smartset.py
1131 lines
| 34.1 KiB
| text/x-python
|
PythonLexer
/ mercurial / smartset.py
Yuya Nishihara
|
r30881 | # smartset.py - data structure for revision set | ||
| # | ||||
| # Copyright 2010 Matt Mackall <mpm@selenic.com> | ||||
| # | ||||
| # This software may be used and distributed according to the terms of the | ||||
| # GNU General Public License version 2 or any later version. | ||||
| from __future__ import absolute_import | ||||
| from . import ( | ||||
|
Yuya Nishihara
|
r35919 | encoding, | ||
|
Yuya Nishihara
|
r32819 | error, | ||
|
Yuya Nishihara
|
r35919 | pycompat, | ||
|
Yuya Nishihara
|
r30881 | util, | ||
| ) | ||||
| def _formatsetrepr(r): | ||||
| """Format an optional printable representation of a set | ||||
| ======== ================================= | ||||
| type(r) example | ||||
| ======== ================================= | ||||
| tuple ('<not %r>', other) | ||||
|
Yuya Nishihara
|
r35919 | bytes '<branch closed>' | ||
|
Yuya Nishihara
|
r30881 | callable lambda: '<branch %r>' % sorted(b) | ||
| object other | ||||
| ======== ================================= | ||||
| """ | ||||
| if r is None: | ||||
| return '' | ||||
| elif isinstance(r, tuple): | ||||
|
Yuya Nishihara
|
r35922 | return r[0] % util.rapply(pycompat.maybebytestr, r[1:]) | ||
|
Yuya Nishihara
|
r35919 | elif isinstance(r, bytes): | ||
|
Yuya Nishihara
|
r30881 | return r | ||
| elif callable(r): | ||||
| return r() | ||||
| else: | ||||
|
Yuya Nishihara
|
r36279 | return pycompat.byterepr(r) | ||
|
Yuya Nishihara
|
r35919 | |||
| def _typename(o): | ||||
| return pycompat.sysbytes(type(o).__name__).lstrip('_') | ||||
|
Yuya Nishihara
|
r30881 | |||
| class abstractsmartset(object): | ||||
| def __nonzero__(self): | ||||
| """True if the smartset is not empty""" | ||||
| raise NotImplementedError() | ||||
Gregory Szorc
|
r31476 | __bool__ = __nonzero__ | ||
|
Yuya Nishihara
|
r30881 | def __contains__(self, rev): | ||
| """provide fast membership testing""" | ||||
| raise NotImplementedError() | ||||
| def __iter__(self): | ||||
| """iterate the set in the order it is supposed to be iterated""" | ||||
| raise NotImplementedError() | ||||
| # Attributes containing a function to perform a fast iteration in a given | ||||
| # direction. A smartset can have none, one, or both defined. | ||||
| # | ||||
| # Default value is None instead of a function returning None to avoid | ||||
| # initializing an iterator just for testing if a fast method exists. | ||||
| fastasc = None | ||||
| fastdesc = None | ||||
| def isascending(self): | ||||
| """True if the set will iterate in ascending order""" | ||||
| raise NotImplementedError() | ||||
| def isdescending(self): | ||||
| """True if the set will iterate in descending order""" | ||||
| raise NotImplementedError() | ||||
| def istopo(self): | ||||
| """True if the set will iterate in topographical order""" | ||||
| raise NotImplementedError() | ||||
| def min(self): | ||||
| """return the minimum element in the set""" | ||||
| if self.fastasc is None: | ||||
| v = min(self) | ||||
| else: | ||||
| for v in self.fastasc(): | ||||
| break | ||||
| else: | ||||
| raise ValueError('arg is an empty sequence') | ||||
| self.min = lambda: v | ||||
| return v | ||||
| def max(self): | ||||
| """return the maximum element in the set""" | ||||
| if self.fastdesc is None: | ||||
| return max(self) | ||||
| else: | ||||
| for v in self.fastdesc(): | ||||
| break | ||||
| else: | ||||
| raise ValueError('arg is an empty sequence') | ||||
| self.max = lambda: v | ||||
| return v | ||||
| def first(self): | ||||
| """return the first element in the set (user iteration perspective) | ||||
| Return None if the set is empty""" | ||||
| raise NotImplementedError() | ||||
| def last(self): | ||||
| """return the last element in the set (user iteration perspective) | ||||
| Return None if the set is empty""" | ||||
| raise NotImplementedError() | ||||
| def __len__(self): | ||||
| """return the length of the smartsets | ||||
| This can be expensive on smartset that could be lazy otherwise.""" | ||||
| raise NotImplementedError() | ||||
| def reverse(self): | ||||
| """reverse the expected iteration order""" | ||||
| raise NotImplementedError() | ||||
|
Yuya Nishihara
|
r33072 | def sort(self, reverse=False): | ||
|
Yuya Nishihara
|
r30881 | """get the set to iterate in an ascending or descending order""" | ||
| raise NotImplementedError() | ||||
| def __and__(self, other): | ||||
| """Returns a new object with the intersection of the two collections. | ||||
| This is part of the mandatory API for smartset.""" | ||||
| if isinstance(other, fullreposet): | ||||
| return self | ||||
| return self.filter(other.__contains__, condrepr=other, cache=False) | ||||
| def __add__(self, other): | ||||
