ParseError(err)
321 321 return l
322 322
323 323 def getargsdict(x, funcname, keys):
324 324 return parser.buildargsdict(getlist(x), funcname, keys.split(),
325 325 keyvaluenode='keyvalue', keynode='symbol')
326 326
327 327 def getset(repo, subset, x):
328 328 if not x:
329 329 raise error.ParseError(_("missing argument"))
330 330 s = methods[x[0]](repo, subset, *x[1:])
331 331 if util.safehasattr(s, 'isascending'):
332 332 return s
333 333 if (repo.ui.configbool('devel', 'all-warnings')
334 334 or repo.ui.configbool('devel', 'old-revset')):
335 335 # else case should not happen, because all non-func are internal,
336 336 # ignoring for now.
337 337 if x[0] == 'func' and x[1][0] == 'symbol' and x[1][1] in symbols:
338 338 repo.ui.develwarn('revset "%s" use list instead of smartset, '
339 339 '(upgrade your code)' % x[1][1])
340 340 return baseset(s)
341 341
342 342 def _getrevsource(repo, r):
343 343 extra = repo[r].extra()
344 344 for label in ('source', 'transplant_source', 'rebase_source'):
345 345 if label in extra:
346 346 try:
347 347 return repo[extra[label]].rev()
348 348 except error.RepoLookupError:
349 349 pass
350 350 return None
351 351
352 352 # operator methods
353 353
354 354 def stringset(repo, subset, x):
355 355 x = repo[x].rev()
356 356 if (x in subset
357 357 or x == node.nullrev and isinstance(subset, fullreposet)):
358 358 return baseset([x])
359 359 return baseset()
360 360
361 361 def rangeset(repo, subset, x, y):
362 362 m = getset(repo, fullreposet(repo), x)
363 363 n = getset(repo, fullreposet(repo), y)
364 364
365 365 if not m or not n:
366 366 return baseset()
367 367 m, n = m.first(), n.last()
368 368
369 369 if m == n:
370 370 r = baseset([m])
371 371 elif n == node.wdirrev:
372 372 r = spanset(repo, m, len(repo)) + baseset([n])
373 373 elif m == node.wdirrev:
374 374 r = baseset([m]) + spanset(repo, len(repo) - 1, n - 1)
375 375 elif m < n:
376 376 r = spanset(repo, m, n + 1)
377 377 else:
378 378 r = spanset(repo, m, n - 1)
379 379 # XXX We should combine with subset first: 'subset & baseset(...)'. This is
380 380 # necessary to ensure we preserve the order in subset.
381 381 #
382 382 # This has performance implication, carrying the sorting over when possible
383 383 # would be more efficient.
384 384 return r & subset
385 385
386 386 def dagrange(repo, subset, x, y):
387 387 r = fullreposet(repo)
388 388 xs = reachableroots(repo, getset(repo, r, x), getset(repo, r, y),
389 389 includepath=True)
390 390 # XXX We should combine with subset first: 'subset & baseset(...)'. This is
391 391 # necessary to ensure we preserve the order in subset.
392 392 return xs & subset
393 393
394 394 def andset(repo, subset, x, y):
395 395 return getset(repo, getset(repo, subset, x), y)
396 396
397 397 def differenceset(repo, subset, x, y):
398 398 return getset(repo, subset, x) - getset(repo, subset, y)
399 399
400 400 def orset(repo, subset, *xs):
401 401 assert xs
402 402 if len(xs) == 1:
403 403 return getset(repo, subset, xs[0])
404 404 p = len(xs) // 2
405 405 a = orset(repo, subset, *xs[:p])
406 406 b = orset(repo, subset, *xs[p:])
407 407 return a + b
408 408
409 409 def notset(repo, subset, x):
410 410 return subset - getset(repo, subset, x)
411 411
412 412 def listset(repo, subset, *xs):
413 413 raise error.ParseError(_("can't use a list in this context"),
414 414 hint=_('see hg help "revsets.x or y"'))
415 415
416 416 def keyvaluepair(repo, subset, k, v):
417 417 raise error.ParseError(_("can't use a key-value pair in this context"))
418 418
419 419 def func(repo, subset, a, b):
420 420 if a[0] == 'symbol' and a[1] in symbols:
421 421 return symbols[a[1]](repo, subset, b)
422 422
423 423 keep = lambda fn: getattr(fn, '__doc__', None) is not None
424 424
425 425 syms = [s for (s, fn) in symbols.items() if keep(fn)]
426 426 raise error.UnknownIdentifier(a[1], syms)
427 427
428 428 # functions
429 429
430 430 # symbols are callables like:
431 431 # fn(repo, subset, x)
432 432 # with:
433 433 # repo - current repository instance
434 434 # subset - of revisions to be examined
435 435 # x - argument in tree form
436 436 symbols = {}
437 437
438 438 # symbols which can't be used for a DoS attack for any given input
439 439 # (e.g. those which accept regexes as plain strings shouldn't be included)
440 440 # functions that just return a lot of changesets (like all) don't count here
441 441 safesymbols = set()
442 442
443 443 predicate = registrar.revsetpredicate()
444 444
445 445 @predicate('_destupdate')
446 446 def _destupdate(repo, subset, x):
447 447 # experimental revset for update destination
448 448 args = getargsdict(x, 'limit', 'clean check')
449 449 return subset & baseset([destutil.destupdate(repo, **args)[0]])
450 450
451 451 @predicate('_destmerge')
452 452 def _destmerge(repo, subset, x):
453 453 # experimental revset for merge destination
454 454 sourceset = None
455 455 if x is not None:
456 456 sourceset = getset(repo, fullreposet(repo), x)
457 457 return subset & baseset([destutil.destmerge(repo, sourceset=sourceset)])
458 458
459 459 @predicate('adds(pattern)', safe=True)
460 460 def adds(repo, subset, x):
461 461 """Changesets that add a file matching pattern.
462 462
463 463 The pattern without explicit kind like ``glob:`` is expected to be
464 464 relative to the current directory and match against a file or a
465 465 directory.
466 466 """
467 467 # i18n: "adds" is a keyword
468 468 pat = getstring(x, _("adds requires a pattern"))
469 469 return checkstatus(repo, subset, pat, 1)
470 470
471 471 @predicate('ancestor(*changeset)', safe=True)
472 472 def ancestor(repo, subset, x):
473 473 """A greatest common ancestor of the changesets.
474 474
475 475 Accepts 0 or more changesets.
476 476 Will return empty list when passed no args.
477 477 Greatest common ancestor of a single changeset is that changeset.
478 478 """
479 479 # i18n: "ancestor" is a keyword
480 480 l = getlist(x)
481 481 rl = fullreposet(repo)
482 482 anc = None
483 483
484 484 # (getset(repo, rl, i) for i in l) generates a list of lists
485 485 for revs in (getset(repo, rl, i) for i in l):
486 486 for r in revs:
487 487 if anc is None:
488 488 anc = repo[r]
489 489 else:
490 490 anc = anc.ancestor(repo[r])
491 491
492 492 if anc is not None and anc.rev() in subset:
493 493 return baseset([anc.rev()])
494 494 return baseset()
495 495
496 496 def _ancestors(repo, subset, x, followfirst=False):
497 497 heads = getset(repo, fullreposet(repo), x)
498 498 if not heads:
499 499 return baseset()
500 500 s = _revancestors(repo, heads, followfirst)
501 501 return subset & s
502 502
503 503 @predicate('ancestors(set)', safe=True)
504 504 def ancestors(repo, subset, x):
505 505 """Changesets that are ancestors of a changeset in set.
506 506 """
507 507 return _ancestors(repo, subset, x)
508 508
509 509 @predicate('_firstancestors', safe=True)
510 510 def _firstancestors(repo, subset, x):
511 511 # ``_firstancestors(set)``
512 512 # Like ``ancestors(set)`` but follows only the first parents.
513 513 return _ancestors(repo, subset, x, followfirst=True)
514 514
515 515 def ancestorspec(repo, subset, x, n):
516 516 """``set~n``
517 517 Changesets that are the Nth ancestor (first parents only) of a changeset
518 518 in set.
519 519 """
520 520 try:
521 521 n = int(n[1])
522 522 except (TypeError, ValueError):
523 523 raise error.ParseError(_("~ expects a number"))
524 524 ps = set()
525 525 cl = repo.changelog
526 526 for r in getset(repo, fullreposet(repo), x):
527 527 for i in range(n):
528 528 r = cl.parentrevs(r)[0]
529 529 ps.add(r)
530 530 return subset & ps
531 531
532 532 @predicate('author(string)', safe=True)
533 533 def author(repo, subset, x):
534 534 """Alias for ``user(string)``.
535 535 """
536 536 # i18n: "author" is a keyword
537 537 n = encoding.lower(getstring(x, _("author requires a string")))
538 538 kind, pattern, matcher = _substringmatcher(n)
539 539 return subset.filter(lambda x: matcher(encoding.lower(repo[x].user())),
540 540 condrepr=('<user %r>', n))
541 541
542 542 @predicate('bisect(string)', safe=True)
543 543 def bisect(repo, subset, x):
544 544 """Changesets marked in the specified bisect status:
545 545
546 546 - ``good``, ``bad``, ``skip``: csets explicitly marked as good/bad/skip
547 547 - ``goods``, ``bads`` : csets topologically good/bad
548 548 - ``range`` : csets taking part in the bisection
549 549 - ``pruned`` : csets that are goods, bads or skipped
550 550 - ``untested`` : csets whose fate is yet unknown
551 551 - ``ignored`` : csets ignored due to DAG topology
552 552 - ``current`` : the cset currently being bisected
553 553 """
554 554 # i18n: "bisect" is a keyword
555 555 status = getstring(x, _("bisect requires a string")).lower()
556 556 state = set(hbisect.get(repo, status))
557 557 return subset & state
558 558
559 559 # Backward-compatibility
560 560 # - no help entry so that we do not advertise it any more
561 561 @predicate('bisected', safe=True)
562 562 def bisected(repo, subset, x):
563 563 return bisect(repo, subset, x)
564 564
565 565 @predicate('bookmark([name])', safe=True)
566 566 def bookmark(repo, subset, x):
567 567 """The named bookmark or all bookmarks.
568 568
569 569 If `name` starts with `re:`, the remainder of the name is treated as
570 570 a regular expression. To match a bookmark that actually starts with `re:`,
571 571 use the prefix `literal:`.
572 572 """
573 573 # i18n: "bookmark" is a keyword
574 574 args = getargs(x, 0, 1, _('bookmark takes one or no arguments'))
575 575 if args:
576 576 bm = getstring(args[0],
577 577 # i18n: "bookmark" is a keyword
578 578 _('the argument to bookmark must be a string'))
579 579 kind, pattern, matcher = util.stringmatcher(bm)
580 580 bms = set()
581 581 if kind == 'literal':
582 582 bmrev = repo._bookmarks.get(pattern, None)
583 583 if not bmrev:
584 584 raise error.RepoLookupError(_("bookmark '%s' does not exist")
585 585 % pattern)
586 586 bms.add(repo[bmrev].rev())
587 587 else:
588 588 matchrevs = set()
589 589 for name, bmrev in repo._bookmarks.iteritems():
590 590 if matcher(name):
591 591 matchrevs.add(bmrev)
592 592 if not matchrevs:
593 593 raise error.RepoLookupError(_("no bookmarks exist"
594 594 " that match '%s'") % pattern)
595 595 for bmrev in matchrevs:
596 596 bms.add(repo[bmrev].rev())
597 597 else:
598 598 bms = set([repo[r].rev()
599 599 for r in repo._bookmarks.values()])
600 600 bms -= set([node.nullrev])
601 601 return subset & bms
602 602
603 603 @predicate('branch(string or set)', safe=True)
604 604 def branch(repo, subset, x):
605 605 """
606 606 All changesets belonging to the given branch or the branches of the given
607 607 changesets.
608 608
609 609 If `string` starts with `re:`, the remainder of the name is treated as
610 610 a regular expression. To match a branch that actually starts with `re:`,
611 611 use the prefix `literal:`.
612 612 """
613 613 getbi = repo.revbranchcache().branchinfo
614 614
615 615 try:
616 616 b = getstring(x, '')
617 617 except error.ParseError:
618 618 # not a string, but another revspec, e.g. tip()
619 619 pass
620 620 else:
621 621 kind, pattern, matcher = util.stringmatcher(b)
622 622 if kind == 'literal':
623 623 # note: falls through to the revspec case if no branch with
624 624 # this name exists and pattern kind is not specified explicitly
625 625 if pattern in repo.branchmap():
626 626 return subset.filter(lambda r: matcher(getbi(r)[0]),
627 627 condrepr=('<branch %r>', b))
628 628 if b.startswith('literal:'):
629 629 raise error.RepoLookupError(_("branch '%s' does not exist")
630 630 % pattern)
631 631 else:
632 632 return subset.filter(lambda r: matcher(getbi(r)[0]),
633 633 condrepr=('<branch %r>', b))
634 634
635 635 s = getset(repo, fullreposet(repo), x)
636 636 b = set()
637 637 for r in s:
638 638 b.add(getbi(r)[0])
639 639 c = s.__contains__
640 640 return subset.filter(lambda r: c(r) or getbi(r)[0] in b,
641 641 condrepr=lambda: '<branch %r>' % sorted(b))
642 642
643 643 @predicate('bumped()', safe=True)
644 644 def bumped(repo, subset, x):
645 645 """Mutable changesets marked as successors of public changesets.
646 646
647 647 Only non-public and non-obsolete changesets can be `bumped`.
648 648 """
649 649 # i18n: "bumped" is a keyword
650 650 getargs(x, 0, 0, _("bumped takes no arguments"))
651 651 bumped = obsmod.getrevs(repo, 'bumped')
652 652 return subset & bumped
653 653
654 654 @predicate('bundle()', safe=True)
655 655 def bundle(repo, subset, x):
656 656 """Changesets in the bundle.
657 657
658 658 Bundle must be specified by the -R option."""
659 659
660 660 try:
661 661 bundlerevs = repo.changelog.bundlerevs
662 662 except AttributeError:
663 663 raise error.Abort(_("no bundle provided - specify with -R"))
664 664 return subset & bundlerevs
665 665
666 666 def checkstatus(repo, subset, pat, field):
667 667 hasset = matchmod.patkind(pat) == 'set'
668 668
669 669 mcache = [None]
670 670 def matches(x):
671 671 c = repo[x]
672 672 if not mcache[0] or hasset:
673 673 mcache[0] = matchmod.match(repo.root, repo.getcwd(), [pat], ctx=c)
674 674 m = mcache[0]
675 675 fname = None
676 676 if not m.anypats() and len(m.files()) == 1:
677 677 fname = m.files()[0]
678 678 if fname is not None:
679 679 if fname not in c.files():
680 680 return False
681 681 else:
682 682 for f in c.files():
683 683 if m(f):
684 684 break
685 685 else:
686 686 return False
687 687 files = repo.status(c.p1().node(), c.node())[field]
688 688 if fname is not None:
689 689 if fname in files:
690 690 return True
691 691 else:
692 692 for f in files:
693 693 if m(f):
694 694 return True
695 695
696 696 return subset.filter(matches, condrepr=('<status[%r] %r>', field, pat))
697 697
698 698 def _children(repo, narrow, parentset):
699 699 if not parentset:
700 700 return baseset()
701 701 cs = set()
702 702 pr = repo.changelog.parentrevs
703 703 minrev = parentset.min()
704 704 for r in narrow:
705 705 if r <= minrev:
706 706 continue
707 707 for p in pr(r):
708 708 if p in parentset:
709 709 cs.add(r)
710 710 # XXX using a set to feed the baseset is wrong. Sets are not ordered.
711 711 # This does not break because of other fullreposet misbehavior.
712 712 return baseset(cs)
713 713
714 714 @predicate('children(set)', safe=True)
715 715 def children(repo, subset, x):
716 716 """Child changesets of changesets in set.
717 717 """
718 718 s = getset(repo, fullreposet(repo), x)
719 719 cs = _children(repo, subset, s)
720 720 return subset & cs
721 721
722 722 @predicate('closed()', safe=True)
723 723 def closed(repo, subset, x):
724 724 """Changeset is closed.
725 725 """
726 726 # i18n: "closed" is a keyword
727 727 getargs(x, 0, 0, _("closed takes no arguments"))
728 728 return subset.filter(lambda r: repo[r].closesbranch(),
729 729 condrepr='<branch closed>')
730 730
731 731 @predicate('contains(pattern)')
732 732 def contains(repo, subset, x):
733 733 """The revision's manifest contains a file matching pattern (but might not
734 734 modify it). See :hg:`help patterns` for information about file patterns.
735 735
736 736 The pattern without explicit kind like ``glob:`` is expected to be
737 737 relative to the current directory and match against a file exactly
738 738 for efficiency.
