tests: check for file existance in a portable way
The precise output of ls is highly OS specific, so just use the simpler
test command.
# stack.py - code related to stack workflow
#
# This software may be used and distributed according to the terms of the
# GNU General Public License version 2 or any later version.
from mercurial.i18n import _
from mercurial import (
destutil,
error,
node,
phases,
pycompat,
obsolete,
util,
)
from .evolvebits import (
_singlesuccessor,
MultipleSuccessorsError,
builddependencies,
)
short = node.short
def parseusername(user):
"""parses the ctx user and returns the username without email ID if
possible, otherwise returns the mail address from that"""
username = None
if user:
# user is of form "abc <abc@xyz.com>"
username = user.split(b'<')[0]
if not username:
# assuming user is of form "<abc@xyz.com>"
if len(user) > 1:
username = user[1:-1]
else:
username = user
username = username.strip()
return username
def _stackcandidates(repo):
"""build the smaller set of revs that might be part of a stack.
The intend is to build something more efficient than what revsets do in
this area.
"""
phasesets = repo._phasecache._phasesets
if not phasesets or None in phasesets[phases.draft:]:
return repo.revs(b'(not public()) - obsolete()')
result = set.union(*phasesets[phases.draft:])
result -= obsolete.getrevs(repo, b'obsolete')
return result
class stack(object):
"""object represent a stack and common logic associated to it."""
def __init__(self, repo, branch=None, topic=None):
self._repo = repo
self.branch = branch
self.topic = topic
self.behinderror = None
subset = _stackcandidates(repo)
if topic is not None and branch is not None:
raise error.ProgrammingError(b'both branch and topic specified (not defined yet)')
elif topic is not None:
trevs = repo.revs(b"%ld and topic(%s)", subset, topic)
elif branch is not None:
trevs = repo.revs(b"%ld and branch(%s) - topic()", subset, branch)
else:
raise error.ProgrammingError(b'neither branch and topic specified (not defined yet)')
self._revs = trevs
def __iter__(self):
return iter(self.revs)
def __getitem__(self, index):
return self.revs[index]
def __nonzero__(self):
return bool(self._revs)
__bool__ = __nonzero__
def index(self, item):
return self.revs.index(item)
@util.propertycache
def _dependencies(self):
deps, rdeps = builddependencies(self._repo, self._revs)
repo = self._repo
srcpfunc = repo.changelog.parentrevs
### post process to skip over possible gaps in the stack
#
# For example in the following situation, we need to detect that "t3"
# indirectly depends on t2.
#
# o t3
# |
# o other
# |
# o t2
# |
# o t1
pmap = {}
def pfuncrev(repo, rev):
"""a special "parent func" that also consider successors"""
parents = pmap.get(rev)
if parents is None:
parents = [repo[_singlesuccessor(repo, repo[p])].rev()
for p in srcpfunc(rev) if 0 <= p]
pmap[rev] = parents
return parents
revs = self._revs
stackrevs = set(self._revs)
for root in [r for r in revs if not deps[r]]:
seen = set()
stack = [root]
while stack:
current = stack.pop()
for p in pfuncrev(repo, current):
if p in seen:
continue
seen.add(p)
if p in stackrevs:
rdeps[p].add(root)
deps[root].add(p)
elif phases.public < repo[p].phase():
# traverse only if we did not found a proper candidate
stack.append(p)
return deps, rdeps
@util.propertycache
def revs(self):
# some duplication/change from _orderrevs because we use a post
# processed dependency graph.
# Step 1: compute relation of revision with each other
origdeps, rdependencies = self._dependencies
dependencies = {}
# Making a deep copy of origdeps because we modify contents of values
# later on. Checking for list here only because right now
# builddependencies in evolvebits.py can return a list of _succs()
# objects. When that will be dealt with, this deep copy code can be
# simplified a lot.
for k, v in origdeps.items():
if isinstance(v, list):
dependencies[k] = [i.copy() for i in v]
else:
dependencies[k] = v.copy()
# Step 2: Build the ordering
# Remove the revisions with no dependency(A) and add them to the ordering.
# Removing these revisions leads to new revisions with no dependency (the
# one depending on A) that we can remove from the dependency graph and add
# to the ordering. We progress in a similar fashion until the ordering is
# built
solvablerevs = [r for r in sorted(dependencies.keys())
if not dependencies[r]]
revs = []
while solvablerevs:
rev = solvablerevs.pop()
for dependent in rdependencies[rev]:
dependencies[dependent].remove(rev)
if not dependencies[dependent]:
solvablerevs.append(dependent)
del dependencies[rev]
revs.append(rev)
revs.extend(sorted(dependencies))
# step 3: add t0
if revs:
pt1 = self._repo[revs[0]].p1()
else:
pt1 = self._repo[b'.']