| """Returns a new object with the union of the two collections. | ||||
| This is part of the mandatory API for smartset.""" | ||||
| return addset(self, other) | ||||
| def __sub__(self, other): | ||||
| """Returns a new object with the substraction of the two collections. | ||||
| This is part of the mandatory API for smartset.""" | ||||
| c = other.__contains__ | ||||
| return self.filter(lambda r: not c(r), condrepr=('<not %r>', other), | ||||
| cache=False) | ||||
| def filter(self, condition, condrepr=None, cache=True): | ||||
| """Returns this smartset filtered by condition as a new smartset. | ||||
| `condition` is a callable which takes a revision number and returns a | ||||
| boolean. Optional `condrepr` provides a printable representation of | ||||
| the given `condition`. | ||||
| This is part of the mandatory API for smartset.""" | ||||
| # builtin cannot be cached. but do not needs to | ||||
| if cache and util.safehasattr(condition, 'func_code'): | ||||
| condition = util.cachefunc(condition) | ||||
| return filteredset(self, condition, condrepr) | ||||
|
Yuya Nishihara
|
r32819 | def slice(self, start, stop): | ||
| """Return new smartset that contains selected elements from this set""" | ||||
| if start < 0 or stop < 0: | ||||
| raise error.ProgrammingError('negative index not allowed') | ||||
| return self._slice(start, stop) | ||||
| def _slice(self, start, stop): | ||||
| # sub classes may override this. start and stop must not be negative, | ||||
| # but start > stop is allowed, which should be an empty set. | ||||
| ys = [] | ||||
| it = iter(self) | ||||
| for x in xrange(start): | ||||
| y = next(it, None) | ||||
| if y is None: | ||||
| break | ||||
| for x in xrange(stop - start): | ||||
| y = next(it, None) | ||||
| if y is None: | ||||
| break | ||||
| ys.append(y) | ||||
| return baseset(ys, datarepr=('slice=%d:%d %r', start, stop, self)) | ||||
|
Yuya Nishihara
|
r30881 | class baseset(abstractsmartset): | ||
| """Basic data structure that represents a revset and contains the basic | ||||
| operation that it should be able to perform. | ||||
| Every method in this class should be implemented by any smartset class. | ||||
Jun Wu
|
r31019 | |||
| This class could be constructed by an (unordered) set, or an (ordered) | ||||
| list-like object. If a set is provided, it'll be sorted lazily. | ||||
| >>> x = [4, 0, 7, 6] | ||||
| >>> y = [5, 6, 7, 3] | ||||
| Construct by a set: | ||||
| >>> xs = baseset(set(x)) | ||||
| >>> ys = baseset(set(y)) | ||||
| >>> [list(i) for i in [xs + ys, xs & ys, xs - ys]] | ||||
| [[0, 4, 6, 7, 3, 5], [6, 7], [0, 4]] | ||||
| >>> [type(i).__name__ for i in [xs + ys, xs & ys, xs - ys]] | ||||
|
Jun Wu
|
r31020 | ['addset', 'baseset', 'baseset'] | ||
|
Jun Wu
|
r31019 | |||
| Construct by a list-like: | ||||
| >>> xs = baseset(x) | ||||
| >>> ys = baseset(i for i in y) | ||||
| >>> [list(i) for i in [xs + ys, xs & ys, xs - ys]] | ||||
| [[4, 0, 7, 6, 5, 3], [7, 6], [4, 0]] | ||||
| >>> [type(i).__name__ for i in [xs + ys, xs & ys, xs - ys]] | ||||
| ['addset', 'filteredset', 'filteredset'] | ||||
| Populate "_set" fields in the lists so set optimization may be used: | ||||
| >>> [1 in xs, 3 in ys] | ||||
| [False, True] | ||||
| Without sort(), results won't be changed: | ||||
| >>> [list(i) for i in [xs + ys, xs & ys, xs - ys]] | ||||
| [[4, 0, 7, 6, 5, 3], [7, 6], [4, 0]] | ||||
| >>> [type(i).__name__ for i in [xs + ys, xs & ys, xs - ys]] | ||||
| ['addset', 'filteredset', 'filteredset'] | ||||
|
Jun Wu
|
r31020 | With sort(), set optimization could be used: | ||
|
Jun Wu
|
r31019 | >>> xs.sort(reverse=True) | ||
| >>> [list(i) for i in [xs + ys, xs & ys, xs - ys]] | ||||
| [[7, 6, 4, 0, 5, 3], [7, 6], [4, 0]] | ||||
| >>> [type(i).__name__ for i in [xs + ys, xs & ys, xs - ys]] | ||||
|
Jun Wu
|
r31020 | ['addset', 'baseset', 'baseset'] | ||
|
Jun Wu
|
r31019 | |||
| >>> ys.sort() | ||||
| >>> [list(i) for i in [xs + ys, xs & ys, xs - ys]] | ||||
| [[7, 6, 4, 0, 3, 5], [7, 6], [4, 0]] | ||||
| >>> [type(i).__name__ for i in [xs + ys, xs & ys, xs - ys]] | ||||
|
Jun Wu
|
r31020 | ['addset', 'baseset', 'baseset'] | ||
|
Jun Wu
|
r31066 | |||
| istopo is preserved across set operations | ||||
| >>> xs = baseset(set(x), istopo=True) | ||||
| >>> rs = xs & ys | ||||
| >>> type(rs).__name__ | ||||
| 'baseset' | ||||
| >>> rs._istopo | ||||
| True | ||||
|
Yuya Nishihara
|
r30881 | """ | ||
| def __init__(self, data=(), datarepr=None, istopo=False): | ||||
| """ | ||||
| datarepr: a tuple of (format, obj, ...), a function or an object that | ||||
| provides a printable representation of the given data. | ||||
| """ | ||||
| self._ascending = None | ||||
| self._istopo = istopo | ||||
|
Yuya Nishihara
|
r31127 | if isinstance(data, set): | ||
