view hgext/hbisect.py @ 4959:8933b8ea871a

Use format string for lockname again (was changed by 3e25a6eb5c9a)
author Thomas Arendsen Hein <thomas@intevation.de>
date Sat, 21 Jul 2007 10:39:42 +0200
parents 22ebd6ee5672
children c13610d5642c
line wrap: on
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# bisect extension for mercurial
#
# Copyright 2005, 2006 Benoit Boissinot <benoit.boissinot@ens-lyon.org>
# Inspired by git bisect, extension skeleton taken from mq.py.
#
# This software may be used and distributed according to the terms
# of the GNU General Public License, incorporated herein by reference.

from mercurial.i18n import _
from mercurial import hg, util, commands, cmdutil
import os, sys, sets

versionstr = "0.0.3"

def lookup_rev(ui, repo, rev=None):
    """returns rev or the checked-out revision if rev is None"""
    if not rev is None:
        return repo.lookup(rev)
    parents = [p for p in repo.dirstate.parents() if p != hg.nullid]
    if len(parents) != 1:
        raise util.Abort(_("unexpected number of parents, "
                           "please commit or revert"))
    return parents.pop()

def check_clean(ui, repo):
    modified, added, removed, deleted, unknown = repo.status()[:5]
    if modified or added or removed:
        ui.warn("Repository is not clean, please commit or revert\n")
        sys.exit(1)

class bisect(object):
    """dichotomic search in the DAG of changesets"""
    def __init__(self, ui, repo):
        self.repo = repo
        self.path = repo.join("bisect")
        self.opener = util.opener(self.path)
        self.ui = ui
        self.goodrevs = []
        self.badrev = None
        self.good_dirty = 0
        self.bad_dirty = 0
        self.good_path = "good"
        self.bad_path = "bad"

        if os.path.exists(os.path.join(self.path, self.good_path)):
            self.goodrevs = self.opener(self.good_path).read().splitlines()
            self.goodrevs = [hg.bin(x) for x in self.goodrevs]
        if os.path.exists(os.path.join(self.path, self.bad_path)):
            r = self.opener(self.bad_path).read().splitlines()
            if r:
                self.badrev = hg.bin(r.pop(0))

    def write(self):
        if not os.path.isdir(self.path):
            return
        f = self.opener(self.good_path, "w")
        f.write("\n".join([hg.hex(r) for r in  self.goodrevs]))
        if len(self.goodrevs) > 0:
            f.write("\n")
        f = self.opener(self.bad_path, "w")
        if self.badrev:
            f.write(hg.hex(self.badrev) + "\n")

    def init(self):
        """start a new bisection"""
        if os.path.isdir(self.path):
            raise util.Abort(_("bisect directory already exists\n"))
        os.mkdir(self.path)
        check_clean(self.ui, self.repo)
        return 0

    def reset(self):
        """finish a bisection"""
        if os.path.isdir(self.path):
            sl = [os.path.join(self.path, p)
                  for p in [self.bad_path, self.good_path]]
            for s in sl:
                if os.path.exists(s):
                    os.unlink(s)
            os.rmdir(self.path)
        # Not sure about this
        #self.ui.write("Going back to tip\n")
        #self.repo.update(self.repo.changelog.tip())
        return 1

    def num_ancestors(self, head=None, stop=None):
        """
        returns a dict with the mapping:
        node -> number of ancestors (self included)
        for all nodes who are ancestor of head and
        not in stop.
        """
        if head is None:
            head = self.badrev
        return self.__ancestors_and_nb_ancestors(head, stop)[1]

    def ancestors(self, head=None, stop=None):
        """
        returns the set of the ancestors of head (self included)
        who are not in stop.
        """
        if head is None:
            head = self.badrev
        return self.__ancestors_and_nb_ancestors(head, stop)[0]

    def __ancestors_and_nb_ancestors(self, head, stop=None):
        """
        if stop is None then ancestors of goodrevs are used as
        lower limit.

        returns (anc, n_child) where anc is the set of the ancestors of head
        and n_child is a dictionary with the following mapping:
        node -> number of ancestors (self included)
        """
        cl = self.repo.changelog
        if not stop:
            stop = sets.Set([])
            for i in xrange(len(self.goodrevs)-1, -1, -1):
                g = self.goodrevs[i]
                if g in stop:
                    continue
                stop.update(cl.reachable(g))
        def num_children(a):
            """
            returns a dictionnary with the following mapping
            node -> [number of children, empty set]
            """
            d = {a: [0, sets.Set([])]}
            for i in xrange(cl.rev(a)+1):
                n = cl.node(i)
                if not d.has_key(n):
                    d[n] = [0, sets.Set([])]
                parents = [p for p in cl.parents(n) if p != hg.nullid]
                for p in parents:
                    d[p][0] += 1
            return d

        if head in stop:
            raise util.Abort(_("Inconsistent state, %s:%s is good and bad")
                             % (cl.rev(head), hg.short(head)))
        n_child = num_children(head)
        for i in xrange(cl.rev(head)+1):
            n = cl.node(i)
            parents = [p for p in cl.parents(n) if p != hg.nullid]
            for p in parents:
                n_child[p][0] -= 1
                if not n in stop:
                    n_child[n][1].union_update(n_child[p][1])
                if n_child[p][0] == 0:
                    n_child[p] = len(n_child[p][1])
            if not n in stop:
                n_child[n][1].add(n)
            if n_child[n][0] == 0:
                if n == head:
                    anc = n_child[n][1]
                n_child[n] = len(n_child[n][1])
        return anc, n_child

