With the current implementation, `changelog.nodemap` is not filtered. So some
filtered changeset in common are not filtered by `n in nodemap`. This leads to
crash lower in the stack when the bundle generation try to access those node on
a filtered changelog.
Currently the code path of `changectx(filteredrepo, rev)` call
`filteredrepo.changelog.node(rev)`. When `rev` is filtered this raise an
unhandled `IndexError`. This case now raise a `RepoLookupError` as other
error case do.
This is in preparation for an upcoming refactoring. This also fixes a bug in
incancestors, where if an element of revs was an ancestor of another it would
be generated twice.
Before this patch, enabling strict command processing (ui.strict=True)
meant that 'hg bookmark NAME', as referenced several places in the
documentation, would not work. This adds 'bookmark' as an explicit alias
to 'bookmarks'.
Color extension achieves colorization by overriding the class of
"ui" object just before command execution.
Before this patch, "diff()" of abstractsubrepo and classes
derived from it has no "ui" argument, so "diff()" of hgsubrepo
uses "self._repo.ui" to invoke "cmdutil.diffordiffstat()".
For separation of configuration between repositories, revision
1498948ee815 changed the initialization source of "self._repo.ui"
from "ui"(overridden) to "baseui"(plain) of parent repository.
And this caused break of colorization.
This patch adds "ui" argument to "diff()" of abstractsubrepo and
classes derived from it to pass "ui" object of caller side.
Starting with 049792af94d6, users are no longer able to update a
working copy to a branch named with a "bad" character (such as ':').
Prior to v2.4, it was possible to create branch names using "bad"
characters, so this breaks backwards compatibility.
Mercurial must allow users to update to existing branches with bad
names. However, it should continue to prevent the creation of new
branches with bad names.
A test was added to confirm that 'hg update' works as expected. The
test uses a bundled repo that was created with an earlier version of
Mercurial.
Looks like there are instances where sys.stdout/stderr contain file
handles that are invalid. We should be tolerant of this for hook I/O
redirection, as our primary concern is not garbling our own output stream.
The old str-based += collector performed very nicely on Linux, but
turns out to be quadratically expensive on Windows, causing
chunkbuffer to dominate in profiles.
This list-based version has been measured to significantly improve
performance with large chunks on Windows, with negligible overall
overhead on Linux (though microbenchmarks show it to be about 50% slower).
This may increase memory overhead where += didn't behave quadratically. If we
want to gather up 1G of data to join, we temporarily have 1G in our
list and 1G in our string.
When commiting to a repo with lots of history (>400000 changesets)
checking the results of revset.py:descendants against the subset takes
some time. Since the subset equals the entire changelog, the check
isn't necessary. Avoiding it in that case saves 0.1 seconds off of
a 1.78 second commit. A 6% gain.
We use the length of the subset to determine if it is the entire repo.
There is precedence for this in revset.py:stringset.
When commiting to a repo with lots of history (>400000 changesets)
the filteredrevs check (added with 373606589de5) in changelog.py
takes a bit of time even if the filteredrevs set is empty. Skipping
the check in that case shaves 0.36 seconds off a 2.14 second commit.
A 17% gain.
'*' causes the resulting RE to match 0 or more repetitions of the preceding RE:
>>> bool(re.search('.*', ''))
>>> True
This causes an infinite loop because currently we're only checking if there was
a match without looking at where we are in the searched string.
The same we have `unstable` and `bumped`. Convenient method to access troubles
information in general may land later.
This get actual use and testing in the next changesets.
This changesets add a new `divergent()` revset similar to `unstable()` and
`bumped()` one. Introducting this revset allows actuall test of the divergent
detection.
Divergent changeset are final successors (non obsolete) of a changeset who
compete with another set of final successors for this same changeset.
For example if you have two obsolescence markers A -> B and A -> C, B and C are
both "divergent" because they compete to be the one true successors of A.
Public revision can't be divergent.
This function is used and tested in the next changeset.