| # converting set to list has a cost, do it lazily | ||||
| self._set = data | ||||
| # set has no order we pick one for stability purpose | ||||
| self._ascending = True | ||||
| else: | ||||
| if not isinstance(data, list): | ||||
|
Jun Wu
|
r31015 | data = list(data) | ||
| self._list = data | ||||
|
Yuya Nishihara
|
r30881 | self._datarepr = datarepr | ||
| @util.propertycache | ||||
| def _set(self): | ||||
| return set(self._list) | ||||
| @util.propertycache | ||||
| def _asclist(self): | ||||
| asclist = self._list[:] | ||||
| asclist.sort() | ||||
| return asclist | ||||
|
Jun Wu
|
r31015 | @util.propertycache | ||
| def _list(self): | ||||
| # _list is only lazily constructed if we have _set | ||||
Pulkit Goyal
|
r32148 | assert r'_set' in self.__dict__ | ||
|
Jun Wu
|
r31015 | return list(self._set) | ||
|
Yuya Nishihara
|
r30881 | def __iter__(self): | ||
| if self._ascending is None: | ||||
| return iter(self._list) | ||||
| elif self._ascending: | ||||
| return iter(self._asclist) | ||||
| else: | ||||
| return reversed(self._asclist) | ||||
| def fastasc(self): | ||||
| return iter(self._asclist) | ||||
| def fastdesc(self): | ||||
| return reversed(self._asclist) | ||||
| @util.propertycache | ||||
| def __contains__(self): | ||||
| return self._set.__contains__ | ||||
| def __nonzero__(self): | ||||
|
Jun Wu
|
r31015 | return bool(len(self)) | ||
|
Yuya Nishihara
|
r30881 | |||
|
Gregory Szorc
|
r31476 | __bool__ = __nonzero__ | ||
|
Yuya Nishihara
|
r30881 | def sort(self, reverse=False): | ||
| self._ascending = not bool(reverse) | ||||
| self._istopo = False | ||||
| def reverse(self): | ||||
| if self._ascending is None: | ||||
| self._list.reverse() | ||||
| else: | ||||
| self._ascending = not self._ascending | ||||
| self._istopo = False | ||||
| def __len__(self): | ||||
Augie Fackler
|
r35856 | if r'_list' in self.__dict__: | ||
|
Jun Wu
|
r31015 | return len(self._list) | ||
| else: | ||||
| return len(self._set) | ||||
|
Yuya Nishihara
|
r30881 | |||
| def isascending(self): | ||||
| """Returns True if the collection is ascending order, False if not. | ||||
| This is part of the mandatory API for smartset.""" | ||||
| if len(self) <= 1: | ||||
| return True | ||||
| return self._ascending is not None and self._ascending | ||||
| def isdescending(self): | ||||
| """Returns True if the collection is descending order, False if not. | ||||
| This is part of the mandatory API for smartset.""" | ||||
| if len(self) <= 1: | ||||
| return True | ||||
| return self._ascending is not None and not self._ascending | ||||
| def istopo(self): | ||||
| """Is the collection is in topographical order or not. | ||||
| This is part of the mandatory API for smartset.""" | ||||
| if len(self) <= 1: | ||||
| return True | ||||
| return self._istopo | ||||
| def first(self): | ||||
| if self: | ||||
| if self._ascending is None: | ||||
| return self._list[0] | ||||
| elif self._ascending: | ||||
| return self._asclist[0] | ||||
| else: | ||||
| return self._asclist[-1] | ||||
| return None | ||||
| def last(self): | ||||
| if self: | ||||
| if self._ascending is None: | ||||
| return self._list[-1] | ||||
| elif self._ascending: | ||||
| return self._asclist[-1] | ||||
| else: | ||||
| return self._asclist[0] | ||||
| return None | ||||
|
Jun Wu
|
r31020 | def _fastsetop(self, other, op): | ||
| # try to use native set operations as fast paths | ||||
|
Yuya Nishihara
|
r34072 | if (type(other) is baseset and r'_set' in other.__dict__ and r'_set' in | ||
|
Jun Wu
|
r31020 | self.__dict__ and self._ascending is not None): | ||
|
Jun Wu
|
r31066 | s = baseset(data=getattr(self._set, op)(other._set), | ||
| istopo=self._istopo) | ||||
|
Jun Wu
|
r31020 | s._ascending = self._ascending | ||
| else: | ||||
| s = getattr(super(baseset, self), op)(other) | ||||
| return s | ||||
| def __and__(self, other): | ||||
| return self._fastsetop(other, '__and__') | ||||
| def __sub__(self, other): | ||||
| return self._fastsetop(other, '__sub__') | ||||
|
Yuya Nishihara
|
r32820 | def _slice(self, start, stop): | ||
| # creating new list should be generally cheaper than iterating items | ||||
| if self._ascending is None: | ||||
| return baseset(self._list[start:stop], istopo=self._istopo) | ||||
| data = self._asclist | ||||
| if not self._ascending: | ||||
| start, stop = max(len(data) - stop, 0), max(len(data) - start, 0) | ||||
| s = baseset(data[start:stop], istopo=self._istopo) | ||||
| s._ascending = self._ascending | ||||
| return s | ||||
|
Yuya Nishihara
|
r35919 | @encoding.strmethod | ||
|
Yuya Nishihara
|
r30881 | def __repr__(self): | ||
| d = {None: '', False: '-', True: '+'}[self._ascending] | ||||
| s = _formatsetrepr(self._datarepr) | ||||
| if not s: | ||||
| l = self._list | ||||
