##// END OF EJS Templates
hgweb: add HTML elements to control whitespace settings for annotate...
hgweb: add HTML elements to control whitespace settings for annotate Building on top of the new URL query string arguments to control whitespace settings for annotate, this commit adds HTML checkboxes reflecting the values of these arguments to the paper and gitweb themes. The actual diff settings are now exported to the templating layer. The HTML templates add these as data-* attributes so they are accessible to the DOM. A new <form> with various <input> elements is added. The <form> is initially hidden via CSS. A shared JavaScript function (which runs after the <form> has been rendered but before the annotate HTML (because annotate HTML could take a while to load and we want the form to render quickly) takes care of setting the checked state of each box from the data-* attributes. It also registers an event handler to modify the URL and refresh the page whenever the checkbox state is changed. I'm using the URLSearchParams interface to perform URL manipulation. https://developer.mozilla.org/en-US/docs/Web/API/URLSearchParams tells me this may not be supported on older web browsers. Yes, apparently the web API didn't have a standard API to parse and format query strings until recently. Hence the check for the presence of this feature in the JavaScript. If the browser doesn't support the feature, the <form> will remain hidden and behavior will like it currently is. We could polyfill this feature or implement our own query string parsing. But I'm lazy and this could be done as a follow-up if people miss it. We could certainly expand this feature to support more diff options (such as lines of context). That's why the potentially reusable code is stored in a reusable place. It is also certainly possible to add diff controls to other pages that display diffs. But since Mozillians are making noise about controlling which revisions annotate shows, I figured I'd start there. .. feature:: Control whitespace settings for annotation on hgweb /annotate URLs on hgweb now accept query string arguments to influence how whitespace changes impact results. The arguments "ignorews," "ignorewsamount," "ignorewseol," and "ignoreblanklines" now have the same meaning as their [annotate] config section counterparts. Any provided setting overrides the server default. HTML checkboxes have been added to the paper and gitweb themes to expose current whitespace settings and to easily modify the current view. Differential Revision: https://phab.mercurial-scm.org/D850

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obsutil.py
657 lines | 24.3 KiB | text/x-python | PythonLexer
Boris Feld
template: add predecessors template...
r32879 # obsutil.py - utility functions for obsolescence
#
# Copyright 2017 Boris Feld <boris.feld@octobus.net>
#
# 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
obsolete: reports the number of local changeset obsoleted when unbundling...
r33249 from . import (
phases,
Boris Feld
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r33697 util
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r33249 )
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r33149 class marker(object):
"""Wrap obsolete marker raw data"""
def __init__(self, repo, data):
# the repo argument will be used to create changectx in later version
self._repo = repo
self._data = data
self._decodedmeta = None
def __hash__(self):
return hash(self._data)
def __eq__(self, other):
if type(other) != type(self):
return False
return self._data == other._data
def precnode(self):
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r33697 msg = ("'marker.precnode' is deprecated, "
Boris Feld
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r33857 "use 'marker.prednode'")
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r33697 util.nouideprecwarn(msg, '4.4')
return self.prednode()
def prednode(self):
"""Predecessor changeset node identifier"""
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r33149 return self._data[0]
def succnodes(self):
"""List of successor changesets node identifiers"""
return self._data[1]
def parentnodes(self):
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r33697 """Parents of the predecessors (None if not recorded)"""
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r33149 return self._data[5]
def metadata(self):
"""Decoded metadata dictionary"""
return dict(self._data[3])
def date(self):
"""Creation date as (unixtime, offset)"""
return self._data[4]
def flags(self):
"""The flags field of the marker"""
return self._data[2]
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r33150 def getmarkers(repo, nodes=None, exclusive=False):
"""returns markers known in a repository
If <nodes> is specified, only markers "relevant" to those nodes are are
returned"""
if nodes is None:
rawmarkers = repo.obsstore
elif exclusive:
rawmarkers = exclusivemarkers(repo, nodes)
else:
rawmarkers = repo.obsstore.relevantmarkers(nodes)
for markerdata in rawmarkers:
yield marker(repo, markerdata)
Boris Feld
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r32879 def closestpredecessors(repo, nodeid):
"""yield the list of next predecessors pointing on visible changectx nodes
This function respect the repoview filtering, filtered revision will be
considered missing.