739 739 """
740 740 # i18n: "contains" is a keyword
741 741 pat = getstring(x, _("contains requires a pattern"))
742 742
743 743 def matches(x):
744 744 if not matchmod.patkind(pat):
745 745 pats = pathutil.canonpath(repo.root, repo.getcwd(), pat)
746 746 if pats in repo[x]:
747 747 return True
748 748 else:
749 749 c = repo[x]
750 750 m = matchmod.match(repo.root, repo.getcwd(), [pat], ctx=c)
751 751 for f in c.manifest():
752 752 if m(f):
753 753 return True
754 754 return False
755 755
756 756 return subset.filter(matches, condrepr=('<contains %r>', pat))
757 757
758 758 @predicate('converted([id])', safe=True)
759 759 def converted(repo, subset, x):
760 760 """Changesets converted from the given identifier in the old repository if
761 761 present, or all converted changesets if no identifier is specified.
762 762 """
763 763
764 764 # There is exactly no chance of resolving the revision, so do a simple
765 765 # string compare and hope for the best
766 766
767 767 rev = None
768 768 # i18n: "converted" is a keyword
769 769 l = getargs(x, 0, 1, _('converted takes one or no arguments'))
770 770 if l:
771 771 # i18n: "converted" is a keyword
772 772 rev = getstring(l[0], _('converted requires a revision'))
773 773
774 774 def _matchvalue(r):
775 775 source = repo[r].extra().get('convert_revision', None)
776 776 return source is not None and (rev is None or source.startswith(rev))
777 777
778 778 return subset.filter(lambda r: _matchvalue(r),
779 779 condrepr=('<converted %r>', rev))
780 780
781 781 @predicate('date(interval)', safe=True)
782 782 def date(repo, subset, x):
783 783 """Changesets within the interval, see :hg:`help dates`.
784 784 """
785 785 # i18n: "date" is a keyword
786 786 ds = getstring(x, _("date requires a string"))
787 787 dm = util.matchdate(ds)
788 788 return subset.filter(lambda x: dm(repo[x].date()[0]),
789 789 condrepr=('<date %r>', ds))
790 790
791 791 @predicate('desc(string)', safe=True)
792 792 def desc(repo, subset, x):
793 793 """Search commit message for string. The match is case-insensitive.
794 794 """
795 795 # i18n: "desc" is a keyword
796 796 ds = encoding.lower(getstring(x, _("desc requires a string")))
797 797
798 798 def matches(x):
799 799 c = repo[x]
800 800 return ds in encoding.lower(c.description())
801 801
802 802 return subset.filter(matches, condrepr=('<desc %r>', ds))
803 803
804 804 def _descendants(repo, subset, x, followfirst=False):
805 805 roots = getset(repo, fullreposet(repo), x)
806 806 if not roots:
807 807 return baseset()
808 808 s = _revdescendants(repo, roots, followfirst)
809 809
810 810 # Both sets need to be ascending in order to lazily return the union
811 811 # in the correct order.
812 812 base = subset & roots
813 813 desc = subset & s
814 814 result = base + desc
815 815 if subset.isascending():
816 816 result.sort()
817 817 elif subset.isdescending():
818 818 result.sort(reverse=True)
819 819 else:
820 820 result = subset & result
821 821 return result
822 822
823 823 @predicate('descendants(set)', safe=True)
824 824 def descendants(repo, subset, x):
825 825 """Changesets which are descendants of changesets in set.
826 826 """
827 827 return _descendants(repo, subset, x)
828 828
829 829 @predicate('_firstdescendants', safe=True)
830 830 def _firstdescendants(repo, subset, x):
831 831 # ``_firstdescendants(set)``
832 832 # Like ``descendants(set)`` but follows only the first parents.
833 833 return _descendants(repo, subset, x, followfirst=True)
834 834
835 835 @predicate('destination([set])', safe=True)
836 836 def destination(repo, subset, x):
837 837 """Changesets that were created by a graft, transplant or rebase operation,
838 838 with the given revisions specified as the source. Omitting the optional set
839 839 is the same as passing all().
840 840 """
841 841 if x is not None:
842 842 sources = getset(repo, fullreposet(repo), x)
843 843 else:
844 844 sources = fullreposet(repo)
845 845
846 846 dests = set()
847 847
848 848 # subset contains all of the possible destinations that can be returned, so
849 849 # iterate over them and see if their source(s) were provided in the arg set.
850 850 # Even if the immediate src of r is not in the arg set, src's source (or
851 851 # further back) may be. Scanning back further than the immediate src allows
852 852 # transitive transplants and rebases to yield the same results as transitive
853 853 # grafts.
854 854 for r in subset:
855 855 src = _getrevsource(repo, r)
856 856 lineage = None
857 857
858 858 while src is not None:
859 859 if lineage is None:
860 860 lineage = list()
861 861
862 862 lineage.append(r)
863 863
864 864 # The visited lineage is a match if the current source is in the arg
865 865 # set. Since every candidate dest is visited by way of iterating
866 866 # subset, any dests further back in the lineage will be tested by a
867 867 # different iteration over subset. Likewise, if the src was already
868 868 # selected, the current lineage can be selected without going back
869 869 # further.
870 870 if src in sources or src in dests:
871 871 dests.update(lineage)
872 872 break
873 873
874 874 r = src
875 875 src = _getrevsource(repo, r)
876 876
877 877 return subset.filter(dests.__contains__,
878 878 condrepr=lambda: '<destination %r>' % sorted(dests))
879 879
880 880 @predicate('divergent()', safe=True)
881 881 def divergent(repo, subset, x):
882 882 """
883 883 Final successors of changesets with an alternative set of final successors.
884 884 """
885 885 # i18n: "divergent" is a keyword
886 886 getargs(x, 0, 0, _("divergent takes no arguments"))
887 887 divergent = obsmod.getrevs(repo, 'divergent')
888 888 return subset & divergent
889 889
890 890 @predicate('extinct()', safe=True)
891 891 def extinct(repo, subset, x):
892 892 """Obsolete changesets with obsolete descendants only.
893 893 """
894 894 # i18n: "extinct" is a keyword
895 895 getargs(x, 0, 0, _("extinct takes no arguments"))
896 896 extincts = obsmod.getrevs(repo, 'extinct')
897 897 return subset & extincts
898 898
899 899 @predicate('extra(label, [value])', safe=True)
900 900 def extra(repo, subset, x):
901 901 """Changesets with the given label in the extra metadata, with the given
902 902 optional value.
903 903
904 904 If `value` starts with `re:`, the remainder of the value is treated as
905 905 a regular expression. To match a value that actually starts with `re:`,
906 906 use the prefix `literal:`.
907 907 """
908 908 args = getargsdict(x, 'extra', 'label value')
909 909 if 'label' not in args:
910 910 # i18n: "extra" is a keyword
911 911 raise error.ParseError(_('extra takes at least 1 argument'))
912 912 # i18n: "extra" is a keyword
913 913 label = getstring(args['label'], _('first argument to extra must be '
914 914 'a string'))
915 915 value = None
916 916
917 917 if 'value' in args:
918 918 # i18n: "extra" is a keyword
919 919 value = getstring(args['value'], _('second argument to extra must be '
920 920 'a string'))
921 921 kind, value, matcher = util.stringmatcher(value)
922 922
923 923 def _matchvalue(r):
924 924 extra = repo[r].extra()
925 925 return label in extra and (value is None or matcher(extra[label]))
926 926
927 927 return subset.filter(lambda r: _matchvalue(r),
928 928 condrepr=('<extra[%r] %r>', label, value))
929 929
930 930 @predicate('filelog(pattern)', safe=True)
931 931 def filelog(repo, subset, x):
932 932 """Changesets connected to the specified filelog.
933 933
934 934 For performance reasons, visits only revisions mentioned in the file-level
935 935 filelog, rather than filtering through all changesets (much faster, but
936 936 doesn't include deletes or duplicate changes). For a slower, more accurate
937 937 result, use ``file()``.
938 938
939 939 The pattern without explicit kind like ``glob:`` is expected to be
940 940 relative to the current directory and match against a file exactly
941 941 for efficiency.
942 942
943 943 If some linkrev points to revisions filtered by the current repoview, we'll
944 944 work around it to return a non-filtered value.
945 945 """
946 946
947 947 # i18n: "filelog" is a keyword
948 948 pat = getstring(x, _("filelog requires a pattern"))
949 949 s = set()
950 950 cl = repo.changelog
951 951
952 952 if not matchmod.patkind(pat):
953 953 f = pathutil.canonpath(repo.root, repo.getcwd(), pat)
954 954 files = [f]
955 955 else:
956 956 m = matchmod.match(repo.root, repo.getcwd(), [pat], ctx=repo[None])
957 957 files = (f for f in repo[None] if m(f))
958 958
959 959 for f in files:
960 960 fl = repo.file(f)
961 961 known = {}
962 962 scanpos = 0
963 963 for fr in list(fl):
964 964 fn = fl.node(fr)
965 965 if fn in known:
966 966 s.add(known[fn])
967 967 continue
968 968
969 969 lr = fl.linkrev(fr)
970 970 if lr in cl:
971 971 s.add(lr)
972 972 elif scanpos is not None:
973 973 # lowest matching changeset is filtered, scan further
974 974 # ahead in changelog
975 975 start = max(lr, scanpos) + 1
976 976 scanpos = None
977 977 for r in cl.revs(start):
978 978 # minimize parsing of non-matching entries
979 979 if f in cl.revision(r) and f in cl.readfiles(r):
980 980 try:
981 981 # try to use manifest delta fastpath
982 982 n = repo[r].filenode(f)
983 983 if n not in known:
984 984 if n == fn:
985 985 s.add(r)
986 986 scanpos = r
987 987 break
988 988 else:
989 989 known[n] = r
990 990 except error.ManifestLookupError:
991 991 # deletion in changelog
992 992 continue
993 993
994 994 return subset & s
995 995
996 996 @predicate('first(set, [n])', safe=True)
997 997 def first(repo, subset, x):
998 998 """An alias for limit().
999 999 """
1000 1000 return limit(repo, subset, x)
1001 1001
1002 1002 def _follow(repo, subset, x, name, followfirst=False):
1003 1003 l = getargs(x, 0, 1, _("%s takes no arguments or a pattern") % name)
1004 1004 c = repo['.']
1005 1005 if l:
1006 1006 x = getstring(l[0], _("%s expected a pattern") % name)
1007 1007 matcher = matchmod.match(repo.root, repo.getcwd(), [x],
1008 1008 ctx=repo[None], default='path')
1009 1009
1010 1010 files = c.manifest().walk(matcher)
1011 1011
1012 1012 s = set()
1013 1013 for fname in files:
1014 1014 fctx = c[fname]
1015 1015 s = s.union(set(c.rev() for c in fctx.ancestors(followfirst)))
1016 1016 # include the revision responsible for the most recent version
1017 1017 s.add(fctx.introrev())
1018 1018 else:
1019 1019 s = _revancestors(repo, baseset([c.rev()]), followfirst)
1020 1020
1021 1021 return subset & s
1022 1022
1023 1023 @predicate('follow([pattern])', safe=True)
1024 1024 def follow(repo, subset, x):
1025 1025 """
1026 1026 An alias for ``::.`` (ancestors of the working directory's first parent).
1027 1027 If pattern is specified, the histories of files matching given
1028 1028 pattern is followed, including copies.
1029 1029 """
1030 1030 return _follow(repo, subset, x, 'follow')
1031 1031
1032 1032 @predicate('_followfirst', safe=True)
1033 1033 def _followfirst(repo, subset, x):
1034 1034 # ``followfirst([pattern])``
1035 1035 # Like ``follow([pattern])`` but follows only the first parent of
1036 1036 # every revisions or files revisions.
1037 1037 return _follow(repo, subset, x, '_followfirst', followfirst=True)
1038 1038
1039 1039 @predicate('all()', safe=True)
1040 1040 def getall(repo, subset, x):
1041 1041 """All changesets, the same as ``0:tip``.
1042 1042 """
1043 1043 # i18n: "all" is a keyword
1044 1044 getargs(x, 0, 0, _("all takes no arguments"))
1045 1045 return subset & spanset(repo) # drop "null" if any
1046 1046
1047 1047 @predicate('grep(regex)')
1048 1048 def grep(repo, subset, x):
1049 1049 """Like ``keyword(string)`` but accepts a regex. Use ``grep(r'...')``
1050 1050 to ensure special escape characters are handled correctly. Unlike
1051 1051 ``keyword(string)``, the match is case-sensitive.
1052 1052 """
1053 1053 try:
1054 1054 # i18n: "grep" is a keyword
1055 1055 gr = re.compile(getstring(x, _("grep requires a string")))
1056 1056 except re.error as e:
1057 1057 raise error.ParseError(_('invalid match pattern: %s') % e)
1058 1058
1059 1059 def matches(x):
1060 1060 c = repo[x]
1061 1061 for e in c.files() + [c.user(), c.description()]:
1062 1062 if gr.search(e):
1063 1063 return True
1064 1064 return False
1065 1065
1066 1066 return subset.filter(matches, condrepr=('<grep %r>', gr.pattern))
1067 1067
1068 1068 @predicate('_matchfiles', safe=True)
1069 1069 def _matchfiles(repo, subset, x):
1070 1070 # _matchfiles takes a revset list of prefixed arguments:
1071 1071 #
1072 1072 # [p:foo, i:bar, x:baz]
1073 1073 #
1074 1074 # builds a match object from them and filters subset. Allowed
1075 1075 # prefixes are 'p:' for regular patterns, 'i:' for include
1076 1076 # patterns and 'x:' for exclude patterns. Use 'r:' prefix to pass
1077 1077 # a revision identifier, or the empty string to reference the
1078 1078 # working directory, from which the match object is
1079 1079 # initialized. Use 'd:' to set the default matching mode, default
1080 1080 # to 'glob'. At most one 'r:' and 'd:' argument can be passed.
1081 1081
1082 1082 l = getargs(x, 1, -1, "_matchfiles requires at least one argument")
1083 1083 pats, inc, exc = [], [], []
1084 1084 rev, default = None, None
1085 1085 for arg in l:
1086 1086 s = getstring(arg, "_matchfiles requires string arguments")
1087 1087 prefix, value = s[:2], s[2:]
1088 1088 if prefix == 'p:':
1089 1089 pats.append(value)
1090 1090 elif prefix == 'i:':
1091 1091 inc.append(value)
1092 1092 elif prefix == 'x:':
1093 1093 exc.append(value)
1094 1094 elif prefix == 'r:':
1095 1095 if rev is not None:
1096 1096 raise error.ParseError('_matchfiles expected at most one '
1097 1097 'revision')
1098 1098 if value != '': # empty means working directory; leave rev as None
1099 1099 rev = value
1100 1100 elif prefix == 'd:':
1101 1101 if default is not None:
1102 1102 raise error.ParseError('_matchfiles expected at most one '
1103 1103 'default mode')
1104 1104 default = value
1105 1105 else:
1106 1106 raise error.ParseError('invalid _matchfiles prefix: %s' % prefix)
1107 1107 if not default:
1108 1108 default = 'glob'
1109 1109
1110 1110 m = matchmod.match(repo.root, repo.getcwd(), pats, include=inc,
1111 1111 exclude=exc, ctx=repo[rev], default=default)
1112 1112
1113 1113 # This directly read the changelog data as creating changectx for all
1114 1114 # revisions is quite expensive.
1115 1115 getfiles = repo.changelog.readfiles
1116 1116 wdirrev = node.wdirrev
1117 1117 def matches(x):
1118 1118 if x == wdirrev:
1119 1119 files = repo[x].files()
1120 1120 else:
1121 1121 files = getfiles(x)
1122 1122 for f in files:
1123 1123 if m(f):
1124 1124 return True
1125 1125 return False
1126 1126
1127 1127 return subset.filter(matches,
1128 1128 condrepr=('<matchfiles patterns=%r, include=%r '
1129 1129 'exclude=%r, default=%r, rev=%r>',
1130 1130 pats, inc, exc, default, rev))
1131 1131
1132 1132 @predicate('file(pattern)', safe=True)
1133 1133 def hasfile(repo, subset, x):
1134 1134 """Changesets affecting files matched by pattern.
1135 1135
1136 1136 For a faster but less accurate result, consider using ``filelog()``
1137 1137 instead.
1138 1138
1139 1139 This predicate uses ``glob:`` as the default kind of pattern.
1140 1140 """
1141 1141 # i18n: "file" is a keyword
1142 1142 pat = getstring(x, _("file requires a pattern"))
1143 1143 return _matchfiles(repo, subset, ('string', 'p:' + pat))
1144 1144
1145 1145 @predicate('head()', safe=True)
1146 1146 def head(repo, subset, x):
1147 1147 """Changeset is a named branch head.