| # if _list has been built from a set, it might have a different | ||||
| # order from one python implementation to another. | ||||
| # We fallback to the sorted version for a stable output. | ||||
| if self._ascending is not None: | ||||
| l = self._asclist | ||||
|
Yuya Nishihara
|
r36279 | s = pycompat.byterepr(l) | ||
|
Yuya Nishihara
|
r35919 | return '<%s%s %s>' % (_typename(self), d, s) | ||
|
Yuya Nishihara
|
r30881 | |||
| class filteredset(abstractsmartset): | ||||
| """Duck type for baseset class which iterates lazily over the revisions in | ||||
| the subset and contains a function which tests for membership in the | ||||
| revset | ||||
| """ | ||||
| def __init__(self, subset, condition=lambda x: True, condrepr=None): | ||||
| """ | ||||
| condition: a function that decide whether a revision in the subset | ||||
| belongs to the revset or not. | ||||
| condrepr: a tuple of (format, obj, ...), a function or an object that | ||||
| provides a printable representation of the given condition. | ||||
| """ | ||||
| self._subset = subset | ||||
| self._condition = condition | ||||
| self._condrepr = condrepr | ||||
| def __contains__(self, x): | ||||
| return x in self._subset and self._condition(x) | ||||
| def __iter__(self): | ||||
| return self._iterfilter(self._subset) | ||||
| def _iterfilter(self, it): | ||||
| cond = self._condition | ||||
| for x in it: | ||||
| if cond(x): | ||||
| yield x | ||||
| @property | ||||
| def fastasc(self): | ||||
| it = self._subset.fastasc | ||||
| if it is None: | ||||
| return None | ||||
| return lambda: self._iterfilter(it()) | ||||
| @property | ||||
| def fastdesc(self): | ||||
| it = self._subset.fastdesc | ||||
| if it is None: | ||||
| return None | ||||
| return lambda: self._iterfilter(it()) | ||||
| def __nonzero__(self): | ||||
| fast = None | ||||
| candidates = [self.fastasc if self.isascending() else None, | ||||
| self.fastdesc if self.isdescending() else None, | ||||
| self.fastasc, | ||||
| self.fastdesc] | ||||
| for candidate in candidates: | ||||
| if candidate is not None: | ||||
| fast = candidate | ||||
| break | ||||
| if fast is not None: | ||||
| it = fast() | ||||
| else: | ||||
| it = self | ||||
| for r in it: | ||||
| return True | ||||
| return False | ||||
|
Gregory Szorc
|
r31476 | __bool__ = __nonzero__ | ||
|
Yuya Nishihara
|
r30881 | def __len__(self): | ||
| # Basic implementation to be changed in future patches. | ||||
| # until this gets improved, we use generator expression | ||||
| # here, since list comprehensions are free to call __len__ again | ||||
| # causing infinite recursion | ||||
| l = baseset(r for r in self) | ||||
| return len(l) | ||||
| def sort(self, reverse=False): | ||||
| self._subset.sort(reverse=reverse) | ||||
| def reverse(self): | ||||
| self._subset.reverse() | ||||
| def isascending(self): | ||||
| return self._subset.isascending() | ||||
| def isdescending(self): | ||||
| return self._subset.isdescending() | ||||
| def istopo(self): | ||||
| return self._subset.istopo() | ||||
| def first(self): | ||||
| for x in self: | ||||
| return x | ||||
| return None | ||||
| def last(self): | ||||
| it = None | ||||
| if self.isascending(): | ||||
| it = self.fastdesc | ||||
| elif self.isdescending(): | ||||
| it = self.fastasc | ||||
| if it is not None: | ||||
| for x in it(): | ||||
| return x | ||||
| return None #empty case | ||||
| else: | ||||
| x = None | ||||
| for x in self: | ||||
| pass | ||||
| return x | ||||
|
Yuya Nishihara
|
r35919 | @encoding.strmethod | ||
|
Yuya Nishihara
|
r30881 | def __repr__(self): | ||
|
Yuya Nishihara
|
r36279 | xs = [pycompat.byterepr(self._subset)] | ||
|
Yuya Nishihara
|
r30881 | s = _formatsetrepr(self._condrepr) | ||
| if s: | ||||
| xs.append(s) | ||||
|
Yuya Nishihara
|
r35919 | return '<%s %s>' % (_typename(self), ', '.join(xs)) | ||
|
Yuya Nishihara
|
r30881 | |||
| def _iterordered(ascending, iter1, iter2): | ||||
| """produce an ordered iteration from two iterators with the same order | ||||
| The ascending is used to indicated the iteration direction. | ||||
| """ | ||||
| choice = max | ||||
| if ascending: | ||||
| choice = min | ||||
| val1 = None | ||||
| val2 = None | ||||
| try: | ||||
| # Consume both iterators in an ordered way until one is empty | ||||
| while True: | ||||
| if val1 is None: | ||||
| val1 = next(iter1) | ||||
| if val2 is None: | ||||
| val2 = next(iter2) | ||||
| n = choice(val1, val2) | ||||
| yield n | ||||
| if val1 == n: | ||||
| val1 = None | ||||
| if val2 == n: | ||||
| val2 = None | ||||
| except StopIteration: | ||||
| # Flush any remaining values and consume the other one | ||||
| it = iter2 | ||||
| if val1 is not None: | ||||
| yield val1 | ||||
| it = iter1 | ||||
| elif val2 is not None: | ||||
| # might have been equality and both are empty | ||||
