Before this patch, test-tag.t can't run successfully on Windows,
because:
- quoted hg command ('"hg"') prevents "hg.bat" from working correctly
(only at testing with pure Python build)
"%~f0" and "%~dp0hg" in "hg.bat" cause unexpected result in this
case. BTW, quoted "\path\to\hg" works correctly.
- "`pwd`" in the command line is expanded unexpectedly
not "C:\path\to\TESTTMP" but "C;C:\path\to\TESTTMP"
Add a new internal:tagmerge merge tool which implements an automatic merge
algorithm for mercurial's tag files
The tagmerge algorithm is able to resolve most merge conflicts that
currently would trigger a .hgtags merge conflict. The only case that
it does not (and cannot) handle is that in which two tags point to
different revisions on each merge parent _and_ their corresponding tag
histories have the same rank (i.e. the same length). In all other
cases the merge algorithm will choose the revision belonging to the
parent with the highest ranked tag history. The merged tag history is
the combination of both tag histories (special care is taken to try to
combine common tag histories where possible).
The algorithm also handles cases in which tags have been manually
removed from the .hgtags file and other similar corner cases.
In addition to actually merging the tags from two parents, taking into
account the base, the algorithm also tries to minimize the difference
between the merged tag file and the first parent's tag file (i.e. it
tries to make the merged tag order as as similar as possible to the
first parent's tag file order).
The algorithm works as follows:
1. read the tags from p1, p2 and the base
- when reading the p1 tags, also get the line numbers associated to each
tag node (these will be used to sort the merged tags in a way that
minimizes the diff to p1). Ignore the file numbers when reading p2 and
the base
2. recover the "lost tags" (i.e. those that are found in the base but not on p1
or p2) and add them back to p1 and/or p2
- at this point the only tags that are on p1 but not on p2 are those new
tags that were introduced in p1. Same thing for the tags that are on p2
but not on p2
3. take all tags that are only on p1 or only on p2 (but not on the base)
- Note that these are the tags that were introduced between base and p1 and
between base and p2, possibly on separate clones
4. for each tag found both on p1 and p2 perform the following merge algorithm:
- the tags conflict if their tag "histories" have the same "rank" (i.e.
length) _AND_ the last (current) tag is _NOT_ the same
- for non conflicting tags:
- choose which are the high and the low ranking nodes
- the high ranking list of nodes is the one that is longer.
In case of draw favor p1
- the merged node list is made of 3 parts:
- first the nodes that are common to the beginning of both the
low and the high ranking nodes
- second the non common low ranking nodes
- finally the non common high ranking nodes (with the last one
being the merged tag node)
- note that this is equivalent to putting the whole low ranking node
list first, followed by the non common high ranking nodes
- note that during the merge we keep the "node line numbers", which will
be used when writing the merged tags to the tag file
5. write the merged tags taking into account to their positions in the first
parent (i.e. try to keep the relative ordering of the nodes that come
from p1). This minimizes the diff between the merged and the p1 tag files
This is done by using the following algorithm
- group the nodes for a given tag that must be written next to each other
- A: nodes that come from consecutive lines on p1
- B: nodes that come from p2 (i.e. whose associated line number is None)
and are next to one of the a nodes in A
- each group is associated with a line number coming from p1
- generate a "tag block" for each of the groups
- a tag block is a set of consecutive "node tag" lines belonging to the
same tag and which will be written next to each other on the merged
tags file
- sort the "tag blocks" according to their associated number line
- put blocks whose nodes come all from p2 first
- write the tag blocks in the sorted order
Notes:
- A few tests have been added to test-tag.t. These tests are very specific to
the new internal:tagmerge tool, so perhaps they should be moved to their own
test file.
- The merge algorithm was discussed in a thread on the mercurial mailing list.
In http://markmail.org/message/anqaxldup4tmgyrx a slightly different algorithm
was suggested. In it the p1 and p2 tags would have been interleaved instead of
put one before the other. It would be possible to implement that but my tests
suggest that the merge result would be more confusing and harder to understand.
Before this patch, "localrepository.tag()" doesn't take "editor"
argument, and this prevents callers from passing "editor" argument to
"localrepository.commit()" invoked internally.
This patch adds "editor" argument to "localrepository.tag()" (and
"_tag()", too), and makes "commands.tag()" invoke it with "editor"
argument.
This patch also omits explicit "localrepository.savecommitmesssage()"
invocation, because "localrepository.commit()" will invoke specified
"editor" and save edited commit message into ".hg/last-message.txt"
automatically.
Before this patch, manually edited commit message for "hg tag -e"
isn't saved into ".hg/last-message.txt" until it is saved by
"localrepository.savecommitmessage()" in "localrepository.commit()".
This may lose such commit message, if unexpected exception is raised.
This patch saves manually edited commit message for "hg tag -e" into
".hg/last-message.txt" just after user editing. This patch doesn't
save the message specified by -m option (-l is not supported for "hg
tag") as same as other commands.
This is the simplest implementation to fix on stable. Editing and
saving commit message should be centralized into the framework of
"localrepository.commit()" with "editor" argument in the future.
This speeds up the in-memory version of debugbuilddag that I'm
working on considerably for the case where we want to build just
a 00changelog.i (for discovery tests, for instance).
There are a couple of test changes because node ids in tests
have changed.
The changes to the patch names in test-mq-qdelete.t were required
because they could collide with nodeid abbreviations and newly
actually do (patch "c" collides with id "cafe..." for patch "b").
Previously, when rolling back a transaction, some users could be confused
between the level to which the store is rolled back, and the new parents
of the working directory.
$ hg rollback
rolling back to revision 4 (undo commit)
With this change:
$ hg rollback
repository tip rolled back to tip revision 4 (undo commit)
working directory now based on revision 2 and 1
So now the user can realize that the store has been rolled back to an older
tip, but also that the working directory may not on the tip (here we are
rolling back the merge of the heads 2 and 1)
Since it's usually only desirable to make tag commits on top of branch
heads, abort if the working dir parent is not a branch head. -f/--force
may be passed to commit at a non-head anyway.
Does not abort if working dir parent is a named branch head but not a
topological head.
This patch corrects the check for tagging on an uncommitted merge. We
should never commit a new tag changeset on an uncommitted merge, whether
or not --rev is specified. It also changes the error message from:
abort: cannot partially commit a merge (do not specify files or patterns)
to the much more accurate (and terse):
abort: uncommitted merge
Local tags are ok.
Many tests fixed the commit date of their changesets at '1000000 0' or
similar. However testing with "Mon Jan 12 13:46:40 1970 +0000" is not
better than testing with "Thu Jan 01 00:00:00 1970 +0000", which is
the default run-tests.py installs.
Removing the unnecessary flag removes some clutter and will hopefully
make it clearer what the tests are really trying to test. Some tests
did not even change their output when the dates were changed, in which
case the -d flag was truly irrelevant.
Dates used in sequence (such as '0 0', '1 0', etc...) were left alone
since they may make the test easier to understand.