1148 1148 """
1149 1149 # i18n: "head" is a keyword
1150 1150 getargs(x, 0, 0, _("head takes no arguments"))
1151 1151 hs = set()
1152 1152 cl = repo.changelog
1153 1153 for b, ls in repo.branchmap().iteritems():
1154 1154 hs.update(cl.rev(h) for h in ls)
1155 1155 # XXX using a set to feed the baseset is wrong. Sets are not ordered.
1156 1156 # This does not break because of other fullreposet misbehavior.
1157 1157 # XXX We should combine with subset first: 'subset & baseset(...)'. This is
1158 1158 # necessary to ensure we preserve the order in subset.
1159 1159 return baseset(hs) & subset
1160 1160
1161 1161 @predicate('heads(set)', safe=True)
1162 1162 def heads(repo, subset, x):
1163 1163 """Members of set with no children in set.
1164 1164 """
1165 1165 s = getset(repo, subset, x)
1166 1166 ps = parents(repo, subset, x)
1167 1167 return s - ps
1168 1168
1169 1169 @predicate('hidden()', safe=True)
1170 1170 def hidden(repo, subset, x):
1171 1171 """Hidden changesets.
1172 1172 """
1173 1173 # i18n: "hidden" is a keyword
1174 1174 getargs(x, 0, 0, _("hidden takes no arguments"))
1175 1175 hiddenrevs = repoview.filterrevs(repo, 'visible')
1176 1176 return subset & hiddenrevs
1177 1177
1178 1178 @predicate('keyword(string)', safe=True)
1179 1179 def keyword(repo, subset, x):
1180 1180 """Search commit message, user name, and names of changed files for
1181 1181 string. The match is case-insensitive.
1182 1182 """
1183 1183 # i18n: "keyword" is a keyword
1184 1184 kw = encoding.lower(getstring(x, _("keyword requires a string")))
1185 1185
1186 1186 def matches(r):
1187 1187 c = repo[r]
1188 1188 return any(kw in encoding.lower(t)
1189 1189 for t in c.files() + [c.user(), c.description()])
1190 1190
1191 1191 return subset.filter(matches, condrepr=('<keyword %r>', kw))
1192 1192
1193 1193 @predicate('limit(set[, n[, offset]])', safe=True)
1194 1194 def limit(repo, subset, x):
1195 1195 """First n members of set, defaulting to 1, starting from offset.
1196 1196 """
1197 1197 args = getargsdict(x, 'limit', 'set n offset')
1198 1198 if 'set' not in args:
1199 1199 # i18n: "limit" is a keyword
1200 1200 raise error.ParseError(_("limit requires one to three arguments"))
1201 1201 try:
1202 1202 lim, ofs = 1, 0
1203 1203 if 'n' in args:
1204 1204 # i18n: "limit" is a keyword
1205 1205 lim = int(getstring(args['n'], _("limit requires a number")))
1206 1206 if 'offset' in args:
1207 1207 # i18n: "limit" is a keyword
1208 1208 ofs = int(getstring(args['offset'], _("limit requires a number")))
1209 1209 if ofs < 0:
1210 1210 raise error.ParseError(_("negative offset"))
1211 1211 except (TypeError, ValueError):
1212 1212 # i18n: "limit" is a keyword
1213 1213 raise error.ParseError(_("limit expects a number"))
1214 1214 os = getset(repo, fullreposet(repo), args['set'])
1215 1215 result = []
1216 1216 it = iter(os)
1217 1217 for x in xrange(ofs):
1218 1218 y = next(it, None)
1219 1219 if y is None:
1220 1220 break
1221 1221 for x in xrange(lim):
1222 1222 y = next(it, None)
1223 1223 if y is None:
1224 1224 break
1225 1225 elif y in subset:
1226 1226 result.append(y)
1227 1227 return baseset(result, datarepr=('<limit n=%d, offset=%d, %r, %r>',
1228 1228 lim, ofs, subset, os))
1229 1229
1230 1230 @predicate('last(set, [n])', safe=True)
1231 1231 def last(repo, subset, x):
1232 1232 """Last n members of set, defaulting to 1.
1233 1233 """
1234 1234 # i18n: "last" is a keyword
1235 1235 l = getargs(x, 1, 2, _("last requires one or two arguments"))
1236 1236 try:
1237 1237 lim = 1
1238 1238 if len(l) == 2:
1239 1239 # i18n: "last" is a keyword
1240 1240 lim = int(getstring(l[1], _("last requires a number")))
1241 1241 except (TypeError, ValueError):
1242 1242 # i18n: "last" is a keyword
1243 1243 raise error.ParseError(_("last expects a number"))
1244 1244 os = getset(repo, fullreposet(repo), l[0])
1245 1245 os.reverse()
1246 1246 result = []
1247 1247 it = iter(os)
1248 1248 for x in xrange(lim):
1249 1249 y = next(it, None)
1250 1250 if y is None:
1251 1251 break
1252 1252 elif y in subset:
1253 1253 result.append(y)
1254 1254 return baseset(result, datarepr=('<last n=%d, %r, %r>', lim, subset, os))
1255 1255
1256 1256 @predicate('max(set)', safe=True)
1257 1257 def maxrev(repo, subset, x):
1258 1258 """Changeset with highest revision number in set.
1259 1259 """
1260 1260 os = getset(repo, fullreposet(repo), x)
1261 1261 try:
1262 1262 m = os.max()
1263 1263 if m in subset:
1264 1264 return baseset([m], datarepr=('<max %r, %r>', subset, os))
1265 1265 except ValueError:
1266 1266 # os.max() throws a ValueError when the collection is empty.
1267 1267 # Same as python's max().
1268 1268 pass
1269 1269 return baseset(datarepr=('<max %r, %r>', subset, os))
1270 1270
1271 1271 @predicate('merge()', safe=True)
1272 1272 def merge(repo, subset, x):
1273 1273 """Changeset is a merge changeset.
1274 1274 """
1275 1275 # i18n: "merge" is a keyword
1276 1276 getargs(x, 0, 0, _("merge takes no arguments"))
1277 1277 cl = repo.changelog
1278 1278 return subset.filter(lambda r: cl.parentrevs(r)[1] != -1,
1279 1279 condrepr='<merge>')
1280 1280
1281 1281 @predicate('branchpoint()', safe=True)
1282 1282 def branchpoint(repo, subset, x):
1283 1283 """Changesets with more than one child.
1284 1284 """
1285 1285 # i18n: "branchpoint" is a keyword
1286 1286 getargs(x, 0, 0, _("branchpoint takes no arguments"))
1287 1287 cl = repo.changelog
1288 1288 if not subset:
1289 1289 return baseset()
1290 1290 # XXX this should be 'parentset.min()' assuming 'parentset' is a smartset
1291 1291 # (and if it is not, it should.)
1292 1292 baserev = min(subset)
1293 1293 parentscount = [0]*(len(repo) - baserev)
1294 1294 for r in cl.revs(start=baserev + 1):
1295 1295 for p in cl.parentrevs(r):
1296 1296 if p >= baserev:
1297 1297 parentscount[p - baserev] += 1
1298 1298 return subset.filter(lambda r: parentscount[r - baserev] > 1,
1299 1299 condrepr='<branchpoint>')
1300 1300
1301 1301 @predicate('min(set)', safe=True)
1302 1302 def minrev(repo, subset, x):
1303 1303 """Changeset with lowest revision number in set.
1304 1304 """
1305 1305 os = getset(repo, fullreposet(repo), x)
1306 1306 try:
1307 1307 m = os.min()
1308 1308 if m in subset:
1309 1309 return baseset([m], datarepr=('<min %r, %r>', subset, os))
1310 1310 except ValueError:
1311 1311 # os.min() throws a ValueError when the collection is empty.
1312 1312 # Same as python's min().
1313 1313 pass
1314 1314 return baseset(datarepr=('<min %r, %r>', subset, os))
1315 1315
1316 1316 @predicate('modifies(pattern)', safe=True)
1317 1317 def modifies(repo, subset, x):
1318 1318 """Changesets modifying files matched by pattern.
1319 1319
1320 1320 The pattern without explicit kind like ``glob:`` is expected to be
1321 1321 relative to the current directory and match against a file or a
1322 1322 directory.
1323 1323 """
1324 1324 # i18n: "modifies" is a keyword
1325 1325 pat = getstring(x, _("modifies requires a pattern"))
1326 1326 return checkstatus(repo, subset, pat, 0)
1327 1327
1328 1328 @predicate('named(namespace)')
1329 1329 def named(repo, subset, x):
1330 1330 """The changesets in a given namespace.
1331 1331
1332 1332 If `namespace` starts with `re:`, the remainder of the string is treated as
1333 1333 a regular expression. To match a namespace that actually starts with `re:`,
1334 1334 use the prefix `literal:`.
1335 1335 """
1336 1336 # i18n: "named" is a keyword
1337 1337 args = getargs(x, 1, 1, _('named requires a namespace argument'))
1338 1338
1339 1339 ns = getstring(args[0],
1340 1340 # i18n: "named" is a keyword
1341 1341 _('the argument to named must be a string'))
1342 1342 kind, pattern, matcher = util.stringmatcher(ns)
1343 1343 namespaces = set()
1344 1344 if kind == 'literal':
1345 1345 if pattern not in repo.names:
1346 1346 raise error.RepoLookupError(_("namespace '%s' does not exist")
1347 1347 % ns)
1348 1348 namespaces.add(repo.names[pattern])
1349 1349 else:
1350 1350 for name, ns in repo.names.iteritems():
1351 1351 if matcher(name):
1352 1352 namespaces.add(ns)
1353 1353 if not namespaces:
1354 1354 raise error.RepoLookupError(_("no namespace exists"
1355 1355 " that match '%s'") % pattern)
1356 1356
1357 1357 names = set()
1358 1358 for ns in namespaces:
1359 1359 for name in ns.listnames(repo):
1360 1360 if name not in ns.deprecated:
1361 1361 names.update(repo[n].rev() for n in ns.nodes(repo, name))
1362 1362
1363 1363 names -= set([node.nullrev])
1364 1364 return subset & names
1365 1365
1366 1366 @predicate('id(string)', safe=True)
1367 1367 def node_(repo, subset, x):
1368 1368 """Revision non-ambiguously specified by the given hex string prefix.
1369 1369 """
1370 1370 # i18n: "id" is a keyword
1371 1371 l = getargs(x, 1, 1, _("id requires one argument"))
1372 1372 # i18n: "id" is a keyword
1373 1373 n = getstring(l[0], _("id requires a string"))
1374 1374 if len(n) == 40:
1375 1375 try:
1376 1376 rn = repo.changelog.rev(node.bin(n))
1377 1377 except (LookupError, TypeError):
1378 1378 rn = None
1379 1379 else:
1380 1380 rn = None
1381 1381 pm = repo.changelog._partialmatch(n)
1382 1382 if pm is not None:
1383 1383 rn = repo.changelog.rev(pm)
1384 1384
1385 1385 if rn is None:
1386 1386 return baseset()
1387 1387 result = baseset([rn])
1388 1388 return result & subset
1389 1389
1390 1390 @predicate('obsolete()', safe=True)
1391 1391 def obsolete(repo, subset, x):
1392 1392 """Mutable changeset with a newer version."""
1393 1393 # i18n: "obsolete" is a keyword
1394 1394 getargs(x, 0, 0, _("obsolete takes no arguments"))
1395 1395 obsoletes = obsmod.getrevs(repo, 'obsolete')
1396 1396 return subset & obsoletes
1397 1397
1398 1398 @predicate('only(set, [set])', safe=True)
1399 1399 def only(repo, subset, x):
1400 1400 """Changesets that are ancestors of the first set that are not ancestors
1401 1401 of any other head in the repo. If a second set is specified, the result
1402 1402 is ancestors of the first set that are not ancestors of the second set
1403 1403 (i.e. ::<set1> - ::<set2>).
1404 1404 """
1405 1405 cl = repo.changelog
1406 1406 # i18n: "only" is a keyword
1407 1407 args = getargs(x, 1, 2, _('only takes one or two arguments'))
1408 1408 include = getset(repo, fullreposet(repo), args[0])
1409 1409 if len(args) == 1:
1410 1410 if not include:
1411 1411 return baseset()
1412 1412
1413 1413 descendants = set(_revdescendants(repo, include, False))
1414 1414 exclude = [rev for rev in cl.headrevs()
1415 1415 if not rev in descendants and not rev in include]
1416 1416 else:
1417 1417 exclude = getset(repo, fullreposet(repo), args[1])
1418 1418
1419 1419 results = set(cl.findmissingrevs(common=exclude, heads=include))
1420 1420 # XXX we should turn this into a baseset instead of a set, smartset may do
1421 1421 # some optimisations from the fact this is a baseset.
1422 1422 return subset & results
1423 1423
1424 1424 @predicate('origin([set])', safe=True)
1425 1425 def origin(repo, subset, x):
1426 1426 """
1427 1427 Changesets that were specified as a source for the grafts, transplants or
1428 1428 rebases that created the given revisions. Omitting the optional set is the
1429 1429 same as passing all(). If a changeset created by these operations is itself
1430 1430 specified as a source for one of these operations, only the source changeset
1431 1431 for the first operation is selected.
1432 1432 """
1433 1433 if x is not None:
1434 1434 dests = getset(repo, fullreposet(repo), x)
1435 1435 else:
1436 1436 dests = fullreposet(repo)
1437 1437
1438 1438 def _firstsrc(rev):
1439 1439 src = _getrevsource(repo, rev)
1440 1440 if src is None:
1441 1441 return None
1442 1442
1443 1443 while True:
1444 1444 prev = _getrevsource(repo, src)
1445 1445
1446 1446 if prev is None:
1447 1447 return src
1448 1448 src = prev
1449 1449
1450 1450 o = set([_firstsrc(r) for r in dests])
1451 1451 o -= set([None])
1452 1452 # XXX we should turn this into a baseset instead of a set, smartset may do
1453 1453 # some optimisations from the fact this is a baseset.
1454 1454 return subset & o
1455 1455
1456 1456 @predicate('outgoing([path])', safe=True)
1457 1457 def outgoing(repo, subset, x):
1458 1458 """Changesets not found in the specified destination repository, or the
1459 1459 default push location.
1460 1460 """
1461 1461 # Avoid cycles.
1462 1462 from . import (
1463 1463 discovery,
1464 1464 hg,
1465 1465 )
1466 1466 # i18n: "outgoing" is a keyword
1467 1467 l = getargs(x, 0, 1, _("outgoing takes one or no arguments"))
1468 1468 # i18n: "outgoing" is a keyword
1469 1469 dest = l and getstring(l[0], _("outgoing requires a repository path")) or ''
1470 1470 dest = repo.ui.expandpath(dest or 'default-push', dest or 'default')
1471 1471 dest, branches = hg.parseurl(dest)
1472 1472 revs, checkout = hg.addbranchrevs(repo, repo, branches, [])
1473 1473 if revs:
1474 1474 revs = [repo.lookup(rev) for rev in revs]
1475 1475 other = hg.peer(repo, {}, dest)
1476 1476 repo.ui.pushbuffer()
1477 1477 outgoing = discovery.findcommonoutgoing(repo, other, onlyheads=revs)
1478 1478 repo.ui.popbuffer()
1479 1479 cl = repo.changelog
1480 1480 o = set([cl.rev(r) for r in outgoing.missing])
1481 1481 return subset & o
1482 1482
1483 1483 @predicate('p1([set])', safe=True)
1484 1484 def p1(repo, subset, x):
1485 1485 """First parent of changesets in set, or the working directory.
1486 1486 """
1487 1487 if x is None:
1488 1488 p = repo[x].p1().rev()
1489 1489 if p >= 0:
1490 1490 return subset & baseset([p])
1491 1491 return baseset()
1492 1492
1493 1493 ps = set()
1494 1494 cl = repo.changelog
1495 1495 for r in getset(repo, fullreposet(repo), x):
1496 1496 ps.add(cl.parentrevs(r)[0])
1497 1497 ps -= set([node.nullrev])
1498 1498 # XXX we should turn this into a baseset instead of a set, smartset may do
1499 1499 # some optimisations from the fact this is a baseset.
1500 1500 return subset & ps
1501 1501
1502 1502 @predicate('p2([set])', safe=True)
1503 1503 def p2(repo, subset, x):
1504 1504 """Second parent of changesets in set, or the working directory.
1505 1505 """
1506 1506 if x is None:
1507 1507 ps = repo[x].parents()
1508 1508 try:
1509 1509 p = ps[1].rev()
1510 1510 if p >= 0:
1511 1511 return subset & baseset([p])
1512 1512 return baseset()
1513 1513 except IndexError:
1514 1514 return baseset()
1515 1515
1516 1516 ps = set()
1517 1517 cl = repo.changelog
1518 1518 for r in getset(repo, fullreposet(repo), x):
1519 1519 ps.add(cl.parentrevs(r)[1])
1520 1520 ps -= set([node.nullrev])
1521 1521 # XXX we should turn this into a baseset instead of a set, smartset may do
1522 1522 # some optimisations from the fact this is a baseset.