| yield val2 | ||||
| for val in it: | ||||
| yield val | ||||
| class addset(abstractsmartset): | ||||
| """Represent the addition of two sets | ||||
| Wrapper structure for lazily adding two structures without losing much | ||||
| performance on the __contains__ method | ||||
| If the ascending attribute is set, that means the two structures are | ||||
| ordered in either an ascending or descending way. Therefore, we can add | ||||
| them maintaining the order by iterating over both at the same time | ||||
| >>> xs = baseset([0, 3, 2]) | ||||
| >>> ys = baseset([5, 2, 4]) | ||||
| >>> rs = addset(xs, ys) | ||||
| >>> bool(rs), 0 in rs, 1 in rs, 5 in rs, rs.first(), rs.last() | ||||
| (True, True, False, True, 0, 4) | ||||
| >>> rs = addset(xs, baseset([])) | ||||
| >>> bool(rs), 0 in rs, 1 in rs, rs.first(), rs.last() | ||||
| (True, True, False, 0, 2) | ||||
| >>> rs = addset(baseset([]), baseset([])) | ||||
| >>> bool(rs), 0 in rs, rs.first(), rs.last() | ||||
| (False, False, None, None) | ||||
| iterate unsorted: | ||||
| >>> rs = addset(xs, ys) | ||||
| >>> # (use generator because pypy could call len()) | ||||
| >>> list(x for x in rs) # without _genlist | ||||
| [0, 3, 2, 5, 4] | ||||
| >>> assert not rs._genlist | ||||
| >>> len(rs) | ||||
| 5 | ||||
| >>> [x for x in rs] # with _genlist | ||||
| [0, 3, 2, 5, 4] | ||||
| >>> assert rs._genlist | ||||
| iterate ascending: | ||||
| >>> rs = addset(xs, ys, ascending=True) | ||||
| >>> # (use generator because pypy could call len()) | ||||
| >>> list(x for x in rs), list(x for x in rs.fastasc()) # without _asclist | ||||
| ([0, 2, 3, 4, 5], [0, 2, 3, 4, 5]) | ||||
| >>> assert not rs._asclist | ||||
| >>> len(rs) | ||||
| 5 | ||||
| >>> [x for x in rs], [x for x in rs.fastasc()] | ||||
| ([0, 2, 3, 4, 5], [0, 2, 3, 4, 5]) | ||||
| >>> assert rs._asclist | ||||
| iterate descending: | ||||
| >>> rs = addset(xs, ys, ascending=False) | ||||
| >>> # (use generator because pypy could call len()) | ||||
| >>> list(x for x in rs), list(x for x in rs.fastdesc()) # without _asclist | ||||
| ([5, 4, 3, 2, 0], [5, 4, 3, 2, 0]) | ||||
| >>> assert not rs._asclist | ||||
| >>> len(rs) | ||||
| 5 | ||||
| >>> [x for x in rs], [x for x in rs.fastdesc()] | ||||
| ([5, 4, 3, 2, 0], [5, 4, 3, 2, 0]) | ||||
| >>> assert rs._asclist | ||||
| iterate ascending without fastasc: | ||||
| >>> rs = addset(xs, generatorset(ys), ascending=True) | ||||
| >>> assert rs.fastasc is None | ||||
| >>> [x for x in rs] | ||||
| [0, 2, 3, 4, 5] | ||||
| iterate descending without fastdesc: | ||||
| >>> rs = addset(generatorset(xs), ys, ascending=False) | ||||
| >>> assert rs.fastdesc is None | ||||
| >>> [x for x in rs] | ||||
| [5, 4, 3, 2, 0] | ||||
| """ | ||||
| def __init__(self, revs1, revs2, ascending=None): | ||||
| self._r1 = revs1 | ||||
| self._r2 = revs2 | ||||
| self._iter = None | ||||
| self._ascending = ascending | ||||
| self._genlist = None | ||||
| self._asclist = None | ||||
| def __len__(self): | ||||
| return len(self._list) | ||||
| def __nonzero__(self): | ||||
| return bool(self._r1) or bool(self._r2) | ||||
|
Gregory Szorc
|
r31476 | __bool__ = __nonzero__ | ||
|
Yuya Nishihara
|
r30881 | @util.propertycache | ||
| def _list(self): | ||||
| if not self._genlist: | ||||
| self._genlist = baseset(iter(self)) | ||||
| return self._genlist | ||||
| def __iter__(self): | ||||
| """Iterate over both collections without repeating elements | ||||
| If the ascending attribute is not set, iterate over the first one and | ||||
| then over the second one checking for membership on the first one so we | ||||
| dont yield any duplicates. | ||||
| If the ascending attribute is set, iterate over both collections at the | ||||
| same time, yielding only one value at a time in the given order. | ||||
| """ | ||||
| if self._ascending is None: | ||||
| if self._genlist: | ||||
| return iter(self._genlist) | ||||
| def arbitraryordergen(): | ||||
| for r in self._r1: | ||||
| yield r | ||||
| inr1 = self._r1.__contains__ | ||||
| for r in self._r2: | ||||
| if not inr1(r): | ||||
| yield r | ||||
| return arbitraryordergen() | ||||
| # try to use our own fast iterator if it exists | ||||
| self._trysetasclist() | ||||
| if self._ascending: | ||||
| attr = 'fastasc' | ||||
| else: | ||||
| attr = 'fastdesc' | ||||
| it = getattr(self, attr) | ||||
| if it is not None: | ||||
| return it() | ||||
| # maybe half of the component supports fast | ||||
| # get iterator for _r1 | ||||
| iter1 = getattr(self._r1, attr) | ||||
| if iter1 is None: | ||||
| # let's avoid side effect (not sure it matters) | ||||
| iter1 = iter(sorted(self._r1, reverse=not self._ascending)) | ||||
| else: | ||||
| iter1 = iter1() | ||||
| # get iterator for _r2 | ||||
| iter2 = getattr(self._r2, attr) | ||||