if pt1.obsolete():
pt1 = self._repo[_singlesuccessor(self._repo, pt1)]
revs.insert(0, pt1.rev())
return revs
@util.propertycache
def changesetcount(self):
return len(self._revs)
@util.propertycache
def unstablecount(self):
return len([r for r in self._revs if self._repo[r].isunstable()])
@util.propertycache
def heads(self):
revs = self.revs[1:]
deps, rdeps = self._dependencies
return [r for r in revs if not rdeps[r]]
@util.propertycache
def behindcount(self):
revs = self.revs[1:]
deps, rdeps = self._dependencies
if revs:
minroot = [min(r for r in revs if not deps[r])]
try:
dest = destutil.destmerge(self._repo, action=b'rebase',
sourceset=minroot,
onheadcheck=False)
return len(self._repo.revs(b"only(%d, %ld)", dest, minroot))
except error.NoMergeDestAbort:
return 0
except error.ManyMergeDestAbort as exc:
# XXX we should make it easier for upstream to provide the information
self.behinderror = pycompat.bytestr(exc).split(b'-', 1)[0].rstrip()
return -1
return 0
@util.propertycache
def branches(self):
branches = sorted(set(self._repo[r].branch() for r in self._revs))
if not branches:
branches = set([self._repo[None].branch()])
return branches
def labelsgen(prefix, parts):
fmt = prefix + b'.%s'
return prefix + b' ' + b' '.join(fmt % p.replace(b' ', b'-') for p in parts)
def showstack(ui, repo, branch=None, topic=None, opts=None):
if opts is None:
opts = {}
if topic is not None and branch is not None:
msg = b'both branch and topic specified [%s]{%s}(not defined yet)'
msg %= (branch, topic)
raise error.ProgrammingError(msg)
elif topic is not None:
prefix = b's'
if topic not in repo.topics:
raise error.Abort(_(b'cannot resolve "%s": no such topic found') % topic)
elif branch is not None:
prefix = b's'
else:
raise error.ProgrammingError(b'neither branch and topic specified (not defined yet)')
fm = ui.formatter(b'topicstack', opts)
prev = None
entries = []
idxmap = {}
label = b'topic'
if topic == repo.currenttopic:
label = b'topic.active'
st = stack(repo, branch, topic)
if topic is not None:
fm.plain(_(b'### topic: %s')
% ui.label(topic, label),
label=b'stack.summary.topic')
if 1 < len(st.heads):
fm.plain(b' (')
fm.plain(b'%d heads' % len(st.heads),
label=b'stack.summary.headcount.multiple')
fm.plain(b')')
fm.plain(b'\n')
fm.plain(_(b'### target: %s (branch)')
% b'+'.join(st.branches), # XXX handle multi branches
label=b'stack.summary.branches')
if topic is None:
if 1 < len(st.heads):
fm.plain(b' (')
fm.plain(b'%d heads' % len(st.heads),
label=b'stack.summary.headcount.multiple')
fm.plain(b')')
else:
if st.behindcount == -1:
fm.plain(b', ')
fm.plain(b'ambiguous rebase destination - %s' % st.behinderror,
label=b'stack.summary.behinderror')
elif st.behindcount:
fm.plain(b', ')
fm.plain(b'%d behind' % st.behindcount, label=b'stack.summary.behindcount')
fm.plain(b'\n')
if not st:
fm.plain(_(b"(stack is empty)\n"))
st = stack(repo, branch=branch, topic=topic)
for idx, r in enumerate(st, 0):
ctx = repo[r]
# special case for t0, b0 as it's hard to plugin into rest of the logic
if idx == 0:
# t0, b0 can be None
if r == -1:
continue
entries.append((idx, False, ctx))
prev = ctx.rev()
continue
p1 = ctx.p1()
p2 = ctx.p2()
if p1.obsolete():
try:
p1 = repo[_singlesuccessor(repo, p1)]
except MultipleSuccessorsError as e:
successors = e.successorssets
if len(successors) > 1:
# case of divergence which we don't handle yet
raise
p1 = repo[successors[0][-1]]
if p2.node() != node.nullid:
entries.append((idxmap.get(p1.rev()), False, p1))
entries.append((idxmap.get(p2.rev()), False, p2))
elif p1.rev() != prev and p1.node() != node.nullid:
entries.append((idxmap.get(p1.rev()), False, p1))
entries.append((idx, True, ctx))
idxmap[ctx.rev()] = idx
prev = r
# super crude initial version
for idx, isentry, ctx in entries[::-1]:
symbol = None
states = []
if opts.get(b'children'):
expr = b'children(%d) and merge() - %ld'
revisions = repo.revs(expr, ctx.rev(), st._revs)
if len(revisions) > 0:
states.append(b'external-children')
if ctx.orphan():
symbol = b'$'
states.append(b'orphan')
if ctx.contentdivergent():
symbol = b'$'
states.append(b'content divergent')
if ctx.phasedivergent():
symbol = b'$'
states.append(b'phase divergent')
iscurrentrevision = repo.revs(b'%d and parents()', ctx.rev())
if iscurrentrevision:
symbol = b'@'
states.append(b'current')
if not isentry:
symbol = b'^'
# "base" is kind of a "ghost" entry
states.append(b'base')
# none of the above if statments get executed
if not symbol:
symbol = b':'
if not states:
states.append(b'clean')
states.sort()
fm.startitem()
fm.context(ctx=ctx)
fm.data(isentry=isentry)
if idx is None:
spacewidth = 0
if ui.verbose:
# parentheses plus short node hash
spacewidth = 2 + 12
if ui.debugflag:
# parentheses plus full node hash
spacewidth = 2 + 40
# s# alias width
spacewidth += 2
fm.plain(b' ' * spacewidth)
else:
fm.write(b'stack_index', b'%s%%d' % prefix, idx,
label=labelsgen(b'stack.index', states))
if ui.verbose:
fm.write(b'node', b'(%s)', fm.hexfunc(ctx.node()),
label=labelsgen(b'stack.shortnode', states))
else:
fm.data(node=fm.hexfunc(ctx.node()))
fm.write(b'symbol', b'%s', symbol,
label=labelsgen(b'stack.state', states))
fm.plain(b' ')
fm.write(b'desc', b'%s', ctx.description().splitlines()[0],
label=labelsgen(b'stack.desc', states))
fm.condwrite(states != [b'clean'] and idx is not None, b'state',
b' (%s)', fm.formatlist(states, b'stack.state'),
label=labelsgen(b'stack.state', states))
fm.plain(b'\n')
fm.end()