"""
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r33699 precursors = repo.obsstore.predecessors
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r32879 stack = [nodeid]
seen = set(stack)
while stack:
current = stack.pop()
currentpreccs = precursors.get(current, ())
for prec in currentpreccs:
precnodeid = prec[0]
# Basic cycle protection
if precnodeid in seen:
continue
seen.add(precnodeid)
if precnodeid in repo:
yield precnodeid
else:
stack.append(precnodeid)
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r33143
Boris Feld
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r33701 def allprecursors(*args, **kwargs):
""" (DEPRECATED)
"""
msg = ("'obsutil.allprecursors' is deprecated, "
"use 'obsutil.allpredecessors'")
util.nouideprecwarn(msg, '4.4')
return allpredecessors(*args, **kwargs)
def allpredecessors(obsstore, nodes, ignoreflags=0):
obsutil: move 'allprecursors' to the new modules...
r33145 """Yield node for every precursors of <nodes>.
Some precursors may be unknown locally.
This is a linear yield unsuited to detecting folded changesets. It includes
initial nodes too."""
remaining = set(nodes)
seen = set(remaining)
while remaining:
current = remaining.pop()
yield current
Boris Feld
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r33699 for mark in obsstore.predecessors.get(current, ()):
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r33145 # ignore marker flagged with specified flag
if mark[2] & ignoreflags:
continue
suc = mark[0]
if suc not in seen:
seen.add(suc)
remaining.add(suc)
obsutil: move 'allsuccessors' to the new modules...
r33146 def allsuccessors(obsstore, nodes, ignoreflags=0):
"""Yield node for every successor of <nodes>.
Some successors may be unknown locally.
This is a linear yield unsuited to detecting split changesets. It includes
initial nodes too."""
remaining = set(nodes)
seen = set(remaining)
while remaining:
current = remaining.pop()
yield current
for mark in obsstore.successors.get(current, ()):
# ignore marker flagged with specified flag
if mark[2] & ignoreflags:
continue
for suc in mark[1]:
if suc not in seen:
seen.add(suc)
remaining.add(suc)
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r33144 def _filterprunes(markers):
"""return a set with no prune markers"""
return set(m for m in markers if m[1])
def exclusivemarkers(repo, nodes):
"""set of markers relevant to "nodes" but no other locally-known nodes
This function compute the set of markers "exclusive" to a locally-known
node. This means we walk the markers starting from <nodes> until we reach a
locally-known precursors outside of <nodes>. Element of <nodes> with
locally-known successors outside of <nodes> are ignored (since their
precursors markers are also relevant to these successors).
For example:
# (A0 rewritten as A1)
#
# A0 <-1- A1 # Marker "1" is exclusive to A1
or
# (A0 rewritten as AX; AX rewritten as A1; AX is unkown locally)
#
# <-1- A0 <-2- AX <-3- A1 # Marker "2,3" are exclusive to A1
or
# (A0 has unknown precursors, A0 rewritten as A1 and A2 (divergence))
#
# <-2- A1 # Marker "2" is exclusive to A0,A1
# /
# <-1- A0
# \
# <-3- A2 # Marker "3" is exclusive to A0,A2
#
# in addition:
#
# Markers "2,3" are exclusive to A1,A2
# Markers "1,2,3" are exclusive to A0,A1,A2
See test/test-obsolete-bundle-strip.t for more examples.
An example usage is strip. When stripping a changeset, we also want to
strip the markers exclusive to this changeset. Otherwise we would have
"dangling"" obsolescence markers from its precursors: Obsolescence markers
marking a node as obsolete without any successors available locally.