| if iter2 is None: | ||||
| # let's avoid side effect (not sure it matters) | ||||
| iter2 = iter(sorted(self._r2, reverse=not self._ascending)) | ||||
| else: | ||||
| iter2 = iter2() | ||||
| return _iterordered(self._ascending, iter1, iter2) | ||||
| def _trysetasclist(self): | ||||
| """populate the _asclist attribute if possible and necessary""" | ||||
| if self._genlist is not None and self._asclist is None: | ||||
| self._asclist = sorted(self._genlist) | ||||
| @property | ||||
| def fastasc(self): | ||||
| self._trysetasclist() | ||||
| if self._asclist is not None: | ||||
| return self._asclist.__iter__ | ||||
| iter1 = self._r1.fastasc | ||||
| iter2 = self._r2.fastasc | ||||
| if None in (iter1, iter2): | ||||
| return None | ||||
| return lambda: _iterordered(True, iter1(), iter2()) | ||||
| @property | ||||
| def fastdesc(self): | ||||
| self._trysetasclist() | ||||
| if self._asclist is not None: | ||||
| return self._asclist.__reversed__ | ||||
| iter1 = self._r1.fastdesc | ||||
| iter2 = self._r2.fastdesc | ||||
| if None in (iter1, iter2): | ||||
| return None | ||||
| return lambda: _iterordered(False, iter1(), iter2()) | ||||
| def __contains__(self, x): | ||||
| return x in self._r1 or x in self._r2 | ||||
| def sort(self, reverse=False): | ||||
| """Sort the added set | ||||
| For this we use the cached list with all the generated values and if we | ||||
| know they are ascending or descending we can sort them in a smart way. | ||||
| """ | ||||
| self._ascending = not reverse | ||||
| def isascending(self): | ||||
| return self._ascending is not None and self._ascending | ||||
| def isdescending(self): | ||||
| return self._ascending is not None and not self._ascending | ||||
| def istopo(self): | ||||
| # not worth the trouble asserting if the two sets combined are still | ||||
| # in topographical order. Use the sort() predicate to explicitly sort | ||||
| # again instead. | ||||
| return False | ||||
| def reverse(self): | ||||
| if self._ascending is None: | ||||
| self._list.reverse() | ||||
| else: | ||||
| self._ascending = not self._ascending | ||||
| def first(self): | ||||
| for x in self: | ||||
| return x | ||||
| return None | ||||
| def last(self): | ||||
| self.reverse() | ||||
| val = self.first() | ||||
| self.reverse() | ||||
| return val | ||||
|
Yuya Nishihara
|
r35919 | @encoding.strmethod | ||
|
Yuya Nishihara
|
r30881 | def __repr__(self): | ||
| d = {None: '', False: '-', True: '+'}[self._ascending] | ||||
|
Yuya Nishihara
|
r35919 | return '<%s%s %r, %r>' % (_typename(self), d, self._r1, self._r2) | ||
|
Yuya Nishihara
|
r30881 | |||
| class generatorset(abstractsmartset): | ||||
| """Wrap a generator for lazy iteration | ||||
| Wrapper structure for generators that provides lazy membership and can | ||||
| be iterated more than once. | ||||
| When asked for membership it generates values until either it finds the | ||||
| requested one or has gone through all the elements in the generator | ||||
|
Yuya Nishihara
|
r33109 | |||
| >>> xs = generatorset([0, 1, 4], iterasc=True) | ||||
| >>> assert xs.last() == xs.last() | ||||
| >>> xs.last() # cached | ||||
| 4 | ||||
|
Yuya Nishihara
|
r30881 | """ | ||
|
Gregory Szorc
|
r35517 | def __new__(cls, gen, iterasc=None): | ||
| if iterasc is None: | ||||
| typ = cls | ||||
| elif iterasc: | ||||
| typ = _generatorsetasc | ||||
| else: | ||||
| typ = _generatorsetdesc | ||||
| return super(generatorset, cls).__new__(typ) | ||||
|
Yuya Nishihara
|
r30881 | def __init__(self, gen, iterasc=None): | ||
| """ | ||||
| gen: a generator producing the values for the generatorset. | ||||
| """ | ||||
| self._gen = gen | ||||
| self._asclist = None | ||||
| self._cache = {} | ||||
| self._genlist = [] | ||||
| self._finished = False | ||||
| self._ascending = True | ||||
| def __nonzero__(self): | ||||
| # Do not use 'for r in self' because it will enforce the iteration | ||||
| # order (default ascending), possibly unrolling a whole descending | ||||
| # iterator. | ||||
| if self._genlist: | ||||
| return True | ||||
| for r in self._consumegen(): | ||||
| return True | ||||
| return False | ||||
|
Gregory Szorc
|
r31476 | __bool__ = __nonzero__ | ||
|
Yuya Nishihara
|
r30881 | def __contains__(self, x): | ||
| if x in self._cache: | ||||
| return self._cache[x] | ||||
| # Use new values only, as existing values would be cached. | ||||
| for l in self._consumegen(): | ||||
| if l == x: | ||||
| return True | ||||
| self._cache[x] = False | ||||
| return False | ||||
| def __iter__(self): | ||||
| if self._ascending: | ||||
| it = self.fastasc | ||||
| else: | ||||
| it = self.fastdesc | ||||
| if it is not None: | ||||
| return it() | ||||
| # we need to consume the iterator | ||||
| for x in self._consumegen(): | ||||