1523 1523 return subset & ps
1524 1524
1525 1525 @predicate('parents([set])', safe=True)
1526 1526 def parents(repo, subset, x):
1527 1527 """
1528 1528 The set of all parents for all changesets in set, or the working directory.
1529 1529 """
1530 1530 if x is None:
1531 1531 ps = set(p.rev() for p in repo[x].parents())
1532 1532 else:
1533 1533 ps = set()
1534 1534 cl = repo.changelog
1535 1535 up = ps.update
1536 1536 parentrevs = cl.parentrevs
1537 1537 for r in getset(repo, fullreposet(repo), x):
1538 1538 if r == node.wdirrev:
1539 1539 up(p.rev() for p in repo[r].parents())
1540 1540 else:
1541 1541 up(parentrevs(r))
1542 1542 ps -= set([node.nullrev])
1543 1543 return subset & ps
1544 1544
1545 1545 def _phase(repo, subset, target):
1546 1546 """helper to select all rev in phase <target>"""
1547 1547 repo._phasecache.loadphaserevs(repo) # ensure phase's sets are loaded
1548 1548 if repo._phasecache._phasesets:
1549 1549 s = repo._phasecache._phasesets[target] - repo.changelog.filteredrevs
1550 1550 s = baseset(s)
1551 1551 s.sort() # set are non ordered, so we enforce ascending
1552 1552 return subset & s
1553 1553 else:
1554 1554 phase = repo._phasecache.phase
1555 1555 condition = lambda r: phase(repo, r) == target
1556 1556 return subset.filter(condition, condrepr=('<phase %r>', target),
1557 1557 cache=False)
1558 1558
1559 1559 @predicate('draft()', safe=True)
1560 1560 def draft(repo, subset, x):
1561 1561 """Changeset in draft phase."""
1562 1562 # i18n: "draft" is a keyword
1563 1563 getargs(x, 0, 0, _("draft takes no arguments"))
1564 1564 target = phases.draft
1565 1565 return _phase(repo, subset, target)
1566 1566
1567 1567 @predicate('secret()', safe=True)
1568 1568 def secret(repo, subset, x):
1569 1569 """Changeset in secret phase."""
1570 1570 # i18n: "secret" is a keyword
1571 1571 getargs(x, 0, 0, _("secret takes no arguments"))
1572 1572 target = phases.secret
1573 1573 return _phase(repo, subset, target)
1574 1574
1575 1575 def parentspec(repo, subset, x, n):
1576 1576 """``set^0``
1577 1577 The set.
1578 1578 ``set^1`` (or ``set^``), ``set^2``
1579 1579 First or second parent, respectively, of all changesets in set.
1580 1580 """
1581 1581 try:
1582 1582 n = int(n[1])
1583 1583 if n not in (0, 1, 2):
1584 1584 raise ValueError
1585 1585 except (TypeError, ValueError):
1586 1586 raise error.ParseError(_("^ expects a number 0, 1, or 2"))
1587 1587 ps = set()
1588 1588 cl = repo.changelog
1589 1589 for r in getset(repo, fullreposet(repo), x):
1590 1590 if n == 0:
1591 1591 ps.add(r)
1592 1592 elif n == 1:
1593 1593 ps.add(cl.parentrevs(r)[0])
1594 1594 elif n == 2:
1595 1595 parents = cl.parentrevs(r)
1596 1596 if len(parents) > 1:
1597 1597 ps.add(parents[1])
1598 1598 return subset & ps
1599 1599
1600 1600 @predicate('present(set)', safe=True)
1601 1601 def present(repo, subset, x):
1602 1602 """An empty set, if any revision in set isn't found; otherwise,
1603 1603 all revisions in set.
1604 1604
1605 1605 If any of specified revisions is not present in the local repository,
1606 1606 the query is normally aborted. But this predicate allows the query
1607 1607 to continue even in such cases.
1608 1608 """
1609 1609 try:
1610 1610 return getset(repo, subset, x)
1611 1611 except error.RepoLookupError:
1612 1612 return baseset()
1613 1613
1614 1614 # for internal use
1615 1615 @predicate('_notpublic', safe=True)
1616 1616 def _notpublic(repo, subset, x):
1617 1617 getargs(x, 0, 0, "_notpublic takes no arguments")
1618 1618 repo._phasecache.loadphaserevs(repo) # ensure phase's sets are loaded
1619 1619 if repo._phasecache._phasesets:
1620 1620 s = set()
1621 1621 for u in repo._phasecache._phasesets[1:]:
1622 1622 s.update(u)
1623 1623 s = baseset(s - repo.changelog.filteredrevs)
1624 1624 s.sort()
1625 1625 return subset & s
1626 1626 else:
1627 1627 phase = repo._phasecache.phase
1628 1628 target = phases.public
1629 1629 condition = lambda r: phase(repo, r) != target
1630 1630 return subset.filter(condition, condrepr=('<phase %r>', target),
1631 1631 cache=False)
1632 1632
1633 1633 @predicate('public()', safe=True)
1634 1634 def public(repo, subset, x):
1635 1635 """Changeset in public phase."""
1636 1636 # i18n: "public" is a keyword
1637 1637 getargs(x, 0, 0, _("public takes no arguments"))
1638 1638 phase = repo._phasecache.phase
1639 1639 target = phases.public
1640 1640 condition = lambda r: phase(repo, r) == target
1641 1641 return subset.filter(condition, condrepr=('<phase %r>', target),
1642 1642 cache=False)
1643 1643
1644 1644 @predicate('remote([id [,path]])', safe=True)
1645 1645 def remote(repo, subset, x):
1646 1646 """Local revision that corresponds to the given identifier in a
1647 1647 remote repository, if present. Here, the '.' identifier is a
1648 1648 synonym for the current local branch.
1649 1649 """
1650 1650
1651 1651 from . import hg # avoid start-up nasties
1652 1652 # i18n: "remote" is a keyword
1653 1653 l = getargs(x, 0, 2, _("remote takes zero, one, or two arguments"))
1654 1654
1655 1655 q = '.'
1656 1656 if len(l) > 0:
1657 1657 # i18n: "remote" is a keyword
1658 1658 q = getstring(l[0], _("remote requires a string id"))
1659 1659 if q == '.':
1660 1660 q = repo['.'].branch()
1661 1661
1662 1662 dest = ''
1663 1663 if len(l) > 1:
1664 1664 # i18n: "remote" is a keyword
1665 1665 dest = getstring(l[1], _("remote requires a repository path"))
1666 1666 dest = repo.ui.expandpath(dest or 'default')
1667 1667 dest, branches = hg.parseurl(dest)
1668 1668 revs, checkout = hg.addbranchrevs(repo, repo, branches, [])
1669 1669 if revs:
1670 1670 revs = [repo.lookup(rev) for rev in revs]
1671 1671 other = hg.peer(repo, {}, dest)
1672 1672 n = other.lookup(q)
1673 1673 if n in repo:
1674 1674 r = repo[n].rev()
1675 1675 if r in subset:
1676 1676 return baseset([r])
1677 1677 return baseset()
1678 1678
1679 1679 @predicate('removes(pattern)', safe=True)
1680 1680 def removes(repo, subset, x):
1681 1681 """Changesets which remove files matching pattern.
1682 1682
1683 1683 The pattern without explicit kind like ``glob:`` is expected to be
1684 1684 relative to the current directory and match against a file or a
1685 1685 directory.
1686 1686 """
1687 1687 # i18n: "removes" is a keyword
1688 1688 pat = getstring(x, _("removes requires a pattern"))
1689 1689 return checkstatus(repo, subset, pat, 2)
1690 1690
1691 1691 @predicate('rev(number)', safe=True)
1692 1692 def rev(repo, subset, x):
1693 1693 """Revision with the given numeric identifier.
1694 1694 """
1695 1695 # i18n: "rev" is a keyword
1696 1696 l = getargs(x, 1, 1, _("rev requires one argument"))
1697 1697 try:
1698 1698 # i18n: "rev" is a keyword
1699 1699 l = int(getstring(l[0], _("rev requires a number")))
1700 1700 except (TypeError, ValueError):
1701 1701 # i18n: "rev" is a keyword
1702 1702 raise error.ParseError(_("rev expects a number"))
1703 1703 if l not in repo.changelog and l != node.nullrev:
1704 1704 return baseset()
1705 1705 return subset & baseset([l])
1706 1706
1707 1707 @predicate('matching(revision [, field])', safe=True)
1708 1708 def matching(repo, subset, x):
1709 1709 """Changesets in which a given set of fields match the set of fields in the
1710 1710 selected revision or set.
1711 1711
1712 1712 To match more than one field pass the list of fields to match separated
1713 1713 by spaces (e.g. ``author description``).
1714 1714
1715 1715 Valid fields are most regular revision fields and some special fields.
1716 1716
1717 1717 Regular revision fields are ``description``, ``author``, ``branch``,
1718 1718 ``date``, ``files``, ``phase``, ``parents``, ``substate``, ``user``
1719 1719 and ``diff``.
1720 1720 Note that ``author`` and ``user`` are synonyms. ``diff`` refers to the
1721 1721 contents of the revision. Two revisions matching their ``diff`` will
1722 1722 also match their ``files``.
1723 1723
1724 1724 Special fields are ``summary`` and ``metadata``:
1725 1725 ``summary`` matches the first line of the description.
1726 1726 ``metadata`` is equivalent to matching ``description user date``
1727 1727 (i.e. it matches the main metadata fields).
1728 1728
1729 1729 ``metadata`` is the default field which is used when no fields are
1730 1730 specified. You can match more than one field at a time.
1731 1731 """
1732 1732 # i18n: "matching" is a keyword
1733 1733 l = getargs(x, 1, 2, _("matching takes 1 or 2 arguments"))
1734 1734
1735 1735 revs = getset(repo, fullreposet(repo), l[0])
1736 1736
1737 1737 fieldlist = ['metadata']
1738 1738 if len(l) > 1:
1739 1739 fieldlist = getstring(l[1],
1740 1740 # i18n: "matching" is a keyword
1741 1741 _("matching requires a string "
1742 1742 "as its second argument")).split()
1743 1743
1744 1744 # Make sure that there are no repeated fields,
1745 1745 # expand the 'special' 'metadata' field type
1746 1746 # and check the 'files' whenever we check the 'diff'
1747 1747 fields = []
1748 1748 for field in fieldlist:
1749 1749 if field == 'metadata':
1750 1750 fields += ['user', 'description', 'date']
1751 1751 elif field == 'diff':
1752 1752 # a revision matching the diff must also match the files
1753 1753 # since matching the diff is very costly, make sure to
1754 1754 # also match the files first
1755 1755 fields += ['files', 'diff']
1756 1756 else:
1757 1757 if field == 'author':
1758 1758 field = 'user'
1759 1759 fields.append(field)
1760 1760 fields = set(fields)
1761 1761 if 'summary' in fields and 'description' in fields:
1762 1762 # If a revision matches its description it also matches its summary
1763 1763 fields.discard('summary')
1764 1764
1765 1765 # We may want to match more than one field
1766 1766 # Not all fields take the same amount of time to be matched
1767 1767 # Sort the selected fields in order of increasing matching cost
1768 1768 fieldorder = ['phase', 'parents', 'user', 'date', 'branch', 'summary',
1769 1769 'files', 'description', 'substate', 'diff']
1770 1770 def fieldkeyfunc(f):
1771 1771 try:
1772 1772 return fieldorder.index(f)
1773 1773 except ValueError:
1774 1774 # assume an unknown field is very costly
1775 1775 return len(fieldorder)
1776 1776 fields = list(fields)
1777 1777 fields.sort(key=fieldkeyfunc)
1778 1778
1779 1779 # Each field will be matched with its own "getfield" function
1780 1780 # which will be added to the getfieldfuncs array of functions
1781 1781 getfieldfuncs = []
1782 1782 _funcs = {
1783 1783 'user': lambda r: repo[r].user(),
1784 1784 'branch': lambda r: repo[r].branch(),
1785 1785 'date': lambda r: repo[r].date(),
1786 1786 'description': lambda r: repo[r].description(),
1787 1787 'files': lambda r: repo[r].files(),
1788 1788 'parents': lambda r: repo[r].parents(),
1789 1789 'phase': lambda r: repo[r].phase(),
1790 1790 'substate': lambda r: repo[r].substate,
1791 1791 'summary': lambda r: repo[r].description().splitlines()[0],
1792 1792 'diff': lambda r: list(repo[r].diff(git=True),)
1793 1793 }
1794 1794 for info in fields:
1795 1795 getfield = _funcs.get(info, None)
1796 1796 if getfield is None:
1797 1797 raise error.ParseError(
1798 1798 # i18n: "matching" is a keyword
1799 1799 _("unexpected field name passed to matching: %s") % info)
1800 1800 getfieldfuncs.append(getfield)
1801 1801 # convert the getfield array of functions into a "getinfo" function
1802 1802 # which returns an array of field values (or a single value if there
1803 1803 # is only one field to match)
1804 1804 getinfo = lambda r: [f(r) for f in getfieldfuncs]
1805 1805
1806 1806 def matches(x):
1807 1807 for rev in revs:
1808 1808 target = getinfo(rev)
1809 1809 match = True
1810 1810 for n, f in enumerate(getfieldfuncs):
1811 1811 if target[n] != f(x):
1812 1812 match = False
1813 1813 if match:
1814 1814 return True
1815 1815 return False
1816 1816
1817 1817 return subset.filter(matches, condrepr=('<matching%r %r>', fields, revs))
1818 1818
1819 1819 @predicate('reverse(set)', safe=True)
1820 1820 def reverse(repo, subset, x):
1821 1821 """Reverse order of set.
1822 1822 """
1823 1823 l = getset(repo, subset, x)
1824 1824 l.reverse()
1825 1825 return l
1826 1826
1827 1827 @predicate('roots(set)', safe=True)
1828 1828 def roots(repo, subset, x):
1829 1829 """Changesets in set with no parent changeset in set.
1830 1830 """
1831 1831 s = getset(repo, fullreposet(repo), x)
1832 1832 parents = repo.changelog.parentrevs
1833 1833 def filter(r):
1834 1834 for p in parents(r):
1835 1835 if 0 <= p and p in s:
1836 1836 return False
1837 1837 return True
1838 1838 return subset & s.filter(filter, condrepr='<roots>')
1839 1839
1840 1840 @predicate('sort(set[, [-]key...])', safe=True)
1841 1841 def sort(repo, subset, x):
1842 1842 """Sort set by keys. The default sort order is ascending, specify a key
1843 1843 as ``-key`` to sort in descending order.
1844 1844
1845 1845 The keys can be:
1846 1846
1847 1847 - ``rev`` for the revision number,
1848 1848 - ``branch`` for the branch name,
1849 1849 - ``desc`` for the commit message (description),
1850 1850 - ``user`` for user name (``author`` can be used as an alias),
1851 1851 - ``date`` for the commit date
1852 1852 """
1853 1853 # i18n: "sort" is a keyword
1854 1854 l = getargs(x, 1, 2, _("sort requires one or two arguments"))
1855 1855 keys = "rev"
1856 1856 if len(l) == 2:
1857 1857 # i18n: "sort" is a keyword
1858 1858 keys = getstring(l[1], _("sort spec must be a string"))
1859 1859
1860 1860 s = l[0]
1861 1861 keys = keys.split()
1862 1862 l = []
1863 1863 def invert(s):
1864 1864 return "".join(chr(255 - ord(c)) for c in s)
1865 1865 revs = getset(repo, subset, s)
1866 1866 if keys == ["rev"]:
1867 1867 revs.sort()
1868 1868 return revs
1869 1869 elif keys == ["-rev"]:
1870 1870 revs.sort(reverse=True)
1871 1871 return revs
1872 1872 for r in revs:
1873 1873 c = repo[r]
1874 1874 e = []
1875 1875 for k in keys:
1876 1876 if k == 'rev':
1877 1877 e.append(r)
1878 1878 elif k == '-rev':
1879 1879 e.append(-r)
1880 1880 elif k == 'branch':
1881 1881 e.append(c.branch())
1882 1882 elif k == '-branch':
1883 1883 e.append(invert(c.branch()))
1884 1884 elif k == 'desc':
1885 1885 e.append(c.description())
1886 1886 elif k == '-desc':
1887 1887 e.append(invert(c.description()))
1888 1888 elif k in 'user author':
1889 1889 e.append(c.user())
1890 1890 elif k in '-user -author':
1891 1891 e.append(invert(c.user()))
1892 1892 elif k == 'date':
1893 1893 e.append(c.date()[0])
1894 1894 elif k == '-date':
1895 1895 e.append(-c.date()[0])
1896 1896 else:
1897 1897 raise error.ParseError(_("unknown sort key %r") % k)
1898 1898 e.append(r)
1899 1899 l.append(e)
1900 1900 l.sort()
1901 1901 return baseset([e[-1] for e in l])
1902 1902
1903 1903 @predicate('subrepo([pattern])')
1904 1904 def subrepo(repo, subset, x):
1905 1905 """Changesets that add, modify or remove the given subrepo. If no subrepo
1906 1906 pattern is named, any subrepo changes are returned.
