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#!/usr/bin/env python
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#
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# This software may be used and distributed according to the terms
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# of the GNU General Public License, incorporated herein by reference.
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from mercurial.demandload import demandload
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demandload(globals(), "os sys sets")
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from mercurial import hg
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versionstr = "0.0.3"
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def lookup_rev(ui, repo, rev=None):
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"""returns rev or the checked-out revision if rev is None"""
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if not rev is None:
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return repo.lookup(rev)
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parents = [p for p in repo.dirstate.parents() if p != hg.nullid]
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if len(parents) != 1:
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ui.warn("unexpected number of parents\n")
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ui.warn("please commit or revert\n")
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sys.exit(1)
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return parents.pop()
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def check_clean(ui, repo):
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c, a, d, u = repo.changes()
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if c or a or d:
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ui.warn("Repository is not clean, please commit or revert\n")
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sys.exit(1)
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class bisect(object):
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"""dichotomic search in the DAG of changesets"""
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def __init__(self, ui, repo):
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self.repo = repo
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self.path = os.path.join(repo.join(""), "bisect")
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self.ui = ui
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self.goodrevs = []
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self.badrev = None
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self.good_dirty = 0
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self.bad_dirty = 0
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self.good_path = os.path.join(self.path, "good")
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self.bad_path = os.path.join(self.path, "bad")
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s = self.good_path
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if os.path.exists(s):
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self.goodrevs = self.repo.opener(s).read().splitlines()
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self.goodrevs = [hg.bin(x) for x in self.goodrevs]
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s = self.bad_path
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if os.path.exists(s):
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r = self.repo.opener(s).read().splitlines()
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if r:
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self.badrev = hg.bin(r.pop(0))
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def __del__(self):
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if not os.path.isdir(self.path):
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return
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f = self.repo.opener(self.good_path, "w")
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f.write("\n".join([hg.hex(r) for r in self.goodrevs]))
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if len(self.goodrevs) > 0:
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f.write("\n")
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f = self.repo.opener(self.bad_path, "w")
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if self.badrev:
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f.write(hg.hex(self.badrev) + "\n")
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def init(self):
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"""start a new bisection"""
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if os.path.isdir(self.path):
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self.ui.warn("bisect directory already exists\n")
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return 1
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os.mkdir(self.path)
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check_clean(self.ui, self.repo)
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return 0
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def reset(self):
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"""finish a bisection"""
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if os.path.isdir(self.path):
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sl = [self.bad_path, self.good_path]
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for s in sl:
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if os.path.exists(s):
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os.unlink(s)
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os.rmdir(self.path)
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# Not sure about this
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#self.ui.write("Going back to tip\n")
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#self.repo.update(self.repo.changelog.tip())
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return 1
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def num_ancestors(self, head=None, stop=None):
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"""
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returns a dict with the mapping:
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node -> number of ancestors (self included)
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for all nodes who are ancestor of head and
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not in stop.
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"""
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if head is None:
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head = self.badrev
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return self.__ancestors_and_nb_ancestors(head, stop)[1]
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def ancestors(self, head=None, stop=None):
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"""
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returns the set of the ancestors of head (self included)
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who are not in stop.
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"""
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if head is None:
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head = self.badrev
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return self.__ancestors_and_nb_ancestors(head, stop)[0]
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def __ancestors_and_nb_ancestors(self, head, stop=None):
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"""
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if stop is None then ancestors of goodrevs are used as
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lower limit.