    def next(self):
        if not self.badrev:
            raise util.Abort(_("You should give at least one bad revision"))
        if not self.goodrevs:
            self.ui.warn(_("No good revision given\n"))
            self.ui.warn(_("Marking the first revision as good\n"))
        ancestors, num_ancestors = self.__ancestors_and_nb_ancestors(
                                    self.badrev)
        tot = len(ancestors)
        if tot == 1:
            if ancestors.pop() != self.badrev:
                raise util.Abort(_("Could not find the first bad revision"))
            self.ui.write(_("The first bad revision is:\n"))
            displayer = cmdutil.show_changeset(self.ui, self.repo, {})
            displayer.show(changenode=self.badrev)
            return None
        best_rev = None
        best_len = -1
        for n in ancestors:
            l = num_ancestors[n]
            l = min(l, tot - l)
            if l > best_len:
                best_len = l
                best_rev = n
        assert best_rev is not None
        nb_tests = 0
        q, r = divmod(tot, 2)
        while q:
            nb_tests += 1
            q, r = divmod(q, 2)
        msg = _("Testing changeset %s:%s (%s changesets remaining, "
                "~%s tests)\n") % (self.repo.changelog.rev(best_rev),
                                   hg.short(best_rev), tot, nb_tests)
        self.ui.write(msg)
        return best_rev

    def autonext(self):
        """find and update to the next revision to test"""
        check_clean(self.ui, self.repo)
        rev = self.next()
        if rev is not None:
            return hg.clean(self.repo, rev)

    def good(self, rev):
        self.goodrevs.append(rev)

    def autogood(self, rev=None):
        """mark revision as good and update to the next revision to test"""
        check_clean(self.ui, self.repo)
        rev = lookup_rev(self.ui, self.repo, rev)
        self.good(rev)
        if self.badrev:
            return self.autonext()

    def bad(self, rev):
        self.badrev = rev

    def autobad(self, rev=None):
        """mark revision as bad and update to the next revision to test"""
        check_clean(self.ui, self.repo)
        rev = lookup_rev(self.ui, self.repo, rev)
        self.bad(rev)
        if self.goodrevs:
            self.autonext()

# should we put it in the class ?
def test(ui, repo, rev):
    """test the bisection code"""
    b = bisect(ui, repo)
    rev = repo.lookup(rev)
    ui.write("testing with rev %s\n" % hg.hex(rev))
    anc = b.ancestors()
    while len(anc) > 1:
        if not rev in anc:
            ui.warn("failure while bisecting\n")
            sys.exit(1)
        ui.write("it worked :)\n")
        new_rev = b.next()
        ui.write("choosing if good or bad\n")
        if rev in b.ancestors(head=new_rev):
            b.bad(new_rev)
            ui.write("it is bad\n")
        else:
            b.good(new_rev)
            ui.write("it is good\n")
        anc = b.ancestors()
        #repo.update(new_rev, force=True)
    for v in anc:
        if v != rev:
            ui.warn("fail to found cset! :(\n")
            return 1
    ui.write("Found bad cset: %s\n" % hg.hex(b.badrev))
    ui.write("Everything is ok :)\n")
    return 0

def bisect_run(ui, repo, cmd=None, *args):
    """Dichotomic search in the DAG of changesets

This extension helps to find changesets which cause problems.
To use, mark the earliest changeset you know introduces the problem
as bad, then mark the latest changeset which is free from the problem
as good. Bisect will update your working directory to a revision for
testing. Once you have performed tests, mark the working directory
as bad or good and bisect will either update to another candidate
changeset or announce that it has found the bad revision.

Note: bisect expects bad revisions to be descendants of good revisions.
If you are looking for the point at which a problem was fixed, then make
the problem-free state "bad" and the problematic state "good."

For subcommands see "hg bisect help\"
    """
    def help_(cmd=None, *args):
        """show help for a given bisect subcommand or all subcommands"""
        cmdtable = bisectcmdtable
        if cmd:
            doc = cmdtable[cmd][0].__doc__
            synopsis = cmdtable[cmd][2]
            ui.write(synopsis + "\n")
            ui.write("\n" + doc + "\n")
            return
        ui.write(_("list of subcommands for the bisect extension\n\n"))
        cmds = cmdtable.keys()
        cmds.sort()
        m = max([len(c) for c in cmds])
        for cmd in cmds:
            doc = cmdtable[cmd][0].__doc__.splitlines(0)[0].rstrip()
            ui.write(" %-*s   %s\n" % (m, cmd, doc))

    b = bisect(ui, repo)
    bisectcmdtable = {
        "init": (b.init, 0, _("hg bisect init")),
        "bad": (b.autobad, 1, _("hg bisect bad [<rev>]")),
        "good": (b.autogood, 1, _("hg bisect good [<rev>]")),
        "next": (b.autonext, 0, _("hg bisect next")),
        "reset": (b.reset, 0, _("hg bisect reset")),
        "help": (help_, 1, _("hg bisect help [<subcommand>]")),
    }

    if not bisectcmdtable.has_key(cmd):
        ui.warn(_("bisect: Unknown sub-command\n"))
        return help_()
    if len(args) > bisectcmdtable[cmd][1]:
        ui.warn(_("bisect: Too many arguments\n"))
        return help_()
    try:
        return bisectcmdtable[cmd][0](*args)
    finally:
        b.write()

cmdtable = {
    "bisect": (bisect_run, [], _("hg bisect [help|init|reset|next|good|bad]")),
    #"bisect-test": (test, [], "hg bisect-test rev"),
}