| pass | ||||
| # recall the same code | ||||
| return iter(self) | ||||
| def _iterator(self): | ||||
| if self._finished: | ||||
| return iter(self._genlist) | ||||
| # We have to use this complex iteration strategy to allow multiple | ||||
| # iterations at the same time. We need to be able to catch revision | ||||
| # removed from _consumegen and added to genlist in another instance. | ||||
| # | ||||
| # Getting rid of it would provide an about 15% speed up on this | ||||
| # iteration. | ||||
| genlist = self._genlist | ||||
|
Yuya Nishihara
|
r31446 | nextgen = self._consumegen() | ||
| _len, _next = len, next # cache global lookup | ||||
|
Yuya Nishihara
|
r30881 | def gen(): | ||
| i = 0 | ||||
| while True: | ||||
| if i < _len(genlist): | ||||
| yield genlist[i] | ||||
| else: | ||||
Martin von Zweigbergk
|
r32977 | try: | ||
| yield _next(nextgen) | ||||
| except StopIteration: | ||||
| return | ||||
|
Yuya Nishihara
|
r30881 | i += 1 | ||
| return gen() | ||||
| def _consumegen(self): | ||||
| cache = self._cache | ||||
| genlist = self._genlist.append | ||||
| for item in self._gen: | ||||
| cache[item] = True | ||||
| genlist(item) | ||||
| yield item | ||||
| if not self._finished: | ||||
| self._finished = True | ||||
| asc = self._genlist[:] | ||||
| asc.sort() | ||||
| self._asclist = asc | ||||
| self.fastasc = asc.__iter__ | ||||
| self.fastdesc = asc.__reversed__ | ||||
| def __len__(self): | ||||
| for x in self._consumegen(): | ||||
| pass | ||||
| return len(self._genlist) | ||||
| def sort(self, reverse=False): | ||||
| self._ascending = not reverse | ||||
| def reverse(self): | ||||
| self._ascending = not self._ascending | ||||
| def isascending(self): | ||||
| return self._ascending | ||||
| def isdescending(self): | ||||
| return not self._ascending | ||||
| def istopo(self): | ||||
| # not worth the trouble asserting if the two sets combined are still | ||||
| # in topographical order. Use the sort() predicate to explicitly sort | ||||
| # again instead. | ||||
| return False | ||||
| def first(self): | ||||
| if self._ascending: | ||||
| it = self.fastasc | ||||
| else: | ||||
| it = self.fastdesc | ||||
| if it is None: | ||||
| # we need to consume all and try again | ||||
| for x in self._consumegen(): | ||||
| pass | ||||
| return self.first() | ||||
| return next(it(), None) | ||||
| def last(self): | ||||
| if self._ascending: | ||||
| it = self.fastdesc | ||||
| else: | ||||
| it = self.fastasc | ||||
| if it is None: | ||||
| # we need to consume all and try again | ||||
| for x in self._consumegen(): | ||||
| pass | ||||
|
Yuya Nishihara
|
r33109 | return self.last() | ||
|
Yuya Nishihara
|
r30881 | return next(it(), None) | ||
|
Yuya Nishihara
|
r35919 | @encoding.strmethod | ||
|
Yuya Nishihara
|
r30881 | def __repr__(self): | ||
| d = {False: '-', True: '+'}[self._ascending] | ||||
|
Yuya Nishihara
|
r35919 | return '<%s%s>' % (_typename(self), d) | ||
|
Gregory Szorc
|
r35517 | |||
| class _generatorsetasc(generatorset): | ||||
| """Special case of generatorset optimized for ascending generators.""" | ||||
| fastasc = generatorset._iterator | ||||
| def __contains__(self, x): | ||||
| if x in self._cache: | ||||
| return self._cache[x] | ||||
| # Use new values only, as existing values would be cached. | ||||
| for l in self._consumegen(): | ||||
| if l == x: | ||||
| return True | ||||
| if l > x: | ||||
| break | ||||
| self._cache[x] = False | ||||
| return False | ||||
| class _generatorsetdesc(generatorset): | ||||
| """Special case of generatorset optimized for descending generators.""" | ||||
| fastdesc = generatorset._iterator | ||||
| def __contains__(self, x): | ||||
| if x in self._cache: | ||||
| return self._cache[x] | ||||
| # Use new values only, as existing values would be cached. | ||||
| for l in self._consumegen(): | ||||
| if l == x: | ||||
| return True | ||||
| if l < x: | ||||
| break | ||||
| self._cache[x] = False | ||||
| return False | ||||
|
Yuya Nishihara
|
r30881 | |||
|
Yuya Nishihara
|
r32818 | def spanset(repo, start=0, end=None): | ||
| """Create a spanset that represents a range of repository revisions | ||||
| start: first revision included the set (default to 0) | ||||
| end: first revision excluded (last+1) (default to len(repo)) | ||||
| Spanset will be descending if `end` < `start`. | ||||
| """ | ||||
| if end is None: | ||||
| end = len(repo) | ||||
| ascending = start <= end | ||||
| if not ascending: | ||||
| start, end = end + 1, start + 1 | ||||
| return _spanset(start, end, ascending, repo.changelog.filteredrevs) | ||||
| class _spanset(abstractsmartset): | ||||
|
Yuya Nishihara
|
r30881 | """Duck type for baseset class which represents a range of revisions and | ||