1907 1907 """
1908 1908 # i18n: "subrepo" is a keyword
1909 1909 args = getargs(x, 0, 1, _('subrepo takes at most one argument'))
1910 1910 pat = None
1911 1911 if len(args) != 0:
1912 1912 pat = getstring(args[0], _("subrepo requires a pattern"))
1913 1913
1914 1914 m = matchmod.exact(repo.root, repo.root, ['.hgsubstate'])
1915 1915
1916 1916 def submatches(names):
1917 1917 k, p, m = util.stringmatcher(pat)
1918 1918 for name in names:
1919 1919 if m(name):
1920 1920 yield name
1921 1921
1922 1922 def matches(x):
1923 1923 c = repo[x]
1924 1924 s = repo.status(c.p1().node(), c.node(), match=m)
1925 1925
1926 1926 if pat is None:
1927 1927 return s.added or s.modified or s.removed
1928 1928
1929 1929 if s.added:
1930 1930 return any(submatches(c.substate.keys()))
1931 1931
1932 1932 if s.modified:
1933 1933 subs = set(c.p1().substate.keys())
1934 1934 subs.update(c.substate.keys())
1935 1935
1936 1936 for path in submatches(subs):
1937 1937 if c.p1().substate.get(path) != c.substate.get(path):
1938 1938 return True
1939 1939
1940 1940 if s.removed:
1941 1941 return any(submatches(c.p1().substate.keys()))
1942 1942
1943 1943 return False
1944 1944
1945 1945 return subset.filter(matches, condrepr=('<subrepo %r>', pat))
1946 1946
1947 1947 def _substringmatcher(pattern):
1948 1948 kind, pattern, matcher = util.stringmatcher(pattern)
1949 1949 if kind == 'literal':
1950 1950 matcher = lambda s: pattern in s
1951 1951 return kind, pattern, matcher
1952 1952
1953 1953 @predicate('tag([name])', safe=True)
1954 1954 def tag(repo, subset, x):
1955 1955 """The specified tag by name, or all tagged revisions if no name is given.
1956 1956
1957 1957 If `name` starts with `re:`, the remainder of the name is treated as
1958 1958 a regular expression. To match a tag that actually starts with `re:`,
1959 1959 use the prefix `literal:`.
1960 1960 """
1961 1961 # i18n: "tag" is a keyword
1962 1962 args = getargs(x, 0, 1, _("tag takes one or no arguments"))
1963 1963 cl = repo.changelog
1964 1964 if args:
1965 1965 pattern = getstring(args[0],
1966 1966 # i18n: "tag" is a keyword
1967 1967 _('the argument to tag must be a string'))
1968 1968 kind, pattern, matcher = util.stringmatcher(pattern)
1969 1969 if kind == 'literal':
1970 1970 # avoid resolving all tags
1971 1971 tn = repo._tagscache.tags.get(pattern, None)
1972 1972 if tn is None:
1973 1973 raise error.RepoLookupError(_("tag '%s' does not exist")
1974 1974 % pattern)
1975 1975 s = set([repo[tn].rev()])
1976 1976 else:
1977 1977 s = set([cl.rev(n) for t, n in repo.tagslist() if matcher(t)])
1978 1978 else:
1979 1979 s = set([cl.rev(n) for t, n in repo.tagslist() if t != 'tip'])
1980 1980 return subset & s
1981 1981
1982 1982 @predicate('tagged', safe=True)
1983 1983 def tagged(repo, subset, x):
1984 1984 return tag(repo, subset, x)
1985 1985
1986 1986 @predicate('unstable()', safe=True)
1987 1987 def unstable(repo, subset, x):
1988 1988 """Non-obsolete changesets with obsolete ancestors.
1989 1989 """
1990 1990 # i18n: "unstable" is a keyword
1991 1991 getargs(x, 0, 0, _("unstable takes no arguments"))
1992 1992 unstables = obsmod.getrevs(repo, 'unstable')
1993 1993 return subset & unstables
1994 1994
1995 1995
1996 1996 @predicate('user(string)', safe=True)
1997 1997 def user(repo, subset, x):
1998 1998 """User name contains string. The match is case-insensitive.
1999 1999
2000 2000 If `string` starts with `re:`, the remainder of the string is treated as
2001 2001 a regular expression. To match a user that actually contains `re:`, use
2002 2002 the prefix `literal:`.
2003 2003 """
2004 2004 return author(repo, subset, x)
2005 2005
2006 2006 # experimental
2007 2007 @predicate('wdir', safe=True)
2008 2008 def wdir(repo, subset, x):
2009 2009 # i18n: "wdir" is a keyword
2010 2010 getargs(x, 0, 0, _("wdir takes no arguments"))
2011 2011 if node.wdirrev in subset or isinstance(subset, fullreposet):
2012 2012 return baseset([node.wdirrev])
2013 2013 return baseset()
2014 2014
2015 2015 # for internal use
2016 2016 @predicate('_list', safe=True)
2017 2017 def _list(repo, subset, x):
2018 2018 s = getstring(x, "internal error")
2019 2019 if not s:
2020 2020 return baseset()
2021 2021 # remove duplicates here. it's difficult for caller to deduplicate sets
2022 2022 # because different symbols can point to the same rev.
2023 2023 cl = repo.changelog
2024 2024 ls = []
2025 2025 seen = set()
2026 2026 for t in s.split('\0'):
2027 2027 try:
2028 2028 # fast path for integer revision
2029 2029 r = int(t)
2030 2030 if str(r) != t or r not in cl:
2031 2031 raise ValueError
2032 2032 revs = [r]
2033 2033 except ValueError:
2034 2034 revs = stringset(repo, subset, t)
2035 2035
2036 2036 for r in revs:
2037 2037 if r in seen:
2038 2038 continue
2039 2039 if (r in subset
2040 2040 or r == node.nullrev and isinstance(subset, fullreposet)):
2041 2041 ls.append(r)
2042 2042 seen.add(r)
2043 2043 return baseset(ls)
2044 2044
2045 2045 # for internal use
2046 2046 @predicate('_intlist', safe=True)
2047 2047 def _intlist(repo, subset, x):
2048 2048 s = getstring(x, "internal error")
2049 2049 if not s:
2050 2050 return baseset()
2051 2051 ls = [int(r) for r in s.split('\0')]
2052 2052 s = subset
2053 2053 return baseset([r for r in ls if r in s])
2054 2054
2055 2055 # for internal use
2056 2056 @predicate('_hexlist', safe=True)
2057 2057 def _hexlist(repo, subset, x):
2058 2058 s = getstring(x, "internal error")
2059 2059 if not s:
2060 2060 return baseset()
2061 2061 cl = repo.changelog
2062 2062 ls = [cl.rev(node.bin(r)) for r in s.split('\0')]
2063 2063 s = subset
2064 2064 return baseset([r for r in ls if r in s])
2065 2065
2066 2066 methods = {
2067 2067 "range": rangeset,
2068 2068 "dagrange": dagrange,
2069 2069 "string": stringset,
2070 2070 "symbol": stringset,
2071 2071 "and": andset,
2072 2072 "or": orset,
2073 2073 "not": notset,
2074 2074 "difference": differenceset,
2075 2075 "list": listset,
2076 2076 "keyvalue": keyvaluepair,
2077 2077 "func": func,
2078 2078 "ancestor": ancestorspec,
2079 2079 "parent": parentspec,
2080 2080 "parentpost": p1,
2081 2081 }
2082 2082
2083 2083 def optimize(x, small):
2084 2084 if x is None:
2085 2085 return 0, x
2086 2086
2087 2087 smallbonus = 1
2088 2088 if small:
2089 2089 smallbonus = .5
2090 2090
2091 2091 op = x[0]
2092 2092 if op == 'minus':
2093 2093 return optimize(('and', x[1], ('not', x[2])), small)
2094 2094 elif op == 'only':
2095 2095 return optimize(('func', ('symbol', 'only'),
2096 2096 ('list', x[1], x[2])), small)
2097 2097 elif op == 'onlypost':
2098 2098 return optimize(('func', ('symbol', 'only'), x[1]), small)
2099 2099 elif op == 'dagrangepre':
2100 2100 return optimize(('func', ('symbol', 'ancestors'), x[1]), small)
2101 2101 elif op == 'dagrangepost':
2102 2102 return optimize(('func', ('symbol', 'descendants'), x[1]), small)
2103 2103 elif op == 'rangeall':
2104 2104 return optimize(('range', ('string', '0'), ('string', 'tip')), small)
2105 2105 elif op == 'rangepre':
2106 2106 return optimize(('range', ('string', '0'), x[1]), small)
2107 2107 elif op == 'rangepost':
2108 2108 return optimize(('range', x[1], ('string', 'tip')), small)
2109 2109 elif op == 'negate':
2110 2110 return optimize(('string',
2111 2111 '-' + getstring(x[1], _("can't negate that"))), small)
2112 2112 elif op in 'string symbol negate':
2113 2113 return smallbonus, x # single revisions are small
2114 2114 elif op == 'and':
2115 2115 wa, ta = optimize(x[1], True)
2116 2116 wb, tb = optimize(x[2], True)
2117 2117
2118 2118 # (::x and not ::y)/(not ::y and ::x) have a fast path
2119 2119 def isonly(revs, bases):
2120 2120 return (
2121 2121 revs is not None
2122 2122 and revs[0] == 'func'
2123 2123 and getstring(revs[1], _('not a symbol')) == 'ancestors'
2124 2124 and bases is not None
2125 2125 and bases[0] == 'not'
2126 2126 and bases[1][0] == 'func'
2127 2127 and getstring(bases[1][1], _('not a symbol')) == 'ancestors')
2128 2128
2129 2129 w = min(wa, wb)
2130 2130 if isonly(ta, tb):
2131 2131 return w, ('func', ('symbol', 'only'), ('list', ta[2], tb[1][2]))
2132 2132 if isonly(tb, ta):
2133 2133 return w, ('func', ('symbol', 'only'), ('list', tb[2], ta[1][2]))
2134 2134
2135 2135 if tb is not None and tb[0] == 'not':
2136 2136 return wa, ('difference', ta, tb[1])
2137 2137
2138 2138 if wa > wb:
2139 2139 return w, (op, tb, ta)
2140 2140 return w, (op, ta, tb)
2141 2141 elif op == 'or':
2142 2142 # fast path for machine-generated expression, that is likely to have
2143 2143 # lots of trivial revisions: 'a + b + c()' to '_list(a b) + c()'
2144 2144 ws, ts, ss = [], [], []
2145 2145 def flushss():
2146 2146 if not ss:
2147 2147 return
2148 2148 if len(ss) == 1:
2149 2149 w, t = ss[0]
2150 2150 else:
2151 2151 s = '\0'.join(t[1] for w, t in ss)
2152 2152 y = ('func', ('symbol', '_list'), ('string', s))
2153 2153 w, t = optimize(y, False)
2154 2154 ws.append(w)
2155 2155 ts.append(t)
2156 2156 del ss[:]
2157 2157 for y in x[1:]:
2158 2158 w, t = optimize(y, False)
2159 2159 if t is not None and (t[0] == 'string' or t[0] == 'symbol'):
2160 2160 ss.append((w, t))
2161 2161 continue
2162 2162 flushss()
2163 2163 ws.append(w)
2164 2164 ts.append(t)
2165 2165 flushss()
2166 2166 if len(ts) == 1:
2167 2167 return ws[0], ts[0] # 'or' operation is fully optimized out
2168 2168 # we can't reorder trees by weight because it would change the order.
2169 2169 # ("sort(a + b)" == "sort(b + a)", but "a + b" != "b + a")
2170 2170 # ts = tuple(t for w, t in sorted(zip(ws, ts), key=lambda wt: wt[0]))
2171 2171 return max(ws), (op,) + tuple(ts)
2172 2172 elif op == 'not':
2173 2173 # Optimize not public() to _notpublic() because we have a fast version
2174 2174 if x[1] == ('func', ('symbol', 'public'), None):
2175 2175 newsym = ('func', ('symbol', '_notpublic'), None)
2176 2176 o = optimize(newsym, not small)
2177 2177 return o[0], o[1]
2178 2178 else:
2179 2179 o = optimize(x[1], not small)
2180 2180 return o[0], (op, o[1])
2181 2181 elif op == 'parentpost':
2182 2182 o = optimize(x[1], small)
2183 2183 return o[0], (op, o[1])
2184 2184 elif op == 'group':
2185 2185 return optimize(x[1], small)
2186 2186 elif op in 'dagrange range parent ancestorspec':
2187 2187 if op == 'parent':
2188 2188 # x^:y means (x^) : y, not x ^ (:y)
2189 2189 post = ('parentpost', x[1])
2190 2190 if x[2][0] == 'dagrangepre':
2191 2191 return optimize(('dagrange', post, x[2][1]), small)
2192 2192 elif x[2][0] == 'rangepre':
2193 2193 return optimize(('range', post, x[2][1]), small)
2194 2194
2195 2195 wa, ta = optimize(x[1], small)
2196 2196 wb, tb = optimize(x[2], small)
2197 2197 return wa + wb, (op, ta, tb)
2198 2198 elif op == 'list':
2199 2199 ws, ts = zip(*(optimize(y, small) for y in x[1:]))
2200 2200 return sum(ws), (op,) + ts
2201 2201 elif op == 'func':
2202 2202 f = getstring(x[1], _("not a symbol"))
2203 2203 wa, ta = optimize(x[2], small)
2204 2204 if f in ("author branch closed date desc file grep keyword "
2205 2205 "outgoing user"):
2206 2206 w = 10 # slow
2207 2207 elif f in "modifies adds removes":
2208 2208 w = 30 # slower
2209 2209 elif f == "contains":
2210 2210 w = 100 # very slow
2211 2211 elif f == "ancestor":
2212 2212 w = 1 * smallbonus
2213 2213 elif f in "reverse limit first _intlist":
2214 2214 w = 0
2215 2215 elif f in "sort":
2216 2216 w = 10 # assume most sorts look at changelog
2217 2217 else:
2218 2218 w = 1
2219 2219 return w + wa, (op, x[1], ta)
2220 2220 return 1, x
2221 2221
2222 2222 # the set of valid characters for the initial letter of symbols in
2223 2223 # alias declarations and definitions
2224 2224 _aliassyminitletters = set(c for c in [chr(i) for i in xrange(256)]
2225 2225 if c.isalnum() or c in '._@$' or ord(c) > 127)
2226 2226
2227 2227 def _tokenizealias(program, lookup=None):
2228 2228 """Parse alias declaration/definition into a stream of tokens
2229 2229
2230 2230 This allows symbol names to use also ``$`` as an initial letter
2231 2231 (for backward compatibility), and callers of this function should
2232 2232 examine whether ``$`` is used also for unexpected symbols or not.
2233 2233 """
2234 2234 return tokenize(program, lookup=lookup,
2235 2235 syminitletters=_aliassyminitletters)
2236 2236
2237 2237 def _parsealiasdecl(decl):
2238 2238 """Parse alias declaration ``decl``
2239 2239
2240 2240 >>> _parsealiasdecl('foo($1)')
2241 2241 ('func', ('symbol', 'foo'), ('symbol', '$1'))
2242 2242 >>> _parsealiasdecl('foo bar')
2243 2243 Traceback (most recent call last):
2244 2244 ...
2245 2245 ParseError: ('invalid token', 4)
2246 2246 """
2247 2247 p = parser.parser(elements)
2248 2248 tree, pos = p.parse(_tokenizealias(decl))
2249 2249 if pos != len(decl):
2250 2250 raise error.ParseError(_('invalid token'), pos)
2251 2251 return parser.simplifyinfixops(tree, ('list',))
2252 2252
2253 2253 def _relabelaliasargs(tree, args):
2254 if not isinstance(tree, tuple):
2255 return tree
2256 op = tree[0]
2257 if op != 'symbol':
2258 return (op,) + tuple(_relabelaliasargs(x, args) for x in tree[1:])
2259
2260 assert len(tree) == 2
2261 sym = tree[1]
2262 if sym in args:
2263 op = '_aliasarg'
2264 elif sym.startswith('$'):
2265 raise error.ParseError(_("'$' not for alias arguments"))
2266 return (op, sym)
2254 return _aliasrules._relabelargs(tree, args)
2267 2255
2268 2256 def _parsealiasdefn(defn, args):
2269 2257 """Parse alias definition ``defn``
2270 2258
2271 2259 This function marks alias argument references as ``_aliasarg``.
