Summary:
Now that all our repos are treemanifest, let's enable the extension by
default in tests. Once we're certain no one needs it in production we'll also
make it the default in core Mercurial.
This diff includes a minor fix in treemanifest to be aware of always-enabled
extensions. It won't matter until we actually add treemanifest to the list of
default enabled extensions, but I caught this while testing things.
Reviewed By: ikostia
Differential Revision: D15030253
fbshipit-source-id: d8361f915928b6ad90665e6ed330c1df5c8d8d86
Summary:
Move the strip extension to core. Rename the command to `hg debugstrip` as it
is not intended for use by users. Users should use `hg hide` instead.
Reviewed By: quark-zju
Differential Revision: D14185822
fbshipit-source-id: ef096488cb94b72a7bb79f5bf153c064e0555b34
Summary: Also change the internal API so it no longer accepts the "heads" argument.
Reviewed By: ryanmce
Differential Revision: D6745865
fbshipit-source-id: 368742be49b192f7630421003552d0a10eb0b76d
Upon pull or unbundle, we display a message with the range of new revisions
fetched. This revision range could readily be used after a pull to look out
what's new with 'hg log'. The algorithm takes care of filtering "obsolete"
revisions that might be present in transaction's "changes" but should not be
displayed to the end user.
Import uses paths relative to the root of the repository, so when
user imports patch with paths relative to the current working directory
import aborts with 'unable to find file for patching'.
This patch improves this situation by warning the user that paths are
relative to the root of repository when patching fails.
The --prefix option is meant to be relative to the root rather than the current
working directory. This is for consistency with the rest of 'hg import' --
paths in patches are otherwise considered to be relative to the root.
In upcoming patches we'll hook this option up to the patch functions.
--exact with --prefix is currently disallowed because I can't really come up
with sensible semantics for it, especially when only part of the patch is
preserved.
Before this patch, external editor is invoked when imported patch has
no commit message, even if "--exact" is specified. Then, exact-ness is
broken, because empty commit message causes failure of committing.
This patch avoids editor invocation at importing with "--exact" for
exact-ness, because commit message in the patch should be kept as it
is in such case, even if it is empty.
Before this patch, "hg import" allows combination of "--exact" and
"--edit", even though editing commit message breaks exact-ness.
This patch disallows meaningless combination of "--exact" and "--edit".
This patch also enhances "test-import-bypass.t" and "test-import.t",
because "hg import" hasn't been explicitly tested around editor
invocation and "--edit" option.
This patch explicitly tests below:
- with "--bypass" (regardless of "--edit"):
- not invoked, if the patch contains the commit message
- not invoked, if the commit message is explicitly specified
- invoked, otherwise (just adding comment)
- without "--bypass":
- with "--edit":
- not invoked, if "--no-commit" is not specified
- invoked, otherwise
- without "--edit":
- not invoked, if the patch contains the commit message
- not invoked, if "--message" or "--logfile" is specified
(just adding comment)
- invoked, otherwise
Many tests didn't change back from subdirectories at the end of the tests ...
and they don't have to. The missing 'cd ..' could always be added when another
test case is added to the test file.
This change do that tests (99.5%) consistently end up in $TESTDIR where they
started, thus making it simpler to extend them or move them around.
The previous code was assuming a default context of 3 lines. When fuzzing, it
would take this value in account to reduce the amount of removed line from
hunks top or bottom. For instance, if a hunk has only 2 lines of bottom
context, fuzzing with fuzz=1 would do nothing and with fuzz=2 it would remove
one of those lines. A hunk with one line of bottom context could not be fuzzed
at all. patch(1) has apparently no such restrictions and takes the fuzz level
at face value.
- test-import.t: fuzz/offset changes at the beginning of file are explained by
the new fuzzing behaviour and match patch(1) ones. Patching locations are
different but those of my patch(1) do not make a lot of sense right now
(patched output are the same)
- test-import-bypass.t: more agressive fuzzing makes a patching supposed to
fail because of context, succeed. Change the diff to avoid this.
- test-mq-merge.t: more agressive fuzzing would allow the merged patch to apply
with fuzz, but fortunately we disallow this behaviour. The new output is
kept.
I have not enough experience with patch(1) fuzzing to know whether aligning our
implementation on it is a good or bad idea. Until now, it has been the
implementation reference. For instance, "qpush" tolerates fuzz (test-mq-merge.t
runs the special case of pushing merge revisions where fuzzing is forbidden).
Now 'rollback' after 'import' is less surprising: it rolls back all of
the imported changesets, not just the last one. As an extra added
benefit, you don't need 'rollback -f' after 'import --bypass', which
was an undesired side effect of fixing issue2998 (f9f52d71c33b)..
Note that this is a different take on issue963, which complained that
rollback after importing multiple patches returned the working dir
parent to the starting point, not to the second-last patch applied.
Since we now rollback the entire import, returning the working dir to
the starting point is entirely logical. So this change also undoes
b12d79024900, the fix to issue963, and updates its tests accordingly.
Bottom line: rollback after import was weird before issue963,
understandable since the fix for issue963, and even better now.
The old code printed (with ui.status()) the changeset ID created by
patch N after committing patch N+1, e.g.
applying patch1
applying patch2
applied 1d4bd90af0e4
where 1d4bd90af0e4 is the changeset ID resulting from patch1. That's
just weird. It's also inconsistent: we only reported the changeset ID
when applying >1 patches. And it's inconsistent with 'commit', which
only tells you the new changeset ID in verbose mode. Finally, the
existing code was I18N-hostile, since it concatenated translated
strings.
The new way is to print the just-created changeset ID with ui.note()
immediately after committing it. It also clarifies what the user
message is for easier I18N.
You can get into trouble if you commit, update back to an older
changeset, and then rollback. The update removes your valuable changes
from the working dir, then rollback removes them history. Oops: you've
just irretrievably lost data running nothing but core Mercurial
commands. (More subtly: rollback from a shared clone that was already
at an older changeset -- no update required, just rollback from the
wrong directory.)
The fix assumes that only "commit" transactions have irreplaceable
data, and allows rolling back non-commit transactions as always. But
when rolling back a commit, check that the working dir is checked out
to tip, i.e. the changeset we're about to destroy. If not, abort. You
can get back the old (dangerous) behaviour with --force.
If the working dir parent was destroyed by rollback, then the old
behaviour is perfectly reasonable: restore dirstate, branch, and
bookmarks. That way the working dir moves back to an existing
changeset rather than becoming an orphan.
But if the working dir parent was unaffected -- say, you updated to an
older changeset and then did rollback -- then it's silly to restore
dirstate and branch. So don't do that. Leave the status of the working
dir alone. (But always restore bookmarks, because that file refers to
changeset IDs that may have been destroyed.)
This feature is more a way to test patching without a working directory than
something people asked about. Adding a --rev option to specify the parent patch
revision would make it a little more useful.
What this change introduces is patch.repobackend class which let patches be
applied against repository revisions. The caller must supply a filestore object
to receive patched content, which can be turned into a memctx with
patch.makememctx() helper.