| can work lazily and without having all the range in memory | ||||
| Note that spanset(x, y) behave almost like xrange(x, y) except for two | ||||
| notable points: | ||||
| - when x < y it will be automatically descending, | ||||
| - revision filtered with this repoview will be skipped. | ||||
| """ | ||||
|
Yuya Nishihara
|
r32818 | def __init__(self, start, end, ascending, hiddenrevs): | ||
|
Yuya Nishihara
|
r30881 | self._start = start | ||
| self._end = end | ||||
|
Yuya Nishihara
|
r32818 | self._ascending = ascending | ||
| self._hiddenrevs = hiddenrevs | ||||
|
Yuya Nishihara
|
r30881 | |||
| def sort(self, reverse=False): | ||||
| self._ascending = not reverse | ||||
| def reverse(self): | ||||
| self._ascending = not self._ascending | ||||
| def istopo(self): | ||||
| # not worth the trouble asserting if the two sets combined are still | ||||
| # in topographical order. Use the sort() predicate to explicitly sort | ||||
| # again instead. | ||||
| return False | ||||
| def _iterfilter(self, iterrange): | ||||
| s = self._hiddenrevs | ||||
| for r in iterrange: | ||||
| if r not in s: | ||||
| yield r | ||||
| def __iter__(self): | ||||
| if self._ascending: | ||||
| return self.fastasc() | ||||
| else: | ||||
| return self.fastdesc() | ||||
| def fastasc(self): | ||||
| iterrange = xrange(self._start, self._end) | ||||
| if self._hiddenrevs: | ||||
| return self._iterfilter(iterrange) | ||||
| return iter(iterrange) | ||||
| def fastdesc(self): | ||||
| iterrange = xrange(self._end - 1, self._start - 1, -1) | ||||
| if self._hiddenrevs: | ||||
| return self._iterfilter(iterrange) | ||||
| return iter(iterrange) | ||||
| def __contains__(self, rev): | ||||
| hidden = self._hiddenrevs | ||||
| return ((self._start <= rev < self._end) | ||||
| and not (hidden and rev in hidden)) | ||||
| def __nonzero__(self): | ||||
| for r in self: | ||||
| return True | ||||
| return False | ||||
|
Gregory Szorc
|
r31476 | __bool__ = __nonzero__ | ||
|
Yuya Nishihara
|
r30881 | def __len__(self): | ||
| if not self._hiddenrevs: | ||||
| return abs(self._end - self._start) | ||||
| else: | ||||
| count = 0 | ||||
| start = self._start | ||||
| end = self._end | ||||
| for rev in self._hiddenrevs: | ||||
| if (end < rev <= start) or (start <= rev < end): | ||||
| count += 1 | ||||
| return abs(self._end - self._start) - count | ||||
| def isascending(self): | ||||
| return self._ascending | ||||
| def isdescending(self): | ||||
| return not self._ascending | ||||
| def first(self): | ||||
| if self._ascending: | ||||
| it = self.fastasc | ||||
| else: | ||||
| it = self.fastdesc | ||||
| for x in it(): | ||||
| return x | ||||
| return None | ||||
| def last(self): | ||||
| if self._ascending: | ||||
| it = self.fastdesc | ||||
| else: | ||||
| it = self.fastasc | ||||
| for x in it(): | ||||
| return x | ||||
| return None | ||||
|
Yuya Nishihara
|
r32821 | def _slice(self, start, stop): | ||
| if self._hiddenrevs: | ||||
| # unoptimized since all hidden revisions in range has to be scanned | ||||
| return super(_spanset, self)._slice(start, stop) | ||||
| if self._ascending: | ||||
| x = min(self._start + start, self._end) | ||||
| y = min(self._start + stop, self._end) | ||||
| else: | ||||
| x = max(self._end - stop, self._start) | ||||
| y = max(self._end - start, self._start) | ||||
| return _spanset(x, y, self._ascending, self._hiddenrevs) | ||||
|
Yuya Nishihara
|
r35919 | @encoding.strmethod | ||
|
Yuya Nishihara
|
r30881 | def __repr__(self): | ||
| d = {False: '-', True: '+'}[self._ascending] | ||||
|
Yuya Nishihara
|
r35919 | return '<%s%s %d:%d>' % (_typename(self), d, self._start, self._end) | ||
|
Yuya Nishihara
|
r30881 | |||
|
Yuya Nishihara
|
r32818 | class fullreposet(_spanset): | ||
|
Yuya Nishihara
|
r30881 | """a set containing all revisions in the repo | ||
| This class exists to host special optimization and magic to handle virtual | ||||
| revisions such as "null". | ||||
| """ | ||||
| def __init__(self, repo): | ||||
|
Yuya Nishihara
|
r32818 | super(fullreposet, self).__init__(0, len(repo), True, | ||
| repo.changelog.filteredrevs) | ||||
|
Yuya Nishihara
|
r30881 | |||
| def __and__(self, other): | ||||
| """As self contains the whole repo, all of the other set should also be | ||||
| in self. Therefore `self & other = other`. | ||||
| This boldly assumes the other contains valid revs only. | ||||
| """ | ||||
| # other not a smartset, make is so | ||||
| if not util.safehasattr(other, 'isascending'): | ||||
| # filter out hidden revision | ||||
| # (this boldly assumes all smartset are pure) | ||||
| # | ||||
| # `other` was used with "&", let's assume this is a set like | ||||
| # object. | ||||
| other = baseset(other - self._hiddenrevs) | ||||
| other.sort(reverse=self.isdescending()) | ||||
| return other | ||||