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returns (anc, n_child) where anc is the set of the ancestors of head
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and n_child is a dictionary with the following mapping:
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node -> number of ancestors (self included)
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"""
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cl = self.repo.changelog
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if not stop:
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stop = sets.Set([])
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for g in reversed(self.goodrevs):
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if g in stop:
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continue
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stop.update(cl.reachable(g))
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def num_children(a):
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"""
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returns a dictionnary with the following mapping
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node -> [number of children, empty set]
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"""
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d = {a: [0, sets.Set([])]}
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for i in xrange(cl.rev(a)+1):
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n = cl.node(i)
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if not d.has_key(n):
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d[n] = [0, sets.Set([])]
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parents = [p for p in cl.parents(n) if p != hg.nullid]
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for p in parents:
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d[p][0] += 1
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return d
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if head in stop:
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self.ui.warn("Unconsistent state, %s is good and bad\n"
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% hg.hex(head))
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sys.exit(1)
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n_child = num_children(head)
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for i in xrange(cl.rev(head)+1):
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n = cl.node(i)
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parents = [p for p in cl.parents(n) if p != hg.nullid]
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for p in parents:
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n_child[p][0] -= 1
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if not n in stop:
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n_child[n][1].union_update(n_child[p][1])
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if n_child[p][0] == 0:
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n_child[p] = len(n_child[p][1])
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if not n in stop:
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n_child[n][1].add(n)
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if n_child[n][0] == 0:
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if n == head:
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anc = n_child[n][1]
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n_child[n] = len(n_child[n][1])
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return anc, n_child
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def next(self):
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if not self.badrev:
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self.ui.warn("You should give at least one bad\n")
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sys.exit(1)
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if not self.goodrevs:
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self.ui.warn("No good revision given\n")
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self.ui.warn("Assuming the first revision is good\n")
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ancestors, num_ancestors = self.__ancestors_and_nb_ancestors(self.badrev)
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tot = len(ancestors)
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if tot == 1:
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if ancestors.pop() != self.badrev:
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self.ui.warn("Could not find the first bad revision\n")
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sys.exit(1)
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self.ui.write(
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"The first bad revision is : %s\n" % hg.hex(self.badrev))
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sys.exit(0)
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self.ui.write("%d revisions left\n" % tot)
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best_rev = None
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best_len = -1
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for n in ancestors:
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l = num_ancestors[n]
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l = min(l, tot - l)
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if l > best_len:
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best_len = l
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best_rev = n
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return best_rev
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def autonext(self):
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"""find and update to the next revision to test"""
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check_clean(self.ui, self.repo)
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rev = self.next()
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self.ui.write("Now testing %s\n" % hg.hex(rev))
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return self.repo.update(rev, allow=True, force=True)
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def good(self, rev):
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self.goodrevs.append(rev)
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def autogood(self, rev=None):
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"""mark revision as good and update to the next revision to test"""
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check_clean(self.ui, self.repo)
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rev = lookup_rev(self.ui, self.repo, rev)
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self.good(rev)
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if self.badrev:
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self.autonext()
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def bad(self, rev):
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self.badrev = rev
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def autobad(self, rev=None):
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"""mark revision as bad and update to the next revision to test"""
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check_clean(self.ui, self.repo)
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rev = lookup_rev(self.ui, self.repo, rev)
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self.bad(rev)
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if self.goodrevs:
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self.autonext()
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# should we put it in the class ?
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def test(ui, repo, rev):
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"""test the bisection code"""
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b = bisect(ui, repo)
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rev = repo.lookup(rev)
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ui.write("testing with rev %s\n" % hg.hex(rev))
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anc = b.ancestors()
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while len(anc) > 1:
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if not rev in anc:
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ui.warn("failure while bisecting\n")
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sys.exit(1)
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ui.write("it worked :)\n")
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new_rev = b.next()
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ui.write("choosing if good or bad\n")
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if rev in b.ancestors(head=new_rev):
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b.bad(new_rev)
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ui.write("it is bad\n")
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else:
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b.good(new_rev)
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ui.write("it is good\n")
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anc = b.ancestors()
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repo.update(new_rev, allow=True, force=True)
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for v in anc:
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if v != rev:
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ui.warn("fail to found cset! :(\n")
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return 1
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ui.write("Found bad cset: %s\n" % hg.hex(b.badrev))
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ui.write("Everything is ok :)\n")
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return 0
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def bisect_run(ui, repo, cmd=None, *args):
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"""bisect extension: dichotomic search in the DAG of changesets
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for subcommands see "hg bisect help\"
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"""
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def help_(cmd=None, *args):
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"""show help for a given bisect subcommand or all subcommands"""
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cmdtable = bisectcmdtable
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if cmd:
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doc = cmdtable[cmd][0].__doc__
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synopsis = cmdtable[cmd][2]
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ui.write(synopsis + "\n")
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ui.write("\n" + doc + "\n")
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return
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ui.write("list of subcommands for the bisect extension\n\n")
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cmds = cmdtable.keys()
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cmds.sort()
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m = max([len(c) for c in cmds])
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for cmd in cmds:
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doc = cmdtable[cmd][0].__doc__.splitlines(0)[0].rstrip()
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ui.write(" %-*s %s\n" % (m, cmd, doc))
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b = bisect(ui, repo)
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bisectcmdtable = {
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"init": (b.init, 0, "hg bisect init"),
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"bad": (b.autobad, 1, "hg bisect bad [<rev>]"),
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"good": (b.autogood, 1, "hg bisect good [<rev>]"),
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"next": (b.autonext, 0, "hg bisect next"),
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"reset": (b.reset, 0, "hg bisect reset"),
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"help": (help_, 1, "hg bisect help [<subcommand>]"),
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}
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if not bisectcmdtable.has_key(cmd):
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ui.warn("bisect: Unknown sub-command\n")
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return help_()
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if len(args) > bisectcmdtable[cmd][1]:
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ui.warn("bisect: Too many arguments\n")
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return help_()
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return bisectcmdtable[cmd][0](*args)
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cmdtable = {
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"bisect": (bisect_run, [],
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"hg bisect [help|init|reset|next|good|bad]"),
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#"bisect-test": (test, [], "hg bisect-test rev"),
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}
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