As for relevant markers, the prune markers for children will be followed.
Of course, they will only be followed if the pruned children is
locally-known. Since the prune markers are relevant to the pruned node.
However, while prune markers are considered relevant to the parent of the
pruned changesets, prune markers for locally-known changeset (with no
successors) are considered exclusive to the pruned nodes. This allows
to strip the prune markers (with the rest of the exclusive chain) alongside
the pruned changesets.
"""
# running on a filtered repository would be dangerous as markers could be
# reported as exclusive when they are relevant for other filtered nodes.
unfi = repo.unfiltered()
# shortcut to various useful item
nm = unfi.changelog.nodemap
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r33699 precursorsmarkers = unfi.obsstore.predecessors
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r33144 successormarkers = unfi.obsstore.successors
childrenmarkers = unfi.obsstore.children
# exclusive markers (return of the function)
exclmarkers = set()
# we need fast membership testing
nodes = set(nodes)
# looking for head in the obshistory
#
# XXX we are ignoring all issues in regard with cycle for now.
stack = [n for n in nodes if not _filterprunes(successormarkers.get(n, ()))]
stack.sort()
# nodes already stacked
seennodes = set(stack)
while stack:
current = stack.pop()
# fetch precursors markers
markers = list(precursorsmarkers.get(current, ()))
# extend the list with prune markers
for mark in successormarkers.get(current, ()):
if not mark[1]:
markers.append(mark)
# and markers from children (looking for prune)
for mark in childrenmarkers.get(current, ()):
if not mark[1]:
markers.append(mark)
# traverse the markers
for mark in markers:
if mark in exclmarkers:
# markers already selected
continue
# If the markers is about the current node, select it
#
# (this delay the addition of markers from children)
if mark[1] or mark[0] == current:
exclmarkers.add(mark)
# should we keep traversing through the precursors?
prec = mark[0]
# nodes in the stack or already processed
if prec in seennodes:
continue
# is this a locally known node ?
known = prec in nm
# if locally-known and not in the <nodes> set the traversal
# stop here.
if known and prec not in nodes:
continue
# do not keep going if there are unselected markers pointing to this
# nodes. If we end up traversing these unselected markers later the
# node will be taken care of at that point.
precmarkers = _filterprunes(successormarkers.get(prec))
if precmarkers.issubset(exclmarkers):
seennodes.add(prec)
stack.append(prec)
return exclmarkers
obsutil: move 'foreground' to the new modules...
r33147 def foreground(repo, nodes):
"""return all nodes in the "foreground" of other node
The foreground of a revision is anything reachable using parent -> children
or precursor -> successor relation. It is very similar to "descendant" but
augmented with obsolescence information.
Beware that possible obsolescence cycle may result if complex situation.
"""
repo = repo.unfiltered()
foreground = set(repo.set('%ln::', nodes))
if repo.obsstore:
# We only need this complicated logic if there is obsolescence
# XXX will probably deserve an optimised revset.
nm = repo.changelog.nodemap
plen = -1
# compute the whole set of successors or descendants
while len(foreground) != plen:
plen = len(foreground)
succs = set(c.node() for c in foreground)
mutable = [c.node() for c in foreground if c.mutable()]
succs.update(allsuccessors(repo.obsstore, mutable))
known = (n for n in succs if n in nm)
foreground = set(repo.set('%ln::', known))
return set(c.node() for c in foreground)
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r33249 def getobsoleted(repo, tr):
"""return the set of pre-existing revisions obsoleted by a transaction"""
torev = repo.unfiltered().changelog.nodemap.get
phase = repo._phasecache.phase
succsmarkers = repo.obsstore.successors.get
public = phases.public
addedmarkers = tr.changes.get('obsmarkers')
addedrevs = tr.changes.get('revs')
seenrevs = set(addedrevs)
obsoleted = set()
for mark in addedmarkers:
node = mark[0]
rev = torev(node)
if rev is None or rev in seenrevs:
continue
seenrevs.add(rev)
if phase(repo, rev) == public:
continue
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r33679 if set(succsmarkers(node) or []).issubset(addedmarkers):
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r33249 obsoleted.add(rev)
return obsoleted
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r33910 class _succs(list):
"""small class to represent a successors with some metadata about it"""
Boris Feld
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r33912 def __init__(self, *args, **kwargs):
super(_succs, self).__init__(*args, **kwargs)
self.markers = set()
Boris Feld
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r33911 def copy(self):
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r33912 new = _succs(self)
new.markers = self.markers.copy()
return new
Boris Feld
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r33911
Boris Feld
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r33943 @util.propertycache
def _set(self):
# immutable
return set(self)
def canmerge(self, other):
return self._set.issubset(other._set)
Boris Feld
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r33274 def successorssets(repo, initialnode, closest=False, cache=None):
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r33143 """Return set of all latest successors of initial nodes
The successors set of a changeset A are the group of revisions that succeed
A. It succeeds A as a consistent whole, each revision being only a partial
Boris Feld
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r33274 replacement. By default, the successors set contains non-obsolete
changesets only, walking the obsolescence graph until reaching a leaf. If
'closest' is set to True, closest successors-sets are return (the
obsolescence walk stops on known changesets).
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r33143
This function returns the full list of successor sets which is why it
returns a list of tuples and not just a single tuple. Each tuple is a valid
successors set. Note that (A,) may be a valid successors set for changeset A
(see below).
In most cases, a changeset A will have a single element (e.g. the changeset
A is replaced by A') in its successors set. Though, it is also common for a
changeset A to have no elements in its successor set (e.g. the changeset
has been pruned). Therefore, the returned list of successors sets will be
[(A',)] or [], respectively.
When a changeset A is split into A' and B', however, it will result in a
successors set containing more than a single element, i.e. [(A',B')].
Divergent changesets will result in multiple successors sets, i.e. [(A',),
(A'')].
If a changeset A is not obsolete, then it will conceptually have no
successors set. To distinguish this from a pruned changeset, the successor
set will contain itself only, i.e. [(A,)].
Boris Feld
obsolete: small doc update for 'successorssets'...
r33272 Finally, final successors unknown locally are considered to be pruned
(pruned: obsoleted without any successors). (Final: successors not affected
by markers).
obsutil: move 'successorssets' to the new modules...
r33143
Boris Feld
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r33274 The 'closest' mode respect the repoview filtering. For example, without
filter it will stop at the first locally known changeset, with 'visible'
filter it will stop on visible changesets).
Boris Feld
obsolete: small doc update for 'successorssets'...
r33272 The optional `cache` parameter is a dictionary that may contains
precomputed successors sets. It is meant to reuse the computation of a
previous call to `successorssets` when multiple calls are made at the same
time. The cache dictionary is updated in place. The caller is responsible
for its life span. Code that makes multiple calls to `successorssets`
*should* use this cache mechanism or risk a performance hit.
Boris Feld
obsolete: closest divergent support...
r33274
Since results are different depending of the 'closest' most, the same cache
cannot be reused for both mode.
obsutil: move 'successorssets' to the new modules...
r33143 """
succmarkers = repo.obsstore.successors
# Stack of nodes we search successors sets for
toproceed = [initialnode]
# set version of above list for fast loop detection
# element added to "toproceed" must be added here
stackedset = set(toproceed)
if cache is None:
cache = {}
# This while loop is the flattened version of a recursive search for
# successors sets
#
# def successorssets(x):
# successors = directsuccessors(x)
# ss = [[]]
# for succ in directsuccessors(x):
# # product as in itertools cartesian product
# ss = product(ss, successorssets(succ))
# return ss
#
# But we can not use plain recursive calls here:
# - that would blow the python call stack
# - obsolescence markers may have cycles, we need to handle them.
#
# The `toproceed` list act as our call stack. Every node we search
# successors set for are stacked there.
#
# The `stackedset` is set version of this stack used to check if a node is
# already stacked. This check is used to detect cycles and prevent infinite
# loop.
#
# successors set of all nodes are stored in the `cache` dictionary.
#
# After this while loop ends we use the cache to return the successors sets
# for the node requested by the caller.
while toproceed:
# Every iteration tries to compute the successors sets of the topmost
# node of the stack: CURRENT.
#
# There are four possible outcomes:
#
# 1) We already know the successors sets of CURRENT:
# -> mission accomplished, pop it from the stack.
Boris Feld
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r33274 # 2) Stop the walk:
# default case: Node is not obsolete
# closest case: Node is known at this repo filter level
# -> the node is its own successors sets. Add it to the cache.
obsutil: move 'successorssets' to the new modules...
r33143 # 3) We do not know successors set of direct successors of CURRENT:
# -> We add those successors to the stack.
# 4) We know successors sets of all direct successors of CURRENT:
# -> We can compute CURRENT successors set and add it to the
# cache.
#
current = toproceed[-1]
Boris Feld
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r33274
# case 2 condition is a bit hairy because of closest,
# we compute it on its own
case2condition = ((current not in succmarkers)
or (closest and current != initialnode
and current in repo))
obsutil: move 'successorssets' to the new modules...
r33143 if current in cache:
# case (1): We already know the successors sets
stackedset.remove(toproceed.pop())
Boris Feld
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r33274 elif case2condition:
# case (2): end of walk.
obsutil: move 'successorssets' to the new modules...
r33143 if current in repo:
Boris Feld
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r33274 # We have a valid successors.
Boris Feld
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r33910 cache[current] = [_succs((current,))]
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r33143 else:
# Final obsolete version is unknown locally.
# Do not count that as a valid successors
cache[current] = []
else:
# cases (3) and (4)
#
# We proceed in two phases. Phase 1 aims to distinguish case (3)
# from case (4):
#
# For each direct successors of CURRENT, we check whether its
# successors sets are known. If they are not, we stack the
# unknown node and proceed to the next iteration of the while
# loop. (case 3)
#
# During this step, we may detect obsolescence cycles: a node
# with unknown successors sets but already in the call stack.
# In such a situation, we arbitrary set the successors sets of
# the node to nothing (node pruned) to break the cycle.
#
# If no break was encountered we proceed to phase 2.
#
# Phase 2 computes successors sets of CURRENT (case 4); see details
# in phase 2 itself.
#
# Note the two levels of iteration in each phase.
# - The first one handles obsolescence markers using CURRENT as
# precursor (successors markers of CURRENT).
#
# Having multiple entry here means divergence.
#
# - The second one handles successors defined in each marker.
#
# Having none means pruned node, multiple successors means split,
# single successors are standard replacement.
#
for mark in sorted(succmarkers[current]):
for suc in mark[1]:
if suc not in cache:
if suc in stackedset:
# cycle breaking
cache[suc] = []
else:
# case (3) If we have not computed successors sets
# of one of those successors we add it to the
# `toproceed` stack and stop all work for this
# iteration.
toproceed.append(suc)
stackedset.add(suc)
break
else:
continue
break
else:
# case (4): we know all successors sets of all direct
# successors
#
# Successors set contributed by each marker depends on the
# successors sets of all its "successors" node.
#
# Each different marker is a divergence in the obsolescence
# history. It contributes successors sets distinct from other
# markers.
#
# Within a marker, a successor may have divergent successors
# sets. In such a case, the marker will contribute multiple
# divergent successors sets. If multiple successors have
# divergent successors sets, a Cartesian product is used.
#
# At the end we post-process successors sets to remove
# duplicated entry and successors set that are strict subset of
# another one.
succssets = []
for mark in sorted(succmarkers[current]):
# successors sets contributed by this marker
Boris Feld
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r33912 base = _succs()
base.markers.add(mark)
markss = [base]
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r33143 for suc in mark[1]:
# cardinal product with previous successors
productresult = []
for prefix in markss:
for suffix in cache[suc]:
Boris Feld
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r33911 newss = prefix.copy()
Boris Feld
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r33912 newss.markers.update(suffix.markers)
obsutil: move 'successorssets' to the new modules...