2272 2260
2273 2261 ``args`` is a list of alias argument names, or None if the alias
2274 2262 is declared as a symbol.
2275 2263
2276 2264 This returns "tree" as parsing result.
2277 2265
2278 2266 >>> def prettyformat(tree):
2279 2267 ... return parser.prettyformat(tree, ('_aliasarg', 'string', 'symbol'))
2280 2268 >>> args = ['$1', '$2', 'foo']
2281 2269 >>> print prettyformat(_parsealiasdefn('$1 or foo', args))
2282 2270 (or
2283 2271 ('_aliasarg', '$1')
2284 2272 ('_aliasarg', 'foo'))
2285 2273 >>> try:
2286 2274 ... _parsealiasdefn('$1 or $bar', args)
2287 2275 ... except error.ParseError, inst:
2288 2276 ... print parser.parseerrordetail(inst)
2289 2277 '$' not for alias arguments
2290 2278 >>> args = ['$1', '$10', 'foo']
2291 2279 >>> print prettyformat(_parsealiasdefn('$10 or foobar', args))
2292 2280 (or
2293 2281 ('_aliasarg', '$10')
2294 2282 ('symbol', 'foobar'))
2295 2283 >>> print prettyformat(_parsealiasdefn('"$1" or "foo"', args))
2296 2284 (or
2297 2285 ('string', '$1')
2298 2286 ('string', 'foo'))
2299 2287 """
2300 2288 if args:
2301 2289 args = set(args)
2302 2290 else:
2303 2291 args = set()
2304 2292
2305 2293 p = parser.parser(elements)
2306 2294 tree, pos = p.parse(_tokenizealias(defn))
2307 2295 if pos != len(defn):
2308 2296 raise error.ParseError(_('invalid token'), pos)
2309 2297 tree = parser.simplifyinfixops(tree, ('list', 'or'))
2310 2298 return _relabelaliasargs(tree, args)
2311 2299
2312 2300 class _aliasrules(parser.basealiasrules):
2313 2301 """Parsing and expansion rule set of revset aliases"""
2314 2302 _section = _('revset alias')
2315 2303 _parsedecl = staticmethod(_parsealiasdecl)
2316 2304 _getlist = staticmethod(getlist)
2317 2305
2318 2306 class revsetalias(object):
2319 2307 # whether own `error` information is already shown or not.
2320 2308 # this avoids showing same warning multiple times at each `findaliases`.
2321 2309 warned = False
2322 2310
2323 2311 def __init__(self, name, value):
2324 2312 '''Aliases like:
2325 2313
2326 2314 h = heads(default)
2327 2315 b($1) = ancestors($1) - ancestors(default)
2328 2316 '''
2329 2317 r = _aliasrules._builddecl(name)
2330 2318 self.name, self.tree, self.args, self.error = r
2331 2319 if self.error:
2332 2320 self.error = _('failed to parse the declaration of revset alias'
2333 2321 ' "%s": %s') % (self.name, self.error)
2334 2322 return
2335 2323
2336 2324 try:
2337 2325 self.replacement = _parsealiasdefn(value, self.args)
2338 2326 except error.ParseError as inst:
2339 2327 self.error = _('failed to parse the definition of revset alias'
2340 2328 ' "%s": %s') % (self.name,
2341 2329 parser.parseerrordetail(inst))
2342 2330
2343 2331 def _getalias(aliases, tree):
2344 2332 """If tree looks like an unexpanded alias, return it. Return None
2345 2333 otherwise.
2346 2334 """
2347 2335 if isinstance(tree, tuple):
2348 2336 if tree[0] == 'symbol':
2349 2337 name = tree[1]
2350 2338 alias = aliases.get(name)
2351 2339 if alias and alias.args is None and alias.tree == tree:
2352 2340 return alias
2353 2341 if tree[0] == 'func':
2354 2342 if tree[1][0] == 'symbol':
2355 2343 name = tree[1][1]
2356 2344 alias = aliases.get(name)
2357 2345 if alias and alias.args is not None and alias.tree == tree[:2]:
2358 2346 return alias
2359 2347 return None
2360 2348
2361 2349 def _expandargs(tree, args):
2362 2350 """Replace _aliasarg instances with the substitution value of the
2363 2351 same name in args, recursively.
2364 2352 """
2365 2353 if not isinstance(tree, tuple):
2366 2354 return tree
2367 2355 if tree[0] == '_aliasarg':
2368 2356 sym = tree[1]
2369 2357 return args[sym]
2370 2358 return tuple(_expandargs(t, args) for t in tree)
2371 2359
2372 2360 def _expandaliases(aliases, tree, expanding, cache):
2373 2361 """Expand aliases in tree, recursively.
2374 2362
2375 2363 'aliases' is a dictionary mapping user defined aliases to
2376 2364 revsetalias objects.
2377 2365 """
2378 2366 if not isinstance(tree, tuple):
2379 2367 # Do not expand raw strings
2380 2368 return tree
2381 2369 alias = _getalias(aliases, tree)
2382 2370 if alias is not None:
2383 2371 if alias.error:
2384 2372 raise error.Abort(alias.error)
2385 2373 if alias in expanding:
2386 2374 raise error.ParseError(_('infinite expansion of revset alias "%s" '
2387 2375 'detected') % alias.name)
2388 2376 expanding.append(alias)
2389 2377 if alias.name not in cache:
2390 2378 cache[alias.name] = _expandaliases(aliases, alias.replacement,
2391 2379 expanding, cache)
2392 2380 result = cache[alias.name]
2393 2381 expanding.pop()
2394 2382 if alias.args is not None:
2395 2383 l = getlist(tree[2])
2396 2384 if len(l) != len(alias.args):
2397 2385 raise error.ParseError(
2398 2386 _('invalid number of arguments: %d') % len(l))
2399 2387 l = [_expandaliases(aliases, a, [], cache) for a in l]
2400 2388 result = _expandargs(result, dict(zip(alias.args, l)))
2401 2389 else:
2402 2390 result = tuple(_expandaliases(aliases, t, expanding, cache)
2403 2391 for t in tree)
2404 2392 return result
2405 2393
2406 2394 def findaliases(ui, tree, showwarning=None):
2407 2395 aliases = {}
2408 2396 for k, v in ui.configitems('revsetalias'):
2409 2397 alias = revsetalias(k, v)
2410 2398 aliases[alias.name] = alias
2411 2399 tree = _expandaliases(aliases, tree, [], {})
2412 2400 if showwarning:
2413 2401 # warn about problematic (but not referred) aliases
2414 2402 for name, alias in sorted(aliases.iteritems()):
2415 2403 if alias.error and not alias.warned:
2416 2404 showwarning(_('warning: %s\n') % (alias.error))
2417 2405 alias.warned = True
2418 2406 return tree
2419 2407
2420 2408 def foldconcat(tree):
2421 2409 """Fold elements to be concatenated by `##`
2422 2410 """
2423 2411 if not isinstance(tree, tuple) or tree[0] in ('string', 'symbol'):
2424 2412 return tree
2425 2413 if tree[0] == '_concat':
2426 2414 pending = [tree]
2427 2415 l = []
2428 2416 while pending:
2429 2417 e = pending.pop()
2430 2418 if e[0] == '_concat':
2431 2419 pending.extend(reversed(e[1:]))
2432 2420 elif e[0] in ('string', 'symbol'):
2433 2421 l.append(e[1])
2434 2422 else:
2435 2423 msg = _("\"##\" can't concatenate \"%s\" element") % (e[0])
2436 2424 raise error.ParseError(msg)
2437 2425 return ('string', ''.join(l))
2438 2426 else:
2439 2427 return tuple(foldconcat(t) for t in tree)
2440 2428
2441 2429 def parse(spec, lookup=None):
2442 2430 p = parser.parser(elements)
2443 2431 tree, pos = p.parse(tokenize(spec, lookup=lookup))
2444 2432 if pos != len(spec):
2445 2433 raise error.ParseError(_("invalid token"), pos)
2446 2434 return parser.simplifyinfixops(tree, ('list', 'or'))
2447 2435
2448 2436 def posttreebuilthook(tree, repo):
2449 2437 # hook for extensions to execute code on the optimized tree
2450 2438 pass
2451 2439
2452 2440 def match(ui, spec, repo=None):
2453 2441 if not spec:
2454 2442 raise error.ParseError(_("empty query"))
2455 2443 lookup = None
2456 2444 if repo:
2457 2445 lookup = repo.__contains__
2458 2446 tree = parse(spec, lookup)
2459 2447 return _makematcher(ui, tree, repo)
2460 2448
2461 2449 def matchany(ui, specs, repo=None):
2462 2450 """Create a matcher that will include any revisions matching one of the
2463 2451 given specs"""
2464 2452 if not specs:
2465 2453 def mfunc(repo, subset=None):
2466 2454 return baseset()
2467 2455 return mfunc
2468 2456 if not all(specs):
2469 2457 raise error.ParseError(_("empty query"))
2470 2458 lookup = None
2471 2459 if repo:
2472 2460 lookup = repo.__contains__
2473 2461 if len(specs) == 1:
2474 2462 tree = parse(specs[0], lookup)
2475 2463 else:
2476 2464 tree = ('or',) + tuple(parse(s, lookup) for s in specs)
2477 2465 return _makematcher(ui, tree, repo)
2478 2466
2479 2467 def _makematcher(ui, tree, repo):
2480 2468 if ui:
2481 2469 tree = findaliases(ui, tree, showwarning=ui.warn)
2482 2470 tree = foldconcat(tree)
2483 2471 weight, tree = optimize(tree, True)
2484 2472 posttreebuilthook(tree, repo)
2485 2473 def mfunc(repo, subset=None):
2486 2474 if subset is None:
2487 2475 subset = fullreposet(repo)
2488 2476 if util.safehasattr(subset, 'isascending'):
2489 2477 result = getset(repo, subset, tree)
2490 2478 else:
2491 2479 result = getset(repo, baseset(subset), tree)
2492 2480 return result
2493 2481 return mfunc
2494 2482
2495 2483 def formatspec(expr, *args):
2496 2484 '''
2497 2485 This is a convenience function for using revsets internally, and
2498 2486 escapes arguments appropriately. Aliases are intentionally ignored
2499 2487 so that intended expression behavior isn't accidentally subverted.
2500 2488
2501 2489 Supported arguments:
2502 2490
2503 2491 %r = revset expression, parenthesized
2504 2492 %d = int(arg), no quoting
2505 2493 %s = string(arg), escaped and single-quoted
2506 2494 %b = arg.branch(), escaped and single-quoted
2507 2495 %n = hex(arg), single-quoted
2508 2496 %% = a literal '%'
2509 2497
2510 2498 Prefixing the type with 'l' specifies a parenthesized list of that type.
2511 2499
2512 2500 >>> formatspec('%r:: and %lr', '10 or 11', ("this()", "that()"))
2513 2501 '(10 or 11):: and ((this()) or (that()))'
2514 2502 >>> formatspec('%d:: and not %d::', 10, 20)
2515 2503 '10:: and not 20::'
2516 2504 >>> formatspec('%ld or %ld', [], [1])
2517 2505 "_list('') or 1"
2518 2506 >>> formatspec('keyword(%s)', 'foo\\xe9')
2519 2507 "keyword('foo\\\\xe9')"
2520 2508 >>> b = lambda: 'default'
2521 2509 >>> b.branch = b
2522 2510 >>> formatspec('branch(%b)', b)
2523 2511 "branch('default')"
2524 2512 >>> formatspec('root(%ls)', ['a', 'b', 'c', 'd'])
2525 2513 "root(_list('a\\x00b\\x00c\\x00d'))"
2526 2514 '''
2527 2515
2528 2516 def quote(s):
2529 2517 return repr(str(s))
2530 2518
2531 2519 def argtype(c, arg):
2532 2520 if c == 'd':
2533 2521 return str(int(arg))
2534 2522 elif c == 's':
2535 2523 return quote(arg)
2536 2524 elif c == 'r':
2537 2525 parse(arg) # make sure syntax errors are confined
2538 2526 return '(%s)' % arg
2539 2527 elif c == 'n':
2540 2528 return quote(node.hex(arg))
2541 2529 elif c == 'b':
2542 2530 return quote(arg.branch())
2543 2531
2544 2532 def listexp(s, t):
2545 2533 l = len(s)
2546 2534 if l == 0:
2547 2535 return "_list('')"
2548 2536 elif l == 1:
2549 2537 return argtype(t, s[0])
2550 2538 elif t == 'd':
2551 2539 return "_intlist('%s')" % "\0".join(str(int(a)) for a in s)
2552 2540 elif t == 's':
2553 2541 return "_list('%s')" % "\0".join(s)
2554 2542 elif t == 'n':
2555 2543 return "_hexlist('%s')" % "\0".join(node.hex(a) for a in s)
2556 2544 elif t == 'b':
2557 2545 return "_list('%s')" % "\0".join(a.branch() for a in s)
2558 2546
2559 2547 m = l // 2
2560 2548 return '(%s or %s)' % (listexp(s[:m], t), listexp(s[m:], t))
2561 2549
2562 2550 ret = ''
2563 2551 pos = 0
2564 2552 arg = 0
2565 2553 while pos < len(expr):
2566 2554 c = expr[pos]
2567 2555 if c == '%':
2568 2556 pos += 1
2569 2557 d = expr[pos]
2570 2558 if d == '%':
2571 2559 ret += d
2572 2560 elif d in 'dsnbr':
2573 2561 ret += argtype(d, args[arg])
2574 2562 arg += 1
2575 2563 elif d == 'l':
2576 2564 # a list of some type
2577 2565 pos += 1
2578 2566 d = expr[pos]
2579 2567 ret += listexp(list(args[arg]), d)
2580 2568 arg += 1
2581 2569 else:
2582 2570 raise error.Abort('unexpected revspec format character %s' % d)
2583 2571 else:
2584 2572 ret += c
2585 2573 pos += 1
2586 2574
2587 2575 return ret
2588 2576
2589 2577 def prettyformat(tree):
2590 2578 return parser.prettyformat(tree, ('string', 'symbol'))
2591 2579
2592 2580 def depth(tree):
2593 2581 if isinstance(tree, tuple):
2594 2582 return max(map(depth, tree)) + 1
2595 2583 else:
2596 2584 return 0
2597 2585
2598 2586 def funcsused(tree):
2599 2587 if not isinstance(tree, tuple) or tree[0] in ('string', 'symbol'):
2600 2588 return set()
2601 2589 else:
2602 2590 funcs = set()
2603 2591 for s in tree[1:]:
2604 2592 funcs |= funcsused(s)
2605 2593 if tree[0] == 'func':
2606 2594 funcs.add(tree[1][1])
2607 2595 return funcs
2608 2596
2609 2597 def _formatsetrepr(r):
2610 2598 """Format an optional printable representation of a set
2611 2599
2612 2600 ======== =================================
2613 2601 type(r) example
2614 2602 ======== =================================
2615 2603 tuple ('<not %r>', other)
2616 2604 str '<branch closed>'
2617 2605 callable lambda: '<branch %r>' % sorted(b)
2618 2606 object other
2619 2607 ======== =================================
2620 2608 """
2621 2609 if r is None:
2622 2610 return ''
2623 2611 elif isinstance(r, tuple):
2624 2612 return r[0] % r[1:]
2625 2613 elif isinstance(r, str):
2626 2614 return r
2627 2615 elif callable(r):
2628 2616 return r()
2629 2617 else:
2630 2618 return repr(r)
2631 2619
2632 2620 class abstractsmartset(object):
2633 2621
2634 2622 def __nonzero__(self):
2635 2623 """True if the smartset is not empty"""
2636 2624 raise NotImplementedError()
2637 2625
2638 2626 def __contains__(self, rev):
2639 2627 """provide fast membership testing"""
2640 2628 raise NotImplementedError()
2641 2629
2642 2630 def __iter__(self):
2643 2631 """iterate the set in the order it is supposed to be iterated"""
2644 2632 raise NotImplementedError()
2645 2633
2646 2634 # Attributes containing a function to perform a fast iteration in a given
2647 2635 # direction. A smartset can have none, one, or both defined.
2648 2636 #
2649 2637 # Default value is None instead of a function returning None to avoid
2650 2638 # initializing an iterator just for testing if a fast method exists.