Successors set are an important part of obsolescence. It is necessary to detect
and solve divergence situation. This changeset add a core function to compute
them, a debug command to audit them and solid test on the concept.
Check function docstring for details about the concept.
This replaces unnecessary parentrevs() calls with calculating min(parentset).
Even though the min operation is O(size of parentset), since parentrevs is
relatively expensive, this tradeoff almost always works in our favour. In a
repository with over 400,000 changesets, hg perfrevset "children(X)" takes:
Set X Before After
-1 0.51s 0.06s
-1000: 0.55s 0.08s
-10000: 0.56s 0.10s
-100000: 0.60s 0.25s
-100000:-99000 0.55s 0.19s
0:100000 0.60s 0.61s
all() 0.72s 0.74s
The relative performance is similar for Mercurial's own repository -- several
times faster in most cases, slightly slower for revisions close to 0 and
all().
The check pattern only checked for whitespace between keyword and operator.
Now it also warns:
> x = f(),7
missing whitespace after ,
> x = f()+7
missing whitespace in expression
Up until now the templates that show RSS and Atom feeds on the "repository
lists" (i.e. gitweb and monoblue) showed them for all entries, including regular
folders. Clicking on those "folder RSS" links would result in an error page
being shown.
This patch hides those links for regular folders.
There were no RSS nor Atom feeds for the branches page. Different hgweb
templates linked to different feeds on their branches page (some linked to the
tags feed, some to the log feed and some to the unexisting branches feed).
The current query to get the new bookmark target for stripped revisions
involves multiple walks up the DAG, and is really expensive, taking over 2.5
seconds on a repository with over 400,000 changesets even if just one
changeset is being stripped.
A slightly simplified version of the current query is
max(heads(::<tostrip> - <tostrip>))
We make two observations here.
1. For any set s, max(heads(s)) == max(s). That is because revision numbers
define a topological order, so that the element with the highest revision
number in s will not have any children in s.
2. For any set s, max(::s - s) == max(parents(s) - s). In other words, the
ancestor of s with the highest revision number not in s is a parent of one
of the revs in s. Why? Because if it were an ancestor but not a parent of s,
it would have a descendant that would be a parent of s. This descendant
would have a higher revision number, leading to a contradiction.
Combining these two observations, we rewrite the revset query as
max(parents(<tostrip>) - <tostrip>)
The time complexity is now linear in the number of changesets being stripped.
For the above repository, the query now takes 0.1 seconds when one changeset
is stripped. This speeds up operations that use repair.strip, like the rebase
and strip commands.
This changes graft to explicitly track the progression of commits it
makes, and updates it's idea of the current node based on it's last
commit, rather than from the working copy parent. This should have no
effect on the value of current since we were reading the working copy
parent immediately after commiting to it.
The motivation for this change is that a subsequent patch will break
the current node and working copy relationship. Splitting this out
into a separate patch will make that one more readible.
This moves the logic for generating the commit metadata ahead of the
merge operation. The only purposae of this patch is to make
subsequent patches easier to read, and there should be no behavior
changes.
This pulls the code used to calculate the changes that need to happen
during merge.update() into a separate function. This is not useful on
its own, but is instead preparatory to performing grafts in memory
when there are no potential conflicts.
hg perfstatus -u on a working directory with 170,000 files, without this
change:
! wall 1.839561 comb 1.830000 user 1.120000 sys 0.710000 (best of 6)
With this change:
! wall 1.804222 comb 1.790000 user 1.140000 sys 0.650000 (best of 6)
hg perfstatus on the same directory, without this change:
! wall 1.016609 comb 1.020000 user 0.670000 sys 0.350000 (best of 10)
With this change:
! wall 0.985573 comb 0.980000 user 0.650000 sys 0.330000 (best of 10)
hg perfstatus -u on a working directory with 170,000 files, without this
change:
! wall 1.869404 comb 1.850000 user 1.170000 sys 0.680000 (best of 6)
With this change:
! wall 1.839561 comb 1.830000 user 1.120000 sys 0.710000 (best of 6)