r33143 for part in suffix:
# do not duplicated entry in successors set
# first entry wins.
if part not in newss:
newss.append(part)
productresult.append(newss)
markss = productresult
succssets.extend(markss)
# remove duplicated and subset
seen = []
final = []
Boris Feld
obsolete: fix old typo...
r33944 candidates = sorted((s for s in succssets if s),
key=len, reverse=True)
for cand in candidates:
Boris Feld
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r33943 for seensuccs in seen:
if cand.canmerge(seensuccs):
seensuccs.markers.update(cand.markers)
obsutil: move 'successorssets' to the new modules...
r33143 break
else:
Boris Feld
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r33943 final.append(cand)
seen.append(cand)
obsutil: move 'successorssets' to the new modules...
r33143 final.reverse() # put small successors set first
cache[current] = final
return cache[initialnode]
Boris Feld
template: add minimal obsfate template function...
r33913
def successorsandmarkers(repo, ctx):
"""compute the raw data needed for computing obsfate
Returns a list of dict, one dict per successors set
"""
if not ctx.obsolete():
return None
ssets = successorssets(repo, ctx.node(), closest=True)
Boris Feld
template: better prune support in obsfate...
r33998 # closestsuccessors returns an empty list for pruned revisions, remap it
# into a list containing an empty list for future processing
if ssets == []:
ssets = [[]]
# Try to recover pruned markers
succsmap = repo.obsstore.successors
fullsuccessorsets = [] # successor set + markers
for sset in ssets:
if sset:
fullsuccessorsets.append(sset)
else:
# successorsset return an empty set() when ctx or one of its
# successors is pruned.
# In this case, walk the obs-markers tree again starting with ctx
# and find the relevant pruning obs-makers, the ones without
# successors.
# Having these markers allow us to compute some information about
# its fate, like who pruned this changeset and when.
# XXX we do not catch all prune markers (eg rewritten then pruned)
# (fix me later)
foundany = False
for mark in succsmap.get(ctx.node(), ()):
if not mark[1]:
foundany = True
sset = _succs()
sset.markers.add(mark)
fullsuccessorsets.append(sset)
if not foundany:
fullsuccessorsets.append(_succs())
Boris Feld
template: add minimal obsfate template function...
r33913 values = []
Boris Feld
template: better prune support in obsfate...
r33998 for sset in fullsuccessorsets:
Boris Feld
template: add minimal obsfate template function...
r33913 values.append({'successors': sset, 'markers': sset.markers})
return values
Boris Feld
template: compute verb in obsfateverb...
r33995
def successorsetverb(successorset):
""" Return the verb summarizing the successorset
"""
if not successorset:
verb = 'pruned'
elif len(successorset) == 1:
verb = 'rewritten'
else:
verb = 'split'
return verb
Boris Feld
template: compute user in obsfateusers...
r33996
Boris Feld
template: compute dates in obsfatedate...
r33997 def markersdates(markers):
"""returns the list of dates for a list of markers
"""
return [m[4] for m in markers]
Boris Feld
template: compute user in obsfateusers...
r33996 def markersusers(markers):
""" Returns a sorted list of markers users without duplicates
"""
markersmeta = [dict(m[3]) for m in markers]
users = set(meta.get('user') for meta in markersmeta if meta.get('user'))
return sorted(users)
Martin von Zweigbergk
templates: introduce a obsfateoperation() function...
r34288
def markersoperations(markers):
""" Returns a sorted list of markers operations without duplicates
"""
markersmeta = [dict(m[3]) for m in markers]
operations = set(meta.get('operation') for meta in markersmeta
if meta.get('operation'))
return sorted(operations)