2651 2639 fastasc = None
2652 2640 fastdesc = None
2653 2641
2654 2642 def isascending(self):
2655 2643 """True if the set will iterate in ascending order"""
2656 2644 raise NotImplementedError()
2657 2645
2658 2646 def isdescending(self):
2659 2647 """True if the set will iterate in descending order"""
2660 2648 raise NotImplementedError()
2661 2649
2662 2650 @util.cachefunc
2663 2651 def min(self):
2664 2652 """return the minimum element in the set"""
2665 2653 if self.fastasc is not None:
2666 2654 for r in self.fastasc():
2667 2655 return r
2668 2656 raise ValueError('arg is an empty sequence')
2669 2657 return min(self)
2670 2658
2671 2659 @util.cachefunc
2672 2660 def max(self):
2673 2661 """return the maximum element in the set"""
2674 2662 if self.fastdesc is not None:
2675 2663 for r in self.fastdesc():
2676 2664 return r
2677 2665 raise ValueError('arg is an empty sequence')
2678 2666 return max(self)
2679 2667
2680 2668 def first(self):
2681 2669 """return the first element in the set (user iteration perspective)
2682 2670
2683 2671 Return None if the set is empty"""
2684 2672 raise NotImplementedError()
2685 2673
2686 2674 def last(self):
2687 2675 """return the last element in the set (user iteration perspective)
2688 2676
2689 2677 Return None if the set is empty"""
2690 2678 raise NotImplementedError()
2691 2679
2692 2680 def __len__(self):
2693 2681 """return the length of the smartsets
2694 2682
2695 2683 This can be expensive on smartset that could be lazy otherwise."""
2696 2684 raise NotImplementedError()
2697 2685
2698 2686 def reverse(self):
2699 2687 """reverse the expected iteration order"""
2700 2688 raise NotImplementedError()
2701 2689
2702 2690 def sort(self, reverse=True):
2703 2691 """get the set to iterate in an ascending or descending order"""
2704 2692 raise NotImplementedError()
2705 2693
2706 2694 def __and__(self, other):
2707 2695 """Returns a new object with the intersection of the two collections.
2708 2696
2709 2697 This is part of the mandatory API for smartset."""
2710 2698 if isinstance(other, fullreposet):
2711 2699 return self
2712 2700 return self.filter(other.__contains__, condrepr=other, cache=False)
2713 2701
2714 2702 def __add__(self, other):
2715 2703 """Returns a new object with the union of the two collections.
2716 2704
2717 2705 This is part of the mandatory API for smartset."""
2718 2706 return addset(self, other)
2719 2707
2720 2708 def __sub__(self, other):
2721 2709 """Returns a new object with the substraction of the two collections.
2722 2710
2723 2711 This is part of the mandatory API for smartset."""
2724 2712 c = other.__contains__
2725 2713 return self.filter(lambda r: not c(r), condrepr=('<not %r>', other),
2726 2714 cache=False)
2727 2715
2728 2716 def filter(self, condition, condrepr=None, cache=True):
2729 2717 """Returns this smartset filtered by condition as a new smartset.
2730 2718
2731 2719 `condition` is a callable which takes a revision number and returns a
2732 2720 boolean. Optional `condrepr` provides a printable representation of
2733 2721 the given `condition`.
2734 2722
2735 2723 This is part of the mandatory API for smartset."""
2736 2724 # builtin cannot be cached. but do not needs to
2737 2725 if cache and util.safehasattr(condition, 'func_code'):
2738 2726 condition = util.cachefunc(condition)
2739 2727 return filteredset(self, condition, condrepr)
2740 2728
2741 2729 class baseset(abstractsmartset):
2742 2730 """Basic data structure that represents a revset and contains the basic
2743 2731 operation that it should be able to perform.
2744 2732
2745 2733 Every method in this class should be implemented by any smartset class.
2746 2734 """
2747 2735 def __init__(self, data=(), datarepr=None):
2748 2736 """
2749 2737 datarepr: a tuple of (format, obj, ...), a function or an object that
2750 2738 provides a printable representation of the given data.
2751 2739 """
2752 2740 self._ascending = None
2753 2741 if not isinstance(data, list):
2754 2742 if isinstance(data, set):
2755 2743 self._set = data
2756 2744 # set has no order we pick one for stability purpose
2757 2745 self._ascending = True
2758 2746 data = list(data)
2759 2747 self._list = data
2760 2748 self._datarepr = datarepr
2761 2749
2762 2750 @util.propertycache
2763 2751 def _set(self):
2764 2752 return set(self._list)
2765 2753
2766 2754 @util.propertycache
2767 2755 def _asclist(self):
2768 2756 asclist = self._list[:]
2769 2757 asclist.sort()
2770 2758 return asclist
2771 2759
2772 2760 def __iter__(self):
2773 2761 if self._ascending is None:
2774 2762 return iter(self._list)
2775 2763 elif self._ascending:
2776 2764 return iter(self._asclist)
2777 2765 else:
2778 2766 return reversed(self._asclist)
2779 2767
2780 2768 def fastasc(self):
2781 2769 return iter(self._asclist)
2782 2770
2783 2771 def fastdesc(self):
2784 2772 return reversed(self._asclist)
2785 2773
2786 2774 @util.propertycache
2787 2775 def __contains__(self):
2788 2776 return self._set.__contains__
2789 2777
2790 2778 def __nonzero__(self):
2791 2779 return bool(self._list)
2792 2780
2793 2781 def sort(self, reverse=False):
2794 2782 self._ascending = not bool(reverse)
2795 2783
2796 2784 def reverse(self):
2797 2785 if self._ascending is None:
2798 2786 self._list.reverse()
2799 2787 else:
2800 2788 self._ascending = not self._ascending
2801 2789
2802 2790 def __len__(self):
2803 2791 return len(self._list)
2804 2792
2805 2793 def isascending(self):
2806 2794 """Returns True if the collection is ascending order, False if not.
2807 2795
2808 2796 This is part of the mandatory API for smartset."""
2809 2797 if len(self) <= 1:
2810 2798 return True
2811 2799 return self._ascending is not None and self._ascending
2812 2800
2813 2801 def isdescending(self):
2814 2802 """Returns True if the collection is descending order, False if not.
2815 2803
2816 2804 This is part of the mandatory API for smartset."""
2817 2805 if len(self) <= 1:
2818 2806 return True
2819 2807 return self._ascending is not None and not self._ascending
2820 2808
2821 2809 def first(self):
2822 2810 if self:
2823 2811 if self._ascending is None:
2824 2812 return self._list[0]
2825 2813 elif self._ascending:
2826 2814 return self._asclist[0]
2827 2815 else:
2828 2816 return self._asclist[-1]
2829 2817 return None
2830 2818
2831 2819 def last(self):
2832 2820 if self:
2833 2821 if self._ascending is None:
2834 2822 return self._list[-1]
2835 2823 elif self._ascending:
2836 2824 return self._asclist[-1]
2837 2825 else:
2838 2826 return self._asclist[0]
2839 2827 return None
2840 2828
2841 2829 def __repr__(self):
2842 2830 d = {None: '', False: '-', True: '+'}[self._ascending]
2843 2831 s = _formatsetrepr(self._datarepr)
2844 2832 if not s:
2845 2833 l = self._list
2846 2834 # if _list has been built from a set, it might have a different
2847 2835 # order from one python implementation to another.
2848 2836 # We fallback to the sorted version for a stable output.
2849 2837 if self._ascending is not None:
2850 2838 l = self._asclist
2851 2839 s = repr(l)
2852 2840 return '<%s%s %s>' % (type(self).__name__, d, s)
2853 2841
2854 2842 class filteredset(abstractsmartset):
2855 2843 """Duck type for baseset class which iterates lazily over the revisions in
2856 2844 the subset and contains a function which tests for membership in the
2857 2845 revset
2858 2846 """
2859 2847 def __init__(self, subset, condition=lambda x: True, condrepr=None):
2860 2848 """
2861 2849 condition: a function that decide whether a revision in the subset
2862 2850 belongs to the revset or not.
2863 2851 condrepr: a tuple of (format, obj, ...), a function or an object that
2864 2852 provides a printable representation of the given condition.
2865 2853 """
2866 2854 self._subset = subset
2867 2855 self._condition = condition
2868 2856 self._condrepr = condrepr
2869 2857
2870 2858 def __contains__(self, x):
2871 2859 return x in self._subset and self._condition(x)
2872 2860
2873 2861 def __iter__(self):
2874 2862 return self._iterfilter(self._subset)
2875 2863
2876 2864 def _iterfilter(self, it):
2877 2865 cond = self._condition
2878 2866 for x in it:
2879 2867 if cond(x):
2880 2868 yield x
2881 2869
2882 2870 @property
2883 2871 def fastasc(self):
2884 2872 it = self._subset.fastasc
2885 2873 if it is None:
2886 2874 return None
2887 2875 return lambda: self._iterfilter(it())
2888 2876
2889 2877 @property
2890 2878 def fastdesc(self):
2891 2879 it = self._subset.fastdesc
2892 2880 if it is None:
2893 2881 return None
2894 2882 return lambda: self._iterfilter(it())
2895 2883
2896 2884 def __nonzero__(self):
2897 2885 fast = self.fastasc
2898 2886 if fast is None:
2899 2887 fast = self.fastdesc
2900 2888 if fast is not None:
2901 2889 it = fast()
2902 2890 else:
2903 2891 it = self
2904 2892
2905 2893 for r in it:
2906 2894 return True
2907 2895 return False
2908 2896
2909 2897 def __len__(self):
2910 2898 # Basic implementation to be changed in future patches.
2911 2899 # until this gets improved, we use generator expression
2912 2900 # here, since list compr is free to call __len__ again
2913 2901 # causing infinite recursion
2914 2902 l = baseset(r for r in self)
2915 2903 return len(l)
2916 2904
2917 2905 def sort(self, reverse=False):
2918 2906 self._subset.sort(reverse=reverse)
2919 2907
2920 2908 def reverse(self):
2921 2909 self._subset.reverse()
2922 2910
2923 2911 def isascending(self):
2924 2912 return self._subset.isascending()
2925 2913
2926 2914 def isdescending(self):
2927 2915 return self._subset.isdescending()
2928 2916
2929 2917 def first(self):
2930 2918 for x in self:
2931 2919 return x
2932 2920 return None
2933 2921
2934 2922 def last(self):
2935 2923 it = None
2936 2924 if self.isascending():
2937 2925 it = self.fastdesc
2938 2926 elif self.isdescending():
2939 2927 it = self.fastasc
2940 2928 if it is not None:
2941 2929 for x in it():
2942 2930 return x
2943 2931 return None #empty case
2944 2932 else:
2945 2933 x = None
2946 2934 for x in self:
2947 2935 pass
2948 2936 return x
2949 2937
2950 2938 def __repr__(self):
2951 2939 xs = [repr(self._subset)]
2952 2940 s = _formatsetrepr(self._condrepr)
2953 2941 if s:
2954 2942 xs.append(s)
2955 2943 return '<%s %s>' % (type(self).__name__, ', '.join(xs))
2956 2944
2957 2945 def _iterordered(ascending, iter1, iter2):
2958 2946 """produce an ordered iteration from two iterators with the same order
2959 2947
2960 2948 The ascending is used to indicated the iteration direction.
2961 2949 """
2962 2950 choice = max
2963 2951 if ascending:
2964 2952 choice = min
2965 2953
2966 2954 val1 = None
2967 2955 val2 = None
2968 2956 try:
2969 2957 # Consume both iterators in an ordered way until one is empty
2970 2958 while True:
2971 2959 if val1 is None:
2972 2960 val1 = iter1.next()
2973 2961 if val2 is None:
2974 2962 val2 = iter2.next()
2975 2963 next = choice(val1, val2)
2976 2964 yield next
2977 2965 if val1 == next:
2978 2966 val1 = None
2979 2967 if val2 == next:
2980 2968 val2 = None
2981 2969 except StopIteration:
2982 2970 # Flush any remaining values and consume the other one
2983 2971 it = iter2
2984 2972 if val1 is not None:
2985 2973 yield val1
2986 2974 it = iter1
2987 2975 elif val2 is not None:
2988 2976 # might have been equality and both are empty
2989 2977 yield val2
2990 2978 for val in it:
2991 2979 yield val
2992 2980
2993 2981 class addset(abstractsmartset):
2994 2982 """Represent the addition of two sets
2995 2983
2996 2984 Wrapper structure for lazily adding two structures without losing much
2997 2985 performance on the __contains__ method
2998 2986
2999 2987 If the ascending attribute is set, that means the two structures are
3000 2988 ordered in either an ascending or descending way. Therefore, we can add
3001 2989 them maintaining the order by iterating over both at the same time
3002 2990
3003 2991 >>> xs = baseset([0, 3, 2])
3004 2992 >>> ys = baseset([5, 2, 4])
3005 2993
3006 2994 >>> rs = addset(xs, ys)
3007 2995 >>> bool(rs), 0 in rs, 1 in rs, 5 in rs, rs.first(), rs.last()
3008 2996 (True, True, False, True, 0, 4)
3009 2997 >>> rs = addset(xs, baseset([]))
3010 2998 >>> bool(rs), 0 in rs, 1 in rs, rs.first(), rs.last()
3011 2999 (True, True, False, 0, 2)
3012 3000 >>> rs = addset(baseset([]), baseset([]))
3013 3001 >>> bool(rs), 0 in rs, rs.first(), rs.last()
3014 3002 (False, False, None, None)
3015 3003
3016 3004 iterate unsorted:
3017 3005 >>> rs = addset(xs, ys)
3018 3006 >>> # (use generator because pypy could call len())
3019 3007 >>> list(x for x in rs) # without _genlist
3020 3008 [0, 3, 2, 5, 4]
3021 3009 >>> assert not rs._genlist
3022 3010 >>> len(rs)
3023 3011 5
3024 3012 >>> [x for x in rs] # with _genlist
3025 3013 [0, 3, 2, 5, 4]
3026 3014 >>> assert rs._genlist
3027 3015
3028 3016 iterate ascending:
3029 3017 >>> rs = addset(xs, ys, ascending=True)
3030 3018 >>> # (use generator because pypy could call len())
3031 3019 >>> list(x for x in rs), list(x for x in rs.fastasc()) # without _asclist
3032 3020 ([0, 2, 3, 4, 5], [0, 2, 3, 4, 5])
3033 3021 >>> assert not rs._asclist
3034 3022 >>> len(rs)
3035 3023 5
3036 3024 >>> [x for x in rs], [x for x in rs.fastasc()]
3037 3025 ([0, 2, 3, 4, 5], [0, 2, 3, 4, 5])
3038 3026 >>> assert rs._asclist
3039 3027
3040 3028 iterate descending:
3041 3029 >>> rs = addset(xs, ys, ascending=False)
3042 3030 >>> # (use generator because pypy could call len())
3043 3031 >>> list(x for x in rs), list(x for x in rs.fastdesc()) # without _asclist
3044 3032 ([5, 4, 3, 2, 0], [5, 4, 3, 2, 0])
3045 3033 >>> assert not rs._asclist
3046 3034 >>> len(rs)
3047 3035 5
3048 3036 >>> [x for x in rs], [x for x in rs.fastdesc()]
3049 3037 ([5, 4, 3, 2, 0], [5, 4, 3, 2, 0])
3050 3038 >>> assert rs._asclist
3051 3039
3052 3040 iterate ascending without fastasc:
3053 3041 >>> rs = addset(xs, generatorset(ys), ascending=True)
3054 3042 >>> assert rs.fastasc is None
3055 3043 >>> [x for x in rs]
3056 3044 [0, 2, 3, 4, 5]
3057 3045
3058 3046 iterate descending without fastdesc:
3059 3047 >>> rs = addset(generatorset(xs), ys, ascending=False)
3060 3048 >>> assert rs.fastdesc is None
3061 3049 >>> [x for x in rs]
3062 3050 [5, 4, 3, 2, 0]
3063 3051 """
3064 3052 def __init__(self, revs1, revs2, ascending=None):
3065 3053 self._r1 = revs1
3066 3054 self._r2 = revs2
3067 3055 self._iter = None
3068 3056 self._ascending = ascending
3069 3057 self._genlist = None
3070 3058 self._asclist = None
3071 3059
3072 3060 def __len__(self):
3073 3061 return len(self._list)
3074 3062
3075 3063 def __nonzero__(self):
3076 3064 return bool(self._r1) or bool(self._r2)
3077 3065
3078 3066 @util.propertycache
3079 3067 def _list(self):
3080 3068 if not self._genlist:
3081 3069 self._genlist = baseset(iter(self))
3082 3070 return self._genlist
3083 3071
3084 3072 def __iter__(self):
3085 3073 """Iterate over both collections without repeating elements
3086 3074
3087 3075 If the ascending attribute is not set, iterate over the first one and
3088 3076 then over the second one checking for membership on the first one so we
3089 3077 dont yield any duplicates.
3090 3078
3091 3079 If the ascending attribute is set, iterate over both collections at the
3092 3080 same time, yielding only one value at a time in the given order.
3093 3081 """
3094 3082 if self._ascending is None:
3095 3083 if self._genlist:
3096 3084 return iter(self._genlist)
3097 3085 def arbitraryordergen():
3098 3086 for r in self._r1:
3099 3087 yield r
3100 3088 inr1 = self._r1.__contains__
3101 3089 for r in self._r2:
3102 3090 if not inr1(r):
3103 3091 yield r
3104 3092 return arbitraryordergen()
3105 3093 # try to use our own fast iterator if it exists
3106 3094 self._trysetasclist()
3107 3095 if self._ascending:
3108 3096 attr = 'fastasc'
3109 3097 else:
3110 3098 attr = 'fastdesc'
3111 3099 it = getattr(self, attr)
3112 3100 if it is not None:
3113 3101 return it()
3114 3102 # maybe half of the component supports fast
3115 3103 # get iterator for _r1
3116 3104 iter1 = getattr(self._r1, attr)
3117 3105 if iter1 is None:
3118 3106 # let's avoid side effect (not sure it matters)
3119 3107 iter1 = iter(sorted(self._r1, reverse=not self._ascending))
3120 3108 else:
3121 3109 iter1 = iter1()
3122 3110 # get iterator for _r2
3123 3111 iter2 = getattr(self._r2, attr)
3124 3112 if iter2 is None:
3125 3113 # let's avoid side effect (not sure it matters)
3126 3114 iter2 = iter(sorted(self._r2, reverse=not self._ascending))
3127 3115 else:
3128 3116 iter2 = iter2()
3129 3117 return _iterordered(self._ascending, iter1, iter2)
3130 3118
3131 3119 def _trysetasclist(self):
3132 3120 """populate the _asclist attribute if possible and necessary"""
3133 3121 if self._genlist is not None and self._asclist is None:
3134 3122 self._asclist = sorted(self._genlist)
3135 3123
3136 3124 @property
3137 3125 def fastasc(self):
3138 3126 self._trysetasclist()
3139 3127 if self._asclist is not None:
3140 3128 return self._asclist.__iter__
3141 3129 iter1 = self._r1.fastasc
3142 3130 iter2 = self._r2.fastasc
3143 3131 if None in (iter1, iter2):
3144 3132 return None
3145 3133 return lambda: _iterordered(True, iter1(), iter2())
3146 3134
3147 3135 @property
3148 3136 def fastdesc(self):
3149 3137 self._trysetasclist()
3150 3138 if self._asclist is not None:
3151 3139 return self._asclist.__reversed__
3152 3140 iter1 = self._r1.fastdesc
3153 3141 iter2 = self._r2.fastdesc
3154 3142 if None in (iter1, iter2):
3155 3143 return None
3156 3144 return lambda: _iterordered(False, iter1(), iter2())
3157 3145
3158 3146 def __contains__(self, x):
3159 3147 return x in self._r1 or x in self._r2
3160 3148
3161 3149 def sort(self, reverse=False):
3162 3150 """Sort the added set
3163 3151
3164 3152 For this we use the cached list with all the generated values and if we
3165 3153 know they are ascending or descending we can sort them in a smart way.
3166 3154 """
3167 3155 self._ascending = not reverse
3168 3156
3169 3157 def isascending(self):
3170 3158 return self._ascending is not None and self._ascending
3171 3159
3172 3160 def isdescending(self):
3173 3161 return self._ascending is not None and not self._ascending
3174 3162
3175 3163 def reverse(self):
3176 3164 if self._ascending is None:
3177 3165 self._list.reverse()
3178 3166 else:
3179 3167 self._ascending = not self._ascending
3180 3168
3181 3169 def first(self):
3182 3170 for x in self:
3183 3171 return x
3184 3172 return None
3185 3173
3186 3174 def last(self):
3187 3175 self.reverse()
3188 3176 val = self.first()
3189 3177 self.reverse()
3190 3178 return val
3191 3179
3192 3180 def __repr__(self):
3193 3181 d = {None: '', False: '-', True: '+'}[self._ascending]
3194 3182 return '<%s%s %r, %r>' % (type(self).__name__, d, self._r1, self._r2)
3195 3183
3196 3184 class generatorset(abstractsmartset):
3197 3185 """Wrap a generator for lazy iteration
3198 3186
3199 3187 Wrapper structure for generators that provides lazy membership and can
3200 3188 be iterated more than once.
3201 3189 When asked for membership it generates values until either it finds the
3202 3190 requested one or has gone through all the elements in the generator
3203 3191 """
3204 3192 def __init__(self, gen, iterasc=None):
3205 3193 """
3206 3194 gen: a generator producing the values for the generatorset.
3207 3195 """
3208 3196 self._gen = gen
3209 3197 self._asclist = None
3210 3198 self._cache = {}
3211 3199 self._genlist = []
3212 3200 self._finished = False
3213 3201 self._ascending = True
3214 3202 if iterasc is not None:
3215 3203 if iterasc:
3216 3204 self.fastasc = self._iterator
3217 3205 self.__contains__ = self._asccontains
3218 3206 else:
3219 3207 self.fastdesc = self._iterator
3220 3208 self.__contains__ = self._desccontains
3221 3209
3222 3210 def __nonzero__(self):
3223 3211 # Do not use 'for r in self' because it will enforce the iteration
3224 3212 # order (default ascending), possibly unrolling a whole descending
3225 3213 # iterator.
3226 3214 if self._genlist:
3227 3215 return True
3228 3216 for r in self._consumegen():
3229 3217 return True
3230 3218 return False
3231 3219
3232 3220 def __contains__(self, x):
3233 3221 if x in self._cache:
3234 3222 return self._cache[x]
3235 3223
3236 3224 # Use new values only, as existing values would be cached.
3237 3225 for l in self._consumegen():
3238 3226 if l == x:
3239 3227 return True
3240 3228
3241 3229 self._cache[x] = False
3242 3230 return False
3243 3231
3244 3232 def _asccontains(self, x):
3245 3233 """version of contains optimised for ascending generator"""
3246 3234 if x in self._cache:
3247 3235 return self._cache[x]
3248 3236
3249 3237 # Use new values only, as existing values would be cached.
3250 3238 for l in self._consumegen():
3251 3239 if l == x:
3252 3240 return True
3253 3241 if l > x:
3254 3242 break
3255 3243
3256 3244 self._cache[x] = False
3257 3245 return False
3258 3246
3259 3247 def _desccontains(self, x):
3260 3248 """version of contains optimised for descending generator"""
3261 3249 if x in self._cache:
3262 3250 return self._cache[x]
3263 3251
3264 3252 # Use new values only, as existing values would be cached.
3265 3253 for l in self._consumegen():
3266 3254 if l == x:
3267 3255 return True
3268 3256 if l < x:
3269 3257 break
3270 3258
3271 3259 self._cache[x] = False
3272 3260 return False
3273 3261
3274 3262 def __iter__(self):
3275 3263 if self._ascending:
3276 3264 it = self.fastasc
3277 3265 else:
3278 3266 it = self.fastdesc
3279 3267 if it is not None:
3280 3268 return it()
3281 3269 # we need to consume the iterator
3282 3270 for x in self._consumegen():
3283 3271 pass
3284 3272 # recall the same code
3285 3273 return iter(self)
3286 3274
3287 3275 def _iterator(self):
3288 3276 if self._finished:
3289 3277 return iter(self._genlist)
3290 3278
3291 3279 # We have to use this complex iteration strategy to allow multiple
3292 3280 # iterations at the same time. We need to be able to catch revision
3293 3281 # removed from _consumegen and added to genlist in another instance.
3294 3282 #
3295 3283 # Getting rid of it would provide an about 15% speed up on this
3296 3284 # iteration.
3297 3285 genlist = self._genlist
3298 3286 nextrev = self._consumegen().next
3299 3287 _len = len # cache global lookup
3300 3288 def gen():
3301 3289 i = 0
3302 3290 while True:
3303 3291 if i < _len(genlist):
3304 3292 yield genlist[i]
3305 3293 else:
3306 3294 yield nextrev()
3307 3295 i += 1
3308 3296 return gen()
3309 3297
3310 3298 def _consumegen(self):
3311 3299 cache = self._cache
3312 3300 genlist = self._genlist.append
3313 3301 for item in self._gen:
3314 3302 cache[item] = True
3315 3303 genlist(item)
3316 3304 yield item
3317 3305 if not self._finished:
3318 3306 self._finished = True
3319 3307 asc = self._genlist[:]
3320 3308 asc.sort()
3321 3309 self._asclist = asc
3322 3310 self.fastasc = asc.__iter__
3323 3311 self.fastdesc = asc.__reversed__
3324 3312
3325 3313 def __len__(self):
3326 3314 for x in self._consumegen():
3327 3315 pass
3328 3316 return len(self._genlist)
3329 3317
3330 3318 def sort(self, reverse=False):
3331 3319 self._ascending = not reverse
3332 3320
3333 3321 def reverse(self):
3334 3322 self._ascending = not self._ascending
3335 3323
3336 3324 def isascending(self):
3337 3325 return self._ascending
3338 3326
3339 3327 def isdescending(self):
3340 3328 return not self._ascending
3341 3329
3342 3330 def first(self):
3343 3331 if self._ascending:
3344 3332 it = self.fastasc
3345 3333 else:
3346 3334 it = self.fastdesc
3347 3335 if it is None:
3348 3336 # we need to consume all and try again
3349 3337 for x in self._consumegen():
3350 3338 pass
3351 3339 return self.first()
3352 3340 return next(it(), None)
3353 3341
3354 3342 def last(self):
3355 3343 if self._ascending:
3356 3344 it = self.fastdesc
3357 3345 else:
3358 3346 it = self.fastasc
3359 3347 if it is None:
3360 3348 # we need to consume all and try again
3361 3349 for x in self._consumegen():
3362 3350 pass
3363 3351 return self.first()
3364 3352 return next(it(), None)
3365 3353
3366 3354 def __repr__(self):
3367 3355 d = {False: '-', True: '+'}[self._ascending]
3368 3356 return '<%s%s>' % (type(self).__name__, d)
3369 3357
3370 3358 class spanset(abstractsmartset):
3371 3359 """Duck type for baseset class which represents a range of revisions and
3372 3360 can work lazily and without having all the range in memory
3373 3361
3374 3362 Note that spanset(x, y) behave almost like xrange(x, y) except for two
3375 3363 notable points:
3376 3364 - when x < y it will be automatically descending,
3377 3365 - revision filtered with this repoview will be skipped.
3378 3366
3379 3367 """
3380 3368 def __init__(self, repo, start=0, end=None):
3381 3369 """
3382 3370 start: first revision included the set
3383 3371 (default to 0)
3384 3372 end: first revision excluded (last+1)
3385 3373 (default to len(repo)
3386 3374
3387 3375 Spanset will be descending if `end` < `start`.
3388 3376 """
3389 3377 if end is None:
3390 3378 end = len(repo)
3391 3379 self._ascending = start <= end
3392 3380 if not self._ascending:
3393 3381 start, end = end + 1, start +1
3394 3382 self._start = start
3395 3383 self._end = end
3396 3384 self._hiddenrevs = repo.changelog.filteredrevs
3397 3385
3398 3386 def sort(self, reverse=False):
3399 3387 self._ascending = not reverse
3400 3388
3401 3389 def reverse(self):
3402 3390 self._ascending = not self._ascending
3403 3391
3404 3392 def _iterfilter(self, iterrange):
3405 3393 s = self._hiddenrevs
3406 3394 for r in iterrange:
3407 3395 if r not in s:
3408 3396 yield r
3409 3397
3410 3398 def __iter__(self):
3411 3399 if self._ascending:
3412 3400 return self.fastasc()
3413 3401 else:
3414 3402 return self.fastdesc()
3415 3403
3416 3404 def fastasc(self):
3417 3405 iterrange = xrange(self._start, self._end)
3418 3406 if self._hiddenrevs:
3419 3407 return self._iterfilter(iterrange)
3420 3408 return iter(iterrange)
3421 3409
3422 3410 def fastdesc(self):
3423 3411 iterrange = xrange(self._end - 1, self._start - 1, -1)
3424 3412 if self._hiddenrevs:
3425 3413 return self._iterfilter(iterrange)
3426 3414 return iter(iterrange)
3427 3415
3428 3416 def __contains__(self, rev):
3429 3417 hidden = self._hiddenrevs
3430 3418 return ((self._start <= rev < self._end)
3431 3419 and not (hidden and rev in hidden))
3432 3420
3433 3421 def __nonzero__(self):
3434 3422 for r in self:
3435 3423 return True
3436 3424 return False
3437 3425
3438 3426 def __len__(self):
3439 3427 if not self._hiddenrevs:
3440 3428 return abs(self._end - self._start)
3441 3429 else:
3442 3430 count = 0
3443 3431 start = self._start
3444 3432 end = self._end
3445 3433 for rev in self._hiddenrevs:
3446 3434 if (end < rev <= start) or (start <= rev < end):
3447 3435 count += 1
3448 3436 return abs(self._end - self._start) - count
3449 3437
3450 3438 def isascending(self):
3451 3439 return self._ascending
3452 3440
3453 3441 def isdescending(self):
3454 3442 return not self._ascending
3455 3443
3456 3444 def first(self):
3457 3445 if self._ascending:
3458 3446 it = self.fastasc
3459 3447 else:
3460 3448 it = self.fastdesc
3461 3449 for x in it():
3462 3450 return x
3463 3451 return None
3464 3452
3465 3453 def last(self):
3466 3454 if self._ascending:
3467 3455 it = self.fastdesc
3468 3456 else:
3469 3457 it = self.fastasc
3470 3458 for x in it():
3471 3459 return x
3472 3460 return None
3473 3461
3474 3462 def __repr__(self):
3475 3463 d = {False: '-', True: '+'}[self._ascending]
3476 3464 return '<%s%s %d:%d>' % (type(self).__name__, d,
3477 3465 self._start, self._end - 1)
3478 3466
3479 3467 class fullreposet(spanset):
3480 3468 """a set containing all revisions in the repo
3481 3469
3482 3470 This class exists to host special optimization and magic to handle virtual
3483 3471 revisions such as "null".
3484 3472 """
3485 3473
3486 3474 def __init__(self, repo):
3487 3475 super(fullreposet, self).__init__(repo)
3488 3476
3489 3477 def __and__(self, other):
3490 3478 """As self contains the whole repo, all of the other set should also be
3491 3479 in self. Therefore `self & other = other`.
3492 3480
3493 3481 This boldly assumes the other contains valid revs only.
3494 3482 """
3495 3483 # other not a smartset, make is so
3496 3484 if not util.safehasattr(other, 'isascending'):
3497 3485 # filter out hidden revision
3498 3486 # (this boldly assumes all smartset are pure)
3499 3487 #
3500 3488 # `other` was used with "&", let's assume this is a set like
3501 3489 # object.
3502 3490 other = baseset(other - self._hiddenrevs)
3503 3491
3504 3492 # XXX As fullreposet is also used as bootstrap, this is wrong.
3505 3493 #
3506 3494 # With a giveme312() revset returning [3,1,2], this makes
3507 3495 # 'hg log -r "giveme312()"' -> 1, 2, 3 (wrong)
3508 3496 # We cannot just drop it because other usage still need to sort it:
3509 3497 # 'hg log -r "all() and giveme312()"' -> 1, 2, 3 (right)
3510 3498 #
3511 3499 # There is also some faulty revset implementations that rely on it
3512 3500 # (eg: children as of its state in e8075329c5fb)
3513 3501 #
3514 3502 # When we fix the two points above we can move this into the if clause
3515 3503 other.sort(reverse=self.isdescending())
3516 3504 return other
3517 3505
3518 3506 def prettyformatset(revs):
3519 3507 lines = []
3520 3508 rs = repr(revs)
3521 3509 p = 0
3522 3510 while p < len(rs):
3523 3511 q = rs.find('<', p + 1)
3524 3512 if q < 0:
3525 3513 q = len(rs)
3526 3514 l = rs.count('<', 0, p) - rs.count('>', 0, p)
3527 3515 assert l >= 0
3528 3516 lines.append((l, rs[p:q].rstrip()))
3529 3517 p = q
3530 3518 return '\n'.join(' ' * l + s for l, s in lines)
3531 3519
3532 3520 def loadpredicate(ui, extname, registrarobj):
3533 3521 """Load revset predicates from specified registrarobj
3534 3522 """
3535 3523 for name, func in registrarobj._table.iteritems():
3536 3524 symbols[name] = func
3537 3525 if func._safe:
3538 3526 safesymbols.add(name)
3539 3527
3540 3528 # load built-in predicates explicitly to setup safesymbols
3541 3529 loadpredicate(None, None, predicate)
3542 3530
3543 3531 # tell hggettext to extract docstrings from these functions:
3544 3532 i18nfunctions = symbols.values()
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